KR102308240B1 - Gripping device for cell stacks unit - Google Patents

Abstract

It is an object of the present invention to provide a device for transferring the electrode plate collector on a conveyor capable of gently gripping the electrode plate collector without any special adjustment even if the total length of the electrode plate collector transferred through the conveyor is changed.
In order to achieve the above object, the present invention provides a plurality of pole plates disposed and transferred between the fixed paddles and the moving paddles in a conveyor including a plurality of fixed paddles and a moving paddle capable of adjusting the distance between the fixed paddles and the plurality of electrode plates. A gripping device for simultaneously gripping a sieve, comprising: two unit gripping devices disposed to face each other on the upper surface of the conveyor and operating simultaneously, wherein the unit gripping device includes: supporting base; a first clamp module slidably coupled to the base in the same direction as the conveying direction; a first pneumatic actuator driven by pneumatics, one side of which is fixed to the base to transport the first clamp module; a second clamp module slidably coupled to the base in the same direction as the conveyor transfer direction at a position where interference with the first clamp module does not occur; and a first pneumatic actuator driven by pneumatics, one side of which is fixed to the base to transport the first clamp module, wherein the plurality of electrode plate collectors are disposed between the first clamp module and the second clamp module It is characterized in that it is gripped.

Description

Electrode plate aggregate gripping device {Gripping device for cell stacks unit}

The present invention relates to an electrode plate collector gripping device, and more particularly, to a electrode plate collector gripping device disposed on a conveyor and gripping the electrode plate collectors transferred by the conveyor.

The electrode plate constituting the storage battery is transported through an automated system from the manufacturing process and the manufacturing process is controlled. This is because, due to the characteristics of the material forming the electrode plate, it is difficult for a person to directly touch and perform the manufacturing process because it contains substances harmful to the human body.

Therefore, in an automated system for manufacturing a storage battery, in order to perform a necessary manufacturing process, a conveyor system for transferring the electrode plate to a required manufacturing process position before each manufacturing process is performed is essential.

An apparatus using a conveyor system having the above characteristics is disclosed in, for example, Korean Patent Registration No. 541226. The patent provides a pole plate collector transfer device that separates the pole plate collector from the conveyor system to which the pole plate collector is supplied and transports and transfers it to the pole plate collector pickup system, wherein the pole plate collector transfer device is in the upper middle of the storage battery pole plate conveyor system. A is composed of a frame arranged at some distance from it, and on the lower side of this frame, a pair of guide rods are extended downward through the guide tube of the lower base of the storage battery pole plate conveyor system, and a horizontal support plate is provided at their lower end. The chain sprocket is installed in the middle of the lower side on the lower base, the hydraulic cylinder is installed horizontally on the side, the chain is extended from the middle of the horizontal support plate, and it is connected to the piston of the hydraulic cylinder through the chain sprocket. It is characterized in that a plurality of tongs assemblies having tongs pieces that open and close so as to grip both sides of the electrode plate aggregate carried on the front side between the pair of gripping plates are disposed opposite to each other on the frame of the.

That is, it is a device that supports the pole plate collector to be transported through the conveyor to the upper end after grasping it through the tongs, and then the pole plate collector pickup system picks up the pole plate collector and delivers it to the subsequent process.

The patent is implemented in a manner of gripping the pole plate collector using an electronic tongs piece, and the number of pole plate collectors transferred through the conveyor is limited to a previously set configuration.

If the number of pole plate collectors transferred from the conveyor is changed or the pole plate collector is disposed in an inclined shape on the conveyor, the center of the electronic tongs piece is always at a constant position, and when the pole plate collector is gripped, the Due to the mismatch of the center of the total length of the collector, the electrode collector may be rubbed against the bottom of the conveyor and some loss may occur.

In order to overcome the above disadvantages, an electric servo device must be built so that the entire frame to which the tongs are fixed can move in the conveying direction of the conveyor. Accordingly, there is a disadvantage that a high production cost is required.

