CN117059860B - Button cell casing feed mechanism - Google Patents

Abstract

The invention discloses a button cell shell feeding mechanism, and relates to the technical field of button cell shell feeding. The button battery assembling mechanism comprises a supporting seat, wherein an installation table is fixedly installed at the top of the supporting seat, a control panel is installed on the surface of the installation table, and an assembling frame body is fixedly connected to the top of the installation table; the invention can carry out feeding and moving on the button cell fittings, is favorable for accurately moving the button cell fittings one by one, can accurately move the button cell fittings to an assembling and processing position, improves the feeding effect of the button cell fittings, reduces the labor intensity of workers, and can assemble the fed button cell fittings, and is favorable for the cooperation of a feeding device, thereby being capable of accurately assembling the button cell fittings, improving the assembling and processing effect of the button cell and improving the processing quality of the button cell.

Description

Button cell casing feed mechanism

Technical Field

The invention relates to the technical field of button cell shell feeding, in particular to a button cell shell feeding mechanism.

Background

Button cells, also called button cells, are cells that have an external dimension like a small button, generally having a larger diameter and a thinner thickness. The button cells are classified into cylindrical cells, square cells and special-shaped cells according to the appearance. Button cells are also classified into two major categories, chemical cells and physical cells, with chemical cells being most commonly used. They consist of an anode (positive electrode), a cathode (negative electrode), an electrolyte thereof, and the like. The surface of the lithium ion battery is made of stainless steel, the lithium ion battery is used as a positive electrode, the negative electrode is a stainless steel round cover, a sealing ring is arranged between the positive electrode and the negative electrode for insulation, the sealing ring is made of nylon, and besides the insulation function, the sealing ring can prevent electrolyte leakage. Button cells are of a wide variety and are often named by the materials used, such as silver oxide cells, lithium cells, alkaline manganese cells, and the like.

The current Chinese patent with the bulletin number of CN201710656951.8 discloses automatic assembling equipment for bare cell of battery, and the automatic assembling equipment for bare cell of battery realizes automatic feeding, assembling and performance detection of parts, reduces labor intensity, reduces dependence on operators and improves product percent of pass.

The existing button cell is required to be assembled when in production, and the parts of the button can be conveniently and automatically fed in the comparison file, so that dependence on operators is reduced, but when the device is used, the parts of the button cell are not convenient to automatically feed and assemble one by one, the convenience of feeding and taking the parts of the button cell is influenced, and after the parts of the button cell are fed, the parts cannot be comprehensively assembled and processed, and the efficiency of feeding and assembling the button cell is influenced, so that the feeding mechanism of the button cell shell is required.

Disclosure of Invention

The invention provides a feeding mechanism of a button cell shell, which has the advantages of being capable of accurately feeding and moving button cell accessories and efficiently assembling and processing the button cell accessories, thereby solving the problems in the prior art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a button cell casing feed mechanism, includes button cell equipment mechanism, button cell equipment mechanism includes the supporting seat, the top fixed mounting of supporting seat has the mount pad, the surface mounting of mount pad has the control panel, the top fixedly connected with equipment framework of mount pad, electronic airtight door is installed to one side of equipment framework, electronic airtight door's surface mounting has the observation window, the inside fixed mounting of equipment framework has battery part to deposit the subassembly, the inside fixedly connected with fixed station of equipment framework, the top fixed mounting of fixed station has button cell pressure equipment subassembly, the inside fixed mounting of equipment framework has equipment part to transfer the subassembly, the top fixed mounting of fixed station has electrolyte to pour into the subassembly, and electrolyte to pour into the subassembly and button cell pressure equipment subassembly cooperation use.

As a feeding mechanism of the button cell shell, the cell part storage component comprises a first storage recess, a cell bottom shell recess plate, a second storage recess, a cell spring recess plate, a third storage recess, a lower cell gasket recess plate, a fourth storage recess, a cell negative plate recess plate, a fifth storage recess, a cell diaphragm recess plate, a sixth storage recess, a cell positive plate recess plate, a seventh storage recess, an upper cell gasket recess plate, an eighth storage recess, a cell top shell recess plate, a ninth storage recess plate, an assembly storage recess plate and a storage limiting member, wherein the first storage recess plate is fixedly connected in an assembly frame, the cell bottom shell recess plate is arranged on the first storage recess plate, the second storage recess plate is fixedly connected to one side of the first storage recess plate, the cell spring recess plate is arranged on the second storage recess plate, the third storage recess plate is fixedly connected to one side of the second storage recess plate, the lower cell gasket recess plate is arranged on the third storage recess plate, the fourth storage recess plate is fixedly connected to one side of the fourth storage recess plate, the fourth storage recess plate is fixedly connected to the fifth storage recess plate is arranged on one side of the fifth storage recess plate, the fifth storage recess plate is fixedly connected to the fifth storage recess plate is arranged on the fifth storage recess plate, the fifth storage recess plate is fixedly connected to the sixth storage recess plate is arranged on one side of the fifth storage recess plate is fixedly connected to the fifth storage recess plate is fixedly arranged on the fifth storage recess plate, the fifth storage recess plate is fixedly connected to the fifth storage recess plate is fixedly arranged on the fifth storage recess plate is arranged on the fourth storage recess plate, and is fixedly connected to the fourth storage recess plate, and arranged on the fourth storage recess plate is arranged on the fourth storage recess, and is arranged, the ninth is placed recess fixed connection in one side of eighth and is placed the recess, the equipment is placed the recess board and is set up on the recess is placed to the ninth, place the setting of spacing component and be a plurality of, and a plurality of spacing components of placing are installed respectively in first recess, second and are placed recess, third and place recess, fourth and place recess, fifth and place recess, sixth and place recess, seventh and place recess, eighth and place in recess.

