CN115472998B

CN115472998B - Baffle acid extruding equipment with baffle plate taking-out mechanism for vacuum adsorption and baffle plate taking-out

Info

Publication number: CN115472998B
Application number: CN202211073858.1A
Authority: CN
Inventors: 刘旭东; 张森; 薛海东; 易清
Original assignee: JIANGXI XINWEI POWER ENERGY TECHNOLOGY CO LTD
Current assignee: JIANGXI XINWEI POWER ENERGY TECHNOLOGY CO LTD
Priority date: 2020-06-29
Filing date: 2020-06-29
Publication date: 2024-04-16
Anticipated expiration: 2040-06-29
Also published as: CN111864163A; CN111864163B; CN115472998A

Abstract

The invention relates to a baffle acid extruding device with a baffle taking-out mechanism for taking out a baffle through vacuum adsorption, which comprises a baffle taking-out mechanism and a rack, wherein a baffle storage cylinder and a pressing handle are hinged on the rack, the pressing handle is hinged with the rack through a first horizontal hinge shaft, a grid hole is formed in the bottom of the baffle storage cylinder, a pressing rod is hinged on the pressing handle through a second horizontal hinge shaft, a pressing plate for pressing the baffle stored in the baffle storage cylinder is arranged at the lower end of the pressing rod, and the baffle taking-out mechanism is used for fixing the baffle together with the pressing plate and moving out of the baffle storage cylinder along with the pressing plate. The invention aims to provide a baffle acid extruding device with a baffle taking-out mechanism, which solves the problem of insufficient extrusion caused by manual extrusion of a baffle.

Description

Baffle acid extruding equipment with baffle plate taking-out mechanism for vacuum adsorption and baffle plate taking-out

The application is the divisional application of application number 2020106023144, application date 2020, month 06 and 29, entitled "device for extruding and removing partition acid with partition removal mechanism

Technical Field

The invention relates to the technical field of storage battery production, in particular to a separator acid extruding device with a separator taking-out mechanism.

Background

After battery formation, a new field of technology is provided for releasing the acid density change in the battery separator after battery formation.

In the production process of the storage battery, the following detection is needed, namely, the separator taken out after the battery is dissected is manually split into three parts up, down and up, and then the density change of three parts of the separator is detected after the acid in the three parts is extruded. The existing method for extruding acid is manual kneading, but the manual kneading is not only laborious, but also can not knead all the acid in one single-cell partition board, the acid amount is insufficient for detection, so that the other single-cell partition board needs to be added for kneading, the kneaded acid can be detected, the partition boards in two cells need to be used for kneading and acid detection, and the addition of other single-cell partition boards can cause inaccurate testing.

Disclosure of Invention

The invention aims to provide a baffle acid extruding device with a baffle taking-out mechanism, which solves the problem of insufficient extrusion caused by manual extrusion of a baffle.

The technical problems are solved by the following technical proposal: the utility model provides a baffle acid squeezing device of baffle take-out mechanism includes baffle take-out mechanism and frame, be equipped with the baffle in the frame and store a section of thick bamboo and articulated have to press the handle, press the handle and be in the same place with the frame through first horizontal hinge, the bottom of baffle store a section of thick bamboo is equipped with the grid hole, press the handle to be last to have to press the pole through second horizontal hinge, press the lower extreme of pole to be equipped with the pressure disk that is used for the extrusion to deposit the baffle in the baffle store a section of thick bamboo, baffle take-out mechanism is used for making the baffle together with the pressure disk fix and shift out along with the pressure disk a section of thick bamboo. When the acid receiving cup is used, the partition board is placed in the partition board storage device, the pressing handle is moved downwards to drive the pressing disc to enter the partition board storage cylinder to press the partition board, and acid in the partition board is extruded out and flows into the acid receiving cup. When no acid flows out, the pressing handle is stopped to be pressed, and then the pressing handle is lifted up so that the pressure plate moves out of the partition plate to be stored. When the pressure plate moves out of the baffle storage cylinder, the baffle and the pressure plate are connected together to synchronously move out under the action of the baffle taking-out mechanism. The baffle is taken off from the pressure disk and is transferred after being moved out of the baffle storage cylinder, so that convenience in taking out the baffle from the baffle storage cylinder is good.

