CN211846218U - Vibration sorting device for button cell positive electrode cover - Google Patents

Abstract

The utility model discloses a button cell positive plate cover vibration sorting unit, it includes the hopper of fixed mounting on the chassis, the inside cover of hopper is equipped with the inner hopper, leave the blanking clearance between the lateral wall of inner hopper and the inside wall of hopper, the blanking import has been seted up to the bottom of inner hopper, the inside wall of inner hopper is provided with the material loading track of screw-tupe, the separation track is installed at the top of the lateral wall of inner hopper, the centre gripping is fixed with transition track between the discharge end of the material loading track at separation track and the position at inner hopper top, the discharge end of separation track links up with the discharge track, discharge track level sets up, the backplate is all installed in the outside of transition track, the outside of separation track and the both sides of discharge track; the transition track and the upper surface of the sorting track are inclined downwards relative to a horizontal plane from inside to outside, at least two convex blocks are arranged on the upper surface of the sorting track at intervals, and the size of each convex block is slightly smaller than that of the positive electrode cover. The automatic positive cover sorting machine is compact in structure and realizes the automation of positive cover sorting.

Description

Vibration sorting device for button cell positive electrode cover

Technical Field

The utility model relates to a battery processing equipment field especially relates to a button cell positive plate lid vibration sorting unit.

Background

The vibrating disk is an auxiliary feeding device for automatic assembly or automatic processing machinery. The automatic assembling machine can arrange various products in order, and is matched with automatic assembling equipment to assemble various parts of the products into a complete product, or is matched with automatic processing machinery to finish processing workpieces.

The positive cover of the button cell is of a shallow-mouth cup-shaped structure, the cup mouth of the positive cover is placed downwards in the cell production process, then the negative cover provided with the positive plate is covered, and then the sealing process is carried out. The vibration dish that is used for carrying anodal lid at present only has the effect that prevents to pile up the sequence arrangement, can't sieve the anodal lid of rim of a cup up in the transportation process, can only rely on the manual work to reject. The manual removing mode wastes time and labor, and increases the production cost, so that the existing vibrating disk needs to be improved, and the anode cover with the upward cup opening can be automatically removed.

Disclosure of Invention

An object of the utility model is to provide a button cell positive plate cap vibration sorting unit.

Realize the utility model discloses the technical scheme of purpose is: a vibration sorting device for positive covers of button batteries comprises a hopper fixedly arranged on a chassis, the hopper is fixedly connected with the chassis, a vibration driver is arranged at the bottom of the chassis, an inner hopper is sleeved inside the hopper, the top of the inner hopper is open, a blanking gap is reserved between the outer side wall of the inner hopper and the inner side wall of the hopper, the chassis below the blanking gap is a blanking runway, the bottom of the inner hopper is fixedly connected with the chassis and is provided with a blanking inlet communicated with the outside of the inner hopper, a receiving baffle plate for gathering the positive covers at the blanking inlet is arranged on the blanking runway at the blanking inlet, a spiral feeding rail is arranged on the inner side wall of the inner hopper from bottom to top, an arc sorting rail is arranged at the top of the outer side wall of the inner hopper, a transition rail is clamped and fixed between the feeding end of the sorting rail and the discharging end of the feeding rail positioned at the top of, the discharge end of the sorting track is connected with the discharge track, the discharge track is horizontally arranged, and guard plates for preventing the anode covers meeting the requirements from falling are arranged on the outer side of the transition track, the outer side of the sorting track and the two sides of the discharge track; transition track and separation track upper surface from inside to outside relative horizontal plane downward sloping, the orbital upper surface of separation is provided with two at least lugs along the pay-off direction interval, the lug is for coming the material direction to the volume that the protruding smooth slope of discharging direction one side gradually and lug slightly is less than the volume of positive polar cap, and the maximum height of lug slightly is less than the thickness of positive polar cap, and the height that highly is slightly higher than the positive polar cap of the backplate in the separation track outside is less than the high sum of lug and positive polar cap.

Furthermore, a material stirring rod is arranged above the transition track, the material stirring rod is positioned on a path of the positive electrode cover entering the sorting track from the transition track, and the distance between the material stirring rod and the upper surface of the transition track is slightly larger than the radius of the positive electrode cover. The material stirring rod is used for preventing the positive electrode cover from leaning on the guard plate obliquely to influence the screening efficiency.

