CN211003261U - Conveying structure and electroplating equipment - Google Patents

Abstract

The utility model is suitable for an automation equipment field provides a transport structure and electroplating device, and wherein, transport structure is used for the transported substance material, include: the clamping assembly comprises an upper clamping piece and a lower clamping piece which are arranged in front and back, a forward extending portion is arranged at the lower end of the lower clamping piece, a clamping space for clamping the material is formed at the lower end of the upper clamping piece and the upper surface of the extending portion, and the upper clamping piece can move up and down relative to the lower clamping piece; the conveying assembly comprises a first conveying belt connected with the upper clamping piece and a second conveying belt connected with the lower clamping piece, the first conveying belt and the second conveying belt move in the same direction, and the height of the first conveying belt relative to the second conveying belt can be adjusted so that the upper clamping piece can move up and down relative to the lower clamping piece; and the cooperation assembly is connected with the second conveying belt and limits the left and right movement of the upper clamping piece. The utility model provides a conveying structure can be suitable for the clamp of different radial dimension's material to get.

Description

Conveying structure and electroplating equipment

Technical Field

The utility model belongs to the automation equipment field especially relates to a transport structure and electroplating device.

Background

The existing automatic conveying structure is designed specifically according to products, and generally, one set of automatic conveying structure is suitable for products of one specification. For example, electroplating equipment, clamps a piece to be plated with a specific size and then moves the piece to an electroplating pool for electroplating. Because one electroplating device is only suitable for the piece to be plated with one specification and size, the application range of the electroplating device is limited.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art, and provides a conveying structure and electroplating equipment, which aims to solve the problem that the prior conveying structure is difficult to be suitable for various specifications and sizes.

The utility model discloses a realize like this:

a conveying structure for conveying material, comprising:

the clamping assembly comprises an upper clamping piece and a lower clamping piece which are arranged up and down, the upper clamping piece and the lower clamping piece form a clamping space for clamping the material, and the upper clamping piece can move up and down relative to the lower clamping piece so as to adjust the radial size of the clamping space;

the conveying assembly comprises a first conveying belt connected with the upper clamping piece and a second conveying belt connected with the lower clamping piece, the first conveying belt and the second conveying belt move in the same direction, and the height of the first conveying belt relative to the second conveying belt can be adjusted so that the upper clamping piece can move up and down relative to the lower clamping piece;

and the cooperation assembly is connected with the second conveying belt and limits the left and right movement of the upper clamping piece.

Furthermore, the cooperation assembly comprises a sliding groove which is formed in the rear surface of the upper clamping piece and extends up and down, and a sleeving piece which is fixed on the second conveying belt and matched with the sliding groove, wherein the upper clamping piece can move up and down relative to the sleeving piece and is limited by the sliding groove to move left and right relative to the lower clamping piece.

Further, the notch of spout sets up backward, just the size of spout notch is less than the size of tank bottom department.

Furthermore, the cross section of the sliding groove is in a T shape or an inverted triangle shape.

Further, the second conveyer belt includes backplate and runner, down the folder with the assembly is all fixed on the backplate, the intercommunicating pore that link up around the backplate was seted up, the runner includes the cylindric wheel body that becomes extension from top to bottom and sets up wheel body week side's arch, the arch can be pegged graft the intercommunicating pore and along with the wheel body rotates and orders about the backplate removes.

Furthermore, the communication holes are arranged in a plurality and are arranged at equal intervals along the extension direction of the back plate, the protrusions are arranged in a plurality, and the interval between every two adjacent protrusions is the same as the interval between every two adjacent communication holes.

Furthermore, the first conveying belt comprises a chain, a sliding rail and a connecting piece, the chain is connected to the sliding rail in a sliding mode, and the connecting piece is used for connecting the chain and the upper clamping piece.

Furthermore, the connecting piece comprises a hanging plate and a screw rod, the screw rod is connected with the upper clamping piece and extends backwards, and the lower end of the hanging plate is connected with the chain and is provided with a through hole which is communicated with the front and the back for the screw rod to pass through.

Furthermore, the clamping assembly is provided with a plurality of clamping plates, and the hanging plates, the screw rods and the upper clamping pieces are arranged in a one-to-one correspondence mode.

