RU51555U1 - WOODWORKING MACHINE (OPTIONS) - Google Patents

Abstract

To increase productivity and expand functional capabilities, simplify the design and safety of operation in a woodworking machine containing a frame, a tool for fixing a wooden workpiece, a drive for rotating a wooden workpiece, a copier, a cylindrical guide mounted on a cylindrical guide with the ability to move the carriage, made in the form of a balancer with a copy a finger, a milling spindle with a disk mill and a drive for rotating the disk mill, and a drive for moving the carriage along a cylindrical directs, milling spindle axis is located above the horizontal plane at an angle of not less than 10 degrees, and the disc cutter has a thickness of not less than 2 mm. In this case, the milling spindle is made with the possibility of installing two or more disk mills on it and at the end of the longitudinal movement of the carriage along the cylindrical guide, an end switch is installed, made with the possibility of its actuation upon contact with it moving along the cylindrical guide of the carriage and the ability to automatically turn off when the drive is triggered rotation of the wooden workpiece, the drive of rotation of the disk mill and the drive of the carriage along the cylindrical guide, while the drive rotation of the the billet billet and the cutter rotation drive are made possible to rotate the wooden billet and the disk cutter in the opposite direction, and the rotary cutter rotation drive is made to rotate the cutter at a speed of at least 4,500 rpm, and the wooden billet rotation drive is made to rotate the wooden billet at a speed of no more than 1,500 rpm. In addition, the trailing finger is made with the possibility of changing and adjusting the angle of inclination of the balancer relative to the horizontal plane and correspondingly changing and regulating the depth of the workpiece by a disk mill, the copier is made in the form of a copy of the product manufactured on the machine or made of solid material in the form of a longitudinal axial section of the product made on the machine and mounted on the frame with the ability to change and adjust its position in a vertical plane by turning and fixing the end in the copier relative to the central axis of the mount of the copier.

Description

FIELD OF TECHNOLOGY

The utility model relates to equipment for the mechanical processing of wood and can be used for the production and use of woodworking machines for the manufacture of wood of various products of circular cross section with shaped surface, for example balusters for stairs and balconies.

BACKGROUND

Known single-spindle and multi-spindle copying machines for the manufacture of wood products of circular cross section with a shaped surface, in which a rotating mill processes the workpiece from all sides (volume milling), copying a given shape of the model and in which the knife head processes a slowly rotating workpiece [1].

Unlike lathes, where only the workpiece rotates, on machines based on the principle of processing wood with a rotary carbide mill, productivity increases and it becomes possible to manufacture products that cannot be manufactured on traditional lathes. Therefore, various designs of copy machines for wood processing with rotary mills are currently being developed and used.

The closest in technical essence and achieved by using the result (prototype) is a device for manufacturing products of circular cross section with a shaped surface according to the certificate for utility model No. 20873, containing a multi-blade cutting tool, a milling spindle, a drive, a carriage and a copier on a frame in which the carriage It is a balancer with a sliding bearing on a cylindrical guide, with a milling spindle mounted on the balancer, a multi-blade cutting tool and a drive for rotating index, and with a trailing finger mounted on the side of the carriage opposite from the milling spindle and resting against the bottom of the copier mounted on two guides perpendicular to the cylindrical

guide and fixed together with it on the frame at a distance equal to the distance from the axis of the cylindrical guide to the center of the multi-blade cutting tool, while the multi-blade cutting tool has a diameter commensurate with the cross-sectional dimensions of the workpieces and a width of not more than 2 mm, and the axis of rotation of the multi-blade cutting the tool is deviated from the axis of the cylindrical guide in two orthogonal planes at angles α and β in the range from 3 to 9 °. In this case, the milling spindle is mounted on the balance beam using a special device that can change and fix the position of the milling spindle relative to the axis of the cylindrical guide carriage in two orthogonal planes at angles α and β in the range from 0 to 10 ° [2]. In this case, the copier is made of hard material in the form of half a longitudinal section of the desired product.

The technical disadvantages of the prototype machine design are the relatively low productivity due to the fact that the angle of inclination of the axis of rotation of the multi-blade cutting tool relative to the axis of the cylindrical guide in two orthogonal planes at angles α and β in the range from 3 to 9 ° is insufficient for processing wooden workpieces at high longitudinal tool feed speeds. In addition, the use of multi-blade cutting tools with a diameter comparable with the cross-sectional dimensions of the workpiece and with a width of not more than 2 mm makes it possible to use only thin tools (GOST 980-80 “Flat circular saws for sawing wood” and GOST 9769-79 “Wood-cutting circular saws with hard alloy plates ”[1, p. 52]), which leads to frequent breakdowns of thin steel tools with increased bending loads that occur when moving a rotating tool along a rotating tool preparations in the process of processing and injuring by fragments of a saw of workers.

