CN112359404A

CN112359404A - Batch demoulding device after button electroplating

Info

Publication number: CN112359404A
Application number: CN202011083588.3A
Authority: CN
Inventors: 刘金容
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-02-12

Abstract

The invention relates to a demoulding device, in particular to a batch demoulding device for electroplated buttons. The invention provides a batch demoulding device for electroplated buttons, which is simple to operate, time-saving and labor-saving and can improve demoulding efficiency. The utility model provides a button is electroplated back batch demoulding device, including: the base is provided with a plurality of first support frames; the upper part of the first support frame is provided with an air cylinder; the first support frame is provided with an extrusion mechanism, and the extrusion mechanism is connected with the air cylinder; and the first support frame is provided with a positioning mechanism which is matched with the extrusion mechanism. According to the invention, the connecting rod slides back and forth in the second support frame through the operation of the cylinder, so that the first pressing block moves back and forth, when the first pressing block moves forward to be in contact with the mold, people enable the positioning mechanism to clamp the mold, and then the first pressing block continues to move forward and bend the mold, so that the button falls off from the mold, and the effect of automatic demolding is achieved, thus the operation is simple and convenient.

Description

Batch demoulding device after button electroplating

Technical Field

The invention relates to a demoulding device, in particular to a batch demoulding device for electroplated buttons.

Background

Buttons, which are commonly used for fastening clothes and can also be used as ornaments, have become creative from the former functional types with the rise of fashion.

Along with the development of the times, buttons are more and more colorful from materials to shapes and manufacturing processes, in the production process of the buttons, people need to demould the electroplated buttons, the existing demoulding technology is that the buttons in the mould are manually taken down one by one, the operation is complex, time and labor are wasted, and in addition, a large amount of demoulding operation time is needed to be spent on the technology, so that the manual demoulding efficiency is lower.

Patent application CN205237033U, published as 2016.05.18, discloses a shedder, including mould fixed station, curb plate shedder, roof shedder and the control unit etc. through making control unit drive curb plate shedder and roof shedder, and then separate fashioned wheel hub and the curb plate and the roof of mould respectively, nevertheless the device drops and need artifical manual collection product after the work is accomplished, comparatively wastes time and energy.

Therefore, it is necessary to design a batch demolding device after button electroplating, which is simple in operation, time-saving and labor-saving, and can improve the demolding efficiency.

Disclosure of Invention

In order to overcome the defects of complicated manual demoulding operation, time and labor waste and low efficiency, the invention has the technical problems that: the button after-electroplating batch demolding device is simple in operation, time-saving and labor-saving, and capable of improving demolding efficiency.

The technical implementation scheme of the invention is as follows: the utility model provides a button is electroplated back batch demoulding device, including:

the base is provided with a plurality of first support frames;

the air cylinder is arranged at the upper part of the first support frame at the rear side;

the first support frame in the middle of the extruding mechanism is provided with the extruding mechanism, and the extruding mechanism is connected with the air cylinder;

and the positioning mechanism is arranged on the first support frame on the front side and is matched with the extrusion mechanism.

As a further preferable mode, the pressing mechanism includes:

the second support frame is arranged between the two first support frames in the middle part;

the connecting rod is arranged on the inner side of the second support frame in a sliding mode and penetrates through the second support frame, and the connecting rod is connected with the air cylinder;

the first pressing block is arranged on the connecting rod.

As a further preferable mode, the positioning mechanism includes:

the first support frame on the front side is provided with a first pressing block, and the two first pressing blocks are symmetrical;

the two second pressing blocks are both provided with a third pressing block in a sliding manner;

two first springs are wound on the two second pressing blocks, one side of each first spring is connected with the third pressing block, and the other side of each first spring is connected with the second pressing block.

