CN210527834U

CN210527834U - Cover plate feeding device of micro light touch switch

Info

Publication number: CN210527834U
Application number: CN201921550708.9U
Authority: CN
Inventors: 胡志敏; 盛黎明; 谢艾军
Original assignee: Shenzhen Gangyuan Micro Key Technology Co ltd
Current assignee: Shenzhen Gangyuan Micro Key Technology Co ltd
Priority date: 2019-09-17
Filing date: 2019-09-17
Publication date: 2020-05-15
Anticipated expiration: 2029-09-17

Abstract

The utility model discloses a miniature apron loading attachment that dabs switch belongs to and dabs switch processing equipment field, and its technical scheme main points are: including the pallet, the pallet is connected with the fourth guide rail, the pallet is connected with the fourth feed mechanism who removes the upper cover, fourth feed mechanism is including the fourth material loading piece that is used for removing the upper cover, at least one fourth silo of going up that is used for fixing a position the upper cover position is seted up to fourth material loading piece lower extreme, and the upper cover is arranged in the fourth goes up the inboard wall laminating of silo in the silo and the lateral wall of upper cover and the fourth, silo top surface runs through there is at least one fourth negative pressure hole on the fourth, fourth negative pressure hole and vacuum pump connection. The utility model discloses a rational in infrastructure, when the upper cover changes quiescent condition into by the removal, utilize the fourth to go up the silo and inject the position of upper cover, its position is difficult for changing when making the upper cover material loading, makes the process of the button lock of upper cover difficult for receiving the influence.

Description

Cover plate feeding device of micro light touch switch

Technical Field

The utility model belongs to touch switch processing equipment, more specifically say, it relates to a miniature apron loading attachment who dabs switch.

Background

The tact switch generally comprises a base, a spring plate (or called reed), a button and an upper cover.

When the upper cover carries out the material loading, generally directly use the negative pressure to absorb and carry out the material loading, utilize the negative pressure to absorb and remove the in-process of upper cover, the upper cover is by removing its self inertia to static in-process, and the position of upper cover can change this moment, and both location is inaccurate when placing the upper cover in the button upper end, and both positions appear the deviation when leading to upper cover and button lock joint, influence the installation quality of upper cover.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a miniature apron loading attachment who dabs switch for when the solution absorbs the upper cover and removes, the upper cover has to remove to its position of static in-process and can change, and both positions when leading to upper cover and button lock joint appear the deviation, influence the problem of upper cover installation quality.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a miniature apron loading attachment who dabs switch, includes the pallet, the pallet is connected with the fourth guide rail, the pallet is connected with the fourth feed mechanism who removes the upper cover, fourth feed mechanism is including the fourth feed block that is used for removing the upper cover, at least one fourth feed groove that is used for fixing a position the upper cover position is seted up to fourth feed block lower extreme, and the upper cover is arranged in the fourth feed groove and the lateral wall of upper cover and the inner wall laminating of fourth feed groove, fourth feed groove top surface runs through there is at least one fourth negative pressure hole, fourth negative pressure hole and vacuum pump connection.

By adopting the technical scheme, the position of the upper cover is limited by the fourth feeding groove, and when the upper cover is changed from moving to static, the upper cover is not easy to move due to inertia of the upper cover, so that the feeding position of the upper cover is kept accurate.

The utility model discloses further set up to: the fourth feeding mechanism further comprises a fourth support fixed to the upper end of the stand, a fourth horizontal moving mechanism connected with the fourth support and a fourth vertical moving mechanism driving the fourth feeding block to vertically move, the fourth horizontal moving mechanism comprises a fourth horizontal block connected with the fourth support in a sliding mode and a fourth horizontal cylinder driving the fourth horizontal block to slide, the fourth vertical moving mechanism comprises a fourth vertical block sliding with the fourth horizontal block and a fourth vertical cylinder driving the fourth vertical block to vertically slide, and the fourth feeding block penetrates through the fourth vertical block and is connected with the fourth vertical block.

By adopting the technical scheme, the fourth horizontal moving mechanism is utilized to realize the horizontal movement of the fourth feeding block, and the fourth vertical moving mechanism is utilized to realize the vertical movement of the fourth feeding block, so that the feeding of the upper cover is realized.

