CN205098959U - Automatic feed mechanism of circular battery - Google Patents

Abstract

The utility model discloses an automatic feed mechanism of circular battery, the separation platform is located one side of conveyer belt, the ejector pad subassembly is located the opposite side of conveyer belt, the separation platform is including the first row that are parallel to each other are regional and the secondary series is regional, the secondary series region outside is provided with first flange, the ejector pad subassembly includes the fixed ejector pad and the elasticity ejector pad of adjacent setting, cylinder drive ejector pad subassembly acts on one on the conveyer belt and is listed as the battery, fixed ejector pad is listed as half section preceding propelling movement on the battery to the first row region with this, the elasticity ejector pad is listed as the propelling movement of battery second half section to the secondary series region and blockked by this first flange with this, its advantage is that single -row battery is on the conveyer belt, the ejector pad subassembly acts on this and is listed as the battery, the fixed ejector pad propelling movement of half section preceding quilt on this row battery is arrived on the first row region, this be listed as the battery second half section by the propelling movement of elasticity ejector pad to the secondary series region, the most single -row battery varies the biserial battery, handle in order to satisfy processes such as subsequent packing, increase production efficiency.

Description

Circular batteries automatic distributing material mechanism

Technical field

The utility model relates to a kind of automatic distributing material mechanism, especially relates to a kind of circular batteries automatic distributing material mechanism.

Background technology

Battery on conveyor line after having produced, battery is that row arrange form delivered into lower one production process by belt conveyor on conveyor line, in order to enhance productivity, need that the original battery in a row arrangement is divided into two row modes to arrange, two row batteries enter next production process more simultaneously, if to the packaging process of battery, to enhance productivity.Therefore need a kind of can by battery by the feeding distribution mechanism of single-row evolution to biserial position, to meet the needs of automatic battery production line balance.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of rectangular cell automatic distributing material mechanism single-row battery being transformed to biserial battery.

The utility model solves the problems of the technologies described above adopted technical scheme: circular batteries automatic distributing material mechanism, it is characterized in that comprising separation platform, transmit the load-transfer device of battery and the pushing block assembly by air cylinder driven, described separation platform is positioned at the side of load-transfer device, pushing block assembly is positioned at the opposite side of load-transfer device, described separation platform comprises the first row region and secondary series region that are parallel to each other, secondary series areas outside is provided with the first rib, described pushing block assembly comprises the fixing pushing block and elasticity pushing block that are disposed adjacent, air cylinder driven pushing block assembly acts on the row battery on load-transfer device, this row battery first half section is pushed on first row region by fixing pushing block, this row battery second half section to be pushed on secondary series region and to be stopped by this first rib by elasticity pushing block.

The further preferred version of the utility model is: on load-transfer device, the perisporium of adjacent cell abuts against together, and the first plane of action of pushing block assembly and the second plane of action act on the end of battery.The battery formed a line integrally can be pushed to designated area, and can not roll.

The further preferred version of the utility model is: fixing pushing block is arranged on crossbeam, and cylinder is connected on described crossbeam, is provided with slide assemblies between described crossbeam and elasticity pushing block, is provided with spring between described crossbeam and elasticity pushing block.

Cylinder promotes fixing pushing block by crossbeam, elasticity pushing block moves under crossbeam, under the action of the spring, does elastic telescopic between crossbeam and elasticity pushing block simultaneously, elasticity pushing block is shifted this row battery second half section onto secondary series region and is stopped by the first rib, and elasticity pushing block cannot continue to move ahead.Subsequently under the action of the spring, elasticity pushing block returns to original position.

The further preferred version of the utility model is: crossbeam bottom is provided with track, and described elasticity pushing block is provided with

Draw runner, described draw runner and described track cooperatively interact.

The further preferred version of the utility model is: crossbeam is provided with the first joint pin, elasticity pushing block is provided with

Two joint pins, described spring is connected between the first joint pin and the second joint pin.

The further preferred version of the utility model is: the arranged outside in first row region has the second rib.