Preferably, the partition removal mechanism includes a plurality of needle tips disposed on a lower surface of the platen. The separator is fixed with the pressure plate by the needle tip penetrating into the separator, and the separator is taken out together when the single pressure plate is lifted out of the separator storage cylinder.

Preferably, the needle tip is inserted and inserted on the lower surface of the pressure plate, the needle tip is made of ferromagnetic iron, and a magnet for adsorbing the needle tip on the pressure plate is arranged in the pressure plate. The needle tip is convenient to replace after being blunt.

Preferably, the part of the needle tip, which is positioned outside the pressure plate, is provided with two notches for pinching nails, and the two notches are arranged on two opposite sides of the needle tip. When the needle point is taken out, the nail of the two fingers is pinched into the two notches, and the needle point is pulled down, so that the needle point is pulled out. Further, the convenience of pulling out the needle tip is not improved.

Preferably, a spring accommodating hole is formed in one side of the lower surface of the pressure plate, a pushing-down spring capable of shrinking into the spring accommodating hole is arranged in the spring accommodating hole, and the lower end of the pushing-down spring stretches out of the lower surface of the pressure plate when the pushing-down spring is in a free state. The push down spring can move one side of the baffle downwards, so that the baffle deflects to increase the resistance between the baffle and the needle point, and the baffle is more reliably fixed by the needle point.

As another preferred aspect, the partition plate taking-out mechanism includes a connecting plate and a plurality of adsorption through holes extending in the up-down direction and arranged in the pressure plate, a blocking rod is connected in a sliding and sealing manner in the adsorption through holes, the upper end of the blocking rod is connected with the connecting plate, a lower push rod aligned with the pressing handle is arranged on the connecting plate, and an upward moving spring for lifting the connecting plate to enable the lower end of the blocking rod to shrink into the adsorption through holes is arranged between the lower push rod and the pressure plate; the lower end face of the blocking rod is flush with the lower end of the adsorption through hole when the pressure plate moves downwards to be pressed to the partition plate positioned in the partition plate storage cylinder. The pressing handle is pressed down to the push rod, so that the blocking rod moves downwards and the through holes below the cavity are fully blocked, the push rod moves upwards under the action of the upward moving spring when the pressing handle is lifted up, so that a vacuum space is formed at the lower end of the fire fighting through hole, and the partition plate is adsorbed on the lower surface of the pressure plate under the action of atmospheric pressure after the vacuum space is formed and moves out of the partition plate storage cylinder along with the pressure plate.

Preferably, a sliding cavity is arranged in the pressure plate, and the connecting plate is connected in the sliding cavity in a sealing and sliding manner; the blocking rod moves down to the lower end face to be flush with the lower end of the adsorption through hole, and the volume of the space between the connecting plate and the bottom surface of the sliding cavity is zero. When poor sealing is generated between the blocking rod and the adsorption through hole, negative pressure can still be penetrated in the adsorption through hole with poor sealing. The reliability in adsorption is improved.

Preferably, the lower push rod comprises an upper section and a lower section; both the upper section and the lower section, one being worn within the other; a lower push rod shrinkage avoidance spring which separates the upper section from the lower section is arranged between the lower section and the upper section, and the elastic coefficient of the shrinkage avoidance spring is more than 10 times of that of the upward movement spring; the baffle that stores in the baffle storage section of thick bamboo is the baffle that thickness is the biggest just the pressure disk removes when just contacting with the baffle in the baffle storage section of thick bamboo, the lower extreme of putty rod just with the lower extreme parallel and level of absorption through-hole. When the thickness of the partition plate is smaller than the maximum thickness, the lower end of the blocking rod is pressed to the partition plate and can not move continuously, and at the moment, the upper push rod can interfere with the downward movement of the pressing root to squeeze the partition plate, and the length of the upper push rod can shrink to avoid when the phenomenon occurs due to the arrangement of the push rod avoiding spring, so that the extrusion operation can not be interfered, and the invention can adapt to the extrusion of the partition plate with different thickness ranges.

Preferably, a supporting rolling ball is connected to the upper end face of the lower push rod in a rolling manner, and the lower push rod is contacted with the pressing handle through the supporting rolling ball. Can reduce the abrasion between the pressing handle and the upper push rod.

