CN214625097U - Ring mounting device - Google Patents

Abstract

The utility model provides a ring mounting device, which comprises a feeding mechanism, a pushing mechanism, a track plate and a pressing mechanism, wherein the track plate comprises a body and a groove formed on the body; the pushing mechanism is arranged on the track plate and pushes the metal ring to the upper part of the positive plate along the groove, and the pressing mechanism positions the metal ring on the positive plate; the track plate also comprises a magnetic part, a first through hole is formed at the tail end of the groove, the magnetic part is arranged on the hole wall of the first through hole, and the metal ring is fixed in the first through hole by the magnetic part; above-mentioned ring fitting device can realize automatic fitting with a contraceptive ring, has improved production efficiency, has reduced the cost of labor, has promoted the product yield.

Description

Ring mounting device

Technical Field

The utility model relates to a positive plate adds encircles technical field, in particular to ring mounting device.

Background

At present, in the lithium manganese button cell industry, most enterprises adopt a ring adding mode when producing a ring-added positive plate, namely, after a positive powder cake and a positive ring are respectively manufactured, a ring adding process is completed on a punch press or a rotary disc oil press. When different processes are completed on different equipment, the transfer of materials is necessarily completed, the transfer of materials for multiple times is not only waste of manpower and material resources, but also the quality control risk is increased by the multi-process and multi-equipment process. In addition, the ring placing mechanism generally places a ring manually, so that the efficiency is low and the labor cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a ring mounting device to solve the technical problem that the cost of labor is high and production efficiency is low among the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the utility model provides a ring mounting device, which comprises a feeding mechanism, a pushing mechanism, a track plate and a pressing mechanism, wherein the track plate comprises a body and a groove formed on the body, and a discharge hole of the feeding mechanism is connected with the groove to convey a metal ring into the groove; the pushing mechanism is arranged on the track plate and pushes the metal ring to the upper part of the positive plate along the groove, and the pressing mechanism positions the metal ring on the positive plate; the track slab further comprises a magnetic part, a first through hole is formed in the tail end of the groove, the magnetic part is installed on the hole wall of the first through hole, and the metal ring is fixed in the first through hole through the magnetic part.

Further, the groove comprises a first groove and a second groove which are communicated with each other, an opening is formed in the first groove, and the first groove is connected with the discharge hole of the feeding mechanism through the opening; the first through hole is formed at the tail end of the second groove, and the tail end of the second groove is positioned above the positive plate; the first groove and the second groove are not on the same straight line; the pushing mechanism comprises a first mechanism and a second mechanism, the first mechanism is installed at the end part of the first groove, the second mechanism is installed at the end part of the second groove, the first mechanism pushes the metal ring conveyed by the feeding mechanism into the second groove, and the second mechanism pushes the metal ring into the first through hole.

Further, the first mechanism comprises a first air cylinder and a first pushing strip connected with the first air cylinder, and the first pushing strip is located in the first groove; the second mechanism comprises a second air cylinder and a second pushing strip connected with the second air cylinder, and the second pushing strip is located in the second groove.

Further, the first groove is perpendicular to the second groove.

Furthermore, the track plate further comprises two guide blocks, the two guide blocks are oppositely arranged on the side wall, close to the first through hole, of the second groove, and the distance between the bottom end of each guide block and the bottom of the second groove is larger than the thickness of each metal ring and smaller than the sum of the thicknesses of the two metal rings; the distance between the two guide blocks is smaller than the diameter of the metal ring.

Furthermore, the track plate also comprises a pressing block arranged at the top end of the side wall of the first groove, the pressing block is erected above the opening of the first groove, and the metal ring is conveyed into the first groove through a gap between the bottom end of the pressing block and the bottom of the first groove; the distance between the bottom end of the pressing block and the bottom of the first groove is larger than the thickness of the metal rings and smaller than the sum of the thicknesses of the two metal rings.

Further, a notch is formed in one end, facing the feeding mechanism, of the pressing block, and the notch and the discharge hole of the feeding mechanism are correspondingly arranged.

Furthermore, the pressing mechanism comprises a mounting plate, a third cylinder, a slide rail and a slide block connected with the third cylinder, the slide rail is fixed on the mounting plate, and the third cylinder pushes the slide block to slide along the slide rail; one end of the sliding block is positioned above the first through hole, and the sliding block presses down and positions the metal ring in the first through hole on the positive plate.

Further, feeding mechanism includes the vibration dish, be formed with the pay-off passageway on the vibration dish, the pay-off passageway with the recess meets, the vibration dish makes the becket warp the pay-off passageway is carried to in the recess.

