CN116280608A

CN116280608A - Liquid release agent storage device

Info

Publication number: CN116280608A
Application number: CN202310145615.2A
Authority: CN
Inventors: 金建华
Original assignee: Changshu Kairun New Material Technology Co ltd
Current assignee: Changshu Kairun New Material Technology Co ltd
Priority date: 2023-02-22
Filing date: 2023-02-22
Publication date: 2023-06-23

Abstract

The utility model discloses a liquid release agent storage device, and belongs to the technical field of liquid release agent storage equipment; comprises a U-shaped frame, a protection mechanism, a storage mechanism, a pipe feeding mechanism and an alarm mechanism; the protection mechanism comprises a protection barrel which is fixedly arranged on the U-shaped frame; the storage mechanism is arranged in the protection mechanism and comprises three storage barrels used for storing liquid isolating agents; the pipe conveying mechanism is arranged in the protection mechanism and is used for conveying the water pipe; the alarm mechanism comprises an alarm assembly and a transposition assembly, wherein the alarm assembly is arranged in the protection barrel and is positioned below the storage barrel. The utility model completes the storage and the sealing monitoring of the liquid isolating agent through the protection mechanism, the storage mechanism, the pipe feeding mechanism and the alarm mechanism, and has simple structure and convenient operation.

Description

Liquid release agent storage device

Technical Field

The utility model belongs to the technical field of liquid release agent storage equipment, and particularly relates to a liquid release agent storage device.

Background

The liquid isolating agent is one kind of additive with high safety, no toxicity and no harm to environment and human body. When the liquid release agent is stored, the liquid release agent needs to be stored in a sealing way, and meanwhile, the liquid release agent is prevented from precipitating in a stored container. This requires that the container storing the liquid release agent has good sealability, and at the same time, the liquid release agent stored inside can be stirred, avoiding the reduction of the use effect of the liquid release agent.

The Chinese patent with the publication number of CN216296814U discloses a release agent spraying device in a foaming inner tube, which comprises a release agent dispersion storage tank, wherein a guide pipe is connected in a penetrating manner in the center of the top of the release agent dispersion storage tank, a coaming is fixedly connected with the top of a nut seat, connecting doors are hinged to two sides of the coaming, rectangular grooves are formed in one sides of the two connecting doors, movable blocks are arranged in the middle of the two rectangular grooves in a penetrating manner, one ends of the two movable blocks are connected with a hydrops tank in a rotating manner, and two sides of the hydrops tank are connected with one ends of the two movable blocks in a rotating manner respectively. Although the present utility model can store the release agent when the release agent is not used, the release agent cannot be stirred at the time of storage, and leakage of the release agent cannot be monitored. In view of the above, the present utility model provides a liquid release agent storage device.

Disclosure of Invention

Aiming at the technical problems, the utility model adopts the following technical scheme: a liquid release agent storage device comprises a U-shaped frame and a protection mechanism; the device also comprises a storage mechanism, a pipe feeding mechanism and an alarm mechanism; the protection mechanism comprises a protection barrel, an end cover and three vertical guide grooves, wherein the protection barrel is fixedly arranged on the U-shaped frame, the three vertical guide grooves are circumferentially arranged on the protection barrel, and the end cover is rotatably arranged at the upper end of the protection barrel.

The storage mechanism install in protection machanism's inside, storage mechanism include three storage bucket, the storage bucket be circumference fixed mounting on circular fixed plate, the central axis of circular fixed plate and the central axis coincidence of protection bucket, the storage bucket be used for storing liquid isolating agent, storage bucket top fixed mounting have the liquid outlet.

The pipe conveying mechanism is arranged in the protection mechanism and is used for conveying the water pipe.

The alarm mechanism comprises an alarm assembly and a transposition assembly, wherein the alarm assembly is arranged in the protection barrel, the alarm assembly is positioned below the storage barrel, and the transposition assembly is arranged on the outer side of the protection mechanism.

