CN113001645A

CN113001645A - Long-strip-shaped part conveying device for industrial production

Info

Publication number: CN113001645A
Application number: CN202110194261.1A
Authority: CN
Inventors: 吴明龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2021-06-22

Abstract

The invention relates to a part conveying device, in particular to a long-strip-shaped part conveying device for industrial production, which comprises an outer shell, a supporting sleeve, a conveying power device, a conveying device, a supporting vertical plate and a cutting device, wherein the supporting sleeve is fixedly arranged on the outer shell, the conveying power device is fixedly arranged on the supporting vertical plate, the conveying device is in contact with the outer shell, the supporting vertical plate is fixedly arranged on the cutting device, the cutting device is fixedly arranged on the outer shell, the device can automatically feed long-strip-shaped parts and can stop feeding at any time, the staggered position in the device supports the long-strip-shaped parts, the deformation or vibration of the long-strip-shaped parts in the transportation or processing process can be reduced, the device can automatically cut the long-strip-shaped parts, and the cutting position is positioned in the middle, can support the part, reduce the tremble, make the cutting more stable, protect the cutting saw disc simultaneously.

Description

Long-strip-shaped part conveying device for industrial production

Technical Field

The invention relates to a part conveying device, in particular to a long-strip-shaped part conveying device for industrial production.

Background

In industrial processing, long-strip-shaped parts are visible everywhere, but the processing of the long-strip-shaped parts is very troublesome, the long-strip-shaped parts are very easy to deform in clamping due to longer self during processing, chatter easily occurs in the processing process, the processing error is increased slightly, and the parts and even the processing tools are damaged seriously.

Disclosure of Invention

The invention mainly solves the technical problem of providing a long-strip-shaped part conveying device for industrial production, 1. the device can automatically feed long-strip-shaped parts and simultaneously can stop feeding at any time; 2. the staggered position in the device supports the strip-shaped part, so that the deformation or vibration of the strip-shaped part in the transportation or processing process can be reduced; 3. this device can the long banding part of automatic cutout, and the cutting position is located and supports set body intermediate position, can support the part, reduces the tremor, makes the cutting more stable, protects the cutting saw disc simultaneously.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a rectangular form part conveyor for industrial production, includes the shell body, supports the cover, transports power device, conveyor, supports and holds riser and cutting device, the shell body on fixed mounting support the cover, transport power device fixed mounting supports on the riser, supports and installs conveyor on the riser, conveyor contacts with the shell body, supports riser fixed mounting on cutting device, cutting device fixed mounting is on the shell body.

As a further optimization of the technical scheme, the invention relates to a long strip-shaped part conveying device for industrial production, which comprises a T-shaped fixing frame, a power motor A, a driving spur gear, a driven spur gear and a driving spur gear, wherein the power motor A is fixedly installed on the T-shaped fixing frame, the driving spur gear is installed at the output end of the power motor A, the driving spur gear is meshed with the driven spur gear through teeth, the driven spur gear is fixedly installed on the driving spur gear, and the driving spur gear is movably installed on the T-shaped fixing frame through a shaft.

As a further optimization of the technical scheme, the long-strip-shaped part conveying device for industrial production comprises a fixed tooth rack, a conveying mechanism, a supporting rack body and a supporting wheel, wherein the conveying mechanism is installed on the fixed tooth rack, the supporting rack body is installed on the conveying mechanism, and the supporting wheel is movably installed on the supporting rack body;

the conveying mechanism comprises an M-shaped sliding frame, a power motor B, a feeding toothed column, a transmission straight gear, a transmission belt, a feeding gear, a feeding arc-shaped block, a supporting wheel, a driving threaded rod and a control sheet, m type balladeur train slidable mounting is on fixed rack, fixed mounting has motor power B on the M type balladeur train, motor power B's output is installed and is fed the tooth post, it installs on M type balladeur train to feed tooth post movable mounting, transmission spur gear passes through axle movable mounting on M type balladeur train, the drive belt suit is on transmission spur gear and feed gear, feed gear movable mounting on M type balladeur train, supporting wheel movable mounting feeds on the arc piece, the supporting wheel contacts with M type balladeur train, movable mounting has the drive threaded rod on feeding the arc piece, the drive threaded rod passes through the screw thread and installs on M type balladeur train, fixed mounting has the control piece on the drive threaded rod.

