CN211812239U - A feed mechanism for battery connection piece - Google Patents

Abstract

The utility model provides a pair of a feed mechanism for battery connection piece, including the vibration dish mechanism that is used for exporting the battery connection piece, be used for carrying the conveying mechanism of battery connection piece, be used for carrying out the feed mechanism that separates the battery connection piece on the conveying mechanism and be used for carrying the battery connection piece from feed mechanism to the transport mechanism of material loading position, conveying mechanism sets up in the output of vibration dish mechanism, feed mechanism sets up in conveying mechanism's output, transport mechanism sets up perpendicularly in feed mechanism's branch material end, and is located one side of conveying mechanism. The utility model discloses simple structure, convenient operation has realized the automatic feeding of battery connection piece, has improved the material loading efficiency of battery connection piece, has reduced workman's working strength.

Description

A feed mechanism for battery connection piece

Technical Field

The utility model relates to a feed mechanism, in particular to a feed mechanism for battery connection piece.

Background

Button cells are widely used in electronic products due to their small size. On the computer mainboard, the button cell needs to supply power for the basic input and output system under the condition that the mainboard is not powered on, so as to record the basic loading information and the system time of system hardware, but the power supply quantity of a single button cell is smaller, so that the button cell needs to be connected through a cell connecting sheet in order to meet the power supply requirement of the computer mainboard.

At present, the mode of artifical material loading is all adopted in battery connection piece material loading process and is accomplished, but because of the volume of battery connection piece is less, the thickness is thinner, the workman is comparatively inconvenient when snatching battery connection piece material loading, snatchs a plurality ofly at the material loading in-process easily, leads to material loading process efficiency lower, and long-time work back, workman intensity of labour is great.

Thus, the prior art has yet to be improved and enhanced.

Disclosure of Invention

In view of the foregoing prior art's weak point, the utility model aims to provide a feed mechanism for battery connection piece for the material loading of battery connection piece is realized automaticly, the effectual material loading efficiency who improves the battery connection piece.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a feed mechanism for battery connection piece, is including the vibration dish mechanism that is used for exporting the battery connection piece, be used for carrying the conveying mechanism of battery connection piece, be used for carrying out the feed mechanism that separates the battery connection piece on the conveying mechanism and be used for carrying the battery connection piece from feed mechanism to the transport mechanism of material loading position, conveying mechanism sets up in the output of vibration dish mechanism, feed mechanism sets up in conveying mechanism's output, transport mechanism sets up perpendicularly in feed mechanism's branch material end, and is located one side of conveying mechanism.

The conveying mechanism comprises a direct vibration adjusting seat and a direct vibration material channel, the direct vibration material channel is arranged on the direct vibration adjusting seat, one end of the direct vibration material channel is connected with the output end of the vibration disc mechanism, and the other end of the direct vibration material channel is connected with the distributing mechanism.

The conveying mechanism is provided with an optical fiber sensor for detecting whether the battery connecting sheet passes through or not, and the optical fiber sensor is positioned on one side of the straight vibrating material channel.

The material distributing mechanism comprises a moving part and a fixed part, the moving part is arranged above the fixed part and can reciprocate on the fixed part, and a material distributing cylinder used for driving the moving part to reciprocate is arranged on the fixed part.

The moving part is provided with a square groove for placing a battery connecting sheet, the initial position of the opening end of the square groove corresponds to the output end of the direct vibration material channel, the side wall of the square groove is tangent to the side wall of the battery connecting sheet, and the depth of the square groove is the same as the height of the battery connecting sheet.

The support column is arranged on the direct vibration adjusting seat, a support plate used for supporting the direct vibration table is arranged on the support column, and the support plate and the lower end of the direct vibration adjusting seat are kept at a fixed height through the support column.

The supporting plate is arranged on the supporting column in a nut fastening mode.

The carrying mechanism is arranged in parallel to the conveying mechanism and comprises a support frame, a horizontal module and a vertical pushing module, wherein the fixed part of the horizontal module is arranged on the support frame, and the vertical pushing module is connected with the sliding part of the horizontal module and arranged close to one side of the conveying mechanism.