The button battery shell feeding mechanism comprises a fixed seat, two supporting slide bars, an electric control lifting rod, a lifting controller, a lifting sliding seat, an assembling concave cylinder, an installing top seat and an assembling convex cylinder, wherein the fixed seat is fixedly connected to a fixed table, the supporting slide bars are fixedly connected to the top of the fixed seat, the number of the supporting slide bars is two, the electric control lifting rod is fixedly arranged on the top of the fixed seat, the lifting controller is arranged on the fixed seat, the lifting sliding seat is slidably connected to the supporting slide bars, the bottom of the lifting sliding seat is fixedly connected with the output end of the electric control lifting rod, the assembling concave cylinder is fixedly connected to the top of the lifting sliding seat, the installing top seat is fixedly arranged on the top end of the supporting slide bar, and the assembling convex cylinder is matched with the assembling concave cylinder.

The invention relates to a feeding mechanism for a button cell shell, which comprises a transverse electric control guide rail, a longitudinal electric control guide rail, a connecting seat, a servo electric cylinder, a square seat, a servo motor, a material taking component and a limit sliding rod, wherein the transverse electric control guide rail is fixedly arranged on an assembly frame, the longitudinal electric control guide rail is fixedly arranged on the transverse electric control guide rail, the connecting seat is fixedly connected to the longitudinal electric control guide rail, the servo electric cylinder is fixedly arranged in the connecting seat, the square seat is fixedly connected to the output end of the servo electric cylinder, the servo motor is fixedly arranged in the square seat, the material taking component is fixedly connected to the output end of the servo motor, the limit sliding rod is fixedly connected to the assembly frame, and the limit sliding rod is in sliding connection with the longitudinal electric control guide rail.

The invention relates to a feeding mechanism of a button cell shell, which comprises an L-shaped seat, an electric control telescopic rod, a telescopic controller, a movable seat, a strip-shaped seat, an installation inclined frame, an electrolyte guide head, an electrolyte storage box, an electrolyte injection pump and an electrolyte injection guide pipe, wherein the L-shaped seat is fixedly connected to a fixed table, the electric control telescopic rod is fixedly arranged in the L-shaped seat, the telescopic controller is arranged on the L-shaped seat, the movable seat is slidably connected to the L-shaped seat, one side of the movable seat is fixedly connected with the output end of the electric control telescopic rod, the strip-shaped seat is fixedly connected to the top of the movable seat, the installation inclined frame is fixedly arranged on the strip-shaped seat, the electrolyte guide head is arranged on the installation inclined frame, the electrolyte storage box is fixedly arranged at the top of the L-shaped seat, one end of the electrolyte injection pump is fixedly arranged on the L-shaped seat, one end of the electrolyte injection pump is communicated with the inside the electrolyte storage box, the electrolyte injection guide pipe is communicated with the other end of the electrolyte injection pump, and one end of the electrolyte injection guide pipe is communicated with one end of the electrolyte guide head.

As the feeding mechanism of the button cell shell, the limiting member comprises the limiting slide cylinder, the limiting slide ring, the limiting spring and the limiting jacking column, wherein the limiting slide cylinder is fixedly connected to the first placing recess, the second placing recess, the third placing recess, the fourth placing recess, the fifth placing recess, the sixth placing recess, the seventh placing recess, the eighth placing recess and the ninth placing recess, the limiting slide ring is slidably connected to the limiting slide cylinder, the limiting spring is arranged between the limiting slide cylinder and the limiting slide ring, and the limiting jacking column is fixedly connected to one end of the limiting slide ring.

As a feeding mechanism of a button cell shell, the feeding mechanism comprises a mounting disc, a first square seat, a cell shell sucking head, a first vacuum absorber, a first adsorption controller, a second square seat, an electromagnetic absorber, an electromagnetic adsorption controller, a third square seat, a gasket sucking head, a second vacuum absorber, a second adsorption controller, a fourth square seat, a positive and negative pole piece sucking head, a third vacuum absorber, a third adsorption controller, a fifth square seat, a diaphragm sucking head, a fourth vacuum absorber and a fourth adsorption controller, wherein the mounting disc is fixedly connected with the output end of a servo motor, the first square seat is fixedly connected to the mounting disc, the cell shell sucking head is fixedly arranged at the bottom of the first square seat, the first vacuum absorber is fixedly arranged on the mounting disc, one end of the first vacuum absorber is communicated with one end of the cell shell sucking head, the first adsorption controller is arranged on the first vacuum absorber, the second square seat is fixedly connected to the mounting disc, the electromagnetic absorber is fixedly arranged at the bottom of the second square seat, the electromagnetic absorber is fixedly arranged on the bottom of the third square seat, the electromagnetic absorber is fixedly connected to the positive and negative pole piece sucking head, the electromagnetic absorber is fixedly arranged on the third square absorber, the positive and negative pole piece sucking head is fixedly connected to the third vacuum absorber, the positive and negative pole piece sucking head is fixedly arranged on the third square absorber, the positive and negative pole piece sucking head is fixedly arranged on the third vacuum absorber, the positive and negative pole piece sucking head is fixedly connected to one end of the third vacuum absorber, the third adsorption controller is arranged on the third vacuum adsorber, the fifth square seat is fixedly connected to the mounting disc, the diaphragm adsorption head is fixedly arranged at the bottom of the fifth square seat, the fourth vacuum adsorber is fixedly arranged on the mounting disc, one end of the fourth vacuum adsorber is communicated with one end of the diaphragm adsorption head, and the fourth adsorption controller is arranged on the fourth vacuum adsorber.