As a further optimization of the technical scheme, the long-strip-shaped part conveying device for industrial production comprises a supporting vertical plate, a spring and a trapezoidal fixture block, wherein two ends of the spring are fixedly installed on the fixed vertical plate and the trapezoidal fixture block respectively, and the trapezoidal fixture block is installed in the fixed vertical plate in a sliding manner.

As a further optimization of the technical scheme, the invention relates to a long-strip-shaped part conveying device for industrial production, which comprises an installation side plate, a fixed sliding frame, a power motor C, a transmission screw, a motor driving frame, a power motor D, a cutting saw disc and a supporting sleeve body, wherein the installation side plate is fixedly arranged on an outer shell, the installation side plate is fixedly provided with the fixed sliding frame, the power motor C is fixedly arranged on the fixed sliding frame, the output end of the power motor C is provided with the transmission screw, the transmission screw is movably arranged on the fixed sliding frame, the transmission screw is provided with the motor driving frame, the motor driving frame is slidably arranged on the fixed sliding frame, the motor driving frame is fixedly provided with the power motor D, the output end of the power motor D is provided with the cutting saw disc, and the supporting sleeve body is fixedly arranged on the installation side plate.

The long-strip-shaped part conveying device for industrial production has the beneficial effects that:

1. a power motor A302 drives a driving straight gear 303 to rotate, the driving straight gear 303 is meshed with a driven straight gear 304, so that the driven straight gear 304 rotates, the driven straight gear 304 rotates to drive a driving straight gear 305 to rotate, and the function of passing power is realized;

2. a power motor B406 drives a feeding toothed column 407 to rotate, the feeding toothed column 407 rotates by being meshed with a fixed rack 401, and then the feeding toothed column 407 moves, the feeding toothed column 407 moves to drive an M-shaped sliding frame 405 to move, when the M-shaped sliding frame 405 moves, a supporting wheel 404 rolls on the outer shell 1, friction force can be reduced by adopting rolling, the M-shaped sliding frame 405 is supported, the M-shaped sliding frame 405 is prevented from rotating, when the M-shaped sliding frame moves until a transmission spur gear 408 is meshed with a driving spur gear 305, the driving spur gear 305 drives the transmission spur gear 408 to rotate, the transmission spur gear 408 rotates to drive a feeding gear 410 to rotate through a transmission belt 409, and then parts are driven to move, a control sheet 414 is rotated, the control sheet 414 drives a threaded rod 413 to rotate, the threaded rod 413 is driven to rotate to be in threaded connection with the M-shaped sliding frame 405 through a thread 411, and then drives an arc-shaped block 411 to move, the supporting wheel 412 is, the arc-shaped block 411 is contacted with a part to play a part supporting role, the arc-shaped block 411 is supported while the friction force is reduced by driving the supporting wheel 412 to roll on the M-shaped sliding frame 405, the arc-shaped block 411 is prevented from rotating, the feeding toothed column 407 is meshed with the fixed toothed frame 401 to realize the function of controlling the transmission straight gear 408 to be meshed with the driving straight gear 305, and further the feeding and stopping functions of the part are realized;

3. when the part moves to be in contact with the inclined surface of the trapezoid clamping block 503, the trapezoid clamping block 503 is jacked to press the spring 502, so that the trapezoid clamping block 503 is in contact with the side surface of the part, the spring 502 provides power for the trapezoid clamping block 503 through the elastic action of the spring 502, the function of supporting the part is further realized, and the part moves more stably;

4. the power motor C603 drives the transmission screw 604 to rotate, the transmission screw 604 rotates and is in threaded connection with the motor driving frame 605, further, the motor driving frame 605 is driven to slide on the fixed sliding frame 602, the fixed sliding frame 602 moves to drive the power motor D606 to move, the power motor D606 is started, the power motor D606 drives the cutting saw disc 607 to rotate, the cutting saw disc 607 rotates to play a cutting function, the cutting position is located in the middle of the supporting sleeve body 608, the supporting sleeve body 608 can play a supporting function for parts, vibration of the parts is reduced, and the function of protecting the cutting saw disc 607 is achieved while the movement is more stable.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of an entire long-sized part conveying apparatus for industrial production according to the present invention.

