CN219380865U - Button puncher - Google Patents

Abstract

The button puncher comprises a frame body, a drilling pedestal, and a collecting piece, wherein the collecting piece is used for arranging buttons to be processed in a stacking manner; the guide piece is used for receiving the buttons to be processed, which are separated from the aggregate piece from the blanking outlet, and providing a placement channel which is arranged along the length direction of the guide piece and is used for placing the buttons to be processed, wherein the placement channel is provided with a punching position for placing the buttons to be processed at the position corresponding to the drilling pedestal; the pushing piece is used for pushing the buttons to be processed to the punching position, pushing a plurality of buttons to be processed at one time, sequentially arranging the buttons to be processed on the placing channel as preparation, and allowing the buttons to be restored to an initial state through reciprocating motion after pushing is completed; and the discharging piece is used for separating the machined button from the punching hole. According to the button feeding device, button feeding is performed in a pushing mode, and a plurality of buttons to be processed can be pushed by one-time feeding, so that the time for pushing the buttons once can be reduced, and the processing efficiency is improved.

Description

Button puncher

Technical Field

The utility model relates to the technical field of button processing, in particular to a button puncher.

Background

The button has high use value and ornamental value, and is popular with people. During the production and processing process, the button needs to be perforated by a perforating machine so as to be threaded when acting on the clothes.

The button puncher comprises the steps of feeding, feeding buttons to be processed into punching positions, and punching by a bench drill. At present, the current button puncher adopts vibration dish vibration to send into the track with placing the button in the vibration dish first, and the inertia that produces by orbital slope again makes the button come to beat hole site department, and publication number CN205704442U discloses an automatic perforating device of button, including the frame, is equipped with vibrating button feeding tray and receiving box in the frame, and the ejection of compact through-hole has been seted up to the both sides on the top of the blown down tank of button feeding tray, and … … punching bedplate's below is equipped with the conveyer belt. The automatic button punching device adopts the vibration disc and the track to realize feeding, but the feeding mode has certain defects, is mainly reflected on the vibration effect generated by the vibration disc, and can lead to the situation that the buttons are orderly arranged along the track of the track after entering the track, and belong to light objects, jump occurs when the buttons are affected by vibration, and partial buttons can climb to the upper parts of adjacent buttons from the original placement position along with the inertia of the inclined track and move to the punching position under the inertia, and are stacked with the buttons at the position, so that at least two problems are caused to occur to the buttons, the stacked state is not necessarily the reasonable stacked state, then the buttons in the upper parts can be punched after being pushed to the punching position by the pushing structure, the situation that one button cannot be normally completed during punching, or one button is scrapped can be caused, and a plurality of buttons can be scrapped during batch processing.

Disclosure of Invention

The present utility model is to solve the above-mentioned drawbacks of the prior art, and provides a button puncher for solving the above-mentioned problems.

The utility model solves the technical problems by adopting the technical scheme that: the button puncher comprises a frame body, a drilling pedestal and also comprises

The collecting piece is used for arranging buttons to be processed in a stacking mode and is provided with an upper feed inlet and a lower discharge outlet;

the guide piece is used for receiving the buttons to be processed, which are separated from the aggregate piece from the blanking outlet, and providing a placement channel which is arranged along the length direction of the guide piece and is used for placing the buttons to be processed, wherein a punching position for placing the buttons to be processed is arranged at the position corresponding to the drilling pedestal of the placement channel, and two vacuum generators which restrict the buttons to be processed after entering are arranged in the punching position;

the pushing piece is used for pushing the buttons to be processed to the punching position, pushing a plurality of buttons to be processed at one time, sequentially arranging the buttons to be processed on the placing channel as preparation, and allowing the buttons to be restored to an initial state through reciprocating motion after pushing is completed;

and the discharging piece is used for separating the machined button from the punching hole.

Further perfecting, the collecting piece comprises a main body in a tubular configuration and connecting bodies which are symmetrically distributed on two sides of the central line of the main body and are fixed on the outer peripheral surface of the collecting piece and are perpendicular to the extending direction of the main body, and the connecting bodies are positioned at the lower discharge hole and are fixed on the guide piece to serve as a connecting structure for fixedly connecting the collecting piece.