As a further preferable embodiment, the method further comprises:

the clamping mechanism is arranged on the first support frame on the front side and is connected with the first pressing block and the third pressing block;

the clamping mechanism comprises:

the first support frame on the front side is provided with a first sliding rail;

the inner sides of the two first slide rails are connected with the first pressing block through first wedge blocks, the first wedge blocks penetrate through the first slide rails, and the first wedge blocks are connected with the first slide rails in a sliding mode;

the two first sliding rails are provided with second sliding rails;

the inner sides of the two second sliding rails are both provided with a second wedge block in a sliding manner, and the second wedge block is matched with the first wedge block;

the first guide rods are connected between the two second slide rails and the second wedge-shaped blocks and are connected with the second slide rails in a sliding manner;

the two first guide rods are wound with the first springs, the inner sides of the first springs are connected with the first slide rail, and the outer sides of the first springs are connected with the first wedge-shaped block;

and the two third pressing blocks are provided with third wedge blocks which are matched with the second wedge blocks.

As a further preferable embodiment, the method further comprises:

the first support frame is provided with a cleaning mechanism;

clean the mechanism including:

the connecting rod is provided with a fourth wedge block;

the third slide rail is connected between the two second pressing blocks and the inner side of the first support frame, and the third slide rail on the upper side is connected with the first slide rail;

the inner sides of the third sliding rails on the upper side and the lower side of the fifth wedge-shaped block are both sliding type fifth wedge-shaped blocks, and the fifth wedge-shaped blocks are matched with the fourth wedge-shaped blocks;

the third springs are connected between the two fifth wedge-shaped blocks and the third slide rail;

the fifth wedge-shaped blocks on the upper side and the lower side of the second guide rod are provided with second guide rods;

the second guide rods on the upper side and the lower side of the shifting block are connected with the shifting block in a sliding mode;

and the two second guide rods are wound with fourth springs, one side of each fourth spring is connected with the shifting block, and the other side of each fourth spring is connected with the corresponding second guide rod.

As a further preferable embodiment, the method further comprises:

the collecting mechanism is arranged on the inner side of the base;

the collection mechanism comprises:

the inner side of the base is provided with two sliding blocks in a sliding manner;

the collecting frame is connected between the two sliding blocks, the bottom of the collecting frame is in contact with the ground, and the collecting frame is positioned below the second pressing block and the third pressing block;

the handle is arranged on the collecting frame.

As a further preferable embodiment, the method further comprises:

the screening mechanism is arranged on the collecting frame and is connected with the second guide rod on the lower side;

screening mechanism including:

the inner side of the collecting frame is provided with the leaking net in a sliding way;

the second guide rod on the lower side of the sixth wedge block is provided with the sixth wedge block;

the leakage net is provided with a seventh wedge-shaped block, and the sixth wedge-shaped block is matched with the seventh wedge-shaped block;

and a fifth spring is connected between the strainer and the collecting frame.

As a further preferred option, the material of the collecting frame is an alloy.

The invention has the following advantages:

1. according to the invention, the connecting rod slides back and forth repeatedly on the inner side of the second support frame through the operation of the cylinder, so that the first pressing block moves back and forth repeatedly, when the first pressing block moves forward to be in contact with the mold, people enable the positioning mechanism to clamp the mold, and then the first pressing block moves forward continuously to bend the mold, so that the button falls off from the mold, and the effect of automatic demolding is achieved, and the operation is simple and convenient.

2. According to the automatic screening device, the sixth wedge block is moved to be in contact with the seventh wedge block and then is matched with the seventh wedge block, so that the screen is enabled to slide downwards in the collection frame, the fifth spring is changed into a compressed state from an initial state, when the sixth wedge block is moved to be not matched with the seventh wedge block, the fifth spring is gradually reset from the compressed state, the elastic force enables the screen to move upwards and back to the original position, the screen moves up and down to enable the buttons to shake, the automatic screening effect is achieved, and time and labor are saved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 3 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 4 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 5 is an enlarged partial perspective view of fig. a of the present invention.