Further, the storage mechanism also include stirring subassembly, stirring subassembly include the ring gear, the coaxial heart fixed mounting of ring gear in the inside of protection bucket, the ring gear inner circle with three pinion meshing cooperation that is circumference and arrange, every pinion on fixed mounting have a two-way threaded rod, two-way threaded rod and the coaxial heart rotation of storage bucket be connected, two-way threaded rod on fixed mounting have three ring, the ring divide into two sections with the two-way screw thread on the two-way threaded rod, every section two-way screw thread on screw thread cooperation have a stirring rod, just the one end that the stirring rod kept away from two-way threaded rod center with the inner wall sliding fit of storage bucket.

Further, the storage mechanism also include seal assembly, seal assembly include the connecting seat, connecting seat and central major axis coaxial fixed connection, just central major axis and circular fixed plate fixed connection, central major axis and motor one's output shaft fixed connection, motor one fixed mounting in the bottom of protection bucket, the connecting seat on be the circumference and arranged three backup pad, the backup pad on slidable mounting have two symmetrical arrangement's trapezoidal piece, one trapezoidal piece with the elongated slot sliding fit that sets up in the backup pad, another trapezoidal piece and the short slot sliding fit that sets up in the backup pad, just elongated slot and short slot on all be provided with the guide bar, guide bar outer lane cover be equipped with reset spring one, reset spring one be used for assisting two trapezoidal pieces to reset, be provided with a countersink on every backup pad, countersink and liquid outlet coaxial fixed connection.

Further, send a tub mechanism including the disk of transshipment, the disk of transshipment coaxial setting in the inside of protection bucket, the disk of transshipment on fixed mounting have reset spring two's one end, reset spring two's the other end and end cover fixed connection, the disk of transshipment on fixed mounting have the push rod, the push rod pass the end cover and the extension end fixed connection of pneumatic cylinder, the disk of transshipment on be provided with clamping assembly, clamping assembly be used for fixed water pipe.

Further, the clamping assembly comprises a conical tube, the conical tube is fixedly arranged on the transfer disc, the diameter of one end, close to the upper part of the protection barrel, of the conical tube is larger than that of one end, close to the lower part of the protection barrel, of the conical tube, two symmetrically arranged ball rods are slidably arranged on the conical tube, the ball rods are slidably arranged on the transfer disc, and a reset spring III is arranged between the ball rods and the transfer disc.

Further, the alarm assembly include the supporting seat, the coaxial heart fixed mounting of supporting seat in the bottom of protection bucket, the lower extreme normal running fit of supporting seat upper end and vertical guide way, the supporting seat on be the circumference and arranged three sliding tray, sliding tray on slidable mounting have one accept the board, just accepting and be provided with reset spring four between board and the supporting seat, reset spring four on fixed mounting have the one end of removal post, removal post pass vertical guide way and with direction ring sliding fit, the outside of direction ring heart fixed mounting at the protection bucket, the one end fixed mounting who keeps away from accepting the board on the removal post have the contact head, the contact head below be provided with the sensor, sensor fixed mounting on the direction ring, removal post and fixed mounting in the inside direction pole setting sliding fit of protection bucket.

Further, the transposition assembly comprises a first bull gear and a second bull gear, the central axes of the first bull gear and the second bull gear are coincident, the first bull gear is fixedly connected with the end cover in the same axis, the second bull gear is rotatably arranged above the U-shaped frame and fixedly connected with the hydraulic cylinder, the first bull gear is meshed and matched with the lower gear, the second bull gear is meshed and matched with the upper gear, the upper gear and the lower gear are fixedly arranged on a short shaft, the short shaft is fixedly arranged on an output shaft of the second motor, and the second motor is fixedly arranged on the U-shaped frame.

Further, the sensor is connected with the second motor through a signal processor, and when the contact head is in contact with the sensor, the sensor transmits a contact signal to the signal processor, and the second motor is controlled to start and stop after being processed by the signal processor.

Compared with the prior art, the utility model has the beneficial effects that: (1) The utility model completes the monitoring of the storage and the tightness of the liquid isolating agent through the protection mechanism, the storage mechanism, the pipe feeding mechanism and the alarm mechanism, and has simple structure and convenient operation; (3) When the liquid isolating agent is stored by the storage mechanism, the liquid isolating agent in the storage barrel can be stirred by the stirring rod, so that layering and precipitation of the liquid isolating agent are effectively prevented; (3) The alarm mechanism can monitor whether the storage barrel leaks or not, and accurately enables the connecting pipe and the conical pipe to rotate to the position above the leaked storage barrel when the leakage occurs.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of another angle structure of fig. 1.