An electroplating device comprises the conveying structure

The utility model provides a conveying structure goes up the folder and connects first conveyer belt and second conveyer belt respectively with lower folder, and the separation and the adjustable distance that set up through first conveyer belt and second conveyer belt realize going up folder and folder down are adjusted to can be suitable for the clamp of different radial dimension's material and get. The synchronous movement of the upper clamping piece and the lower clamping piece is realized through the cooperation of the cooperative components, and the clamping effectiveness is ensured.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a conveying assembly according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of another angle of the conveying assembly according to the first embodiment of the present invention;

FIG. 3 is a side view of the structure of FIG. 1;

FIG. 4 is a schematic view of the clamping assembly and the cooperating assembly disassembled according to a first embodiment of the present invention;

fig. 5 is a schematic structural view of a second conveyor belt according to a first embodiment of the present invention;

fig. 6 is a schematic view illustrating a connection between the first conveyor belt and the upper clamp according to a first embodiment of the present invention, which is a cross-sectional view;

fig. 7 is a schematic view illustrating the detachment of the clamping assembly according to a first embodiment of the present invention.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Clamping assembly	20	Transmission assembly
11	Upper clamping piece	21	First conveyer belt
				12	Lower clamp	211	Chain
13	Clamping space	212	Sliding rail
				141	First connecting plate	213	Connecting piece
142	Second connecting plate	2131	Hanging plate
				151	Fixed block	2132	Screw rod
1511	Sliding groove	22	Second conveyor belt
				152	Sliding connection plate	221	Back plate
1521	Sliding connection part	2211	Communicating hole
				1522	Stress part	222	Rotating wheel
153	Spring	2221	Wheel body
				16	Corner folding plate	2222	Projection
17	Stopper	223	Limiting wheel
				18	Position limiting piece	30	Collaboration component
19	Fastening piece	31	Sliding chute
						32	Nesting component

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

It should be further noted that, in the embodiment of the present invention, the XYZ rectangular coordinate system established in fig. 1 is defined: one side in the positive direction of the X axis is defined as the front, and one side in the negative direction of the X axis is defined as the back; one side in the positive Y-axis direction is defined as the left side, and one side in the negative Y-axis direction is defined as the right side; the side in the positive direction of the Z axis is defined as the upper side, and the side in the negative direction of the Z axis is defined as the lower side.

It should be noted that the terms of left, right, upper and lower directions in the embodiments of the present invention are only relative concepts or are referred to the normal use state of the product, and should not be considered as limiting.

Example one

As shown in fig. 1 to 7, the present embodiment provides a conveying structure for conveying materials. The transport structure includes a gripper assembly 10, a transport assembly 20, and a cooperating assembly 30.

The clamping assembly 10 comprises an upper clamping piece 11 and a lower clamping piece 12 which are arranged up and down, the upper clamping piece 11 and the lower clamping piece 12 form a clamping space 13 for clamping materials, and the upper clamping piece 11 can move up and down relative to the lower clamping piece 12 so as to adjust the radial size of the clamping space 13. It should be noted that the clamping space 13 is a design position of the upper clamping member 11 and the lower clamping member 12 when clamping the materials, and the adjustable clamping space 13 means that the clamping assembly 10 can be used for clamping materials with different dimensions, and mainly refers to the adjustable longitudinal dimension. As will be understood in the art, the clamping assembly 10 itself can clamp the material, and the upper and lower clamps 11 and 12 can move relatively close to and away from each other to clamp the material. This can be achieved by its own design, such as the upper clamp 11 being moved upwards by an external force to accommodate the entry of material and then being returned by a spring arrangement to clamp the material. The design is based on the design for realizing the basic clamping function, and the specific realization form can refer to the design of the existing clamping assembly 10. The material size of the upper clamping piece 11 and the material size of the lower clamping piece 12 can be fixed and cannot be adjusted. The adjustment of the clamping space 13 in this embodiment is an adjustment that can move the upper clamping piece 11 up and down according to the height of the material, so that the material with different radial dimensions can be subjected to the same or equivalent clamping force.

