CN212136634U - Novel lithium cellization becomes cabinet - Google Patents

Abstract

The utility model discloses a novel lithium cellization becomes cabinet, its structure includes the formation host computer, this formation cabinet device, through forming the host computer front end and having set up the regulation clamping mechanism, through stirring the stirring piece outward and making the stirring rod drive the removal axle and move, make the skew board skew, the process that the skew board squinted has driven the attaching plate mechanism to stretch into the shell inside, prevent the lithium cell on adjusting the clamping mechanism, through loosening the stirring piece, through the reset action of spring, push out the stirring rod towards the centre, make the skew board skew again, drive the attaching plate mechanism and stretch out the shell inside, press from both sides to the lithium cell and press from both sides tightly; and thirdly, in the clamping process, the extrusion and buffering are carried out in the air pressure cylinder through the extrusion rod, so that the heat dissipation aluminum plate is embedded into the attaching plate, the outer surface of the lithium battery is prevented from being damaged, the lithium batteries of different sizes are well fixed, and the formation efficiency is improved.

Description

Novel lithium cellization becomes cabinet

Technical Field

The utility model relates to a lithium cell technical field, concretely relates to novel lithium cellization becomes cabinet.

Background

The formation cabinet adopts automatic charge-discharge switching, automatic current setting and power-off protection aiming at the characteristics of a battery formation process with low capacity or better consistency, has a full Chinese microcomputer operation interface, has advanced structure, reliable performance, simple and convenient operation and extremely high cost performance, and is ideal production equipment for secondary battery manufacturers.

Because the model of lithium cell differs, so the shape variation of lithium cell becomes the cabinet and is changing into the in-process to the battery, need install the lithium cell and fix becoming to the cabinet, and it is relatively poor to change into the cabinet and carry out the effect of fixing to the lithium cell of equidimension not, leads to the lithium cell to take place to rock easily at the in-process that changes into, leads to the lithium cell to come off from becoming to the cabinet seriously, causes the lithium cell to damage to reduce and become efficiency.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art not enough, a novel lithium cellization becomes cabinet is proposed at present, solved because the model of lithium cell differs, so the shape variation in size of lithium cell, it is changing into the in-process to the battery to become the cabinet, need install the lithium cell and fix on becoming the cabinet, it is relatively poor to change the effect that the cabinet carries out fixing to the lithium cell of equidimension not, lead to the lithium cell to take place to rock easily at the in-process that becomes, seriously lead to the lithium cell to come off from becoming the cabinet, cause the lithium cell to damage, and reduce the problem of becoming efficiency.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a novel lithium battery formation cabinet, including the formation host computer, the heat dissipation groove has been inlayed to the formation host computer side, adjust clamping mechanism fixed mounting and become the host computer front surface, adjust clamping mechanism and include shell, stirring piece, poker rod, spring, removal axle, fixed block, skew board, fixed polished rod and rigging plate mechanism, the shell fixed mounting is at formation host computer front surface, the shell upper end is equipped with stirring piece, stirring piece is fixed mutually with the poker rod upper end, poker rod adopts clearance fit to run through in the inside upper end of shell, poker rod is inconsistent with the spring head end, spring end fixed mounting is on the shell inner wall, poker rod lower extreme is equipped with the removal axle, removal axle fixed mounting is on the fixed block upper surface, the fixed block is articulated mutually with skew board head end through the removal axle, fixed polished rod adopts clearance fit to run through inside the fixed block, fixed polished rod fixed mounting is inside the shell, skew board end and rigging board mechanism are articulated mutually, rigging board mechanism inlays on the shell inner wall.

Further, it installs in the support frame upper end to become the host computer, it has total switch pilot lamp and electricity to become the host computer front surface and inlayed into the pilot lamp and the electricity is connected, support frame side fixed mounting has control panel, control panel with become the host computer electricity and be connected, control panel is connected with the button electricity, control panel is connected with the power cord electricity, the support frame lower extreme is fixed mutually with the support base.

Further, laminating board mechanism includes laminating board, a pneumatic cylinder, buffer spring, lifter and heat dissipation aluminum plate, laminating board medial extremity is articulated mutually with the skew board end, laminating inboard portion is equipped with a pneumatic cylinder, laminating board inlays on the shell inner wall, the inside buffer spring that is equipped with of pneumatic cylinder, the lifter head end adopts clearance fit to install inside a pneumatic cylinder, the lifter head end offsets with buffer spring and is inconsistent, the lifter end is fixed mutually with heat dissipation aluminum plate, heat dissipation aluminum plate inlays inside laminating board.

