CN112590085A - Shedder is used in button production - Google Patents

Abstract

The invention relates to a demoulding device, in particular to a demoulding device for button production. The invention provides a demoulding device for button production, which is time-saving, labor-saving, efficient and rapid in demoulding. A shedder is used in button production, includes: the material receiving frame is arranged at the top of the base; the base is provided with a first mounting plate; the top of the base is provided with a clamping mechanism; pushing mechanism, first mounting panel top are equipped with pushing mechanism. According to the invention, the pushing mechanism is arranged and used for pushing the die to deform the die, and then the buttons can automatically fall off the die without being taken out by hands of operators one by one, so that the operation steps are reduced, and the effect of saving time is achieved; the extrusion block can be automatically pulled to two sides by the opening mechanism without manual pulling of operators, so that the labor intensity is reduced.

Description

Shedder is used in button production

Technical Field

The invention relates to a demoulding device, in particular to a demoulding device for button production.

Background

The preparation button of mill is batch production basically, pour into the mould that the preset is good with the button magma in, it waits for its cooling shaping to stew to cool it, make into the button of the size that people need, the button preparation process is comparatively simple, but will take off fashioned button from the mould and need artifical one by one take out it, relatively spend time, can not directly take out all buttons of pasting on the mould once only, artifical manual button efficiency of taking out is not high, can lead to the cost of labor height.

Therefore, the development of a demoulding device for button production, which is time-saving, labor-saving, efficient and rapid in demoulding, is urgently needed.

Disclosure of Invention

In order to overcome the defects that manual removal of buttons consumes time, is low in efficiency and can automatically take out the buttons from the mold rarely in the current market, the technical problem to be solved is as follows: the utility model provides a shedder is used in button production of labour saving and time saving, high-efficient quick drawing of patterns.

The technical scheme is as follows: a shedder is used in button production, includes:

the material receiving frame is arranged at the top of the base;

the base is provided with a first mounting plate;

the top of the base is provided with a clamping mechanism;

pushing mechanism, first mounting panel top are equipped with pushing mechanism.

More preferably, the clamping mechanism includes:

the base is provided with a first sliding sleeve;

the first sliding sleeve is provided with a first sliding rod in a sliding manner;

the clamping blocks are arranged on the three groups of first sliding rods;

and a first spring is connected between the first sliding rod and the first sliding sleeve.

More preferably, the pushing mechanism includes:

the top of the first mounting plate is provided with an air cylinder;

the telescopic rod of the air cylinder is provided with a push rod;

the extrusion block is arranged on the push rod.

More preferably, the device further comprises a vibration mechanism, wherein the vibration mechanism comprises:

the top of the base is provided with a hollow block;

the screening frame is arranged between the four hollow blocks in a sliding manner;

the screening frame is provided with a first bump;

the top of the base is provided with a slide rail;

the sliding rail is provided with a second lug in a sliding way, and the second lug is matched with the first lug;

the connecting rod is arranged on the second bump and connected with the push rod.

More preferably, the medical device further comprises a spreading mechanism, wherein the spreading mechanism comprises:

the top of the base is provided with a second sliding sleeve;

the upper part of the second sliding sleeve is provided with a first wedge block in a sliding manner, and a spring is connected between the first wedge block and the second sliding sleeve;

the bottom of the first wedge-shaped block is provided with a second mounting plate;

the lower part of the second mounting plate is rotatably provided with a second slide bar;

the second sliding rod is provided with a second wedge block;

a torsion spring is connected between the second sliding rod and the second mounting plate;

the hollow pipe is arranged on the second bump;

the top of the hollow pipe is provided with a third bump in a sliding manner;

and a second spring is connected between the third bump and the hollow tube.

More preferably, still including brushing material mechanism, brushing material mechanism includes:

the base is provided with a supporting rod;

the left support rod and the right support rod are provided with a third sliding sleeve in a sliding manner;

a third spring is connected between the third sliding sleeve and the support rod;

the hairbrush is rotatably arranged between the left third sliding sleeve and the right third sliding sleeve.

More preferably, the device further comprises a pulling mechanism, wherein the pulling mechanism comprises:

the L-shaped rod is arranged on the extrusion block;

the upper part of the support rod is provided with a bracket;

the bracket is provided with a rope winding wheel;

the pull rope is wound on the rope winding wheel and is connected with the hairbrush and the L rod.

More preferably, the bottom surface of the screening frame is a uniform porous plate for separating buttons with different sizes.

