CN209939821U - Automatic lifting and feeding device for liquid storage device - Google Patents

Abstract

The utility model provides a reservoir automatic lifting loading attachment belongs to reservoir processing technology field. The feeding mechanism comprises a main frame, wherein a feeding platen is arranged on the main frame, a plurality of obliquely arranged feeding grooves are formed in the feeding platen, the end part of each feeding groove is connected with a barrel guide groove, an auxiliary frame is further fixed to one end, located on the barrel guide groove, of the main frame, a material pushing plate assembly is arranged on the main frame, located above the barrel guide groove and capable of moving in a reciprocating mode in the vertical direction, and is connected with a material pushing plate propeller which is connected to the auxiliary frame and provided with an output shaft capable of moving in a reciprocating mode in the horizontal direction. The utility model discloses can realize the serialization operation, transport the reservoir to the discharge gate and realize the effect of material loading one by one, production efficiency is high.

Description

Automatic lifting and feeding device for liquid storage device

Technical Field

The utility model belongs to the technical field of the reservoir processing, a reservoir automatic lifting loading attachment is related to.

Background

The liquid accumulator is assembled in the air conditioner evaporator and the air suction pipe of the compressor, is a protective component for preventing liquid refrigerant from flowing into the compressor to generate liquid impact, and can play the roles of storage, gas-liquid separation, filtration, noise reduction and refrigerant buffering.

In the production process of the liquid storage device, the problem of low efficiency exists in the feeding of the liquid storage device, the automation of a production line is needed to be realized in the processing of the liquid storage device, the automatic feeding one by one is needed in the feeding process, but the manual operation mode is adopted, the production efficiency is low, and the production practice is not met. In order to realize automatic feeding, various solutions are explored, for example, an automatic feeding machine is disclosed in the Chinese patent application (application number: CN 102424258B). The automatic feeding and sorting device has the advantages of automatic feeding and automatic sorting, but has the defect that the positioning feeding and the automatic one-by-one feeding cannot be realized.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, a reservoir automatic lifting loading attachment is provided.

In order to achieve the above purpose, the utility model adopts the following technical proposal:

the utility model provides a reservoir automatic lifting loading attachment, includes the main frame, the main frame on be equipped with the feeding platen, be equipped with a plurality of feed chutes that are the slope and set up on the feeding platen, feed chute end connection has the barrel guide slot, the one end that just is located the barrel guide slot on the main frame still is fixed with a subframe, be equipped with one on the main frame and be located barrel guide slot top and can be along vertical direction reciprocating motion's pushing equipment subassembly, this pushing equipment subassembly is connected with the scraping wings propeller, the scraping wings propeller is connected on subframe and has the output shaft that can follow horizontal direction reciprocating motion.

In the automatic lifting and feeding device for the liquid storage device, the auxiliary frame is connected with a material pushing manipulator base plate, the material pushing plate propeller is fixed on the material pushing manipulator base plate, and an output shaft of the material pushing plate propeller is connected with a translation seat capable of reciprocating in the horizontal direction.

In the automatic lifting and feeding device for the liquid storage device, the material pushing manipulator base plate is provided with a material pushing guide rail, buffer locators are arranged on two sides of the material pushing guide rail, and the translation seat is connected with the material pushing guide rail in a sliding mode.

In the automatic lifting and feeding device for the liquid accumulator, the material pushing plate assembly comprises a lifting propeller fixed on a translation seat, the lifting propeller is provided with an output shaft capable of reciprocating along the vertical direction, the other end of the output shaft of the lifting propeller is connected with a material pushing plate seat, a plurality of material pushing plates are arranged on the material pushing plate seat, and lifting guide pillars connected with the material pushing plate seat are further arranged at two ends of the translation seat.

In the automatic lifting and feeding device for the liquid accumulator, one end of the material pushing plate seat is provided with the discharging propeller, the discharging propeller is provided with an output shaft capable of reciprocating along the horizontal direction, and the output shaft of the discharging propeller is connected with the discharging plate.

In foretell reservoir automatic lifting loading attachment, the feed chute end connection have can follow vertical direction reciprocating motion's promotion layer board, the promotion layer board on be equipped with a plurality of and be the slope setting and with the promotion groove that the feed chute corresponds, the promotion layer board on be equipped with hoist mechanism, promotion layer board tip be equipped with well section of thick bamboo striker plate, well section of thick bamboo striker plate other end with the barrel guide slot link to each other.