The utility model provides a fitting with a contraceptive ring device adopts push mechanism, track board and pushes down the cooperation of mechanism to realize the material loading of becket. The pushing mechanism is arranged on the track plate and directly pushes the metal ring, so that the moving speed of the metal ring is improved, the automation of ring fitting is realized, and the production efficiency is improved; the metal ring moves along the groove and is finally conveyed into the first through hole, the final position of the metal ring can be strictly controlled, the metal ring can be accurately matched with the positive plate after being pressed down by the pressing mechanism, and the quality and consistency of products are improved. Above-mentioned ring fitting device can realize automatic fitting with a contraceptive ring, has improved production efficiency, has reduced the cost of labor, has promoted the product yield.

Drawings

Fig. 1 is a schematic structural view of an upper ring device according to an embodiment of the present invention;

fig. 2 is a partially enlarged view of fig. 1.

Description of reference numerals:

110. a feeding mechanism; 111. a vibrating pan; 111a, a feeding channel;

120. a first mechanism; 121. a first cylinder; 122. a first push bar;

130. a second mechanism; 131. a second cylinder; 132. a second push bar;

140. a pressing mechanism; 141. mounting plate, 142, third cylinder; 143. a slide rail; 144. a slider;

150. a track plate; 151. a body; 152. a first groove; 153. briquetting; 153a, a notch; 154. a second groove; 154a, a first via; 155. and a guide block.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The descriptions of "first," "second," etc. in the present application are for descriptive purposes only and are not to be construed as indicating or implying any relative importance or implicit indication of the number or order of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Referring to fig. 1 and 2, an embodiment of the present application provides an upper ring device, including a feeding mechanism 110, a pushing mechanism, a track plate 150, and a pressing mechanism 140, where the track plate 150 includes a body 151 and a groove formed on the body 151, and a discharge port of the feeding mechanism 110 is connected to the groove to transfer a metal ring into the groove; the pushing mechanism is installed on the track plate 150, the pushing mechanism pushes the metal ring to the upper side of the positive plate along the groove, and the pressing mechanism 140 positions the metal ring on the positive plate. The track plate 150 further includes a magnetic member, a first through hole 154a is formed at the end of the groove, the magnetic member is mounted on the hole wall of the first through hole 154a, and the magnetic member fixes the metal ring in the first through hole 154 a.

It can be understood that the upper ring device is used for feeding the metal ring to the position of the positive plate for ring addition. Generally, the ring mounting device carries out ring mounting by hand or a conveyor belt, the ring mounting efficiency of the former is low, the labor cost is high, the structure of the latter is complex, and the ring mounting speed is low.

The upper ring device of the embodiment of the present application realizes the loading of the metal ring by the cooperation of the pushing mechanism, the track plate 150 and the pressing mechanism 140. The pushing mechanism is arranged on the track plate 150 to directly push the metal rings, so that the moving speed of the metal rings is improved, the automation of ring fitting is realized, and the production efficiency is improved; the metal ring moves along the groove and is finally conveyed into the first through hole 154a, the final position of the metal ring can be strictly controlled, the metal ring can be accurately matched with the positive plate after being pressed down by the pressing mechanism 140, and the quality and consistency of products are improved.

Certainly, the upper ring device is provided with a pushing mechanism for pushing the metal ring to the upper part of the positive plate; in other embodiments, in order to avoid the ring loading device from the pressing sheet and the ring loading mechanism and avoid the mutual influence between the pressing sheet and the ring loading mechanism, two pushing mechanisms in different directions can be arranged. The feeding mechanism in the embodiment of the present application may be any structure capable of transferring the metal ring into the groove on the track plate 150. The metal ring moves in the groove, and the side wall of the groove ensures that the metal ring moves according to the direction of the groove so as to ensure the movement track of the metal ring.

In the embodiment of the present application, a first through hole 154a is formed at the end of the groove, and a magnetic member disposed on the sidewall of the first through hole 154a can fix the metal ring in the first through hole 154 a. It will be appreciated that the end of the groove is spaced from the positive plate disposed therebelow, and the pressing end of the pressing mechanism 140, the positive plate and the first through hole 154a are all located in the same vertical direction, so that the pressing mechanism 140 positions the metal ring on the positive plate. The pressing mechanism 140 is used for positioning the metal ring, and the metal ring can be more accurately placed above the positive plate so as to maintain the quality and consistency of the ring-added positive plate product.