The vertical pushing module comprises a vertical pushing cylinder and a vacuum sucker, and the vacuum sucker is arranged below the vertical pushing cylinder.

The number of the optical fiber sensors is two, one optical fiber sensor is arranged at the input end of the direct vibration material channel, and the other optical fiber sensor is arranged in the middle of the direct vibration material channel.

Compared with the prior art, the utility model provides a pair of a feed mechanism for battery connection piece, including the vibration dish mechanism that is used for exporting the battery connection piece, be used for carrying the conveying mechanism of battery connection piece, be used for carrying out the feed mechanism that separates the battery connection piece on the conveying mechanism and be used for carrying the battery connection piece from feed mechanism to the transport mechanism of material loading position, conveying mechanism sets up in the output of vibration dish mechanism, feed mechanism sets up in conveying mechanism's output, transport mechanism sets up perpendicularly in feed mechanism's branch material end, and is located one side of conveying mechanism. The battery connecting sheet is placed in the vibrating disc mechanism in a manual placing mode, the battery connecting sheet is conveyed to the tail end of the conveying mechanism through the conveying mechanism connected with the output end of the vibrating disc mechanism, the battery connecting sheet on the conveying mechanism is separated by the distributing mechanism, and the battery connecting sheet on the distributing mechanism is conveyed to a fixed position by the conveying mechanism to complete the feeding of the battery connecting sheet.

Drawings

Fig. 1 is a perspective view of the feeding mechanism for battery connecting sheets provided by the present invention.

Fig. 2 is a plan view of the feeding mechanism for battery connecting sheets provided by the present invention.

Fig. 3 is a perspective view of the combination of the conveying mechanism and the material distributing mechanism in the feeding mechanism for the battery connecting sheet provided by the present invention.

Fig. 4 is a perspective view of the material distributing mechanism in the feeding mechanism for the battery connecting sheet provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

Referring to fig. 1 and 2, the utility model provides a feed mechanism for battery connection piece, including vibration dish mechanism 1 that is used for exporting battery connection piece 10, the conveying mechanism 2 that is used for carrying battery connection piece 10, be used for carrying out the feed mechanism 3 that separates with battery connection piece 10 on the conveying mechanism 2 and be used for carrying battery connection piece 10 from feed mechanism 3 to the transport mechanism 4 of material loading position, conveying mechanism 2 sets up in the output of vibration dish mechanism 1, feed mechanism 3 sets up in conveying mechanism 2's output, transport mechanism 4 sets up perpendicularly in feed mechanism 3's branch material end, and is located one side of conveying mechanism 2. The structure and output mode of the vibrating disk mechanism 1 are the prior art and will not be described in detail here.

Referring to fig. 1, in this embodiment, firstly, a battery connecting sheet 10 to be assembled is manually loaded into a vibration tray mechanism 1, the vibration tray mechanism 1 vibrates to enable the battery connecting sheet 10 to come out from an output end of the vibration tray mechanism 1 according to a predetermined state, the conveying mechanism 2 connected with the output end of the vibration tray mechanism 1 conveys the battery connecting sheet 10 to a material distributing mechanism 3, the material distributing mechanism 3 separates the battery connecting sheet 10, and then the conveying mechanism 4 conveys the battery connecting sheet 10 to a fixed position to complete the feeding of the battery connecting sheet 10.

Conveying mechanism 2 includes that the adjusting seat 20 directly shakes and directly shakes the material way 22, directly shake the material way 22 and set up on the adjusting seat 20 directly shakes, directly shake the one end of material way 22 and be connected with the output of vibration dish mechanism 1, directly shake the other end that the material says 22 and is connected with feed mechanism 3.