Furthermore, the poke rods are provided with two poke rods which are symmetrical left and right, and the initial positions of the two poke rods are arranged in the middle of the shell.

Furthermore, the fixed polished rod is of a cylindrical structure, a circular through hole is formed in the fixed block, and the diameter of the fixed polished rod is matched with that of the circular through hole in the fixed block.

Furthermore, the offset plate is equipped with two altogether, and the head end all is articulated with the fixed block, is bilateral symmetry.

Furthermore, the laminating plate mechanisms are provided with two laminating plate mechanisms, are arranged on the left side and the right side of the shell and are respectively hinged with the two offset plates.

Furthermore, the number of the air pressure cylinders, the number of the buffer springs and the number of the extrusion rods are three, three groups of buffers are formed, and the diameter of the inside of the air pressure cylinder is matched with the diameter of the extrusion rods.

Furthermore, the buffer spring is made of alloy spring steel.

Furthermore, the extrusion rod is made of stainless steel.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

in order to solve the problems that the lithium batteries need to be installed on a formation cabinet for fixing in the formation process of the batteries due to different types of the lithium batteries, the formation cabinet has poor effect of fixing the lithium batteries with different sizes, the lithium batteries are easy to shake in the formation process, the lithium batteries seriously fall off from the formation cabinet to cause the damage of the lithium batteries and the reduction of the formation efficiency, an adjusting clamping mechanism is arranged at the front end of a formation host, a poking rod drives a moving shaft to move by poking a poking block outwards to enable a deviation plate to deviate, an attaching plate mechanism is driven to stretch into a shell in the deviation process of the deviation plate, then the lithium batteries are prevented from being arranged on the adjusting clamping mechanism, the poking block is loosened, and the poking rod is pushed out towards the middle through the resetting action of a spring, the offset plate is enabled to offset again, the fitting plate mechanism is driven to extend out of the shell, and two sides of the lithium battery are clamped; and thirdly, in the clamping process, the extrusion and buffering are carried out in the air pressure cylinder through the extrusion rod, so that the heat dissipation aluminum plate is embedded into the attaching plate, the outer surface of the lithium battery is prevented from being damaged, the lithium batteries of different sizes are well fixed, and the formation efficiency is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic front view of the chemical cabinet of the present invention;

fig. 3 is a schematic view of the internal structure of the adjustable clamping mechanism of the present invention;

fig. 4 is a schematic sectional structure view of the attachment plate mechanism of the present invention;

fig. 5 is a schematic view of a partial three-dimensional structure of the attachment plate mechanism of the present invention.

In the figure: the device comprises a formation host machine-1, a heat dissipation groove-2, a support frame-3, a master switch indicator lamp-4, a formation indicator lamp-5, a control panel-6, a button-7, a power line-8, a support base-9, an adjusting and clamping mechanism-10, a shell-101, a toggle block-102, a toggle rod-103, a spring-104, a moving shaft-105, a fixed block-106, a deviation plate-107, a fixed polish rod-108, a jointing plate mechanism-109, a jointing plate-1091, a pneumatic cylinder-1092, a buffer spring-1093, an extrusion rod-1094 and a heat dissipation aluminum plate-1095.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the present invention provides a novel lithium battery formation cabinet: the device comprises a formation host machine 1, a heat dissipation groove 2 is embedded in the side surface of the formation host machine 1, an adjusting and clamping mechanism 10 is fixedly arranged on the front surface of the formation host machine 1, the adjusting and clamping mechanism 10 comprises a shell 101, a poking block 102, a poking rod 103, a spring 104, a moving shaft 105, a fixed block 106, a deviation plate 107, a fixed polished rod 108 and a joint plate mechanism 109, the shell 101 is fixedly arranged on the front surface of the formation host machine 1, the poking block 102 is arranged at the upper end of the shell 101, the poking block 102 is fixed with the upper end of the poking rod 103, the poking rod 103 penetrates through the upper end of the interior of the shell 101 in a clearance fit manner, the poking rod 103 abuts against the head end of the spring 104, the tail end of the spring 104 is fixedly arranged on the inner wall of the shell 101, the moving shaft 105 is arranged at the lower end of the poking rod 103, the, the fixed polished rod 108 is fixedly arranged inside the shell 101, the tail end of the offset plate 107 is hinged with the abutting plate mechanism 109, and the abutting plate mechanism 109 is embedded on the inner wall of the shell 101.

