CN112896964A - Material conveyor convenient to sound production - Google Patents

Abstract

The invention relates to a material conveying device convenient for sounding, which comprises: the conveying base is provided with a supporting plate arranged inside the conveying base, a driving part sliding on the surface of the supporting plate and two sounding parts suitable for being hit by the driving part, and the two sounding parts are respectively positioned at the discharge end of the side wall of the supporting plate and the feed side of the side wall of the supporting plate; an adjusting groove is formed in the side wall of the conveying base, an adjusting block is arranged in the adjusting groove in a sliding mode, and the adjusting block extends into the conveying base and is fixedly connected with the side wall of the driving portion; when the adjusting block is manually pushed to a first station, the driving part can strike the sounding part so that the sounding part rotates and sounds; when the adjusting block is manually pushed to the second station, the driving part can strike the sounding part to enable the sounding part to rotate and sound.

Description

Material conveyor convenient to sound production

Technical Field

The invention relates to the field of material conveying, in particular to a material conveying device convenient to sound.

Background

Chinese patent, publication No. CN 111977327 a, discloses a construction engineering material conveying tool convenient for conveying and a use method thereof, relating to the technical field of construction engineering; the problem that conveying is affected by the ratio of the lifting height to the horizontal conveying distance is solved; this building engineering material transport means convenient to carry specifically includes the base, base top outer wall is connected with the major structure through elevating system, the major structure includes first main part and second main part, the welding of one side outer wall of first main part has the engaging lug, this building engineering material transport means's convenient to carry use method, its concrete step is as follows: respectively connecting the lifting hydraulic cylinder and the motor with an external power supply; and determining the vertical lifting height, starting a lifting hydraulic cylinder according to the actually required height, adjusting the vertical lifting height of the device, and adjusting the conveying falling point of the device to the accommodating space of the materials to be accommodated. When the invention is practically used, the invention is not influenced by the ratio of the horizontal conveying distance to the vertical lifting height

Wherein, foretell material conveyor can not carry out the sound production when increasing the dissolution efficiency of raw materials and cutting off the separation with the raw materials at the in-process that uses, but often at the in-process of reality use, during operation material conveyor, workman's maloperation appears easily, consequently needs a generating device to carry out the sound production to it and reminds operating personnel.

Disclosure of Invention

The invention aims to provide a material conveying device convenient for sound production.

In order to solve the technical problem, the invention provides a material conveying device convenient for sound production, which comprises: the conveying device comprises a conveying base, a conveying top cover arranged on the outer wall of the conveying base, a supporting plate arranged in the conveying base, a driving part sliding on the surface of the supporting plate, and two sounding parts suitable for being struck by the driving part, wherein the two sounding parts are respectively positioned at the discharge end of the side wall of the supporting plate and the feed side of the side wall of the supporting plate; an adjusting groove is formed in the side wall of the conveying base, an adjusting block is arranged in the adjusting groove in a sliding mode, and the adjusting block extends into the conveying base and is fixedly connected with the side wall of the driving portion; when the adjusting block is manually pushed to a first station, the driving part can strike the sounding part so that the sounding part rotates and sounds; when the adjusting block is manually pushed to the second station, the driving part can strike the sounding part so that the sounding part rotates and sounds.

Further, the driving part comprises a driving ring sliding on the surface of the supporting plate, and the top of the side wall of the driving ring is provided with a striking block; when the adjusting block is manually pushed to a first station, the striking block can strike the sounding part; when the adjusting block is manually pushed to the second station, the striking block can strike the sounding part.

Furthermore, the sounding part comprises sounding blocks which are respectively arranged at the discharge ends of the side walls of the two supporting plates and at the feeding side of the side walls of the supporting plates; after the sound production block is hit by the hitting block, the hitting block can hit the sound production block to rotate and produce sound.

Furthermore, the sounding part also comprises a rebound rod fixedly connected to the middle part of one side of the sounding block, the rebound rod extends into the support plate, a rebound spring is wound on the outer surface of the rebound rod, and the rebound spring is respectively fixed on the outer surface of the rebound rod and one side of the support plate; the rebound rod is rotatably connected with the supporting plate; after the hitting block hits the sounding block and rotates with the rebound rod, the hitting block is released to enable the rebound rod to rebound.