Fig. 6 is a schematic perspective view of the cleaning mechanism of the present invention.

Fig. 7 is a schematic perspective view of the collecting mechanism of the present invention.

Fig. 8 is a schematic perspective view of the screening mechanism of the present invention.

Number designation in the figures: 1-a base, 2-a first support frame, 3-an air cylinder, 4-an extrusion mechanism, 41-a second support frame, 42-a connecting rod, 43-a first pressing block, 5-a positioning mechanism, 51-a second pressing block, 52-a third pressing block, 53-a first spring, 6-a clamping mechanism, 61-a first slide rail, 62-a first wedge-shaped block, 63-a second slide rail, 64-a second wedge-shaped block, 65-a first guide rod, 66-a second spring, 67-a third wedge-shaped block, 7-a cleaning mechanism, 71-a fourth wedge-shaped block, 72-a third slide rail, 73-a fifth wedge-shaped block, 731-a third spring, 74-a second guide rod, 75-a shifting block, 76-a fourth spring, 8-a collecting mechanism and 81-a sliding block, 82-a collection frame, 83-a handle, 9-a screening mechanism, 91-a leakage net, 92-a sixth wedge-shaped block, 93-a seventh wedge-shaped block and 94-a fifth spring.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

The utility model provides a button is electroplated back batch shedder, as shown in figure 1, figure 2, figure 3, figure 4, figure 6 and figure 7, including base 1, first support frame 2, cylinder 3, extrusion mechanism 4 and positioning mechanism 5, be equipped with a plurality of first support frames 2 on the

base

1, 2 upper portions of first support frame of rear side are equipped with cylinder 3, be equipped with extrusion mechanism 4 on the first support frame 2 at middle part, extrusion mechanism 4 is connected with cylinder 3, be equipped with positioning mechanism 5 on the first support frame 2 of front side, positioning mechanism 5 and extrusion mechanism 4 cooperation.

The manual demoulding operation is complex, time and labor are wasted, the efficiency is low, the device can realize automatic demoulding, the operation is simple, time and labor are saved, and the demoulding efficiency can be improved, firstly, people put a mould into a positioning mechanism 5, the positioning mechanism 5 operates and clamps the mould, then people operate an extruding mechanism 4, simultaneously, the positioning mechanism 5 clamps the mould, the extruding mechanism 4 bends the mould, so that buttons fall off from the mould, the fallen buttons fall onto the ground due to gravity, after all the buttons on the mould fall off, people release the positioning mechanism 5, the positioning mechanism 5 returns to the original position, then the mould is taken out from the positioning mechanism 5, if people need to demould the buttons, the mould can be continuously put into the positioning mechanism 5, if the demoulding operation of the buttons is finished, the extruding mechanism 4 can stop operating, after the extruding mechanism 4 returns to the original position, the buttons on the ground are collected, if the equipment is used again, the steps are repeated.

Example 2

On the basis of embodiment 1, as shown in fig. 2, 3, 4 and 6, the extruding mechanism 4 includes a second supporting frame 41, a connecting rod 42 and a first pressing block 43, the second supporting frame 41 is connected between the two first supporting frames 2 in the middle, the connecting rod 42 is slidably disposed inside the second supporting frame 41, the connecting rod 42 passes through the second supporting frame 41, the rear side of the connecting rod 42 is connected with the cylinder 3, and the front side of the connecting rod 42 is provided with the first pressing block 43.