The present invention has been devised to overcome the disadvantages of the prior art as described above, and even if the total length of the electrode collector transferred through the conveyor is changed, the electrode collector on the conveyor can gently grip the electrode collector without any special adjustment. It aims to provide a transfer device.

In order to achieve the above object, the present invention provides a plurality of pole plates disposed and transferred between the fixed paddles and the moving paddles in a conveyor including a plurality of fixed paddles and a moving paddle capable of adjusting the distance between the fixed paddles and the plurality of electrode plates. A gripping device for simultaneously gripping a sieve, comprising: two unit gripping devices disposed to face each other on the upper surface of the conveyor and operating simultaneously, wherein the unit gripping device includes: supporting base; a first clamp module slidably coupled to the base in the same direction as the conveying direction; a first pneumatic actuator driven by pneumatics, one side of which is fixed to the base to transfer the first clamp module; a second clamp module slidably coupled to the base in the same direction as the conveyor transfer direction at a position where interference with the first clamp module does not occur; and a first pneumatic actuator driven by pneumatics, one side of which is fixed to the base to transport the first clamp module, wherein the plurality of electrode plate collectors are disposed between the first clamp module and the second clamp module It is characterized in that it is gripped.

Preferably, the first clamping module includes a plurality of first clamping plates, a first connecting portion extending from the first clamping plate, and a first guide portion coupled to the first connecting portion and movably coupled to the base. And, the second clamping module includes a plurality of second clamping plates, a second connecting portion extending from the second clamping plate, and a second guide portion coupled to the second connecting portion and movably coupled to the base. characterized.

More preferably, the first pneumatic actuator includes a first cylinder fixed to the base, a first piston reciprocating by pneumatic pressure supplied from inside the first cylinder, and a first operation rod connected to the first piston. Including, wherein the first actuating rod is coupled to the first guide portion, the second pneumatic actuator is a second cylinder fixed to the base, a second piston reciprocating by the pneumatic pressure supplied from the inside of the second cylinder and a second actuating rod connected to the second piston, wherein the second actuating rod engages with the second guide part.

More preferably, in the open position, the first clamp plate is disposed between the rear surface of the stationary paddle and the front surface of the neighboring moving paddle in the rear direction, and the second clamp plate is adjacent to the front surface of the moving paddle and the front and the moving paddle in the front direction. It is characterized in that it is disposed between the back of the fixed paddle.

Preferably, in the grip position, the front surface of the first clamp plate is disposed at the same position as the front surface of the fixed paddle, and the rear surface of the second clamp plate is disposed at a position in contact with the front surface of the electrode plate collector. do.

Preferably, in the grip position, the front surface of the first clamping plate is disposed between the front surface of the fixed paddle and a position spaced apart by 1 mm to 10 mm in the front direction, and the rear surface of the second clamp plate is in contact with the front surface of the electrode plate collector. It is characterized in that it is disposed in a position where

Preferably, the second pneumatic actuator is installed on the opposite side of the base to which the first pneumatic actuator is coupled.

The electrode plate collector gripping device according to the present invention includes a first pneumatic actuator that transports the first clamp module interlocked with the position of the fixed paddle of the conveyor device for a short distance and the moving paddle located at the maximum distance from the fixed paddle. It is configured to include a second pneumatic actuator for driving the second clamp module, and provides the effect of smoothly gripping the electrode plate collector of any length disposed between the fixed paddle and the transfer paddle.

1 is an explanatory view showing the configuration of the electrode plate collector,
Figure 2 is a block diagram of the electrode plate collector gripping device according to the present invention,
Figure 3 is a block diagram of the conveyor device shown in Figure 1,
Figure 4 is an operational state diagram of Figure 3,
5 is a block diagram of the unit gripping device shown in FIG. 2;
Figure 6 is a configuration diagram of the first clamp module shown in Figure 5,
7 is a block diagram of the second clamp module shown in FIG. 5,
Fig. 8 is an explanatory view showing the operating state of the tongs shown in Fig. 5;

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the components from other components, and the essence, order, or order of the components are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but between each component another component It is to be understood that may also be “connected”, “coupled” or “connected”.

