CN112091877A

CN112091877A - Pressing device and pressing method for electronic part production

Info

Publication number: CN112091877A
Application number: CN202010761091.6A
Authority: CN
Inventors: 张强
Original assignee: Nanjing Azman Electronic Technology Co ltd
Current assignee: Nanjing Azman Electronic Technology Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2020-12-18
Anticipated expiration: 2040-07-31
Also published as: CN112091877B

Abstract

The invention discloses a pressing device and a pressing method for electronic part production, which comprises an installation mechanism, an installation sleeve and a plurality of limiting mechanisms, wherein the installation mechanism comprises a first installation column, an installation beam and a second installation column, the axial side wall of the installation sleeve is fixedly connected with the radial side wall of the bottom end of the second installation column through an extension rod, the highest point and the lowest point of the radial side wall of the installation sleeve are respectively provided with a through hole which is distributed front and back and is communicated with the inner cavity of the installation sleeve, a plurality of hollow pipes which are uniformly distributed front and back are inserted between the upper through hole and the lower through hole of the installation sleeve in a sliding way, a pulling plate is sleeved between the outer walls of the hollow pipes in a sliding way, the outer wall of each hollow pipe is axially provided with a plurality of clamping grooves which are uniformly distributed up and down at intervals, and. The invention is convenient for pressing electronic parts, can carry out pressing operation in all directions at one time, and can not be quickly pressed and installed due to position dislocation in the pressing process.

Description

Pressing device and pressing method for electronic part production

Technical Field

The invention relates to the technical field related to pressing for electronic part production, in particular to a pressing device for electronic part production and a using method.

Background

Along with the improvement of the quality of life of people, electronic products are introduced into the life of people along with the improvement of the quality of life of people, the daily life of people is facilitated, the production efficiency of the electronic products is higher and higher under the production condition of an intelligent production chain, the manual pressing operation is carried out for some assembly parts needing pressing installation, on one hand, the pressing operation cannot be carried out all around at one time, the rapid pressing installation cannot be carried out easily due to position dislocation in the pressing process, even the assembly parts are damaged, in addition, the manual pressing operation efficiency is low, the production efficiency of the electronic products is influenced, and therefore the pressing device and the using method for producing the electronic parts are designed, and the problems are solved conveniently.

Disclosure of Invention

The invention aims to provide a laminating device for producing electronic parts and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a pressing device for producing electronic parts and a using method thereof comprise a mounting mechanism, a mounting sleeve and a plurality of limiting mechanisms, wherein the mounting mechanism comprises a first mounting column, a mounting beam and a second mounting column, the axial side wall of the mounting sleeve is fixedly connected with the radial side wall of the bottom end of the second mounting column through an extension rod, the highest point and the lowest point of the radial side wall of the mounting sleeve are respectively provided with through holes which are distributed front and back and are communicated with the inner cavity of the mounting sleeve, a plurality of hollow pipes which are uniformly distributed front and back are inserted between the upper through hole and the lower through hole of the mounting sleeve in a sliding way, a lifting plate is sleeved between the outer walls of the hollow pipes in a sliding way, the outer wall of each hollow pipe is axially provided with a plurality of clamping grooves which are uniformly distributed up and down at intervals, each limiting mechanism comprises a limiting sleeve, and a plurality of limiting sleeves are uniformly distributed front and back, and all incline 30 degrees to the left lower side and are installed on the inner cavity side wall of the installation sleeve.

In a further embodiment, the right side of the bottom end surface of the mounting cross beam is rotatably connected with the top end surface of the first mounting column, the left side of the bottom end surface of the mounting cross beam is rotatably connected with the top end surface of the second mounting column, two mounting plates distributed up and down are radially arranged on the left side and the right side of the bottom end of the outer wall of the first mounting column, and a mounting hole is formed in one end, away from the first mounting column, of each mounting plate.

In a further embodiment, the top ends of the outer walls of the plurality of hollow tubes are fixedly sleeved with limiting discs for preventing the hollow tubes from being separated from the pulling plate, and a first handle is arranged at the center of the front end face of the pulling plate.