People put the mould in the positioning mechanism 5, the positioning mechanism 5 operates and clamps the mould, then people open the cylinder 3, the cylinder 3 operates to enable the connecting rod 42 to repeatedly slide back and forth on the inner side of the second supporting frame 41, so that the first pressing block 43 repeatedly moves back and forth, when the first pressing block 43 moves forward to be in contact with the mould, people enable the positioning mechanism 5 to clamp the mould, then the first pressing block 43 continuously moves forward and bends the mould, so that the buttons fall off from the mould, the fallen buttons fall to the ground due to gravity, after all the buttons on the mould fall off, people release the positioning mechanism 5, the positioning mechanism 5 returns to the original position, then the mould is taken out from the positioning mechanism 5, if people still need to perform button demoulding, the mould can be continuously put in the positioning mechanism 5, if the button demoulding work is completed, the cylinder 3 can be closed, after the first pressing block 43 returns to the original position, and (4) collecting buttons on the ground, and repeating the steps if the equipment is used again.

The positioning mechanism 5 comprises a second pressing block 51, a third pressing block 52 and a first spring 53, the upper portion of the inner side of the first support frame 2 on the front side is provided with the second pressing block 51, the two second pressing blocks 51 are symmetrical, the upper side and the lower side of the front portion of the second pressing block 51 are connected with the third pressing block 52 in a sliding mode, the upper side and the lower side of the front portion of the second pressing block 51 are respectively wound with the first spring 53, the rear side of the first spring 53 is connected with the third pressing block 52, and the front side of the first spring 53 is connected with the second pressing block 51.

People insert a die between the second pressing block 51 and the third pressing block 52, the die enables the third pressing block 52 to move forwards on the second pressing block 51, the first spring 53 is changed from an initial state to a compressed state, the die is clamped, then people open the cylinder 3, the cylinder 3 operates to enable the first pressing block 43 to move back and forth repeatedly, when the first pressing block 43 moves forwards to be in contact with the die, people push the third pressing block 52 backwards, the first spring 53 is still in the compressed state, due to the material of the die, the third pressing block 52 is matched with the second pressing block 51 to enable two sides of the die to be extruded, so that the die is clamped, then the first pressing block 43 continuously moves forwards and bends the die, so that buttons fall off from the die, the fallen buttons fall onto the ground due to gravity, after all buttons on the die fall off, people loosen the third pressing block 52, and the first spring 53 is still in the compressed state, the third pressing block 52 is moved forwards by the elastic force, people take the die out of the space between the second pressing block 51 and the third pressing block 52, the die restores to the original shape, the first spring 53 is reset from the compressed state, the third pressing block 52 is moved backwards to the original position by the elastic force, if people need to perform button demoulding, the die can be continuously put into the space between the second pressing block 51 and the third pressing block 52, if the button demoulding operation is completed, the cylinder 3 can be closed, after the first pressing block 43 is moved back to the original position, buttons on the ground are collected, and if the equipment is used again, the steps are repeated.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 4, 5, 6, 7 and 8, the clamping device 6 is further included, the clamping device 6 is disposed on the first support frame 2 at the front side, the clamping device 6 is connected with the first pressing block 43 and the third pressing block 52, the clamping device 6 includes a first slide rail 61, a first wedge block 62, a second slide rail 63, a second wedge block 64, a first guide rod 65, a second spring 66 and a third wedge block 67, the top side of the first support frame 2 at the front side is provided with the first slide rail 61, the inner side of the first slide rail 61 is connected with the rear side of the first pressing block 43 by the first wedge block 62, the first wedge block 62 passes through the first slide rail 61, the first slide rail 62 is slidably connected with the first slide rail 61, the front side of the two first slide rails 61 is provided with the second slide rail 63, the inner side of the two second slide rails 63 is slidably provided with the second wedge block 64, the second wedge block 64 is matched with the first wedge block 62, a first guide rod 65 is connected between the inner side of the front part of the second slide rail 63 and the second wedge-shaped block 64, the first guide rod 65 penetrates through the front part of the second slide rail 63, the first guide rod 65 is connected with the second slide rail 63 in a sliding manner, a second spring 66 is wound on the first guide rod 65, the inner side of the second spring 66 is connected with the second slide rail 63, the outer side of the second spring 66 is connected with the second wedge-shaped block 64, the middle parts of the front sides of the two third pressing blocks 52 are provided with third wedge-shaped blocks 67, and the third wedge-shaped blocks 67 are matched with the second wedge-shaped block 64.

