Four-sided longitudinally milling. Price for a four-sided milling machine

To ensure the safety of the machine CDK 4-3 It has:

− bolts for connection to the workshop ground loop;

- closed on all sides working area saws, except for the opening at the exit of the processed material;

− two rows of claw curtains ensure the constancy of the wedging chain with an angle 55−650 when processing material thickness 6−120 mm;

− riving knife;

− a brake device that ensures the stop of the saw shaft within no more than 6 seconds from the moment it is turned off;

- interlocks that prevent the machine from starting when the caliper doors are open, the claw curtain is raised, the feed chain guard is removed;

- blocking the feed to the fixed saw;

− local lighting lamp.

2.2 Four-sided longitudinal milling machines

1. Purpose and scope of the machine

On four-sided longitudinal milling machines, flat and profile processing of straight-line blanks is carried out from four sides in size in one pass. Machines of this group, depending on the width of milling, are divided into light (moulding) for processing profiled furniture and joinery parts up to 160 mm wide, medium for processing joinery flat and profile parts up to 250 mm wide, and heavy for processing molded products and sawn timber of mass production up to 650 mm wide.

2. Main technical data

The largest processing dimensions, mm:
Number of cutter heads, pcs.
Cutter head diameter, mm
Frequency of rotation of cutter heads, min -1
Total power of electric motors, kW
Workpiece dimensions, mm maximum width maximum thickness minimum length
Total installed power, kW
Overall dimensions maximum (length, width, height), m

3. Machine controls

Figure 4General formFour-sided longitudinal milling machine

1 - bed;

2 - lower spindle;

3 - left spindle;

4 - molding support;

5 - upper spindle;

7 - pressure rollers;

8 - clamp support;

9 - handwheel;

10, 14 - rollers; 11 claw protection;

12 - side clamp;

4. Brief description of the machine structure

Figure 5. Principal diagrams of four-sided longitudinal milling machines:A - with concentrated feed;b - with distributed feed

In four-sided machines operating according to the most common planer-thickness scheme (Figure 5 A), horizontal spindle 5 creates a base surface on the bottom face of the workpiece, so the workpiece must pass over this spindle without deforming. In some machines and automatic lines, various devices are used to prevent deformation of the workpiece, for example, to create an intermediate base, replace the movable basing along the face with a rigid basing along the edges, etc.

When using an intermediate base (Figure 5 b) the machine is equipped with an additional cutter head 5 , processing the workpiece not over the entire face, but milling two shallow ( 2...3 mm) groove on the edges. A significant reduction in cutting forces, and consequently, feed resistance forces, allows to reduce the traction force. Therefore, when processing such grooves, it is possible to significantly reduce the pressure of the feeding organs on the wood. According to the intermediate base of the workpiece developed in this way, basing is carried out on a special mounting surface of the machine 13 when processing the entire face with a lower milling head 6 . Further basing occurs, as usual, along the entire lower surface. (

Depending on the complexity of the profile, surface roughness and processing accuracy, machines can have up to 10 spindles. Right vertical spindle 8 creates a base surface on the side of a part. Left vertical 12 and top horizontal 1 spindles of four-sided machines process the part to size, like thickening shafts. If required, you can also perform profiling. Vertical spindles can be located opposite each other (Figure 5, A) or sequentially (Figure 5 b). Medium and heavy machines have additional horizontal and vertical spindles for making a profile on either side of the part or dividing it with circular saws into several parts along the width.

The spindle assembly of the four-sided machine is a steel sleeve, in the bore of which a dynamically balanced spindle is installed on high-precision rolling bearings with preload. The cantilever part of the spindle has a seat neck for a cutting tool 180-250 mm long for horizontal and 120-140 mm for vertical spindle assemblies. Spindle speed - 5 000 ... 12 000 min -1. The drive in rotation from the electric motor - through flat or flat-toothed belt transmission. The radial runout of the spindle seat does not exceed 1-2 micrometers. It is traditional to install a shell cutter or cutter head on the landing neck. Primarily for medium and heavy machines, there are devices for dynamic milling of cutters. Such jointing is carried out with a soft abrasive for both straight and profile knives at operating speeds, which allows you to bring all the knives to the same blade diameter.

The spindle assembly is made maintenance-free, since the plastic long-life grease is laid in the bearings for the entire period of their operation. In some machines, the cutting tool is mounted directly on the shaft of an electric motor powered by high frequency current. The spindles have vertical and horizontal adjusting movements with the help of screw pairs.

In light machines, horizontal and vertical cutter heads are cantilevered on a unified support. In medium and heavy machines, to give greater rigidity, the cutter heads are located between the supports, one of which is removable for quick tool changes.

The feed mechanisms of four-sided longitudinal milling machines are divided into two main groups: concentrated and distributed. According to the concentrated scheme (Figure 5 A) the feed mechanism is located in front of the cutter heads and the workpieces pass through the machine, pushing each other. Top feed drive 3 and lower 4 rollers is carried out from an electric motor through a V-belt variator, worm gear, chain and gear drives. Lateral clamping of the workpiece to the guide rulers 7 first carry out flat springs 10 , then roller clamps 11 , top clamp - spring-loaded rollers 2.

Since, according to the concentrated feeding scheme, the traction force is developed by only two pairs of rollers, a large amount of their clamping is required, which leads to crushing and slipping of the part. Therefore, with a concentrated scheme, roller-conveyor and two-conveyor feeds are more reliable. Since the blanks according to this scheme pass through the machine, pushing each other, sufficient accuracy is required in the preliminary trimming of their ends.

According to the distributed scheme (see Figure 5 b) feed rollers 3 much more (8... 14) , and they are distributed throughout the machine. Under these conditions, the feed force developed by each roller is sufficient to overcome the feed resistance forces of only one cutter head. The design of the rollers allows processing workpieces of small length (from 200 mm). Distributed feed is especially reliable when machining parts with oblique ends. The working surface of the rollers is corrugated, smooth metal or rubberized.