Wherein, it installs in 3 upper ends of support frame to become host computer 1, it has total switch pilot lamp 4 and electricity to inlay to become 1 front surface of host computer, it has become 5 and electricity connections to become 1 front surface of host computer, 3 side fixed mounting of support frame have control panel 6, control panel 6 with become 1 electricity connections of host computer, control panel 6 is connected with button 7 electricity, control panel 6 is connected with 8 electricity connections of power cord, 3 lower extremes of support frame are fixed mutually with support base 9.

Wherein, laminating plate mechanism 109 includes laminating board 1091, pneumatic cylinder 1092, buffer spring 1093, pressure ram 1094 and heat dissipation aluminum plate 1095, laminating board 1091 medial extremity is articulated mutually with skew board 107 end, laminating board 1091 is inside to be equipped with pneumatic cylinder 1092, laminating board 1091 inlays on shell 101 inner wall, pneumatic cylinder 1092 is inside to be equipped with buffer spring 1093, the pressure ram 1094 head end adopts clearance fit to install inside pneumatic cylinder 1092, the pressure ram 1094 head end is inconsistent with buffer spring 1093, the pressure ram 1094 end is fixed mutually with heat dissipation aluminum plate 1095, heat dissipation aluminum plate 1095 inlays inside laminating board 1091.

The two poking rods 103 are arranged and are bilaterally symmetrical, and the initial positions of the two poking rods 103 are arranged in the middle of the shell 101, so that the two fixing blocks 106 are driven to move through the two poking rods 103.

The fixed polish rod 108 is of a cylindrical structure, a circular through hole is formed in the fixed block 106, and the diameter of the fixed polish rod 108 is matched with that of the circular through hole in the fixed block 106, so that the fixed block 106 can move stably on the fixed polish rod 108.

Wherein, the skew board 107 is equipped with two altogether, and the head end all is articulated with fixed block 106, is bilateral symmetry, does benefit to play and drives two skew boards 107 through fixed block 106 and carry out the effect that squints simultaneously.

Wherein, laminating board mechanism 109 is equipped with two altogether to install in the shell 101 left and right sides, it is articulated mutually with two skew boards 107 respectively, do benefit to play and drive the effect that two laminating board mechanisms 109 removed to both ends about simultaneously through two skew boards 107.

The three air pressure cylinders 1092, the three buffer springs 1093 and the three extrusion rods 1094 form three groups of buffers, and the diameters of the insides of the air pressure cylinders 1092 are matched with the diameters of the extrusion rods 1094, so that the effect of extruding and buffering inside the air pressure cylinders 1092 through the extrusion rods 1094 is facilitated.

Wherein, buffer spring 1093 is alloy spring steel material, and it has the advantage that corrosion resistance is strong.

Wherein, the extrusion rod 1094 is made of stainless steel, and has the advantage of high strength.

According to the table, the extrusion rod 1094 is made of stainless steel, so that the strength, the wear resistance and the corrosion resistance of the extrusion rod are greatly enhanced, and the service life of the extrusion rod is prolonged.

The stainless steel described in this patent is referred to as stainless steel for short, and the steel type which is resistant to weak corrosive media such as air, steam, water, etc. or has stainless property is referred to as stainless steel, while the steel type which is resistant to corrosion by chemical corrosive media (such as acid, alkali, salt, etc.) is referred to as acid-resistant steel, and their corrosion resistance is different due to the difference in chemical composition between them, ordinary stainless steel is generally not resistant to corrosion by chemical media, and acid-resistant steel generally has stainless property.

The working principle is as follows: before use, the formation cabinet is firstly horizontally placed and is stably supported by the supporting base 9; when in use, in the first step, an external power supply is switched on through a power line 8 to supply power to the device; secondly, the initial position of the toggle block 102 is in the middle, the initial position of the joint plate mechanism 109 is outside the shell 101, the toggle block 102 is toggled outwards to enable the toggle rod 103 to drive the movable shaft 105 to move, at this time, the fixed block 106 horizontally slides on the fixed polished rod 108 to enable the offset plate 107 to offset, the joint plate mechanism 109 is driven to extend into the shell 101 in the offset process of the offset plate 107, then the lithium battery is prevented from being arranged on the adjusting and clamping mechanism 10, the toggle block 102 is loosened, the toggle rod 103 is pushed out towards the middle under the reset action of the spring 104, the offset plate 107 is enabled to offset again, the joint plate mechanism 109 is driven to extend out of the shell 101, and two sides of the lithium battery are clamped; thirdly, in the clamping process, extrusion buffering is carried out inside the air pressure cylinder 1092 through the extrusion rod 1094, so that the heat dissipation aluminum plate 1095 is embedded inside the attaching plate 1091, the outer surface of the lithium battery is ensured not to be damaged, then the button 7 on the control panel 6 is pressed, the formation host 1 is started to carry out formation operation on the lithium battery, and meanwhile, the heat dissipation aluminum plate 1095 has a certain heat dissipation function, and the heat generated in the formation process of the lithium battery is reduced; after formation is completed, the button 7 is pressed to stop working, and the lithium battery is taken down from the adjusting and clamping mechanism 10.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A novel lithium battery formation cabinet comprises a formation host machine (1), wherein a heat dissipation groove (2) is embedded in the side surface of the formation host machine (1);

