CN218799267U - Drilling machine is used in anchor board production - Google Patents

Abstract

The utility model belongs to the technical field of anchor plate production, in particular to a drilling machine for anchor plate production, which comprises a drilling platform, a supporting mechanism, a first moving mechanism, a limiting mechanism, a cooling mechanism and a second moving mechanism, wherein the upper surface of the drilling platform is connected with the first moving mechanism through the supporting mechanism, the upper surface of the drilling platform below the first moving mechanism is connected with the limiting mechanism, the cooling mechanism is connected inside the drilling platform, and the second moving mechanism is connected with the upper surface of the drilling platform; the problems that when an existing drilling machine is used for machining and producing an anchoring plate, the local temperature of a drill bit is easily overhigh, the service life of the drill bit is influenced, a large amount of scraps generated during machining easily influence the machining efficiency, and the labor amount of manual cleaning is large are solved; the utility model discloses can improve work efficiency to drill bit cooling, extension drill bit life.

Description

Drilling machine is used in anchor board production

Technical Field

The utility model belongs to the technical field of the anchor board production, concretely relates to drilling machine is used in anchor board production.

Background

Anchor board refers to reinforcing bar anchor board, it is the new method that the solution reinforcing bar blocked up, reduce the new measure of anchor length, anchor board safe and reliable, the anchor performance is good, but full play reinforcing bar intensity, be favorable to the use of higher strength reinforcing bar, the production and processing of anchor board need use the drilling machine, traditional drilling machine is when processing the anchor board, lead to the drill bit local temperature too high easily, influence drill bit life, can produce a large amount of pieces when processing the anchor board, influence processing anchor board efficiency, the clean amount of labour of manual work is great.

Chinese patent publication No. CN101085540A discloses a table top positioning mechanism of a back-cut anchoring plate drilling machine for wall decoration, which is characterized in that: 1. an elastic pressing plate is arranged above the plate supporting horizontal plane and acts on the plate drilling surface, and a through hole for a drill bit to pass through is formed in the center of the pressing plate; 2. the plate horizontal supporting mechanism is formed by combining a fixed supporting table top and a lifting roller supporting table top, the fixed supporting table top is provided with a main supporting plate which is arranged along the X direction and is positioned under the drill bit, auxiliary supporting plates which are arranged along the Y direction are respectively arranged at two sides of the main supporting plate, and the adjacent auxiliary supporting plates are arranged in parallel and at intervals, so that a non-square hollow fixed supporting table top is formed; the lifting roller supporting table surface consists of a group of universal rollers, a supporting frame and a lifting mechanism, wherein the group of universal rollers are arranged in a non-square hollow area and supported by the supporting frame, and the lifting mechanism enables the rolling supporting surface formed by the wheel rims to be in lifting and lowering working states relative to the fixed supporting table surface. The document solves the problem that the sheet drilling is easy to punch and break, and blind holes with the depth of 7mm can be punched on a ceramic plate with the thickness of 9 mm. However, this document does not solve the problem that when the drilling machine is used for processing and producing the anchoring plate, the local temperature of the drill bit is easily too high, which affects the service life of the drill bit, a large amount of chips generated during processing easily affects the processing efficiency, and the labor amount for manual cleaning is large.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of drilling machine is used in anchor board production purpose is overcome prior art drilling machine when processing production anchor board, makes drill bit local temperature too high easily, influences drill bit life, and a large amount of pieces that produce man-hour influence machining efficiency easily, the great problem of artifical clean amount of labour.

Therefore, the utility model provides a drilling machine is used in anchor board production, including drilling platform, supporting mechanism, moving mechanism one, stop gear, cooling mechanism and moving mechanism two, the higher authority of drilling platform passes through supporting mechanism and connects moving mechanism one, connects stop gear above the drilling platform of moving mechanism one below, and cooling mechanism links inside the drilling platform, and moving mechanism two are connected above the drilling platform.

Preferably, the drilling platform is provided with a material box and a collecting box, the right part of the upper surface of the drilling platform is sequentially connected with a second moving mechanism and the material box from front to back, the right side surface of the drilling platform is connected with the collecting box, the collecting box is located on the right side of the second moving mechanism, the opening and closing door is arranged in front of the drilling platform, and the middle part of the upper surface of the drilling platform is provided with a first through hole.