The drive of the feed rollers is carried out for most machines from an electric motor (for heavy ones, most often from a hydraulic motor) through a V-belt variator, worm gears and dual chain drives or cardan shafts. The feed rate is regulated, as a rule, smoothly, either by a variator or, more promising, electronically. The feed rate for light and medium four-sided machines ranges from 5 ... 45 m / min, for heavy machines - up to 80 and even up to 200 m / min. Manual loading of parts into the machine at speeds above 30 m/min is not possible, so four-sided machines are equipped with automatic loading devices.

Four-sided longitudinal milling machines(milling-molding, planing or planing-molding) are designed to process workpieces from four sides in one pass in order to obtain products of an exact geometric shape. They are used for the production of molded products, lining, floor boards, imitation timber, tongue and groove, eurolining, parquet, parquet board, engineering board, parquet board, terrace board, planken, double beam, profiled beam, massive beam, glued beam, planed beam, taruka beam, blockhouse, plinth, platband, including - platband from M DF.

Recommendations for choosing 4-sided woodworking machines

In order to buy a four-sided machine, you need to decide on the type of products. If you want to buy lining equipment, then the basic four-sided machine is the Beaver five-spindle machine.

The price of the equipment may differ, because the four-sided for wood is four-spindle, five-spindle, six-spindle, seven-spindle and multi-spindle. Depending on the task of the client is selected required amount Spindles: 4-spindle machine is suitable for bar sizing, defect opening, small carpentry tasks. A 4 spindle clapboard machine can be used in most cases, but it is better to buy a 5 spindle or 6 spindle quad.

There are different technologies for the production of lining and other moldings, but a 4-sided machine will be used everywhere. And if the client has a large production volume, it is worth buying a high-speed model, which is in demand in the production of floorboards, lining, blockhouse, imitation timber and must be equipped with a jointer and counter supports and have a feed speed of 60 m/min. A jointer in a four-sided machine is a prerequisite for the production of high quality moldings. In addition to the purchase of the equipment itself, it is necessary to purchase mechanization for four-sided woodworking machines or an automatic feeding system for workpieces.

The machine for a bar is a heavy and complex device. Therefore, the Kami Association offers to get acquainted with Beaver machines for profiled and glued beams, which comply with GOST and have a 1-year warranty. Therefore, the Beaver and Quadro machines are the best four-sided machine in terms of price-quality ratio.

Purchase at a bargain price

How to choose a 4-sided machine? The specialists of the association KAMI will prompt. They will also help you compare v-hold moulders and burrs for lining and other moldings, which have nothing to do with the famous Beaver brand. If you are interested in models from Winner or Weinig, including used ones, then you can pick up any four-sided machine from the Beaver or QUADRO line.

TO category:

Woodworking machinery

Four-sided longitudinal milling machines

Four-sided longitudinal milling machines are designed for flat and profile processing in one pass of all four surfaces of the workpiece or board. Sometimes saws are installed on the same machines to separate workpieces in width or thickness.

Design

The working bodies of a four-sided longitudinal milling machine (Fig. 1) consist of two horizontal spindles - upper and lower - and two vertical spindles - right and left. In machines of some models, a fifth lower horizontal spindle is additionally installed. Material supply roller-caterpillar or roller. The machines are equipped with guide lines and clamps. All elements are fixed on a cast frame.

In the process of work, blanks (boards) are continuously fed into the feeding mechanism manually or with the help of a feeding device. The workpiece captured by the feeders enters the knives of the lower horizontal cutter head. The lower cutter head cuts the lower face, creating the first base surface, then the workpiece enters the cutter head of the right vertical spindle, which, by processing the edge, forms the second base surface. Based on these two surfaces, the workpiece moves on to the cutterhead of the left vertical spindle, planing the second edge, and finally, the upper horizontal head cuts the top face.

Spindles are usually mounted on calipers that allow you to change their position when adjusting in the vertical and horizontal planes. This is very important, since four-sided longitudinal milling machines are designed to process workpieces (boards) of various sizes, both in width and in thickness. Vertical machine spindles can also be tilted in a plane perpendicular to the feed direction.

Rice. 1. Scheme of a four-sided longitudinal milling machine: 1 - support of the fifth (moulding) spindle, 2 - support of the upper horizontal spindle, 3 - upper horizontal spindle, 4 - right vertical spindle, 5 - support of the lower horizontal spindle, 6 - support of the feed mechanism, 7 - lower horizontal spindle, 8 - horizontal clamps, 9 - left vertical spindle, 10 - soup port of the left vertical spindle, 11 - molding spindle, 12 - ruler guides, 13 - base plate, 14 - vertical clamp

The additional lower fifth spindle And is often called a moulder, it is designed to select a profile in the lower face of the workpieces and to separate them in width or thickness into separate bars. In the first case, profile cutters are attached to the spindle, in the second case, circular saws with a diameter of up to 350 mm. In C16-4A machines, the molding support can be rearranged from the lower position to the upper one for sampling a deep profile on the upper face of the workpiece (board). In addition, these machines provide the ability to rotate an additional spindle by 90 °, which allows it to be used for dividing workpieces by thickness.

Spindles rotate at a frequency of 5000-6000 rpm from individual electric motors. Often, machines are equipped with electric motors with elongated shafts (Fig. 141), which are simultaneously spindles.

Spindles made separately from electric motors are connected to them by couplings or belt drives; in this case, electric motors operate on industrial frequency current, in all others - on electric current increased frequency (100 Hz).