The invention has the beneficial effects that: 1. according to the invention, the pushing mechanism is arranged and used for pushing the die to deform the die, and then the buttons can automatically fall off the die without being taken out by hands of operators one by one, so that the operation steps are reduced, and the effect of saving time is achieved;

2. according to the invention, the vibration mechanism is arranged, so that the buttons with different sizes can be separated by the vibration mechanism, the buttons do not need to be manually selected, and the effect of automatically selecting the buttons with different sizes is achieved;

3. the extrusion block can be automatically pulled to two sides by the opening mechanism without manual pulling of an operator, so that the labor intensity is reduced;

4. according to the invention, the material brushing mechanism can be automatically pulled by the pulling mechanism through the arrangement of the pulling mechanism, and people do not need to manually pull the third sliding sleeve.

Drawings

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

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

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

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

Fig. 5 is a schematic perspective view of the distracting mechanism of the present invention.

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

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

Reference numerals: 1_ base, 2_ material-receiving frame, 3_ first mounting plate, 4_ clamping mechanism, 41_ first sliding sleeve, 42_ first sliding rod, 43_ clamping block, 44_ first spring, 5_ pushing mechanism, 51_ cylinder, 52_ pushing rod, 53_ extrusion block, 6_ vibration mechanism, 61_ hollow block, 62_ screening frame, 63_ first lug, 64_ sliding rail, 65_ second lug, 66_ connecting rod, 7_ spreading mechanism, 71_ second sliding sleeve, 72_ first wedge block, 73_ second mounting plate, 74_ second sliding rod, 75_ second wedge block, 76_ torsion spring, 77_ hollow tube, 78_ third lug, 79_ second spring, 8_ material-brushing mechanism, 81_ strut, 82_ third sliding sleeve, 83_ third spring, 84_ brush, 9_ pulling mechanism, 91_ L rod, 92_ pull rope, 93_ bracket, 94_ rope-winding wheel.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a shedder is used in button production, as shown in figure 1, including base 1, receipts material frame 2, first mounting panel 3, clamping mechanism 4 and pushing mechanism 5, base 1 top is equipped with receives material frame 2, and base 1 rear side is equipped with first mounting panel 3, and base 1 top is equipped with clamping mechanism 4, and 3 tops of first mounting panel are equipped with pushing mechanism 5.

People can use the button taking device to take out buttons on the die from the die, firstly, an operator fixes the die adhered with the buttons on the clamping mechanism 4, then the pushing mechanism 5 is started, the pushing mechanism 5 can push all the buttons on the die out of the die, then, the operator takes out the die with the taken buttons from the clamping mechanism 4, then, the pushing mechanism 5 is closed, the whole device stops running, the operator collects the taken buttons, and if the buttons need to be taken again, the operation is repeated.

Example 2

On the basis of the embodiment 1, as shown in fig. 2 and fig. 3, the clamping mechanism 4 includes a first sliding sleeve 41, first sliding rods 42, clamping blocks 43 and first springs 44, the first sliding sleeve 41 is symmetrically arranged on the top of the base 1, three sets of first sliding rods 42 are uniformly slidably arranged on each set of first sliding sleeve 41, the clamping blocks 43 are arranged on the three sets of first sliding rods 42, and the first springs 44 are connected between the first sliding rods 42 and the first sliding sleeve 41.

The clamping mechanism 4 is used for clamping the mold, firstly, an operator pushes the clamping blocks 43 on the two sides to the two sides, the first sliding rod 42 slides on the first sliding sleeve 41, so that the first spring 44 is stretched, then, the operator puts the mold in the middle of the clamping blocks 43, the operator releases the hand, and the first spring 44 is reset under the action of elastic force, so that the clamping blocks 43 clamp the mold.

The pushing mechanism 5 comprises an air cylinder 51, a pushing rod 52 and an extrusion block 53, the air cylinder 51 is arranged at the top of the first mounting plate 3, the pushing rod 52 is arranged on an expansion rod of the air cylinder 51, and the extrusion block 53 is arranged on the front side of the pushing rod 52.

Pushing mechanism 5 is used for promoting the mould, make the mould take place deformation, the button can be automatic later to drop from the mould, do not need operating personnel to take out the button with the hand one by one, reduce the operating procedure, the effect of saving time has been reached, operating personnel starts cylinder 51, can drive catch bar 52 back-and-forth movement after cylinder 51 starts, catch bar 52 back-and-forth movement drives extrusion block 53 extrusion die forward, make the mould take place deformation, the button that takes place on the mould of deformation later can drop from the mould, the button that takes place on the mould is whole to drop from the mould, close cylinder 51, whole device shut down.