Fig. 2 is a schematic supplementary perspective view of the whole long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 3 is a schematic perspective view of the storage and feeding device 2 of the long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 4 is a schematic perspective view of the scrap collecting device 3 of the long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 5 is a supplementary perspective view of the scrap collecting device 3 of the long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 6 is a schematic perspective view of the cutting processing device 4 of the long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 7 is a schematic supplementary perspective view of the cutting processing device 4 of the long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 8 is a schematic perspective view of a fixing base 401 of an elongated component conveying apparatus for industrial production according to the present invention.

Fig. 9 is a supplementary perspective view of a fixing base 401 of an elongated component conveying apparatus for industrial production according to the present invention.

Fig. 10 is a schematic perspective view of a feeding mechanism 403 of an apparatus for transporting elongated parts for industrial production according to the present invention.

Fig. 11 is a schematic perspective view of a feeding mechanism body 408 of an elongated component conveying device for industrial production according to the present invention.

Fig. 12 is a supplementary perspective view of the feeding mechanism body 408 of the long-strip-shaped part conveying device for industrial production according to the present invention.

Fig. 13 is a schematic perspective view of a cutting mechanism 404 of an apparatus for transporting elongated parts for industrial production according to the present invention.

In the figure: an outer shell 1; a support sleeve 2; a conveyance power unit 3; a T-shaped fixing frame 301; a power motor A302; a driving spur gear 303; a driven spur gear 304; driving a spur gear 305; a conveyance device 4; a fixed carrier 401; a conveyance mechanism 402; a support frame body 403; a support wheel 404; an M-shaped carriage 405; a power motor B406; a feed tooth post 407; a spur gear 408; a transmission belt 409; a feed gear 410; the arc block 411 is fed; a support wheel 412; driving the threaded rod 413; a control tab 414; supporting the vertical plate 5; a fixed vertical plate 501; a spring 502; a trapezoidal shaped latch 503; a cutting device 6; mounting the side plate 601; a stationary carriage 602; a power motor C603; a drive screw 604; the motor drives the frame 605; a power motor D606; a dicing saw disc 607; support sleeve 608.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 and 2, and the long-strip-shaped part conveying device for industrial production includes an outer shell 1, a supporting sleeve 2, a conveying power device 3, a conveying device 4, a supporting vertical plate 5 and a cutting device 6, wherein the supporting sleeve 2 is fixedly installed on the outer shell 1, the conveying power device 3 is fixedly installed on the supporting vertical plate 5, the conveying device 4 is in contact with the outer shell 1, the supporting vertical plate 5 is fixedly installed on the cutting device 6, and the cutting device 6 is fixedly installed on the outer shell 1.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 3, and the present embodiment further describes an embodiment, where the conveying power device 3 includes a T-shaped fixing frame 301, a power motor a302, a driving spur gear 303, a driven spur gear 304, and a driving spur gear 305, the power motor a302 is fixedly installed on the T-shaped fixing frame 301, the driving spur gear 303 is installed at an output end of the power motor a302, the driving spur gear 303 is engaged with the driven spur gear 304 through teeth, the driven spur gear 304 is fixedly installed on the driving spur gear 305, the driving spur gear 305 is movably installed on the T-shaped fixing frame 301 through a shaft, the driving spur gear 303 is driven by the power motor a302 to rotate, the driving spur gear 303 is engaged with the driven spur gear 304, further, the driven spur gear 304 rotates, and the driven spur gear 304 rotates to drive the spur gear 305 to rotate, thereby realizing the function of passing power.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, in which the conveying device 4 includes a fixed rack 401, a conveying mechanism 402, a support frame 403, and a support wheel 404, the conveying mechanism 402 is installed on the fixed rack 401, the support frame 403 is installed on the conveying mechanism 402, and the support wheel 404 is movably installed on the support frame 403;