The conveying assembly 20 includes a first conveying belt 21 connected to the upper clamp 11 and a second conveying belt 22 connected to the lower clamp 12, the first conveying belt 21 and the second conveying belt 22 move in the same direction, and the first conveying belt 21 is height-adjustable relative to the second conveying belt 22 so that the upper clamp 11 can move up and down relative to the lower clamp 12. The first conveyor belt 21 and the second conveyor belt 22 are separately provided and respectively drive the upper clamp 11 and the lower clamp 12 to move. The radial dimension of the clamping space 13 of the upper and lower clamps 11 and 12 is adjusted by adjusting the height of the first conveyor belt 21 relative to the second conveyor belt 22. That is, the upper clamp 11 can move up and down relative to the lower clamp 12 by the up and down movement of the first conveyor belt 21 relative to the second conveyor belt 22. Based on the basic requirement of clamping, the upper clamp 11 and the lower clamp 12 must have the same speed, and because the upper clamp 11 and the lower clamp 12 are separately arranged and the first conveyor belt 21 and the second conveyor belt 22 are also separately arranged, it is difficult to ensure the synchronism of the movement of the upper clamp 11 and the lower clamp 12 at all times due to the reasons of motors or control. It should be noted that, based on the existing design, the upper clamp 11 and the lower clamp 12 of the clamping assembly 10 can be arranged to achieve the function of clamping the material in the static state, but in the moving state, due to the design of separating the upper clamp 11 from the lower clamp 12, the problem of synchronization can be faced. The arrangement of the cooperating assembly 30 solves the problem of synchronization between the upper clip member 11 and the lower clip member 12.

The cooperating assembly 30 is connected to the second conveyor belt 22 and limits the left and right movement of the upper clamp 11. The cooperating assembly 30 is connected to the second conveyor belt 22 so as to be capable of moving synchronously with the second conveyor belt 22, and at the same time, the cooperating assembly 30 restricts the left and right movement of the upper clamp 11, so that the upper clamp 11 and the cooperating assembly 30 move synchronously, thereby achieving the synchronous movement of the upper clamp 11 and the lower clamp 12 to ensure the clamping effectiveness.

In summary, in the conveying structure provided in this embodiment, the upper clamp 11 and the lower clamp 12 are respectively connected to the first conveying belt 21 and the second conveying belt 22, and the distance between the upper clamp 11 and the lower clamp 12 is adjusted by the separation and adjustable setting of the first conveying belt 21 and the second conveying belt 22, so that the conveying structure can be suitable for clamping materials with different radial dimensions. The upper clamping piece 11 and the lower clamping piece 12 are synchronously moved through the cooperation of the cooperative assembly 30, and the clamping effectiveness is ensured.

In this embodiment, there are a plurality of clamping assemblies 10, the upper clamping member 11 of each clamping assembly 10 is connected to the first conveying belt 21, and the lower clamping member 12 of each clamping assembly 10 is connected to the second conveying belt 22. The holding members 10 are provided in plural and arranged in series along the moving direction of the transferring member 20. Each upper clamping piece 11 is connected with the first conveying belt 21, and all the upper clamping pieces 11 connected with the first conveying belt 21 are adjusted at one time through the up-and-down adjustment of the first conveying belt 21, so that the operation is very convenient.

Referring to fig. 3 and 4, the cooperating assembly 30 includes a sliding slot 31 opened on the rear surface of the upper clamping member 11 and extending up and down, and a sleeve member 32 fixed on the second conveying belt 22 and engaged with the sliding slot 31, wherein the upper clamping member 11 can move up and down relative to the sleeve member 32 and is limited by the sliding slot 31 to move left and right. The sliding slot 31 and the engaging member 32 engage each other to limit the movement of the upper clip member 11, thereby ensuring the synchronous movement of the upper clip member 11 and the lower clip member 12. In other embodiments, the chute 31 may be opened on the second conveyor belt 22, and the sleeve 32 may be disposed on the upper clamping member 11. In another embodiment, the upper clamp 11 and the lower clamp 12 may be limited only by providing a plurality of stoppers on the second conveyor belt 22 for limiting the movement of the upper clamp 11 to the left and right, and in this case, the stoppers are distributed on the left and right sides of the upper clamp 11 and can limit the movement of the upper clamp 11 to the left and right within the range of the up-down movement of the upper clamp 11.

Referring to fig. 4, the slot of the sliding slot 31 is disposed backward, and the size of the slot of the sliding slot 31 is smaller than that of the slot at the bottom. So that the engaging member 32 cannot leave the slide groove 31 from the notch, thereby restricting the forward movement of the upper clip member 11.

Preferably, the chute 31 has a T-shaped or inverted triangular cross-section. In the illustrated embodiment, the sliding slot 31 has a cross section similar to an inverted triangle, and the engaging member 32 has a recessed slot formed rearward on the front surface thereof and a screw hole formed at the bottom of the recessed slot for screwing with the back plate 221. In other embodiments, the sleeve 32 may be connected to the back plate 221 by other connection methods, which are not limited herein.

