CN115196389A - A coil stock bears mechanism for non-woven production - Google Patents

Abstract

The invention discloses a coil stock bearing mechanism for non-woven fabric production, which comprises a sliding support seat, wherein a first bearing plate is arranged on the sliding support seat in a sliding manner and arranged along the sliding direction of the sliding support seat in a sliding manner, and the first bearing plate is used for bearing coil stock; the baffle plates are arranged on the sliding support seat through the driving assembly; in the process that the sliding support seat moves along the base sliding rail: two baffles pass through drive assembly's drive to the direction equidistance sliding motion of first loading board to drive the coil stock motion, realize correcting the position of coil stock. The coil stock bearing mechanism for non-woven fabric production provided by the invention can correct the position of a coil stock, can drive the coil stock to move to the middle position of the sliding support seat through the baffle plate, and can correct the position of the coil stock, namely, the coil stock can be accurately placed on the sliding support seat, so that the coil stock can be conveniently fed to feeding equipment.

Description

A coil stock bears mechanism for non-woven production

Technical Field

The invention relates to the technical field of non-woven fabric production, in particular to a coil stock bearing mechanism for non-woven fabric production.

Background

In recent years, with the rapid development of textiles, the production of non-woven fabrics has also been greatly improved, and the non-woven fabrics are widely applied and favored, and are fabrics formed without spinning woven fabrics, wherein the non-woven fabrics are fabric products formed by forming a fiber web structure by directionally or randomly arranging textile short fibers or filaments and then reinforcing the fiber web structure by adopting mechanical, thermal bonding or chemical methods, and have the advantages of short process flow, high production speed and the like in the specific production process; generally when producing non-woven fabrics, generally can be at first with the raw materials, also "coil stock" places on the equipment of production line beginning, then the blowing, process thereupon, in order to improve the efficiency of its coil stock material loading, among the prior art, generally set up the guide rail that is used for the electric drive on ground, then set up the supporting seat that is used for bearing the coil stock on the guide rail, because the coil stock is heavier, generally place the coil stock on the supporting seat with fork truck, then the supporting seat removes the position department to blowing equipment, wait for the material loading, can save waiting for the material time like this.

The defects of the prior art are as follows: among the prior art, generally when placing the coil stock, all utilize fork truck to place the coil stock on the supporting seat usually, because fork truck is that the staff operates, so when placing the coil stock, the coil stock is placed the position inaccuracy on the supporting seat, lead to from this, even when the supporting seat moves to charging outfit, because the skew of coil stock position, also can seriously influence material loading speed, the staff generally adopts artifically, right the coil stock, not only labour cost is higher, and seriously influence material loading speed.

Disclosure of Invention

The invention aims to provide a coil material bearing mechanism for producing non-woven fabrics, which aims to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme:

a coil stock bearing mechanism for non-woven fabric production comprises a sliding support seat arranged on a ground seat slide rail in a sliding mode, wherein a first bearing plate is arranged on the sliding support seat in a sliding mode and arranged in a sliding mode along the sliding direction of the sliding support seat in a sliding mode and used for bearing coil stocks;

the device also comprises two baffle plates, wherein the baffle plates are arranged on the sliding support seat through a driving assembly;

in the process that the sliding support seat moves along the base sliding rail: two the baffle passes through drive assembly's drive to the direction equidistance sliding motion of first loading board to drive the coil stock motion, realize correcting the position of coil stock.

Preferably, in the process that the baffle pushes the roll to move, the first bearing plate moves synchronously along with the roll.

Preferably, the driving assembly comprises two second racks arranged on the sliding support seat in a sliding manner and a transmission gear rotationally arranged on the sliding support seat, the second racks are fixedly arranged on the baffle, and the two second racks are oppositely meshed with the transmission gear;

when the transmission gear rotates, the two baffles are driven to move towards the middle of the sliding support seat at equal intervals by the rotation of the second rack.