Further perfecting, the guide piece is provided with two guide pieces and is symmetrically distributed on two sides of the central line of the main body, and comprises a button guide body and a plurality of support columns fixed at the bottom of the button guide body, wherein the inner side surface of the button guide body is of a step structure, and a placement channel matched with the appearance of a button to be processed is formed by the step structure of the other button guide body.

Further perfecting, a slot perpendicular to the moving direction of the button to be processed is arranged on one button guide body, and a clamping plate moves in the slot.

Further perfecting, a preset interval is arranged between the two guide members, and the pushing member is arranged in the placing channel through the preset interval and is positioned on the moving path of the button to be processed.

Further perfects, and the propelling movement piece includes slide rail, slider, drive unit, a plurality of units of stirring, and the slide rail is fixed at the support body and is extended along the length direction of button direction body, and the slider slides in the slide rail, stirs the unit and fixes at the slider top surface and along the length direction equidistance distribution of slider, all runs through on slide rail, the support body and is provided with logical groove, and drive unit passes logical groove and fixes in the slider bottom.

Further perfecting, stir the unit and include first driving lever, two first connecting lugs, first connecting lugs are fixed at the slider top and set up first shaft member and make first driving lever rotate as the pivot.

Further perfecting, a ratchet wheel is arranged on the first shaft piece, and a ratchet wheel groove for placing the ratchet wheel is formed in one side, close to the ratchet wheel, of the first deflector rod.

Further perfects, drive unit includes first swing arm, second swing arm, fixed block, first motor, two second engaging lugs, and the second engaging lug is fixed in the slider bottom and sets up the second shaft spare and make first swing arm rotate as the pivot, and first swing arm rotates with the second swing arm to be connected, and the fixed block is fixed in the support body bottom and sets up the third shaft spare and make the second swing arm rotate as the pivot, and first motor passes through belt pulley mechanism drive third shaft spare and rotates.

Further perfects, and the ejection of compact piece includes fixed plate, second driving lever and second motor, and the fixed plate is fixed at the support body to be provided with fourth shaft member and rotate as pivot second driving lever, the second motor is installed at the fixed plate and is connected with fourth shaft member.

The beneficial effects of the utility model are as follows:

according to the button feeding device, button feeding is performed in a pushing mode, and a plurality of buttons to be processed can be pushed by one-time feeding, so that the time for pushing the buttons once can be reduced, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the present utility model in full section;

FIG. 3 is an enlarged partial schematic view of FIG. 2 in accordance with the present utility model;

FIG. 4 is a schematic view of a ratchet structure according to the present utility model;

fig. 5 is a schematic structural diagram of a side face of the present utility model.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

referring to the drawings: the button puncher comprises a frame body 1, a drilling pedestal 2 and also comprises

The collecting piece 3 is used for arranging buttons to be processed in a stacking mode and is provided with an upper feed inlet and a lower discharge outlet;

the guide piece 4 is used for receiving the buttons to be processed, which are separated from the aggregate piece 3 from the blanking outlet, and providing a placement channel 5 which is arranged along the length direction of the guide piece 4 and is used for placing the buttons to be processed, wherein the placement channel 5 is provided with a punching position 51 for placing the buttons to be processed at a position corresponding to the drilling pedestal 2, and two vacuum generators 6 which are used for restraining the buttons to be processed after entering are arranged in the punching position 51;

the pushing piece 7 is used for pushing the buttons to be processed to the punching position 51, pushing a plurality of buttons to be processed at one time, sequentially arranging the buttons to be processed on the placement channel 5 as preparation, and allowing the buttons to be restored to an initial state through reciprocating motion after pushing is completed;

and the discharging part 8 is used for separating the finished button from the punching hole 51.