Some models of four-sided planers are equipped with ironing knives (Fig. 3) mounted directly behind the first horizontal lower spindle. Of the three installed ironing knives, two work, and the third is recessed below the guides by an eccentric and is in reserve. Ironing knives remove small irregularities from the processed lower layers of the workpieces. Each knife is installed in a sliding box at a certain angle to the direction of movement of the workpieces. The knives can be moved in height (each separately) by eccentric rollers. This is necessary to change the thickness of the chip being removed.

Ironing knives remove long chips that exhausters cannot remove, so the machines are additionally equipped with a chip crusher powered by a separate electric motor.

If the chips are clogged under the ironing knives, then the front surface of the workpiece may form bulges, bumps, grooves and depressions. If this defect is detected, the correct installation of the knife is checked. By turning the eccentric, the knife is drowned, the box with the knife is removed from the machine for inspection and the reserve knife is put into operation.

Chips are driven under the knife when there is a gap between it and the chip breaker (local or along the entire length) or if the knife protrudes from the chip breaker by less than 1-2 mm, and also when the back edge of the knife is below the level of the chip breaker. Having eliminated the shortcomings, the box with the knife is put in place.

Rice. 2. An electric motor with a shaft that simultaneously serves as a vertical spindle of a longitudinal milling machine: 1 - housing, 2 - nut, 3 - cutter, 4 - spindle lifting mechanism, 5 - caliper guides, 6 - screw for moving the spindle in a horizontal plane

With roller-caterpillar feed, the chain and rollers are driven by a single drive (often with a variator for stepless speed changes). The feed rate is in the range of 4-42 m/min. The top rollers can be adjusted in height.

The roller feed mechanism is located in the head of the machine, however, the rollers can be dispersed along the machine. Their surface is corrugated or smooth. If the rolls are mounted behind the upper cutterbar, they are sometimes covered with rubber, which gives better grip on the surface of the workpiece and at the same time maintains the roughness class of its processing.

Rice. 3. Ironing knives: 1 - knife, 2 - box, 3 - screw, 4 - eccentric roller, 5 - chip crusher

Guide devices consist of steel plates and guide rulers. The plates form the supporting surface for the workpieces. The base plate of the front table in front of the lower horizontal cutter head is set in height by turning the handwheel of the screw mechanism, and this achieves a change in the thickness of the chips removed from the workpiece. This thickness should not exceed the height of the irregularities on the workpiece surface.

Four-sided longitudinal milling machines are equipped with a centralized control system, which provides for a blocking that prevents breakage of individual elements of the machine if the machine operator makes a mistake in controlling the machine.

Four-sided longitudinal milling machines C10-2, C16-5, C16-4A, C25-01 have much in common in design and differ mainly in size and, in some cases, in the order in which the working bodies are placed, and the power of the drive motors.

The C10-2 machine is designed to simultaneously process four sides of blanks and boards up to 100 mm wide (as indicated in the model index) and up to 50 mm thick. All C16 machines are designed for processing blanks and boards up to 160 mm wide and up to 80 mm thick; C25-01 machines - for blanks up to 260 mm wide and up to 125 mm thick.

The C16-4A machine is the main one in the group of four-sided longitudinal milling machines. It is designed for planar milling of boards, bars and planks simultaneously from four sides.

The machine bed is cast iron, box-shaped. Electric motors are fixed on the supports of the frame, cutter heads are installed on their shafts. Guide lines and spring-loaded rollers are also fixed on the bed for clamping workpieces to the machine table and guide line.

The support with the electric motor of the lower horizontal knife head (the first in the feed direction) can move vertically and is fixed with an eccentric clamp. The caliper with the electric motor of the right vertical head (second in the feed direction) can move in the transverse direction and is fixed with a clamp. The caliper of the left vertical head (the third in the feed direction) moves vertically with a handwheel and is fixed with a clamp; in the axial direction, the position of the caliper is changed and fixed with screws.

To set the feed rollers, cutterheads and clamping elements to the size of the material to be planed, the machine provides the appropriate scales. A molding counter is installed on the machine, the control panel is located on the gable part of the bed, the electrical equipment of the machine is placed in the electrical cabinet. The workpieces are fed into the machine manually and with the help of a magazine, they are picked up by the feed (two lower and two upper) rollers from the drive, which includes an electric motor, a variator, a gearbox and a gear transmission. The feed rate is infinitely variable.

The position of the workpiece moving during processing is determined by the support tables and side guides.

All spindles have guards that also serve as chip traps. A board thickness limiter and claw protection are installed in front of the feed mechanism.

The machine control system ensures that the feed mechanism cannot be switched on and operated when at least one of the electric motors of the working bodies is turned off, and the electric motors cannot be turned on when the guards are not installed.

Rice. 4. Four-sided longitudinal milling machineС25-01: 1 - upper knife shaft support, upper knife shaft setting handwheel, 3 - clamping device block setting handwheel, 4 - clamping device block, 5 - feed mechanism adjustment handwheels, 6 - control panel, 7 - block with feed mechanism, 8 - exhauster receiver of the left vertical spindle

The power of the electric motors of the machine and high speed feeds allow the use of high-speed processing modes during the operation of the machine.

The C16-4A machine as a machine with continuous processing, with a stepless feed rate, can be included in an automatic line.

The C25-01 four-sided longitudinal milling machine is also basic model. The roller feed mechanism with stepless speed change is installed in the front block of the bed. The design of the machine allows it to be supplemented with an automatic magazine feeder, for the drive of which an asterisk is provided on one of the shafts of the machine feed mechanism. The setting of the feed rollers for the thickness of the material is done by handwheels. Clamping elements located in the area of ​​vertical spindles are mounted in a common block. When adjusting the clamping elements in height, the block moves in a vertical plane with a handwheel. The upper horizontal knife shaft is mounted on a support on the left side of the bed. To adjust it in height, a screw mechanism for moving the caliper with a handwheel is provided. The machine control panel is located at the front of the machine where the workplace machine operator.