Fig. 3 is a schematic view of a partial enlarged structure at A1 in fig. 2.

FIG. 4 is a schematic view of a part of the structure of the present utility model.

Fig. 5 is a schematic view of a partial enlarged structure at A2 in fig. 4.

Fig. 6 is a schematic view of a storage mechanism.

Fig. 7 is a schematic view of a partial enlarged structure at A3 in fig. 6.

Fig. 8 is a schematic diagram of a storage mechanism.

Fig. 9 is a schematic view of a partial enlarged structure at A4 in fig. 8.

Fig. 10 is a schematic diagram of a storage mechanism.

FIG. 11 is a schematic view of a part of the alarm mechanism.

Fig. 12 is a partial sectional view of the pipe feeding mechanism.

Fig. 13 is an enlarged schematic view of the structure at A5 in fig. 12.

Fig. 14 is a schematic diagram of a part of the alarm mechanism.

Fig. 15 is a schematic structural view of the connecting seat and the supporting plate.

Fig. 16 is a cross-sectional view taken along the direction A-A in fig. 15.

Reference numerals: 1-U-shaped frame; 2-a protection mechanism; 201-a protective barrel; 202-vertical guide grooves; 203-end caps; 204-connecting the pipes; 3-a storage mechanism; 301-a storage tub; 302-a circular fixing plate; 303-an inner gear ring; 304-pinion; 305-a bi-directional threaded rod; 306-a ring; 307-stirring rod; 308-a liquid outlet; 309-central long axis; 310-motor one; 311-connecting seats; 312-elongated slots; 313-short slot; 314—a guide bar; 315-a first return spring; 316-trapezoidal blocks; 317-countersunk holes; 318-supporting a plate; 4-a pipe feeding mechanism; 401-reloading a disc; 402-a second return spring; 403-push rod; 404-conical tube; 405-ball head stem; 406-reset spring three; 407-hydraulic cylinder; 5-an alarm mechanism; 501-a supporting seat; 502-a sliding groove; 503-a receiving plate; 504-return spring four; 505-moving a column; 506-guiding ring; 507-contacts; 508-a sensor; 509-guiding uprights; 510-motor two; 511-lower gear; 512-minor axis; 513-upper gear; 514-first gearwheel; 515-bull gear two.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

For the purpose of better illustrating embodiments of the present utility model, certain elements of the drawings may be omitted, enlarged or reduced in size, and not to represent the actual product size, as it would be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: the liquid release agent storage device as shown in fig. 1-16 comprises a U-shaped frame 1, a protection mechanism 2, a storage mechanism 3, a pipe feeding mechanism 4 and an alarm mechanism 5; the protection mechanism 2 comprises a protection barrel 201, an end cover 203 and three vertical guide grooves 202, wherein the protection barrel 201 is fixedly arranged on the U-shaped frame 1, the three vertical guide grooves 202 are circumferentially arranged on the protection barrel 201, and the end cover 203 is rotatably arranged at the upper end of the protection barrel 201.

The storage mechanism 3 is installed in the inside of protection mechanism 2, and storage mechanism 3 includes three storage barrel 301, and storage barrel 301 is circumference fixed mounting on circular fixed plate 302, and the central axis of circular fixed plate 302 coincides with the central axis of protection barrel 201, and storage barrel 301 is used for storing the liquid release agent, and storage barrel 301 top fixed mounting has liquid outlet 308.

The pipe feeding mechanism 4 is installed inside the protection mechanism 2, and the pipe feeding mechanism 4 is used for conveying water pipes.

The alarm mechanism 5 comprises an alarm assembly and a transposition assembly, the alarm assembly is arranged in the protective barrel 201, the alarm assembly is positioned below the storage barrel 301, and the transposition assembly is arranged on the outer side of the protective mechanism 2.