The invention also comprises a baffle separating mechanism for driving the baffle fixed with the pressure plate under the action of the baffle taking-out mechanism to drop off from the pressure plate after moving out of the baffle storage cylinder, wherein the baffle separating mechanism comprises an air passage which is arranged in the pressing rod and penetrates through the lower surface of the pressure plate and a push rod which is connected in the air passage in a sliding sealing way, the push rod is provided with a hook head, a hook step is arranged in the air passage, when the hook head is hooked on the hook step, the push rod extends out of the lower surface of the pressure plate to drop off from the pressure plate, and the upper end of the air passage is provided with an air inlet nozzle. In the use process, after the partition plate is taken out of the partition plate storage cylinder, the air inlet nozzle and the origin joint (avoiding the air compressor), compressed air enters the air passage to drive the ejector rod to descend and output the lower surface of the pressure plate to jack the partition plate, and the partition plate falls into a structure (such as a material receiving disc) of the partition plate after jack-up to be transferred away.

Preferably, the opening of the lower end of the portion of the air passage located in the pressing rod is directly larger than the opening diameter of the upper end of the portion of the air passage located in the pressure plate so as to form the hooking step. The hooking step is convenient to form.

Preferably, the inner circumferential surface of the baffle storage cylinder is a cylindrical surface, the diameter of the pressing plate is equal to the inner diameter of the baffle storage cylinder, a limiting sleeve is sleeved on the pressing rod, the limiting sleeve is fixed with the frame through a fixing rod, the pressing plate is coaxial with the baffle storage cylinder, a connecting sleeve is slidably sleeved on the pressing rod, and the pressing rod is hinged to the connecting sleeve through a second horizontal hinge shaft. Acid can be avoided overflowing towards the upper part of the pressure plate in the extrusion process, so that the extruded acid can be fully transferred away.

Preferably, the connecting sleeve is in contact and abutted with the pressing handle line. The smoothness of the connecting sleeve when sliding on the pressing handle can be improved.

The invention has the following advantages: the separator can be extruded, so that the acid in the separator is fully extruded; the diaphragm can be moved out of the diaphragm storage cylinder along with the platen.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present invention;

FIG. 2 is an enlarged partial schematic view at A of FIG. 1;

FIG. 3 is an enlarged partial schematic view at B of FIG. 1;

FIG. 4 is an enlarged partial schematic view of FIG. 1;

FIG. 5 is a schematic view of the first embodiment in a state of taking out the separator;

FIG. 6 is a schematic view of an embodiment of the present invention with the diaphragm removed and the diaphragm separated from the platen.

Fig. 7 is a schematic diagram showing a connection relationship between a connecting sleeve and a pressing handle in the second embodiment of the present invention.

In the figure: the device comprises a frame 1, a bracket 3, a step through hole 4, a partition plate storage cylinder 5, a grid hole 6, a first horizontal hinge shaft 36, a pressing handle 8, a pressure plate 9, a limiting sleeve 12, a fixing rod 13, a connecting sleeve 14, a needle point 15, a magnet 16, a notch 17, a push-down spring 18, a connecting plate 19, an adsorption through hole, a blocking rod 21, an upper section 22, a lower section 23, a large-diameter section 24, a push-down rod shrinkage avoidance spring 25, a support rolling ball 26, an upward movement spring 27, a sliding cavity 28, an air passage 29, a push rod 30, a hook head 31, a hook step 32, an air inlet nozzle 33, a partition plate 34, a pressing rod 35, a second horizontal hinge shaft 7 and a material receiving disc 37.

Detailed Description

The invention is further described below with reference to the drawings and examples.

First embodiment referring to fig. 1 to 6, a separator acid extruding apparatus provided with a separator removing mechanism includes a frame 1. The middle part of the frame is connected with a bracket 3. The bracket is provided with a stepped through hole 4. The diaphragm storage cylinder 5 is supported on a step in the step hole. All downward projections of the grid holes 6 of the baffle storage cylinder are positioned in the step holes and staggered with the steps in the step holes. The frame is hinged with a pressing handle 8 by a first horizontal hinge shaft 36. The upper end of the pressing rod 35 is hinged with the pressing handle through a first horizontal hinge shaft 36, and the lower end is provided with a pressing plate 9 for pressing the partition stored in the partition storage cylinder.