In some embodiments, the grooves include a first groove 152 and a second groove 154 which are communicated with each other, the first groove 152 is formed with an opening, the first groove 152 is connected with the discharge port of the feeding mechanism 110 through the opening, a first through hole 154a is formed at the end of the second groove 154, and the end of the second groove 154 is located above the positive electrode plate; the first groove 152 and the second groove 154 are not on the same straight line; the pushing mechanism comprises a first mechanism 120 and a second mechanism 130, the first mechanism 120 is installed at the end of the first groove 152, the second mechanism 130 is installed at the end of the second groove 154, the first mechanism 120 pushes the metal ring transmitted by the feeding mechanism 110 into the second groove 154, and the second mechanism 130 pushes the metal ring into the first through hole 154 a.

It is understood that when the position of the feeding mechanism 110 and the position of the tablet ring-adding mechanism interfere with each other, the feeding mechanism 110 must be arranged to meet certain requirements. In this case, one groove cannot meet the requirement of the upper ring, and a plurality of grooves need to be provided, that is, the metal ring needs to change the moving direction to be conveyed to the upper side of the positive plate. In the embodiment of the present application, the first groove 152 is connected to the discharge port of the feeding mechanism, and the second groove 154 and the first groove 152 are not arranged on the same straight line, so as to meet the requirement that the metal ring needs to change the moving direction. Two grooves need to be correspondingly provided with two pushing mechanisms. Since the first groove 152 and the second groove 154 are different in direction, the pushing direction of the first mechanism 120 and the pushing direction of the second mechanism 130 are correspondingly different.

It is understood that the angle between the first groove 152 and the second groove 154 is designed according to the actual application. In some embodiments, the first groove 152 is perpendicular to the second groove 154, as shown in fig. 1. The first groove 152 and the second groove 154 which are perpendicular to each other can reduce the moving distance of the metal ring, thereby shortening the feeding time of the metal ring; meanwhile, the metal ring can move more smoothly.

In some embodiments, the first mechanism 120 includes a first cylinder 121 and a first push bar 122 connected to the first cylinder 121, the first push bar 122 is located in the first groove 152; the second mechanism 130 includes a second cylinder 131 and a second push bar 132 connected to the second cylinder 131, and the second push bar 132 is located in the second groove 154. That is, the pushing function of the pushing mechanism is realized by the air cylinder and the pushing bar. The pushing mechanism is simple in structure, and meanwhile, the length of the track can be shortened, the conveying time of the metal rings is shortened, and the production efficiency is improved.

Further, the track plate 150 further includes two guide blocks 155, the two guide blocks 155 are oppositely disposed on the sidewall of the second groove 154 close to the first through hole 154a, and a distance between the bottom end of the guide block 155 and the bottom of the second groove 154 is greater than the thickness of the metal ring and smaller than the sum of the thicknesses of the two metal rings; the spacing between the two guide blocks 155 is smaller than the diameter of the metal ring. Two guide blocks 155 are oppositely arranged on the side wall of the second groove 154 close to the first through hole 154a, the metal rings pass through the lower parts of the two guide blocks 155, one metal ring can be ensured to pass through, the metal rings are prevented from being overlapped together, the guide and limiting effects are achieved, the track of the metal rings can be normalized, and the phenomenon that the metal rings are overturned or run out of the groove due to the fact that the pushing speed is too high is avoided.

In other embodiments, the track plate 150 further includes a pressing block 153 disposed at the top end of the sidewall of the first groove 152, the pressing block 153 is erected above the opening of the first groove 152, and the metal ring is conveyed into the first groove 152 through a gap between the bottom end of the pressing block 153 and the bottom of the first groove 152; the distance between the bottom end of the pressing block 153 and the bottom of the first groove 152 is greater than the thickness of the metal rings and less than the sum of the thicknesses of the two metal rings. It can be understood that only one metal ring can pass between the pressing block 153 and the bottom of the first groove 152, and the metal rings are prevented from being stacked together and entering the first groove 152, so that the metal rings are simultaneously pushed and positioned onto the positive pole piece. In addition, the pressing block 153 can enable the metal ring to enter the first groove 152 more conveniently, and the guiding and limiting effects are achieved.

Further, a notch 153a is formed at one end of the pressing block 153 facing the feeding mechanism 110, and the notch 153a is arranged corresponding to the discharge port of the feeding mechanism 110. It will be appreciated that the sidewall of the gap 153a of the pressing block 153 has a height that can block the stacked metal rings from entering the first groove 152, and ensure that only one metal ring enters the first groove 152 from the outlet of the feeding mechanism 110 at a time.