Preferably, the support device further comprises two support compensation devices arranged on the sliding support seat, and the two support compensation devices are respectively arranged on two sides of the first bearing plate.

Preferably, the support compensation mechanism comprises second bearing plates arranged on the sliding support seat in a sliding manner, a support assembly is arranged below the second bearing plates, and the two second bearing plates can abut against the lower part of the first bearing plate under the support of the support assembly; when the first bearing plate is separated from the second bearing plate, the first bearing plate is flush with the first bearing plate under the elasticity of the supporting assembly so as to support the coil.

Preferably, the support assembly comprises a support plate slidably arranged on the second bearing plate, a spring column is arranged below the support plate, and a second elastic piece is fixedly arranged below the spring column, so that the support plate is abutted to the lower side of the first bearing plate under the elastic force of the second elastic piece.

Preferably, the sliding support seat is fixedly provided with a bearing block, sliding blocks are arranged on two sides of the second bearing plate in a sliding mode respectively, and when the second bearing plate and the first bearing plate are aligned, the sliding blocks are located above the bearing block to support the second bearing plate.

Preferably, when the first bearing plate is separated from the second bearing plate, the second bearing plate moves upwards under the elastic force of the second elastic piece, and the sliding block contacts with the bearing block and contracts inwards, so that the sliding block is positioned on the bearing block.

Preferably, the sliding support seat is provided with a first sliding block in a sliding manner, two ends of the first sliding block are respectively provided with a first elastic piece, and the first sliding block is positioned in the middle of the sliding support block under the elastic force of the first elastic piece; and the first sliding block is arranged at the middle position of the first bearing plate.

Preferably, a first protruding block and a second protruding block are arranged below two ends of the first bearing plate, and the protruding height of the first protruding block is lower than that of the second protruding block.

In the technical scheme, the coil stock bearing mechanism for producing the non-woven fabric has the beneficial effects that:

according to the invention, the first bearing plate for bearing the coil stock is arranged on the sliding support seat, and then the two baffles for driving the coil stock to move are arranged at the two ends of the sliding support seat, so that the position of the coil stock can be corrected when the sliding support seat moves, the coil stock can be driven to move to the middle position of the sliding support seat through the baffles, and the position of the coil stock can be corrected, namely, the coil stock can be accurately placed on the sliding support seat, so that the coil stock can be conveniently loaded on a loading device, manual righting is not needed, the labor cost is reduced, and the processing efficiency is improved.

When being used for restoring the coil stock position, the baffle drives the coil stock and moves to the intermediate position department of sliding support seat, the bottom is used for bearing the first loading board of coil stock and also moves thereupon, can avoid the emergence of friction between the coil stock when moving and the sliding support seat promptly, consequently, the power that can the greatly reduced baffle promote hinders, the motion of the coil stock of being convenient for, and can avoid the wearing and tearing of its coil stock, more preferred, it is first can be provided with the roller that is used for reducing frictional force between the two between loading board and the sliding support seat.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all features of the disclosed technology.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings required in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic structural view of a floor and a sliding support seat according to an embodiment of the present invention;

FIG. 2 is a schematic view of a slide bearing according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a side view structure according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of the sliding support seat without the first bearing plate according to the embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a slider and a carrier block according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a sliding support seat and a material placing device according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a second carrier plate and a support plate according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a supporting plate and a second sliding block according to an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a second bearing plate, a sliding block and a bearing block according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a slider disposed between a plurality of bearing blocks according to an embodiment of the present invention.

FIG. 11 is a schematic view of a slide bearing and a driving assembly according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of the first carrier plate and the first and second bumps according to an embodiment of the invention.