The utility model discloses further set up to: the fourth guide rail is connected with a fourth positioning mechanism for positioning the upper cover, the fourth positioning mechanism comprises a fourth positioning seat fixed at the upper end of the stand, a fourth positioning block for limiting the upper cover and a fourth positioning cylinder for driving the fourth positioning block to reciprocate, the upper end of the fourth positioning seat is provided with a fourth positioning groove communicated with the fourth guide rail, the fourth positioning groove penetrates through the side wall of the fourth positioning block close to the fourth guide rail, the upper end of the fourth positioning block is provided with a fourth sliding groove which is vertical to the fourth positioning groove, the fourth sliding groove penetrates through two opposite side walls of the fourth positioning block, the fourth positioning block is arranged in the fourth sliding groove to slide, a fourth containing groove is arranged at the upper end of the fourth positioning block, the fourth accommodating groove penetrates through the side wall of the fourth positioning block perpendicular to the moving direction of the upper cover, and the upper cover passes through the fourth positioning groove and moves into the fourth accommodating groove.

Through adopting above-mentioned technical scheme, when utilizing fourth material loading piece to carry out the material loading, thereby fourth location cylinder promotes the removal of fourth locating piece and drives the upper cover and remove along the fourth groove that slides, and when utilizing fourth material loading piece to absorb the upper cover this moment, the upper cover adjacent to the upper cover that is absorbed can not produce the hindrance to the removal of fourth material loading piece, makes the material loading process of upper cover more convenient.

The utility model discloses further set up to: and the fourth feeding trough penetrates through two side walls of the fourth feeding block, which are vertical to the length direction of the fourth positioning block.

Through adopting above-mentioned technical scheme, at the in-process that the upper cover was absorb in fourth material loading piece downstream, fourth material loading piece lower extreme can not directly with fourth locating piece upper end butt, and fourth material loading piece can continue downstream and make upper cover upper end and the laminating of fourth material loading groove top surface, is difficult for producing the skew when the upper cover is arranged in the fourth material loading inslot in this moment, makes the upper cover more firm with being connected of fourth material loading piece.

The utility model discloses further set up to: the lateral wall of fourth locating piece and the lateral wall laminating that the fourth sliding groove is in vertical direction, and when the upper cover was arranged in the fourth holding tank, the lateral wall of upper cover respectively the lateral wall laminating of fourth sliding groove, a plurality of fourth groove of stepping down has all been seted up to fourth sliding groove lateral wall, the groove of stepping down runs through fourth positioning seat upper end under the fourth, the groove of stepping down on the fourth is all seted up to the lateral wall of fourth material loading piece perpendicular to fourth positioning groove length direction, the groove of stepping down runs through fourth material loading piece lower extreme on the fourth, just the groove of stepping down on the fourth communicates with the fourth constant head tank, and when the fourth material loading piece was absorb the upper cover, fourth material loading piece lower extreme inserted the groove of stepping down under the fourth.

Through adopting above-mentioned technical scheme, injectd the position of upper cover through the fourth groove of sliding, made the fourth material loading piece difficult emergence of position between the two when absorbing the upper cover change to make the absorption process of upper cover more convenient.

The utility model discloses further set up to: and a fourth wedge-shaped surface is formed at the lower end of the inner wall of the fourth feeding groove.

Through adopting above-mentioned technical scheme, utilize the fourth wedge face to increase the open-ended area of fourth feeding groove lower extreme, utilize the fourth wedge face to lead to the removal of upper cover simultaneously, make the upper cover change get into the fourth material loading wipe in.

The utility model discloses further set up to: and a fourth raised placing groove for accommodating the button is formed in the top surface of the fourth feeding groove.

Through adopting above-mentioned technical scheme, when the fourth material loading piece removed upper cover to button upper end and moved towards the button, the arch of button upper end can be arranged in the fourth standing groove, and the material loading piece can remove the upper cover this moment to laminating with the button upper end to it is more stable to make the process that the upper cover was installed in the button upper end.

The utility model discloses further set up to: the fourth feeding block is connected with the fourth vertical block in a sliding mode, the fourth vertical block is connected with a fourth limiting block limiting the upward movement distance of the fourth feeding block, the fourth limiting block is located at the upper end of the fourth feeding block, a gap is reserved between the fourth feeding block and the fourth feeding block, a spring driving the fourth feeding block to move downwards is fixedly connected to the upper end of the fourth feeding block, the other end of the spring is abutted to the lower end of the fourth limiting block, a fourth positioning block is fixedly connected to the upper end of the side wall of the fourth feeding block, and the lower end of the fourth positioning block is abutted to the fourth vertical block.