Referring to fig. 2, specifically, the conveying mechanism further includes a straight vibration table 21, the straight vibration table 21 is disposed above the straight vibration adjusting seat 20, the straight vibration material channel 22 is erected above the straight vibration table 21, pressing strips 23 are disposed on two sides of the straight vibration material channel 22, and the battery connecting piece 10 conveyed on the straight vibration material channel 22 is pressed by the pressing strips 23, so that the battery connecting piece 10 is prevented from popping out of the straight vibration material channel 22 in the conveying process. The input end of the direct vibration material channel 22 is connected with the output end of the vibration disc mechanism 1, the output end of the direct vibration material channel 22 is connected with the distributing mechanism 3, the direct vibration material channel 22 plays a role in conveying the battery connecting sheet 10 on one hand, and plays a role in guiding the battery connecting sheet 10 output by the vibration disc mechanism 1 on the other hand, so that the distributing mechanism 3 can accurately separate the conveyed battery connecting sheet 10.

The conveying mechanism 2 is provided with an optical fiber sensor 24 for detecting whether the battery connecting sheet 10 passes through, and the optical fiber sensor 24 is positioned on one side of the straight vibrating material channel 22. The number of the optical fiber sensors 24 is two, one optical fiber sensor 24 is arranged at the input end of the straight vibration material channel 22, the other optical fiber sensor 24 is arranged in the middle of the straight vibration material channel 22, and the two optical fiber sensors 24 are used for sensing the battery connecting sheet 10 passing through the corresponding straight vibration material channel 22, so that the condition that the battery connecting sheet 10 fails to be found due to faults in the conveying process is avoided. In addition, the movement position of the battery connecting piece 10 can be judged through the feedback of the optical fiber sensor 24, after the material distributing mechanism 3 carries out material distributing operation for one time, the former battery connecting piece 10 enters the material distributing mechanism 3, the latter battery connecting piece 10 moves the distance of the single battery connecting piece 10, and the position of the former battery connecting piece 10 is filled, so that the conveying process and the material distributing process of the whole battery connecting piece 10 are continuously carried out, and the operation efficiency of the conveying mechanism 2 is improved.

Referring to fig. 3 and 4, the material separating mechanism 3 is located at the output end of the straight vibrating channel 22, the material separating mechanism 3 includes a moving portion 30 and a fixing portion 31, the moving portion 30 is disposed above the fixing portion 31 and can reciprocate on the fixing portion 31, and a material separating cylinder (not labeled in the figures) for driving the moving portion 30 to reciprocate is disposed on the fixing portion 31. The utility model discloses a battery connecting piece 10, including the removal portion 30, be provided with the square groove 301 that is used for placing battery connecting piece 10 on the removal portion 30, the initial position of the open end of square groove 301 is corresponding with the output that directly shakes the material way 22, the lateral wall of square groove 301 is tangent with the lateral wall of battery connecting piece 10, just holds a battery connecting piece 10, the position of location battery connecting piece 10 that can be fine again, the degree of depth of square groove 301 is the same with the height of battery connecting piece 10, and after square groove 301 carried a battery connecting piece 10, removal portion 30 slided and carries out the pay-off, blocks next battery 10 connecting piece 10 simultaneously and continues to carry.

Specifically, the material separating mechanism 3 is arranged perpendicular to the conveying mechanism 2, the fixing portion 31 of the material separating mechanism 3 is erected on the direct vibration adjusting seat 20, the moving portion 30 is slidably arranged on the fixing portion 31, and the fixing portion 31 reciprocates in a direction perpendicular to the conveying mechanism 4 under the driving of the material separating cylinder. In the process of separating the previous battery connecting piece 10, the side wall of the moving part 30 blocks the movement of the next battery connecting piece 10, so that the next battery connecting piece 10 is prevented from falling off the conveying mechanism 2. The side wall of the square groove 301 is tangent to the arc surface of the battery connecting sheet 10, so that the battery connecting sheet 10 cannot move left and right in the square groove 301 of the moving part 30, the upper end of the battery connecting sheet 10 and the upper surface of the moving part 30 are at the same horizontal height, the accurate carrying of the carrying mechanism 4 is facilitated, and the surface of the carrying mechanism 4 is prevented from being scratched. The moving portion 30 of the separation mechanism 3 can separate one battery tab 10 from the straight vibrating duct 22 every time it performs a reciprocating motion. The separation of the battery connecting sheets 10 on the straight vibrating material channel 22 by the material distributing mechanism 3 avoids the transportation of a plurality of battery connecting sheets 10 caused by the adhesion of the battery connecting sheets 10 in the process that the transportation mechanism 4 directly transports the battery connecting sheets 10 from the straight vibrating material channel 22.