As shown in Figure 1, the electrode plate 1 is made of lead or lead oxide, has a rectangular shape, a terminal connection part 2 is formed on one side of the upper part, and two protrusions 3 are formed on the lower part. have.

The electrode plate 1 is accommodated in an envelope 4 which is a package, and only the terminal connection part 2 is exposed through the upper opening. In this way, several pole plates 1 inserted into the envelope 4 are connected so that each terminal connection part 2 can be alternately arranged left and right to form the pole plate collector 5, and the number depends on the type of battery. Varies.

Therefore, the total length of the electrode plate aggregate body (5) is determined according to the number of the electrode plate (1).

On the other hand, the electrode plate collector 5 is transported through the conveyor 10 as shown in FIG. 2 , and is carried out by the electrode plate collector gripping device 100 according to the present invention disposed at the end of the conveyor 10 . After being ripped and transferred to the top, it is picked up by a separate electrode plate collector pickup system and moved to another process.

The electrode plate collector gripping device 100 according to the present invention, when the plurality of electrode plate collectors 5 are transported by the conveyor 10, advances in the direction of the electrode plate collector 5 and a plurality of electrode plate collectors 5 ) simultaneously grips, and in particular operates in conjunction with the operation of the conveyor 10 .

As shown in FIG. 3 , the conveyor 10 includes a plurality of fixed paddles 11 disposed at regular intervals, a fixed chain 12 connecting the fixed paddles 11 , and between the fixed paddles 11 . It is configured to include a plurality of moving paddles 13 arranged, and a moving chain 14 connecting the moving paddles 13 .

Of course, the fixed paddle 11 and the moving paddle 13 are guided by separate fixed members, and the fixed chain 12 and the moving chain 14 are transported by separate sprockets, and eventually the fixed paddle (11) and the moving paddle (13) are fed at the same speed.

On the other hand, when giving a phase difference between the sprocket coupled to the movable chain 14 and the sprocket coupled to the stationary chain 12, as shown in FIG. 4, the stationary paddle 11 and the movable paddle 13 The distance between them can be adjusted.

Therefore, since the number of electrode plates 1 included in the electrode plate collector 5 transferred for battery manufacturing is different, even if the total length is changed, it can be matched by changing the phase of the sprocket as described above, and the electrode plate collector gripping device Reference numeral 100 serves to grip the electrode plate assembly 5 of various lengths disposed and transported between the fixed paddle 11 and the moving paddle 13 as described above and transport it to the upper end.

As shown in FIG. 1 , the electrode plate collector gripping device 100 includes a separate member disposed on the upper end of the conveyor 10 and two unit gripping devices 20 symmetrically disposed on both sides of the member. operates in the same way to grip a plurality of electrode plate aggregates 5 from both sides at the same time.

Of course, the unit gripping device 20 interlocks with the operation of the conveyor 10, and when transferring the pole plate collector 5, in order to avoid interference with the pole plate collector 5, the pole plate collector 5 and the conveyor ( 10) It is located at a place spaced a certain distance from the transfer direction in the vertical direction, and when the transfer of the electrode plate collector 5 is completed by the conveyor 10, it advances in the direction of the electrode plate collector 5, and after gripping, the entire electrode plate The collective gripping device 100 rises. In addition, when the transfer of the electrode plate collector 5 is completed, descending and backward operations are performed, and the forward/backward and ascending/lowering operations as described above are performed by separate actuators.

Since the present invention is a configuration related to the electrode plate collector gripping device 100 for gripping the electrode plate assembly 5, the description of the configuration for forward/backward and ascending/lowering as described above will be omitted. In addition, since the electrode plate collector gripping device 100 is composed of two unit gripping devices 20 symmetrically disposed on the conveyor 10, the unit gripping device 20 will be described in detail. .