TASKS OF USEFUL MODEL AND TECHNICAL RESULT

The objective of the utility model is to eliminate the above technical disadvantages of the prototype, namely, to provide the possibility of increasing productivity and expanding the functionality of the machine while improving the safety of its operation.

When using the utility model, a technical result can be obtained, expressed in the creation of a productive and safe in operation woodworking machine that allows the use of durable monolithic mills

from carbide materials and make one copy each of the workpiece different in size according to the size of the cross section.

DISCLOSURE OF A USEFUL MODEL

The problem is solved, and the required technical result is achieved by the fact that in a woodworking machine containing a frame, a means of securing a wooden workpiece, a drive for rotating a wooden workpiece, a copier, a cylindrical guide parallel to the axis of rotation of the wooden workpiece mounted on a cylindrical guide with the possibility of longitudinal movement of the carriage made in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a drive for rotating the disk mill, and the drive of the carriage along a cylindrical guide, according to a utility model, the axis of the milling spindle is located relative to the horizontal plane at an angle of 10 to 30 degrees, and the disk mill has a thickness of 2 to 10 mm. This makes it possible to increase productivity by machining workpieces at higher speeds of rotation of the workpiece and milling cutter at higher feed speeds of the tool along the workpiece, as well as using solid carbide milling cutters. Moreover, it was experimentally established that the use of an angle of inclination of the axis of the milling spindle relative to the horizontal plane from 10 to 30 degrees is optimal, and the use of milling cutters with a thickness of less than 2 mm often leads to their breakdown at high processing speeds.

Moreover, in the utility model, the milling spindle is configured to install two or three disk milling cutters of different diameters on it, and the milling spindle is configured to change and adjust the angle of inclination of the axis of the milling spindle relative to the horizontal plane depending on the processing mode of the workpiece.

The use of two or three mills instead of one allows to increase productivity by providing the possibility of obtaining the finished product immediately in one pass of the tool along the workpiece, in contrast to the known machines, where the manufacture of products is carried out in several passes of the tool along the workpiece: during the first pass, the formation of a round workpiece; for the second pass, roughing is carried out; for the third pass - finishing.

In addition, in the machine according to a utility model, the trailing finger is made with the possibility of changing and adjusting the angle of inclination of the balancer relative to

horizontal plane and the corresponding change and regulation of the depth of processing the workpiece with a disk mill, and the copier is made in the form of a copy of the product manufactured on the machine or from solid material in the form of a longitudinal axial section of the product manufactured on the machine and mounted on the frame with the ability to change and adjust its position in the vertical plane by turning and fixing the ends of the copier relative to the central axis of the mount of the copier, and the milling spindle is made with the possibility of adjusting the angle the inclination of the axis of the milling spindle relative to the horizontal plane, depending on the processing mode of the workpiece. This allows you to expand the functionality of the machine and produce one copy of different surface shapes of the product.

In addition, in the utility model, at the end of the longitudinal movement of the carriage along the cylindrical guide, a limit switch is installed that is capable of tripping upon contact with the moving along the cylindrical guide carriage and the ability to automatically turn off when it is operated, the rotation drive of the wooden workpiece, the drive of rotation of the disk cutter and the drive of movement carriages along a cylindrical guide, the rotation drive of the wooden workpiece and the rotation drive of the cutter are made with the possibility of and rotation of the wooden workpiece and the disk mill in the opposite direction, the drive of rotation of the disk mill is configured to rotate the cutter at a speed of 4500 to 10000 revolutions per minute, and the drive of rotation of the wooden workpiece is made to rotate the wooden workpiece at a speed of not more than 1500 revolutions per minute. This allows you to ensure the safe operation of the machine at its maximum performance, since it has been experimentally established that the optimal processing mode at the indicated rotational speeds of the cutter, and when the workpiece rotates more than 1500 revolutions per minute, there were cases of the workpiece jumping out of its fastening means.

In addition, in the utility model, the carriage movement drive along a cylindrical guide is made in the form of an engine with a gearbox providing rotation of chain sprockets fixed to the gearbox shaft at a speed of not more than 10 revolutions per minute, as well as one connected to one of the chain sprockets with an open chain, one the end of which is attached to the carriage, and the other end of which is equipped with a counterweight, the drive of the movement of the carriage along a cylindrical guide is configured to change and control the speed of movement of the car etki on cylindrical guide, depending on the depth of processing disk milling

wooden workpiece during forced automatic movement of the carriage during its working stroke and free movement of the carriage manually to its original position after the completion of the working stroke of the carriage and uncoupling of the carriage drive chain with an asterisk on the gearbox shaft, and the carriage has bushings made of bronze, cast iron or other used sliding bearings of the material, with the possibility of sliding the carriage along a cylindrical guide. All this increases the safety of operation of the machine according to a utility model. At the same time, it was experimentally established that when the chain sprockets fixed on the gearbox shaft rotate at a speed of more than 10 revolutions per minute, the chain can jump off and stop the carriage.