Description of reference numerals:

1. a ground base; 11. a first rack; 2. sliding the support base; 21. a baffle plate; 22. supporting the rollers; 23. a first bearing plate; 233. a first bump; 234. a second bump; 24. a second rack; 241. a transmission gear; 2411. a drive gear; 231. a first slider; 232. a first elastic member; 3. a second carrier plate; 31. a bearing block; 32. a support plate; 33. a slider; 321. a spring post; 3211. a second elastic member; 322. a second slider; 323. a third elastic member; 4. coiling; 233. a first bump; 234. and a second bump.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings of the embodiments of the present disclosure. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" and "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Referring to fig. 1-12, a roll material loading mechanism for non-woven fabric production includes a sliding support seat 2 slidably disposed on a slide rail of a ground seat 1, a first loading plate 23 slidably disposed on the sliding support seat 2, the first loading plate 23 slidably disposed along a sliding direction of the sliding support seat 2, the first loading plate 23 being configured to load a roll material 4;

the device also comprises two baffle plates 21, wherein the baffle plates 21 are arranged on the sliding support seat 2 through a driving assembly; in the process that the sliding support seat 2 moves along the base slide rail: two baffles 21 pass through drive assembly's drive to the direction equidistance sliding motion of first loading board 23 to drive coil stock 4 motion, realize correcting coil stock 4's position, the below of sliding support seat is provided with supporting roller, then supporting roller sets up on the slide rail of ground seat 1, then when sliding support seat moves, supports through supporting roller 22.

Specifically, the correct position setting of coil stock 4 is in the most intermediate position department of sliding seat, then first loading board 23 also is in coil stock 4's intermediate position department, first loading board 23 is used for supporting coil stock 4, then first loading board 23 can slide along the long edge direction of sliding support seat 2, as shown in fig. 1, then when two baffles 21 pass through drive assembly's drive to the equidistance sliding motion of the direction of first loading board 23, can correct the inaccurate coil stock 4 of the position of placing, make coil stock 4 be in sliding support seat 2's intermediate position department, can correct coil stock 4's position promptly, this scheme is through having set up the first loading board 23 that is used for bearing coil stock 4 on sliding support seat 2, then be provided with two baffles 21 that are used for driving coil stock 4 and move at sliding support seat 2's both ends, namely when carrying out sliding support seat 2 and moving, can correct coil stock 4's position, can drive coil stock 4 to sliding support seat 2's intermediate position department through baffle 21, correct coil stock 4's position, can be comparatively accurate place coil stock 4 on sliding support seat 2, thereby be convenient for on coil stock equipment.

In the invention, when the position of the coil stock 4 is restored, the baffle plate 21 drives the coil stock 4 to move to the middle position of the sliding support seat 2, and the first bearing plate 23 with the bottom for bearing the coil stock 4 also moves along with the movement of the coil stock 4, so that the friction between the coil stock 4 and the sliding support seat 2 can be avoided when the coil stock 4 moves, therefore, the dynamic resistance pushed by the baffle plate 21 can be greatly reduced, the movement of the coil stock 4 is convenient, the abrasion of the coil stock 4 can be avoided, and more preferably, a roller for reducing the friction between the bearing plate and the sliding support seat 2 can be arranged between the first bearing plate and the sliding support seat.

Further, during the movement of pushing the roll 4 by the flap 21, the first loading plate 23 moves synchronously with the roll 4. Specifically, when being used for restoring the coil stock 4 position, baffle 21 drives coil stock 4 and moves to sliding support seat 2's intermediate position department, the bottom is used for bearing coil stock 4's first loading board 23 also moves thereupon, can avoid the emergence of friction between coil stock 4 when moving and sliding support seat 2 promptly, therefore, the power that can the greatly reduced baffle 21 promote hinders, be convenient for coil stock 4's motion, and can avoid its coil stock 4's wearing and tearing, more preferred, it is first can be provided with the roller that is used for reducing frictional force between the two between loading board and sliding support seat 2.