The principle of the utility model is that a certain number of buttons to be processed are placed in the collecting piece 3, so that the buttons to be processed exist in a stacked mode, then the buttons to be processed which are placed in the placing channel 5 at first are pushed to the punching position 51 through the pushing piece 7, and a plurality of buttons to be processed can be pushed simultaneously as preparation in the pushing process by the pushing piece 7, so that the displacement distance of the buttons to be processed by single pushing can be reduced, the processing efficiency is improved, after the buttons to be processed fall into the punching position 51, the vacuum generator 6 is started, suction force is provided to enable the buttons to be processed to be restrained in the punching position 51, so that shaking does not occur in the punching stage, the yield is ensured, the vacuum generator 6 stops operating after punching is completed, and the finished buttons are separated from the punching position 51 by the discharging piece 8.

The collecting member 3 comprises a main body 31 in a tubular configuration, and connecting bodies 32 which are symmetrically distributed on two sides of the central line of the main body 31 and are fixed on the outer peripheral surface of the collecting member 3 and are perpendicular to the extending direction of the main body 31, wherein the connecting bodies 32 are positioned at a lower discharge hole and are fixed on the guide member 4 to serve as a connecting structure for fixedly connecting the collecting member 3. The tubular column 31 is used for adapting the shape and the configuration of the buttons to be processed, and has a length capable of meeting the stacking requirement, the connecting body 32 is fixed on the main body 31 in a welding mode, the bottoms of the connecting body 32 and the main body are at the same level and are both plane, so that the requirement that the main body 31 is fixed on the guide piece 4 can be met, and meanwhile, the interval distance between the bottom of the main body 31 and the placing channel 5 can be just set to be the distance of the buttons to be processed, so that the buttons to be processed at the position of the collecting piece 3 are always kept in the placing channel 5, the pushing piece 7 can push a plurality of buttons to be processed at one time conveniently, and the button processing order is also ensured.

The guiding piece 4 is provided with two guiding bodies 41 and a plurality of supporting columns 42 fixed at the bottom of the guiding bodies 41, and the guiding bodies 4 are symmetrically distributed on two sides of the center line of the main body 31, the inner side surface of the guiding body 41 is of a step structure, and the guiding bodies and the step structure of the other guiding body 41 form a placing channel 5 matched with the shape of the button to be processed. The button guide 41 has the structural shape that supplies the button of waiting to process to place, the support column 42 provides the lower part support to it, so that push piece 7's setting, step structure then makes place passageway 5 can provide the bottom support for waiting to process the button, can provide the lateral part support again, guarantee the stability of waiting to process the button when removing from this, because guide 4 has two, so the position 51 that punches also is two arc grooves that can satisfy waiting to process the button and place, and every arc groove sets up a vacuum generator 6, can enough guarantee the stability of placing of waiting to process the button like this, also can avoid the piece that produces to fall to in the vacuum generator 6 when drilling.

One of the button guide bodies 41 is provided with a slot 41-a perpendicular to the moving direction of the button to be processed, and a clamping plate 41-a1 moves in the slot 41-a. The arrangement is used for avoiding the push piece 7 from reversely moving to the buttons to be processed when in reciprocating motion (namely, the push is completed and the push piece is reset to the initial state), so that when the push piece 7 is reset to the initial state, the clamping plate 41-a1 moves under the driving of the air cylinder, and then the buttons to be processed are clamped in by the clamping groove 41-a11 formed in the clamping plate 41-a1, so that the buttons to be processed which are prepared are limited, and the defect that the buttons are light objects is overcome.

The preset distance 9 is arranged between the two guide members 4, and the pushing member 7 is arranged in the placing channel 5 through the preset distance 9 and is positioned on the moving path of the button to be processed. This gives the pusher 7 sufficient space to move and at the same time a path of movement for the button to be processed.