As the feeding mechanism of the button cell shell, the surfaces of the cell bottom shell concave plate, the cell spring concave plate, the lower cell gasket concave plate, the cell negative plate concave plate, the cell diaphragm concave plate, the cell positive plate concave plate, the upper cell gasket concave plate, the cell top shell concave plate and the assembled placing concave plate are all provided with a plurality of placing grooves which are distributed in an array.

The invention provides a button cell shell feeding mechanism. The beneficial effects are as follows:

this button cell casing feed mechanism, through button cell equipment mechanism, the supporting seat, the mount pad, control the panel, the equipment framework, electronic airtight door, the observation window, battery part deposits the subassembly, the mount pad, button cell pressure equipment subassembly, the subassembly is transferred to the equipment part and electrolyte injection component's setting, can carry out the material loading to button cell accessory and move and get, be favorable to accurate transfer one by one to button cell accessory, thereby can accurately transfer button cell accessory to the equipment processing position, improve the effect of button cell accessory material loading, reduce staff's intensity of labour, can also assemble the button cell accessory of material loading simultaneously, be favorable to carrying out the cooperation to the loading attachment and use, thereby can be accurate assemble button cell accessory, improve button cell equipment processing's effect, promote button cell processing's quality.

Drawings

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

FIG. 2 is a perspective side view of the structure of the present invention;

FIG. 3 is a perspective view of a first partial structure of the present invention;

FIG. 4 is a partial structural elevation view of the present invention;

FIG. 5 is a perspective view of a second partial structure of the present invention;

FIG. 6 is a perspective view of a third partial structure of the present invention;

FIG. 7 is a perspective view of a fourth partial structure of the present invention;

FIG. 8 is an exploded view of a partial structure of the present invention;

FIG. 9 is a partial cross-sectional view of the present invention;

FIG. 10 is an enlarged view of the structure of FIG. 9A in accordance with the present invention;

FIG. 11 is a perspective view of a fifth partial structure of the present invention;

FIG. 12 is a perspective view of a sixth partial structure of the present invention;

FIG. 13 is a perspective view of a seventh partial structure of the present invention;

fig. 14 is a perspective view of an eighth partial structure of the present invention.

In the figure: 1. a button cell assembly mechanism; 101. a support base; 102. a mounting table; 103. a control panel; 104. assembling a frame body; 105. an electric airtight door; 106. an observation window; 107. a battery part storage assembly; 10701. a first placement recess; 10702. a battery bottom case concave plate; 10703. a second placement recess; 10704. a battery spring recess plate; 10705. a third placement groove; 10706. a lower battery gasket recess plate; 10707. a fourth placement groove; 10708. a battery negative plate concave plate; 10709. a fifth placement groove; 10710. a battery diaphragm concave plate; 10711. a sixth placement recess; 10712. a battery positive plate concave plate; 10713. seventh placement recess; 10714. a concave plate of the upper battery gasket; 10715. an eighth placement groove; 10716. a battery top case recess plate; 10717. a ninth placement groove; 10718. assembling and placing a concave plate; 10719. placing a limiting member; 1071901, a limiting slide cylinder; 1071902, a limit slip ring; 1071903, a limit spring; 1071904, spacing jack posts; 108. a fixed table; 109. a button cell press-fitting assembly; 10901. a fixing seat; 10903. supporting a slide bar; 10904. an electric control lifting rod; 10905. a lifting controller; 10906. lifting the sliding seat; 10907. assembling a concave cylinder; 10908. installing a top seat; 10909. assembling a convex cylinder; 110. assembling a part transfer assembly; 11001. a transverse electric control guide rail; 11002. a longitudinal electric control guide rail; 11003. a connecting seat; 11004. a servo electric cylinder; 11005. a square seat; 11006. a servo motor; 11007. a take-out member; 1100701, mounting plate; 1100702, first receptacle; 1100703, a battery case suction head; 1100704, a first vacuum adsorber; 1100705, a first adsorption controller; 1100706, a second square seat; 1100707, electromagnetic adsorbers; 1100708, electromagnetic adsorption controller; 1100709, third party base; 1100710, pad suction head; 1100711, a second vacuum adsorber; 1100712, a second adsorption controller; 1100713, fourth seat; 1100714, positive and negative pole piece adsorption heads; 1100715, a third vacuum adsorber; 1100716, a third adsorption controller; 1100717, fifth square seat; 1100718, membrane adsorption head; 1100719, fourth vacuum adsorber; 1100720, fourth adsorption controller; 11008. a limit slide bar; 111. an electrolyte injection assembly; 11101. an L-shaped seat; 11102. an electric control telescopic rod; 11103. a telescoping controller; 11104. a movable seat; 11105. a strip-shaped seat; 11106. installing an inclined frame; 11107. a liquid injection guide head; 11108. an electrolyte storage tank; 11109. a liquid injection pump; 11110. and a liquid injection conduit.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 14, the present invention provides a technical solution: the button cell assembly mechanism 1 comprises a supporting seat 101, a mounting table 102 is fixedly mounted at the top of the supporting seat 101, an operation panel 103 is mounted on the surface of the mounting table 102, an assembly frame 104 is fixedly connected to the top of the mounting table 102, an electric airtight door 105 is mounted on one side of the assembly frame 104, an observation window 106 is fixedly mounted on the surface of the electric airtight door 105, a battery part storage assembly 107 is fixedly mounted inside the assembly frame 104, a fixing table 108 is fixedly connected to the inside of the assembly frame 104, a button cell press-mounting assembly 109 is fixedly mounted at the top of the fixing table 108, an assembly part transfer assembly 110 is fixedly mounted inside the assembly frame 104, an electrolyte injection assembly 111 is fixedly mounted at the top of the fixing table 108, and the electrolyte injection assembly 111 is matched with the button cell press-mounting assembly 109.