In addition, dust guards of fabric or other flexible dustproof material attached to the carriage are mounted on the cylindrical guide, and the machine is configured to rotate the workpiece without forced automatic movement of the carriage along the cylindrical guide and rotate the disk mill to process the rotating wooden workpiece with a hand tool, grinding or polishing the manufactured on the product machine. It also allows you to increase the productivity of the machine according to the utility model while increasing the safety of its operation.

In the embodiment of the construction model of the utility model, the problem is solved, and the required technical result is also achieved by the fact that in the woodworking machine containing the frame, means for securing the wooden workpiece, a drive for rotating the wooden workpiece, a copier, a cylindrical guide mounted on a cylindrical guide with the possibility of longitudinal movement of the carriage made in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a drive for rotating the disk mill, and the drive is longitudinal According to the utility model, the milling spindle is made with the possibility of installing two or three disk mills of different diameters with a thickness of 2 to 10 mm, and the axis of the milling spindle is located relative to the horizontal plane at an angle of 10 to 30 degrees.

In this case, the milling spindle in the embodiment of the utility model is made with the possibility of changing and adjusting the angle of inclination of the axis of the milling spindle relative to the horizontal plane depending on the processing mode of the workpiece, and the trailing finger is made with the possibility of changing

and adjusting the angle of inclination of the balancer on a cylindrical guide relative to the horizontal plane and correspondingly changing and regulating the depth of processing of the workpiece by a disk mill, while the copier is made in the form of a copy of the product manufactured on the machine or from solid material in the form of a longitudinal axial section of the product manufactured on the machine and mounted on the frame with the ability to change and adjust the position of the copier in a vertical plane by turning and fixing the ends of the copier relative to the central second fastening axis of the copier.

In addition, in the embodiment of the utility model at the end of the longitudinal movement of the carriage along the cylindrical guide, an end switch is installed, which is configured to trip upon contact with the carriage moving along the cylindrical guide and the ability to automatically turn off the drive of rotation of the wooden workpiece, the drive of rotation of the disk cutter and drive the carriage along a cylindrical guide, while the drive rotation of the wooden workpiece and the drive rotate Milling cutters are made with the possibility of rotation of the wooden billet and disk cutter in the opposite direction, and the drive of rotation of the disk cutter is configured to rotate the cutter at a speed of 4500 to 10000 revolutions per minute, the rotation drive of the wooden billet is configured to rotate the wooden billet at a speed of not more than 1500 rpm, the carriage drive along the cylindrical guide is configured to change and control the speed of the carriage along the cylindrical guide depending on the depth of processing of a wooden billet with a disk mill, the drive of the longitudinal movement of the carriage along a cylindrical guide is made in the form of an engine with a gearbox, providing rotation of chain sprockets fixed to the gearbox shaft, at a speed of no more than 10 revolutions per minute, and also coupled to one of the aforementioned chain sprockets with an open chain, one end of which is attached to the carriage, and the other end of which is equipped with a counterweight, while the drive of the longitudinal movement of the carriage along the cylinder The guide rail is made with the possibility of forced automatic movement of the carriage during its working stroke and free movement of the carriage manually to its original position after completion of the working stroke of the carriage and uncoupling of the carriage drive chain with an asterisk on the gearbox shaft, and the machine is made to rotate the wooden workpiece without forced

automatic movement of the carriage along a cylindrical guide and rotation of the disk mill for processing a rotating wooden workpiece with a hand tool, grinding or polishing a product manufactured on a machine.

In another embodiment of the design of the utility model, the problem is solved, and the required technical result is also achieved by the fact that in the woodworking machine containing the frame, means for fastening the wooden workpiece, a drive for rotating the wooden workpiece, a copier attached to the frame, a cylindrical guide mounted on a cylindrical guide with the possibility of longitudinal movement of the carriage, made in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a rotation drive di milling cutter, and the drive of the longitudinal movement of the carriage along the cylindrical guide, according to the utility model, an end switch is installed at the end of the longitudinal movement of the carriage along the cylindrical guide, which is designed to be triggered by contact with it moving along the cylindrical guide of the carriage and the ability to automatically turn off when the drive rotates wooden workpiece, drive rotation of the disk mill and drive the movement of the carriage along a cylindrical guide, the drive rotation the billet billet and the cutter rotation drive are made possible to rotate the wooden billet and the disk cutter in the opposite direction, while the rotary cutter rotation drive is made to rotate the cutter at a speed of 4500 to 10000 revolutions per minute, and the rotation drive of the wooden billet is rotatable wooden billets with a speed of not more than 1500 rpm.