The storage mechanism 3 further comprises a stirring assembly, the stirring assembly comprises an inner gear ring 303, the inner gear ring 303 is fixedly arranged inside the protective barrel 201 in a coaxial mode, the inner ring of the inner gear ring 303 is meshed with three pinions 304 which are circumferentially arranged, each pinion 304 is fixedly provided with a bidirectional threaded rod 305, the bidirectional threaded rods 305 are rotatably connected with the coaxial center of the storage barrel 301, three circular rings 306 are fixedly arranged on the bidirectional threaded rods 305, the circular rings 306 divide bidirectional threads on the bidirectional threaded rods 305 into two sections, one stirring rod 307 is in threaded fit on each section of bidirectional threads, and one end, far away from the center of each bidirectional threaded rod 305, of each stirring rod 307 is in sliding fit with the inner wall of the storage barrel 301.

The storage mechanism 3 further comprises a sealing assembly, the sealing assembly comprises a connecting seat 311, the connecting seat 311 is fixedly connected with a central long shaft 309 in a coaxial mode, the central long shaft 309 is fixedly connected with a circular fixing plate 302, the central long shaft 309 is fixedly connected with an output shaft of a motor 310, the motor 310 is fixedly installed at the bottom of the protective barrel 201, three supporting plates 318 are circumferentially arranged on the connecting seat 311, two symmetrically arranged trapezoid blocks 316 are slidably installed on the supporting plates 318, one trapezoid block 316 is slidably matched with a long groove 312 arranged on the supporting plates 318, the other trapezoid block 316 is slidably matched with a short groove 313 arranged on the supporting plates 318, guide rods 314 are respectively arranged on the long groove 312 and the short groove 313, a reset spring 315 is sleeved on the outer ring of the guide rods 314 and used for assisting reset of the two trapezoid blocks 316, a countersunk hole 317 is formed in each supporting plate 318, and the countersunk hole 317 is fixedly connected with a liquid outlet 308 in a coaxial mode.

The pipe feeding mechanism 4 comprises a transfer disc 401, the transfer disc 401 is coaxially arranged in the protective barrel 201, one end of a second reset spring 402 is fixedly arranged on the transfer disc 401, the other end of the second reset spring 402 is fixedly connected with the end cover 203, a push rod 403 is fixedly arranged on the transfer disc 401, the push rod 403 penetrates through the end cover 203 and is fixedly connected with the extending end of the hydraulic cylinder 407, and a clamping assembly is arranged on the transfer disc 401 and used for fixing a water pipe.

The clamping assembly comprises a conical tube 404, the conical tube 404 is fixedly arranged on the reloading disc 401, the diameter of one end, close to the upper side of the protective barrel 201, of the conical tube 404 is larger than that of one end, close to the lower side of the protective barrel 201, of the conical tube 404, two symmetrically arranged ball rods 405 are slidably arranged on the conical tube 404, the ball rods 405 are slidably arranged on the reloading disc 401, and a reset spring III 406 is arranged between the ball rods 405 and the reloading disc 401.

The alarm assembly comprises a supporting seat 501, the supporting seat 501 is fixedly arranged at the bottom end of the protective barrel 201 in a coaxial manner, the upper end of the supporting seat 501 is in running fit with the lower end of the vertical guide groove 202, three sliding grooves 502 are circumferentially arranged on the supporting seat 501, a bearing plate 503 is slidably arranged on the sliding grooves 502, a return spring IV 504 is arranged between the bearing plate 503 and the supporting seat 501, one end of a moving column 505 is fixedly arranged on the return spring IV 504, the moving column 505 passes through the vertical guide groove 202 and is in sliding fit with a guide ring 506, the guide ring 506 is fixedly arranged outside the protective barrel 201 in a coaxial manner, a contact head 507 is fixedly arranged at one end, far away from the bearing plate 503, of the moving column 505, a sensor 508 is arranged below the contact head 507 and is fixedly arranged on the guide ring 506, and the moving column 505 is slidably fit with a guide upright 509 fixedly arranged inside the protective barrel 201.