Operating mode selection

The operating mode is selected according to the power of the most loaded electric motor and according to the roughness class of the treated surface. These indicators are calculated in the same way as for thicknessing machines, but for all electric motors of the working bodies. Then, the feed rate is selected according to the power of the most loaded engine, provided that the required class of roughness of the machined surface is obtained.

Machine setup

Four-sided longitudinal milling machines in terms of settings are the most complex of the entire group of longitudinal milling machines. They set up cutting units, clamping elements and feeders.

The upper generatrix of the cylindrical cutting surface of the lower horizontal cutter head, located in front of the rest of the cutting tools of the machine, must coincide with the working surface of the rear (fixed) table or be 0.02-0.05 mm higher than it. The position of the cutter head relative to the back table is checked in the same way as when setting up a jointer, i.e., with a control bar. The coincidence of the horizontal tangent to the cutting surface and the working surface of the rear table is ensured by moving the height of the cutter head spindle support, turning the eccentric roller on which the support rests, or moving the support by other devices.

The front (movable) table of the machine is installed below the rear by the amount of the layer of wood that is cut off from the face of the workpiece. This size depends on the machining allowance and ranges from 1 to 3 mm.

If the Design of the front table provides for the possibility of moving in height only its sponge located at the cutter head, then the thickness of the layer being cut off determines the position of this sponge. This design of the table makes it easy to change the thickness of the removed layer of wood.

When adjusting the lower horizontal cutter head for profile milling, in addition to setting it in height, it is necessary to adjust its position along the width of the table. For adjustment, a reference part or a piece of a previously processed part is used. The part is placed on the back table above the cutter head and pressed against the right vertical ruler.

If subsequent milling of the edges of the workpiece is provided, then spacers with a thickness equal to the thickness of the layer of wood cut off by the right cutter head are placed between the reference part and the ruler. The head is installed in horizontal and vertical directions along the reference part and fixed.

The upper horizontal cutter head located after the lower one is set so that the distance from the cutting edges of the knives to the table located under the head is equal to the thickness of the processed workpieces.

If the upper cutter head is located first in the course of the workpiece, then the upper table is also set up at the same time, to the working surface of which the workpiece is pressed by the upper face when milling its lower face with the lower horizontal cutter head. This table is installed above the rear table of the lower horizontal cutter head parallel to the table surface to a height equal to the thickness of the workpiece to be milled. The head is installed so that the horizontal cutting plane coincides with the working surface of the upper table.

For profile processing of the plate, the horizontal upper cutter head is adjusted in the same way as the profile lower one.

The right vertical cutterhead (or cutter) is installed in a horizontal plane so that it is possible to remove a layer of wood of a given thickness from the right edge of the workpiece. To do this, the cutting edge of the tool, which has the smallest radius of rotation (for profile milling of the edge), should protrude to the left beyond the plane of the right front vertical ruler by an amount equal to the thickness of the wood layer being removed from the most protruding part of the profile. The left vertical head (cutter) is set in the horizontal direction to the specified width of the part.

The working surface of the left guide ruler is installed in a plane tangent to the circle of rotation of the cutting edge of the tool, which has the smallest radius, parallel to the direction of feed of the workpiece. In the vertical direction, the cutting tool is installed so that its cutters overlap the thickness of the part,

For profiling the edges, the cutters on vertical spindles are adjusted to the reference part. The cutter is moved in height, achieving the coincidence of its profile with the profile of the reference part pressed against the machine table. If, after profiling the edges, it is planned to remove the layer of wood from the bottom layer of the workpiece, then the cutters are adjusted according to the reference part laid on the gasket. The thickness of the spacers should be equal to the thickness of the removed layer of wood. The supporting surface of the rollers or caterpillars should protrude 0.3-0.5 mm above the table surface. The lower feeders are adjusted by moving them in height.

The upper feed rollers are set in height at a distance from the surface of the lower rollers or caterpillars, equal to the thickness of the processed workpiece or slightly less than the thickness (by 1-1 (5 mm). The value of the pressure force of the upper feed rollers on the workpiece is adjusted by compressing the springs. The clamping force must be sufficient to overcome the resistance to feed; at the same time, too much pressure of the rollers on the workpiece should not be created, as this causes additional feed forces.

When adjusting the vertical clamps, adjust their position in height and set the value of the clamping force.

All vertical clamping elements located in front of the upper cutter head are set 1.5 mm below the horizontal plane of the longitudinal milling of the head, so that they press the workpiece, even if its upper face is not milled, and ensure the normal operation of other cutting tools of the machine. Vertical clamping devices after the upper cutter head are set below the horizontal cutting plane of the head by 0.5 mm.

Horizontal left clamps are set at the level of the cutting plane of the left vertical head (cutter). Clamps that serve to support chips in front of cutting tools (horizontal and vertical) are installed at the level of the cutting plane of the tool, parallel to the feed direction.

Clamps must prevent the workpiece from vibrating or moving away from the base surfaces. The amount of pressure is adjusted by tightening the springs.

After finishing the machine settings, it is necessary to remove foreign objects from the zone of cutting tools and other mechanisms of the machine, check by hand the ease of rotation of the cutting tools, put all the guards on the machine. Then turn on the machine and carry out trial processing of workpieces. After checking the dimensions and quality of the parts obtained, the machine is adjusted if necessary.

A properly configured machine should ensure the accuracy of the dimensions and shape of the machined parts with deviations from the straightness of the side edges of no more than 0.2 mm over a length of 1000 mm; from the parallelism of the side edges - no more than 0.3 mm over a length of 1000 mm; from the perpendicularity of the edge and face - no more than 0.15 mm over a length of 100 mm; from uniformity in thickness - according to the 2nd class of processing accuracy.