Furthermore, the connection section of the discharging rail and the sorting rail is provided with a slope for correcting the inclination angle, and the discharging section of the discharging rail is horizontally arranged. The positive electrode cover can enter the discharging rail from the sorting rail more smoothly.

The utility model discloses a positive polar cap pours into by interior fill top when button cell positive polar cap vibration sorting unit uses, and later get into the material loading track along with the vibrations on chassis under vibration driver's drive, the positive polar cap of part superpose falls into interior fill inside, the positive polar cap of all the other superposes slides through the transition track and falls into the separation track, if the lug is invertd to the positive polar cap, the positive polar cap of the positive polar cap top of the back-off of overlapping in together from backplate top roll-off track, the positive polar cap that shell opening up also can overlap in on the lug and the roll-off track along with vibrations, the positive polar cap of the back-off that meets the requirements is smooth through ejection of compact track ejection of compact, therefore, the separation of positive polar cap has been realized, compact structure, the separation efficiency of positive polar cap has.

Drawings

Fig. 1 is a schematic perspective view of a vibration sorting device for a positive cover of a button cell according to an embodiment of the present invention, wherein an arrow represents a feeding direction;

fig. 2 is the embodiment of the utility model provides a button cell positive cover vibration sorting unit does not contain the main structure sketch map of hopper.

Detailed Description

The following description of the preferred embodiments of the present invention will be made with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, a vibration sorting device for a button cell positive electrode cover comprises a hopper 2 fixedly installed on a chassis 1, a vibration driver 3 is installed at the bottom of the chassis 1, an inner hopper 4 is sleeved inside the hopper 2, the top of the inner hopper 4 is open, a blanking gap is left between the outer side wall 41 of the inner hopper 4 and the inner side wall 21 of the hopper 2, a blanking runway 11 is arranged below the blanking gap, the bottom of the inner hopper 4 is fixedly connected with the chassis 1 and is provided with a blanking inlet 42 communicated with the outside of the inner hopper 4, a receiving baffle 421 for gathering the positive electrode cover 10 at the blanking inlet 42 is installed on the blanking runway 11 at the blanking inlet 42, a spiral feeding rail 51 is arranged on the inner side wall 43 of the inner hopper 4 from bottom to top, an arc-shaped sorting rail 52 is installed at the top of the outer side wall 41 of the inner hopper 4, a transition rail 53 is clamped and fixed between the feeding end 521 of the sorting rail 52 and the discharging end 511 of the feeding rail 51 at the top, the discharge end 522 of the sorting track 52 is connected with the discharge track 54, the connection section 541 of the discharge track 54 and the sorting track 52 has a slope for correcting the inclination angle, and the discharge section 542 of the discharge track 54 is horizontally arranged; the outer sides of the transition track 53, the sorting track 52 and the two sides of the discharging track 54 are all provided with guard plates 6 for preventing the anode covers from falling off; the upper surfaces of the transition track 53 and the sorting track 52 are inclined downwards from inside to outside relative to the horizontal plane, a material shifting rod 531 is arranged on the guard plate 6 of the transition track 53, the material shifting rod 531 is positioned on the path of the positive electrode cover 10 entering the sorting track 52 from the transition track 53, and the distance between the material shifting rod 531 and the upper surface of the transition track 53 is slightly larger than the radius of the positive electrode cover; at least two bumps 55 are arranged on the upper surface of the sorting track 52 at intervals along the feeding direction, the bumps 55 are smooth slope surfaces which gradually protrude from the feeding direction to one side of the discharging direction, the volume of each bump 55 is slightly smaller than that of the positive electrode cover 10, the maximum height of each bump 55 is slightly smaller than the thickness of the positive electrode cover 10, and the height of the guard plate 6 on the outer side of the sorting track 52, which is slightly higher than the positive electrode cover 10, is smaller than the sum of the heights of the bumps 55 and the positive electrode cover 10.

