CN108853859B

CN108853859B - Novel fire control feedwater drainage device

Info

Publication number: CN108853859B
Application number: CN201810810293.8A
Authority: CN
Inventors: 俞洁
Original assignee: Shandong Jiuli Industrial And Trade Group Co ltd
Current assignee: Shandong Chenneng Energy Technology Co ltd
Priority date: 2018-07-23
Filing date: 2018-07-23
Publication date: 2020-12-15
Anticipated expiration: 2038-07-23
Also published as: CN108853859A

Abstract

The invention discloses a novel fire-fighting water supply and drainage device, which structurally comprises a water pumping box, a water injection inlet, a water supply and drainage device, a protective cover, a drainage interface and a fixed base, and is characterized in that: the outer surface of the bottom of the water pumping box is arranged on the outer surface of the top of the fixed base, and the water supply and drainage device is connected with the fixed base through the water pumping box; the water supply and drainage device comprises a centrifugal rotating rod, a water level rotating transmission device, a water level pushing group, an inflating water pressure device, a protective shell, a main water storage release device, a main power supply, an extrusion pushing device and a pressure pushing device; the novel fire-fighting water supply and drainage device can be opened when the interface is connected, the outside of the novel fire-fighting water supply and drainage device is not required to be operated, a lot of valuable time is consumed, and the damage and the loss of passers-by to the novel fire-fighting water supply and drainage device are avoided because the started button is arranged inside the novel fire-fighting water supply and drainage device.

Description

Novel fire control feedwater drainage device

Technical Field

The invention relates to a novel fire-fighting water supply and drainage device, belonging to the field of fire-fighting water supply and drainage devices.

Background

The fire hydrant, formal calling is the fire hydrant, a fixed fire-fighting equipment, the main function is control combustible substance, isolated combustion supporter, eliminate the source of ignition, branch indoor fire hydrant and outdoor fire hydrant, fire extinguishing systems include, outdoor fire hydrant system, indoor fire hydrant system, fire extinguisher system, some still can have automatic spray system, water cannon system, gas fire extinguishing systems, the fire detection system, water smoke system etc. the fire hydrant mainly supplies the fire engine to get water from municipal administration water supply pipe network or outdoor fire control water supply pipe network and carries out the fire extinguishing, also can the lug connection hosepipe, the squirt goes out the water and puts out the fire, so, indoor outer fire hydrant system also is one of the important fire-fighting equipment of putting out the fire disaster.

However, for the existing fire hydrant, the fire hydrant needs to be operated to be opened and used, if the situation is urgent, a lot of valuable time is possibly delayed, if the fire hydrant can be opened without some operation, the fire hydrant is possibly damaged by some passers-by or is not beneficial.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a novel fire-fighting water supply and drainage device to solve the problems that the existing fire hydrant needs to be opened only by certain operation, and the fire hydrant is possibly delayed for a lot of precious time if in emergency, can be opened without some operation, is possibly damaged by some passers while being still in good condition, or is not beneficial to doing some things.

In order to achieve the purpose, the invention is realized by the following technical scheme: a novel fire-fighting water supply and drainage device comprises a water pumping box, a water injection inlet, a water supply and drainage device, a protective cover, a drainage interface and a fixed base,

the water supply and drainage device is arranged at the top of the water pumping box, the protective cover is connected with the water pumping box through the water supply and drainage device, the drainage interface is embedded and arranged in the water supply and drainage device, and the water supply and drainage device is connected with the fixed base through the water pumping box;

the water supply and drainage device comprises a centrifugal rotating rod, a water level rotating transmission device, a water level pushing group, an inflating water pressure device, a protective shell, a main water storage release device, a main power supply, an extrusion pushing device and a pressure pushing device;

the centrifugal rotating rod is installed on the outer surfaces of two sides of the pressure pushing device, the water level rotating transmission device is arranged in the protective shell, the water level pushing group is connected with the extrusion pushing device, the inflating water pressure device is installed above the water level pushing group, the main water storage release device is embedded and installed in the protective shell, the main power supply is connected with the main water storage release device, and the water level rotating transmission device is arranged between the extrusion pushing device and the pressure pushing device.

Further, water level promotes group including the push-aid rod, link up the pivot, promote anti-overflow piece, pulley, fixed block, straight slide rail, first reset spring, it installs inside the push-aid rod to link up the pivot embedding, the push-aid rod is connected with the fixed block through linking up the pivot, it installs in the pulley surface to promote anti-overflow piece, first reset spring installs between push-aid rod and the anti-overflow piece of promotion, the pulley embedding is installed inside straight slide rail, extrusion thrust unit embedding is installed inside the push-aid rod.