In some embodiments, the pressing mechanism 140 includes a mounting plate 141, a third cylinder 142, a slide rail 143, and a slider 144 connected to the third cylinder 142, the slide rail 143 is fixed on the mounting plate 141, and the third cylinder 142 pushes the slider 144 to slide along the slide rail 143; one end of the sliding block 144 is located above the first through hole 154a, and the sliding block 144 presses down the metal ring in the first through hole 154a to be positioned on the positive electrode sheet. That is to say, the pushing mechanism 140 realizes the pushing action through the cylinder and the sliding mechanism, has a simple structure, is precisely controlled, and can accurately push down the metal ring in the first through hole 154 a.

It will be appreciated that the feed mechanism 110 may be selected in a variety of ways so long as it delivers the metal rings to the first groove 152. In some embodiments, the feeding mechanism 110 includes a vibration plate 111, the vibration plate 111 is formed with a feeding channel 111a, the feeding channel 111a is connected to the groove, and the vibration plate 111 enables the metal ring to be fed into the groove through the feeding channel 111 a. In the present embodiment, the metal rings are sorted and identified in the vibratory pan 111. The metal ring only changes the conveying direction on the groove without turning.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the scope of the present invention. Moreover, the technical solutions of the present invention between the various embodiments can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are combined and contradictory or cannot be realized, it should be considered that the combination of the technical solutions does not exist, and the present invention is not within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. An upper ring device, characterized in that: the metal ring pushing device comprises a feeding mechanism, a pushing mechanism, a track plate and a pressing mechanism, wherein the track plate comprises a body and a groove formed in the body, and a discharge hole of the feeding mechanism is connected with the groove to convey a metal ring into the groove; the pushing mechanism is arranged on the track plate and pushes the metal ring to the upper part of the positive plate along the groove, and the pressing mechanism positions the metal ring on the positive plate;

the track slab further comprises a magnetic part, a first through hole is formed in the tail end of the groove, the magnetic part is installed on the hole wall of the first through hole, and the metal ring is fixed in the first through hole through the magnetic part.

2. The upper ring device according to claim 1, wherein the groove comprises a first groove and a second groove which are communicated with each other, the first groove is formed with an opening, and the first groove is connected with the discharge port of the feeding mechanism through the opening; the first through hole is formed at the tail end of the second groove, and the tail end of the second groove is positioned above the positive plate; the first groove and the second groove are not on the same straight line;

the pushing mechanism comprises a first mechanism and a second mechanism, the first mechanism is installed at the end part of the first groove, the second mechanism is installed at the end part of the second groove, the first mechanism pushes the metal ring conveyed by the feeding mechanism into the second groove, and the second mechanism pushes the metal ring into the first through hole.

3. The upper ring device according to claim 2, wherein the first mechanism comprises a first cylinder and a first push bar connected to the first cylinder, the first push bar being located in the first groove; the second mechanism comprises a second air cylinder and a second pushing strip connected with the second air cylinder, and the second pushing strip is located in the second groove.

4. The upper ring device according to claim 2, wherein the first recess is disposed perpendicular to the second recess.

5. The upper ring device according to claim 2, wherein the track plate further comprises two guide blocks, the two guide blocks are oppositely arranged on the side wall of the second groove close to the first through hole, and the distance between the bottom end of each guide block and the bottom of the second groove is greater than the thickness of the metal ring and less than the sum of the thicknesses of the two metal rings; the distance between the two guide blocks is smaller than the diameter of the metal ring.

6. The upper ring device according to claim 2, wherein the track plate further comprises a pressing block disposed at a top end of a side wall of the first groove, the pressing block is erected above the opening of the first groove, and the metal ring is conveyed into the first groove through a gap between a bottom end of the pressing block and a bottom of the first groove; the distance between the bottom end of the pressing block and the bottom of the first groove is larger than the thickness of the metal rings and smaller than the sum of the thicknesses of the two metal rings.

7. The ring feeding device according to claim 6, wherein a notch is formed at an end of the pressing block facing the feeding mechanism, and the notch is arranged corresponding to the discharge hole of the feeding mechanism.

8. The ring mounting device according to any one of claims 1 to 5, wherein the pressing mechanism includes a mounting plate, a third cylinder, a slide rail and a slide block connected to the third cylinder, the slide rail is fixed to the mounting plate, and the third cylinder pushes the slide block to slide along the slide rail; one end of the sliding block is positioned above the first through hole, and the sliding block presses down and positions the metal ring in the first through hole on the positive plate.

9. The ring mounting device according to any one of claims 1 to 5, wherein the feeding mechanism comprises a vibrating disk, a feeding channel is formed on the vibrating disk, the feeding channel is connected with the groove, and the vibrating disk enables the metal ring to be conveyed into the groove through the feeding channel.

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