By adopting the technical scheme, when the fourth feeding block pushes the upper cover and presses the button, when the reaction force exerted by the upper cover on the fourth feeding block is greater than the downward elastic force exerted by the spring, the fourth feeding block moves upwards, and the downward pressure exerted by the fourth feeding block on the upper cover cannot be too large to cause the damage of the upper cover or the button.

To sum up, the utility model discloses following beneficial effect has:

1. when the fourth feeding block is used for sucking the upper cover and moving the upper cover, the position of the upper cover is limited by the fourth feeding groove, so that when the upper cover moves to be converted into a static state, the position of the upper cover cannot be moved by the inertia of the upper cover, the mounting position of the upper cover and the button is not easy to change, and the buckling process of the upper cover and the button is not easy to influence;

2. utilize fourth positioning mechanism to make the upper cover that is absorb and the upper cover separation that is located the fourth constant head tank, when utilizing fourth material loading piece to absorb the upper cover this moment, fourth material loading piece can not contact with the upper cover that is located the fourth constant head tank, and the process that fourth material loading piece downshifted is difficult for receiving the influence, and the process that makes fourth material loading piece absorb the upper cover is more convenient.

Drawings

FIG. 1 is a perspective view of the present embodiment;

fig. 2 is a schematic view for showing a fourth vertical moving mechanism and a fourth horizontal moving mechanism according to the present embodiment;

FIG. 3 is a schematic diagram illustrating a structure of a loading block according to the present embodiment;

FIG. 4 is a schematic view illustrating a mounting structure of a loading block according to the present embodiment;

fig. 5 is a schematic diagram for showing a fourth positioning mechanism in the present embodiment.

Description of the drawings: 1. a stand; 11. a fourth vibratory pan; 12. a fourth guide rail; 13. a disc; 14. a jig; 2. a fourth feeding mechanism; 21. a fourth bracket; 22. a fourth horizontal movement mechanism; 221. a fourth horizontal block; 222. a fourth horizontal cylinder; 23. a fourth vertical moving mechanism; 231. a fourth vertical block; 232. a fourth vertical cylinder; 233. a fourth mounting block; 24. a fourth feeding block; 241. a fourth feeding trough; 242. a separation tank; 243. a fourth negative pressure port; 244. a fourth gas collecting tank; 245. a fourth upper abdicating groove; 246. a fourth wedge-shaped surface; 247. a fourth placing groove; 248. a fourth buffer tank; 249. a fourth anti-drop block; 25. a fourth closing block; 26. a fourth negative pressure pipe joint; 27. a fourth limiting block; 271. a fourth limit groove; 28. a spring; 3. a fourth positioning mechanism; 31. a fourth positioning seat; 311. a fourth positioning groove; 312. a fourth sliding groove; 313. a fourth lower abdicating groove; 32. a fourth positioning block; 321. a fourth accommodating groove; 33. a fourth positioning cylinder; 34. a fourth baffle; 341. and a fourth connecting hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

The utility model provides a miniature apron loading attachment that dabs switch, as shown in figure 1, including stand 1, there is fourth vibration dish 11 stand 1 upper end use bolted connection, and fourth vibration dish 11 is connected with carries out the fourth guide rail 12 that leads to the upper cover. The upper end of the stand 1 is rotatably connected with a disc 13, and the side wall of the disc 13 is circumferentially connected with a plurality of jigs 14 for placing an upper cover. The rack 1 is connected with a fourth feeding mechanism 2 for feeding the upper cover, and the fourth feeding mechanism 2 comprises a fourth support 21 connected with the rack 1, a fourth horizontal moving mechanism 22 connected with the fourth support 21, a fourth upper block 24 for moving the upper cover, and a fourth vertical moving mechanism 23 for driving the fourth upper block 24 to vertically move.

As shown in fig. 2, the fourth horizontal moving mechanism 22 includes a fourth horizontal block 221 that slides horizontally and a fourth horizontal cylinder 222 that drives the fourth horizontal block 221 to reciprocate, the fourth bracket 21 is fixed to the upper end surface of the mount 1 by bolts, and the fourth horizontal block 221 slides on the side wall of the fourth bracket 21. The cylinder body of the fourth horizontal cylinder 222 is fixed to the fourth bracket 21 by bolts, and the piston rod thereof passes through the fourth bracket 21 and is fixed to one side wall of the fourth horizontal block 221 by bolts.