The mold is inserted between the second pressing block 51 and the third pressing block 52, the mold enables the third pressing block 52 to move forwards on the second pressing block 51, the third pressing block 52 moves to drive the third wedge block 67 to move forwards, the first spring 53 is changed from an initial state into a compressed state, the third pressing block 52 and the second pressing block 51 clamp the mold through elasticity, when the first pressing block 43 moves forwards, the first pressing block 43 enables the first wedge block 62 to slide forwards in the first slide rail 61, when the first wedge block 62 moves to be matched with the second wedge block 64, the first wedge block 62 applies pressure to the second wedge block 64, so that the second wedge block 64 slides inwards in the second slide rail 63, the second wedge block 64 moves to enable the first guide rod 65 to slide inwards in the second slide rail 63, the second spring 66 is changed from the initial state into the compressed state, when the second wedge block 64 moves to be matched with the third wedge block 67, the second wedge-shaped block 64 applies pressure to the third wedge-shaped block 67, so that the third wedge-shaped block 67 moves backwards, the third wedge-shaped block 67 moves to enable the third pressing block 52 to move backwards, at the moment, the first spring 53 is still in a compressed state, due to the material of the mold, the third pressing block 52 is matched with the second pressing block 51 to enable two sides of the mold to be pressed, so that the mold is clamped, the first pressing block 43 enables the mold to be bent, so that the buttons fall off from the mold, the fallen buttons fall onto the ground due to gravity, when the first pressing block 43 moves backwards, the first wedge-shaped block 62 moves backwards to the original position, the pressure acting on the second wedge-shaped block 64 disappears, the second spring 66 is reset from the compressed state, the elastic force enables the second wedge-shaped block 64 to move outwards to the original position, so that the first guide rod 65 moves backwards to the original position, at the moment, the pressure acting on the third wedge-shaped block 67 disappears, the first spring 53 is still, the third pressing block 52 is moved forwards by the elastic force, so that the third wedge-shaped block 67 is moved forwards, then people take out the die from the position between the second pressing block 51 and the third pressing block 52, the die recovers the original shape, the first spring 53 is reset from the compressed state, the third pressing block 52 is moved backwards and back to the original position by the elastic force, if people need to perform button demoulding, the die can be continuously put between the second pressing block 51 and the third pressing block 52, if the button demoulding operation is completed, the air cylinder 3 can be closed, after the first pressing block 43 is moved back to the original position, buttons on the ground are collected, and if the equipment is used again, the steps are repeated.

The cleaning device also comprises a cleaning mechanism 7, the cleaning mechanism 7 is arranged on the first support frame 2 in the middle, the cleaning mechanism 7 comprises a fourth wedge-shaped block 71, a third slide rail 72, a fifth wedge-shaped block 73, a third spring 731, a second guide rod 74, a shifting block 75 and a fourth spring 76, the fourth wedge-shaped block 71 is arranged at the rear part of the connecting rod 42, the third slide rail 72 is connected between the second press block 51 on the left side and the right side of the second press block 51 on the left side and the two first support frames 2 in the middle, the third slide rail 72 on the upper side is connected with the top of the first slide rail 61, the fifth wedge-shaped blocks 73 are all slidably arranged on the inner sides of the third slide rails 72 on the upper and lower sides, the fifth wedge-shaped block 73 is matched with the fourth wedge-shaped block 71, the third spring 731 is connected between the left side of the fifth wedge-shaped block 73 and the third slide rail 72, the second guide rods 74 are respectively arranged on the upper and lower sides, the, the rear side of the shifting block 75 is contacted with the front side of the left third pressing block 52, the front part of the second guide rod 74 is wound with a fourth spring 76, the rear side of the fourth spring 76 is connected with the shifting block 75, and the front side of the fourth spring 76 is connected with the second guide rod 74.