Referring to fig. 8, the battery part storage assembly 107 includes a first placement recess 10701, a battery bottom case recess 10702, a second placement recess 10703, a battery spring recess 10704, a third placement recess 10705, a lower battery gasket recess 10706, a fourth placement recess 10707, a battery negative plate recess 10708, a fifth placement recess 10709, a battery diaphragm recess 10710, a sixth placement recess 10711, a battery positive plate recess 10712, a seventh placement recess 10713, an upper battery gasket recess 10714, an eighth placement recess 10715, a battery top case recess 10716, a ninth placement recess 10717, an assembly placement recess 10718, and a placement limiting member 10719, the first placement recess 10701 being fixedly connected to the assembly frame 104, the battery bottom case recess 10702 being disposed on the first placement recess 10701, the second placement recess 10703 being fixedly connected to one side of the first placement recess 10701, the battery spring recess 10704 being disposed on the second placement recess 10703, the third placing groove 10705 is fixedly connected with one side of the second placing groove 10703, the lower end battery gasket concave plate 10706 is arranged on the third placing groove 10705, the fourth placing groove 10707 is fixedly connected with one side of the third placing groove 10705, the battery negative plate concave plate 10708 is arranged on the fourth placing groove 10707, the fifth placing groove 10709 is fixedly connected with one side of the fourth placing groove 10707, the battery diaphragm concave plate 10710 is arranged on the fifth placing groove 10709, the sixth placing groove 10711 is fixedly connected with one side of the fifth placing groove 10709, the battery positive plate concave plate 10712 is arranged on the sixth placing groove 10711, the seventh placing groove 10713 is fixedly connected with one side of the sixth placing groove 10711, the upper end battery gasket concave plate 10714 is arranged on the seventh placing groove 10713, the eighth placing groove 10715 is fixedly connected with one side of the seventh placing groove 10713, the battery top shell concave plate 10716 is arranged on the eighth placing groove 10715, the ninth place recess 10717 fixed connection is in one side of eighth place recess 10715, the equipment is placed recess 10718 and is set up in the ninth place recess 10717, the setting of placing spacing member 10719 is a plurality of, and a plurality of spacing members 10719 are installed respectively in the first recess 10701 of placing, the recess 10703 is placed to the second, the recess 10705 is placed to the third, the recess 10707 is placed to the fourth, the recess 10709 is placed to the fifth place, recess 10711 is placed to the sixth place, recess 10713 is placed to the seventh place, recess 10715 and ninth place in recess 10717 are placed to the eighth place, the setting of recess 10701 and battery pan recess 10702 is placed through the first place, can conveniently accomodate the button battery pan accessory and place, the setting of recess 10703 and battery spring recess 10704 is placed through the second, can conveniently accomodate the button cell shell fragment and place, can conveniently accomodate the recess 10706 through the setting of recess 10707 and lower extreme battery cell plate recess 10706, can conveniently accomodate the button cell recess 10709 through the setting of fourth place recess 07 and battery negative pole piece recess 10708, can conveniently place the battery plate 10715 and the positive and can place the battery plate 10716 through the setting up the recess 10716 through the setting up of the recess 10714, can conveniently place the positive plate and can place the battery plate 10716 through the setting up the recess 10716, can conveniently place the battery plate and the setting up the battery plate 10716 through the positive plate and the setting up of recess 107through the recess plate and the battery plate of recess hole of recess 10714, the convenience set up top plate and the convenience is placed through the setting up top plate of the recess hole 10716, the convenience plate. Can conveniently carry out spacing installation to battery drain pan recess 10702, battery spring recess 10704, lower extreme battery gasket recess 10706, battery negative pole piece recess 10708, battery diaphragm recess 10710, battery positive pole piece recess 10712, upper end battery gasket recess 10714, battery top shell recess 10716 and equipment and place recess 10718.

Referring to fig. 11 and 12, the button battery press-fitting assembly 109 includes a fixing seat 10901, a supporting slide bar 10903, an electric control lifting rod 10904, a lifting controller 10905, a lifting sliding seat 10906, an assembling concave cylinder 10907, an installing top seat 10908 and an assembling convex cylinder 10909, the fixing seat 10901 is fixedly connected to the fixing table 108, the supporting slide bar 10903 is fixedly connected to the top of the fixing seat 10901, the number of the supporting slide bars 10903 is two, the electric control lifting rod 10904 is fixedly arranged at the top of the fixing seat 10901, the lifting controller 10905 is arranged on the fixing seat 10901, the lifting sliding seat 10906 is slidably connected to the supporting slide bar 10903, the bottom of the lifting sliding seat 10906 is fixedly connected to the output end of the electric control lifting rod 10904, the assembling concave cylinder 10907 is fixedly connected to the top of the lifting sliding seat 10906, the installing top seat 10908 is fixedly arranged at the top end of the supporting slide bar 10903, the assembling convex cylinder 10909 is fixedly connected to the installing top seat 10908, the assembling convex cylinder 10909 is matched with the assembling concave cylinder 10907, the electric control lifting rod 10903 is arranged at the top of the fixing seat 01, the lifting sliding seat 10904, the lifting sliding seat 10962 and the lifting controller 10905 can be conveniently lifted and the lifting sliding seat 10906 can be assembled by the lifting and the lifting controller 10906.