The inner peripheral surface of the baffle storage cylinder is a cylindrical surface. The diameter of the pressure plate is equal to the inner diameter of the baffle storage cylinder. The pressing rod is sleeved with a limit sleeve 12. The limiting sleeve is fixed with the frame through a fixing rod 13. The pressure plate and the baffle storage cylinder are coaxial. The pressing rod is slidably sleeved with a connecting sleeve 14. The pressing rod is hinged on the connecting sleeve through a second horizontal hinge shaft 7, and the connecting sleeve is in clearance fit with the pressing handle.

The present embodiment also includes a separator removal mechanism. The septum removal mechanism includes a plurality of needle tips 15 disposed on the lower surface of the platen. The needle tip is inserted and inserted on the lower surface of the pressure plate. The needle tip is made of ferromagnetic iron. The platen is provided with a magnet 16 therein for attracting the needle tip to the platen. The magnet is a permanent magnet. The part of the needle tip outside the pressure plate is provided with two notches 17 for the nails to pinch in. Two notches are provided on opposite sides of the needle tip. The two sides on the same straight line are opposite sides, the front side and the rear side of avoidance are opposite sides, and the left side and the right side are opposite sides. One side of the lower surface of the pressure plate is provided with a spring accommodating hole. A push-down spring 18 is provided in the spring receiving bore so as to retract into the spring receiving bore. The lower end of the push-down spring extends out of the lower surface of the pressure plate when the push-down spring is in a free state.

The partition plate take-out mechanism further includes a connecting plate 19 and a plurality of adsorption through holes extending in the up-down direction provided in the platen. A blocking rod 21 is connected in a sliding and sealing way in the adsorption through hole. The upper end of the blocking rod is connected with the connecting plate. The connecting plate is provided with a push rod aligned with the pressing handle. The lower pushrod comprises an upper section 22 and a lower section 23. The lower end of the lower section is fixedly connected with the connecting plate, and the upper end is provided with a large-diameter section 24 which is sleeved in the lower section of the upper section. A lower push rod shrinkage avoiding spring 25 which separates the upper section from the lower section is arranged between the lower section and the upper section. The upper end surface of the upper section is connected with a supporting rolling ball 26 in a rolling way. The lower push rod is contacted with the pressing handle through the supporting rolling ball. An upward moving spring 27 which lifts the connecting plate to enable the lower end of the blocking rod to shrink into the adsorption through hole is arranged between the lower push rod and the pressure plate, and specifically: the upper moving spring is sleeved on the lower section, one end of the upper moving spring is abutted on the lower end face of the large-diameter section, and the other end of the upper moving spring is abutted on the upper surface of the pressure plate. The lower end face of the blocking rod is flush with the lower end of the adsorption through hole when the pressing plate moves downwards to press the partition plate in the partition plate storage cylinder. The elastic coefficient of the shrinkage avoidance spring is more than 10 times of that of the upward-moving spring; the baffle that stores in the baffle storage section of thick bamboo is the baffle that thickness is the biggest just the pressure disk removes when just contacting with the baffle in the baffle storage section of thick bamboo, the lower extreme of putty rod just with adsorb the lower extreme parallel and level of through-hole. The platen has a slide cavity 28 therein. The connecting plate is connected in the sliding cavity in a sealing and sliding way. The blocking rod moves down to the lower end face to be flush with the lower end of the adsorption through hole, and the volume of the space between the connecting plate and the bottom surface of the sliding cavity is zero. The embodiment further comprises a separator separating mechanism for driving the separator fixed with the pressure plate under the action of the separator taking-out mechanism to drop off from the pressure plate after the separator is moved out of the separator storage cylinder. The separator separation mechanism comprises an air passage 29 which is arranged in the pressing rod and penetrates through the lower surface of the pressure plate, and a push rod 30 which is connected in the air passage in a sliding and sealing manner. The ejector rod is provided with a hook head 31. A hooking step 32 is provided in the air passage. When the hook head is hooked on the hooking step, the ejector rod stretches out of the lower surface of the pressure plate, so that the partition plate falls off from the pressure plate. The upper end of the air flue is provided with an air inlet nozzle 33. The opening of the lower end of the part of the air passage located in the pressing rod is directly larger than the opening diameter of the upper end of the part of the air passage located in the pressure plate so as to form the hooking step.