Referring to fig. 3 and 5, the second conveyor 22 includes a back plate 221 and a rotating wheel 222, the lower clip 12 and the sleeve member 32 are both fixed on the back plate 221, the back plate 221 is provided with a through hole 2211, the rotating wheel 222 includes a cylindrical wheel body 2221 extending up and down and a protrusion 2222 arranged on the periphery of the wheel body 2221, and the protrusion 2222 can be inserted into the through hole 2211 and rotate with the wheel body 2221 to drive the back plate 221 to move. Through the cooperative design of the communication hole 2211 and the projection 2222, the torque of the wheel body 2221 is converted into the driving force that drives the back plate 221 to move. Preferably, there are not less than two wheels 222, and each wheel 222 rotates synchronously. The arrangement of the plurality of wheels 222 reduces the local stress of the back plate 221, and the plurality of wheels 222 are used together to drive the back plate 221 to move, so that the torque required by a single wheel 222 is smaller, and the requirement on the driving device is reduced. In addition, the plurality of wheels 222 jointly drive the back plate 221 to move, which is also beneficial to improving the stability of the movement of the back plate 221.

In this embodiment, the communication holes 2211 are plural and are arranged at equal intervals along the extending direction of the back plate 221, the protrusions 2222 are plural, and the interval between two adjacent protrusions 2222 is the same as the interval between two adjacent communication holes 2211. It can be understood that the larger the number of the projections 2222 that can be inserted into the communication hole 2211 at the same time, the more stable the connection and the smaller the driving force required, and therefore, the skilled person can minimize the interval between the two projections 2222 while complying with the structural strength requirement and the fitting space requirement.

In the illustrated structure, the second conveyor belt 22 further includes a limiting wheel 223 located at the front side of the wheel body 2221, and the limiting wheel 223 and the wheel body 2221 are respectively abutted against the front and rear sides of the back plate 221. The limiting wheel 223 limits the back plate 221 to move forwards, so that the situation that the communicating hole 2211 cannot be inserted into the projection 2222 due to the fact that the back plate 221 deforms forwards is avoided, and the transmission effectiveness is improved.

One skilled in the art may provide reinforcing structures such as ribs on the back plate 221 to improve the structural strength of the back plate 221.

Referring to fig. 3 and 6, the first conveyor belt 21 includes a chain 211, a slide rail 212, and a connecting member 213, wherein the chain 211 is slidably connected to the slide rail 212, and the connecting member 213 is used for connecting the chain 211 and the upper clamp 11. The sliding rail 212 defines a moving direction of the chain 211, and the connecting member 213 connects the upper clip 11 with the chain 211, so that the chain 211 can move the upper clip 11. The sliding rail 212 is disposed parallel to the back plate 221 to move the upper clip member 11 and the lower clip member 12 in the same direction. The first conveyor belt 21 is located above the second conveyor belt 22 and on the same side of the clamping assembly 10 (in the illustrated embodiment, the first conveyor belt 21 and the second conveyor belt 22 are both located behind the clamping assembly 10), so as to reduce the overall occupied space of the conveying structure and facilitate integrated control. By adopting the design of the chain 211, the sliding rail 212 and the connecting piece 213, the structure occupies small space, and the space limitation on other structural arrangements is reduced.

The connecting member 213 includes a hanging plate 2131 and a screw 2132, the screw 2132 is connected to the upper clip 11 and extends backwards, the lower end of the hanging plate 2131 is connected to the chain 211 and has a through hole which is penetrated through from front to back for the screw 2132 to pass through. The hanging plate 2131 is a simple flat plate structure, and a through hole Jack for the screw 2132 to penetrate through is formed in the hanging plate 2131, so that the structure is simple. With this design, the hanging plate 2131 only restricts the up-down and front-back four-directional movement of the screw 2132, and does not restrict the front-back movement of the screw 2132. The limit of the screw 2132 and the hanging plate 2131 in the front-back direction is limited by the relative position of the left clamping piece and the rail.