Referring to fig. 6 and 7, the assembled part transferring assembly 110 includes a transverse electric control rail 11001, a longitudinal electric control rail 11002, a connecting seat 11003, a servo electric cylinder 11004, a square seat 11005, a servo motor 11006, a material taking member 11007 and a limit slide bar 11008, wherein the transverse electric control rail 11001 is fixedly installed on the assembled frame 104, the longitudinal electric control rail 11002 is fixedly installed on the transverse electric control rail 11001, the connecting seat 11003 is fixedly connected on the longitudinal electric control rail 11002, the servo electric cylinder 11004 is fixedly installed in the connecting seat 11003, the square seat 11005 is fixedly connected to the output end of the servo electric cylinder 11004, the servo motor 11006 is fixedly installed in the square seat 11005, the material taking member 11007 is fixedly connected to the output end of the servo motor 11006, the limit slide bar 11008 is fixedly connected in the assembled frame 104, and the limit slide bar 11008 is in sliding connection with the longitudinal electric control rail 11002, the material taking member 11007 can be driven to move and adjusted through the arrangement of the transverse electric control rail 11001, the longitudinal electric control rail 11002 and the limit slide bar 11008, the material taking member 11007 can be driven to move and adjusted through the arrangement of the connecting seat 11003 and the servo electric motor 11004, the material taking member 11007 can be conveniently taken through the arrangement of the connecting seat 11007, the battery 11007 can be driven to take material through the adjustment, the device, the material taking member 11007 can be conveniently and the material taking member is conveniently adjusted.

Referring to fig. 13, the electrolyte injection assembly 111 includes an L-shaped seat 11101, an electrically controlled telescoping rod 11102, a telescoping controller 11103, a movable seat 11104, a bar-shaped seat 11105, a mounting bracket 11106, a liquid injection guide head 11107, an electrolyte storage tank 11108, a liquid injection pump 11109 and a liquid injection conduit 11110, the L-shaped seat 11101 is fixedly connected to a fixed table 108, the electrically controlled telescoping rod 11102 is fixedly mounted in the L-shaped seat 11101, the telescoping controller 11103 is mounted on the L-shaped seat 11101, the movable seat 11104 is slidably connected to the L-shaped seat 11101, one side of the movable seat 11104 is fixedly connected to the output end of the electrically controlled telescoping rod 11102, the bar-shaped seat 11105 is fixedly connected to the top of the movable seat 11104, the mounting bracket 11106 is fixedly mounted on the bar-shaped seat 11105, the liquid injection guide head 11107 is mounted on the mounting bracket 11106, electrolyte bin 11108 fixed mounting is in the top of L type seat 11101, injection pump 11109 fixed mounting is on L type seat 11101, and the one end and the inside intercommunication of electrolyte bin 11108 of injection pump 11109, annotate the liquid pipe 11110 and communicate in the other end of injection pump 11109, and annotate the one end and the one end intercommunication of annotating liquid guide head 11107 of liquid pipe 11110, through L type seat 11101, automatically controlled telescopic link 11102, telescopic controller 11103 and the setting of movable seat 11104, can conveniently drive annotate liquid guide head 11107 and remove the regulation, through bar seat 11105, installation sloping 11106, annotate liquid guide head 11107, electrolyte bin 11108, annotate the setting of liquid pipe 11109 and annotate liquid pipe 11110, can conveniently pour into electrolyte on the accessory in the equipment concave section of thick bamboo 10907.

Referring to fig. 10, the positioning limiting member 10719 includes a limiting slide cylinder 1071901, a limiting slide ring 1071902, a limiting spring 1071903 and a limiting top column 1071904, wherein the limiting slide cylinder 1071901 is fixedly connected to one end of the limiting slide ring 1071902, and through the arrangement of the limiting slide cylinder 1071901, the limiting slide ring 1071902, the limiting spring 1071903 and the limiting top column 1071904, the battery bottom shell recess 10702, the battery spring recess 10704, the lower end battery gasket recess 10706, the battery negative plate recess 10708, the battery diaphragm recess 10, the battery positive plate recess 10712, the upper end battery gasket 10714 and the top plate 10718 can be assembled by the setting of the limiting slide cylinder 1071901, the first positioning recess 10701, the second positioning recess 10703, the third positioning recess 10705, the fourth positioning recess 10707, the fifth positioning recess 10709, the sixth positioning recess 10711, the seventh positioning recess 10713, the eighth positioning recess 10715 and the ninth positioning recess 10717, the limiting slide ring 1071902 is slidably connected to the limiting slide cylinder 1071901, the limiting spring 1071903 is mounted between the limiting slide cylinder 1071901 and the limiting slide ring 1071902, and the limiting top column 1071904 is fixedly connected to one end of the limiting slide ring 1071902.