Example 3

Based on embodiment 2, as shown in fig. 4, 5, 6 and 7, the vibration device 6 further includes a vibration mechanism 6, the vibration mechanism 6 includes a hollow block 61, a screening frame 62, first bumps 63, slide rails 64, second bumps 65 and connecting rods 66, the top of the base 1 is provided with four hollow blocks 61, the screening frame 62 is slidably disposed between the four hollow blocks 61, the screening frame 62 is symmetrically provided with four first bumps 63 on both sides, the top of the base 1 is provided with four slide rails 64, the slide rails 64 on both sides are slidably provided with the second bumps 65, the second bumps 65 are matched with the first bumps 63, the connecting rods 66 are disposed on the rear sides of the second bumps 65 on both sides, and the connecting rods 66 are connected with the pushing rods 52.

Vibrations mechanism 6 can make the button separation of equidimension not, need not the manual work to select the button, reach the effect of automatic selection equidimension button not, can drive catch bar 52 back-and-forth movement after cylinder 51 starts, and then make the connecting rod 66 back-and-forth movement of the left and right sides, connecting rod 66 drives second lug 65 back-and-forth movement, second lug 65 and the cooperation of first lug 63, and then make screening frame 62 reciprocate in hollow block 61, make the continuous up-and-down shake of screening frame 62, the in-process of the continuous up-and-down shake of screening frame 62 can make little button drop from the opening of screening frame 62, and then reach the effect of separating equidimension button.

Also comprises a spreading mechanism 7, the spreading mechanism 7 comprises a second sliding sleeve 71, a first wedge-shaped block 72, a second mounting plate 73 and a second sliding rod 74, the base comprises a second wedge-shaped block 75, a torsion spring 76, a hollow tube 77, a third bump 78 and a second spring 79, wherein the top of the base 1 is bilaterally symmetrically provided with a second sliding sleeve 71, the upper part of the second sliding sleeve 71 is slidably provided with a first wedge-shaped block 72, the spring is connected between the first wedge-shaped block 72 and the second sliding sleeve 71, the bottom of the first wedge-shaped block 72 is provided with a second mounting plate 73, the lower part of the second mounting plate 73 is rotatably provided with a second sliding rod 74, the second sliding rod 74 is provided with the second wedge-shaped block 75, the torsion spring 76 is connected between the second sliding rod 74 and the second mounting plate 73, the outer side of the second bump 65 is provided with the hollow tube 77, the top of the hollow tube 77 is slidably provided with the third bump 78.

The opening mechanism 7 can automatically pull the clamping block 43 to two sides without manual pulling by an operator, so that the labor intensity is reduced, the hollow tube 77 is driven to move back and forth in the process of moving the second bump 65 back and forth, the hollow tube 77 is in contact with the second wedge-shaped block 75 in the process of moving the hollow tube 77 forward, the second wedge-shaped block 75 rotates anticlockwise, then the hollow tube 77 is in contact with the second wedge-shaped block 75 in the process of moving the hollow tube 77 backward, the second wedge-shaped block 75 does not rotate, the third bump 78 pushes the second wedge-shaped block 75 upwards, the second wedge-shaped block 75 moves upwards, the first wedge-shaped block 72 and the second mounting plate 73 move upwards, the clamping block 43 moves towards two sides in the process of moving the first wedge-shaped block 72 upwards, then a module with a button taken out falls off, and when the third bump 78 is separated from the second wedge-shaped block 75, all parts will be reset.

Still including brushing material mechanism 8, brushing material mechanism 8 is equipped with branch 81, third sliding sleeve 82, third spring 83 and brush 84 including branch 81, third sliding sleeve 82, the bilateral symmetry in base 1 top, and about two spinal branch 81 go up the gliding style and be equipped with third sliding sleeve 82, be connected with third spring 83 between third sliding sleeve 82 and the branch 81, the rotary type is equipped with brush 84 between about two third sliding sleeves 82.

The material brushing mechanism 8 can assist the push rod 52 to brush down the buttons, people manually pull the third sliding sleeve 82 upwards, the third sliding sleeve 82 can move upwards on the supporting rod 81, the third spring 83 is stretched, then the brush 84 can brush down the buttons from the mold, then the operator releases the hands, the third spring 83 can reset under the action of elastic force, the third sliding sleeve 82 moves downwards, and the brush 84 moves downwards and resets.

The device further comprises a pulling mechanism 9, wherein the pulling mechanism 9 comprises an L rod 91, a pull rope 92, a support 93 and a rope winding wheel 94, the L rod 91 is symmetrically arranged on the upper portion of the rear side of the extrusion block 53 in the left-right direction, the support 93 is arranged on the upper portion of the support rod 81, the rope winding wheel 94 is arranged on the support 93, the pull rope 92 is wound on the rope winding wheel 94, and the pull rope 92 is connected with the brush 84 and the L rod 91.