The transposition assembly comprises a first large gear 514 and a second large gear 515, the central axes of the first large gear 514 and the end cover 203 are coincident, the first large gear 514 is fixedly connected with the end cover 203 in a coaxial center manner, the second large gear 515 is rotatably arranged above the U-shaped frame 1, the second large gear 515 is fixedly connected with the hydraulic cylinder 407, the first large gear 514 is meshed with the lower gear 511, the second large gear 515 is meshed with the upper gear 513, the upper gear 513 and the lower gear 511 are fixedly arranged on a short shaft 512, the short shaft 512 is fixedly arranged on an output shaft of the second motor 510, and the second motor 510 is fixedly arranged on the U-shaped frame 1.

The sensor 508 is connected with the second motor 510 through a signal processor, when the contact 507 is contacted with the sensor 508, the sensor 508 transmits a contacted signal to the signal processor, and the signal processor processes the signal and controls the second motor 510 to start and stop.

Working principle: in order to prevent the liquid isolating agent from precipitating in the three storage barrels 301, when the liquid isolating agent is not used, the liquid isolating agent in the storage barrels 301 needs to be stirred, specifically, the first motor 310 is started, the output shaft of the first motor 310 drives the central long shaft 309 to rotate, the central long shaft 309 penetrates through the supporting seat 501, the central long shaft 309 is fixedly connected with the round fixing plate 302 in a coaxial mode, so when the central long shaft 309 rotates, the round fixing plate 302 rotates, the three storage barrels 301 fixedly arranged on the round fixing plate 302 rotate, at the moment, the pinion 304 below the storage barrels 301 is meshed and matched with the inner gear ring 303, and the inner gear ring 303 is fixed, so that the pinion 304 rotates under the action of the inner gear ring 303, the pinion 304 drives the bidirectional threaded rod 305 to rotate, and the stirring rod 307 in threaded fit with the bidirectional threaded rod 305 moves up and down along the inner wall of the storage barrels 301, so that the liquid isolating agent in the storage barrels 301 can be prevented from precipitating or layering by stirring the round rod on the stirring rod 307.

When the liquid release agent is used, one end of a water pipe for extracting the liquid release agent passes through the connecting pipe 204 on the end cover 203 and is inserted into the conical pipe 404 right below the connecting pipe 204, the water pipe pushes the ball rod 405 to a direction away from the central axis of the conical pipe 404, the sliding ball rod 405 compresses the return spring III 406, and the generated elastic force is used for assisting the return of the ball rod 405 and clamping the water pipe. Then, the hydraulic cylinder 407 is started, so that the push rod 403 fixed on the transfer disc 401 is pushed by the extending end of the hydraulic cylinder 407, and thus the transfer disc 401 moves downwards in the protective barrel 201, and meanwhile, the water pipe clamped by the two ball rods 405 moves downwards, and therefore, the lower end of the conical pipe 404 contacts the trapezoid block 316, and meanwhile, the second return spring 402 is also lengthened, and the second return spring 402 is used for assisting in resetting the transfer disc 401. Because the two trapezoidal blocks 316 are inclined at one side close to the central axis of the liquid outlet 308, the two trapezoidal blocks 316 slide along the short groove 313 and the long groove 312 in the direction away from each other under the pushing of the small diameter end below the conical tube 404, the guide rod 314 plays a guiding role, the first return spring 315 plays an auxiliary role in resetting the trapezoidal blocks 316, so that the lower end of the conical tube 404 passes through the counter bore 317 below the trapezoidal blocks 316 and extends into the storage barrel 301 through the liquid outlet 308, and then the water pump is started to pump the liquid isolating agent in the storage barrel 301 out of the water pipe. In the initial state, the two trapezoidal blocks 316 are in contact with each other, and the openings of the upper ends of the counter bores 317 are covered by the two trapezoidal blocks 316, so as to provide a sealed environment for the liquid release agent in the storage barrel 301, thereby preventing volatilization.

In addition, the diameter of the through hole provided in the center of the transfer disk 401 is larger than the diameter of the center long axis 309, so that the transfer disk 401 is not blocked by the center long axis 309 when it moves downward.