Referring to fig. 14, a material taking member 11007 includes a mounting plate, a first square seat, a battery case suction head, a first vacuum adsorber, a first adsorption controller, a second square seat, an electromagnetic adsorber, an electromagnetic adsorption controller, a third square seat, a gasket suction head, a second vacuum adsorber, a second adsorption controller, a fourth square seat, a positive and negative pole piece suction head, a third vacuum adsorber, a third adsorption controller, a fifth square seat, a membrane suction head, a fourth vacuum adsorber and a fourth adsorption controller, the mounting plate is fixedly connected to an output end of a servo motor 11006, the first square seat is fixedly connected to the mounting plate, the battery case suction head is fixedly mounted at a bottom of the first square seat, the first vacuum adsorber is fixedly mounted on the mounting plate, one end of the first vacuum adsorber is communicated with one end of the battery case suction head, the first adsorption controller is mounted on the first vacuum adsorber, the second square seat is fixedly connected to the mounting plate, the electromagnetic adsorber is fixedly mounted at a bottom of the second square seat, the electromagnetic adsorption controller is mounted on the second square seat is fixedly connected to the second square seat, the first vacuum adsorber is fixedly connected to the bottom of the third vacuum adsorber, the gasket suction head is fixedly mounted on the positive and negative pole piece suction head is fixedly connected to the third end of the fourth vacuum adsorber, the positive and negative pole piece suction head is fixedly mounted on the third vacuum adsorber, the positive and negative pole piece suction head is fixedly connected to the fourth end of the fourth vacuum adsorber, the third adsorption controller 1100716 is installed on third vacuum adsorber 1100715, fifth square seat 1100717 fixed connection is on mounting disc 1100701, diaphragm adsorption head 1100701 fixed mounting is in the bottom of fifth square seat 1100701, fourth vacuum adsorber 1100701 fixed mounting is on mounting disc 1100701, and the one end of fourth vacuum adsorber 1100701 and the one end intercommunication of diaphragm adsorption head 1100701, fourth adsorption controller 1100701 installs on fourth vacuum adsorber 1100701, through mounting disc 1100701, first square seat 1100701, battery case absorbs first 1100701, first vacuum adsorber 1100701 and first adsorption controller 1100701's setting, can conveniently absorb button cell drain pan, through second square seat 1100701, electromagnetic adsorption controller 1100701 and electromagnetic adsorption controller 1100701's setting, can conveniently adsorb button cell shell fragment, through third square seat 1100701, gasket absorption head 1100701, second vacuum adsorber 1100701 and second adsorption controller 1100701's setting, can conveniently absorb button cell upper and lower gasket, through fourth square seat 1100701, positive negative pole piece 1100701, third vacuum adsorber 1100701 and third vacuum adsorber 1100701, the setting can conveniently absorb the button cell drain pan, and fourth vacuum adsorber 1100701, the setting can conveniently absorb the fourth vacuum adsorber 1100701 through fourth square seat 1100701, the setting up and fourth vacuum adsorber 1100701.

Referring to fig. 8, the surfaces of the battery bottom shell recess 10702, the battery spring recess 10704, the lower end battery gasket recess 10706, the battery negative plate recess 10708, the battery diaphragm recess 10710, the battery positive plate recess 10712, the upper end battery gasket recess 10714, the battery top shell recess 10716 and the assembly placement recess 10718 are all provided with a plurality of placement grooves, and the plurality of placement grooves are distributed in an array, and through the arrangement of the battery bottom shell recess 10702, the battery spring recess 10704, the lower end battery gasket recess 10706, the battery negative plate recess 10708, the battery diaphragm recess 10710, the battery positive plate recess 10712, the upper end battery gasket recess 10714, the battery top shell recess 10716 and the assembly placement recess 10718, a plurality of button battery accessories can be conveniently and correspondingly placed at the same time.

When the electric airtight door 105 is used, firstly, a worker controls the electric airtight door 105 to rotate and open through the control panel 103, then, the worker controls the electric airtight door 105 to correspondingly install the battery bottom shell concave plate 10702, the battery spring concave plate 10704, the lower end battery gasket concave plate 10706, the battery negative electrode plate concave plate 10708, the battery diaphragm concave plate 10710, the battery positive electrode plate concave plate 10712, the upper end battery gasket concave plate 10714, the battery top shell concave plate 10716 and the assembly placement concave plate 10718 to the first placement concave plate 10701, the second placement concave plate 10703, the third placement concave plate 10705, the fourth placement concave plate 10707, the fifth placement concave plate 10709, the sixth placement concave plate 10711, the seventh placement concave plate 10713, the eighth placement concave plate 10715 and the ninth placement concave plate 10717, and then controls the electric airtight door 10718 to be closed through the placement limiting members 10719;

Then, the worker starts the button cell press-fitting assembly 109, the assembly part transfer assembly 110 and the electrolyte injection assembly 111 to work through the control panel 103, then, the placed button cell accessories are transferred through the assembly part transfer assembly 110, then, the bottom shell in the cell bottom shell concave plate 10702 is adsorbed and transferred into the assembly concave cylinder 10907 through the cell shell adsorption head 1100703, then, the spring in the cell spring concave plate 10704 is magnetically adsorbed and transferred into the assembly concave cylinder 10907 through the electromagnetic adsorption device 1100707 and placed on the bottom shell in the assembly concave cylinder 10907, then, the lower end gasket is adsorbed and transferred into the assembly concave cylinder 10907 through the gasket adsorption head 1100710 and placed on the spring in the assembly concave cylinder 10907, then, the negative electrode sheet is adsorbed and transferred into the assembly concave cylinder 10907 through the positive and negative electrode sheet adsorption head 1100714 and placed on the lower end gasket in the assembly concave cylinder 10907, and then, the diaphragm is adsorbed and transferred into the assembly concave cylinder 10907 through the diaphragm adsorption head 1100718 and placed on the negative electrode sheet in the assembly concave cylinder 10907;

at this time, the electric control telescopic rod 11102 is controlled by the telescopic controller 11103 to drive the movable seat 11104 to move forwards, then one end of the electrolyte injection guide head 11107 is driven to move to the top of the assembled concave cylinder 10907, then electrolyte in the electrolyte storage tank 11108 is pumped into the electrolyte injection guide tube 11110 through the electrolyte injection guide head 11109, the electrolyte is injected into a diaphragm in the assembled concave cylinder 10907 through the electrolyte injection guide head 11107, then the electrolyte injection guide head 11107 is driven to move to an original position through the electric control telescopic rod 11102, then a positive plate is adsorbed and transferred to the diaphragm in the assembled concave cylinder 10907 through the positive plate adsorption head 1100714, then the upper end gasket is adsorbed and transferred to the positive plate in the assembled concave cylinder 10907 through the gasket adsorption head 1100710, then the top shell is adsorbed and transferred to the upper end gasket in the assembled concave cylinder 10907 through the battery shell adsorption head 1100703, and at the same time, the electric control lifting rod 10904 is controlled by the lifting controller 10905 to drive the lifting slide 10906 to slide upwards, and then the assembled concave cylinder 10907 is driven to move and clamped to the assembled convex cylinder 10909, and the battery accessory is assembled and processed;

After the button cell is assembled, the lifting sliding seat 10906 is moved to the original position by the electric control lifting rod 10904, then the button cell assembled in the assembled concave cylinder 10907 is absorbed and transferred by the cell shell absorbing head 1100703, and the button cell is placed in a groove corresponding to the surface of the assembled placing concave plate 10718;

repeating the above operation, and completing the whole feeding and assembling of the button cell fittings.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to substitute or change the technical scheme and the novel concept of the present invention within the scope of the present invention.

