CN118412511B - Production device and production method of zinc-bromine flow battery pile - Google Patents

Abstract

The invention discloses a production device and a production method of a zinc-bromine flow battery pile, comprising an assembling device, a zinc-bromine flow battery pile processing device arranged on one side of the assembling device and a storage device arranged on the other side of the assembling device, wherein a manipulator is arranged between the assembling device and the zinc-bromine flow battery pile processing device; the assembly equipment comprises a first machine body and a second machine body fixedly connected with one end of the first machine body, wherein both sides of the top end of the first machine body are fixedly connected with sliding rails, a conveyor is arranged between the two sliding rails, the tops of the two sliding rails are respectively and slidably connected with a first sliding block, and the tops between the two first sliding blocks are respectively and fixedly connected with a shell.

Description

Production device and production method of zinc-bromine flow battery pile

Technical Field

The invention relates to the technical field of production of flow battery stacks, in particular to a production device and a production method of a zinc-bromine flow battery stack.

Background

The energy storage battery is the heart of the energy storage system. Among the existing energy storage batteries, the flow battery has the advantages of good safety, high power, long service life, cleanness, environmental protection and the like, and is the best choice for realizing a large-scale energy storage scheme. The zinc-bromine flow battery pile belongs to one of energy storage batteries, and the zinc-bromine flow battery pile uses zinc-bromine water solution as electrolyte.

In the existing zinc-bromine flow battery pile production process, materials in the zinc-bromine flow battery pile are assembled in a shell through machinery, then the shell is manually moved into cover plate stamping equipment, the cover plate is manually covered on the shell and then operated to work, the cover plate is connected with the shell in a clamping manner, and the zinc-bromine flow battery pile production process is also assembled in another assembly mode.

Disclosure of Invention

The invention aims to provide a production device and a production method of a zinc-bromine flow battery stack, which are used for solving the problems in the background technology.

In order to achieve the above object, in one aspect, the present invention provides the following technical solutions: the production device of the zinc-bromine flow battery pile comprises an assembling device, a zinc-bromine flow battery pile processing device arranged on one side of the assembling device and a storage device arranged on the other side of the assembling device, wherein a manipulator is arranged between the assembling device and the zinc-bromine flow battery pile processing device;

The assembly equipment comprises a first machine body and a second machine body fixedly connected with one end of the first machine body, wherein two sliding rails which are parallel to each other are arranged at the top of the first machine body, a conveyor is arranged between the two sliding rails, first sliding blocks are connected at the tops of the two sliding rails in a sliding manner, a shell is fixedly connected at the tops of the two first sliding blocks, displacement cylinders are fixedly connected at the two sides of the shell, first cylinders are fixedly connected at the bottoms of the two sides of the shell, the output ends of the first cylinders are fixedly connected with a connecting plate positioned in the shell, the two ends of the connecting plate connected with one side of the first cylinders are fixedly connected with an upper cylinder and a lower cylinder, the output ends of the upper cylinder and the lower cylinder are connected with clamping plates, a punching cylinder is fixedly connected at the top of the shell, a punching head is fixedly connected at the output end of the punching cylinder, the end plate is fixedly connected with one end of the shell, a first sensor positioned in the shell is fixedly arranged on the end plate, a main slideway extending to the first machine body and positioned below one end of the conveyor is arranged at the top end of the second machine body, a fixed frame is fixedly connected with one end of the main slideway far away from the first machine body, a second cylinder is fixedly arranged on the outer side of the fixed frame, a hollow push plate positioned in the main slideway is fixedly connected with the output end of the second cylinder, a second sensor is fixedly connected with one end of the main slideway far away from the fixed frame, a third cylinder is fixedly arranged at one end of the second machine body, a discharge plate positioned at one side of the main slideway is fixedly connected with the output end of the third cylinder, the other end of the second machine body is connected with a discharge slideway communicated with the main slideway, and the discharge slideway is correspondingly arranged with the discharge plate, and the outlet of the discharging slideway is communicated with the storage equipment.

Preferably, both sides of the casing are fixedly connected with connecting seats, and the output ends of the two displacement cylinders are fixedly connected with the connecting seats.