Further, the centrifugal rotating rod comprises a swinging pushing rod, a pressed squeezing ball, a squeezing pushing rod, a fixed rotating shaft, a second return spring, a sliding rail, a pushing assistant pulley, a centrifugal swinging turbine rod, a pushing connecting rod and a third return spring, the fixed rotating shaft is embedded and installed inside the centrifugal rotating rod, the pressed squeezing ball is connected with the second return spring, the squeezing pushing rod is welded with the pressed squeezing ball, the pressed squeezing ball is embedded and installed inside the sliding rail, the pushing assistant pulley is welded on the outer surface of the top of the pushing connecting rod, the third return spring is installed on the outer surface of the top of the pressure pushing device, the main water storage release device comprises a water level transmission pipe, a conductive wire, a water collecting and draining tank, a water guide pipe, a main output water pipe and a draining interface, the water level transmission pipe is embedded and installed inside the water collecting and draining tank, the water guide pipe is installed inside the water collecting and draining tank, the water collecting and draining box is connected with the draining interface through a main output water pipe, the conducting wire is embedded and installed inside the main power supply, and the conducting wire is electrically connected with the inflating water pressure device.

Further, the inflation hydraulic device comprises a fourth reset spring, a stress extrusion pushing sliding block, a sliding rail, an inflation interface and an inflator pump, wherein the fourth reset spring is arranged on the outer surface of the stress extrusion pushing sliding block, the stress extrusion pushing sliding block is embedded and arranged inside the sliding rail, the inflation interface is embedded and arranged inside the inflator pump, the conductor wire is electrically connected with the inflator pump, the main power supply comprises a to-be-triggered block, a fifth reset spring, a stress extrusion triggering block, a conductor, a storage battery box, a lead, a transmission lead, a motor, a transmission rotating shaft and a transmission belt, the to-be-triggered block is arranged on the outer surface of the conductor, the to-be-triggered block is connected with the stress extrusion triggering block through the fifth reset spring, the conductor is embedded and arranged inside the storage battery box, the lead is arranged inside the storage battery, the transmission rotating shaft is arranged inside the motor, the transmission belt is attached to the outer surface of the transmission rotating shaft, and the electric lead is electrically connected with the storage battery box.

Further, water level rotary transmission includes centrifugal delivery wheel, drive belt, links up drive belt, central pivot, spacing anti-overflow limit, the embedding of central pivot is installed in centrifugal delivery wheel inside and is located the same axle center, the drive belt is connected with linking up the drive belt through central pivot, spacing anti-overflow limit welding is in centrifugal delivery wheel side surface, the drive belt is installed in central pivot surface.

Further, pressure thrust unit includes transmission stripper plate, links up the pole, links up helping hand piece, rivers passageway, anti-overflow promotes piece, water injection space, water injection entry, suction pump, the transmission stripper plate welds in linking up pole bottom surface, the transmission stripper plate is connected with linking up helping hand piece through linking up the pole, the anti-overflow promotes the piece and laminates in linking up helping hand piece bottom surface, the water injection space embedding is installed inside rivers passageway, the water injection entry is installed inside the suction pump, third reset spring welds in transmission stripper plate top surface.

Further, the extrusion thrust unit includes anodal magnetic field, spout, promotes pivot, slider, links up and promotes pivot, catch bar, sixth reset spring, negative pole linking center pivot, presses and links up and promote the piece, anodal magnetic field embedding is installed inside the spout, it installs inside the slider to promote the pivot, the catch bar is through promoting pivot and slider hinged joint, it promotes the pivot embedding and installs inside the slider to link up, sixth reset spring installs between anodal magnetic field and negative pole linking center pivot, negative pole linking center pivot embedding is installed inside pressing and linking up and promoting the piece, it promotes the pivot embedding and installs inside the push rod to link up.