Further, when the previous battery connecting piece 10 is conveyed to the end of the straight vibrating channel 22, the previous battery connecting piece 10 enters the square groove 301 on the moving part 30 in the material separating mechanism 3 under the pushing of the next battery connecting piece 10, at this time, the previous battery connecting piece 10 in the square groove 301 moves to the position right below the carrying mechanism 4 under the pushing of the material separating cylinder, and the carrying mechanism 4 can carry the battery connecting piece 10 in the square groove 301.

The vertical vibration adjusting seat 20 is provided with a support column 201, the support column 201 is provided with a support plate 202 for supporting the vertical vibration table 21, and the support plate 202 maintains a fixed height with the lower end of the vertical vibration adjusting seat 20 through the support column 201. The supporting plate 202 is disposed on the supporting column 201 by fastening with nuts (not labeled).

Specifically, the quantity of support column 201 is 8, has supported two backup pads 202 respectively, be provided with the round hole that supplies support column 201 to pass around backup pad 202, set up backup pad 202 on support column 201 through the nut on backup pad 202 from top to bottom, on the one hand, ensure that the straight platform 21 that shakes on backup pad 202 and the straight material way 22 that shakes can not produce in the transportation process of battery connection piece 10 and rock, on the other hand, can be through adjusting the height of nut from top to bottom, and then can shake the height of material way 22 directly and the altitude mixture control of vibration dish mechanism 1's output unanimously, make the output process of battery connection piece 10 gentler, avoid the upset that battery connection piece 10 leads to because of the difference in height.

The carrying mechanism 4 is arranged in parallel to the conveying mechanism 2, the carrying mechanism 4 comprises a support frame 41, a horizontal module 42 and a vertical pushing module 43, the fixing part 31 of the horizontal module 42 is arranged on the support frame 41, and the vertical pushing module 43 is connected with the sliding part of the horizontal module 42 and arranged close to one side of the conveying mechanism 2. The vertical pushing module 43 comprises a vertical pushing cylinder (not labeled in the figure) and a vacuum chuck 430, and the vacuum chuck 430 is disposed below the vertical pushing cylinder.

The support frame 41 is on a parallel with the setting of the material way 22 that directly shakes, horizontal module 42 is including setting up slide rail 420 on support frame 41 and the slip table 421 that matches with slide rail 420, one side and the slide rail 420 sliding connection of slip table 421, the opposite side of slip table 421 with erect to push away module 43 and be connected, drive through the reciprocating motion of slip table 421 on slide rail 420 and erect and push away module 43 horizontal migration, erect and push away module 43 and including erecting the push cylinder, drive vacuum chuck 430 up-and-down motion under the drive of erecting the push cylinder. When the distributing mechanism 3 conveys the battery connecting piece 10 to the position right below the vacuum chuck 430, the vertical pushing cylinder drives the vacuum chuck 430 to descend, the vacuum chuck 430 adsorbs the battery connecting piece 10 after being in place, after adsorption is completed, the vertical pushing module 43 ascends, at the moment, the vertical pushing module 43 descends, the vacuum chuck 430 releases the battery connecting piece 10, and the loading action of the battery connecting piece 10 is completed.