Claims (5)

1. Button cell casing feed mechanism, its characterized in that includes:

the button battery assembling mechanism (1), button battery assembling mechanism (1) comprises a supporting seat (101), an installing table (102) is fixedly installed at the top of the supporting seat (101), a control panel (103) is installed on the surface of the installing table (102), an assembling frame body (104) is fixedly connected to the top of the installing table (102), an electric airtight door (105) is installed on one side of the assembling frame body (104), an observation window (106) is fixedly installed on the surface of the electric airtight door (105), a battery part storage assembly (107) is fixedly installed in the assembling frame body (104), a fixing table (108) is fixedly connected to the inside of the assembling frame body (104), a button battery pressing assembly (109) is fixedly installed at the top of the fixing table (108), an assembling part transferring assembly (110) is fixedly installed in the inside of the assembling frame body (104), an electrolyte injection assembly (111) is fixedly installed at the top of the fixing table (108), and the electrolyte injection assembly (111) is matched with the button battery pressing assembly (109);

The battery part storage component (107) comprises a first placement recess (10701), a battery bottom shell recess plate (10702), a second placement recess plate (10703), a battery spring recess plate (10704), a third placement recess (10705), a lower end battery gasket recess plate (10706), a fourth placement recess (10707), a battery negative plate recess plate (10708), a fifth placement recess (10709), a battery diaphragm recess plate (10710), a sixth placement recess plate (10711), a battery positive plate recess plate (10712), a seventh placement recess plate (10713), an upper end battery gasket recess plate (10714), an eighth placement recess plate (10715), a battery top shell recess plate (10716), a ninth placement recess plate (10717), an assembly placement recess plate (10718) and a placement limiting member (10719), wherein the first placement recess plate (10701) is fixedly connected to the assembly frame (104), the battery bottom shell recess plate (10702) is arranged on the first placement recess plate (10701), the second placement recess plate (10703) is fixedly connected to one side of the first placement recess plate (10701), the second placement recess plate (10705) is fixedly connected to the third placement recess plate (10705) is arranged on the third placement recess plate (10705), the battery negative plate concave plate (10708) is fixedly connected to one side of the third placement groove (10705), the battery negative plate concave plate (10708) is arranged on one side of the fourth placement groove (10707), the fifth placement groove (10709) is fixedly connected to one side of the fourth placement groove (10707), the battery diaphragm concave plate (10710) is arranged on one side of the fifth placement groove (10709), the sixth placement groove (10711) is fixedly connected to one side of the fifth placement groove (10709), the battery positive plate concave plate (10712) is arranged on one side of the sixth placement groove (10711), the seventh placement groove (10713) is fixedly connected to one side of the sixth placement groove (10711), the upper end battery gasket concave plate (10714) is arranged on one side of the seventh placement groove (10713), the battery top shell concave plate (10716) is arranged on one side of the eighth placement groove (10715), the ninth placement groove (10717) is fixedly connected to one side of the ninth placement groove (10711), the ninth placement groove (10717) is arranged on one side of the ninth placement groove (10703), the ninth placement groove (10717) is fixedly connected to one side of the eighth placement groove (10711) A fifth placing groove (10709), a sixth placing recess (10711), a seventh placing recess (10713), an eighth placing groove (10715) and a ninth placing groove (10717);

The assembly part transfer assembly (110) comprises a transverse electric control guide rail (11001), a longitudinal electric control guide rail (11002), a connecting seat (11003), a servo electric cylinder (11004), a square seat (11005), a servo motor (11006), a material taking component (11007) and a limit sliding rod (11008), wherein the transverse electric control guide rail (11001) is fixedly arranged on an assembly frame body (104), the longitudinal electric control guide rail (11002) is fixedly arranged on the transverse electric control guide rail (11001), the connecting seat (11003) is fixedly connected to the longitudinal electric control guide rail (11002), the servo electric cylinder (11004) is fixedly arranged in the connecting seat (11003), the square seat (11005) is fixedly connected to the output end of the servo electric cylinder (11004), the servo motor (11006) is fixedly arranged in the square seat (11005), the material taking component (11007) is fixedly connected to the output end of the servo motor (11006), and the limit sliding rod (11008) is fixedly connected to the assembly frame body (104) and the limit sliding rod (11008) is fixedly connected to the longitudinal electric control guide rail (11002);