Furthermore, a limiting rod is fixed at the top of one side, close to the support plate, of the sounding block; wherein the limiting rod can limit the sound production block to rotate 90 degrees in a positive and negative mode.

Further, the end surfaces of two sides of the driving ring are respectively provided with a long worm and a short worm; the driving ring is suitable for being respectively inserted into a cutting part and a separating part which are respectively positioned at two sides of the driving part; when the adjusting block is manually pushed to a first station, the long worm can be inserted into the cutting part, so that the consumable can be scratched by the cutting part; when the adjusting block is manually pushed to the second station, the short worm can be inserted into the separating part, so that the separating part can cut off consumables.

Furthermore, the cutting part comprises a cutting ring fixedly connected with the discharge end of the upper surface of the supporting plate, two oppositely arranged cutting blades and two oppositely arranged transmission structures; two through holes which are arranged in a mirror image mode are formed in the outer wall of the cutting ring, and the through holes can be inserted by the long worm; the transmission structure extends along the radial direction of the cutting ring, and the transmission structure can extend into the through hole; the cutting blade is fixedly connected with the transmission structure; after the long worm is inserted into the through hole, the two transmission structures can drive the two cutting blades to slide oppositely and scratch off consumables.

Furthermore, two sides of the cutter head end of the cutting blade are respectively provided with a bump, and the two bumps can be respectively attached to the inner top wall and the inner bottom wall of the cutting chute; the cutter head end of the convex block is provided with a notch; wherein after the lug struts the cut, the notch can be abutted against the cutting blade.

Further, the separating part comprises a fixed block arranged on the feeding side of the upper surface of the supporting plate and a separating blade arranged on the outer wall of the fixed block; wherein after the short worm is inserted into the fixed block, the separation blade can fall down and cut off consumables.

Furthermore, the separating part also comprises a first bevel gear arranged inside the fixed block, a second bevel gear arranged on one side of the first bevel gear and a transmission rod fixed on one side of the second bevel gear; the first bevel gear is meshed with the second bevel gear, and the first bevel gear is meshed with the short worm; wherein the first bevel gear is capable of driving the drive link.

The material conveying device has the advantages that after the raw materials are connected, the adjusting block is pressed and slides in the adjusting groove, when the adjusting block drives the driving part to slide to the first station, the driving part can be inserted into the cutting part, the cutting part can cut the raw materials, and the driving part strikes the sounding part to give out sound to warn an operator, so that the raw materials are well dissolved; after finishing using material conveyor, press the regulating block, and slide to the second station, the drive division can insert the separation portion, and the separation portion can cut off the raw materials to the drive division is beaten the portion of making a sound and is sounded and warn operating personnel, conveniently discharges to inside unnecessary raw materials, takes place to block up when preventing to use next time.

Drawings

FIG. 1 is an exploded perspective view of a preferred embodiment of a material transfer device of the present invention;

FIG. 2 is a side sectional view of a preferred embodiment of the generating section of the present invention;

FIG. 3 is a block diagram of the preferred embodiment of the present invention enlarged at A in FIG. 1;

FIG. 4 is a perspective view of a preferred embodiment of a material transfer device of the present invention;

FIG. 5 is an exploded perspective view of a preferred embodiment of the cutting section of the present invention;

FIG. 6 is an exploded perspective view of a preferred embodiment of the separator of the present invention;

FIG. 7 is a perspective view of a preferred embodiment of the feedstock of the present invention;

FIG. 8 is a front view of a preferred embodiment of the cutting section of the present invention;

FIG. 9 is a cross-sectional front view of a preferred embodiment of the invention with the cutting portion deployed;

FIG. 10 is a block diagram of the preferred embodiment of the invention enlarged at B in FIG. 9;

FIG. 11 is a cross-sectional front view of a preferred embodiment of the inventive cutting section in a contracted configuration;

FIG. 12 is a cutaway top view of a preferred embodiment of the separator of the invention;

FIG. 13 is a cross-sectional side view of the preferred embodiment of the separator of the invention prior to insertion;

FIG. 14 is a cross-sectional side view of the preferred embodiment of the separator of the invention after insertion.