Preferably, the supporting mechanism includes a motor, a rotation axis and supports the shell, and the shrinkage pool has been seted up at the preceding middle part of support shell, supports the higher authority of shell and connects a motor, and the one end of a rotation axis is connected to the power take off end of a motor, and the vertical connection of a rotation axis is in the shrinkage pool, supports the shell below and the drilling platform is all connected to the other end of a rotation axis.

Preferably, the first moving mechanism comprises a moving plate, a drilling mechanism and a drill bit, a threaded hole is formed in the rear end of the moving plate, the front end of the moving plate is connected with the drill bit through the drilling mechanism, the through hole is located below the drill bit, and a shaft body of a first rotating shaft is connected in the threaded hole.

Preferably, stop gear includes 2 flexible stop device, and flexible stop device includes cylinder, telescopic link and solid fixed ring, and relative setting about 2 flexible stop device connects the rig floor under the cylinder, and the power take off end of cylinder passes through the telescopic link and connects solid fixed ring, and 2 flexible stop device's solid fixed ring is located the below of drill bit.

Preferably, cooling mechanism includes water pump, water pipe, retrieves shell, bin and backup pad, and the bin links in the drilling platform, and the bottom of shell is retrieved in the side intercommunication of bin, and the upper end of retrieving the shell links in through-hole one, retrieves the interior horizontal connection backup pad of shell, has seted up a plurality of through-holes two in the backup pad, the internal connection water pump of bin, the end of intaking of water pipe is connected to the play water end of water pump, and the play water end of water pipe is worn out the drilling platform and is located the top of through-hole one.

Preferably, the support plate is lower in height than the upper face of the drilling table.

Preferably, the cooling mechanism further comprises a filter screen, the filter screen is connected in the recycling shell, and the filter screen is located below the supporting plate.

Preferably, a sliding groove is formed in the recycling shell, and the filter screen is connected with the sliding groove.

Preferably, moving mechanism two includes No. two motors, no. two rotation axes, the installation shell, servo motor, the axis of rotation, the slide, electric magnetic block and work box, connect the higher authority of drill table under the work box, connect No. two motors in the work box, the power take off end of No. two motors connects the installation shell and installs the top that the shell is located the work box through No. two rotation axes, the inside axial connection axis of rotation of installation shell, external slide on the axis body of axis of rotation, connect the outside that electric magnetic block and electric magnetic block are located the installation shell under the slide, servo motor's power take off end is connected to the one end of axis of rotation.

The utility model has the advantages that:

1. the utility model provides a drilling machine is used in production of anchor board, including drilling platform, supporting mechanism, moving mechanism one, stop gear, cooling mechanism and moving mechanism two, realize fixing and spacing to the anchor board through stop gear, drill the processing through supporting mechanism and moving mechanism one with the anchor board after fixing, cool down through cooling mechanism to the moving mechanism one in the processing of drilling, avoid the drill bit local temperature too high, extension drill bit life; meanwhile, the moving mechanism I is convenient for shifting and collecting the processed anchoring plate.

2. The utility model provides a drilling machine is used in anchor board production, the material incasement portion has certain space for store the anchor board that needs processing, the collecting box is convenient for collect the anchor board that processing was accomplished.

3. The utility model provides a drilling machine is used in production of anchor board has seted up the shrinkage pool through the preceding middle part at the support shell, and the vertical connection of rotation axis is in the shrinkage pool, for the meshing of a rotation axis and movable plate is connected the removal and is provided slip space and protection.

4. The utility model provides a drilling machine is used in production of this kind of anchor board, the inside of bin has certain space, a water pump is provided in for storing certain water, the water pump produces kinetic energy through work and extracts the inside water of bin, the water pump can turn into the kinetic energy of rivers with mechanical energy, the transport of rivers is accelerateed to the lead pipe, the flow direction of rivers can be controlled to the water pipe, anchor board and the drill bit to drilling processing wash the cooling, retrieve the top of shell through running through the drilling platform, it can collect the piece that drilling produced to retrieve the shell, make the inside that the rivers of retrieving flow into the bin after the filter screen filters, the backup pad is through installing the inner wall at retrieving the shell, the backup pad provides the support for the anchor board processing at top, through-hole two provides the circulation position for piece and the rivers that wash, it flows into the inside of retrieving the shell, the inside of spout has certain space, be connected and provide storage space and sliding distance for the gomphosis of filter screen, the filter screen is through running through retrieving the shell, the sliding distance that the spout provided, the pull can make the filter screen take out, the filter screen top is filtered piece clear up. The processing efficiency is improved, and the manual cleaning labor amount is reduced.

