CN114940380A

CN114940380A - Double-channel storage battery water bath conveying device

Info

Publication number: CN114940380A
Application number: CN202210519393.1A
Authority: CN
Inventors: 毛锦敏; 江小珍; 陆毅; 侍子强; 汪章杰; 周贵珍
Original assignee: Tianneng Battery Wuhu Co Ltd
Current assignee: Tianneng Battery Wuhu Co Ltd
Priority date: 2022-05-13
Filing date: 2022-05-13
Publication date: 2022-08-26

Abstract

The invention provides a double-channel storage battery water bath conveying device, which is characterized in that a storage battery is placed from the feeding end of a right conveying trough, the storage battery is conveyed to a through part in the right conveying trough, and the storage battery can be driven by a right front pushing mechanism to be pushed forwards to the front part of the right conveying trough and lifted onto a blanking conveying belt through a lifting mechanism; the left conveying trough can be pulled to the left part of the through part through a left pulling mechanism, pushed to the front part of the left conveying trough through a left front pushing mechanism and lifted to a blanking conveying belt through a lifting mechanism; the left conveying groove and the right conveying groove convey the storage battery through a conveying roller way; the double-channel water bath conveying is adopted, the storage battery can be efficiently dispersed and conveyed, the water bath conveying efficiency is greatly improved, and the pressure of the large-batch storage battery water bath conveying is relieved.

Description

Double-channel storage battery water bath conveying device

Technical Field

The invention relates to the field of production and manufacturing of storage batteries, in particular to a double-channel storage battery water bath conveying device.

Background

A lead-acid accumulator is an accumulator whose electrodes are made of lead and its oxide and whose electrolyte is sulfuric acid solution. In the discharge state of the lead-acid battery, the main component of the positive electrode is lead dioxide, and the main component of the negative electrode is lead; in a charged state, the main components of the positive electrode and the negative electrode are lead sulfate. The lead-acid storage battery needs to be injected with acid in the production process, the temperature of the storage battery after acid injection is high, the storage battery needs to be subjected to water bath cooling, and then the storage battery is transported to a transport belt to be fed to other stations. The prior art patent CN206301887U discloses a multiunit row battery thermostatic waterbath system, through setting up two inlet tubes for the rivers in the whole water bath are presented the circulation and flow, set up the delivery port simultaneously at water bath cell body bottom, can effectual guarantee in the temperature regulation process, in the whole water bath presents orderly dynamic flow, accelerate the temperature regulation, and even uniformity is good. This patent is that a plurality of water bath carry out the water bath, and the battery temperature after the acidification is very high, needs to carry out the water bath immediately, and the battery is in large quantity, needs two communicating water bath groove dual channels to disperse the water bath and carries, realizes efficient water bath and carries, and how to realize the dispersion to the battery very important, therefore this problem of need solving urgently.

Disclosure of Invention

In order to solve the problems, the invention provides a double-channel storage battery water bath conveying device which comprises a left conveying trough and a right conveying trough which are arranged adjacently, wherein the rear end of the right conveying trough is a feeding end, blanking conveying belts are arranged on the front sides of the left conveying trough and the right conveying trough, the rear end of the left conveying trough and the middle part of the right conveying trough are communicated in the left-right direction to form a through part, and a transverse plate is arranged at the bottom of the through part; a left front pushing mechanism is arranged at the left part above the through part through a first support, a left pulling mechanism is arranged at the top of the first support close to the right through a second support, and a right front pushing mechanism is arranged at the right side of the top of the second support through a third support; the front ends of the left conveying groove and the right conveying groove are provided with lifting mechanisms.

The further improvement is that the first support is arranged at the top ends of the left side wall and the right side wall of the left conveying groove and is positioned at the front end of the through part, the left front pushing mechanism comprises a left front pushing cylinder arranged at the front side of the first support, and a piston rod at the rear side of the left front pushing cylinder is downwards connected with a left front pushing plate; initially, the left front push plate is located at the bottom of the inner rear end of the through portion.