The drive carriage along a cylindrical guide is made in the form of an engine with a gearbox, providing rotation of chain sprockets fixed to the gearbox shaft at a speed of not more than 10 revolutions per minute, and also coupled to one of the chain sprockets with an open chain, one end of which is attached to the carriage, and the other end of which is equipped with a counterweight, and the carriage drive along the cylindrical guide is configured to change and control the speed of the carriage along the cylinder Coy guide depending on the depth of processing the wood cutter disk during the compulsory automatic movement of the carriage during its working stroke and the free movement of the carriage to its initial position manually after the completion of the working stroke of the carriage and disengaging the drive chain

carriages with an asterisk on the gearbox shaft. Using an open circuit allows slippage of the chain and idle rotation of the sprockets at high loads without breaking the chain, breaking the tool and damaging the carriage drive.

In addition, the milling spindle is configured to change and adjust the angle of inclination of the axis of the milling spindle with respect to the horizontal plane, the milling spindle is made with the possibility of installing two or more disk mills on it, the axis of the milling spindle is located in relation to the horizontal plane at an angle from 10 to 30 degrees, and disk milling cutters mounted on a milling spindle have a thickness of 2 to 10 mm, the machine is made to rotate the workpiece without forced automatic movement of the carriage about a cylindrical guide and rotation of a disk mill for processing a rotating wooden workpiece with a hand tool, grinding or polishing a product manufactured on a machine, a trailing finger is made with the possibility of changing and adjusting the angle of inclination of the balancer relative to the horizontal plane and correspondingly changing and regulating the depth of processing of the workpiece with a disk mill, the copier is made in the form of a copy of the product manufactured on the machine or made of solid material in the form of a longitudinal axial about the cross section of the product manufactured on the machine and mounted on the frame with the possibility of changing and adjusting its position in the vertical plane by rotating and fixing the ends of the copier relative to the central axis of the copier mounting, which allows one copier to produce products with different cross-sections of the workpiece.

The problem is solved, and the required technical result is also achieved by the fact that in the woodworking machine containing the frame, the means of fastening the wooden workpiece, a drive for rotating the wooden workpiece, a copier, a cylindrical guide mounted on a cylindrical guide with the possibility of longitudinal movement of the carriage, made in the form of a balancer with with a tracer finger, a milling spindle with a disk mill and a drive for rotating the disk mill, and a drive for longitudinal movement of the carriage along a cylindrical guide, according to a utility model, the trailing finger is made with the possibility of changing and adjusting the angle of inclination of the balancer relative to the horizontal plane and correspondingly changing and regulating the depth of the workpiece by the disk cutter, the copier is made in the form of a copy of the product manufactured on the machine or made of solid material in the form of a longitudinal axial section

manufactured on the machine tool and mounted on the frame with the ability to change and adjust its position in the vertical plane by turning and fixing the ends of the copier relative to the Central axis of attachment of the copier.

In this case, the milling spindle is made with the possibility of installing two or more disk mills on it and with the ability to change and adjust the angle of inclination of the axis of the milling spindle relative to the horizontal plane depending on the processing regime of the workpiece, the axis of the milling spindle is located in relation to the horizontal plane at an angle from 10 to 30 degrees, and disk milling cutters mounted on the milling spindle have a thickness of 2 to 10 mm, and at the end of the longitudinal movement of the carriage along the cylindrical guide eva switch, made with the possibility of its operation upon contact with it moving along the cylindrical guide carriage and the ability to automatically turn off when it is triggered, the rotation drive of the wooden workpiece, the rotation drive of the disk cutter and the drive movement of the carriage along the cylindrical guide,

In addition, the rotation drive of the wooden workpiece and the drive of rotation of the cutter are configured to rotate the wooden workpiece and disk cutter in the opposite direction, while the drive of rotation of the disk cutter is made to rotate the cutter at a speed of 4500 to 10000 revolutions per minute, and the rotation drive of the wooden workpiece made with the possibility of rotation of the wooden workpiece with a speed of not more than 1500 rpm, the drive of the carriage along the cylindrical guide is made in the form of an engine with a gearbox, ensuring rotation of the sprockets of various diameters of the chain drive fixed to the shaft of the gearbox with a speed of not more than 10 revolutions per minute, as well as that coupled to one of the chain drive sprockets with an open chain, one end of which is attached to the carriage, and the other end of which is equipped with a counterweight, and the drive drive the carriage along a cylindrical guide is configured to change and control the speed of movement of the carriage along a cylindrical guide depending on the depth of processing of a wooden cutter with a disk mill Preparations during automatic forced movement of the carriage during its working stroke and the free movement of the carriage to its initial position manually after the completion of the working stroke of the carriage and a carriage drive circuit tripping with an asterisk on the gear shaft.

At the same time, the carriage has bushings made of bronze, cast iron or otherwise

the material used in the slide bearings, with the possibility of sliding the carriage along the cylindrical guide, dust covers attached to the carriage made of fabric or other flexible dustproof material are mounted on the cylindrical guide and the machine is configured to rotate the workpiece without forced automatic movement of the carriage along the cylindrical guide and rotation of the disk mill for processing a rotating wooden workpiece with a hand tool, grinding or polishing products on the machine.

DESCRIPTION OF THE DRAWINGS OF THE USEFUL MODEL

Figure 1 shows a General view of a utility model.