When the connecting rod 42 moves forwards, the connecting rod 42 moves to drive the fourth wedge-shaped block 71 to move forwards, when the fourth wedge-shaped block 71 moves to be matched with the fifth wedge-shaped block 73, the fourth wedge-shaped block 71 applies pressure to the fifth wedge-shaped block 73, so that the fifth wedge-shaped block 73 slides rightwards in the third slide rail 72, the third spring 731 is changed into a stretching state from an initial state, meanwhile, the fifth wedge-shaped block 73 moves to drive the second guide rod 74 to move rightwards, the second guide rods 74 on the upper side and the lower side move to drive the shifting block 75 and the fourth spring 76 to move rightwards, after the shifting block 75 moves to be in contact with the mold, the shifting block 75 cleans the mold, so that more buttons fall off from the mold, when the shifting block 75 moves from the left part of the front side of the mold to the middle part of the front side, because the mold is in a bending state at the moment, the shifting block 75 slides forwards on the second guide rod 74, and the fourth spring 76 is changed into a, when the shifting block 75 moves from the middle part of the front side of the mold to leave the mold, the fourth spring 76 is gradually reset from the compressed state, the elastic force enables the shifting block 75 to gradually move back to the original position, when the connecting rod 42 moves backwards, the connecting rod 42 moves to enable the fourth wedge-shaped block 71 to move back to the original position, at the moment, the pressure acting on the fifth wedge-shaped block 73 disappears, the third spring 731 is reset from the stretched state, the elastic force enables the fifth wedge-shaped block 73 to move back to the original position leftwards, so that the second guide rod 74 moves back to the original position, the second guide rod 74 moves to drive the shifting block 75 and the fourth spring 76 to move leftwards, after the shifting block 75 moves to contact with the mold again, the shifting block 75 cleans the mold again, when the shifting block 75 moves from the right part of the front side of the mold to the middle part of the front side, because the mold is in the bent state, the shifting block 75 slides forwards on the second guide rod 74, and the, when the shifting block 75 moves from the middle of the front side of the mold to leave the mold, the fourth spring 76 is gradually reset from the compressed state, the elastic force enables the shifting block 75 to gradually move back to the original position, and if the device is used again, the steps are repeated.

Still including collecting mechanism 8, base 1 front portion inboard is equipped with collects mechanism 8, collects mechanism 8 including slider 81, collection frame 82 and handle 83, and the equal slidingtype in the anterior left and right sides of base 1 inboard is equipped with slider 81, is connected with between the slider 81 of the left and right sides and collects frame 82, collects frame 82 bottom and ground contact, collects frame 82 and is located second briquetting 51 and third briquetting 52 below, collects frame 82 front side and is equipped with handle 83.

After the buttons fall off from the mold, the buttons fall into the collecting frame 82 due to gravity, after the demolding operation of the buttons is completed, people pull the handle 83 forwards, the handle 83 moves to enable the collecting frame 82 to slide forwards on the ground, the collecting frame 82 moves to enable the sliding block 81 to slide forwards in the base 1, then people take out the buttons in the collecting frame 82 and push the handle 83 backwards, so that the collecting frame 82 moves back to the original position, the collecting frame 82 moves to enable the sliding block 81 to move back to the original position, and if the device is used again, the steps are repeated.

Still including screening mechanism 9, be equipped with screening mechanism 9 on the collection frame 82, screening mechanism 9 is connected with the second guide bar 74 of downside, screening mechanism 9 is including leaking net 91, sixth wedge 92, seventh wedge 93 and fifth spring 94, it is equipped with leaks net 91 to collect the inboard slidingtype of frame 82, second guide bar 74 rear portion of downside is equipped with sixth wedge 92, leak net 91 top rear side middle part and be equipped with seventh wedge 93, sixth wedge 92 and the cooperation of seventh wedge 93, be connected with fifth spring 94 between leaking net 91 bottom rear side middle part and the collection frame 82.