The further improvement is that the second support is arranged at the top ends of the first support and the rear side wall of the left conveying groove, the left pulling mechanism comprises a left pulling cylinder arranged on the left side of the second support, and a piston rod on the right side of the left pulling cylinder is downwards connected with a left pulling plate; initially, the left pull plate is located at the bottom of the right end in the through portion.

The further improvement is that the bracket III is arranged at the top ends of the bracket II and the right side wall of the right conveying groove, the right front pushing mechanism comprises a right front pushing cylinder arranged at the front side of the bracket III, and a piston rod of the right front pushing cylinder is downwards connected with a right front pushing plate; at first, the right front push plate is positioned at the bottom of the rear end in the right conveying groove.

The further improvement is that conveying roller ways for conveying from front to back are arranged at the positions of the bottoms of the left conveying groove and the right conveying groove except the through parts.

The improved structure is characterized in that the lifting mechanism comprises a groove body communicated with the left conveying groove or the right conveying groove, a top plate is arranged above the groove body through four supporting columns, a lifting cylinder is arranged at the top of the top plate, and a piston rod at the bottom of the lifting cylinder is connected with a lifting plate; initially, the lifting plate is located at the bottom in the trough body and is flush with the conveying roller way.

The device is further improved in that a side plate is arranged on the rear side of the bottom of the top plate, a blanking front pushing cylinder is arranged on the rear side of the side plate and located above the groove body, and a piston rod on the front side of the blanking front pushing cylinder is connected with a blanking front pushing plate; at the beginning, the push pedal is located four spinal branch post rear sides before the unloading.

The further improvement is that a movable blanking roller is arranged on the front side of the top of the tank body, and the blanking roller is close to the blanking conveyer belt and is higher than the blanking conveyer belt; a baffle is arranged at the front side of the blanking conveying belt.

The invention has the beneficial effects that: the storage battery is placed from the feeding end of the right conveying trough, the storage battery is conveyed to the through part in the right conveying trough, and the storage battery can be driven by the right front pushing mechanism to be pushed to the front part of the right conveying trough and lifted to the blanking conveying belt through the lifting mechanism; the feeding device can also be pulled to the left part of the through part by a left pulling mechanism, pushed to the front part of the left conveying groove by a left front pushing mechanism and lifted to a blanking conveying belt by a lifting mechanism; the left conveying groove and the right conveying groove convey the storage battery through a conveying roller way; the double-channel water bath conveying is adopted, the storage battery can be efficiently dispersed and conveyed, the water bath conveying efficiency is greatly improved, and the pressure of the large-batch storage battery water bath conveying is relieved.

The left front pushing mechanism is fixedly installed through the first support, and drives a left front pushing plate through a left front pushing cylinder to push the storage battery positioned at the left part of the through part to the front part of the left conveying groove; the left pulling mechanism drives a left pulling plate to pull the storage battery on the right part of the through part to the left part of the through part by a left pulling cylinder; the bracket III is fixed with the right side wall of the right conveying groove through the bracket II, the right front pushing mechanism is fixed on the bracket III, and the right front pushing mechanism drives the right front pushing plate to push the storage battery positioned at the rear part of the right conveying groove to the right part of the through part or further to the front part of the right conveying groove through the right front pushing cylinder; the storage battery is dispersed and transferred by the three mechanisms, and the three mechanisms are reasonable and compact in structural design.

After the storage battery is conveyed to a lifting plate of the lifting mechanism, the storage battery is driven to be lifted above the blanking conveying belt through the lifting cylinder, the storage battery is located on the front side of the blanking front push plate, the storage battery is driven to be pushed forwards by starting the blanking front push cylinder, and the storage battery is guided to be fed onto the blanking conveying belt through the blanking roller to be conveyed to the next station.

When a plurality of storage batteries are transported on the left transport groove and the right transport groove, the storage batteries on the transport roller way can be further pushed forwards through the left front pushing mechanism and the right front pushing mechanism, so that the storage batteries at the foremost end can be pushed onto the lifting plate to be lifted, the left front pushing mechanism and the right front pushing mechanism can push the storage batteries on the through part and can also push the storage batteries at the foremost end, and the conveying device is high in functionality and good in effect.

Drawings

Fig. 1 is a top view of the present invention.

Fig. 2 is a left side view of the left trough of the present invention.