the conveying mechanism 402 comprises an M-shaped carriage 405, a power motor B406, a feeding toothed column 407, a transmission spur gear 408, a transmission belt 409, a feeding gear 410, a feeding arc-shaped block 411, a supporting wheel 412, a driving threaded rod 413 and a control sheet 414, wherein the M-shaped carriage 405 is slidably mounted on the fixed toothed frame 401, the power motor B406 is fixedly mounted on the M-shaped carriage 405, the feeding toothed column 407 is mounted at the output end of the power motor B406, the feeding toothed column 407 is movably mounted on the M-shaped carriage 405, the transmission spur gear 408 is movably mounted on the M-shaped carriage 405 through a shaft, the transmission belt 409 is sleeved on the transmission spur gear 408 and the feeding gear 410, the feeding gear 410 is movably mounted on the M-shaped carriage 405, the supporting wheel 412 is movably mounted on the feeding arc-shaped block 411, the supporting wheel 412 is in contact with the M-shaped carriage 405, the driving threaded rod 413 is movably mounted on the feeding arc-shaped block 411 and drives the, a control piece 414 is fixedly arranged on the driving threaded rod 413, a power motor B406 drives the feeding toothed column 407 to rotate, the feeding toothed column 407 rotates by being meshed with the fixed toothed rack 401, and then the feeding toothed column 407 moves, the feeding toothed column 407 moves to drive the M-shaped sliding rack 405 to move, when the M-shaped sliding rack 405 moves, the supporting wheel 404 rolls on the outer shell 1, the friction force can be reduced by adopting the rolling energy, the M-shaped sliding rack 405 is supported, the M-shaped sliding rack 405 is prevented from rotating, when the driving straight gear 408 is meshed with the driving straight gear 305, the driving straight gear 305 drives the driving straight gear 408 to rotate, the driving straight gear 408 rotates to drive the feeding gear 410 to rotate through the driving belt 409, and further drives the part to move, the control piece 414 is rotated, the control piece 414 drives the driving threaded rod 413 to rotate, and drives the threaded rod 413 to rotate by being in threaded connection with the M-shaped, and then drive and feed the motion of arc piece 411, it drives supporting wheel 412 and rolls on M type balladeur train 405 to feed the motion of arc piece 411, make arc piece 411 and part contact, the effect that the part that plays supports, adopt and drive supporting wheel 412 and roll on M type balladeur train 405 when reducing frictional force, play the effect of supporting to arc piece 411, prevent that arc piece 411 from rotating, it realizes the function of control transmission straight gear 408 and drive straight gear 305 meshing with fixed tooth frame 401 to feed the tooth post 407, and then realize the function of feeding and stopping of part.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 11 and 12, and the present embodiment further describes the first embodiment, the supporting vertical plate 5 includes a fixed vertical plate 501, a spring 502, and a trapezoidal fixture block 503, two ends of the spring 502 are respectively and fixedly mounted on the fixed vertical plate 501 and the trapezoidal fixture block 503, the trapezoidal fixture block 503 is slidably mounted in the fixed vertical plate 501, when the part moves to contact with an inclined surface of the trapezoidal fixture block 503, the trapezoidal fixture block 503 is pushed against the spring 502, so that the trapezoidal fixture block 503 contacts with a side surface of the part, and the spring 502 provides power for the trapezoidal fixture block 503 through its elastic action, thereby realizing a function of supporting the part, and further stabilizing the movement of the part.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 13, and the present embodiment further describes the first embodiment, the cutting device 6 includes a mounting side plate 601, a fixed carriage 602, a power motor C603, a transmission screw 604, a motor driving frame 605, a power motor D606, a cutting saw disc 607, and a supporting sleeve 608, the mounting side plate 601 is fixedly mounted on the outer casing 1, the fixed carriage 602 is fixedly mounted on the mounting side plate 601, the power motor C603 is fixedly mounted on the fixed carriage 602, a transmission screw 604 is mounted at an output end of the power motor C603, the transmission screw 604 is movably mounted on the fixed carriage 602, the motor driving frame 605 is mounted on the transmission screw 604, the motor driving frame 605 is slidably mounted on the fixed carriage 602, the power motor D606 is fixedly mounted on the motor driving frame 605, the cutting saw disc 607 is mounted at an output end of the motor D606, and the supporting sleeve 608 is fixedly mounted on the, the power motor C603 drives the transmission screw 604 to rotate, the transmission screw 604 rotates and is in threaded connection with the motor driving frame 605, and then the motor driving frame 605 is driven to slide on the fixed sliding frame 602, the fixed sliding frame 602 moves to drive the power motor D606 to move, the power motor D606 is started, the power motor D606 drives the cutting saw disc 607 to rotate, the cutting saw disc 607 rotates to play a cutting function, because the cutting position is located in the middle of the supporting sleeve body 608, the supporting sleeve body 608 can play a supporting function for a part, the vibration of the part is reduced, the movement is more stable, and meanwhile, the function of protecting the cutting saw disc 607 is achieved.