Figure 2 shows a side view of the carriage in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a drive for rotating the disk mill.

Figure 3 shows a front view of the carriage with a milling spindle, a disk mill and a rotary drive of the disk mill.

According to a utility model, the woodworking machine contains (Fig. 1) a frame (bed) 1, means for attaching a wooden workpiece 13 between the front headstock 2 with the workpiece rotation motor and the back headstock 3, a copier 4 attached to the frame 1, located in parallel to the axis of rotation of the workpiece, a cylindrical guide 5 and mounted on a cylindrical guide 5 with the possibility of forced longitudinal movement of the carriage 6 in the form of a balancer with a trailing finger 7, a milling spindle 8 with one disk cutter 9 or several disk cutters 9, with Odom 10 rotating disc cutters 9 and a handle 14 for manual processing mode control preform 13 (Figure 2). At the same time, the switches / switches of the drives 15 and the switch 16 are installed on the frame, which allows to simultaneously turn off the motors of the carriage drive and the drive of rotation of the disk mill.

At the end of the longitudinal movement of the carriage 6 along the cylindrical guide 5, a limit switch 11 is installed, made with the possibility of its actuation upon contact with it moving along the cylindrical guide 5 of the carriage 6 and the ability to automatically turn off when it is activated, the rotation drive of the wooden workpiece on the headstock 2, rotation drive 10 disk milling cutter and drive movement of the carriage 12 along the cylindrical guide 5.

The drive movement of the carriage 6 along the cylindrical guide 5 is made in the form of an engine with a gearbox, on the shaft of which several chain sprockets are fixed

gears with different diameters, capable of rotation at a speed of not more than 10 revolutions per minute, and also coupled to one of the chain drive sprockets with an open chain 17, one end of which is attached to the carriage 6, and the other end of which is equipped with a counterweight.

A characteristic feature of the utility model is the location of the axis of the milling spindle 8 at an angle α from 10 to 30 degrees (Fig. 3), as well as the possibility of installing one or more mills 9 on the milling spindle, which is necessary to ensure increased productivity of the machine.

IMPLEMENTATION OF A USEFUL MODEL

When using the utility model, it is possible to increase productivity and expand the functionality of the machine while increasing the safety of its operation. At the same time, it is possible to create a woodworking machine that is simple in design, manufacture and installation, and is safe to use, that allows the use of carbide milling cutters and one copy each product with different cross-section diameters.

In the processes of cutting wood on a machine according to a utility model, the trajectories of the working movements are the translational movement of the carriage with the rotating mill along the cylindrical guide along the wooden workpiece, the rotation of the wooden workpiece and the processing of the workpiece by a rotating mill. In this case, the main working movements are usually uniform and are carried out at a constant speed, and the cutting speed is usually ten times higher than the feed speed of the cutting tool. In this case, there is a complex movement of the point of the blade of the cutter relative to the workpiece, therefore, the cutting tool must have the necessary margin of safety for bending stresses, since the processing speed is equal to the geometric sum of the speeds of the working movements of cutting and feeding along the workpiece. In this regard, as practice shows, the use of disk tools with a thickness of less than 2 mm as cutting tools on machines of this type leads to their frequent destruction. Therefore, in the machine tool according to the utility model, it is advisable to use solid carbide disk milling cutters with respect to axial bending stresses for processing metal with a thickness of 2-x to 10 mm, the teeth of which are sharpened at the angles required for wood processing by known methods [1, p. 52].

The installation of several disk milling cutters of different diameters on the milling spindle allows increasing productivity, since in one working movement of the carriage it is possible to carry out several workpiece processing steps at once, increase the depth and reduce the amount of bending loads on the milling cutters, which in turn leads to increased reliability and safety of the machine utility model. In this case, it is advisable to install milling cutters with a gradually decreasing diameter in the direction of the working stroke of the carriage and in one working stroke to carry out preliminary and final finishing of the workpiece and immediately get the finished product in one pass.

The sharpening angles of the teeth used in the utility model of disk milling cutters can be selected different depending on the cutting conditions [1, p. 10], and also depending on the angle of inclination of the axis of rotation of the mills relative to the horizontal plane, while practice shows that the angle of inclination of the axis of rotation of the mills set at least 10 degrees relative to the horizontal plane.

The use of sprockets of different diameters mounted on the shaft of the carriage drive gearbox allows you to adjust the speed of the working movement of the carriage along the guide.

According to a utility model, a woodworking machine operates as follows:

A wooden workpiece 13 is clamped between the front 2 and rear 3 headstock, the carriage 6 is installed at the beginning of the workpiece, and then simultaneously turn on the workpiece rotation motor at a speed of not more than 1500 rpm (at a higher speed, cases of knocking the workpiece out of the clamps were observed), drive motor 10 rotation of the disk cutter (disk cutter) 9 with the possibility of rotation of the cutter with a speed of at least 4500 rpm and a carriage drive motor.