In the figure:

the conveying base 1 and the conveying top cover 11;

the adjusting groove 2, the adjusting block 21 and the supporting plate 3;

the cutting part 4, the cutting ring 41, the through hole 42, the turbine 421, the transmission gear 422, the transmission belt 423, the cutting blade 4231, the bump 4232 and the cutting chute 4233;

a driving part 5, a driving ring 51, a long worm 52, a short worm 53, and a striking block 54;

the separating part 6, the fixed block 61, the first bevel gear 611, the transmission rod 612, the second bevel gear 613 and the separating blade 62;

a generator 7, a sound block 71, a rebound rod 72, and a rebound spring 73;

and a limiting rod 8.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-14, C is an indication diagram of the direction in which the short worm 53 is inserted into the separating part 6, D is an indication diagram of the direction in which the short worm 53 is pulled out of the separating part 6, wherein, the material conveying device is an integral material conveying device, the material conveying device is respectively provided with a discharge port and a feed port, and during the use of the material conveying device, raw materials need to be inserted into the material conveying device, and then the middle part of the material conveying device is held to melt the raw materials;

however, in the process of actual use, because the raw materials need to be heated after stretching into the supporting plate 3 in the conveying base 1, in the heating process, the phenomenon that the heating efficiency is not high or the heating is incomplete can occur, after the use is finished, the raw materials in the conveying base 1 cannot be cut off quickly, so that the problem that the conveying base 1 is blocked is prevented, and when the raw materials are cut off and cut open, the material conveying device cannot make a sound to warn an operator, therefore, in order to avoid the above situation, the following technical scheme is adopted.

Drive unit 5

The whole driving part 5 slides in the supporting plate 3 in the conveying base 1, wherein the driving part 5 consists of a driving ring 51, a striking block 54, a long worm 52 and a short worm 53 which are fixed on the driving ring 51, the inner surface of the driving ring 51 is provided with uneven brushes, and the uneven brushes on the driving ring 51 can remove dust on the surface of the raw material because the raw material needs to pass through the driving ring 51 before discharging; and when the driving ring 51 is fixed in the middle of the supporting plate 3, the raw material can be limited, and the phenomenon of material breakage caused by overhigh gravity center of the raw material is prevented.

It should be noted that the side wall of the conveying base 1 is provided with an adjusting groove 2, an adjusting block 21 in the adjusting groove 2 extends to the conveying base 1 to be fixed with the driving part 5, when the adjusting block 21 slides to the discharge port end and abuts against the adjusting groove 2, the adjusting block 21 is in a first station, and when the adjusting block 21 slides to the side of the feed port and abuts against the adjusting groove 2, the adjusting block 21 is in a second station; therefore, when the adjusting block 21 drives the driving ring 51 to slide to the first station, the long worm 52 on the driving ring 51 can be inserted into the cutting part 4, after the driving ring 51 is completely inserted into the cutting part 4, the striking block 54 on the driving ring 51 can strike the sound-emitting part 7 close to the cutting part 4, and the operator is warned that the insertion is completed by making a sound after the striking block 54 and the sound-emitting part 7 collide with each other; when the adjusting block 21 drives the driving ring 51 to slide to the second station, the short worm 53 on the driving ring 51 can be inserted into the separation part 6, after the driving ring 51 is completely inserted into the separation part 6, the striking block 54 on the driving ring 51 can strike the sound-emitting part 7 close to the separation part 6, and the operator is warned that the insertion is completed by making a sound after the striking block 54 and the sound-emitting part 7 collide with each other.

Sound producing unit 7

The sound-producing portion 7 is fixed respectively at the discharge end and the feeding side of backup pad lateral wall, it includes sound production piece 71, resilience pole 72 and resilience spring 73, wherein, when adjusting block 21 moved to first station completely, the piece 54 of beating on the drive ring 51 can be beaten sound production piece 71, consequently, sound is produced, warn operating personnel and insert the inside of cutting portion 4 completely, when adjusting block 21 moved to the second station completely, the piece 54 of beating on the drive ring 51 can be beaten sound production piece 71, consequently, sound is produced, warn operating personnel and insert the inside of separation portion 6 completely.