In a further embodiment, the bottom end face of each hollow tube is connected with a rubber sucker, a negative pressure pump is arranged on the left side of the upper end face of the mounting cross beam, an air suction port of the negative pressure pump is connected with a hollow box, the radial side wall of the hollow box is connected with a plurality of rubber hoses, and the tip of each rubber hose is connected with the top end of each hollow tube.

In a further embodiment, a second handle is arranged at the center of the front end face of the mounting sleeve, and the outer wall of the second handle is fixedly sleeved with a rubber sleeve.

In further embodiment, every the sliding of spacing sleeve's inner chamber is pegged graft and is had the telescopic link, and the most advanced of every telescopic link is the toper structure, every the one end that the hollow tube was kept away from to the telescopic link all is connected with the iron stopper that is located the spacing sleeve inner chamber, every spacing sleeve's inner chamber both ends are fixed annular electromagnet and the electromagnet piece that are located iron stopper axial both sides respectively, every the most advanced of telescopic link slides and runs through corresponding annular electromagnet, and with the mutual joint of draw-in groove of every hollow tube.

In a further embodiment, a method for using a laminating device for producing electronic parts comprises the following specific steps:

a1, utilizing bolts to penetrate through mounting holes of the four mounting plates, and fixedly mounting the mounting mechanism so as to be convenient for use in a later pressing operation;

a2, when pressing operation is carried out, the mounting sleeve is pulled by hands, so that the second mounting column moves along with the movement of the mounting sleeve, the second mounting column and the mounting beam rotate relatively, the mounting beam and the first mounting column rotate relatively, the position of the mounting sleeve can be adjusted at will, so that rubber suckers below a plurality of hollow tubes on the radial side wall of the mounting sleeve are opposite to parts to be pressed, the hollow tubes slide downwards along the upper through hole and the lower through hole under the action of self gravity, the rubber suckers below the hollow tubes move downwards to be attached to the upper end faces of the parts, and the rubber suckers at the bottom ends of the hollow tubes can be attached to the upper end faces of the parts no matter the upper end faces of the parts are flat or uneven;

a3, then disconnecting the electromagnet block of each limiting mechanism, so that the iron limiting block is not attracted by the electromagnet block any more, and the telescopic rod is driven to slide along the inner cavity of the limiting sleeve by 30 degrees towards the left and lower direction, so that the tip of the telescopic rod is inserted into the clamping groove of the hollow tube in the current state, the position state of the hollow tube in the current state is positioned, and the hollow tube is communicated with the inner cavity of each hollow tube through a rubber hose through a negative pressure pump, and the electronic parts to be pressed are attracted;

a4, then the electricity of the annular electromagnet of every stop gear of reconnection, make the annular electromagnet adsorb the iron stopper in the twinkling of an eye, make the hollow tube by downward impact in the twinkling of an eye, because the telescopic link receives annular electromagnet's adsorption affinity, so can take place relative slip between the most advanced of telescopic link and the draw-in groove of hollow tube, can impact the hollow tube downward, make the hollow tube can downward short distance impact fast in the twinkling of an eye, can carry out quick all-round pressfitting operation to the absorbent electron spare part of rubber suction cup, can not lead to the unable quick pressfitting installation of position dislocation because of artifical independent operation.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is convenient for pressing electronic parts, can carry out pressing operation all around at one time, can not lead to the situation that the pressing installation can not be carried out quickly due to position dislocation in the pressing process, and improves the pressing efficiency.

2. According to the invention, the top ends of the outer walls of the hollow pipes are fixedly sleeved with the limiting discs, so that the hollow pipes are prevented from being separated from the pulling plate.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a cross-sectional view of the mounting sleeve and limiting mechanism of the present invention;

fig. 3 is an enlarged view of the structure a in fig. 1 according to the present invention.