Then, by means of the handle 14, the carriage is moved to the working position with the rotating cutter 9 in contact with the workpiece 13, and the trailing finger 7 with the copier 4. Further processing of the workpiece occurs automatically.

At the end of the longitudinal movement of the carriage along the cylindrical guide, a limit switch 11 is installed. When the carriage 6 moving along the cylindrical guide 5 of the carriage 6, the limit switch 11 is activated and the drive of rotation of the wooden workpiece 13 is automatically turned off,

drive rotation of the disk cutter 10 and drive the movement of the carriage along the cylindrical guide 12.

After the engines stop, the processed workpiece is removed, a new workpiece is installed on the machine, the carriage drive chain is removed from the sprockets, the carriage is manually moved to its initial position, a carriage drive chain is thrown onto one of the sprockets and the work cycle is repeated.

COMPLIANCE WITH CRITERION M OF SAFETY.

In general, given the novelty and industrial applicability of the utility model, the materiality of all general and particular features of the utility model, as well as the feasibility of the utility model and the achievement of the objectives, there is every reason to assert that the utility models of the group meet the requirements of the eligibility criterion, and all general and particular features of the utility models are essential, since each of them is necessary, and together they are not only sufficient to solve the task, but also allow you to implement and use useful industrial models.

In addition, the analysis of the set of essential features of utility models of the group and the technical result achieved by using them shows the existence of a single inventive concept, a close and inextricable relationship between utility models of the group, which allows combining four utility models in one application.

INFORMATION SOURCES

1. Amalitsky V.V. Machine tools and sawmills and woodworking production: Textbook for technical schools. - M .: Forest. industry, 1985, - 288 p., p.205

2. Certificate of the Russian Federation for utility model No. 20873, B 27 C 7/00, application No. 2001123379/20, application filing date 2001.08.01, published 2001.12.10 (prototype).

Claims (24)