In this embodiment, there are a plurality of clamping assemblies 10, and the hanging plate 2131, the screw 2132 and the upper clamping piece 11 are disposed in a one-to-one correspondence manner. In other embodiments, the hanging plates 2131 and the screws 2132 are correspondingly arranged, the number of the hanging plates 2131 is less than that of the upper clamping pieces 11, and the number of the hanging plates 2131 can be set by a person skilled in the art according to actual needs. In contrast, the number of the hanging plates 2131 is the same as that of the upper clamping pieces 11, so that the whole upper clamping pieces 11 have more stress points to achieve the condition of sharing stress, and the improvement of the transmission stability is facilitated.

Referring to fig. 7, the clamping assembly 10 further includes a first connecting plate 141 and a second connecting plate 142, the first connecting plate 141 connects the upper clamping member 11 and extends upward, and the second connecting plate 142 is connected to the back plate 221 along the lower clamping member 12 via a fastening member 19.

First current conducting plate and second connecting plate 142 are the plates, compare the wire, and anti resistance to compression ability is strong, and non-deformable, consequently, fix last folder 11 on first connecting plate 141, fix folder 12 down on second connecting plate 142 in order to do benefit to the structural strength who improves whole centre gripping subassembly 10.

The clamping assembly 10 further comprises a fixed block 151, a sliding connection plate 152 and a spring 153, wherein the fixed block 151 is provided with a sliding connection groove 1511 extending up and down backwards on the front surface of the fixed block, the sliding connection plate 152 is slidably connected to the sliding connection groove 1511, the lower end of the sliding connection plate 152 is connected to the first connection plate 141, and the spring 153 is sleeved on the sliding connection plate 152 and located between the first connection plate 141 and the fixed block 151. When an upward external force is applied to the sliding connection plate 152, and the sliding connection plate 152 moves upward, the first connection plate 141 moves upward together with the upper clip 11, so as to open the distance between the upper clip 11 and the lower clip 12 for the material to enter, at this time, the spring 153 is compressed, and then the external force is released, and the upper clip 11 is reset under the elastic restoring force of the spring 153 to clamp the material. The provision of the spring 153 simplifies the operation steps. Of course, the up and down movement of the sliding contact plate 152 may be directly controlled by a motor or the like without using the spring 153.

In this embodiment, the plurality of clamping assemblies 10 are arranged side by side in the left-right direction. The sliding plate 152 of each clamping assembly 10 comprises a sliding connection portion 1521 which is slidably connected to the fixed block 151 and a force receiving portion 1522 which is connected to the sliding connection portion 1521 and extends backwards, and the force receiving portion 1522 is designed to facilitate collective operation and control of the sliding plates 152. Specifically, a lifting plate extending left and right is arranged, the lifting plate is arranged below each stress part 1522 to control the lifting plate to move upwards, the lifting plate is abutted against each stress part 1522 upwards and drives each stress part 1522 to move upwards, and therefore the upwards movement of the sliding plates 152 is controlled simultaneously. The lift plate returns downward and the slide plate 152 returns under the action of the spring 153. The length of the lifting plate is set according to actual needs.

The clamping assembly 10 further includes a corner plate 16, and the corner plate 16 includes a first side plate and a second side plate vertically disposed, the first side plate is used for connecting the first connecting plate 141, and the second side plate is connected to the sliding plate 152 and used for limiting the downward movement of the spring 153. The abutting surface (upper surface) of the second side plate with the sliding contact plate 152 has a large area so that the downward movement of the spring 153 can be restricted. Of course, those skilled in the art may directly connect the first connection plate 141 to the sliding contact plate 152 as long as the contact surface thereof can limit the downward movement of the spring 153.

The slide groove 31 is formed in the fixed block 151, and the upper clip 11, the first connecting plate 141, the gusset plate 16, and the slide plate 152 are connected in sequence and slidably connected to the fixed block 151 by the engagement of the spring 153 and the slide groove 1511. The upper clamping piece 11 moves up and down relative to the fixing block 151 so as to clamp the material by the upper clamping piece 11 and the lower clamping piece 12. The fixing block 151 is connected to the first conveyor belt 21 and lifted up along with the lifting of the first conveyor belt 21, so as to adjust the radial dimension of the clamping space 13 of the clamping assembly 10. Meanwhile, the fixing block 151 can slide up and down on the back panel 221 through the matching of the sliding groove 31 and the sleeve 32, but the left and right movement of the fixing block relative to the back panel 221 is limited, so that the upper clamping piece 11 and the lower clamping piece 12 can move synchronously.