Further, the driving assembly comprises two second racks 24 slidably disposed on the sliding support base 2 and a transmission gear 241 rotatably disposed on the sliding support base 2, the second racks 24 are fixedly disposed on the baffle 21, and the two second racks 24 are relatively engaged with the transmission gear 241;

when the transmission gear 241 rotates, the rotation of the second rack 24 drives the two baffles 21 to move towards the middle of the sliding support seat 2 at equal intervals. The two second racks 24 and the transmission gear 241 are oppositely arranged, that is, in the process of moving, the transmission gear 241 rotates to drive the two second racks 24 engaged at opposite positions to move relatively, that is, the two baffles 21 can be driven to move synchronously and equidistantly, and then the two baffles 21 can move outwards or inwards at the same time.

Furthermore, the device also comprises two support compensation devices arranged on the sliding support seat 2, and the two support compensation devices are respectively arranged on two sides of the first bearing plate 23. According to the invention, the support compensation mechanism for supporting the coil stock 4 is arranged, namely, the coil stock 4 can be supported through the support compensation mechanism after the position of the coil stock 4 is corrected, so that the bearing of the coil stock 4 is uniformly distributed on the first support plate 32 and the second support plate 32 which are parallel and level, the deformation degree of the coil stock 4 can be greatly reduced, the balance degree of the coil stock 4 can be improved, the feeding is convenient, the device can enable the two baffle plates 21 to contract inwards at equal intervals through the self movement of the sliding support seat 2 and the driving of the driving assembly, the position of the coil stock 4 can be automatically corrected, the feeding is convenient, the functionality of the device is improved, and then the support compensation mechanism can automatically support the coil stock 4 when the first bearing plate 23 moves to the powerful second bearing plate 3, the manual operation is not needed in the whole process, and the use is convenient

Further, the support compensation mechanism comprises second bearing plates 3 arranged on the sliding support base 2 in a sliding manner, a support assembly is arranged below the second bearing plates 3, and the two second bearing plates 3 can abut against the lower part of the first bearing plate 23 under the support of the support assembly; when the first loading plate 23 is separated from the second loading plate 3, the first loading plate 23 is flush with the first loading plate 23 under the elastic force of the supporting member to support the coil 4.

Further, the supporting assembly includes a supporting plate 32 slidably disposed on the second supporting plate 3, a spring post 321 is disposed below the supporting plate 32, and a second elastic member 3211 is fixedly disposed below the spring post 321, so that the supporting plate 32 abuts against the lower side of the first supporting plate 23 under the elastic force of the second elastic member.

Further, a bearing block 31 is fixedly arranged on the sliding support seat 2, sliding blocks 33 are respectively arranged on two sides of the second bearing plate 3 in a sliding manner, and when the second bearing plate 3 is flush with the first bearing plate 23, the sliding blocks 33 are located above the bearing block 31 to support the second bearing plate 3. Specifically, the bearing block 31 is fixedly arranged on the sliding support seat 2, then when the sliding block 33 is located above the bearing block 31, the sliding block 33 can be supported through the support of the bearing block 31, then the sliding block 33 is enabled to support the second bearing plate 3, and the second bearing plate 3 is flush with the first bearing plate 23 at the moment, namely, the coil stock 4 can be synchronously supported, and the compensation support can be carried out through the second bearing plate 3.

Further, when the first loading plate 23 is separated from the second loading plate 3, the second loading plate 3 moves upward under the elastic force of the second elastic member 3211, and the sliding block 33 contacts the loading block 31 and contracts inward, so that the sliding block 33 is located on the loading block 31.

Further, a first slider 231 is slidably disposed on the sliding support seat 2, and two ends of the first slider 231 are respectively provided with a first elastic member 232, so that the first slider 231 is located at the middle position of the sliding support block under the elastic force of the first elastic member 232; and the first slider 231 is disposed at the middle position of the first carrier plate 23.