1. A woodworking machine containing a frame, a means of attaching a wooden workpiece, a drive for rotating a wooden workpiece, a copier, a cylindrical guide mounted on a cylindrical guide with the possibility of movement of the carriage, made in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a drive for rotating the disk mill , and a carriage movement drive along a cylindrical guide, characterized in that the copier is mounted on the frame with the ability to change and adjust its position vertically th plane by turning and fixing the ends of the copier relative to the central axis of the mount of the copier, the trailing finger is made with the possibility of changing and adjusting the angle of inclination of the balancer relative to the horizontal plane and correspondingly changing and regulating the depth of processing of the workpiece by a disk mill, the milling spindle is made with the possibility of changing and adjusting the angle of inclination of the axis milling spindle relative to the horizontal plane, depending on the processing mode of the workpiece. 2. The woodworking machine according to claim 1, characterized in that the axis of the milling spindle is located relative to the horizontal plane at an angle from 10 to 30 °. 3. The woodworking machine according to claim 1, characterized in that the milling spindle is made with the possibility of installing disk mills on it with a thickness of 2 to 10 mm. 4. The woodworking machine according to claim 1, characterized in that the milling spindle is configured to install two or more disk milling cutters of different diameters on it. 5. The woodworking machine according to claim 1, characterized in that the copier is made in the form of a copy of the product manufactured on the machine or made of solid material in the form of a longitudinal axial section of the product manufactured on the machine. 6. The woodworking machine according to claim 1, characterized in that at the end of the longitudinal movement of the carriage along the cylindrical guide there is an end switch configured to operate upon contact with it moving along the cylindrical guide of the carriage and the ability to automatically turn off when the drive rotates the wooden workpiece drive rotation of the disk cutter and drive the movement of the carriage along a cylindrical guide. 7. The woodworking machine according to claim 1, characterized in that the rotation drive of the wooden workpiece and the drive of rotation of the cutter are configured to rotate the wooden workpiece and disk cutter in the opposite direction, while the rotation drive of the disk cutter is configured to rotate the cutter at a speed of 4500 up to 10,000 rpm, and the rotation drive of the wooden workpiece is made with the possibility of rotation of the wooden workpiece at a speed of not more than 1,500 rpm. 8. The woodworking machine according to claim 1, characterized in that the carriage movement drive along the cylindrical guide is made in the form of an engine with a gearbox providing rotation of chain sprockets of various diameters fixed to the gearbox shaft at a speed of no more than 10 revolutions per minute, and also connected to one of the chain sprockets with an open chain, one end of which is attached to the carriage, and the other end of which is equipped with a counterweight. 9. The woodworking machine according to claim 1, characterized in that the carriage drive along the cylindrical guide is configured to change and control the speed of the carriage along the cylindrical guide depending on the depth of processing of the wooden workpiece by a disk mill during automatic carriage movement during its working stroke and free movement of the carriage manually to its original position after completion of the stroke of the carriage and uncoupling of the carriage drive chain from one of the sprockets on the shaft gearbox. 10. The woodworking machine according to claim 1, characterized in that the carriage has bushings made of bronze, cast iron or other material used in sliding bearings, with the possibility of sliding the carriage along a cylindrical guide. 11. The woodworking machine according to claim 1, characterized in that on the cylindrical guide mounted dustproof casings attached to the carriage made of fabric or other flexible dustproof material. 12. The woodworking machine according to claim 1, characterized in that the machine is arranged to rotate the workpiece without forcing the carriage automatically to move along the cylindrical guide and rotate the disk mill to handle the rotating wooden workpiece with a hand tool, grinding or polishing the product manufactured on the machine. 13. A woodworking machine containing a frame, a tool for attaching a wooden workpiece, a drive for rotating a wooden workpiece, a copier, a cylindrical guide mounted on a cylindrical guide with the possibility of longitudinal movement of the carriage, made in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a disk rotation drive mills, and the drive of the longitudinal movement of the carriage along a cylindrical guide, characterized in that the milling spindle is made with the possibility of installing two or three disk mills with successively decreasing diameter in the direction of movement of the working stroke of the carriage. 14. The woodworking machine according to item 13, wherein the axis of rotation of the disk cutters in the milling spindle is located relative to the horizontal plane at an angle of 10 to 30 °, the milling spindle is made with the possibility of changing and adjusting the angle of its inclination relative to the horizontal plane depending on the mode processing the workpiece, and the trailing finger is made with the ability to change and adjust the angle of inclination of the balancer on a cylindrical guide relative to the horizontal plane and the corresponding changes and adjusting the depth of processing the workpiece with a disk mill, while the copier is made in the form of a copy of the product manufactured on the machine or from solid material in the form of a longitudinal axial section of the product manufactured on the machine and mounted on the frame with the ability to change and adjust the position of the copier in the vertical plane by turning and fixing the ends of the copier relative to the central axis of the mounting of the copier. 15. The woodworking machine according to 14, characterized in that at the end of the longitudinal movement of the carriage along the cylindrical guide there is an end switch configured to operate upon contact with it moving along the cylindrical guide of the carriage and the ability to automatically turn off when the drive rotates the wooden workpiece drive rotation of the disk cutter and drive the movement of the carriage along the cylindrical guide, while the drive rotation of the wooden workpiece and the drive rotation of the fre s are made with the possibility of rotation of the wooden billet and disk cutter in the opposite direction, and the drive of rotation of the disk cutter is made to rotate the cutter at a speed of 4500 to 10000 revolutions per minute, the rotation drive of the wooden billet is made to rotate the wooden billet at a speed of no more than 1500 revolutions per minute, and the carriage drive along the cylindrical rail is configured to change and control the speed of the carriage along the cylindrical rail in depending on the depth of processing the wood disk milling. 16. The woodworking machine according to item 13, characterized in that the drive of the longitudinal movement of the carriage along a cylindrical guide is made in the form of an engine with a gearbox that provides rotation of chain sprockets of various diameters mounted on the gearbox shaft at a speed of no more than 10 revolutions per minute, paired with one of chain-drive sprockets with an open chain, one end of which is attached to the carriage and the other end of which is equipped with a counterweight, while the drive of the longitudinal movement of the carriage in a cylindrical direction The machine is made with the possibility of forced automatic movement of the carriage during its working stroke and free movement of the carriage manually to its original position after completion of the working stroke of the carriage and uncoupling of the carriage drive chain with the gear sprocket, and the machine is made to rotate the wooden workpiece without forced automatic movement of the carriage along the cylindrical guide and rotating a disk mill for processing a rotating wooden workpiece with a hand tool, grinding or polishing, and manufactured products on the machine. 