Drawings

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

FIG. 1 is a perspective view of a drilling machine for producing an anchor plate;

FIG. 2 is a front view of the cooling mechanism;

FIG. 3 is a front view of the first moving mechanism;

FIG. 4 is a front view of the stop mechanism;

fig. 5 is a front view of the second moving mechanism.

Description of the reference numerals: 1. a drilling table; 2. a support mechanism; 3. a first moving mechanism; 4. a limiting mechanism; 5. a cooling mechanism; 6. a second moving mechanism; 101. opening and closing the door; 102. a material box; 103. a collection box; 104. a first through hole; 201. a first motor; 202. a first rotating shaft; 203. a support housing; 204. concave holes; 301. a threaded hole; 302. a drilling mechanism; 303. a drill bit; 304. moving the plate; 401. a telescopic rod; 402. a fixing ring; 403. a cylinder; 501. a water pump; 502. a water pipe; 503. recovering the shell; 504. a chute; 505. filtering with a screen; 506. a support plate; 507. a storage tank; 508. a second through hole; 601. a second motor; 602. a second rotating shaft; 603. mounting a shell; 604. a servo motor; 605. a rotating shaft; 606. a slide plate; 607. an electromagnetic block; 608. a work box.

Detailed Description

Example 1:

as shown in figures 1 and 2, the drilling machine for producing the anchoring plate comprises a drilling table 1, a supporting mechanism 2, a first moving mechanism 3, a limiting mechanism 4, a cooling mechanism 5 and a second moving mechanism 6, wherein the upper surface of the drilling table 1 is connected with the first moving mechanism 3 through the supporting mechanism 2, the upper surface of the drilling table 1 below the first moving mechanism 3 is connected with the limiting mechanism 4, the cooling mechanism 5 is connected into the drilling table 1, and the second moving mechanism 6 is connected with the upper surface of the drilling table 1.

The utility model discloses a drilling machine is used in anchor plate production realizes fixing and spacing anchor plate through stop gear 4, carries out drilling processing through supporting mechanism 2 and moving mechanism 3 with the anchor plate after fixing, cools down through moving mechanism 3 in the drilling processing through cooling mechanism 5, avoids drill bit local temperature too high, prolongs drill bit life; meanwhile, the moving mechanism I3 is convenient for shifting and collecting the processed anchoring plates.

Example 2:

on the basis of embodiment 1, the drilling platform 1 is provided with and connected with a material box 102 and a collecting box 103, the right part of the upper surface of the drilling platform 1 is sequentially connected with a second moving mechanism 6 and the material box 102 from front to back, the right side surface of the drilling platform 1 is connected with the collecting box 103, the collecting box 103 is positioned on the right side of the second moving mechanism 6, the front surface of the drilling platform 1 is provided with an opening and closing door 101, and the middle part of the upper surface of the drilling platform 1 is provided with a first through hole 104.

The material box 102 has a space inside for storing the anchor plates to be processed, and the collection box 103 facilitates collection of the processed anchor plates.

Example 3:

on embodiment 2's basis, supporting mechanism 2 includes a motor 201, a rotation axis 202 and supports shell 203, supports the preceding middle part of shell 203 and has seted up the shrinkage pool 204, supports the higher authority of shell 203 and connects a motor 201, and the power take off end of a motor 201 connects the one end of a rotation axis 202, and a rotation axis 202 is vertical to be connected in shrinkage pool 204, supports the below of shell 203 and the other end of a rotation axis 202 all connects drilling platform 1.

Through set up shrinkage pool 204 in the middle part in the front of support shell 203, a rotation axis 202 is vertical to be connected in shrinkage pool 204, provides slide space and protection for the meshing of a rotation axis 202 and movable plate 304 is connected the removal.

Preferably, as shown in fig. 3, the moving mechanism one 3 includes a moving plate 304, a drilling mechanism 302 and a drill 303, a threaded hole 301 is formed in a rear end of the moving plate 304, a front end of the moving plate 304 is connected with the drill 303 through the drilling mechanism 302, a through hole one 104 is located below the drill 303, and a shaft body of the first rotating shaft 202 is connected in the threaded hole 301.

