CN216763364U

CN216763364U - Feeding connecting device

Info

Publication number: CN216763364U
Application number: CN202220321837.6U
Authority: CN
Inventors: 常海涛; 吴兰熙; 陆响聪
Original assignee: Fujian Nanping Nanfu Battery Co Ltd
Current assignee: Fujian Nanping Nanfu Battery Co Ltd
Priority date: 2022-02-17
Filing date: 2022-02-17
Publication date: 2022-06-17
Anticipated expiration: 2032-02-17

Abstract

The utility model discloses a feeding connection device, which comprises an extension plate extending outwards from one side of a conveyor belt, wherein two arc-shaped guide grooves are formed in the extension plate, the two guide grooves are gradually separated from one side close to the conveyor belt to the side away from the conveyor belt, and the two guide grooves are respectively communicated with the conveyor belt; a pushing mechanism is arranged above the guide groove, the pushing mechanism comprises a pushing support, a push plate and two pushing claws, and each pushing claw comprises an upper arm and a claw part; push pedal fixed mounting in on the activity of push rod is served, two bar holes have been seted up to the upper surface of push pedal, and the guide post is worn to be equipped with in the downthehole activity of every bar, and the bottom fixed connection of upper arm and guide post pushes away the material claw and has primary importance and second place, and the claw is in primary importance is located on the moving path of the material on the conveyer belt, the claw inlays to be located at the second place in the guide way. The structure is compact, and the adjustment of the distance between the materials is realized.

Description

Feeding connecting device

Technical Field

The utility model relates to battery processing equipment, in particular to a feeding connection device.

Background

In the production process of the button battery, because the battery cell cannot be stably placed, the battery cell is usually required to be placed in a carrier for conveying and operation, and in the procedures of welding of electrodes, liquid injection and the like, the battery cell is transferred and operated together with the carrier in the carrier. In the current battery welding connection process on the production line, batteries on a conveyor belt are transferred into battery carriers arranged on a welding turntable one by using a manipulator, and welding equipment can only weld one battery at a time. If the productivity needs to be increased, the number of the batteries welded on the welding turntable at each time is doubled, the layout of the battery carriers on the turntable needs to be modified to be arranged in a pair of two-to-one interval mode, but the layout of the battery carriers on the conveying belt is not suitable for the layout of the battery carriers on a new welding turntable because the distance between the batteries on the conveying belt is unchanged, so that the connection section on the conveying belt needs to be simultaneously modified to change the distance between the batteries on the conveying belt.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding connecting device.

The technical scheme for realizing the purpose of the utility model is as follows: a feeding connection device comprises an extension plate extending outwards from one side of a conveyor belt, wherein two arc-shaped guide grooves are formed in the extension plate, the two guide grooves are gradually separated from one side close to the conveyor belt to the side away from the conveyor belt, and the two guide grooves are respectively communicated with the conveyor belt; a pushing mechanism is arranged above the guide grooves and comprises a pushing support and a push plate, the pushing support is fixedly arranged above the conveyor belts, a pushing claw used for pushing the materials on the conveyor belts into the guide grooves is respectively arranged above the two guide grooves, each pushing claw comprises an upper arm and a claw part, the upper arms are hinged on the pushing support, support legs extend downwards from the upper arms, the claw parts are fixed on the support legs, and the claw parts are arc-shaped plates capable of being embedded into the guide grooves; the push plate is positioned above the two upper arms and is fixed on a push plate driving mechanism, the push plate driving mechanism is arranged beside the conveyor belt at the opposite side of the extension plate, the push plate driving mechanism is provided with a telescopic push rod, the movable end of the push rod faces one side of the extension plate and is vertical to the conveying direction of the conveying belt, the push plate is fixedly arranged on the movable end of the push rod, the upper surface of the push plate is provided with two strip-shaped holes, each strip-shaped hole is respectively opposite to one upper arm, a guide post is movably arranged in each strip-shaped hole in a penetrating way, one end of the upper arm close to the conveyor belt is fixedly connected with the bottom of the guide post, the material pushing claw is provided with a first position and a second position, the claw portion is located on the conveyor belt at the first position, and the claw portion is embedded in the guide groove at the second position.

Further, the depth of the guide groove is smaller than the height of the material.

Furthermore, each pushing claw comprises two claw parts, two ends of each upper arm respectively extend downwards to form support legs, the two claw parts are respectively fixed on the two support legs, the two claw parts are horizontally arranged concentric arc-shaped plates, the two claw parts are movably embedded in the guide grooves corresponding to the pushing claws, an accommodating space for accommodating the materials is arranged between the two claw parts, the accommodating space is located on the conveying belt at the first position, and the accommodating space is located in the guide grooves at the second position.