As shown in FIG. 5 , the unit gripping device 20 includes a base 30 , a first clamping module 40 transportable in the longitudinal direction of the base 30 , and a longitudinal direction of the base 30 . Including a transportable second clamp module 60, a first pneumatic actuator 50 for driving the first clamp module 40, and a second pneumatic actuator 70 for driving the second clamp module 60 is composed

The base 30 serves as a structure supporting the unit gripping device 20 , and preferably has an appropriate strength to prevent vibration and deformation.

As shown in FIG. 6 , the first clamp module 40 includes a plurality of first clamp plates 41 and a first connector 42 extending from the first clamp plate 41 and the first connector ( 42) and is configured to include a first guide part 43 guided in the conveying direction of the conveyor 10 from the base 30.

That is, the first clamp module 40 is installed to be reciprocally transferred from the base 30 to the conveyor 10 in the transfer direction, and the base 30 has a guide groove for accommodating the first guide part 43 . formed in the longitudinal direction.

And a first pneumatic actuator 50 is coupled to an end of the first guide part 43 . The first pneumatic actuator 50 is a double-acting type, and a first cylinder 51 having a cylindrical shape, a first piston 52 transporting within the first cylinder 51 and extending to the first piston 52 . It is configured to include a first operation rod (53).

One side of the first cylinder 51 is fixed to the base 30 , and the end of the first operation rod 53 is combined with the end of the first guide part 43 , the first cylinder 51 . The first operation rod 53 advances or retreats according to the pneumatic pressure supplied thereto to finally transport the first guide part 43 .

The second clamp module 60 has the same structure as the first clamp module 40 , but is coupled to the base 30 so as not to interfere with the first clamp module 40 .

As shown in FIG. 7 , the second clamp module 60 includes a plurality of second clamp plates 61 and a second connector 62 extending from the second clamp plate 61 and the second connector ( 62) and is configured to include a second guide part 63 guided in the conveying direction of the conveyor 10 from the base 30, and to avoid interference with the first clamp module 40, the second The position and length of the connection part 62 are adjusted, and the position of the base 30 on which the second guide part 63 is disposed is disposed to be different from the first guide part 43 .

If necessary, the second guide part 63 of the second clamp module 60 may be configured to be disposed on the lower surface of the base 30 .

In addition, the second clamp module 60 is installed to be reciprocally transferred from the base 30 to the conveyor 10 in the transport direction, and the base 30 has a guide groove for accommodating the second guide part 63 . formed in the longitudinal direction.

And the second pneumatic actuator 60 is coupled to the end of the second guide part 63, but it is preferably installed on the opposite side of the first pneumatic actuator 50. It can also be installed in the direction.

The second pneumatic actuator 70 is also double-acting, and extends to the cylindrical second cylinder 71 and the second piston 72 and the second piston 72 reciprocating inside the second cylinder 71 . It is configured to include a second actuating rod (73).

One side of the second cylinder 71 is fixed to the base 30 , and the end of the second operation rod 73 is combined with the end of the second guide part 63 to form a second cylinder 71 . The second operation rod 73 advances or retreats according to the pneumatic pressure supplied thereto to finally transport the second guide part 63 .

Meanwhile, the unit gripping device 20 according to the present invention grips the electrode plate assembly 5 while the first clamping plate 41 and the second clamping plate 61 move to each other.

The movement of the first clamp plate 41 is performed by the first pneumatic actuator 50, and the second clamp plate 61 is performed by the second pneumatic actuator 70, and below, the conveyor ( 10) in conjunction with the fixed paddle 11 and the moving paddle 13, the open position and the grip position of each plate 41, 61 will be described with reference to FIG.

Although the description is based on a pair of clamp plates 41 and 61 in FIG. 8, since the distance of each clamp is the same as that of the fixed paddle 11, the remaining clamp plates 41 and 61 also show the same state. .