As shown in fig. 2, the fourth vertical moving mechanism 23 includes a fourth vertical block 231 that slides up and down along the fourth horizontal block 221 and a fourth vertical cylinder 232 that drives the fourth vertical block 231 to move up and down, and the fourth vertical block 231 is disposed on a side of the fourth horizontal block 221 away from the fourth support 21. The fourth vertical cylinder 232 is fixed to the fourth horizontal block 221 at a side away from the fourth vertical block 231 using a bolt, and a piston rod thereof is connected to the upper end of the fourth vertical block 231 using a bolt.

As shown in fig. 2 and 3, the lower end of the fourth vertical block 231, which is far away from the side wall of the fourth horizontal block 221, is fixedly connected with a fourth mounting block 233 by using a bolt, the fourth upper block 24 penetrates through the fourth mounting block 233, the lower end of the fourth upper block 24 is provided with two fourth upper troughs 241 for moving the upper cover, the upper cover can be placed in the fourth upper troughs 241, and the side wall of the upper cover is attached to the inner wall of the fourth upper troughs 241. The lower end of the fourth feeding trough 241 is provided with a separating trough 242, the separating trough 242 is located between the two fourth feeding troughs 241, and the separating trough 242 penetrates through two side walls of the fourth feeding block 24 perpendicular to the horizontal moving direction. Four fourth negative pressure holes 243 are all seted up to fourth feeding trough 241 upper end, and two fourth gas gathering grooves 244 (see fig. 4) have been seted up to fourth feeding block 24 upper end, and every fourth gas gathering groove 244 all communicates with four fourth negative pressure holes 243. The upper end of the fourth feeding block 24 is fixedly connected with two fourth sealing blocks 25 which respectively seal the upper end opening of the fourth gas collecting groove 244 by using bolts, the fourth sealing blocks 25 are all connected with fourth negative pressure pipe joints 26, and the fourth negative pressure pipe joints 26 are respectively communicated with one gas collecting groove and are all connected with a vacuum pump. When the upper cover is loaded, the upper cover is placed in the fourth feeding groove 241, the position of the upper cover is limited by the fourth feeding groove 241, and when the upper cover is changed from moving to static, the upper cover is not easy to move due to inertia of the upper cover, so that the loading position of the upper cover is kept accurate.

As shown in fig. 5, since the upper cover needs to be placed in the fourth upper trough 241 when the upper cover is sucked by the fourth upper block 24 to move, the upper cover adjacent to the sucked upper cover blocks the downward movement of the fourth upper block 24 when the fourth upper block 24 moves downward. Therefore, the fourth positioning mechanism 3 for positioning the upper cover is connected to the fourth guide rail 12, and the fourth positioning mechanism 3 includes a fourth positioning seat 31 fixed to the upper end of the stand 1, a fourth positioning block 32 for positioning the upper cover, and a fourth positioning cylinder 33 for driving the fourth positioning block 32 to reciprocate. The fourth positioning seat 31 is fixed on the upper end face of the stand 1 by using bolts, two fourth positioning grooves 311 for guiding the upper cover are formed in the upper end of the fourth positioning seat, the fourth positioning grooves 311 penetrate through the side wall, close to the fourth guide rail 12, of the fourth positioning seat 31, the fourth positioning grooves 311 are communicated with the fourth guide rail 12, a gap is reserved between the fourth positioning block 32 and the fourth guide rail 12, and when the upper cover is located in the fourth positioning grooves 311, the upper end face of the upper cover and the upper end face of the fourth positioning seat 31 are located on the same plane. The upper end of the fourth positioning block 32 is provided with a fourth sliding groove 312 perpendicular to the fourth positioning groove 311, two opposite side walls of the fourth positioning block 32 penetrate through the fourth sliding groove 312, and the fourth positioning block 32 is arranged in the fourth sliding groove 312 to slide. The fourth positioning cylinder 33 is fixedly connected to the fourth positioning seat 31 by a bolt, and a piston rod thereof is connected to one end of the fourth positioning block 32 by a block. Two fourth receiving grooves 321 are formed in the upper end of the fourth positioning block 32, the longitudinal section of each fourth receiving groove 321 is the same as that of the fourth positioning groove 311, the fourth receiving grooves 321 enable the fourth positioning block 32 to be located in the vertical direction and perpendicular to the side wall of the fourth positioning groove 311 to penetrate through, and the upper cover can be placed in the fourth receiving grooves 321 through the fourth positioning grooves 311. When the fourth feeding block 24 is used for feeding, the fourth positioning cylinder 33 pushes the fourth positioning block 32 to move so as to drive the upper cover to move along the fourth sliding groove 312, and at the moment, when the fourth feeding block 24 is used for sucking the upper cover, the upper cover adjacent to the sucked upper cover cannot block the movement of the fourth feeding block 24, so that the feeding process of the upper cover is more convenient.