Because be fixed with rebound rod 72 on sound producing block 71, rebound rod 72 extends to the inside of backup pad 3, and rebound rod 72 is winding rebound spring 73 on the surface, and the one end of rebound spring 73 is fixed in the inside of backup pad 3, therefore, when hitting block 54 on drive ring 51 when touching sound producing block 71, sound producing block 71 can follow rebound rod 72 and rotate together, when regulating block 21 is kept away from first station and second station, through rebounding spring 73 on rebound rod 72 most useful that restores to force, rebound rod 72 can drive sound producing block 71 and resume to initial position, with this convenience can guarantee to hit sound producing block 71 in the in-process of hitting next time.

It should be pointed out that, because the sound production piece 71 is being close to the top of backup pad 3 one side and is being fixed gag lever post 8, when sound production piece 71 is being hit the in-process of being hit, if the angle of rotation is too big, at this moment, gag lever post 8 on the sound production piece 71 can hit and hit on the backup pad 3, consequently, with the rotation angle control of sound production piece 71 at the interval of plus or minus 90, and then has protected rebound spring 73 torsion too big to shine into spring sound production deformation.

Cutting part 4

The cutting part 4 is fixed at one end of the discharge hole of the support plate 3 and comprises a cutting ring 41 and two through holes 42 which are arranged on the outer wall of the cutting ring 41 in a mirror image mode, wherein the inner diameter of the two through holes 42 is larger than the outer diameter of the long worm 52, after the sliding drive ring 51 is close to the cutting ring 41, the sliding drive ring 51 continues to slide, and the long worm 52 on the drive ring 51 can be inserted into the through holes 42.

A transmission structure is arranged in each through hole 42 and comprises a worm wheel 421, two groups of transmission gears 422 parallel to the worm wheel 421 and a transmission belt 423, wherein when the long worm 52 extends into the through hole 42 and contacts with the worm wheel 421, the long worm 52 and the worm wheel 421 are meshed with each other, and the worm wheel 421 can rotate in the process that the long worm 52 is inserted into the through hole 42 through mutual meshing between the long worm 52 and the worm wheel 421; for the transmission structure, while the worm gear 421 in the transmission structure rotates, the one set of transmission gear 422 connected to the worm gear 421 can be driven to rotate, and the two transmission belts 423 on the one set of transmission gear 422 can drive the other set of transmission gear 422 to rotate synchronously therewith, so that the two transmission belts 423 can perform a circulating motion on the surfaces of the two sets of transmission gear 422, wherein the forward rotation and the reverse rotation of the worm gear 421 can be realized in the process of inserting and extracting the long worm 52 into and from the through hole 42.

The upper part of the transmission structure is provided with a cutting chute 4233, a cutting blade 4231 is arranged inside the cutting chute 4233, and a bump 4232 is fixed on the side surface of the cutting blade 4231, wherein the cutting blade 4231 is installed on the transmission belt 423, when the transmission belt 423 drives the cutting blade 4231 to move along the radial direction of the cutting ring 41, the bump 4232 on the cutting blade 4231 can be tightly attached to the cutting chute 4233, so that the cutting blade 4233 can achieve a limiting effect in the movement process, the phenomenon of shaking is prevented, a notch is formed in each bump 4232 in the direction towards the cutter head, and when the cutting blade 4231 is at the maximum stroke, the notch can abut against the cutting blade 4231, so that the effects of excessive movement and trailing knife cannot occur.

It should be noted that, when the cutting blade 4231 is used for cutting the raw material, the heated area of the raw material can be increased, and compared with the traditional raw material which is not cut, the cut raw material can heat the inner part and the surface of the raw material at the same time, and in the process of moving along the cutting ring 41 in the radial direction, the cut gap of the raw material becomes larger continuously, and the later-stage dissolution effect of the raw material is better;

after the material conveying device is used, the long worm 52 needs to be pulled out, so that the transmission belt 423 drives the cutting blade 4231 to be tightly attached to the cutting chute 4233 for knife collection, and the raw materials remained on the surface can be scraped off in the knife collection process; when the cutting blade 4231 is used next time, the solidified raw materials in the channel can be crushed by unfolding the cutting blade 4231, and the phenomenon that the channel is blocked by the raw materials in intermittent use is prevented.

Separation part 6

The separating part 6 is fixed at one side of the feed opening of the support plate 3 and includes a fixing block 61 and a separating blade 62, wherein the short worm 53 of the driving ring 51 can be inserted into the inside of the fixing block 61 when the sliding driving ring 51 is close to the surface of the fixing block 61.