Fig. 3 is a front cross-sectional view of the present invention at the through portion.

Wherein: 1-left conveying trough, 2-right conveying trough, 3-blanking conveying belt, 4-transverse plate, 5-bracket one, 6-bracket two, 7-bracket three, 8-left front pushing cylinder, 9-left front pushing plate, 10-left pulling cylinder, 11-left pulling plate, 12-right front pushing cylinder, 13-right front pushing plate, 14-conveying roller way, 15-trough body, 16-pillar, 17-top plate, 18-lifting cylinder, 19-lifting plate, 20-side plate, 21-blanking front pushing cylinder, 22-blanking front pushing plate, 23-blanking roller and 24-baffle plate.

Detailed Description

For the purpose of enhancing understanding of the present invention, the present invention will be described in further detail with reference to examples, which are provided for illustration only and are not intended to limit the scope of the present invention.

As shown in fig. 1-3, the present embodiment provides a dual-channel storage battery water bath conveying device, which includes a left conveying trough 1 and a right conveying trough 2 that are adjacently arranged, a rear end of the right conveying trough 2 is a feeding end, a blanking conveying belt 3 is arranged at front sides of the left conveying trough 1 and the right conveying trough 2, a through portion is formed by the left and right through of the rear end of the left conveying trough 1 and the middle of the right conveying trough 2, and a transverse plate 4 is arranged at the bottom of the through portion; conveying roller ways 14 for conveying from front to back are arranged at the bottom parts of the left conveying groove 1 and the right conveying groove 2 except the through parts; a left front pushing mechanism is arranged at the left part above the through part through a first support 5, a left pulling mechanism is arranged on the top of the first support 5 close to the right through a second support 6, and a right front pushing mechanism is arranged on the right side of the top of the second support 6 through a third support 7; the front ends of the left conveying groove 1 and the right conveying groove 2 are both provided with a lifting mechanism. A storage battery is placed from the feeding end of the right conveying trough 2, the storage battery is conveyed to the through part in the right conveying trough 2, and the storage battery can be driven by a right front pushing mechanism to be pushed to the front part of the right conveying trough 2 and lifted to the blanking conveying belt 3 through a lifting mechanism; or the left part of the through part can be pulled by a left pulling mechanism, and then the left part is pushed to the front part of the left conveying groove 1 by a left front pushing mechanism and is lifted to a blanking conveying belt 3 by a lifting mechanism; the left conveying groove 1 and the right conveying groove 2 convey the storage battery through a conveying roller way 14; the double-channel water bath conveying is adopted, the storage battery can be efficiently dispersed and conveyed, the water bath conveying efficiency is greatly improved, and the pressure of the large-batch storage battery water bath conveying is relieved. When a plurality of storage batteries are transported on the left conveying groove 1 and the right conveying groove 2, the storage batteries on the conveying roller table 14 can be further pushed forwards through the left front pushing mechanism and the right front pushing mechanism, so that the storage batteries at the front end are pushed to the lifting plate 19 of the lifting mechanism to be lifted, the left front pushing mechanism and the right front pushing mechanism can push the storage batteries at the through part and can also push the storage batteries at the front end, and the multifunctional conveying device is strong in functionality and good in effect.