In the automatic lifting and feeding device for the liquid accumulator, the lifting mechanism comprises a lifting support fixed on the main frame, a lifting propeller is fixedly arranged on the lifting support, the lifting propeller is provided with an output shaft capable of reciprocating along the vertical direction, the output shaft of the lifting propeller is connected with the lifting support plate, and a lifting connecting rod assembly is arranged on the lifting support plate.

In the above automatic lifting and feeding device for the liquid reservoir, the lifting connecting rod assembly comprises a lifting guide pillar connected with the lifting support plate, the lifting guide pillar is connected with the lifting support in a sliding fit manner, the other end of the lifting guide pillar is connected with an L-shaped guide pillar support, the other end of the L-shaped guide pillar support is connected with a lifting baffle, and the lifting baffle is connected with the lifting support plate.

In the automatic lifting and feeding device for the liquid storage device, the feeding groove is internally provided with a partition plate capable of reciprocating along the horizontal direction, and the partition plate is provided with a width adjusting mechanism.

In the automatic lifting and feeding device for the liquid accumulator, the width adjusting mechanism comprises a lead screw supporting seat fixed on the main frame, a width adjusting lead screw is arranged on the lead screw supporting seat, one end of the width adjusting lead screw is connected with a hand wheel, an adjusting cross beam is arranged on the width adjusting lead screw, two ends of the adjusting cross beam are connected with a partition plate guide pillar and can reciprocate along the horizontal direction, the partition plate guide pillar is fixed on the main frame, the lower end of the adjusting cross beam is connected with a partition plate mounting seat, and a connecting plate on the partition plate mounting seat is connected with a partition plate.

Compared with the prior art, the utility model has the advantages of:

1. a large amount of liquid accumulators can be placed in the discharge chute, the push plate assembly and the push plate propeller are matched, continuous operation can be achieved, and the liquid accumulators are transported to the discharge port to achieve the effect of one-by-one feeding.

2. The upper end and the lower end of the pushing guide rail are provided with inward grooves which are arc-shaped, so that the stability can not be reduced when the translation seat and the pushing guide rail are in sliding connection, and the buffer positioner can enable the translation seat to play the roles of buffering and positioning during reciprocating motion.

3. When the lifting baffle is adopted, part of liquid reservoirs can be lifted upwards, the liquid reservoirs in the feeding grooves are blocked to prevent dropping or clamping the lifting supporting plate, and the device is damaged.

4. Set up width adjustment mechanism and can change the width of feed chute, make the device be applicable to the reservoir of different length, prevent that the reservoir from plugging up the feed chute in the slope when rolling, make things convenient for the feeding

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural view provided by the present invention;

FIG. 2 is a schematic view of FIG. 1 in another orientation;

FIG. 3 is a schematic view of the construction of the pusher assembly;

fig. 4 is a schematic structural view of the lifting mechanism.

In the figure, a main frame 1, a feeding platen 2, a feeding groove 3, a cylinder guide groove 4, an auxiliary frame 5, a pushing plate assembly 6, a pushing plate pusher 7, a pushing manipulator seat plate 8, a translation seat 9, a pushing guide rail 10, a buffer positioner 11, a lifting pusher 12, a pushing plate seat 13, a pushing plate 14, a lifting guide pillar 15, a discharging pusher 16, a discharging plate 17, a lifting supporting plate 18, a lifting groove 19, a middle cylinder material baffle 20, a lifting mechanism 21, a lifting support 22, a lifting pusher 23, a lifting connecting rod assembly 24, a lifting guide pillar 25, an L-shaped guide pillar support 26, a lifting baffle 27, a spacing plate 28, a width adjusting mechanism 29, a screw rod support 30, a width adjusting screw rod 31, a hand wheel 32, an adjusting beam 33, a spacing plate guide pillar 34 and a spacing plate mounting seat 35 are arranged.