17. A woodworking machine containing a frame, a means of attaching a wooden workpiece, a drive for rotating a wooden workpiece, a copier attached to the frame, a cylindrical guide mounted on a cylindrical guide with the possibility of longitudinal movement of the carriage, made in the form of a balancer with a copy finger, a milling spindle with a disk mill and the drive of rotation of the disk mill, and the drive of the longitudinal movement of the carriage along a cylindrical guide, characterized in that at the end of the longitudinal movement of the carriage along the cylinder A limit switch is installed on the other side of the guideway, which is configured to trip upon contact of the carriage moving along the cylindrical guide and automatically turn off when the drive rotates the wooden workpiece, the drive rotates the disk mill and drives the carriage along the cylindrical guide, while the drive rotates the wooden workpiece and the drive rotation of the cutter is made with the possibility of rotation of the wooden billet and disk cutter in the opposite direction In the case of laziness, the drive of the carriage along a cylindrical guide is made in the form of an engine with a gearbox, which provides rotation of chain sprockets of various diameters fixed to the gearbox shaft, as well as an open chain coupled to one of the chain sprockets, one end of which is attached to the carriage and the other end which is equipped with a counterweight, and the carriage drive along the cylindrical rail is configured to change and control the speed of the carriage along the cylindrical rail in depending on the depth of processing of a wooden billet with a disk mill during forced automatic movement of the carriage during its working stroke and free movement of the carriage manually to its original position after completion of the working stroke of the carriage and uncoupling of the carriage drive chain with the gear sprocket. 18. The woodworking machine according to claim 17, characterized in that the drive of rotation of the disk cutter is made with the possibility of rotation of the cutter with a speed of not less than 4500 rpm, and the drive of rotation of the wooden workpiece is made with the possibility of rotation of the wooden workpiece with a speed of not more than 1500 rpm . 19. The woodworking machine according to 17, characterized in that the milling spindle is configured to change and adjust the angle of inclination of the axis of the milling spindle with respect to the horizontal plane, the milling spindle is configured to install two or more disk mills on it, the axis of the milling spindle is located with respect to the horizontal plane at an angle of 10 to 30 °, and the disk milling cutters mounted on the milling spindle have a thickness of 2 to 10 mm, and the machine is made with the possibility of rotating the workpiece without forcing nogo automatic movement of the carriage along the cylindrical guide and the rotation of the cutting wheel for rotating the wood processing a hand tool, grinding or polishing articles manufactured on the machine. 20. The woodworking machine according to 17, characterized in that the carbon finger is made with the ability to change and adjust the angle of inclination of the balancer relative to the horizontal plane and the corresponding change and control the depth of processing of the workpiece with a disk mill, the copier is made in the form of a copy of the product manufactured on the machine or made of solid material in the form of a longitudinal axial section of the product manufactured on the machine and mounted on the frame with the ability to change and adjust its vertical position flax plane by turning and fixing the ends of the copier relative to the Central axis of attachment of the copier. 21. A woodworking machine containing a frame, a means of securing a wooden workpiece, a drive for rotating a wooden workpiece, a copier, a carriage mounted on a cylindrical guide with the possibility of longitudinal movement, a carriage made in the form of a balancer with a trailing finger, a milling spindle with a disk mill and a disk rotation drive milling cutters, and the drive of the longitudinal movement of the carriage along a cylindrical guide, characterized in that the trailing finger is made with the possibility of change and regulation the head of the tilt of the balancer relative to the horizontal plane and the corresponding change and regulation of the depth of processing the workpiece with a disk mill, the copier is made in the form of a copy of the product manufactured on the machine or made of solid material in the form of a longitudinal axial section of the product manufactured on the machine and mounted on the frame with the possibility of changing and adjusting it position in the vertical plane by turning and fixing the ends of the copier relative to the central axis of attachment of the copier. 22. The woodworking machine according to item 21, wherein the milling spindle is configured to install two or more disk milling cutters of different diameters on it and with the ability to change and adjust the angle of inclination of the axis of the milling spindle relative to the horizontal plane, depending on the processing regime of the workpiece, axis the milling spindle is located in relation to the horizontal plane at an angle of 10 to 30 °, and the disk milling cutters mounted on the milling spindle have a thickness of 2 to 10 mm, while at the end of the longitudinal izheniya carriage mounted on a cylindrical guide limit switch arranged to trigger it in contact with it by moving the cylindrical guide carriage and the possibility of automatic tripping when rotation drive of the wood is activated, rotation of the drive disk cutter and drive carriage movement along a cylindrical guideway. 23. The woodworking machine according to item 21, wherein the rotation drive of the wooden workpiece and the drive of rotation of the cutter are configured to rotate the wooden workpiece and disk cutter in the opposite direction, while the drive of rotation of the disk cutter is configured to rotate the cutter at a speed of 4500 up to 10,000 revolutions per minute, and the rotation drive of the wooden workpiece is made with the possibility of rotation of the wooden workpiece at a speed of not more than 1,500 revolutions per minute, the drive of the carriage in a cylindrical direction The lantern is made in the form of an engine with a reducer, which ensures rotation of chain sprockets of various diameters fixed on the reducer shaft with a speed of no more than 10 revolutions per minute, and also connected to one of the chain sprockets with an open chain, one end of which is attached to the carriage, and the other the end of which is equipped with a counterweight, while the drive of the carriage along the cylindrical guide is configured to change and control the speed of the carriage along the cylindrical guide depending and the depth of processing the wood cutter disk during the compulsory automatic movement of the carriage during its working stroke and the free movement of the carriage to its initial position manually after the completion of the working stroke of the carriage and disengagement of the carriage with the drive chain sprocket gear. 24. The woodworking machine according to item 21, wherein the carriage has bushings made of bronze, cast iron or other material used in slide bearings, with the possibility of sliding the carriage along a cylindrical guide, dust covers attached to the carriage made of fabric or other flexible dustproof material and the machine is made with the possibility of rotation of the workpiece without forced automatic movement of the carriage along the cylindrical guide and rotation a disk mill for processing a rotating wooden workpiece with a hand tool, grinding or polishing a product manufactured on a machine.