In the figure: 1. an installation mechanism; 11. mounting a plate; 12. a first mounting post; 13. mounting a cross beam; 14. a second mounting post; 2. a negative pressure pump; 21. a hollow box; 22. a rubber hose; 3. installing a sleeve; 31. a first handle; 32. lifting the plate; 33. a hollow tube; 34. a rubber sleeve; 35. a second handle; 36. a rubber suction cup; 37. a card slot; 38. a limiting disc; 4. a limiting mechanism; 41. a limiting sleeve; 42. an electromagnet block; 43. a telescopic rod; 44. an iron limiting block; 45. an annular electromagnet.

Detailed Description

The embodiment of the application solves the problems in the prior art by providing the pressing device for producing the electronic parts and the using method; the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-3, the present embodiment provides a pressing device for electronic component production and a using method thereof, including a mounting mechanism 1, a mounting sleeve 3, and a plurality of limiting mechanisms 4, wherein the mounting mechanism 1 includes a first mounting post 12, a mounting beam 13, and a second mounting post 14, an axial side wall of the mounting sleeve 3 is fixedly connected to a bottom end radial side wall of the second mounting post 14 through an extension rod, the highest point and the lowest point of the radial side wall of the mounting sleeve 3 are both provided with through holes which are distributed front and back and are mutually communicated with an inner cavity of the mounting sleeve 3, a plurality of hollow tubes 33 which are distributed uniformly front and back are slidably inserted between an upper through hole and a lower through hole of the mounting sleeve 3, a pulling plate 32 is slidably sleeved between outer walls of the plurality of hollow tubes 33, the outer wall of each hollow tube 33 is axially provided with a plurality of slots 37 which are distributed uniformly up and down at intervals, each limiting mechanism 4, the plurality of limiting sleeves 41 are uniformly distributed at intervals from front to back, and are inclined 30 degrees towards the left lower side and are arranged on the side wall of the inner cavity of the mounting sleeve 3.

The right side of the bottom end face of the mounting cross beam 13 is rotatably connected with the top end face of the first mounting column 12, the left side of the bottom end face of the mounting cross beam 13 is rotatably connected with the top end face of the second mounting column 14, the left side and the right side of the bottom end of the outer wall of the first mounting column 12 are radially provided with two mounting plates 11 which are distributed up and down, and a mounting hole is formed in one end, far away from the first mounting column 12, of each mounting plate 11.

The bottom end face of each hollow tube 33 is connected with a rubber suction cup 36, the left side of the upper end face of the mounting beam 13 is provided with a negative pressure pump 2, the suction port of the negative pressure pump 2 is connected with a hollow box 21, the radial side wall of the hollow box 21 is connected with a plurality of rubber hoses 22, and the tip of each rubber hose 22 is connected with the top end of each hollow tube 33.

Every limit sleeve 41's inner chamber slides and pegs graft there is telescopic link 43, and the most advanced of every telescopic link 43 is the toper structure, the one end that hollow tube 33 was kept away from to every telescopic link 43 all is connected with the iron stopper 44 that is located the limit sleeve 41 inner chamber, the inner chamber both ends of every limit sleeve 41 are fixed respectively and are equipped with annular electromagnet 45 and the electromagnet block 42 that are located iron stopper 44 axial both sides, the most advanced of every telescopic link 43 slides and runs through corresponding annular electromagnet 45, and with the mutual joint of draw-in groove 37 of every hollow tube 33.