Detailed Description

As shown in fig. 1 and 3, an automatic lifting and feeding device for a liquid accumulator comprises a main frame 1, wherein a feeding platen 2 is arranged on the main frame 1, a plurality of feeding grooves 3 which are obliquely arranged are arranged on the feeding platen 2, the end parts of the feeding grooves 3 are connected with a barrel guide groove 4, an auxiliary frame 5 is further fixed at one end, located on the main frame 1, of the barrel guide groove 4, a material pushing plate assembly 6 which is located above the barrel guide groove 4 and can reciprocate along the vertical direction is arranged on the main frame 1, the material pushing plate assembly 6 is connected with a material pushing plate propeller 7, and the material pushing plate propeller 7 is connected to the auxiliary frame 5 and is provided with an output shaft which can reciprocate along the horizontal direction.

In this embodiment, the end of the feeding chute 3 is indirectly connected with the barrel guide groove 4 in the vertical direction, and the material pushing plate assembly 6 or the material pushing plate pusher 7 may be a cylinder or an oil cylinder.

After the liquid accumulator is placed on the feeding bedplate 2 and rolls to the end part along the inclined feeding groove 3, the material pushing plate assembly 6 rises upwards to enable the liquid accumulator to roll to the barrel guide groove 4, when the liquid accumulator enters the barrel guide groove 4, the material pushing plate assembly 6 descends, the material pushing plate propeller 7 acts to enable the material pushing plate assembly 6 to push the liquid accumulator to the discharging hole, then the material pushing plate assembly 6 rises again and returns to the original position through the material pushing plate propeller 7, then the material pushing plate assembly descends to the initial position, and the operations are repeated to finish automatic one-by-one feeding.

The auxiliary frame 5 is connected with a material pushing manipulator seat plate 8, the material pushing plate propeller 7 is fixed on the material pushing manipulator seat plate 8, and an output shaft of the material pushing plate propeller 7 is connected with a translation seat 9 capable of reciprocating along the horizontal direction.

The material pushing manipulator base plate 8 is provided with a material pushing guide rail 10, buffer locators 11 are arranged on two sides of the material pushing guide rail 10, and the translation seat 9 is connected with the material pushing guide rail 10 in a sliding mode.

In this embodiment, as shown in fig. 3, the pushing guide rail 10 is divided into an upper section and a lower section, and is fixed on the pushing manipulator seat plate 8 by bolts, the upper end and the lower end of the pushing guide rail 10 are provided with inward grooves, and the grooves are arc-shaped, so that stability is not reduced while the translation seat 9 and the pushing guide rail 10 are in sliding connection, and the buffer positioner 11 can enable the translation seat 9 to perform buffering and positioning functions during reciprocating motion.

The material pushing plate assembly 6 comprises a lifting propeller 12 fixed on a translation seat 9, the lifting propeller 12 is provided with an output shaft capable of reciprocating in the vertical direction, the other end of the output shaft of the lifting propeller 12 is connected with a material pushing plate seat 13, the material pushing plate seat 13 is provided with a plurality of material pushing plates 14, and two ends of the translation seat 9 are also provided with lifting guide pillars 15 connected with the material pushing plate seat 13.

In this embodiment, as shown in fig. 3, the lifting guide post 15 is fixedly connected to two ends of the pushing plate base 13, two ends of the translation base 9 are provided with linear bearings to be connected to the lifting guide post 15 in a sliding fit manner, the lifting propeller 12 may be an oil cylinder or an air cylinder, an output shaft of the lifting propeller 12 is fixedly connected to the pushing plate base 13, and the pushing plate base 13 can be linearly moved in a reciprocating manner in the vertical direction by the lifting propeller 12.

One end of the pushing plate seat 13 is provided with a discharging propeller 16, the discharging propeller 16 is provided with an output shaft which can reciprocate along the horizontal direction, and the output shaft of the discharging propeller 16 is connected with a discharging plate 17.

In this embodiment, as shown in fig. 3, the discharging propeller 16 may be an oil cylinder or an air cylinder, an output shaft of the discharging propeller 16 is fixedly connected to the discharging plate 17, and the discharging plate 17 can be moved in a reciprocating linear motion in a horizontal direction by the discharging propeller 16.

After the liquid storage device is pushed to the discharge hole, the discharge propeller 16 drives the discharge plate 17 to move so as to push the liquid storage device to a specified position.

3 end connection of feed chute have can follow vertical direction reciprocating motion's promotion layer board 18, promotion layer board 18 on be equipped with a plurality of be the slope set up and with 3 lifting groove 19 that correspond of feed chute, promotion layer board 18 on be equipped with hoist mechanism 21, 18 tip of promotion layer board be equipped with well section of thick bamboo striker plate 20, well section of thick bamboo striker plate 20 the other end with barrel guide slot 4 link to each other.