The support I5 is arranged at the top ends of the left side wall and the right side wall of the left conveying groove 1 and is positioned at the front end of the through part, the left front pushing mechanism 6 comprises a left front pushing cylinder 8 arranged at the front side of the support I5, and a piston rod at the rear side of the left front pushing cylinder 8 is downwards connected with a left front pushing plate 9; initially, the left front push plate 9 is located at the bottom of the inner rear end of the through portion. The second support 6 is arranged at the top ends of the first support 5 and the rear side wall of the left conveying groove 1, the left pulling mechanism comprises a left pulling cylinder 10 arranged on the left side of the second support 6, and a piston rod on the right side of the left pulling cylinder 10 is downwards connected with a left pulling plate 11; initially, the left pulling plate 11 is located at the bottom of the right end in the through part. The support III 7 is arranged at the top ends of the support II 6 and the right side wall of the right conveying groove 2, the right front pushing mechanism comprises a right front pushing cylinder 12 arranged on the front side of the support III 7, and a piston rod of the right front pushing cylinder 12 is connected with a right front pushing plate 13 downwards; initially, the right front push plate 13 is located at the bottom of the rear end in the right conveying groove 2. The left front pushing mechanism is fixedly installed through a first support 5, and drives a left front pushing plate 9 through a left front pushing cylinder 8 to push the storage battery positioned at the left part of the through part to the front part of the left conveying groove 1; the bracket II 6 is fixed with the rear side wall of the left conveying groove 1 through the bracket I5, the left pulling mechanism is fixed on the bracket II 6, and the left pulling mechanism drives the left pulling plate 11 to pull the storage battery on the right part of the through part to the left part of the through part through the left pulling cylinder 10; the bracket III 7 is fixed with the right side wall of the right conveying groove 2 through the bracket II 6, the right front pushing mechanism is fixed on the bracket III 7, and the right front pushing mechanism drives the right front pushing plate 13 to push the storage battery positioned at the rear part of the right conveying groove 2 to the right part of the through part or further push the storage battery to the front part of the right conveying groove 2 through the right front pushing cylinder 12; the storage battery is dispersed and transferred by the three mechanisms, and the three mechanisms are reasonable and compact in structural design.

The lifting mechanism comprises a groove body 15 communicated with the left conveying groove 1 or the right conveying groove 2, a top plate 17 is arranged above the groove body 15 through four supporting columns 16, a lifting cylinder 18 is arranged at the top of the top plate 17, and a piston rod at the bottom of the lifting cylinder 18 is connected with a lifting plate 19; initially, the lifting plate 19 is located at the bottom in the trough 15 flush with the transport table 14. A side plate 20 is arranged on the rear side of the bottom of the top plate 17, a blanking forward pushing cylinder 21 is arranged on the rear side of the side plate 20, the blanking forward pushing cylinder 21 is positioned above the groove body 15, and a piston rod on the front side of the blanking forward pushing cylinder 21 is connected with a blanking forward pushing plate 22; initially, the blanking front push plate 22 is located behind the four posts 16. A movable blanking roller 23 is arranged on the front side of the top of the tank body 15, and the blanking roller 23 is close to the blanking conveyor belt 3 and is higher than the blanking conveyor belt 3; the front side of the blanking conveying belt 3 is provided with a baffle plate 24. After the storage battery is conveyed to a lifting plate 19 of the lifting mechanism, the storage battery is driven by a lifting cylinder 18 to be lifted to the upper side of the blanking conveying belt 3, the storage battery is located on the front side of a blanking front push plate 22, the storage battery is driven by a starting blanking front push cylinder 21 to be pushed forwards, and the storage battery is guided by a blanking roller 23 to be blanked onto the blanking conveying belt 3 to be conveyed to the next station.

In actual use: the storage batteries are put into a conveying roller way 14 of the right conveying trough 2 from the rear end feeding end of the right conveying trough 2 one by one, at the moment, the right front push plate 13 is positioned at the rear side of the storage batteries, then the storage batteries are conveyed to a position close to the right part of the through part one by one, at the moment, the right front push cylinder 12 is started to drive the right front push plate 13 to push the storage batteries to the right part of the transverse plate 4, then the right front push cylinder 12 can be continuously started to continue to drive the right front push plate 13 to push the storage batteries to the front part of the right conveying trough 2, the left pull cylinder 10 can be started to drive the left pull plate 11 to pull the storage batteries to the left part of the transverse plate 4, and then the left front push cylinder 8 is started to drive the left front push plate 9 to push the storage batteries to the front part of the left conveying trough 1; carry out above-mentioned operation to individual battery like this in turn, transportation in turn is individual battery on the transportation roll table 14, make the battery transport to lifting plate 19 department, later the accessible starts left side and pushes away cylinder 8 and right front and pushes away cylinder 12 and further can make the battery that is in foremost push away to lifting plate 19 of hoist mechanism with pushing away before transporting on the roll table 14, it promotes the battery to promote to be higher than unloading transportation area 3 height to drive lifting plate 19 through starting lifting cylinder 18, later push away push pedal 22 before the cylinder 21 drives the unloading through starting the unloading and push away before with the battery, the battery pushes away to unloading transportation area 3 through unloading roller 23, block avoiding falling through baffle 24 to the battery.