In the illustrated construction, the clamping assembly 10 further includes a catch 17, and the catch 17 is attached to the fixed block 151 by a fastener 19 to prevent the sliding plate 152 from moving forward and away from the sliding groove 1511. As can be understood by those skilled in the art, the depth of the sliding groove 1511 is not less than the size of the sliding plate 152 in the front-back direction, and the sliding plate 152 is provided with an avoiding groove at the position of the fastening member 19, so that the connection between the stopper 17 and the fixing block 151 does not affect the up-down movement of the sliding plate 152.

The clamping assembly 10 is provided with a limiting member 18 on the front surface of the sliding plate 152, which abuts against the stop member 17 to limit the downward movement of the sliding plate 152. The material is protected by limiting the lower limit of the downward movement of the sliding contact plate 152. In the illustrated embodiment, the stoppers 18 are two in number and arranged side by side.

In the illustrated embodiment, the clamping assembly 10 further includes a plurality of fasteners 19 for connecting the structures, and one skilled in the art can select screws, bolts, rivets, etc. according to actual needs, and determine whether to add a gasket according to circumstances. The connection between the two structures can also be realized by adopting an integrated arrangement. And are not intended to be limited solely thereto.

Example two

The embodiment provides electroplating equipment which is characterized by comprising a conveying structure. Please refer to the first embodiment for the specific structure of the conveying structure. Since the electroplating equipment adopts all the technical solutions of all the embodiments, all the beneficial effects brought by the technical solutions of the embodiments are also achieved, and are not repeated herein.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.

Claims (10)

1. A conveying structure for conveying material, comprising:

the clamping assembly comprises an upper clamping piece and a lower clamping piece which are arranged up and down, the upper clamping piece and the lower clamping piece form a clamping space for clamping the material, and the upper clamping piece can move up and down relative to the lower clamping piece so as to adjust the radial size of the clamping space;

the conveying assembly comprises a first conveying belt connected with the upper clamping piece and a second conveying belt connected with the lower clamping piece, the first conveying belt and the second conveying belt move leftwards or rightwards in the same direction, and the height of the first conveying belt relative to the second conveying belt can be adjusted so that the upper clamping piece can move up and down relative to the lower clamping piece;

and the cooperation component is connected with the second conveying belt and limits the upper clamping piece to move relative to the upper clamping piece in the left-right direction.

2. The conveying structure according to claim 1, wherein the cooperating assembly includes a slide groove opened on a rear surface of the upper clamping member and extending up and down, and a sleeve member fixed to the second conveyor belt and engaged with the slide groove, the upper clamping member being movable up and down relative to the sleeve member and being restricted from moving left and right relative to the lower clamping member by the slide groove.

3. The conveying structure according to claim 2, wherein the slot of the chute is disposed rearward and the size of the chute slot is smaller than the size at the slot.

4. A conveying structure as claimed in claim 3, wherein the chute is T-shaped or inverted triangular in cross-section.

5. The conveying structure according to claim 2, wherein the second conveying belt comprises a back plate and a rotating wheel, the lower clamping piece and the sleeving piece are fixed on the back plate, the back plate is provided with a communicating hole which is communicated with the front and the back, the rotating wheel comprises a cylindrical wheel body which extends up and down and a protrusion which is arranged on the periphery of the wheel body, and the protrusion can be inserted into the communicating hole and rotates with the wheel body to drive the back plate to move.

6. The conveying structure as claimed in claim 5, wherein the communication holes are plural and arranged at equal intervals in the extending direction of the back plate, the protrusions are plural, and the interval between two adjacent protrusions is the same as the interval between two adjacent communication holes.

7. The conveying structure as claimed in any one of claims 1 to 6, wherein the first conveying belt includes a chain, a slide rail, and a connecting member, the chain being slidably coupled to the slide rail, the connecting member being adapted to connect the chain to the upper clamp.

8. The conveying structure as claimed in claim 7, wherein the connecting member includes a link plate and a screw rod, the screw rod is connected with the upper clamp member and extends backward, and the lower end of the link plate is connected with the chain and has a through hole penetrating forward and backward for the screw rod to pass through.

9. The conveying structure as claimed in claim 8, wherein there are a plurality of said clamping assemblies, and said hanging plates, said threaded rods and said upper clamping members are disposed in one-to-one correspondence.

10. An electroplating apparatus comprising a transport structure according to any one of claims 1 to 9.

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