The fixed block 61 is provided with a first bevel gear 611, a transmission rod 612 and a second bevel gear 613, wherein the first bevel gear 611 is engaged with the second bevel gear 613, the first bevel gear 611 is engaged with the short worm 53, when the short worm 53 is inserted into the fixed block 61 and contacts with the first bevel gear 611, the first bevel gear 611 rotates, the transmission rod 612 is driven to rotate while the first bevel gear 611 rotates due to the fixed connection of the second bevel gear 613 and the transmission rod 612, and the separation blade 62 is fixed on the transmission rod 612, so that the separation blade 62 falls towards the raw material and cuts off the raw material.

It should be noted that when the material conveying device is not used, the raw material is cut off, so that the unheated raw material and the heated raw material can be separated, and then the raw material remained in the channel can be quickly discharged, wherein when the material conveying device is used next time, the raw material does not need to be placed in the material conveying device again, and the switch of the material conveying device can be directly pressed to continue melting.

Working process

When the material conveying device is used, raw materials need to be inserted from a material inlet of the material conveying device and then pass through the driving ring 51, so that the raw materials are prevented from deviating;

when the raw material is heated, if the phenomenon of incomplete heating of the raw material occurs, the adjusting block 21 needs to be directly pushed by hands, when the adjusting block 21 is pushed to the first station, the long worm 52 on the inner driving ring 51 of the material conveying device is inserted into the through hole 42 on the cutting ring 41, when the long worm 52 is inserted into the through hole 42, the worm wheel 421 engaged with the long worm 52 rotates, and the rotating worm wheel 421 further drives the set of transmission gears 422 connected thereto to rotate, at this time, the two drive belts 423 on one set of the drive gears 422 spin between the two sets of the drive gears 422, and the cutting blades 4231 fixed to the driving belt 423 are extended radially along the cutting ring 41, the cutting blades 4231 gradually cut the raw material during the extension, and thus, in the process of heating the raw materials, heat can rapidly enter the interior of the raw materials, so that the heating efficiency is increased;

after the material conveying device is used, the adjusting block 21 is pushed reversely by hand, so that the long worm 52 is pulled out from the through hole 42, the transmission belt 423 rotates reversely and drives the cutting blade 4231 to retract in the pulling process of the long worm 52, the upper bump 4232 is tightly attached to the cutting chute 4233 in the retracting process of the cutting blade 4231, and further raw materials remained on the cutting blade 4231 can be scraped at the corner where the cutting chute 4233 is in contact with a channel; when the adjusting block 21 is pushed back to the second station, the short worm 53 on the driving ring 51 is inserted into the fixing block 61, and during the insertion of the short worm 53 into the fixing block 61, the first bevel gear 611 and the second bevel gear 613 are engaged with each other, and the separating blade 62 on the driving rod 612 falls down toward the raw material and cuts the raw material, thereby separating the raw material which is not melted.

When the material conveying device is used next time, the adjusting block 21 is pushed towards the first station, the short worm 53 is pulled out of the fixing block 61, the transmission rod 612 inside the fixing block 61 drives the separating blade 62 to rotate reversely, and then the power supply of the material conveying device is started, so that the separated raw materials continue to move towards the discharge opening end.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A material conveying device convenient to sound production, comprising: the conveying device comprises a conveying base (1), a conveying top cover (11) arranged on the outer wall of the conveying base (1), a supporting plate (3) arranged inside the conveying base (1), a driving part (5) sliding on the surface of the supporting plate (3), and two sounding parts (7) suitable for being hit by the driving part (5), wherein the two sounding parts (7) are respectively positioned at the discharge end of the side wall of the supporting plate (3) and the feeding side of the side wall of the supporting plate (3);

an adjusting groove (2) is formed in the side wall of the conveying base (1), an adjusting block (21) is arranged in the adjusting groove (2) in a sliding mode, and the adjusting block (21) extends into the conveying base (1) and is fixedly connected with the side wall of the driving portion (5); wherein

When the adjusting block (21) is manually pushed to a first station, the driving part (5) can strike the sounding part (7) so that the sounding part (7) can rotate and generate sound;

when the adjusting block (21) is manually pushed to the second station, the driving part (5) can strike the sounding part (7) so that the sounding part (7) can rotate and sound.