In the invention, the supporting plate 32 is slidably provided with the second slider 322, and two ends of the second slider 322 are respectively provided with the third elastic member 323, so that the second slider 322 is located at the middle position of the sliding supporting block under the elastic force of the third elastic member 323; the second slider 322 is disposed at the middle position of the second bearing plate 3, that is, under the action of the third elastic element 323 and the second slider 322, the positions of the second bearing plate 3 and the supporting plate 32 are kept balanced, and the sliding blocks 33 disposed at two sides of the second bearing plate 3 are respectively disposed under the sliding blocks 33 in a one-to-one correspondence manner, so that when the first bearing plate 23 is separated from the second bearing plate 3, the supporting plate 32 ejects the sliding plate and moves the sliding plate to the top of the bearing plate.

Further, a first bump 233 and a second bump 234 are disposed below two ends of the first carrier plate 23, and the protruding height of the first bump 233 is lower than the protruding height of the second bump 234. When the material placing device is used, firstly, a coiled material 4 is placed on the sliding support seat 2 through a forklift, then the first bearing plate 23 supports the coiled material 4, then the sliding support seat 2 is driven to move, and then the sliding support seat 2 is moved to the position of the material placing device, namely the position shown in fig. 2 in the moving process.

Be provided with coaxial coupling's drive gear 2411 on the drive gear 241 that sliding support seat 2 below set up, drive gear 2411 meshes on first rack 11, namely, make drive gear 2411 transmission, in drive gear 2411 pivoted in-process, can drive gear 241 and rotate, it slides to drive the second rack 24 that meshes on drive gear 241 promptly, then the baffle 21 that drives to connect on second rack 24 slides to the intermediate position department equidistance on sliding support seat 2, can drive the coil stock 4 motion of bearing on first loading board 23 promptly, and move to the intermediate position department of sliding support board 32, thereby can correct the position of coil stock 4, thereby can make the comparatively accurate blowing position department of placing at blowing equipment of coil stock 4, and first loading board 23 synchronous motion, in the process of motion:

the first bearing plate 23 gradually moves in one direction and then gradually disengages from one of the second bearing plates 3, when disengaging, the second bearing plate 3 moves upward under the elasticity of the second elastic member 3211 below, then in the process of moving upward, the sliding blocks 33 arranged at both ends press against the bearing block 31, as shown in fig. 3, the sliding blocks 33 gradually press, then the sliding blocks 33 shrink into the second bearing plate 3, then continuously move upward to above the bearing block 31, i.e. at this time, the second bearing plate 3 is flush with the first bearing plate 23, and at this time, the bearing block 31 bears the load, i.e. at this time, the second bearing plate 3 can be used for supporting the first sliding block 23, at this time, the state of the bearing block 31 and the sliding blocks 33 is as shown in fig. 10, the bearing block 31 correspondingly supports the corresponding sliding blocks 33, and then when the coil stock 4 is unloaded, since the first carrier 23 returns to the middle position under the elastic force of the first elastic member 232, the first carrier 23 slides during the recovery process, when the first carrier 23 slides, the second protrusions 234 disposed at both sides abut against the second carrier 3, and then the second carrier 3 moves along the carrier blocks 31 under the abutment, that is, the second carrier 3 slides along the support plate 32, and then the elastic force of the second slider 322 and the third elastic member 323 is pressed, when the second carrier moves between the adjacent carrier blocks 31, the plurality of sliders 33 move into the gap between the adjacent carrier blocks 31, as shown in the state of fig. 11, and then under the continuous movement, the first protrusions begin to press the second carrier 3, so that the second carrier 3 moves downward again, moves under the carrier blocks 31, and breaks away from the restriction of the carrier blocks 31, and when the slide block moves to the position below the bearing block 31, the second slide block 322 and the connected second bearing plate 3 are moved to the middle position under the elastic force of the third elastic member 323, that is, the slide blocks 33 are respectively located below the corresponding bearing block 31, which is convenient for the next use.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. A coil stock bearing mechanism for non-woven fabric production comprises a sliding support seat (2) arranged on a sliding rail of a ground seat (1) in a sliding manner, and is characterized in that a first bearing plate (23) is arranged on the sliding support seat (2) in a sliding manner, the first bearing plate (23) is arranged along the sliding direction of the sliding support seat (2) in a sliding manner, and the first bearing plate (23) is used for bearing a coil stock (4);