The invention relates to a long-strip-shaped part conveying device for industrial production, which has the working principle that:

the power motor A302 is started, the power motor A302 drives the driving spur gear 303 to rotate, the driving spur gear 303 is meshed with the driven spur gear 304, the driven spur gear 304 is further rotated, the driven spur gear 304 rotates to drive the driving spur gear 305 to rotate, and therefore the function of passing power is achieved.

Starting a power motor B406, the power motor B406 drives a feeding tooth column 407 to rotate, the feeding tooth column 407 rotates through being meshed with a fixed tooth rack 401, and then the feeding tooth column 407 moves, the feeding tooth column 407 moves to drive an M-shaped carriage 405 to move, when the M-shaped carriage 405 moves, a supporting wheel 404 rolls on the outer shell 1, friction force can be reduced by adopting rolling, the M-shaped carriage 405 is supported, the M-shaped carriage 405 is prevented from rotating, when the M-shaped carriage 405 moves until the transmission spur gear 408 is meshed with a driving spur gear 305, the driving spur gear 305 drives the transmission spur gear 408 to rotate, the transmission spur gear 408 rotates to drive a feeding gear 410 to rotate through a transmission belt 409, and then parts are driven to move, a control sheet 414 is rotated, the control sheet 414 drives a threaded rod 413 to rotate, the threaded rod 413 is driven to rotate to be in threaded connection with the M-shaped carriage 405, and then a feeding arc block 411, the arc feeding block 411 moves to drive the supporting wheel 412 to roll on the M-shaped sliding frame 405, so that the arc block 411 is in contact with a part, the part is supported, the supporting wheel 412 is driven to roll on the M-shaped sliding frame 405 to reduce friction force, the arc block 411 is supported, the arc block 411 is prevented from rotating, the feeding toothed column 407 is meshed with the fixed toothed frame 401 to achieve the function of controlling the transmission straight gear 408 to be meshed with the driving straight gear 305, and further the feeding and stopping functions of the part are achieved.

When the part moves to the inclined plane contact with trapezoidal fixture block 503, push trapezoidal fixture block 503 and press spring 502, make trapezoidal fixture block 503 and part side contact, spring 502 provides power for trapezoidal fixture block 503 through self elastic action, and then realizes the function of holding the part, makes the part motion more stable.

The power motor C603 is started, the power motor C603 drives the transmission screw 604 to rotate, the transmission screw 604 rotates and is in threaded connection with the motor driving frame 605, the motor driving frame 605 is further driven to slide on the fixed sliding frame 602, the fixed sliding frame 602 moves to drive the power motor D606 to move, the power motor D606 is started, the power motor D606 drives the cutting saw disc 607 to rotate, the cutting saw disc 607 rotates to play a cutting function, the cutting position is located in the middle of the supporting sleeve body 608, the supporting sleeve body 608 can play a supporting function for parts, vibration of the parts is reduced, movement is more stable, and meanwhile the function of protecting the cutting saw disc 607 is achieved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which can be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a rectangular form part conveyor for industrial production, includes shell body (1), supports cover (2), transports power device (3), conveyor (4), supports riser (5) and cutting device (6), its characterized in that: the supporting device is characterized in that the supporting sleeve (2) is fixedly mounted on the outer shell (1), the conveying power device (3) is fixedly mounted on the supporting vertical plate (5), the conveying device (4) is in contact with the outer shell (1), the supporting vertical plate (5) is fixedly mounted on the cutting device (6), and the cutting device (6) is fixedly mounted on the outer shell (1).