Preferably, the bottom of the first machine body and the bottom of the second machine body are fixedly connected with supporting feet.

Preferably, two symmetrical sliding grooves are formed in one side, far away from the first air cylinder, of the connecting plate, second sliding blocks are connected in the sliding grooves in a sliding mode, and clamping plates are fixedly connected between the second sliding blocks.

Preferably, the top fixedly connected with two axle sleeves of connecting plate, two equal sliding connection has the gag lever post in the axle sleeve, two the bottom of gag lever post respectively with the top fixed connection of two second sliders, two equal fixedly connected with fixed block in top of gag lever post, be provided with the spring of cover at the gag lever post surface between fixed block and the axle sleeve.

Preferably, a plurality of first ventilation grooves and a plurality of second ventilation grooves are respectively formed in two sides of the hollow push plate, a fan is fixedly installed in the hollow push plate, and third ventilation grooves are formed in two ends of one side of the fixed frame.

Preferably, the top ends of the first machine bodies are fixedly connected with limiting plates, and the limiting plates are located between the conveying belt and the main slide way.

Preferably, a controller is fixedly arranged at the top of one side of the shell, and the first sensor, the second sensor, the stamping cylinder, the two displacement cylinders, the upper cylinder, the lower cylinder, the two first cylinders, the second cylinder and the third cylinder are electrically connected with the controller.

On the other hand, the invention provides the following technical scheme: the production method of the zinc-bromine flow battery pile is realized by adopting the production device and comprises the following steps:

Step 1, zinc bromine flow battery pile processing: the zinc-bromine flow battery pile processing equipment sends the zinc-bromine flow battery pile material into the shell to finish the installation of the internal structure of the zinc-bromine flow battery pile;

Step 2, transferring: the shell is sent to a main slideway by a manipulator;

Step 3, stamping: the second cylinder pushes the shell to move along the main slideway through the hollow push plate, the shell is sent to the lower part of the stamping head, the cover plate is conveyed by the conveyor, the cover plate is clamped by the two clamping plates driven by the two first cylinders, then the shell is driven by the two displacement cylinders to move, so that the cover plate is driven to move horizontally until the shell is above, the stamping cylinder drives the stamping head to move downwards, the cover plate is stamped on the shell, and the installation of the cover plate is completed;

step 4, discharging and storing: the second cylinder drives the zinc-bromine flow battery stack to move towards the direction of the discharging slideway through the hollow push plate, and when the zinc-bromine flow battery stack moves to the position of the discharging slideway, the third cylinder pushes the zinc-bromine flow battery stack to move towards the discharging slideway through the discharging plate, and the zinc-bromine flow battery stack falls into the storage equipment after passing through the discharging slideway;

Step 5, quality inspection: the quality inspector performs quality inspection on the zinc-bromine flow battery stack in the storage equipment, the quality inspection comprises inspection of size, appearance defect and internal loss, and then the materials are divided into good products and defective products, and the defective products are taken out.

Preferably, the zinc bromine flow battery pile material in the step 1 comprises an anode electrolyte tank, a cathode electrolyte tank, a battery pile, a pipeline and two circulating pumps, wherein zinc bromine water solution is stored in the anode electrolyte tank and zinc bromine water solution are stored in the cathode electrolyte tank, and the battery pile consists of two battery pile end plates, a positive plate, a negative plate and a diaphragm.

Compared with the prior art, the invention has the beneficial effects that: the zinc bromine flow battery pile material is automatically assembled, the cover plate is fixed above the shell in a stamping mode, the production efficiency is high, and the requirement of batch production of the pile is met.

Drawings

FIG. 1 is a diagram of a production facility of the present invention;

FIG. 2 is a schematic view of the assembly apparatus of the present invention;

FIG. 3 is a schematic view of the structure of the housing of the present invention;

FIG. 4 is a schematic view of a partial structure of the present invention;

FIG. 5 is an expanded view of the mounting frame, second cylinder and hollow push plate of the present invention;

FIG. 6 is a schematic view of the hollow push plate of the present invention;

FIG. 7 is a schematic view of the structure of the clamping plate of the present invention;

FIG. 8 is a cross-sectional view of a web of the present invention;

Fig. 9 is a diagram of a production method of the present invention.