A motor 201 produces kinetic energy through work and offers output end rotation axis 202, rotation axis 202 rotates through the kinetic energy that a motor 201 provided, through a rotation axis 202 and screw hole 301 run through the meshing and be connected, a rotation axis 202 rotates and can drive movable plate 304 and reciprocate in the inside of supporting shell 203, drilling mechanism 302 (current device) produces kinetic energy through work and offers drill bit 303, drill bit 303 can carry out drilling processing to the fixed anchor board of accomplishing through the kinetic energy that drilling mechanism 302 provided, moreover, the steam generator is simple in structure, and the movement operation is convenient.

Preferably, the first rotating shaft 202 is engaged with the threaded hole 301. Ensure that the first rotating shaft 202 rotates to move the moving plate 304.

Example 4:

on the basis of embodiment 3, as shown in fig. 4, the limiting mechanism 4 includes 2 telescopic limiting devices, each telescopic limiting device includes a cylinder 403, a telescopic rod 401 and a fixing ring 402, the 2 telescopic limiting devices are arranged opposite to each other left and right, the drilling table 1 is connected below the cylinder 403, the power output end of the cylinder 403 is connected with the fixing ring 402 through the telescopic rod 401, and the fixing ring 402 of the 2 telescopic limiting devices is located below the drill bit 303.

The air cylinder 403 generates kinetic energy through work and supplies the kinetic energy to the output end telescopic rod 401, the telescopic rod 401 performs telescopic motion through the kinetic energy supplied by the air cylinder 403, and pushes the fixing ring 402 at one end to extrude, limit and fix the anchoring plate at the top of the supporting plate 506; simple structure and stable operation.

Example 5:

based on embodiment 4, as shown in fig. 2, the temperature reducing mechanism 5 includes a water pump 501, a water pipe 502, a recycling case 503, a storage tank 507 and a support plate 506, the storage tank 507 is connected to the drilling platform 1, the side surface of the storage tank 507 is communicated with the bottom end of the recycling case 503, the upper end of the recycling case 503 is connected to the first through hole 104, the support plate 506 is horizontally connected to the recycling case 503, the support plate 506 is provided with a plurality of second through holes 508, the interior of the storage tank 507 is connected to the water pump 501, the water outlet end of the water pump 501 is connected to the water inlet end of the water pipe 502, and the water outlet end of the water pipe 502 penetrates through the drilling platform 1 and is located above the first through hole 104.

The inside of the storage box 507 is provided with a certain space for storing certain water to be supplied to the water pump 501, the water pump 501 generates kinetic energy through work to extract the water in the storage box 507, the water pump 501 can convert mechanical energy into the kinetic energy of water flow, the conveying of the water flow is accelerated through the water pipe 502, the water pipe 502 can control the flow direction of the water flow, the anchoring plate and the drill bit 303 which are processed by drilling are washed and cooled, the local over-high temperature of the drill bit is avoided, and the service life of the drill bit is prolonged; the recycling shell 503 penetrates through the top of the drilling platform 1, the recycling shell 503 can collect debris generated by drilling, the supporting plate 506 is arranged on the inner wall of the recycling shell 503, the supporting plate 506 provides support for machining of an anchoring plate at the top, and the second through hole 508 provides a flowing position for the flushed debris and water flow to flow into the recycling shell 503; the utilization rate of water is improved, resources are saved, and the cost is reduced; the scrap is convenient to recycle, the working efficiency is improved, and the workload is reduced.

Preferably, the number of the second through holes 508 is multiple, and the multiple second through holes 508 are distributed at equal intervals. Facilitating the flow of water back into the recovery housing 503.

Preferably, the support plate 506 has a height lower than the upper side of the drilling table 1. While stably supporting the anchor plate, the cooled water flows back to the inside of the recovery case 503.

Preferably, the temperature reducing mechanism 5 further comprises a filter screen 505, the filter screen 505 is connected in the recycling case 503, and the filter screen 505 is located below the supporting plate 506.

The inside that the rivers of retrieving flow into bin 507 after filter screen 505 filters improves the utilization ratio of water, is convenient for retrieve the piece, reduces artifical clean amount of labour.

Preferably, a chute 504 is formed in the recycling shell 503, and the filter screen 505 is connected to the chute 504. The inside of the chute 504 has a certain space to provide a storage space and a sliding distance for the engagement connection of the screen 505, and the screen 505 is drawn out by the force of the pulling through the sliding distance provided by the chute 504 by penetrating the recovery case 503 to clean the debris filtered at the top of the screen 505.