The buttons dropped from the mold fall to the grid 91 due to gravity, and a part of small buttons fall to the bottom side in the collection frame 82 through the grid 91 due to gravity, when the second guide rods 74 on the upper and lower sides move rightwards, the second guide rods 74 on the lower side move to drive the sixth wedge block 92 to move rightwards, the sixth wedge block 92 moves rightwards to contact with the seventh wedge, when the sixth wedge block 92 moves from the left part of the top side to the middle part of the top side of the seventh wedge block 93, the sixth wedge block 92 is matched with the seventh wedge block 93, the sixth wedge block 92 applies pressure to the seventh wedge block 93, so that the seventh wedge block 93 moves downwards, the seventh wedge block 93 moves to enable the grid 91 to slide downwards in the collection frame 82, the fifth spring 94 is changed from the initial state to the compressed state, and when the sixth wedge block 92 moves from the middle part of the top side of the seventh wedge block 93 to be separated from the compressed state, the fifth spring 94 is gradually reset from the compressed state, when the second guide rods 74 on the upper and lower sides move back to the left, the second guide rods 74 on the lower side move to move the sixth wedge block 92 back to the left, and the sixth wedge block 92 moves left to contact with the seventh wedge block 93, after the sixth wedge block 92 moves from the top right portion to the top middle portion of the seventh wedge block 93, the sixth wedge block 92 is matched with the seventh wedge block 93, the sixth wedge block 92 applies pressure to the seventh wedge block 93, so that the seventh wedge block 93 moves downward, the seventh wedge block 93 moves to slide the drain net 91 downward in the collection frame 82, the fifth spring 94 changes from the initial state to the compressed state, when the sixth wedge block 92 moves from the top middle portion to the top middle portion of the seventh wedge block 93, the fifth spring 94 gradually returns from the compressed state, and the elastic force moves the drain net 91 back to the upward position, so that the seventh wedge-shaped block 93 moves back to the original position upwards, the screen 91 slides up and down in the collecting frame 82, so that the buttons on the screen 91 shake, the rest small buttons on the screen 91 fall to the bottom side in the collecting frame 82 due to gravity, and if the device is used again, the steps are repeated.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a button is electroplated back batch shedder, characterized by, including:

the base (1) is provided with a plurality of first supporting frames (2);

the air cylinder (3) is arranged at the upper part of the first support frame (2) at the rear side;

the extrusion mechanism (4) is arranged on the first support frame (2) in the middle of the extrusion mechanism (4), and the extrusion mechanism (4) is connected with the cylinder (3);

the positioning mechanism (5) is arranged on the first support frame (2) on the front side, and the positioning mechanism (5) is matched with the extrusion mechanism (4).

2. A device for the post-galvanising batch release of buttons according to claim 1, characterised in that the pressing means (4) comprise:

a second support frame (41), wherein the second support frame (41) is arranged between the two first support frames (2) in the middle part;

the connecting rod (42) is arranged on the inner side of the second supporting frame (41) in a sliding mode, the connecting rod (42) penetrates through the second supporting frame (41), and the connecting rod (42) is connected with the air cylinder (3);

the first pressing block (43) is arranged on the connecting rod (42).

3. A device for the batch demoulding of electroplated buttons according to claim 2, characterized in that said positioning means (5) comprise:

the first support frame (2) on the front side is provided with a first pressing block (51), and the two first pressing blocks (51) are symmetrical;

the third pressing blocks (52) are arranged on the two second pressing blocks (51) in a sliding manner;

two first springs (53) are wound on the two second pressing blocks (51), one side of each first spring (53) is connected with the third pressing block (52), and the other side of each first spring (53) is connected with the second pressing block (51).