First, the open position (A) refers to a state in which each plate 41 and 61 is positioned between the fixed paddle 11 and the moving paddle 13 and disposed before catching the transferred pole plate assembly 5 .

Accordingly, the actuating rods 53 and 73 of the first pneumatic actuator 50 and the second pneumatic actuator 70 correspond to the minimum stroke state.

And the grip position (B) means a state in which one surface of each plate 41 and 61 is in contact with the front and rear surfaces of the pole plate assembly 5 to hold the pole plate assembly 5 .

Here, the first pneumatic actuator 50 corresponds to the maximum stroke state, but in the second pneumatic actuator 70, the stroke state is determined according to the length of the pole plate assembly 5, and constant pneumatic pressure is applied to the pole plate assembly 5. It is always pressurized with a constant force.

In addition, if the fixed paddle 11 and the moving paddle 13 have the front side facing the conveyor 10 transporting direction and the rear side facing the opposite direction, the electrode plate assembly 5 is always the front side of the fixed paddle 11 and the moving paddle. It is placed between the rear surfaces of (13) and transported.

In addition, the plates 41 and 61 also define front and rear surfaces in the same manner as the paddles 11 and 13 .

In the open position (A), the first clamp plate 41 is preferably disposed at a position spaced apart by a predetermined distance (c) in the opposite direction to the conveyer 10 transfer with respect to the rear surface of the fixed paddle 11 .

Of course, the position spaced apart from the rear surface of the fixed paddle 11 should be disposed between the moving paddles 13 located on the right side to avoid interference. desirable.

In addition, the second clamp plate 61 is preferably disposed at a position spaced apart from the front surface of the moving paddle 13 by a predetermined distance (d) in the conveying direction of the conveyor 10 .

In particular, the distance d of the second clamping plate 61 is at least the length of the electrode plate assembly 5 that can be produced, so that it can be disposed within the rear surface of the fixed paddle 13 located in the left neighbor to avoid interference.

When setting the position of the second clamp plate 61 as described above, there is an advantage that can safely grip the pole plate assembly 5 with pneumatic pressure regardless of the center point setting no matter what length the pole plate assembly 5 is transported.

Meanwhile, in the grip position B, the position of the first clamping plate 41 may be set so that the front surface of the first clamping plate 41 and the front surface of the fixing paddle 11 coincide.

That is, the first clamp plate 41 is arranged such that the same front surface as the fixed paddle 11 is brought into contact with the rear surface of the electrode plate assembly 5 .

If necessary, the front surface of the first clamping plate 41 may be disposed at a position advanced in the conveying direction of the conveyor 10 a little distance (e) from the front surface of the fixed paddle 11 . Here, the distance e is set within 1 mm to 10 mm, and in particular, when the electrode plate assembly 5 is twisted and disposed between the paddles 11 and 13, an effect of aligning is provided.

On the other hand, the second clamping plate 61 is set to operate within the maximum stroke, so that the rear surface of the second clamping plate 61 is in contact with the front surface of the electrode plate assembly 5 .

That is, when pneumatic pressure is supplied to the second pneumatic actuator 70 to operate the actuating rod 73 in the direction of maximum stroke, the movement is stopped while contacting the front surface of the pole plate assembly 5, and by the supplied pneumatic pressure Support the electrode plate assembly (5).

Therefore, the electrode plate assembly 5 is disposed between the plates 41 and 61 and gripped by the supplied pneumatic pressure so that it can be transferred to another part.

In particular, the second pneumatic actuator 70 is arranged with a minimum stroke in the open position (A), and performs an operation of increasing the stroke by pneumatic pressure in the grip position (B), interlocked with the length of the electrode plate assembly (5) Since the stroke is determined, there is an advantage of applying a constant pressing force to the pole plate assembly 5 regardless of the length of the pole plate assembly 5 .