Compared with prior art, the utility model has the advantages that single-row battery on the conveyor belt, pushing block assembly acts on this row battery, this row's battery first half section pushing block that is fixed is pushed on first row region, this row battery second half section is pushed on secondary series region by elasticity pushing block, the most single-row battery transforms to biserial battery, to meet the operation process such as follow-up packaging, enhances productivity

Accompanying drawing explanation

Fig. 1 is block diagram one of the present utility model;

Fig. 2 is the enlarged drawing at A place in Fig. 1;

Fig. 3 is birds-eye view of the present utility model;

Fig. 4 is block diagram two of the present utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

As Figure 1-Figure 4, circular batteries automatic distributing material mechanism, comprise separation platform 1, the load-transfer device 3 transmitting battery 2 and the pushing block assembly 5 driven by cylinder 4, separation platform 1 is positioned at the side of load-transfer device 3, pushing block assembly 5 is positioned at the opposite side of load-transfer device 3, separation platform 1 comprises the first row region 6 and secondary series region 7 that are parallel to each other, secondary series region 7 arranged outside has the first rib 8, pushing block assembly 5 comprises the fixing pushing block 51 and elasticity pushing block 52 that are disposed adjacent, cylinder 4 drives pushing block assembly 5 to act on a row battery 2 on load-transfer device 3, this row battery 2 first half section is pushed on first row region 6 by fixing pushing block 51, this row battery 2 second half section to be pushed on secondary series region 7 and to be stopped by this first rib 8 by elasticity pushing block 52.

As shown in Figure 1, on load-transfer device 3, the perisporium of adjacent cell 2 abuts against together, and the first plane of action 53 of pushing block assembly 5 and the second effect 54 faces act on the end 21 of battery 2.

As Figure 1-Figure 4, fixing pushing block 51 is arranged on crossbeam 9, and cylinder 4 is connected on crossbeam 9, is provided with slide assemblies 10 between crossbeam 9 and elasticity pushing block 52, is provided with spring 11 between crossbeam 9 and elasticity pushing block 52.Crossbeam 9 bottom is provided with track 12, elasticity pushing block 52 is provided with draw runner 13, and draw runner 13 and track 12 cooperatively interact.Crossbeam 9 is provided with the first joint pin 14, elasticity pushing block 52 is provided with the second joint pin 15, spring 9 is connected between the first joint pin 14 and the second joint pin 15.

The arranged outside in first row region 6 has the second rib 16.

Above a kind of circular batteries automatic distributing material mechanism provided by the utility model is described in detail, apply specific case herein to set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands the utility model and core concept for helping.Should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model principle, can also carry out some improvement and modification to the utility model, these improve and modify and also fall in the protection domain of the utility model claim.

Claims (6)

1. circular batteries automatic distributing material mechanism, it is characterized in that comprising separation platform, transmit the load-transfer device of battery and the pushing block assembly by air cylinder driven, described separation platform is positioned at the side of load-transfer device, pushing block assembly is positioned at the opposite side of load-transfer device, described separation platform comprises the first row region and secondary series region that are parallel to each other, secondary series areas outside is provided with the first rib, described pushing block assembly comprises the fixing pushing block and elasticity pushing block that are disposed adjacent, air cylinder driven pushing block assembly acts on the row battery on load-transfer device, this row battery first half section is pushed on first row region by fixing pushing block, this row battery second half section to be pushed on secondary series region and to be stopped by this first rib by elasticity pushing block.

2. circular batteries automatic distributing material mechanism according to claim 1, it is characterized in that on load-transfer device, the perisporium of adjacent cell abuts against together, the first plane of action of pushing block assembly and the second plane of action act on the end of battery.

3. circular batteries automatic distributing material mechanism according to claim 1, it is characterized in that fixing pushing block is arranged on crossbeam, cylinder is connected on described crossbeam, is provided with slide assemblies between described crossbeam and elasticity pushing block, is provided with spring between described crossbeam and elasticity pushing block.

4. circular batteries automatic distributing material mechanism according to claim 3, is characterized in that crossbeam bottom is provided with track, and described elasticity pushing block is provided with draw runner, and described draw runner and described track cooperatively interact.

5. circular batteries automatic distributing material mechanism according to claim 3, it is characterized in that crossbeam being provided with the first joint pin, elasticity pushing block is provided with the second joint pin, described spring is connected between the first joint pin and the second joint pin.

6. circular batteries automatic distributing material mechanism according to claim 1, is characterized in that the arranged outside in first row region has the second rib.