Example 6:

in addition to embodiment 5, as shown in fig. 5, the second moving mechanism 6 includes a second motor 601, a second rotating shaft 602, a mounting case 603, a servo motor 604, a rotating shaft 605, a sliding plate 606, an electromagnetic block 607 and a working box 608, the lower part of the working box 608 is connected to the upper surface of the drilling table 1, the second motor 601 is connected to the working box 608, the power output end of the second motor 601 is connected to the mounting case 603 through the second rotating shaft 602, the mounting case 603 is located above the working box 608, the inner part of the mounting case 603 is axially connected to the rotating shaft 605, the shaft body of the rotating shaft 605 is externally connected to the sliding plate 606, the lower part of the sliding plate 606 is connected to the electromagnetic block 607, the electromagnetic block 607 is located outside the mounting case 603, and one end of the rotating shaft 605 is connected to the power output end of the servo motor 604.

Sliding plate 606 meshes with axis of rotation 605 mutually, electromagnetic block 607 is installed to the bottom of sliding plate 606, work box 608 is used for protecting the stable work of inside No. two motor 601, no. two motor 601 produces kinetic energy through work and provides No. two rotation axis 602 of output, no. two rotation axis 602 rotates through the kinetic energy that No. two motor 601 provided, it moves to drive the installation shell 603 on top to carry out the rotational position, installation shell 603 provides protection and sliding distance for the meshing of axis of rotation 605 and sliding plate 606, servo motor 604 produces kinetic energy through work and provides output axis of rotation 605, axis of rotation 605 rotates through the kinetic energy that servo motor 604 provided, pass through meshing through axis of rotation 605 and sliding plate 606, axis of rotation 605 can drive sliding plate 606 and carry out linear motion in the inside of installation shell 603, electromagnetic block 607 can produce magnetic force through electric connection work, carry out magnetic force adsorption to the anchor board that the processing is accomplished, place in the inside of collecting box 103, moreover, the steam generator is simple in structure, and high collection efficiency.

The utility model discloses a theory of operation does: the anchor plate is stably supported by the supporting plate 506, kinetic energy is provided for the telescopic rod 401 at the output end by the working of the cylinder 4, the telescopic rod 401 performs telescopic motion by the kinetic energy provided by the cylinder 4, the fixing ring 402 at one end is pushed to extrude and limit the anchor plate at the top of the supporting plate 506, the drill bit 303 performs rotary work by the kinetic energy provided by the drilling mechanism 302, the anchor plate is drilled by the drill bit 303, the kinetic energy generated by the working of the water pump 501 is extracted from water in the storage tank 507, the water pump 501 can convert mechanical energy into the kinetic energy of water flow, the water flow is accelerated by the water pipe 502, the anchor plate and the drill bit 303 are washed and cooled, the washed water flows to the inside of the recovery shell 503 through the second through hole 508, the embedded position and the sliding distance provided for the filter screen 505 by the chute 504, the debris can be filtered and blocked by the second motor 505, the filter screen 505 can slide out by the pulling of force, the debris at the top of the filter screen 505 can be cleaned, the filtered water flows back to the inside of the storage tank 503, the kinetic energy is provided for the rotation of the output end 602 by the rotating shaft 601, the rotating motor 605, the rotating shaft 605 and the rotating slide plate can be provided for driving the rotating motor to be meshed with the rotating sliding block 603, the rotating shaft 603, the rotating motor 603, the rotating slide block 603, the rotating shaft 603, the rotating motor 603, the rotating shaft 603 and the rotating slide block 605, the rotating motor 603 which is provided for driving the rotating motor 603, the rotating shaft 603, the rotating motor 603 and the rotating shaft 606, and (4) carrying out magnetic adsorption on the processed anchoring plate, and placing the anchoring plate in the collecting box 103.

Claims (10)

1. A drilling machine is used in anchor plate production which characterized in that: the drilling machine comprises a drilling table (1), a supporting mechanism (2), a moving mechanism I (3), a limiting mechanism (4), a cooling mechanism (5) and a moving mechanism II (6), wherein the drilling table (1) is connected with the moving mechanism I (3) through the supporting mechanism (2), the drilling table (1) below the moving mechanism I (3) is connected with the limiting mechanism (4), the cooling mechanism (5) is connected inside the drilling table (1), and the moving mechanism II (6) is connected with the drilling table (1).