Claims

1. A double-channel storage battery water bath conveying device comprises a left conveying trough (1) and a right conveying trough (2) which are arranged adjacently, wherein the rear end of the right conveying trough (2) is a feeding end, and blanking conveying belts (3) are arranged on the front sides of the left conveying trough (1) and the right conveying trough (2), and the double-channel storage battery water bath conveying device is characterized in that the rear end of the left conveying trough (1) and the middle part of the right conveying trough (2) are communicated left and right to form a through part, and a transverse plate (4) is arranged at the bottom of the through part; a left front pushing mechanism is arranged at the left part above the through part through a first support (5), a left pulling mechanism is arranged on the top of the first support (5) close to the right through a second support (6), and a right front pushing mechanism is arranged on the right side of the top of the second support (6) through a third support (7); the front ends of the left conveying groove (1) and the right conveying groove (2) are provided with lifting mechanisms.

2. The dual-channel storage battery water bath conveying device as claimed in claim 1, wherein the first support (5) is arranged at the top ends of the left side wall and the right side wall of the left conveying groove (1) and is positioned at the front end of the through part, the left front pushing mechanism (6) comprises a left front pushing cylinder (8) arranged at the front side of the first support (5), and a piston rod at the rear side of the left front pushing cylinder (8) is downwards connected with a left front pushing plate (9); at the beginning, the left front push plate (9) is positioned at the bottom of the inner rear end of the through part.

3. The dual-channel storage battery water bath conveying device as claimed in claim 2, wherein the second support (6) is arranged at the top ends of the first support (5) and the rear side wall of the left conveying groove (1), the left pulling mechanism comprises a left pulling cylinder (10) arranged at the left side of the second support (6), and a piston rod at the right side of the left pulling cylinder (10) is connected with a left pulling plate (11) downwards; at the beginning, the left pulling plate (11) is positioned at the bottom of the inner right end of the through part.

4. The dual-channel storage battery water bath conveying device as claimed in claim 3, wherein the third support (7) is arranged at the top end of the second support (6) and the right side wall of the right conveying groove (2), the right front pushing mechanism comprises a right front pushing cylinder (12) arranged at the front side of the third support (7), and a piston rod of the right front pushing cylinder (12) is connected with a right front pushing plate (13) downwards; at the beginning, the right front push plate (13) is positioned at the bottom of the inner rear end of the right conveying groove (2).

5. The double-channel storage battery water bath conveying device as claimed in claim 1, wherein conveying roller ways (14) for conveying from front to back are arranged at the bottom of the left conveying groove (1) and the right conveying groove (2) except for penetrating parts.

6. The dual-channel storage battery water bath conveying device as claimed in claim 5, wherein the lifting mechanism comprises a tank body (15) communicated with the left conveying tank (1) or the right conveying tank (2), a top plate (17) is arranged above the tank body (15) through four pillars (16), a lifting cylinder (18) is arranged at the top of the top plate (17), and a piston rod at the bottom of the lifting cylinder (18) is connected with a lifting plate (19); at the beginning, the lifting plate (19) is positioned at the bottom in the groove body (15) and is flush with the conveying roller way (14).

7. The dual-channel storage battery water bath conveying device as claimed in claim 6, wherein a side plate (20) is arranged on the rear side of the bottom of the top plate (17), a blanking forward pushing cylinder (21) is arranged on the rear side of the side plate (20), the blanking forward pushing cylinder (21) is located above the tank body (15), and a piston rod on the front side of the blanking forward pushing cylinder (21) is connected with a blanking forward pushing plate (22); at the beginning, a front pushing plate (22) for blanking is positioned at the rear sides of the four supporting columns (16).

8. The dual-channel storage battery water bath conveying device as claimed in claim 7, wherein a movable blanking roller (23) is arranged on the front side of the top of the tank body (15), and the blanking roller (23) is close to the blanking conveyor belt (3) and is higher than the blanking conveyor belt (3); a baffle (24) is arranged at the front side of the blanking conveyor belt (3).