After pre-setting the machine for a given processing size, two or three test workpieces are processed and, based on the measurement results, they are considered to be a complete setting or adjustments are made to it.

The reference part used for tuning is a copy of the part, made with an accuracy one class higher than the accuracy class of the part. The standard is made from hardwood or, better, from lignofoil. The dimensions of the standard must be checked periodically.

It is permissible to use a piece of a previously processed part when setting up machines for rough processing of parts according to the 3rd accuracy class. The conditions for processing test parts, according to which the machine is adjusted, and the parts themselves must be characteristic of a given batch of workpieces.

When setting up, you must use accurate measuring tools.

Work on machines

Four-sided longitudinal milling machine is served by two or three workers. Before starting work, you should make sure that there are a sufficient number of blanks and that the exhauster system is in good condition,

Before starting the machine, they check the serviceability and correct position of all protective devices, and before setting up, turn off the machine's shield, on which the push-button control is located, in order to prevent the possibility of turning on the machine by mistake.

In a four-sided longitudinal milling machine, boards with wingedness, with deep risks or curves, as well as overdried, with large warping, cannot be sent.

In the process of work, the machine operator, standing at the feeding table, makes sure that the boards on the table rollers go in one row, without significant distortions, correcting incorrectly lying boards manually. If the machine is not equipped with a feeding table, then the boards or blanks from the stack are laid on the table in front of the machine. The material should be fed without inter-end breaks. When planing short workpieces, inter-face gaps lead to a stoppage of the workpiece in the machine, which can lead to the formation of processing defects on the machined surface (tearing across the part, arson). If end-to-end breaks are unavoidable at a given feed rate, the feed rate should be reduced.

The machine operator must monitor the correct position of the stops, which limit the size of the supplied workpieces, since the entry of workpieces with excessive allowances into the machine can lead to damage to the machine or to overheating of the electric motors.

The dimensions of the workpieces after milling should be controlled every 20-30 minutes using gauges. If, during operation, the speed of one of the working bodies drops (detected by the appearance of noise that is unusual for the normal operation of the machine), the machine operator must immediately turn off the feed until the working bodies rotate at the required speed. When slipping of the feed rollers, indicating a weakening of the clamps, you should stop the machine and, after examining it, eliminate the cause that disrupts the normal supply of workpieces to the machine.

When stopping the machine, check the condition of the electric motors and belt drives. If unacceptable heating of at least one electric motor is detected, the machine must be stopped and the cause of the heating must be eliminated. After 1.5-2 hours of work, it is necessary to joint and finish the knives.

When soiled, tables or rollers should be cleaned. The reason for the appearance of chips, tears, moss and hairiness on the treated surface may be a large thickness of the removed layer of wood. A chopped surface or a large difference in wavelength may be due to slack in the bearings.

Machine construction. Four-sided longitudinal milling machines are produced for processing with the greatest cross section blanks in width and thickness 100X50 mm (S10-3), 160X80 mm (S16-2A, S16F-1A) and 250X125 mm (S26-2M, S25-1A, S25-2A). For the processing of parquet boards, there are machines with the largest milling width of 70 mm (PARK7) and 100 mm (PARK9).

For mechanization of loading, store loading devices are used, attached to the machine, or special feeding tables. For unloading operations, the machines are equipped with post-machine conveyors and automatic stackers of finished parts.

The C26-2M four-sided longitudinal milling machine is designed for processing boards and squared parts. On the box-shaped bed, the calipers of the horizontal lower spindle, vertical right and left spindles and the upper horizontal spindle are placed in series. The machine can be equipped with an additional molding support, which is designed for making grooves in the part or cutting it into pieces when leaving the machine.

Rice. 1. Four-sided longitudinal milling machine S26-2M: 1 - bed, 2,3,5 - spindles, 4 - molding support, 6 - table, 7 - pressure rollers, 8 - pressure support, 9 - handwheels, 10, 14 - rollers, H - claw protection, 12 - side clamp, 13 - guide ruler

The cutting tools are mounted on spindles, which are driven by individual electric motors through a belt drive. The machine is equipped with a claw protection that prevents the back ejection of the workpiece from the machine. Nearby is a bar that serves as a limiter for the supply of blanks with an unacceptably large allowance.

The feed mechanism of the machine is located in front of the working spindles and consists of two lower non-driven and two upper driven rollers. For better grip with the workpiece, the upper rollers are made corrugated. The drive of the rollers is carried out from a separate electric motor with an adjustable pulley through a V-belt (variator) and a system gear wheels. The variator allows you to smoothly change the feed rate from 7.5 to 42 m/min. Spring-loaded rollers 7 are mounted on the support, pressing the part to the table. From the side, the workpiece is pressed by a spring clamp to the guide ruler.

Machines for processing parquet boards are similar in design. Distinctive feature machine tools - the presence of a conveyor feed mechanism for processing short workpieces. It is a two-chain driven conveyor with spring-loaded grips (thorns). The spikes provide reliable grip and feed of workpieces that differ in the size of the machining allowance up to 2 ... 3 mm.

Selecting the operating mode. The mode of operation of the machine is selected depending on the nominal dimensions of the part in terms of width and thickness, the complexity of the resulting profile and the required quality of processing.

According to the given dimensions of the part and the known allowances for processing, the thickness and width of the layer to be removed by each cutting tool is calculated. This data is used to select the allowable feed rate from the condition of the maximum load on the electric motors of the cutting mechanisms. The choice is made according to the graphs given in the machine manual, or by calculation using formulas. Often the top cutter head or left cutter is the busiest, producing deep, complex profiles. If increased requirements are set for the purity of the resulting surface, then the limiting speed of the workpiece should be assigned from the condition of the allowable feed per one cutter.