The pushing piece 7 comprises a sliding rail 71, a sliding block 72, a driving unit 73 and a plurality of stirring units 74, wherein the sliding rail 71 is fixed on the frame body 1 and extends along the length direction of the button guide body 41, the sliding block 72 slides on the sliding rail 71, the stirring units 74 are fixed on the top surface of the sliding block 72 and are distributed at equal intervals along the length direction of the sliding block 72, through grooves 10 are formed in the sliding rail 71 and the frame body 1 in a penetrating mode, and the driving unit 73 penetrates through the through grooves 10 and is fixed at the bottom of the sliding block 72. The pushing member 7 can move along the length direction of the guide member 4 through the sliding rail 71 and the sliding block 72, the driving unit 73 is used for realizing the reciprocating motion of the pushing member 7, namely, after pushing the button to be processed to the punching position 51, the pushing member 7 has the capability of recovering to an initial state, the stirring units 74 are used for directly contacting with the button to be processed, so that power for driving the button to move is generated, each stirring unit 74 corresponds to one button to be processed, namely, at least four stirring units, namely, the stirring units 74 are sequentially a first stirring unit, a second stirring unit, a third stirring unit and a fourth stirring unit, after the first stirring unit pushes the button to be processed to the punching position 51, the pushing unit is reset to one side of the button to be processed pushed by the second stirring unit, and the fourth stirring unit continuously pushes the button to be processed positioned below the collecting member 3, so that the pushing member 7 does not need to wait for completely to be retracted to the initial state, the drilling pedestal 2 is started, and the processing efficiency is improved.

The toggle unit 74 includes a first toggle lever 74-a, and two first coupling lugs 74-b, the first coupling lugs 74-b being fixed to the top of the slider 72 and providing the first shaft member 20 as a rotation shaft such that the first toggle lever 74-a rotates. This arrangement allows for the first toggle lever 74-a to change its state of use during the reset phase by utilizing the pivoting feature, thereby avoiding path interference of the button to be machined during its reset movement.

The first shaft member 20 is provided with a ratchet 201, and a ratchet groove 74-a1 in which the ratchet 201 is placed is formed in a side of the first shift lever 74-a adjacent to the ratchet 201. The ratchet 201 and the ratchet groove 74-a1 enable the shift lever 74-a to rotate only in one direction, and although the button is a light object, the driving force for driving the first shift lever 74-a to rotate cannot be generated in the pushing process, so that accidents are avoided by adopting the structure.

The driving unit 73 includes a first swing arm 73-a, a second swing arm 73-b, a fixing block 73-c, a first motor 73-d, two second connection lugs 73-e, the second connection lugs 73-e being fixed at the bottom of the slider 72 and provided with the second shaft member 30 as a rotation shaft so that the first swing arm 73-a rotates, the first swing arm 73-a being rotatably connected with the second swing arm 73-b, the fixing block 73-c being fixed at the bottom of the frame 1 and provided with the third shaft member 40 as a rotation shaft so that the second swing arm 73-b rotates, the first motor 73-d driving the third shaft member 40 to rotate through a pulley mechanism. Such a structural arrangement allows for reciprocation of the slider 72.

The discharging part 8 comprises a fixed plate 81, a second deflector rod 82 and a second motor 83, wherein the fixed plate 81 is fixed on the frame body 1, the fourth shaft part 50 is arranged to serve as a rotating shaft, the second deflector rod 82 rotates, and the second motor 83 is arranged on the fixed plate 81 and connected with the fourth shaft part 50. The second shift lever 82 is located below the punching hole 51 so as not to interfere with punching, is convenient to operate, and generates a shifting force by rotation so as to be rapidly separated from the punching hole 51.

While the utility model has been shown and described with reference to a preferred embodiment, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the utility model.

Claims (10)

1. The utility model provides a button puncher, includes support body (1), drilling pedestal (2), its characterized in that: and also comprises

The collecting piece (3) is used for arranging buttons to be processed in a stacking mode and is provided with an upper feed inlet and a lower discharge outlet;

the guide piece (4) is used for receiving the buttons to be processed, which are separated from the collecting piece (3) through the blanking outlet, and providing a placement channel (5) which is arranged along the length direction of the guide piece (4) and is used for placing the buttons to be processed, wherein the placement channel (5) is provided with a punching position (51) which is used for placing the buttons to be processed at a position corresponding to the drilling pedestal (2), and two vacuum generators (6) which are used for restraining the buttons to be processed after entering are arranged in the punching position (51);

the pushing piece (7) is used for pushing the buttons to be processed to the punching position (51), pushing a plurality of buttons to be processed at one time, sequentially arranging the buttons to be processed on the placing channel (5) as preparation, and allowing the buttons to be restored to an initial state through reciprocating motion after pushing is completed;

and the discharging piece (8) is used for separating the machined button from the punching position (51).