4. A batch stripper apparatus after button plating as defined in claim 3 further comprising:

the clamping mechanism (6) is arranged on the first support frame (2) on the front side, and the clamping mechanism (6) is connected with the first pressing block (43) and the third pressing block (52);

the clamping mechanism (6) comprises:

the first sliding rails (61) are arranged on the first support frames (2) on the front side;

the first wedge-shaped block (62) is connected between the inner sides of the two first slide rails (61) and the first pressing block (43), the first wedge-shaped block (62) penetrates through the first slide rails (61), and the first wedge-shaped block (62) is connected with the first slide rails (61) in a sliding mode;

the two first sliding rails (61) are respectively provided with a second sliding rail (63);

the inner sides of the two second sliding rails (63) are both provided with a second wedge-shaped block (64) in a sliding manner, and the second wedge-shaped block (64) is matched with the first wedge-shaped block (62);

the first guide rods (65) are connected between the two second slide rails (63) and the second wedge-shaped block (64), and the first guide rods (65) are connected with the second slide rails (63) in a sliding manner;

the two first guide rods (65) are wound with second springs (66), the inner sides of the second springs (66) are connected with the second slide rails (63), and the outer sides of the second springs (66) are connected with second wedge-shaped blocks (64);

and the third wedge blocks (67) are arranged on the two third pressing blocks (52), and the third wedge blocks (67) are matched with the second wedge blocks (64).

5. The device for batch demoulding after electroplating of buttons according to claim 4, further comprising:

the cleaning mechanism (7) is arranged on the first support frame (2);

the cleaning mechanism (7) comprises:

the connecting rod (42) is provided with a fourth wedge-shaped block (71);

the third sliding rail (72) is connected between the two second pressing blocks (51) and the inner side of the first support frame (2), and the third sliding rail (72) on the upper side is connected with the first sliding rail (61);

the inner sides of the third slide rails (72) on the upper side and the lower side of the fifth wedge-shaped block (73) are provided with the fifth wedge-shaped block (73) in a sliding mode, and the fifth wedge-shaped block (73) is matched with the fourth wedge-shaped block (71);

the third springs (731) are connected between the two fifth wedge-shaped blocks (73) and the third slide rail (72);

the fifth wedge-shaped blocks (73) on the upper side and the lower side of the second guide rod (74) are provided with the second guide rod (74);

the shifting block (75) is connected with the second guide rods (74) on the upper side and the lower side in a sliding way;

and the two second guide rods (74) are wound with the fourth springs (76), one side of each fourth spring (76) is connected with the shifting block (75), and the other side of each fourth spring (76) is connected with the second guide rod (74).

6. The device for batch demoulding after electroplating of buttons according to claim 5, further comprising:

the collecting mechanism (8) is arranged on the inner side of the base (1);

the collecting mechanism (8) comprises:

the inner side of the base (1) is provided with two sliding blocks (81) in a sliding way;

the collecting frame (82) is connected between the two sliding blocks (81), the bottom of the collecting frame (82) is in contact with the ground, and the collecting frame (82) is positioned below the second pressing block (51) and the third pressing block (52);

the handle (83) is arranged on the collecting frame (82).

7. The device for batch demoulding after electroplating of buttons according to claim 6, further comprising:

the screening mechanism (9) is arranged on the collecting frame (82), and the screening mechanism (9) is connected with the second guide rod (74) on the lower side;

the screening mechanism (9) comprises:

the inner side of the collecting frame (82) is provided with the leakage net (91) in a sliding way;

a sixth wedge block (92), wherein the second guide rod (74) at the lower side is provided with the sixth wedge block (92);

the leakage net (91) is provided with a seventh wedge-shaped block (93), and the sixth wedge-shaped block (92) is matched with the seventh wedge-shaped block (93);

and a fifth spring (94), wherein the fifth spring (94) is connected between the strainer (91) and the collecting frame (82).

8. A post-galvanising batch release device for buttons according to claim 7, characterized in that the material of the collection frame (82) is an alloy.