When the bulk release agent is stored in the storage barrels 301, in order to prevent the liquid release agent in the storage barrels 301 from leaking, a bearing plate 503 is arranged below each storage barrel 301, when the liquid release agent in the storage barrels 301 leaks, the release agent can fall onto the bearing plate 503, at the moment, the bearing plate 503 slides downwards along the sliding groove 502 under the gravity of the liquid release agent, a moving column 505 fixedly connected with the bearing plate 503 slides downwards along the guide vertical rod 509, meanwhile, the moving column 505 also slides on the guide circular ring 506, the sliding direction is downwards, and thus, a contact head 507 fixedly connected with the moving column 505 gradually approaches to a sensor 508 and finally contacts with the sensor 508, the sensor 508 transmits a signal contacted with the contact head 507 to a signal processor, the signal processor processes the signal, and the processed signal is transmitted to a motor two 510, so that the motor two 510 is started.

After the second motor 510 is started, the short shaft 512 fixedly connected to the output shaft of the second motor 510 drives the lower gear 511 and the upper gear 513 to rotate, so that the upper gear 513 and the lower gear 511 respectively drive the second large gear 515 and the first large gear 514 to rotate, the first large gear 514 is fixedly connected with the end cover 203, the second large gear 515 is fixedly connected with the hydraulic cylinder 407, so that the end cover 203 and the transfer disc 401 synchronously rotate, the connecting pipe 204 on the end cover 203 and the conical pipe 404 on the transfer disc 401 rotate to the storage barrel 301 with leakage, at the moment, the central axes of the connecting pipe 204, the conical pipe 404 and the liquid outlet 308 on the storage barrel 301 with leakage coincide, and then a worker stretches the water pipe from the connecting pipe 204 according to the signal sent by the sensor 508 to start extracting the liquid isolating agent in the storage barrel 301 with leakage, so that more leakage is prevented.

It should be noted that, the signal processing performed on the signal sent by the sensor 508 through the signal processor may be implemented by a person skilled in the art, and may be implemented by a controller and a circuit principle, and by controlling the rotation angle of the motor two 510 through an accurate signal, it may also be implemented to accurately make the connection tube 204 and the conical tube 404 stay above the storage barrel 301 where leakage occurs.

Claims

1. The utility model provides a liquid release agent storage device, includes U-shaped frame (1), protection machanism (2), its characterized in that: the device also comprises a storage mechanism (3), a pipe feeding mechanism (4) and an alarm mechanism (5); the protection mechanism (2) comprises a protection barrel (201), an end cover (203) and three vertical guide grooves (202), wherein the protection barrel (201) is fixedly arranged on the U-shaped frame (1), the three vertical guide grooves (202) are circumferentially arranged on the protection barrel (201), and the end cover (203) is rotatably arranged at the upper end of the protection barrel (201);

the storage mechanism (3) is arranged in the protection mechanism (2), the storage mechanism (3) comprises three storage barrels (301), the storage barrels (301) are circumferentially and fixedly arranged on a circular fixing plate (302), the central axis of the circular fixing plate (302) coincides with the central axis of the protection barrel (201), the storage barrels (301) are used for storing liquid isolating agents, and a liquid outlet (308) is fixedly arranged above the storage barrels (301);

the pipe conveying mechanism (4) is arranged in the protective mechanism (2), and the pipe conveying mechanism (4) is used for conveying a water pipe;

the alarm mechanism (5) comprises an alarm assembly and a transposition assembly, the alarm assembly is arranged in the protective barrel (201), the alarm assembly is located below the storage barrel (301), and the transposition assembly is arranged on the outer side of the protective mechanism (2).

2. A liquid release agent storage device as defined in claim 1, wherein: the storage mechanism (3) further comprises a stirring assembly, the stirring assembly comprises an inner gear ring (303), the inner gear ring (303) is fixedly arranged inside the protective barrel (201) in a coaxial mode, the inner ring of the inner gear ring (303) is meshed with three pinions (304) which are circumferentially arranged, each pinion (304) is fixedly provided with a bidirectional threaded rod (305), the bidirectional threaded rods (305) are rotatably connected with the coaxial center of the storage barrel (301), the bidirectional threaded rods (305) are fixedly provided with three circular rings (306), the circular rings (306) divide bidirectional threads on the bidirectional threaded rods (305) into two sections, each section of bidirectional threads are provided with a stirring rod (307) in a threaded mode, and one end, far away from the center of each bidirectional threaded rod (307), of each stirring rod is in sliding fit with the inner wall of the storage barrel (301).