2. An apparatus for transporting an elongated member for industrial use according to claim 1, wherein: the conveying power device (3) comprises a T-shaped fixing frame (301), a power motor A (302), a driving straight gear (303), a driven straight gear (304) and a driving straight gear (305), wherein the power motor A (302) is fixedly installed on the T-shaped fixing frame (301), the driving straight gear (303) is installed at the output end of the power motor A (302), the driving straight gear (303) is meshed with the driven straight gear (304) through teeth, the driven straight gear (304) is fixedly installed on the driving straight gear (305), and the driving straight gear (305) is movably installed on the T-shaped fixing frame (301) through a shaft.

3. An apparatus for transporting an elongated member for industrial use according to claim 1, wherein: the conveying device (4) comprises a fixed toothed frame (401), a conveying mechanism (402), a supporting frame body (403) and a supporting wheel (404), wherein the conveying mechanism (402) is installed on the fixed toothed frame (401), the supporting frame body (403) is installed on the conveying mechanism (402), and the supporting wheel (404) is movably installed on the supporting frame body (403);

the conveying mechanism (402) comprises an M-shaped sliding frame (405), a power motor B (406), a feeding toothed column (407), a transmission straight gear (408), a transmission belt (409), a feeding gear (410), a feeding arc-shaped block (411), a supporting wheel (412), a driving threaded rod (413) and a control sheet (414), wherein the M-shaped sliding frame (405) is slidably mounted on a fixed toothed frame (401), the power motor B (406) is fixedly mounted on the M-shaped sliding frame (405), the feeding toothed column (407) is mounted at the output end of the power motor B (406), the feeding toothed column (407) is movably mounted on the M-shaped sliding frame (405), the transmission straight gear (408) is movably mounted on the M-shaped sliding frame (405) through a shaft, the transmission belt (409) is sleeved on the transmission straight gear (408) and the feeding gear (410), the feeding gear (410) is movably mounted on the M-shaped sliding frame (405), the supporting wheel (412) is movably mounted on the feeding arc-shaped block, supporting wheel (412) contact with M type balladeur train (405), and movable mounting has drive threaded rod (413) on feeding arc piece (411), drives threaded rod (413) and passes through the screw thread and install on M type balladeur train (405), drives threaded rod (413) and goes up fixed mounting and have control piece (414).

4. An apparatus for transporting an elongated member for industrial use according to claim 1, wherein: the supporting vertical plate (5) comprises a fixed vertical plate (501), a spring (502) and a trapezoidal fixture block (503), two ends of the spring (502) are respectively and fixedly installed on the fixed vertical plate (501) and the trapezoidal fixture block (503), and the trapezoidal fixture block (503) is installed in the fixed vertical plate (501) in a sliding mode.

5. An apparatus for transporting an elongated member for industrial use according to claim 1, wherein: the cutting device (6) comprises a mounting side plate (601), a fixed sliding frame (602), a power motor C (603), a transmission screw rod (604), a motor driving frame (605), a power motor D (606), a cutting saw disc (607) and a supporting sleeve body (608), wherein the mounting side plate (601) is fixedly mounted on the outer shell (1), the mounting side plate (601) is fixedly provided with the fixed sliding frame (602), the power motor C (603) is fixedly mounted on the fixed sliding frame (602), the output end of the power motor C (603) is provided with the transmission screw rod (604), the transmission screw rod (604) is movably mounted on the fixed sliding frame (602), the transmission screw rod (604) is provided with the motor driving frame (605), the motor driving frame (605) is slidably mounted on the fixed sliding frame (602), the power motor D (606) is fixedly mounted on the motor driving frame (605), the output end of the power motor D (606) is provided with the cutting saw disc (607), the supporting sleeve body (608) is fixedly arranged on the mounting side plate (601).