When the acid receiving cup is used, the partition plate 34 is placed in the partition plate storage cylinder, the acid receiving cup is located below the bracket and aligned with the stepped hole, then the pressing rod is moved downwards to enable the pressing plate to enter the partition plate storage cylinder to press the partition plate so as to press acid in the partition plate, the pressing action is released when no acid drops out, the pressing handle is lifted upwards, the partition plate is moved out of the partition plate storage cylinder along with the pressing plate under the action of the partition plate taking mechanism, after the partition plate is moved to the outside of the partition plate storage cylinder, the material receiving plate is connected below the pressing plate, and then the air inlet nozzle bulges in the air channel to drive the ejector rod to extend downwards out of the pressing plate so as to push the partition plate 34 away from the pressing plate and drop the material receiving plate 37.

Embodiment two differs from embodiment one in that:

referring to fig. 7, the connecting sleeve is in line contact with the pressing rod.

Claims

1. The baffle acid extruding device is characterized by comprising a baffle taking-out mechanism and a rack, wherein a baffle storage cylinder and a pressing handle are arranged on the rack, the pressing handle is hinged with the rack through a first horizontal hinge shaft, a grid hole is formed in the bottom of the baffle storage cylinder, a pressing rod is hinged on the pressing handle through a second horizontal hinge shaft, a pressing plate for pressing the baffle stored in the baffle storage cylinder is arranged at the lower end of the pressing rod, and the baffle taking-out mechanism is used for fixing the baffle together with the pressing plate and moving out of the baffle storage cylinder along with the pressing plate; the baffle taking-out mechanism comprises a connecting plate and a plurality of adsorption through holes which are arranged in the pressure plate and extend along the up-down direction, a blocking rod is connected in a sliding and sealing manner in the adsorption through holes, the upper end of the blocking rod is connected with the connecting plate, a lower push rod aligned with the pressing handle is arranged on the connecting plate, and an upward moving spring which lifts the connecting plate to enable the lower end of the blocking rod to shrink into the adsorption through holes is arranged between the lower push rod and the pressure plate; the lower end face of the blocking rod is flush with the lower end of the adsorption through hole when the pressure plate moves downwards to be pressed to the partition plate positioned in the partition plate storage cylinder.

2. The acid squeezing device with a baffle plate taking-out mechanism for vacuum adsorption and baffle plate taking-out according to claim 1, wherein a sliding cavity is arranged in the pressure plate, and the connecting plate is connected in the sliding cavity in a sealing sliding manner; the blocking rod moves down to the lower end face to be flush with the lower end of the adsorption through hole, and the volume of the space between the connecting plate and the bottom surface of the sliding cavity is zero.

3. The separator acid extruding apparatus provided with a separator extracting mechanism for vacuum adsorbing and extracting a separator according to claim 1 or 2, wherein the lower push rod includes an upper section and a lower section; both the upper section and the lower section, one being worn within the other; a lower push rod shrinkage avoidance spring which separates the upper section from the lower section is arranged between the lower section and the upper section, and the elastic coefficient of the shrinkage avoidance spring is more than 10 times of that of the upward movement spring; the baffle that stores in the baffle storage section of thick bamboo is the baffle that thickness is the biggest just the pressure disk removes when just contacting with the baffle in the baffle storage section of thick bamboo, the lower extreme of putty rod just with the lower extreme parallel and level of absorption through-hole.

4. The separator acid squeezing device provided with a separator extraction mechanism for vacuum adsorption and extraction according to claim 1 or 2, wherein a supporting ball is connected to an upper end surface of the lower push rod in a rolling manner, and the lower push rod is in contact with the pressing handle through the supporting ball.

5. The acid squeezing device provided with a baffle plate taking-out mechanism for vacuum adsorption and baffle plate taking-out according to claim 1, further comprising a baffle plate separating mechanism for driving the baffle plate fixed with the pressure plate under the action of the baffle plate taking-out mechanism to drop off from the pressure plate after moving out of the baffle plate storage cylinder, wherein the baffle plate separating mechanism comprises an air passage arranged in a pressing rod and penetrating through the lower surface of the pressure plate and a push rod in the air passage in a sliding sealing manner, the push rod is provided with a hook head, a hook step is arranged in the air passage, when the hook head is hooked on the hook step, the push rod stretches out of the lower surface of the pressure plate to drop off the baffle plate, and an air inlet nozzle is arranged at the upper end of the air passage.