the method is characterized in that: the chemical synthesis device is characterized by further comprising an adjusting and clamping mechanism (10), wherein the adjusting and clamping mechanism (10) is fixedly arranged on the front surface of the chemical synthesis host machine (1), the adjusting and clamping mechanism (10) comprises a shell (101), a poking block (102), a poking rod (103), a spring (104), a moving shaft (105), a fixed block (106), a deviation plate (107), a fixed polished rod (108) and a jointing plate mechanism (109), the shell (101) is fixedly arranged on the front surface of the chemical synthesis host machine (1), the poking block (102) is arranged at the upper end of the shell (101), the poking block (102) is fixed with the upper end of the poking rod (103), the poking rod (103) penetrates through the inner upper end of the shell (101) in a clearance fit manner, the poking rod (103) is abutted to the head end of the spring (104), the tail end of the spring (104) is fixedly arranged on the inner wall of the shell (101), remove axle (105) fixed mounting at fixed block (106) upper surface, fixed block (106) are articulated mutually with offset plate (107) head end through removing axle (105), fixed polished rod (108) adopt clearance fit to run through inside fixed block (106), fixed polished rod (108) fixed mounting is inside shell (101), offset plate (107) end is articulated mutually with laminating board mechanism (109), laminating board mechanism (109) inlays on shell (101) inner wall.

2. The novel lithium cellization cabinet as claimed in claim 1, characterized in that: become host computer (1) and install in support frame (3) upper end, it has master switch pilot lamp (4) and electricity to inlay to become host computer (1) front surface, it has become pilot lamp (5) and electricity to become host computer (1) front surface and connect, support frame (3) side fixed mounting has control panel (6), control panel (6) with become host computer (1) electricity and be connected, control panel (6) are connected with button (7) electricity, control panel (6) are connected with power cord (8) electricity, support frame (3) lower extreme is fixed mutually with support base (9).

3. The novel lithium cellization cabinet as claimed in claim 1, characterized in that: laminating plate mechanism (109) is including attaching plate (1091), pneumatic cylinder (1092), buffer spring (1093), pressure ram (1094) and heat dissipation aluminum plate (1095), attaching plate (1091) medial extremity is articulated mutually with skew board (107) end, attaching plate (1091) inside is equipped with pneumatic cylinder (1092), attaching plate (1091) inlays on shell (101) inner wall, pneumatic cylinder (1092) inside is equipped with buffer spring (1093), pressure ram (1094) head end adopts clearance fit to install inside pneumatic cylinder (1092), pressure ram (1094) head end offsets with buffer spring (1093), pressure ram (1094) end is fixed mutually with heat dissipation aluminum plate (1095), heat dissipation aluminum plate (1095) inlays inside attaching plate (1091).

4. The novel lithium cellization cabinet as claimed in claim 1, characterized in that: the two poking rods (103) are arranged and are bilaterally symmetrical, and the initial positions of the two poking rods (103) are arranged in the middle of the shell (101).

5. The novel lithium cellization cabinet as claimed in claim 1, characterized in that: the fixed polish rod (108) is of a cylindrical structure, a circular through hole is formed in the fixed block (106), and the diameter of the fixed polish rod (108) is matched with the circular through hole in the fixed block (106).

6. The novel lithium cellization cabinet as claimed in claim 1, characterized in that: the number of the offset plates (107) is two, and the head ends of the two offset plates are hinged to the fixed block (106) and are bilaterally symmetrical.

7. The novel lithium cellization cabinet as claimed in claim 1, characterized in that: the two attaching plate mechanisms (109) are arranged on the left side and the right side of the shell (101) and are respectively hinged with the two offset plates (107).

8. The novel lithium cellization cabinet as claimed in claim 3, characterized in that: the three pneumatic cylinders (1092), the three buffer springs (1093) and the three extrusion rods (1094) form three groups of buffers, and the diameter of the inner portion of each pneumatic cylinder (1092) is matched with the diameter of each extrusion rod (1094).

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