In this embodiment, as shown in fig. 2 and 4, the lifting blade 18 can be lowered to be flush with the end of the feed chute 3 and can be raised to be flush with the barrel guide groove 4.

Descending promotion layer board 18 to flushing with feed chute 3, the reservoir rolls to promoting on the promotion groove 19 that promotes layer board 18 after getting into from feed chute 3, well section of thick bamboo striker plate 20 can block the reservoir this moment, makes the reservoir can not drop at promotion groove 19, makes promotion layer board 18 rise again to flushing with barrel guide slot 4, reservoir and well section of thick bamboo striker plate 20 break away from this moment, again because be equipped with the angle of inclination to barrel guide slot 4 slope on promoting groove 19, so the reservoir can roll to in the barrel guide slot 4.

The lifting mechanism 21 comprises a lifting support 22 fixed on the main frame 1, a lifting propeller 23 is fixedly arranged on the lifting support 22, the lifting propeller 23 is provided with an output shaft capable of reciprocating along the vertical direction, the output shaft of the lifting propeller 23 is connected with the lifting support plate 18, and a lifting connecting rod assembly 24 is arranged on the lifting support plate 18.

In this embodiment, as shown in fig. 2 and 4, the lifting propeller 23 may be an oil cylinder or an air cylinder, and an output shaft of the lifting propeller 23 is fixedly connected to the lifting support plate 18.

The lifting blade 18 can be reciprocated in the vertical direction by the action of the lifting pusher 23.

The lifting link assembly 24 comprises a lifting guide pillar 25 connected with the lifting support plate 18, the lifting guide pillar 25 is connected with the lifting support 22 in a sliding fit manner, the other end of the lifting guide pillar 25 is connected with an L-shaped guide pillar support 26, the other end of the L-shaped guide pillar support 26 is connected with a lifting baffle 27, and the lifting baffle 27 is connected with the lifting support plate 18.

In this embodiment, as shown in fig. 2 and 4, one end of the lifting guide pillar 25 is fixedly connected to the lifting support plate 18, the lifting support 22 is provided with a linear bearing connected to the lifting guide pillar 25 in a sliding fit manner, and one end of the lifting support plate 18 is fixedly connected to the lifting baffle 27, so that the lifting baffle 27 can reciprocate along with the lifting support plate 18 in the vertical direction.

When the lifting blade 18 moves upward, the lifting baffle 27 also rises, blocking the reservoir in the feed chute 4 from falling or jamming the lifting blade 18, resulting in damage to the device.

The feeding chute 3 is internally provided with a partition plate 28 capable of reciprocating along the horizontal direction, and the partition plate 28 is provided with a width adjusting mechanism.

In this embodiment, as shown in fig. 1, the horizontal reciprocating motion of the partition plate 28 can change the width of the feeding chute 4, and the partition plate can be used for liquid reservoirs with different lengths, so that the liquid reservoirs cannot obliquely block the feeding chute 4 during rolling, and feeding is facilitated.

The width adjusting mechanism 29 comprises a screw rod supporting seat 30 fixed on the main frame 1, a width adjusting screw rod 31 is arranged on the screw rod supporting seat 30, one end of the width adjusting screw rod 31 is connected with a hand wheel 32, an adjusting cross beam 33 is arranged on the width adjusting screw rod 31, two ends of the adjusting cross beam 33 are connected with a partition plate guide post 34 and can reciprocate along the horizontal direction, the partition plate guide post 34 is fixed on the main frame 1, the lower end of the adjusting cross beam 33 is connected with a partition plate mounting seat 35, and a connecting plate on the partition plate mounting seat 35 is connected with a partition plate 28.

In this embodiment, as shown in fig. 1, the screw rod supporting seat 30 is connected to the width adjusting screw rod 31 in a rotating fit manner, the width adjusting screw rod 31 is connected to the adjusting beam 33 in a threaded fit manner, and the adjusting beam 33 is fixedly connected to the partition plate mounting seat 35 through a bolt.