In the figure: 1. assembling equipment; 101. a first body; 102. a second body; 103. a conveyor; 104. a slide rail; 105. a displacement cylinder; 106. a housing; 107. a punching cylinder; 108. a third cylinder; 109. a discharge plate; 110. a fixed frame; 111. a discharging slideway; 112. a connecting seat; 113. a support leg; 114. a main slideway; 115. a second sensor; 116. a first sensor; 117. a clamping plate; 118. punching heads; 119. a first slider; 120. a first cylinder; 121. a controller; 122. a second cylinder; 123. a hollow push plate; 124. a third vent groove; 125. a first vent groove; 126. a blower; 127. a second vent groove; 128. a chute; 129. a second slider; 130. a limit rod; 131. a shaft sleeve; 132. a spring; 133. a fixed block; 134. a connecting plate; 135. a limiting plate; 136. an end plate; 137. an upper cylinder and a lower cylinder; 2. a zinc bromine flow battery pile processing device; 3. a manipulator; 4. and a storage device.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

Referring to fig. 1-8, the invention provides a production device and a production method of a zinc-bromine flow battery cell stack, comprising an assembling device 1, a zinc-bromine flow battery cell stack processing device 2, a manipulator 3 and a storage device 4, wherein the zinc-bromine flow battery cell stack processing device 2 is arranged on one side of the assembling device 1, the storage device 4 is arranged on the other side of the assembling device 1, and the manipulator 3 is arranged between the assembling device 1 and the zinc-bromine flow battery cell stack processing device 2;

the assembly equipment 1 comprises a first machine body 101 and a second machine body 102 fixedly connected with one end of the first machine body 101, wherein both sides of the top end of the first machine body 101 are fixedly connected with sliding rails 104, the tops of the two sliding rails 104 are fixedly connected with first sliding blocks 119, the tops between the two first sliding blocks 119 are fixedly connected with a shell 106, a controller 121 is fixedly arranged at the top of one side of the shell 106, first air cylinders 120 are fixedly connected with the bottoms of both sides of the shell 106, output ends of the two first air cylinders 120 are fixedly connected with connecting plates 134 positioned in the shell 106, the top of the shell 106 is fixedly connected with a stamping cylinder 107, the output end of the stamping cylinder 107 is fixedly connected with a stamping head 118, one end of the shell 106 is fixedly connected with an end plate 136, a first sensor 116 positioned in the shell 106 is fixedly arranged on the end plate 136, the middle part fixed mounting on first organism 101 top has conveyer 103, the main slide 114 that extends to first organism 101 and is located conveyer 103 one end below is offered on the top of second organism 102, the one end fixedly connected with fixed frame 110 that main slide 114 kept away from first organism 101, the outside fixed frame 110 fixed mounting has second cylinder 122, the output fixedly connected with of second cylinder 122 is located the hollow push pedal 123 in the main slide 114, the one end fixedly connected with second sensor 115 that main slide 114 kept away from fixed frame 110, the one end fixedly connected with of second organism 102 has third cylinder 108, the output fixedly connected with of third cylinder 108 is located the flitch 109 of main slide 114 one side, the other end of second organism 102 is connected with the ejection of compact slide 111 that communicates with main slide 114, and ejection of compact slide 111 corresponds the setting with flitch 109.

In this embodiment, the two sides of the top end of the first body 101 are fixedly connected with the displacement cylinders 105, the output ends of the two displacement cylinders 105 are fixedly connected with the connecting seats 112, and the two connecting seats 112 are respectively and fixedly connected with the two sides of the casing 106.

Preferably, the four corners of the bottom end of the first body 101 and the four corners of the bottom end of the second body 102 are fixedly connected with the supporting legs 113.