Setting up machines. Setting up four-sided longitudinal milling machines is a complex and time-consuming operation. To reduce the number of reconfigurations, workpieces of the same standard size should be processed in batches. The smallest batch size is chosen so that the end of its processing, if possible, coincides with the replacement of blunt cutting tools. In addition, the next batch of blanks should be with such a type of processing that after skipping the first batch, a minimum time is required to change the machine. This allows you to increase productivity.

Setting up the machine consists in setting the tools to the specified processing dimensions, adjusting the movable tables and guide lines, as well as adjusting the feed and clamping elements. The sequence of tuning operations is determined by the type of processing, machine design, tuning method and tuning tools.

The scheme for setting up the machine according to a template or a reference part is shown in fig. 86. The template is installed in the machine, having previously moved the calipers, feed and clamping elements to a distance slightly exceeding the setting size. The template is pressed against the working surface of the table and the rear guide line. First, the guide rulers are adjusted so that their working surfaces are parallel to one another. Moreover, the rear ruler should be located tangentially to the cutting circle and protrude relative to the front ruler by the thickness of the layer being removed (2 ... 3 mm). The front line is aligned with the help of gaskets, the thickness of which is equal to the thickness of the layer to be removed.

Rice. 2. Scheme for setting up a four-sided longitudinal milling machine according to a template: 1 - rear table, 2 - template, 3 - rear ruler, 4 - front ruler, 5 - gaskets

Dimensional adjustment of cutting tools is performed from the material feed side in the following sequence: lower horizontal cutter head, left and right vertical cutter heads, upper horizontal cutter head and moulder (if necessary).

Dimensional setting for all cutting tools is similar and includes the following operations: releasing the support, adjusting the position of the cutting tool relative to the template, fixing the support. The caliper is moved with a removable handle or handwheel. The cutting edge of the knife is brought to touch the working surface of the template when turning the cutter head manually.

With another way of setting up cutting tools, built-in measuring tools are used: scales and dials. On fig. 3 shows the setting of the upper horizontal cutterhead of a four-sided planer. The caliper is moved with a handwheel, while counting the amount of movement on the scale. Having set the caliper in a predetermined position, proceed to the lining of the clamping elements. The rear clamping pads 9 at the upper cutter head are adjusted in height with nuts so that the distance from the table to the working surface of the pads is 2 ... 3 mm less than the setting size X. The clamping force of the pads is adjusted by changing the spring tension with nuts. The front clamp (chipbreaker) is adjusted in height by turning the nuts. The adjustment is carried out until the distance from the table to the working edge of the chipbreaker is equal to the setting size. The pressing force of the chipbreaker to the material being processed is adjusted with a handwheel, compressing or weakening the spring.

Roller clamping elements are configured as follows. Consistently unfasten all clamps in the course of feeding the workpiece and adjust their position relative to the table and guide rulers. When setting up, use measuring scales fixed near the adjustable element. The clamping force of the rollers is adjusted by changing the tension of the springs. The clamping force is selected depending on the type of wood and the size of the material being processed. Do not press the workpiece excessively against the table, as marks from the pressure rollers will remain on the surface of the finished part.

The lower feed rollers are set relative to the table, depending on the breed, size and condition of the material being processed. For hardwoods and thick blanks, the protrusion value is 0.2 ... 0.3 mm, for softwoods and thin lumber - 0.3 ... 0.5 mm.

The working edge of the front table is adjusted in height by rotating the eccentric roller with the handle of the adjustment mechanism. The table must be lowered relative to the rear table by the amount of the layer removed from the bottom layer, which is set using the reading device of the adjustment mechanism.

Then the upper feed rollers are adjusted in height, and a limiting bar and claw protection are also installed depending on the thickness of the workpiece being processed. The upper rollers are adjusted with a handwheel through a screw gear and rods.

Rice. 3. Adjustment of the upper horizontal cutterhead of a four-sided longitudinal milling machine: 1 - handwheel, 2 - chipbreaker adjustment handwheel, 3, 6, 7 - nuts, 4 - support, 5 - spring, 8 - chip breaker, 9 - clamping block, 10 - scale

The feed force is created by pressing the upper rollers against the material and the lower rollers through the springs. Spring tension is adjusted with nuts.

After finishing the dimensional adjustment of the machine, you should carefully inspect the moving parts and install guards. The pipelines of the exhauster network are connected to the chip collectors and the rarefaction of air in the chip suction system is switched on. By pressing the button, turn on the rotation of the cutting tools. After the previous spindle has set the full speed, the next one is turned on.

It is necessary to make sure that all cutting tools work without problems at idle, turn on the feed and process test pieces. The feed rate is chosen depending on the type of wood, the size of the allowance to be removed and the required quality of processing.

After processing, test parts should be measured with a measuring tool: a vernier caliper, an indicator thickness gauge or a caliber. The straightness of the machined surfaces is checked with a control ruler and a feeler gauge. Surface roughness is determined visually by comparison with a standard or measured with a TSP-4 instrument.

With proper adjustment of four-sided machines, the following deviations in the accuracy of machined parts are allowed: uniformity in thickness and width of the part along its entire length - according to the 12th grade; non-straightness of the side edges - no more than 0.2 mm over a length of 1000 mm; non-parallelism of the side edges - no more than 0.3 mm over a length of 1000 mm; non-perpendicularity of adjacent side surfaces - no more than 0.15 mm over a length of 100 mm.

Depending on the results of checking the test parts, the machine is adjusted and adjusted.

Work on machines. Machines that are not equipped with loading and unloading devices are usually served by two workers. After starting the machine, the machine operator places the next workpiece on the table, basing it with its edge along the guide ruler. After the workpiece is captured by the feed rollers, the machine operator prepares the next one.

To ensure continuous and uniform operation of the machine, the material should be fed without inter-face breaks, for this, when feeding short workpieces, the speed can be reduced.