To sum up, the utility model provides a pair of a feed mechanism for battery connection piece, including the vibration dish mechanism that is used for exporting the battery connection piece, be used for carrying the conveying mechanism of battery connection piece, be used for carrying out the feed mechanism that separates the battery connection piece on the conveying mechanism and be used for carrying the battery connection piece from feed mechanism to the transport mechanism of material loading position, conveying mechanism sets up in the output of vibration dish mechanism, feed mechanism sets up in conveying mechanism's output, transport mechanism sets up perpendicularly in feed mechanism's branch material end, and is located one side of conveying mechanism. The battery connecting sheet is placed in the vibrating disc mechanism in a manual placing mode, the battery connecting sheet is conveyed to the tail end of the conveying mechanism through the conveying mechanism connected with the output end of the vibrating disc mechanism, the battery connecting sheet on the conveying mechanism is separated by the distributing mechanism, and the battery connecting sheet on the distributing mechanism is conveyed to a fixed position by the conveying mechanism to complete the feeding of the battery connecting sheet.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a feed mechanism for battery connection piece, is including the vibration dish mechanism that is used for exporting the battery connection piece, its characterized in that, still including the conveying mechanism that is used for carrying the battery connection piece, be used for carrying out the feed mechanism that separates with the battery connection piece on the conveying mechanism and be used for carrying the battery connection piece from feed mechanism to the transport mechanism of material loading position, conveying mechanism sets up in the output of vibration dish mechanism, feed mechanism sets up in conveying mechanism's output, transport mechanism sets up perpendicularly in feed mechanism's branch material end, and is located one side of conveying mechanism.

2. The feeding mechanism for the battery connecting sheets as claimed in claim 1, wherein the conveying mechanism comprises a direct vibration adjusting seat and a direct vibration material channel, the direct vibration material channel is arranged on the direct vibration adjusting seat, one end of the direct vibration material channel is connected with the output end of the vibration disc mechanism, and the other end of the direct vibration material channel is connected with the material distributing mechanism.

3. The feeding mechanism for the battery connecting pieces as claimed in claim 2, wherein an optical fiber sensor for detecting whether the battery connecting pieces pass through is arranged on the conveying mechanism, and the optical fiber sensor is positioned on one side of the straight vibrating material channel.

4. The feeding mechanism for the battery connecting sheet according to claim 2, wherein the material separating mechanism comprises a moving part and a fixed part, the moving part is arranged above the fixed part and can reciprocate on the fixed part, and a material separating cylinder for driving the moving part to reciprocate is arranged on the fixed part.

5. The feeding mechanism for the battery connecting sheets as claimed in claim 4, wherein a square groove for placing the battery connecting sheets is arranged on the moving part, the initial position of the opening end of the square groove corresponds to the output end of the straight vibrating material channel, the side wall of the square groove is tangent to the side wall of the battery connecting sheet, and the depth of the square groove is the same as the height of the battery connecting sheet.

6. The feeding mechanism for the battery connecting sheet as claimed in claim 2, wherein a support column is arranged on the vertical vibration adjusting seat, a support plate for supporting the vertical vibration table is arranged on the support column, and the support plate and the lower end of the vertical vibration adjusting seat are kept at a fixed height through the support column.

7. The feeding mechanism for the battery connecting sheet as claimed in claim 6, wherein the supporting plate is arranged on the supporting column in a nut fastening manner.

8. The feeding mechanism for the battery connecting sheet as claimed in claim 1, wherein the carrying mechanism is arranged in parallel with the conveying mechanism, the carrying mechanism comprises a supporting frame, a horizontal module and a vertical pushing module, a fixed part of the horizontal module is arranged on the supporting frame, and the vertical pushing module is connected with a sliding part of the horizontal module and arranged close to one side of the conveying mechanism.

9. The feeding mechanism for the battery connecting piece as claimed in claim 8, wherein the vertical pushing module comprises a vertical pushing cylinder and a vacuum chuck, and the vacuum chuck is arranged below the vertical pushing cylinder.

10. The battery connecting piece feeding mechanism according to claim 3, wherein the number of the optical fiber sensors is 2, one optical fiber sensor is arranged at the input end of the straight vibrating material channel, and the other optical fiber sensor is arranged in the middle of the straight vibrating material channel.

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