In this embodiment, two symmetrical sliding grooves 128 are formed in one side, far away from the first air cylinder 120, of the connecting plate 134, two second sliding blocks 129 are connected in the two sliding grooves 128 in a sliding manner, clamping plates 117 are fixedly connected between the two second sliding blocks 129, two shaft sleeves 131 are fixedly connected to the top of the connecting plate 134, limiting rods 130 are fixedly connected to the two shaft sleeves 131 in a sliding manner, bottom ends of the two limiting rods 130 are fixedly connected with top ends of the two second sliding blocks 129 respectively, fixing blocks 133 are fixedly connected to top ends of the two limiting rods 130, springs 132 sleeved on the surfaces of the limiting rods 130 are arranged between the fixing blocks 133 and the shaft sleeves 131, upper air cylinders 137 are fixedly connected to two ends of one side, where the connecting plate 134 is connected with the first air cylinder 120, of the output ends of the two upper air cylinders 137 are connected with the clamping plates 117.

When in use, the utility model is characterized in that: the zinc-bromine flow battery cell stack processing equipment 2 sends the zinc-bromine flow battery cell stack material into the shell to complete the installation of the internal structure of the zinc-bromine flow battery cell stack; the casing 106 is sent to the main slideway 114 by the manipulator 3; the controller 121 controls the equipment to work, firstly, the conveyor 103 conveys the cover plate, the two displacement cylinders 105 shrink, the shell 106 moves towards the conveyor 103, the two clamping plates 117 are aligned to the cover plate at the forefront end, meanwhile, the cover plate triggers the first sensor 116, the two upper and lower cylinders 137 drive the clamping plates 117 to move downwards, then the two first cylinders 120 drive the two clamping plates 117 to clamp the cover plate, then the two upper and lower cylinders 137 clamp the cover plate through the clamping plates 117, the two displacement cylinders 105 drive the shell 106 to move towards the main slideway 114, meanwhile, the second cylinder 122 drives the shell to move along the main slideway 114 through the hollow push plate 123, the shell is sent to the lower part of the stamping head 118, the second sensor 115 is triggered, the stamping cylinder 107 drives the stamping head 118 to move downwards, the cover plate is stamped on the shell, and the installation of the cover plate is completed; the second cylinder 122 drives the zinc-bromine flow battery cell stack to move towards the discharging slideway 111 through the hollow push plate 123, and when the zinc-bromine flow battery cell stack moves to the position of the discharging slideway 111, the third cylinder 108 pushes the zinc-bromine flow battery cell stack to move towards the discharging slideway 111 through the discharging plate 109, and the zinc-bromine flow battery cell stack falls into the storage device 4 after passing through the discharging slideway 111; and finally, quality inspectors perform quality inspection on the zinc-bromine flow battery stacks in the storage equipment 4, wherein the quality inspection comprises inspection of size, appearance defects and internal loss, and then the materials are divided into good products and defective products, and the defective products are taken out.

In this embodiment, two sides of the hollow push plate 123 are respectively provided with a plurality of first ventilation slots 125 and a plurality of second ventilation slots 127, a fan 126 is fixedly installed inside the hollow push plate 123, and two ends of one side of the fixed frame 110 are respectively provided with a third ventilation slot 124.

In this embodiment, the top ends of the first body 101 are fixedly connected with a limiting plate 135, and the limiting plate 135 is located between the conveyor belt and the main slideway 114.

In this embodiment, the first sensor 116 and the second sensor 115 are electrically connected to the controller 121, and the controller 121 is electrically connected to the punching cylinder 107, the two displacement cylinders 105, the up-down cylinder 137, the two first cylinders 120, the second cylinder 122, and the third cylinder 108.

Example 2

As shown in fig. 9, a production method of a production device of a zinc-bromine flow battery stack comprises the following steps:

Step 1, zinc bromine flow battery pile processing: the zinc-bromine flow battery cell stack processing equipment 2 sends the zinc-bromine flow battery cell stack material into the shell to complete the installation of the internal structure of the zinc-bromine flow battery cell stack;

step 2, transferring: the casing 106 is sent to the main slideway 114 by the manipulator 3;

step 3, stamping: the second cylinder 122 pushes the shell to move along the main slideway 114 through the hollow push plate 123, the shell is sent to the lower part of the stamping head 118, the conveyor 103 conveys the cover plate, the two first cylinders 120 drive the two clamping plates 117 to clamp the cover plate, then the two displacement cylinders 105 drive the shell 106 to move, so that the cover plate is driven to move horizontally until the upper part of the shell, the stamping cylinder 107 drives the stamping head 118 to move downwards, the cover plate is stamped on the shell, and the installation of the cover plate is completed;

step 4, discharging and storing: the second cylinder 122 drives the zinc-bromine flow battery cell stack to move towards the discharging slideway 111 through the hollow push plate 123, and when the zinc-bromine flow battery cell stack moves to the position of the discharging slideway 111, the third cylinder 108 pushes the zinc-bromine flow battery cell stack to move towards the discharging slideway 111 through the discharging plate 109, and the zinc-bromine flow battery cell stack falls into the storage device 4 after passing through the discharging slideway 111;

Step 5, quality inspection: the quality inspector performs quality inspection on the zinc-bromine flow battery stack in the storage equipment 4, the quality inspection comprises inspection of size, appearance defect and internal loss, and then the materials are divided into good products and defective products, and the defective products are taken out.

Preferably, the zinc bromine flow battery pile material in the step 1 comprises an anode electrolyte tank, a cathode electrolyte tank, a battery pile, a pipeline and two circulating pumps, wherein zinc bromine water solution is stored in the anode electrolyte tank and the cathode electrolyte tank, and the battery pile consists of two battery pile end plates, a positive plate, a negative plate and a diaphragm.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The utility model provides a zinc bromine flow battery pile's apparatus for producing which characterized in that: the device comprises an assembling device (1), a zinc-bromine flow battery cell stack processing device (2) arranged on one side of the assembling device (1) and a storage device (4) arranged on the other side of the assembling device (1), wherein a manipulator (3) is arranged between the assembling device (1) and the zinc-bromine flow battery cell stack processing device (2);

The assembly equipment (1) comprises a first machine body (101) and a second machine body (102) fixedly connected with one end of the first machine body (101), two sliding rails (104) which are parallel to each other are arranged at the top of the first machine body (101), a conveyor (103) is arranged between the two sliding rails (104), first sliding blocks (119) are slidably connected to the tops of the two sliding rails (104), a shell (106) is fixedly connected to the tops of the two sliding blocks (119), displacement cylinders (105) are fixedly connected to the two sides of the shell (106), first air cylinders (120) are fixedly connected to the bottoms of the two sides of the shell (106), output ends of the two first air cylinders (120) are fixedly connected with connecting plates (134) which are positioned in the shell (106), upper and lower air cylinders (137) are fixedly connected to two ends of one side of the first air cylinders (120), output ends of the two upper and lower air cylinders (137) are fixedly connected with clamping plates (117), a shell (106) are fixedly connected to the top of the shell (106), a punch end plate (116) is fixedly connected to the punch end plate (107), a punch end plate (107) is fixedly connected to the punch end plate (107), main slide (114) that extend to first organism (101) and be located conveyer (103) one end below are offered on the top of second organism (102), one end fixedly connected with fixed frame (110) of first organism (101) are kept away from to main slide (114), the outside fixed mounting of fixed frame (110) has second cylinder (122), the output fixedly connected with of second cylinder (122) is located hollow push pedal (123) in main slide (114), one end fixedly connected with second sensor (115) of fixed frame (110) are kept away from to main slide (114), one end fixedly connected with third cylinder (108) of second organism (102), the output fixedly connected with of third cylinder (108) is located discharge slide (109) of main slide (114) one side, the other end of second organism (102) is connected with discharge slide (111) with main slide (114) intercommunication, just discharge slide (111) and discharge plate (109) correspond the setting, the export and the storage equipment (4) of discharge slide (111) intercommunication.

2. The apparatus for producing of zinc bromine flow battery cell stack according to claim 1, wherein: both sides of casing (106) are all fixedly connected with connecting seat (112), two the output of displacement cylinder (105) all with connecting seat (112) fixed connection.

3. The apparatus for producing of zinc bromine flow battery cell stack according to claim 1, wherein: the bottom of the first machine body (101) and the bottom of the second machine body (102) are fixedly connected with supporting feet (113).