What has been described above is only an embodiment for implementing the electrode plate collector gripping device according to the present invention, and the present invention is not limited to the above-described embodiment, and it does not deviate from the gist of the present invention as claimed in the following claims. Without it, anyone with ordinary knowledge in the technical field to which the present invention belongs will say that there is the technical spirit of the present invention to the extent that it can be implemented with various modifications.

1: pole plate 2: terminal connection part
3: Protrusion 4: Envelope
5: electrode plate collector 10: conveyor
11: fixed paddle 12: fixed chain
13: movement paddle 14: movement chain
20: unit gripping device 30: base
40: first clamp module 41: first clamp plate
42: first connection part 43: first guide part
50: first pneumatic actuator 51: first cylinder
52: first piston 53: first operation rod
60: second clamp module 61: second clamp plate
62: second connection part 63: second guide part
70: second pneumatic actuator 71: second cylinder
72: second piston 73: second operation rod
100: electrode plate aggregate gripping device

Claims (7)

An electrode plate collector gripping device for simultaneously gripping a plurality of fixed paddles and a plurality of electrode plate collectors disposed between the fixed paddles and the moving paddles on a conveyor including a moving paddle capable of adjusting the distance between the fixed paddles In
and two unit gripping devices disposed to face each other on the upper surface of the conveyor and operated at the same time,
The unit gripping device comprises:
a base supporting the structure of the entire device;
a first clamp module slidably coupled to the base in the same direction as the conveying direction;
a first pneumatic actuator driven by pneumatics, one side of which is fixed to the base to transport the first clamp module;
a second clamp module slidably coupled to the base in the same direction as the conveyor transfer direction at a position where interference with the first clamp module does not occur; and
It is driven by pneumatic and includes a second pneumatic actuator having one side fixed to the base to transfer the second clamp module,
The electrode plate collector gripping device, characterized in that the plurality of electrode plate collectors are disposed between the first clamp module and the second clamp module to be gripped.
The method according to claim 1, wherein the first clamp module includes a plurality of first clamp plates, a first connector extending from the first clamp plate, and a first guide part coupled to the first connector and movably coupled to the base. including,
The second clamping module comprises a plurality of second clamping plates, a second connecting portion extending from the second clamping plate, and a second guide portion coupled to the second connecting portion and movably coupled to the base. pole plate aggregate gripping device.
The method according to claim 2, wherein the first pneumatic actuator comprises a first cylinder fixed to the base, a first piston reciprocating by pneumatic pressure supplied from inside the first cylinder, and a first operation rod connected to the first piston. Including, wherein the first operation rod is coupled to the first guide portion,
The second pneumatic actuator includes a second cylinder fixed to the base, a second piston reciprocating by pneumatic pressure supplied from the inside of the second cylinder, and a second actuating rod connected to the second piston, The electrode plate collector gripping device, characterized in that the second actuating rod engages with the second guide part.
The method according to claim 3, wherein in the open position,
The first clamp plate is disposed between the rear surface of the fixed paddle and the front surface of the adjacent moving paddle in the rear direction, and the second clamp plate is disposed between the front surface of the moving paddle and the front surface of the moving paddle and the rear surface of the adjacent fixed paddle in the front direction. A gripping device for the electrode plate collector, characterized in that it.
The method according to claim 3, wherein in the grip position,
The front surface of the first clamp plate is disposed at the same position as the front surface of the fixed paddle,
The rear surface of the second clamp plate is an electrode plate collector gripping device, characterized in that it is disposed at a position in contact with the front surface of the electrode plate collector.
The method according to claim 3, wherein in the grip position,
The front surface of the first clamping plate is disposed between the fixed paddle front and a position spaced apart by 1 mm to 10 mm in the front direction,
The rear surface of the second clamp plate is an electrode plate collector gripping device, characterized in that it is disposed at a position in contact with the front surface of the electrode plate collector.
The gripping device of claim 3, wherein the second pneumatic actuator is installed on the opposite side of the base to which the first pneumatic actuator is coupled.

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