the device is characterized by further comprising two baffle plates (21), wherein the baffle plates (21) are arranged on the sliding support seat (2) through a driving assembly;

in the process that the sliding support seat (2) moves along the base sliding rail: two baffle (21) are through drive assembly's drive to the direction equidistance sliding motion of first loading board (23) to drive coil stock (4) motion, the realization is corrected the position of coil stock (4).

2. A roll support mechanism for non-woven production, according to claim 1, characterized in that the first carrier plate (23) follows the roll (4) in a synchronous movement during the movement of the flap (21) pushing the roll (4).

3. The roll material carrying mechanism for the production of non-woven fabric according to claim 1, characterized in that the driving assembly comprises two second racks (24) slidably arranged on the sliding support base (2) and a transmission gear (241) rotatably arranged on the sliding support base (2), the second racks (24) are fixedly arranged on the baffle plate (21), and the two second racks (24) are relatively engaged with the transmission gear (241);

when the transmission gear (241) rotates, the rotation of the second rack (24) drives the two baffles (21) to move towards the middle of the sliding support seat (2) at equal intervals.

4. The roll material loading mechanism for non-woven fabric production according to claim 1, further comprising two support compensation devices disposed on the sliding support base (2), wherein the two support compensation devices are disposed on two sides of the first carrying plate (23).

5. A material loading mechanism for non-woven fabric production according to claim 4, characterized in that the support compensation mechanism comprises a second bearing plate (3) slidably arranged on the sliding support base (2), a support component is arranged below the second bearing plate (3), and under the support of the support component, two second bearing plates (3) can be abutted against the lower part of the first bearing plate (23); when the first bearing plate (23) is separated from the second bearing plate (3), the first bearing plate (23) is flush with the first bearing plate (23) under the elastic force of the supporting assembly so as to support the coil stock (4).

6. The coil stock bearing mechanism for non-woven fabric production according to claim 5, wherein the supporting assembly comprises a supporting plate (32) slidably disposed on the second bearing plate (3), a spring column (321) is disposed below the supporting plate (32), and a second elastic member (3211) is fixedly disposed below the spring column (321), so that the supporting plate (32) abuts against the lower side of the first bearing plate (23) under the elastic force thereof.

7. A roll material loading mechanism for non-woven fabric production according to claim 5, characterized in that the sliding support base (2) is fixedly provided with a bearing block (31), the two sides of the second bearing plate (3) are respectively provided with a sliding block (33) in a sliding manner, and when the second bearing plate (3) is flush with the first bearing plate (23), the sliding block (33) is above the bearing block (31) to support the second bearing plate (3).

8. The roll material loading mechanism for non-woven fabric production according to claim 7, wherein when the first loading plate (23) is disengaged from the second loading plate (3), the second loading plate (3) moves upward under the elastic force of the second elastic member (3211), and the sliding block (33) contacts the loading block (31) and contracts inward so that the sliding block (33) is on the loading block (31).

9. The roll material loading mechanism for non-woven fabric production according to claim 1, wherein a first sliding block (231) is slidably arranged on the sliding support seat (2), and two ends of the first sliding block (231) are respectively provided with a first elastic member (232), under the elastic force of the first elastic member (232), the first sliding block (231) is located at the middle position of the sliding support block; and the first sliding block (231) is arranged at the middle position of the first bearing plate (23).

10. The roll material loading mechanism for non-woven fabric production according to claim 1, wherein a first bump (233) and a second bump (234) are disposed below two ends of the first loading plate (23), and the protruding height of the first bump (233) is lower than the protruding height of the second bump (234).

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