The pulling mechanism 9 can realize automatically pulling the brushing mechanism 8, without manually pulling the third sliding sleeve 82 by people, when the extrusion block 53 moves forward, the third spring 83 can pull the third sliding sleeve 82 to move downward under the action of elastic force reset, so that the brush 84 moves downward, when the extrusion block 53 moves backward, the pull rope 92 can pull the brush 84 to move upward, the third sliding sleeve 82 can move upward on the supporting rod 81, and the third spring 83 can be stretched.

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 (8)

1. The utility model provides a shedder is used in button production which characterized in that includes:

the device comprises a base (1) and a material receiving frame (2), wherein the material receiving frame (2) is arranged at the top of the base (1);

the base (1) is provided with a first mounting plate (3);

the top of the base (1) is provided with a clamping mechanism (4);

the pushing mechanism (5) is arranged at the top of the first mounting plate (3).

2. Demoulding device for the production of buttons according to claim 1, wherein the clamping means (4) comprise:

the sliding device comprises a first sliding sleeve (41), wherein the base (1) is provided with the first sliding sleeve (41);

the first sliding rod (42) is arranged on the first sliding sleeve (41) in a sliding mode;

the clamping blocks (43) are arranged on the three groups of first sliding rods (42);

and a first spring (44), wherein the first spring (44) is connected between the first sliding rod (42) and the first sliding sleeve (41).

3. Demoulding device for the production of buttons according to claim 2, wherein the pushing mechanism (5) comprises:

the top of the first mounting plate (3) is provided with a cylinder (51);

a push rod (52), wherein the telescopic rod of the air cylinder (51) is provided with the push rod (52);

the extrusion block (53) is arranged on the push rod (52).

4. The demolding device for button production as claimed in claim 3, further comprising a vibration mechanism (6), wherein the vibration mechanism (6) comprises:

the top of the base (1) is provided with a hollow block (61);

the screening frame (62) is arranged between the four hollow blocks (61) in a sliding manner;

the screening frame (62) is provided with a first bump (63);

the top of the base (1) is provided with a slide rail (64);

the second bump (65) is arranged on the sliding rail (64) in a sliding manner, and the second bump (65) is matched with the first bump (63);

a connecting rod (66) is arranged on the second lug (65), and the connecting rod (66) is connected with the push rod (52).

5. The demolding device for button production according to claim 4, further comprising a spreading mechanism (7), wherein the spreading mechanism (7) comprises:

the top of the base (1) is provided with a second sliding sleeve (71);

the first wedge-shaped block (72) is arranged on the upper part of the second sliding sleeve (71) in a sliding mode, and a spring is connected between the first wedge-shaped block (72) and the second sliding sleeve (71);

the bottom of the first wedge-shaped block (72) is provided with a second mounting plate (73);

the lower part of the second mounting plate (73) is rotatably provided with a second sliding rod (74);

the second sliding rod (74) is provided with a second wedge block (75);

a torsion spring (76), wherein the torsion spring (76) is connected between the second sliding rod (74) and the second mounting plate (73);

the hollow pipe (77) is arranged on the second bump (65);

the top of the hollow pipe (77) is provided with a third bump (78) in a sliding way;

and a second spring (79) is connected between the third lug (78) and the hollow pipe (77).

6. The demolding device for button production according to claim 5, further comprising a brushing mechanism (8), wherein the brushing mechanism (8) comprises:

the supporting rod (81) is arranged on the base (1);

the third sliding sleeve (82) is arranged on the left support rod (81) and the right support rod (81) in a sliding mode;

a third spring (83), and the third spring (83) is connected between the third sliding sleeve (82) and the support rod (81);

the hair brush (84) is rotatably arranged between the left third sliding sleeve (82) and the right third sliding sleeve (84).

7. The demolding device for button production according to claim 6, further comprising a pulling mechanism (9), wherein the pulling mechanism (9) comprises:

the L-shaped rod (91) is arranged on the extrusion block (53);

the bracket (93) is arranged at the upper part of the supporting rod (81);

a rope winding wheel (94), wherein the bracket (93) is provided with the rope winding wheel (94);

a pull rope (92), a pull rope (92) is wound on the rope winding wheel (94), and the pull rope (92) is connected with the hairbrush (84) and the L rod (91).

8. A device for demoulding of the buttons produced according to claim 4, characterized in that the bottom surface of the screening frame (62) is a uniform porous plate for separating buttons of different sizes.

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