As shown in fig. 3, when the fourth positioning block 32 is used to drive the upper cover to move laterally, the side wall of the fourth receiving groove 321 abuts against the side wall of the upper cover, at this time, in order to enable the fourth upper material block 24 to suck the upper cover, the top surface of the fourth upper material groove 241 can directly abut against the upper end surface of the upper cover, and the fourth upper material groove 241 penetrates through two side walls of the fourth upper material block 24 perpendicular to the length direction of the fourth positioning block 32. At this time, in the process that the fourth feeding block 24 moves downwards to suck the upper cover, the fourth feeding block 24 can continue to move downwards to enable the upper end of the upper cover to be attached to the top surface of the fourth feeding groove 241, and the upper cover is not prone to deflection when placed in the fourth feeding groove 241, so that the upper cover and the fourth feeding block 24 are connected more stably.

As shown in fig. 3 and 5, in order to prevent the upper cover from moving along the fourth receiving groove 321, the upper cover can be accurately placed in the fourth feeding groove 241, so that the side wall of the fourth positioning block 32 is attached to the side wall of the fourth sliding groove 312 in the vertical direction, and when the upper cover is placed in the fourth receiving groove 321, the side wall of the upper cover is respectively attached to the side wall of the fourth sliding groove 312. Eight fourth lower yielding grooves 313 are formed in the side wall of the fourth sliding groove 312, the fourth lower yielding grooves 313 penetrate through the upper end surface of the fourth positioning seat 31, and when the fourth accommodating groove 321 is not communicated with the fourth positioning groove 311, the four fourth lower yielding grooves 313 are located on two sides of one fourth accommodating groove 321. The fourth upper material loading block 24 has a fourth upper abdicating groove 245 formed in a side wall perpendicular to the length direction of the fourth positioning groove 311, and the fourth upper abdicating groove 245 penetrates through the lower end surface of the fourth upper material loading block 24 and is communicated with the fourth positioning groove 311. When the fourth upper block 24 sucks the upper cover, the lower end of the fourth upper block 24 is inserted into the fourth lower abdicating groove 313. The fourth baffle 34 is fixed to the upper end of the fourth positioning seat 31 by bolts, the fourth baffle 34 seals the upper ends of the fourth positioning groove 311 and the fourth receiving groove 321, two fourth connecting holes 341 penetrate through the upper end of the fourth baffle 34, and the fourth feeding block 24 contacts the upper cover located in the fourth receiving groove 321 through the fourth connecting holes 341. The position of the upper cover is limited by the fourth sliding groove 312, so that the position of the fourth upper material block 24 between the upper cover and the fourth upper material block is not easy to change when the upper cover is sucked, and the sucking process of the upper cover is more convenient.

As shown in fig. 3, when the fourth feeding block 24 transfers the upper cover, the inner wall of the fourth feeding groove 241 is attached to the side wall of the upper cover, and at this time, when the fourth feeding block 24 moves downward to make the upper cover enter the fourth feeding groove 241, if a slight deviation occurs in the position of the fourth stopper 27, the upper cover is not easily entered into the fourth feeding groove 241. Therefore, the lower end of the inner wall of the fourth feeding chute 241 is provided with a fourth wedge-shaped surface 246, and the lower end of the fourth wedge-shaped surface 246 inclines towards the side wall of the fourth feeding block 24. The area of the lower end opening of the fourth feeding groove 241 is increased by the fourth wedge-shaped surface 246, and meanwhile, the fourth wedge-shaped surface 246 guides the movement of the upper cover, so that the upper cover can enter the fourth feeding eraser more easily.