Furthermore, the push plate driving mechanism is a horizontal cylinder, the pushing support is provided with a connecting plate parallel to the conveyor belt, and the free end of a piston rod of the horizontal cylinder penetrates through the connecting plate and then is fixed with the push plate.

Furthermore, two guide rods are symmetrically arranged on the connecting plate on two sides of the piston rod, the guide rods are parallel to the push rod, and one end of each guide rod movably penetrates through the connecting plate and then is fixedly connected with the push plate.

Furthermore, a sinking groove for containing the materials is arranged in the guide groove, the accommodating space is communicated with the sinking groove at the second position, and the sum of the depths of the sinking groove and the guide groove is smaller than the height of the materials.

The feeding connecting device provided by the utility model has the advantages that the push plate driving mechanism is utilized to push the push plate to move back and forth, the push plate further drives the two pushing claws to move along the guide grooves, so that materials such as button batteries on the conveyor belt are transferred to the outer side of the conveyor belt, the arc-shaped separation structure design of the two guide grooves realizes the adjustment of the distance between the two button batteries, and the button batteries after the distance is adjusted are transferred to the rotary table by a mechanical hand, so that the improvement of the welding efficiency is realized.

Drawings

Fig. 1 is a schematic view of a matching structure of the feeding engagement device and the battery to be welded according to the embodiment of the present invention; wherein the arrow represents a conveying direction of the conveyor belt;

fig. 2 is a schematic top view of a feeding engagement device according to an embodiment of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the utility model refers to the accompanying drawings in which:

as shown in fig. 1 and 2, a feeding connection device includes an extension plate 1 extending outward from one side of a conveyor belt 10, two arc-shaped guide grooves 11 are formed in the extension plate 1, the two guide grooves 11 are gradually separated from one side, which is close to the conveyor belt 10, of the conveyor belt 10, the two guide grooves 11 are respectively communicated with the conveyor belt 10, a sinking groove 111 is formed in each guide groove 11, and a pushing mechanism 2 is installed above each guide groove 11.

The material pushing mechanism 2 comprises a material pushing support 21, a push plate 22 and two material pushing claws 23, the material pushing support 21 is fixedly mounted above the conveyor belt 10, one material pushing claw 23 is mounted above each of the two guide grooves 11, each material pushing claw 23 comprises an upper arm 231 and two claw parts 232, the middle part of each upper arm 231 is hinged to the material pushing support 21, two ends of each upper arm 231 respectively extend downwards to form support legs 2311, the two claw parts 232 are fixed on the two support legs 2311 respectively, the two claw parts 232 are horizontally arranged concentric arc-shaped plates, the two claw parts 232 are movably embedded in the guide grooves 11 corresponding to the material pushing claws 23, and an accommodating space 20 used for accommodating the to-be-welded battery 100 is arranged between the two claw parts 232.

The push plate 22 is positioned above the two upper arms 231 and fixed on a push plate driving mechanism 24, the push plate driving mechanism 24 is installed beside the conveyor belt 10 opposite to the extension plate 1, the push plate driving mechanism 24 is a horizontal cylinder, the free end of a piston rod 241 of the horizontal cylinder faces one side of the extension plate 1 and is perpendicular to the conveying direction of the conveyor belt 10, the material pushing support 21 is provided with a connecting plate 211 parallel to the conveyor belt 10, the free end of the piston rod 241 of the horizontal cylinder penetrates through the connecting plate 211 and then is fixed with the push plate 22, two guide rods 25 are symmetrically installed on the connecting plate 211 at two sides of the piston rod 241, the guide rods 25 are arranged parallel to the piston rod 241 of the horizontal cylinder, and one end of each guide rod 25 movably penetrates through the connecting plate 211 and then is fixedly connected with the push plate 22; the upper surface of the push plate 22 is provided with two strip-shaped holes 221, each strip-shaped hole 221 is respectively opposite to one upper arm 231, a guide post 26 movably penetrates through each strip-shaped hole 221, one end of each upper arm 231 close to the conveyor belt 10 is fixedly connected with the bottom of the guide post 26, the material pushing claw 23 has a first position and a second position, the accommodating space 20 is located on the running path of the to-be-welded battery on the conveyor belt 10 at the first position, the accommodating space 20 is communicated with the sinking groove 111 at the second position, and the sum of the depths of the sinking groove 111 and the guide groove 11 is smaller than the height of the to-be-welded battery 100.