3. A liquid release agent storage device as defined in claim 2, wherein: the storage mechanism (3) still include seal assembly, seal assembly include connecting seat (311), connecting seat (311) and central major axis (309) coaxial heart fixed connection, just central major axis (309) and circular fixed plate (302) fixed connection, central major axis (309) and the output shaft fixed connection of motor one (310), motor one (310) fixed mounting in the bottom of protection vat (201), connecting seat (311) on be the circumference and arranged three backup pad (318), backup pad (318) on slidable mounting have trapezoidal piece (316) of two symmetrical arrangements, one trapezoidal piece (316) and elongated slot (312) sliding fit that set up on backup pad (318), another trapezoidal piece (316) and short slot (313) on all be provided with guide bar (314), guide bar (314) cover be equipped with reset spring one (315), reset spring one (318) on be used for two trapezoidal pieces (315) and be connected with one counter sink (308) coaxial counter bore (317).

4. A liquid release agent storage device as defined in claim 3, wherein: the pipe conveying mechanism (4) comprises a transfer disc (401), the transfer disc (401) is coaxially arranged in the protective barrel (201), one end of a second reset spring (402) is fixedly arranged on the transfer disc (401), the other end of the second reset spring (402) is fixedly connected with the end cover (203), a push rod (403) is fixedly arranged on the transfer disc (401), the push rod (403) penetrates through the end cover (203) and is fixedly connected with the extending end of the hydraulic cylinder (407), and a clamping assembly is arranged on the transfer disc (401) and used for fixing a water pipe.

5. A liquid release agent storage device as defined in claim 4, wherein: the clamping assembly comprises a conical tube (404), the conical tube (404) is fixedly arranged on a reloading disc (401), the diameter of one end, close to the upper side of the protection barrel (201), of the conical tube (404) is larger than that of one end, close to the lower side of the protection barrel (201), of the conical tube (404), two symmetrically-arranged ball rods (405) are slidably arranged on the conical tube (404), the ball rods (405) are slidably arranged on the reloading disc (401), and a reset spring III (406) is arranged between the ball rods (405) and the reloading disc (401).

6. A liquid release agent storage device as defined in claim 5, wherein: the alarm assembly comprises a supporting seat (501), the bottom of a protective barrel (201) is fixedly arranged at the coaxial center of the supporting seat (501), the lower end of the supporting seat (501) is in rotary fit with the lower end of a vertical guide groove (202), three sliding grooves (502) are circumferentially arranged on the supporting seat (501), a bearing plate (503) is slidably arranged on the sliding grooves (502), a return spring four (504) is arranged between the bearing plate (503) and the supporting seat (501), one end of a movable column (505) is fixedly arranged on the return spring four (504), the movable column (505) penetrates through the vertical guide groove (202) and is in sliding fit with a guide ring (506), the coaxial center of the guide ring (506) is fixedly arranged outside the protective barrel (201), a sensor (508) is arranged below the contact head (507) and is fixedly arranged at one end of the contact column (505) far away from the bearing plate (503), and the sensor (506) is fixedly arranged on the guide ring (509) in sliding fit with the guide ring (201).

7. A liquid release agent storage device as defined in claim 6, wherein: the transposition assembly comprises a first large gear (514) and a second large gear (515) with central axes coincident, the first large gear (514) is fixedly connected with the end cover (203) in a coaxial center, the second large gear (515) is rotatably arranged above the U-shaped frame (1), the second large gear (515) is fixedly connected with the hydraulic cylinder (407), the first large gear (514) is meshed with the lower gear (511), the second large gear (515) is meshed with the upper gear (513), the upper gear (513) and the lower gear (511) are fixedly arranged on the short shaft (512), the short shaft (512) is fixedly arranged on an output shaft of the second motor (510), and the second motor (510) is fixedly arranged on the U-shaped frame (1).

8. A liquid release agent storage device as defined in claim 7, wherein: the sensor (508) is connected with the motor II (510) through a signal processor, when the contact head (507) is in contact with the sensor (508), the sensor (508) transmits a contact signal to the signal processor, and the signal processor processes the contact signal to control the start and stop of the motor II (510).