the material taking component (11007) comprises a mounting disc (1100701), a first square seat (1100701), a battery shell absorption head (1100701), a first vacuum absorber (1100701), a first absorption controller (1100701), a second square seat (1100701), an electromagnetic absorber (1100701), an electromagnetic absorption controller (1100701), a third square seat (1100701), a gasket absorption head (1100701), a second vacuum absorber (1100701), a second absorption controller (1100701), a fourth square seat (1100701), a positive and negative pole piece absorption head (1100701), a third vacuum absorber (1100701), a third absorption controller (1100701), a fifth square seat (1100701), a membrane absorption head (1100701), a fourth vacuum absorber (1100701) and a fourth absorption controller (1100701), wherein the mounting disc (1100701) is fixedly connected to the output end of a servo motor (11006), the battery shell absorption head (1100701) is fixedly mounted at the bottom of the first square seat (1100701), the first vacuum absorber (1100701) is fixedly mounted on the first end (1100701) of the first vacuum absorber (1100701) and is fixedly connected with the first vacuum absorber (1100701) at one end (1100701) of the first vacuum absorber (1100701), the electromagnetic absorber (1100707) is fixedly arranged at the bottom of the second square seat (1100706), the electromagnetic absorption controller (1100708) is arranged on the second square seat (1100706), the third square seat (1100709) is fixedly connected to the mounting disc (1100701), the gasket absorption head (1100710) is fixedly arranged at the bottom of the third square seat (1100709), the second vacuum absorber (1100711) is fixedly arranged on the mounting disc (1100701), one end of the second vacuum absorber (1100701) is communicated with one end of the gasket absorption head (1100701), the second absorption controller (1100701) is arranged on the second vacuum absorber (1100701), the fourth square seat (1100701) is fixedly connected to the mounting disc (1100701), the positive and negative pole piece absorption head (1100701) is fixedly arranged at the bottom of the fourth square seat (1100701), the third vacuum absorber (1100701) is fixedly arranged on the mounting disc (1100701), one end of the third vacuum absorber (1100701) is fixedly arranged on the third vacuum absorber (1100701) and one end of the positive and negative pole piece (1100701) is fixedly connected to the third vacuum absorber (1100701) which is fixedly arranged on the third vacuum absorber (1100701), and one end of the fourth vacuum absorber (1100719) is communicated with one end of the diaphragm adsorption head (1100718), and the fourth adsorption controller (1100720) is mounted on the fourth vacuum absorber (1100719).

2. The button cell casing feeding mechanism of claim 1, wherein: button cell pressure equipment subassembly (109) include fixing base (10901), support slide bar (10903), automatically controlled lifter (10904), lift controller (10905), lift slide (10906), equipment concave section of thick bamboo (10907), installation footstock (10908) and equipment protruding section of thick bamboo (10909), fixing base (10901) fixed connection is on fixed station (108), support slide bar (10903) fixed connection is in the top of fixing base (10901), and support the quantity of slide bar (10903) for two, automatically controlled lifter (10904) fixed mounting is in the top of fixing base (10901), lift controller (10905) are installed on fixing base (10901), lift slide (10906) sliding connection is on support slide bar (10903), and the bottom of lift slide (10906) is in the output fixed connection of automatically controlled lifter (10904), equipment concave section of thick bamboo (10907) fixed connection is in the top of lift slide (10906), installation footstock (10908) fixed mounting is in the top of supporting slide bar (10903), equipment footstock (10908) is fixed connection and is used in the equipment (10907) on protruding section of thick bamboo (10907).

3. The button cell casing feeding mechanism of claim 1, wherein: the electrolyte injection assembly (111) comprises an L-shaped seat (11101), an electric control telescopic rod (11102), a telescopic controller (11103), a movable seat (11104), a strip-shaped seat (11105), an installation inclined frame (11106), an electrolyte guide head (11107), an electrolyte storage tank (11108), an electrolyte pump (11109) and an electrolyte injection conduit (11110), wherein the L-shaped seat (11101) is fixedly connected to a fixed table (108), the electric control telescopic rod (11102) is fixedly arranged in the L-shaped seat (11101), the telescopic controller (11103) is arranged on the L-shaped seat (11101), the movable seat (11104) is connected to the L-shaped seat (11101) in a sliding manner, one side of the movable seat (11104) is fixedly connected to the output end of the electric control telescopic rod (11102), the strip-shaped seat (11105) is fixedly connected to the top of the movable seat (11104), the installation inclined frame (11106) is fixedly arranged on the seat (11105), the electrolyte guide head (11107) is arranged on the fixed seat (11101), the electrolyte guide head (11106) is arranged on the inclined frame (11101) and is fixedly connected to the top of the electrolyte pump (11109), one end (11109) is fixedly connected to the electrolyte pump (11101) and is fixedly arranged on the top of the liquid pump (11109) and is fixedly connected to the other end (11101), and one end of the liquid injection conduit (11110) is communicated with one end of the liquid injection guide head (11107).

4. The button cell casing feeding mechanism of claim 1, wherein: place spacing component (10719) including spacing slide (1071901), spacing sliding ring (1071902), spacing spring (1071903) and spacing jack-prop (1071904), spacing slide (1071901) fixed connection is in first recess (10701) of placing, recess (10703) are placed to the second, recess (10705) are placed to the third, recess (10707) are placed to the fourth, recess (10709) are placed to the fifth, recess (10711) are placed to the sixth, recess (10713) are placed to the seventh, recess (10715) are placed to the eighth and recess (10717) are placed to the ninth, spacing sliding ring (1071902) sliding connection is in spacing slide (1071901), spacing spring (1071903) is installed between spacing slide (1071901) and spacing sliding ring (1071902), spacing jack-prop (1071904) fixed connection is in the one end of spacing sliding ring (1071902).

5. The button cell casing feeding mechanism of claim 1, wherein: the battery bottom shell concave plate (10702), the battery spring concave plate (10704), the lower end battery gasket concave plate (10706), the battery negative plate concave plate (10708), the battery diaphragm concave plate (10710), the battery positive plate concave plate (10712), the upper end battery gasket concave plate (10714), the battery top shell concave plate (10716) and the surface of the assembly placement concave plate (10718) are all provided with a plurality of placement grooves, and the plurality of placement grooves are distributed in an array.