The working principle of the feeding connecting device is as follows: the two batteries 100 to be welded are respectively conveyed into the accommodating spaces 20 of the two pushing claws 23 at the first positions by the conveyor belt 10 according to a program set by a control system (not shown), then the control system sends out an instruction, the horizontal cylinder 24 extends out to drive the pushing claws 23 to move towards one side of the guide groove 11, the claw parts 232 push the corresponding batteries 100 to be welded into the guide groove 11 until the accommodating spaces 20 are communicated with the sinking groove 111, the arc-shaped separation structural design of the two guide grooves 11 realizes the distance adjustment of the two batteries to be welded, and the batteries to be welded after the distance adjustment are transferred to a turntable (not shown) by a manipulator (not shown).

The feeding connection device can be used for transferring button batteries or other materials; the radian of the guide groove is adjusted according to actual production requirements; the claw parts of the material pushing claw can be one or two, so long as the material on the conveyor belt can be pushed into the corresponding guide groove, but the two claw parts can limit the two ends of the button cell, so that the material pushing is more stable; the push plate driving mechanism is not limited to a horizontal cylinder, and can also be a linear motion driving mechanism common in other mechanical fields; the material pushing claw can be integrally formed and processed through a die; the guide rod sets up as required, adds the guide rod and can promote the stability of pushing away material motion, and machinery field technical personnel can understand, the length in bar hole uses the material claw of pushing away can push away the material on the conveyer belt to with manipulator complex station as the limit.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent flow transformations made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a pay-off linking device which characterized in that: the conveying belt comprises an extension plate extending outwards from one side of a conveying belt, wherein two arc-shaped guide grooves are formed in the extension plate, the two guide grooves are gradually separated from one side close to the conveying belt to one side away from the conveying belt, and the two guide grooves are respectively communicated with the conveying belt; a pushing mechanism is arranged above the guide grooves and comprises a pushing support and a push plate, the pushing support is fixedly arranged above the conveyor belts, a pushing claw used for pushing the materials on the conveyor belts into the guide grooves is respectively arranged above the two guide grooves, each pushing claw comprises an upper arm and a claw part, the upper arms are hinged on the pushing support, support legs extend downwards from the upper arms, the claw parts are fixed on the support legs, and the claw parts are arc-shaped plates capable of being embedded into the guide grooves; the push plate is positioned above the two upper arms and is fixed on a push plate driving mechanism, the push plate driving mechanism is arranged beside the conveyor belt at the opposite side of the extension plate, the push plate driving mechanism is provided with a telescopic push rod, the movable end of the push rod faces one side of the extension plate and is vertical to the conveying direction of the conveying belt, the push plate is fixedly arranged on the movable end of the push rod, the upper surface of the push plate is provided with two strip-shaped holes, each strip-shaped hole is respectively opposite to one upper arm, a guide post is movably arranged in each strip-shaped hole in a penetrating way, one end of the upper arm close to the conveyor belt is fixedly connected with the bottom of the guide post, the material pushing claw is provided with a first position and a second position, the claw portion is located on the conveyor belt at the first position, and the claw portion is embedded in the guide groove at the second position.

2. The feed splicing device of claim 1, wherein: the depth of the guide groove is smaller than the height of the material.

3. The feed splicing device of claim 2, wherein: each pushing claw comprises two claw parts, supporting legs extend downwards from two ends of the upper arm respectively, the two claw parts are fixed on the two supporting legs respectively, the two claw parts are horizontally arranged concentric arc-shaped plates, the two claw parts are movably embedded in the guide grooves corresponding to the pushing claws, an accommodating space used for accommodating the materials is arranged between the two claw parts, the accommodating space is located in the running direction of the conveying belt at the first position, and the accommodating space is located in the guide grooves at the second position.

4. The feed splicing device of claim 2, wherein: the push plate driving mechanism is a horizontal cylinder, the material pushing support is provided with a connecting plate parallel to the conveyor belt, and the free end of a piston rod of the horizontal cylinder penetrates through the connecting plate and then is fixed with the push plate.

5. The feed engagement device of claim 4, wherein: two guide rods are symmetrically arranged on the connecting plate on two sides of the piston rod, the guide rods are parallel to the push rods, and one ends of the guide rods movably penetrate through the connecting plate and then are fixedly connected with the push plate.

6. The feed splicing device of claim 3, wherein: the guide groove is internally provided with a sinking groove for containing the material, the accommodating space is communicated with the sinking groove at the second position, and the sum of the depths of the sinking groove and the guide groove is less than the height of the material.

7. The feed splicing device of claim 3, wherein: the material pushing claw is integrally formed.