2. The drilling machine for anchor plate production according to claim 1, wherein: the drilling platform is characterized in that a material box (102) and a collecting box (103) are connected to the drilling platform (1), the right part of the drilling platform (1) is sequentially connected with a second moving mechanism (6) and the material box (102) from front to back, the right side face of the drilling platform (1) is connected with the collecting box (103), the collecting box (103) is located on the right side of the second moving mechanism (6), an opening and closing door (101) is arranged in front of the drilling platform (1), and a first through hole (104) is formed in the middle of the drilling platform (1).

3. The drilling machine for producing an anchor plate of claim 2, wherein: supporting mechanism (2) are including a motor (201), a rotation axis (202) and support shell (203), shrinkage pool (204) have been seted up at the preceding middle part of support shell (203), a motor (201) is connected to the higher authority of support shell (203), the one end of a rotation axis (202) is connected to the power take off end of a motor (201), a vertical connection of rotation axis (202) is in shrinkage pool (204), drill platform (1) is all connected with the other end of a rotation axis (202) below supporting shell (203).

4. The drilling machine for producing an anchor plate of claim 3, wherein: the first moving mechanism (3) comprises a moving plate (304), a drilling mechanism (302) and a drill bit (303), a threaded hole (301) is formed in the rear end of the moving plate (304), the front end of the moving plate (304) is connected with the drill bit (303) through the drilling mechanism (302), the first through hole (104) is located below the drill bit (303), and a shaft body of a first rotating shaft (202) is connected in the threaded hole (301).

5. The drilling machine for anchor plate production according to claim 4, wherein: stop gear (4) include 2 flexible stop device, and flexible stop device includes cylinder (403), telescopic link (401) and solid fixed ring (402), and relative setting about 2 flexible stop device connects drill block (1) under cylinder (403), and the power take off end of cylinder (403) passes through telescopic link (401) and connects solid fixed ring (402), and 2 flexible stop device's solid fixed ring (402) are located the below of drill bit (303).

6. The drilling machine for anchor plate production according to claim 4, wherein: the cooling mechanism (5) comprises a water pump (501), a water pipe (502), a recovery shell (503), a storage box (507) and a support plate (506), the storage box (507) is connected into the drilling platform (1), the side surface of the storage box (507) is communicated with the bottom end of the recovery shell (503), the upper end of the recovery shell (503) is connected into the through hole I (104), the support plate (506) is horizontally connected into the recovery shell (503), a plurality of through holes II (508) are formed in the support plate (506), the water pump (501) is connected into the storage box (507), the water outlet end of the water pump (501) is connected with the water inlet end of the water pipe (502), and the water outlet end of the water pipe (502) penetrates out of the drilling platform (1) and is located above the through hole I (104).

7. The drilling machine for anchor plate production according to claim 6, wherein: the height of the supporting plate (506) is lower than the upper surface of the drilling platform (1).

8. The drilling machine for anchor plate production of claim 6, wherein: the cooling mechanism (5) further comprises a filter screen (505), the filter screen (505) is connected in the recycling shell (503), and the filter screen (505) is located below the supporting plate (506).

9. The drilling machine for anchor plate production according to claim 8, wherein: a sliding groove (504) is formed in the recycling shell (503), and the filter screen (505) is connected with the sliding groove (504).

10. The drilling machine for anchor plate production according to claim 1, wherein: the second moving mechanism (6) comprises a second motor (601), a second rotating shaft (602), a mounting shell (603), a servo motor (604), a rotating shaft (605), a sliding plate (606), an electromagnetic block (607) and a working box (608), the working box (608) is connected with the upper surface of the drilling platform (1) downwards, the second motor (601) is connected in the working box (608), the power output end of the second motor (601) is connected with the mounting shell (603) through the second rotating shaft (602), the mounting shell (603) is located above the working box (608), the rotating shaft (605) is axially connected in the mounting shell (603), a sliding plate (606) is externally connected to the shaft body of the rotating shaft (605), the sliding plate (606) is connected with the electromagnetic block (607) downwards, the electromagnetic block (607) is located on the outer side of the mounting shell (603), and one end of the rotating shaft (605) is connected with the power output end of the servo motor (604).

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