When the positive cover feeding device works, the positive cover is poured into the inner hopper from the top of the inner hopper, then enters the feeding track along with the vibration of equipment under the driving of the vibration driver, part of superposed positive covers fall into the inner hopper, other superposed positive covers slide into the sorting track through the transition track, if the positive covers are reversely buckled into the convex blocks, the positive covers superposed above the reversely buckled positive covers slide out of the tracks from the upper part of the protective plate together, the positive covers with upward openings of the shell are also superposed on the convex blocks along with the vibration, the sum of the heights of the convex blocks and the positive covers exceeds the height of the protective plate, the positive covers with upward openings slide out of the sorting tracks and then fall into the blanking track, the reversely buckled positive covers meeting the requirements are vibrated to advance and smoothly discharge through the discharging track, and therefore, the sorting of the positive covers. The positive electrode cover which slides on the separation track and falls outside the inner hopper in the vibration process flows into the inner hopper through the blanking inlet and is blocked by the material receiving baffle plate to flow out of the way, and then the next screening is carried out.

The utility model is a vibration driving device which is conventional in the mechanical field such as a vibration motor; the material shifting rods are arranged as required, and the speed of the anode cover sliding down to the sorting track can be controlled to a certain extent by installing the material shifting rods, so that the falling of the section is reduced, and the feeding efficiency is improved; the twisting slope of the connecting section of the discharging track and the sorting track is also set according to needs, and slope conversion of the connecting section can enable the positive electrode cover to enter the discharging track from the sorting track more smoothly; the number of the convex blocks is not limited, and the positive electrode cover with the upward opening can be vibrated onto the convex blocks and slide out of the sorting track protective plate; the position of the blanking inlet can be any position on the outer edge of the bottom of the inner hopper, but the position close to the lower part of the discharging track is better; the volume of the lug is slightly smaller than that of the positive electrode cover so that the positive electrode cover with the downward opening can be completely buckled on the lug, and therefore the height of the protection plate cannot be exceeded.

The above only be the embodiment of the utility model discloses a not consequently restriction the patent scope of the utility model, all utilize the equivalent flow transform that the content of the specification was made, or direct or indirect application is in other relevant technical field, all including on the same reason the utility model discloses a patent protection within range.

Claims (3)

1. The utility model provides a positive polar cap vibration sorting unit of button cell, its includes the hopper of fixed mounting on the chassis, hopper and chassis fixed connection, vibration driver, its characterized in that are installed to the bottom on chassis: the inner part of the hopper is sleeved with an inner hopper, the top of the inner hopper is open, a blanking gap is reserved between the outer side wall of the inner hopper and the inner side wall of the hopper, a blanking runway is arranged on the chassis below the blanking gap, the bottom of the inner hopper is fixedly connected with the chassis and is provided with a blanking inlet communicated with the outside of the inner hopper, a receiving baffle plate used for gathering the anode cover at the blanking inlet is arranged on the blanking runway at the blanking inlet, a spiral feeding track is arranged on the inner side wall of the inner hopper from bottom to top, an arc-shaped sorting track is arranged at the top of the outer side wall of the inner hopper, a transition track is clamped and fixed between the feeding end of the sorting track and the discharging end of the feeding track positioned at the top of the inner hopper, the discharging end of the sorting track is connected with the discharging track, the, guard plates for preventing the positive electrode covers meeting the requirements from falling are arranged on the outer side of the sorting track and the two sides of the discharging track; transition track and separation track upper surface from inside to outside relative horizontal plane downward sloping, the orbital upper surface of separation is provided with two at least lugs along the pay-off direction interval, the lug is for coming the volume that the protruding smooth slope and lug slightly were less than the volume of positive polar cap gradually to ejection of compact direction one side from the material direction, and the maximum height of lug slightly is less than the thickness of positive polar cap, and the height that highly is slightly higher than the positive polar cap of the backplate in the separation track outside just is less than the high sum of lug and positive polar cap.

2. The vibrating sorting device for the button cell positive covers according to claim 1, characterized in that: the material stirring rod is arranged above the transition track, the material stirring rod is positioned on a path where the positive electrode cover enters the separation track from the transition track, and the distance between the material stirring rod and the upper surface of the transition track is slightly larger than the radius of the positive electrode cover.

3. The vibrating sorting device for the button cell positive cover according to claim 1 or 2, characterized in that: the connection section of the discharging rail and the sorting rail is provided with a slope for correcting the inclination angle, and the discharging section of the discharging rail is horizontally arranged.

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