4. The apparatus for producing of zinc bromine flow battery cell stack according to claim 1, wherein: two symmetrical sliding grooves (128) are formed in one side, far away from the first air cylinder (120), of the connecting plate (134), second sliding blocks (129) are connected in the sliding grooves (128) in a sliding mode, and clamping plates (117) are fixedly connected between the second sliding blocks (129).

5. The production device of the zinc-bromine flow battery pile according to claim 4, which is characterized in that: the top fixedly connected with two axle sleeves (131) of connecting plate (134), two equal sliding connection has gag lever post (130) in axle sleeve (131), two the bottom of gag lever post (130) respectively with the top fixed connection of two second sliders (129), two equal fixedly connected with fixed block (133) in top of gag lever post (130), be provided with between fixed block (133) and axle sleeve (131) and overlap spring (132) of establishing on gag lever post (130) surface.

6. The apparatus for producing of zinc bromine flow battery cell stack according to claim 1, wherein: the two sides of the hollow push plate (123) are respectively provided with a plurality of first ventilation grooves (125) and a plurality of second ventilation grooves (127), a fan (126) is fixedly arranged in the hollow push plate (123), and the two ends of one side of the fixed frame (110) are respectively provided with a third ventilation groove (124).

7. The apparatus for producing of zinc bromine flow battery cell stack according to claim 1, wherein: the top end of the first machine body (101) is fixedly connected with a limiting plate (135), and the limiting plate (135) is located between the conveying belt (103) and the main slideway (114).

8. The apparatus for producing of zinc bromine flow battery cell stack according to claim 1, wherein: the top of casing (106) one side is fixed mounting has controller (121), first sensor (116), second sensor (115), punching press cylinder (107), two displacement cylinders (105), upper and lower cylinder (137), two first cylinders (120), second cylinder (122) and third cylinder (108) all with controller (121) electric connection.

9. A production method of a zinc bromine flow battery pile is characterized by comprising the following steps: use of a production device according to any one of claims 1-8, comprising the steps of:

Step 1, zinc bromine flow battery pile processing: the zinc-bromine flow battery cell stack processing equipment (2) sends the zinc-bromine flow battery cell stack material into the shell to finish the installation of the internal structure of the zinc-bromine flow battery cell stack;

step 2, transferring: the machine shell (106) is sent to the main slideway (114) through the manipulator (3);

Step 3, stamping: the second air cylinders (122) push the shell to move along the main slideway (114) through the hollow push plates (123), the shell is sent to the lower part of the stamping head (118), the conveyor (103) conveys the cover plate, the two first air cylinders (120) drive the two clamping plates (117) to clamp the cover plate, then the two displacement air cylinders (105) drive the shell (106) to move so as to drive the cover plate to move horizontally until the shell is above, the stamping air cylinders (107) drive the stamping head (118) to move downwards, the cover plate is stamped on the shell, and the installation of the cover plate is completed;

Step 4, discharging and storing: the second cylinder (122) drives the zinc-bromine flow battery pile to move towards the direction of the discharging slideway (111) through the hollow push plate (123), and when the zinc-bromine flow battery pile moves to the position of the discharging slideway (111), the third cylinder (108) pushes the zinc-bromine flow battery pile to move towards the discharging slideway (111) through the discharging plate (109), and the zinc-bromine flow battery pile falls into the storage equipment (4) after passing through the discharging slideway (111);

step 5, quality inspection: the quality inspector performs quality inspection on the zinc-bromine flow battery stack in the storage equipment (4), the quality inspection comprises inspection of size, appearance defects and internal loss, then the materials are divided into good products and defective products, and the defective products are taken out.

10. The method for producing a zinc-bromine flow battery stack according to claim 9, wherein the method comprises the steps of: in the step 1, the zinc bromine flow battery pile material comprises an anode electrolyte tank, a cathode electrolyte tank, a battery pile, a pipeline and two circulating pumps, wherein zinc bromine water solution is stored in the anode electrolyte tank and the cathode electrolyte tank, and the battery pile consists of two battery pile end plates, a positive plate, a negative plate and a diaphragm.