2. The button hole puncher of claim 1, wherein: the collecting piece (3) comprises a main body (31) in a tubular configuration, and connecting bodies (32) which are fixed on the outer circumferential surface of the collecting piece (3) and are positioned on two sides of the central line of the main body (31) and are symmetrically distributed and perpendicular to the extending direction of the main body (31), wherein the connecting bodies (32) are positioned at a lower discharge hole and are fixed on the guide piece (4) to serve as a connecting structure for fixedly connecting the collecting piece (3).

3. The button hole puncher of claim 2, wherein: the guide piece (4) is provided with two guide bodies (41) and a plurality of support columns (42) fixed at the bottom of the button guide bodies (41), the two guide pieces are symmetrically distributed on two sides of the center line of the main body (31), the inner side surface of each button guide body (41) is of a step structure, and the guide pieces and the step structure of the other button guide bodies (41) form the placement channel (5) matched with the shape of a button to be processed.

4. The button hole puncher of claim 3, wherein: one of the button guide bodies (41) is provided with a slot (41-a) perpendicular to the movement direction of the button to be processed, and a clamping plate (41-a 1) moves in the slot (41-a).

5. The button hole puncher of claim 4, wherein: a preset interval (9) is arranged between the two guide pieces (4), and the pushing piece (7) is arranged in the placing channel (5) through the preset interval (9) and is positioned on the moving path of the button to be processed.

6. The button hole puncher of claim 5, wherein: the pushing piece (7) comprises a sliding rail (71), a sliding block (72), a driving unit (73) and a plurality of stirring units (74), wherein the sliding rail (71) is fixed on the frame body (1) and extends along the length direction of the button guide body (41), the sliding block (72) slides on the sliding rail (71), the stirring units (74) are fixed on the top surface of the sliding block (72) and are distributed along the length direction of the sliding block (72) at equal intervals, through grooves (10) are formed in the sliding rail (71) and the frame body (1) in a penetrating mode, and the driving unit (73) penetrates through the through grooves (10) to be fixed at the bottom of the sliding block (72).

7. The button hole puncher of claim 6, wherein: the stirring unit (74) comprises a first stirring rod (74-a) and two first connecting lugs (74-b), wherein the first connecting lugs (74-b) are fixed at the top of the sliding block (72) and are provided with a first shaft piece (20) serving as a rotating shaft to enable the first stirring rod (74-a) to rotate.

8. The button hole puncher of claim 7, wherein: a ratchet wheel (201) is arranged on the first shaft piece (20), and a ratchet wheel groove (74-a 1) for placing the ratchet wheel (201) is formed in one side, close to the ratchet wheel (201), of the first deflector rod (74-a).

9. The button hole puncher of claim 6, wherein: the driving unit (73) comprises a first swing arm (73-a), a second swing arm (73-b), a fixed block (73-c), a first motor (73-d) and two second connecting lugs (73-e), wherein the second connecting lugs (73-e) are fixed at the bottom of the sliding block (72) and are provided with a second shaft member (30) serving as a rotating shaft to enable the first swing arm (73-a) to rotate, the first swing arm (73-a) is rotatably connected with the second swing arm (73-b), the fixed block (73-c) is fixed at the bottom of the frame body (1) and is provided with a third shaft member (40) serving as the rotating shaft to enable the second swing arm (73-b) to rotate, and the first motor (73-d) drives the third shaft member (40) to rotate through a belt pulley mechanism.

10. The button hole puncher of claim 1, wherein: the discharging part (8) comprises a fixed plate (81), a second deflector rod (82) and a second motor (83), wherein the fixed plate (81) is fixed on the frame body (1), a fourth shaft part (50) serving as a rotating shaft is arranged, the second deflector rod (82) rotates, and the second motor (83) is installed on the fixed plate (81) and connected with the fourth shaft part (50).