The working principle of the width adjusting mechanism is as follows: the hand wheel 32 is rotated, the hand wheel 32 drives the width adjusting screw rod 31 to rotate, the width adjusting screw rod 31 rotates to enable the adjusting beam 33 to reciprocate along the horizontal direction, the adjusting beam 33 can drive the partition board mounting seat 35 to reciprocate, and similarly, the partition board mounting seat 35 can drive the partition board 28 to reciprocate, so that the purpose of adjusting the width of the feed chute 4 is achieved.

The utility model discloses a theory of operation is: after the liquid accumulator is placed on the feeding bedplate 2 and rolls to the end part along the inclined feeding groove 3, the lifting propeller 23 acts to enable the lifting support plate 18 to descend to be flush with the end part of the feeding groove 3, after the liquid accumulator rolls to the lifting groove 19, the lifting support plate 18 rises to be flush with the barrel guide groove 4 through the action of the lifting propeller 23, the lifting propeller 12 acts to enable the pushing plate seat 13 to rise, at the moment, the liquid accumulator is separated from the middle barrel baffle plate 20, the liquid accumulator can roll into the barrel guide groove 4 because the lifting groove 19 is provided with an inclined angle inclined to the barrel guide groove 4, the lifting propeller 12 acts again to enable the pushing plate seat 13 to descend and reset, when the lifting support plate 18 moves upwards, the lifting baffle plate 27 rises to block the liquid accumulator in the feeding groove 4, and when the liquid accumulator enters the barrel guide groove 4, the pushing plate propeller 7 acts to horizontally push the liquid accumulator for a, and then the lifting propeller 12 acts to enable the pushing plate seat 13 to rise until the pushing plate 14 is separated from the liquid storage device, the pushing plate propeller 7 acts to move horizontally to the initial position again, the lifting propeller 12 acts to enable the pushing plate seat 13 to descend to the initial position, finally the discharging propeller 16 acts, and the liquid storage device is pushed to the discharging hole through the discharging plate 17 to complete feeding.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the main frame 1, the feeding platen 2, the feeding chute 3, the barrel guide groove 4, the sub-frame 5, the pushing plate assembly 6, the pushing plate pusher 7, the pushing manipulator seat plate 8, the translation seat 9, the pushing guide rail 10, the buffer positioner 11, the lifting pusher 12, the pushing plate seat 13, the pushing plate 14, the lifting guide pillar 15, the discharging pusher 16, the discharging plate 17, the lifting support plate 18, the lifting groove 19, the middle barrel material stop plate 20, the lifting mechanism 21, the lifting support 22, the lifting pusher 23, the lifting link assembly 24, the lifting guide pillar 25, the L-shaped guide pillar support 26, the lifting baffle 27, the partition plate 28, the width adjusting mechanism 29, the lead screw support 30, the width adjusting lead screw 31, the hand wheel 32, the adjusting beam 33, the partition plate guide pillar 34, the partition plate mounting seat 35 1, the feeding platen 2, the feeding chute 3, the barrel guide groove 4, the sub-frame 5, the main frame, The device comprises a material pushing plate assembly 6, a material pushing plate pusher 7, a material pushing manipulator seat plate 8, a translation seat 9, a material pushing guide rail 10, a buffer positioner 11, a lifting pusher 12, a material pushing plate seat 13, a material pushing plate 14, a lifting guide pillar 15, a material discharging pusher 16, a material discharging plate 17, a lifting support plate 18, a lifting groove 19, a middle cylinder material baffle plate 20, a lifting mechanism 21, a lifting support 22, a lifting pusher 23, a lifting connecting rod assembly 24, a lifting guide pillar 25, an L-shaped guide pillar support 26, a lifting baffle plate 27, a partition plate 28, a width adjusting mechanism 29, a screw rod support seat 30, a width adjusting screw rod 31, a hand wheel 32, an adjusting beam 33, a partition plate guide pillar 34, a partition plate mounting seat 35 and other terms, but the possibility of. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a reservoir automatic lifting loading attachment, includes main frame (1), a serial communication port, main frame (1) on be equipped with feeding platen (2), be equipped with a plurality of feed chute (3) that are the slope and set up on feeding platen (2), feed chute (3) end connection has barrel guide slot (4), the one end that just is located barrel guide slot (4) on main frame (1) still is fixed with a subframe (5), be equipped with one on main frame (1) and be located barrel guide slot (4) top and can be along vertical direction reciprocating motion's pushing away flitch subassembly (6), this pushing away flitch subassembly (6) are connected with scraping wings propeller (7), pushing away flitch propeller (7) are connected on subframe (5) and have the output shaft that can follow horizontal direction reciprocating motion.