As shown in fig. 3, since the upper end of the button is connected with the protrusion, at this time, in order that the lower end of the upper cover can be attached to the upper end surface of the button when the upper cover is placed on the button, the top surface of the fourth feeding groove 241 is provided with a fourth placing groove 247 for accommodating the protrusion of the button, and four fourth negative pressure holes 243 are arranged around the axis of the fourth placing groove 247. When the fourth loading block 24 moves the upper cover to the upper end of the button and moves toward the button, the protrusion of the upper end of the button may be placed in the fourth placing groove 247, and the loading block may move the upper cover to be attached to the upper end of the button, so that the process of mounting the upper cover to the upper end of the button is more stable.

As shown in fig. 4, since downward pressure is required to be applied to the upper cover to fasten the upper cover to the button in the process that the fourth upper material block 24 moves the upper cover to the upper end of the button and moves downward, the upper cover or the button may be damaged due to excessive downward pressure applied to the upper cover by the fourth upper material block 24. Therefore, the fourth feeding block 24 is connected with the fourth mounting block 233 in a sliding manner, the upper end of the fourth mounting block 233 is connected with a fourth limiting block 27 for limiting the upward movement distance of the fourth feeding block 24 by using a bolt, a fourth limiting groove 271 is formed at the lower end of the fourth limiting block 27, two opposite side walls of the fourth limiting block 27 penetrate through the fourth limiting groove 271, and the upper end of the fourth feeding block 24 is located in the fourth limiting groove 271. The upper end of the fourth upper material block 24 is provided with a fourth buffer groove 248 for placing the spring 28, the spring 28 is arranged in the fourth buffer groove 248, and the upper end of the spring 28 is abutted against the top surface of the fourth limit groove 271. Two fourth anti-falling blocks 249 (see fig. 3) are integrally formed on the side wall of the fourth upper block 24, the two fourth anti-falling blocks 249 are respectively located at two sides of the fourth limiting block 27, the upper end surfaces of the two fourth positioning blocks 32 and the upper end surface of the fourth upper block 24 are located on the same plane, and when the spring 28 is in the initial state, the lower end of the fourth positioning block 32 abuts against the upper end of the fourth mounting block 233. When the fourth upper material block 24 pushes the upper cover and buttons, when the fourth upper material block 24 receives a reaction force exerted by the upper cover greater than the downward elastic force exerted by the spring 28, the fourth upper material block 24 moves upward, and the downward pressure exerted by the fourth upper material block 24 on the upper cover is not too large to cause damage to the upper cover or the buttons.

The working principle is as follows:

the fourth vibrating plate 11 drives the upper cover to move along the fourth guide rail 12 to the fourth positioning groove 311, and then moves to the fourth receiving groove 321 through the fourth positioning groove 311, and the fourth positioning cylinder 33 pushes the fourth positioning seat 31 to move laterally, so that the two side walls of the upper cover are both attached to the side walls of the fourth sliding groove 312. Then the fourth vertical cylinder pushes the fourth vertical block 231 to move downwards, so that the lower end of the fourth upper block 24 is inserted into the fourth lower abdicating groove 313, the upper cover is sucked by the fourth upper block 24, then the fourth upper block 24 rises, the fourth horizontal cylinder 222 drives the fourth horizontal block 221 to move to the upper end of the button, and the fourth upper block 24 moves downwards so as to buckle the upper cover and the button.

The specific embodiments are only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. The utility model provides a miniature apron loading attachment that dabs switch, includes stand (1), stand (1) is connected with fourth guide rail (12), its characterized in that: the frame (1) is connected with a fourth feeding mechanism (2) for moving the upper cover, the fourth feeding mechanism (2) comprises a fourth feeding block (24) for moving the upper cover, at least one fourth feeding groove (241) for positioning the position of the upper cover is formed in the lower end of the fourth feeding block (24), the upper cover is arranged in the fourth feeding groove (241), the side wall of the upper cover is attached to the inner wall of the fourth feeding groove (241), at least one fourth negative pressure hole (243) penetrates through the top surface of the fourth feeding groove (241), and the fourth negative pressure hole (243) is connected with a vacuum pump.