In the embodiment, the mounting mechanism 1 can be fixedly mounted by penetrating bolts through the mounting holes of the four mounting plates 11, so that the use of pressing operation at the later stage is facilitated; when the pressing operation is carried out, the mounting sleeve 3 is pulled by hands, so that the second mounting column 14 moves along with the movement of the mounting sleeve 3, the second mounting column 14 and the mounting cross beam 13 rotate relatively, and the mounting cross beam 13 and the first mounting column 12 rotate relatively, so that the position of the mounting sleeve 3 can be adjusted at will, the rubber suction cups 36 below the hollow tubes 33 on the radial side wall of the mounting sleeve 3 are opposite to the parts to be pressed, the hollow tubes 33 slide downwards along the upper through hole and the lower through hole under the action of self gravity, the rubber suction cups 36 below the hollow tubes 33 move downwards to be attached to the upper end faces of the parts, and the rubber suction cups 36 at the bottom ends of the hollow tubes 33 can be attached to the upper end faces of the parts no matter whether the upper end faces of the parts are flat or uneven; then the electricity of the electromagnet block 42 of each limiting mechanism 4 is disconnected, so that the iron limiting block 44 is no longer attracted by the electromagnet block 42, and the telescopic rod 43 is driven to slide along the inner cavity of the limiting sleeve 41 towards the left lower side by 30 degrees, so that the tip of the telescopic rod 43 is inserted into the clamping groove 37 of the hollow tube 33 in the current state, the position state of the hollow tube 33 in the current state is positioned, and the hollow tube 33 is communicated with the inner cavity of each hollow tube 33 through the rubber hose 22 through the negative pressure pump 2, and the electronic components to be pressed are attracted; then connect the electricity of the annular electromagnet 45 of every stop gear 4 again, make the annular electromagnet 45 adsorb iron stopper 44 in the twinkling of an eye, make hollow tube 33 by downward impact in the twinkling of an eye, because telescopic link 43 receives the adsorption affinity of annular electromagnet 45, so can take place relative slip between the most advanced of telescopic link 43 and the draw-in groove 37 of hollow tube 33, can strike hollow tube 33 downwards, make hollow tube 33 can downward short distance impact fast in the twinkling of an eye, can carry out quick all-round pressfitting operation to the absorbent electron spare part of rubber suction cup 36, can not lead to the position dislocation and unable quick pressfitting installation because of artifical exclusive operation.

Example two

Referring to fig. 1-3, a further improvement is made on the basis of embodiment 1:

the top ends of the outer walls of the hollow pipes 33 are fixedly sleeved with limiting discs 38 used for preventing the hollow pipes 33 from being separated from the pulling plate 32, a first handle 31 is arranged at the center of the front end face of the pulling plate 32, the limiting discs 38 are arranged for preventing the hollow pipes 33 from being separated from the pulling plate 32, the first handle 31 is held by hand, the pulling plate 32 can be conveniently adjusted up and down, and time and labor are saved.

The preceding terminal surface central point of installation sleeve 3 puts and is equipped with second handle 35, and the outer wall of second handle 35 is fixed cup joint with rubber sleeve 34, through holding rubber sleeve 34, is convenient for operate second handle 35, is convenient for remove operation installation sleeve 3.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a compression fittings is used in production of electronic components, includes installation mechanism (1), installation sleeve (3) and a plurality of stop gear (4), its characterized in that: the mounting mechanism (1) comprises a first mounting column (12), a mounting beam (13) and a second mounting column (14), the axial side wall of the mounting sleeve (3) is fixedly connected with the radial side wall of the bottom end of the second mounting column (14) through an extension rod, the highest point and the lowest point of the radial side wall of the mounting sleeve (3) are respectively provided with through holes which are distributed front and back and are communicated with the inner cavity of the mounting sleeve (3), a plurality of hollow pipes (33) which are distributed front and back at equal intervals are inserted between the upper through hole and the lower through hole of the mounting sleeve (3) in a sliding way, a pulling plate (32) is sleeved between the outer walls of the plurality of hollow pipes (33) in a sliding way, the outer wall of each hollow pipe (33) is axially provided with a plurality of clamping grooves (37) which are distributed up and down at equal intervals, each limiting mechanism (4) comprises a limiting sleeve (41), and a plurality of limiting sleeves (41) are distributed, and are all inclined towards the left lower side by 30 degrees and are arranged on the side wall of the inner cavity of the mounting sleeve (3).

2. The laminating device for producing electronic parts according to claim 1, wherein: the bottom face right side of installation crossbeam (13) rotates with the top face of first erection column (12) to be connected, the bottom face left side of installation crossbeam (13) rotates with the top face of second erection column (14) to be connected, the outer wall bottom left and right sides of first erection column (12) all radially is equipped with mounting panel (11) that distribute about two, every mounting panel (11) keep away from the one end of first erection column (12) and have all seted up the mounting hole.