2. The material conveying device facilitating sound production as set forth in claim 1,

the driving part (5) comprises a driving ring (51) sliding on the surface of the supporting plate (3), and the top of the side wall of the driving ring (51) is provided with a striking block (54); wherein

When the adjusting block (21) is manually pushed to a first station, the striking block (54) can strike the sounding part (7);

when the adjusting block (21) is manually pushed to the second station, the striking block (54) can strike the sounding part (7).

3. A sound-generating material transfer device as recited in claim 2,

the sounding part (7) comprises sounding blocks (71) which are respectively arranged at the discharge ends of the side walls of the two supporting plates (3) and at the feeding side of the side walls of the supporting plates (3); wherein

After the sound production block (71) is hit by the hitting block (54), the hitting block (54) can hit the sound production block (71) to rotate and produce sound.

4. A sound-generating material transfer device as recited in claim 3,

the sounding part (7) further comprises a rebound rod (72) fixedly connected to the middle of one side of the sounding block (71), the rebound rod (72) extends to the inside of the support plate (3), a rebound spring (73) is wound on the outer surface of the rebound rod (72), and the rebound spring (73) is respectively fixed to the outer surface of the rebound rod (72) and one side of the support plate (3);

the rebound rod (72) is rotationally connected with the support plate (3); wherein

After the striking block (54) strikes the sounding block (71) and rotates with the rebound rod (72), the striking block (54) is released to enable the rebound rod (72) to rebound.

5. A sound-generating material transfer device as in claim 4,

a limiting rod (8) is fixed at the top of one side of the sounding block (71) close to the support plate (3); wherein

The limiting rod (8) can limit the sound generating block (71) to rotate 90 degrees in a positive and negative mode.

6. A sound-generating material transfer device as recited in claim 5,

the end surfaces of two sides of the driving ring (51) are respectively provided with a long worm (52) and a short worm (53);

the driving ring (51) is suitable for being respectively inserted into a cutting part (4) and a separating part (6), and the cutting part (4) and the separating part (6) are respectively positioned at two sides of the driving part (5); wherein

When the adjusting block (21) is manually pushed to a first station, the long worm (52) can be inserted into the cutting part (4) so that the cutting part (4) can cut off the consumable;

when the adjusting block (21) is manually pushed to the second station, the short worm (53) can be inserted into the separating part (6), so that the separating part (6) can cut off the consumable.

7. The sound-facilitated material transfer device of claim 6,

the cutting part (4) comprises a cutting ring (41) fixedly connected to the discharge end of the upper surface of the supporting plate (3), two oppositely arranged cutting blades (4231) and two oppositely arranged transmission structures; and

the outer wall of the cutting ring (41) is provided with two through holes (42) which are arranged in a mirror image manner, and the through holes (42) can be inserted by the long worm (52);

the transmission structure extends along the radial direction of the cutting ring (41), and the transmission structure can extend into the through hole (42);

the cutting blade (4231) is fixedly connected with the transmission structure; wherein

After the long worm (52) is inserted into the through hole (42), the two transmission structures can drive the two cutting blades (4231) to slide oppositely and scratch off consumables.

8. The sound-generating material transport apparatus of claim 7,

two sides of the head end of the cutting blade (4231) are respectively provided with a lug (4232), and the two lugs (4232) can be respectively attached to the inner top wall and the inner bottom wall of the cutting chute (4233);

the cutter head end of the lug (4232) is provided with a notch; wherein

After the lug (4232) is opened, the notch can be abutted against the cutting blade (4231).

9. The sound-generating material transport apparatus of claim 8,

the separating part (6) comprises a fixed block (61) arranged on the feeding side of the upper surface of the supporting plate (3) and a separating blade (62) arranged on the outer wall of the fixed block (61); wherein

After the short worm (53) is inserted into the fixing block (61), the separating blade (62) can fall down and cut off consumables.

10. The sound-generating material transport apparatus of claim 9,

the separating part (6) further comprises a first bevel gear (611) arranged inside the fixed block (61), a second bevel gear (613) arranged on one side of the first bevel gear (611), and a transmission rod (612) fixed on one side of the second bevel gear (613);

the first bevel gear (611) is meshed with the second bevel gear (613), and the first bevel gear (611) is meshed with the short worm (53); wherein

The first bevel gear (611) is capable of driving the transmission rod (612).

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