2. The automatic lifting and feeding device for the liquid storage device as claimed in claim 1, wherein a pushing manipulator seat plate (8) is connected to the sub-frame (5), the pushing plate pusher (7) is fixed on the pushing manipulator seat plate (8), and an output shaft of the pushing plate pusher (7) is connected with a translation seat (9) capable of reciprocating in a horizontal direction.

3. The automatic lifting and feeding device for the liquid storage devices as claimed in claim 2, wherein the pushing manipulator base plate (8) is provided with a pushing guide rail (10), buffer locators (11) are arranged on two sides of the pushing guide rail (10), and the translation seat (9) is slidably connected with the pushing guide rail (10).

4. The automatic lifting and feeding device for the liquid accumulators according to claim 3, wherein the material pushing plate assembly (6) comprises a lifting propeller (12) fixed on the translation seat (9), the lifting propeller (12) is provided with an output shaft capable of reciprocating in a vertical direction, the other end of the output shaft of the lifting propeller (12) is connected with a material pushing plate seat (13), a plurality of material pushing plates (14) are arranged on the material pushing plate seat (13), and lifting guide posts (15) connected with the material pushing plate seat (13) are further arranged at two ends of the translation seat (9).

5. The automatic lifting and feeding device for the liquid accumulators according to claim 4 is characterized in that one end of the pushing plate seat (13) is provided with a discharging propeller (16), the discharging propeller (16) is provided with an output shaft capable of reciprocating in the horizontal direction, and the output shaft of the discharging propeller (16) is connected with a discharging plate (17).

6. The automatic lifting and feeding device for the liquid storage device according to claim 1, wherein the end of the feed chute (3) is connected with a lifting support plate (18) capable of reciprocating in the vertical direction, a plurality of lifting grooves (19) which are obliquely arranged and correspond to the feed chute (3) are formed in the lifting support plate (18), a lifting mechanism (21) is arranged on the lifting support plate (18), a middle cylinder baffle plate (20) is arranged at the end of the lifting support plate (18), and the other end of the middle cylinder baffle plate (20) is connected with the cylinder guide groove (4).

7. The automatic lifting and feeding device for the liquid storage device of claim 6, wherein the lifting mechanism (21) comprises a lifting support (22) fixed on the main frame (1), a lifting propeller (23) is fixed on the lifting support (22), the lifting propeller (23) is provided with an output shaft capable of reciprocating in a vertical direction, the output shaft of the lifting propeller (23) is connected with the lifting support plate (18), and a lifting connecting rod assembly (24) is arranged on the lifting support plate (18).

8. The automatic lifting and feeding device for the liquid accumulator of claim 7, wherein the lifting link assembly (24) comprises a lifting guide pillar (25) connected with the lifting support plate (18), the lifting guide pillar (25) is connected with the lifting support seat (22) in a sliding fit manner, the other end of the lifting guide pillar (25) is connected with an L-shaped guide pillar support seat (26), the other end of the L-shaped guide pillar support seat (26) is connected with a lifting baffle plate (27), and the lifting baffle plate (27) is connected with the lifting support plate (18).

9. The automatic lifting and feeding device for the liquid storage device as claimed in claim 1, wherein a spacing plate (28) capable of reciprocating in the horizontal direction is arranged in the feeding chute (3), and a width adjusting mechanism is arranged on the spacing plate (28).

10. The automatic lifting and feeding device for the liquid accumulator according to claim 9, wherein the width adjusting mechanism (29) comprises a lead screw supporting seat (30) fixed on the main frame (1), a width adjusting lead screw (31) is arranged on the lead screw supporting seat (30), a hand wheel (32) is connected to one end of the width adjusting lead screw (31), an adjusting beam (33) is arranged on the width adjusting lead screw (31), two ends of the adjusting beam (33) are connected with a partition plate guide post (34) and can reciprocate along a horizontal direction, the partition plate guide post (34) is fixed on the main frame (1), the lower end of the adjusting beam (33) is connected with a partition plate mounting seat (35), and a connecting plate on the partition plate mounting seat (35) is connected with a partition plate (28).

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