The second worker must accept the finished parts, visually check the quality of their processing and stack them.

When mechanized loading and unloading of the machine, the machine operator must monitor proper work all elements of the machine and near-machine mechanisms. The degree of loading of the cutting motors is controlled by an ammeter built into the control panel of the machine.

If the motors are overloaded, there is an increase in noise and knocking, or a decrease in the speed of the tools, it is necessary to switch off the machine and find out the cause of the problem. A common reason for a machine to stop is improper use. Workpieces with unacceptably large allowances or too thin, warped and irregular shape. When jamming or stopping the workpiece, you must turn on the reverse feed and remove the workpiece from the machine. When moss and hairiness appear on the treated surfaces, dull cutters should be replaced.

4-sided wood router designed for planar and profile simultaneous milling of boards, beams and blanks various types(this instrument is popularly called the “four-sided”, we will not deviate from traditions). This tool has its own features and characteristics, which we will talk about ...

The most common quadrilateral models are C26-2M, C25-2A, C25, C16-2A. On the machine type C16-2A they work with cabinets, skirting boards, joinery and similar material. The first three machines process flooring (boards), as well as bars for window and door frames.

Setting up a four-sided machine

A four-sided woodworking machine is a cast-iron bed on which there is a table, cutting and feeding mechanisms that drive an electric motor.

Before starting work, it is necessary to install a sharply sharpened knife or cutter. After that, based on the part itself, the machine is set up (rulers, clamps, feeder, etc.). The clamping mechanism must be installed so that the bar passes as freely as possible and does not vibrate. The upper rollers are set so that the bar can pass under them when they are lowered down.

After making sure that the machine is set up, it is necessary to pass several test bars through it. Thanks to this, you will definitely make sure that the machine is set up correctly, and even if it is not, then you will not spoil the desired workpiece. Workpieces must be fed end to end. Short workpieces, first process in a multiple of the length, after which you can proceed to trimming.

Main problems and their elimination:

Uneven surface. The defect is possible due to improper adjustment of the knife shafts and / or vibration of the machine;

Pull-outs on the sides. This defect indicates an incorrect adjustment of the clamps, or the processing of curved workpieces;

Distorted profile - incorrect installation of knives / cutters on vertical heads;

Tongue and groove mismatch. This defect is formed due to inaccurate installation or sharpening of cutters.

Two basic safety rules - do not work on the machine without a fence, do not climb into the machine during its operation (clean, adjust, etc.).

Types of cutters, or how and what to work with ...

Before installation, knives and cutters must be perfectly sharpened and well balanced. Fasten to the shaft evenly, tighten the bolts alternately, starting from the center.

Cutters come in four types- mounted and end, solid and composite. To work with carpentry parts, shell and compound cutters are usually used. During the adjustment of the cutters, the parameters are saved, and at the end of sharpening, the profile does not change. The cutter diameter is 80-180mm.

To achieve smooth milling, use cylindrical shell cutters with a diameter of 80-140mm, a height of 40-260mm, with four insert knives.

For perfect grooves and ridges, use shell cutters. With this type of cutters, grooves 4-12 in width are chosen, in a board with a thickness of 28 and 36 mm.

Shell and groove cutters with brazed inserts are ideal for:

Rectangular longitudinal and transverse grooves;

Glued wood.

Milling cutters are supplemented with high-speed steel or hard alloy inserts.

For smooth milling, milling cutters are usually used, which have from 4 to 8 cutters. The advantages of milling cutters over knives are quick and easy installation, an increased level of safety (unlike knives).

Operation of the Four Sided Slotting Machine

Lubricant

It is necessary to lubricate the gears of the machine reducer every quarter (that is, every 3 months) with AK-Yu oil;

Ball bearings are lubricated with US-2 grease at the same intervals;

Bushings and plain bearings - every shift with solid oil US-3;

The set screws are lubricated with US-2 grease every month;

Lubricate caliper guides with IM-45 every month.

Setting up a four-sided machine

When adjusting the machine for the required thickness of the material, the support with the upper rollers, as well as the support of the upper cutter head, must be set in height using flywheels, and the pressure rollers - with screws. To adjust the width, use the left vertical spindle and side clamps.

Adjustment to the required profile is carried out by installing profile knives on the heads.

Basic rules for setting up a four-sided machine:

Install the edge of the front table and the lower rollers below the table, to a thickness equal to the layer of wood being removed;

The upper rollers are set according to the thickness of the workpiece (the margin for clamping is 5 mm);

The knives of the front head are installed at the level of the rear table;

The upper rollers and pressure rollers are adjusted according to the width and thickness of the workpiece. In rollers, the margin for clamping is 5 mm, in clamping rollers - 15-20 mm;

The guide stop ruler is installed at a distance of 3-4 mm from the vertical head (keep an angle of 90 with respect to the lower rollers);

We carry out the final alignment of the knife heads.

What should the machine provide after adjustment:

The straightness of the side edges (check with a probe, the allowable rate is 0.2 per meter);

Parallelism of opposite edges (check with a caliper, the allowable rate is 0.3);

Perpendicularity of adjacent edges (check with a probe, tolerance 0.15 by 0.1 m);

Uniform thickness of the bar.

Do-it-yourself four-sided machine

A high-quality four-sided machine for timber, which will give the owner the pleasure of using it and will bring a minimum of hassle, is quite expensive. A significant part of people prefer to make a homemade four-sided machine. It is not necessary to be a super professional to make a four-sided machine with your own hands. So, let's take a closer look at what stages the manufacture of the machine consists of.