3. The laminating device for producing electronic parts according to claim 1, wherein: the top ends of the outer walls of the hollow pipes (33) are fixedly sleeved with limiting discs (38) used for preventing the hollow pipes (33) from being separated from the pulling plate (32), and a first handle (31) is arranged at the center of the front end face of the pulling plate (32).

4. The laminating device for producing electronic parts according to claim 1, wherein: every the bottom end face of hollow tube (33) all is connected with rubber suction cup (36), the up end left side of installation crossbeam (13) is equipped with negative pressure pump (2), the induction port of negative pressure pump (2) is connected with hollow box (21), and the radial lateral wall of hollow box (21) is connected with a plurality of rubber hose (22), and the pointed end of every rubber hose (22) is connected with the top of every hollow tube (33).

5. The laminating device for producing electronic parts according to claim 1, wherein: the front end face center position of installation sleeve (3) is equipped with second handle (35), and the outer wall of second handle (35) is fixed cup joint with rubber sleeve (34).

6. The laminating device for producing electronic parts according to claim 1, wherein: every the inner chamber of spacing sleeve (41) slides and pegs graft and has telescopic link (43), and the most advanced of every telescopic link (43) is the toper structure, every the one end that hollow tube (33) were kept away from in telescopic link (43) all is connected with iron stopper (44) that are located spacing sleeve (41) inner chamber, every annular electromagnet (45) and electromagnetic iron piece (42) that are located iron stopper (44) axial both sides are fixed respectively to the inner chamber both ends of spacing sleeve (41) every the most advanced of telescopic link (43) slides and runs through corresponding annular electromagnet (45), and with draw-in groove (37) mutual joint of every hollow tube (33).

7. The laminating method of the laminating device for producing the electronic parts, which is characterized by comprising the following steps:

a1, the mounting mechanism (1) can be fixedly mounted by penetrating mounting holes of the four mounting plates (11) through bolts, so that the use of pressing operation in the later period is facilitated;

a2, when pressing operation is carried out, the mounting sleeve (3) is pulled by hand, so that the second mounting column (14) moves along with the movement of the mounting sleeve (3), the second mounting column (14) and the mounting cross beam (13) rotate relatively, and the mounting cross beam (13) and the first mounting column (12) rotate relatively, the position of the mounting sleeve (3) can be adjusted at will so that the rubber suction cups (36) below a plurality of hollow pipes (33) on the radial side wall of the mounting sleeve (3) are opposite to the parts to be pressed, the hollow pipes (33) slide downwards along the upper and lower through holes under the action of self gravity, the rubber suction cups (36) below the hollow pipes (33) move downwards to be attached to the upper end faces of the parts, and the rubber suction cups (36) at the bottom ends of the hollow pipes (33) can be attached to the upper end faces of the parts regardless of whether the upper end faces of the parts are flat or uneven;

a3, then disconnecting the electromagnet block (42) of each limiting mechanism (4) to ensure that the iron limiting block (44) is not adsorbed by the electromagnet block (42), and driving the telescopic rod (43) to slide along the inner cavity of the limiting sleeve (41) towards the lower left by 30 degrees, so that the tip of the telescopic rod (43) is inserted into the clamping groove (37) of the hollow tube (33) in the current state to position the position state of the hollow tube (33) in the current state, and the vacuum pump (2) is communicated with the inner cavity of each hollow tube (33) through the rubber hose (22), thereby facilitating the adsorption of the electronic parts to be pressed;

a4, then the electricity of the annular electromagnet (45) of every stop gear (4) is connected again, make annular electromagnet (45) adsorb iron stopper (44) in the twinkling of an eye, make hollow tube (33) by downward impact in the twinkling of an eye, because telescopic link (43) receive the adsorption affinity of annular electromagnet (45), so can take place relative slip between most advanced of telescopic link (43) and draw-in groove (37) of hollow tube (33), can be with hollow tube (33) downward impact, make hollow tube (33) can downward short distance quick impact in the twinkling of an eye, can carry out quick all-round pressfitting operation to the electron spare part that rubber suction cup (36) adsorbs, can not lead to the position dislocation and unable quick pressfitting installation because of artifical independent operation.