2. The cover plate feeding device of the micro tact switch as claimed in claim 1, wherein: the fourth feeding mechanism (2) further comprises a fourth support (21) fixed to the upper end of the stand (1), a fourth horizontal moving mechanism (22) connected with the fourth support (21) and a fourth vertical moving mechanism (23) driving a fourth feeding block (24) to vertically move, the fourth horizontal moving mechanism (22) comprises a fourth horizontal block (221) connected with the fourth support (21) in a sliding mode and a fourth horizontal cylinder (222) driving the fourth horizontal block (221) to slide, the fourth vertical moving mechanism (23) comprises a fourth vertical block (231) sliding with the fourth horizontal block (221) and a fourth vertical cylinder (232) driving the fourth vertical block (231) to slide up and down, and the fourth feeding block (24) penetrates through the fourth vertical block (231) and is connected with the fourth vertical block (231).

3. The cover plate feeding device of the micro tact switch as claimed in claim 1, wherein: the fourth guide rail (12) is connected with a fourth positioning mechanism (3) for positioning the upper cover, the fourth positioning mechanism (3) comprises a fourth positioning seat (31) fixed at the upper end of the stand (1), a fourth positioning block (32) for limiting the upper cover and a fourth positioning cylinder (33) for driving the fourth positioning block (32) to reciprocate, a fourth positioning groove (311) communicated with the fourth guide rail (12) is formed in the upper end of the fourth positioning seat (31), the fourth positioning groove (311) penetrates through the side wall, close to the fourth guide rail (12), of the fourth positioning block (32), a fourth sliding groove (312) perpendicular to the fourth positioning groove (311) is formed in the upper end of the fourth positioning block (32), two opposite side walls of the fourth positioning block (32) are penetrated through the fourth sliding groove (312), and the fourth positioning block (32) is arranged in the fourth sliding groove (312) to slide, a fourth accommodating groove (321) is formed in the upper end of the fourth positioning block (32), the fourth accommodating groove (321) penetrates through the side wall, perpendicular to the moving direction of the upper cover, of the fourth positioning block (32), and the upper cover passes through the fourth positioning groove (311) and moves into the fourth accommodating groove (321).

4. The cover plate feeding device of the micro tact switch as claimed in claim 3, wherein: the fourth feeding trough (241) penetrates through two side walls of the fourth feeding block (24) perpendicular to the length direction of the fourth positioning block (32).

5. The cover plate feeding device of the micro tact switch as claimed in claim 4, wherein: the side wall of the fourth positioning block (32) is attached to the side wall of the fourth sliding groove (312) in the vertical direction, and when the upper cover is arranged in the fourth accommodating groove (321), the side walls of the upper cover are respectively attached to the side walls of the fourth sliding groove (312), the side walls of the fourth sliding grooves (312) are provided with a plurality of fourth lower yielding grooves (313), the fourth lower abdicating groove (313) penetrates through the upper end of the fourth positioning seat (31), the side wall of the fourth upper material block (24) vertical to the length direction of the fourth positioning groove (311) is provided with a fourth upper abdicating groove (245), the lower end of a fourth upper material block (24) is penetrated through by the fourth upper abdicating groove (245), and the fourth upper abdicating groove (245) is communicated with the fourth positioning groove (311), when the fourth upper material block (24) sucks the upper cover, the lower end of the fourth upper material block (24) is inserted into the fourth lower abdicating groove (313).

6. The cover plate feeding device of the micro tact switch as claimed in claim 1, wherein: and a fourth wedge-shaped surface (246) is formed at the lower end of the inner wall of the fourth feeding groove (241).

7. The cover plate feeding device of the micro tact switch as claimed in claim 1, wherein: the top surface of the fourth feeding groove (241) is provided with a fourth convex placing groove (247) for accommodating the button.

8. The cover plate feeding device of the micro tact switch as claimed in claim 7, wherein: fourth material loading piece (24) and the vertical piece (231) of fourth are slided and are connected, the vertical piece (231) of fourth is connected with fourth stopper (27) of the distance of injecing fourth material loading piece (24) rebound, fourth stopper (27) are located fourth material loading piece (24) upper end and leave the clearance between the two, its spring (28) of downward movement of fourth material loading piece (24) upper end fixedly connected with drive, the other end and the fourth stopper (27) lower extreme butt of spring (28), fourth material loading piece (24) lateral wall upper end fixedly connected with fourth locating piece (32), fourth locating piece (32) lower extreme and the vertical piece (231) butt of fourth.