Instruction

1. First of all, we create the frame for the machine itself. This is the surface on which everything will be installed. necessary equipment. The frame must necessarily have a U-shaped knee that will hold the Z axis. This requires a pipe 2.5 cm thick. Once the pipe joints are in place, apply sealant.
2. Motor and X-axis guides. Now we need to install the X-axis guides. They are made of aluminum, and should have a U-shaped notch 1.9 cm wide. You can buy them in every store that sells metal products. We install the motor with the holder and attach it to the motor shaft.
3. We are preparing the base (X-axis), we need metal or plastic that will be attached to the frame. Then we fix the bearings on a piece of aluminum.
4. We prepare platform Y. It is identical to platform X, only rotated 90 degrees. This is followed by the installation of the motor and rails on platform X, after which the movable platform Y is assembled. Don't forget about the coupling nut and bearing.
5. We assemble the Z axis. On this stage assembling the Z axis, repeat the procedure for assembling the X and Y axes. We take a flat material and attach the motor with guides to it, after which we install the bearing and the U-shaped profile. Our platform moves up and down, so under the weight of the engine it can come off. To prevent this, install a roller bearing at each end of the guide.

The final stage. Attach your engine to the Z platform and install the platform into the frame. Our design is almost ready. It remains for us to connect the electric motors and run the program.

We bring to your attention "How to assemble a four-sided machine" video.

Machines from well-known suppliers - quality assurance

"DIOS" - woodworking equipment and components

Commercial and industrial group "Marketlis-DIOS" has been providing customers with high-quality woodworking equipment from well-known world manufacturers for more than 17 years. Since 2002 this company operates as a separate structure, and more than successfully supplies Ukrainian manufacturers with high-quality and necessary equipment: woodworking machines, woodworking equipment and tools, etc.

The company annually takes part in world thematic exhibitions. Knowledge of the latest innovations and achievements in their field, as well as many years of experience, allow the company to compete with well-known European suppliers.

LLC "Trading House Negotsiant-engineering"

OOO " Trading house Negociant-engineering" began its existence in the woodworking market in 1997. Today, this company is one of the leaders in the supply of European woodworking equipment to the Russian market.

Among the customers of Trading House LLC are well-known Belarusian and Russian companies And furniture factories with whom trust has been established. "Trading House Negociant-engineering" is a dealer of more than one hundred European and Russian manufacturers equipment.

The company not only supplies equipment, but also provides consultations, offers final technical solutions, and also offers services for installation, commissioning and maintenance of equipment.

Global Edge Group of Companies

The expression "Global Edge" appeared in 1991. This is perhaps the most famous group of companies on Russian market. Global Edge are pioneers who were the first to bring high-quality woodworking equipment to Russia in the 90s.

Band saws, American quadrilateral machines, European equipment for mass production furniture and other equipment - all this is the merit of Global Edge.

The company has many serious awards, including: the All-Russian competition "Russian Forest", "Leader of woodworking", "Best Russian enterprises”, “Best Supplier 2005”, “European Standard”, in all these competitions the company took first place.

Price for a four-sided milling machine

We have already considered how to make a machine with our own hands. However, if you have the opportunity to buy a finished machine, it is better to choose this option. per machine four-sided price quite diverse, and is in the price range - 400,000-1,000,000 rubles. The price of knives for a four-sided machine starts from 220 rubles. You can buy a used one, or a Chinese-made machine - but the effect is not at all the same. The two most best options- Buy or make your own.

On the Stankoff.RU website you can buy four-sided woodworking machines from leading manufacturers: Beaver, Griggio, Logosol, Woodtec, ZMM Stomana and other Russian, Chinese, Taiwanese manufacturers. In stock and on order more than 123 models of 4-sided machines according to the best prices. Only great deals detailed descriptions and photo. Check prices with managers.

4-sided machines. Benefits of using

On furniture production often used natural wood to create high-quality products. Processing of boards, bars is carried out using special four-sided machines presented in our catalog.

The system allows you to get a quality part based on a wooden blank in one pass without additional processing. Modern four-sided woodworking machines offered by our company can withstand considerable loads. Due to the special design, all manipulations are carried out in the inner chamber of the machine. It does not vibrate during operation. The maximum and minimum size of the part depends on the features of a particular model.

The feed belt is equipped with special lower and upper rollers along which the workpiece moves, and side clamping bars that fix the board or beam.

The range of application of such equipment is wide:

• woodworking enterprises;
• furniture manufacture;
• production of wooden blanks for construction;
• production of moldings.

Using a four-sided machine, you can significantly speed up manufacturing process to make it rational, efficient, cost-effective. Impeccable planing quality is ensured by modern, multifunctional spindles. 4-spindle and 5-spindle machines are in demand.

Each of the four sides of the wood blank can be processed differently. The maximum planing depth depends on the specific equipment model. Powerful motors ensure smooth operation of the system. The possibility of ejection of the workpiece during processing is excluded. The machine does not vibrate when processing massive large parts, thanks to a solid cast iron bed that can withstand impressive loads.

All machines are offered as standard. The consumer can order additional options depending on specific needs.

Where to buy a four-sided machine

To buy a four-sided machine, you need to contact a reliable supplier of high quality equipment. The range of units is wide. It is advisable to use the recommendations of experts to make an informed choice. Additionally, delivery, assembly, commissioning services are provided. If necessary, you can purchase spare parts, additional components, which are offered in a wide range by the supplier.

Units of leading manufacturers are operated for a long time, they are distinguished by a high degree of reliability and safety. When choosing four-sided machines, it is worth paying attention to criteria such as maximum and minimum dimensions workpieces, the thickness of the layer to be removed, the depth of processing, the number of spindles.

Leasing services are offered. The client receives equipment for temporary use with the possibility of subsequent redemption at the residual value. Such offers are of interest to many consumers. These services are different from renting equipment. Potential customers can learn more about all the possibilities by consulting with the company manager. It is possible to establish furniture and woodworking production by cooperating with leading suppliers of relevant equipment.