Advantageous effects

The invention relates to a novel fire-fighting water supply and drainage device, which is connected into a discharge connector through an external connector, when the fire-fighting water supply and drainage device is connected, the thickness of the fire-fighting water supply and drainage device pushes a stressed extrusion triggering block to extrude a fifth reset spring, the fire-fighting water supply and drainage device touches a block to be triggered when the fire-fighting water supply and drainage device is extruded to a certain degree, external water is pumped into a water injection inlet, when the fire-fighting water supply and drainage device is pumped to a certain amount, an anti-overflow pushing block of the fire-fighting water supply and drainage device is extruded upwards, when the anti-overflow pushing block rises to a certain position, a transmission extrusion plate drives the anti-overflow pushing block to move upwards so as to push a swinging rod to push the swinging rod to move along a fixed rotating shaft and extrude a second reset spring of the fire-fighting water supply and drainage device, when a centrifugal swinging turbine rod is positioned at the side of a water flow channel, the water in the anti-overflow block is screwed into the anti-overflow block through the centrifugal force of rotation of the anti-overflow block, when the energy is introduced into the positive magnetic field through the lead of the storage battery box, the push block is pushed by pulling and pressing the linking push block to push the sixth reset spring of the anti-overflow block, so that the push rotating shaft drives the sliding block to be limited by the sliding chute and slide along the sliding chute and push the sliding block upwards, the energy is introduced into the inflator pump through the lead of the storage battery box, the sliding rail is inflated through the inflation interface, the sliding rail is forced by air, the fourth reset spring of the sliding block is extruded, and when the sliding block is pushed by force to run, the pushed water is extruded, so that the water is pushed into the water level transmission pipe and the water guide pipe through pressure, and the water is introduced into the water collection and drainage box, and is discharged from the interior of the water;

the novel fire-fighting water supply and drainage device can be opened when the interface is connected, the external part of the device does not need to be operated, a lot of valuable time is consumed, and the damage and the loss of passers-by to the novel fire-fighting water supply and drainage device are avoided because the started button is arranged in the device.

Drawings

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

FIG. 1 is a schematic structural view of a novel fire fighting water supply and drainage device according to the present invention;

FIG. 2 is a first schematic view of the internal structure of a water supply and drainage device according to the present invention;

FIG. 3 is a second schematic view of the internal structure of a water supply and drainage device according to the present invention;

FIG. 4 is a schematic view of the internal structure of a water supply and drainage device according to the present invention;

FIG. 5 is a schematic view of the internal structure of an extrusion pushing apparatus according to the present invention.

In the figure: a water pumping box-1, a water injection inlet-2, a water feeding and draining device-3, a protective cover-4, a water draining interface-5, a fixed base-6, a centrifugal rotating rod-31, a water level rotating transmission device-32, a water level pushing group-33, an aerated water device-34, a protective shell-35, a total water storage release device-36, a total power supply-37, an extrusion pushing device-38, a pressure pushing device-39, a boosting rod-331, a connecting rotating shaft-332, an anti-overflow pushing block-333, a pulley-334, a fixed block-335, a straight sliding rail-336, a first return spring-337, a swinging pushing rod-311, a pressed pushing ball-312, an extrusion pushing rod-313, a fixed rotating shaft-314, a second return spring-315, a water outlet-35, a forward sliding rail-316, a pushing assistant pulley-317, a centrifugal swinging turbine rod-318, a pushing connecting rod-319, a third reset spring-3110, a water level transmission pipe-361, a conductive wire-362, a water collecting and draining tank-363, a water guide pipe-364, a total output water pipe-365, a draining interface-366, a fourth reset spring-341, a forced extrusion pushing slide block-342, a sliding rail-343, an inflation interface-344, an inflation pump-345, a to-be-triggered block-371, a fifth reset spring-372, a forced extrusion triggering block-373, a conductor-374, an accumulator tank-375, a lead-376, a transmission lead-377, a motor-378, a transmission rotating shaft-379, a transmission belt-3710, a centrifugal transmission wheel-321, a transmission belt-322, a transmission belt-378, The device comprises a joint transmission belt-323, a central rotating shaft-324, a limiting anti-overflow edge-325, a transmission extrusion plate-391, a joint rod-392, a joint boosting block-393, a water flow channel-394, an anti-overflow pushing block-395, a water injection space-396, a water injection inlet-397, a water pump-398, a positive magnetic field-381, a chute-382, a pushing rotating shaft-383, a sliding block-384, a joint pushing rotating shaft-385, a pushing rod-386, a sixth return spring-387, a negative joint central rotating shaft-388 and a pressing pushing block-389.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, 2, 3, 4 and 5, the present invention provides a technical solution of a novel fire-fighting water supply and drainage device: the water supply and drainage device structurally comprises a water pumping box 1, a water injection inlet 2, a water supply and drainage device 3, a protective cover 4, a drainage interface 5 and a fixed base 6, wherein the outer surface of the bottom of the water pumping box 1 is installed on the outer surface of the top of the fixed base 6, the water injection inlet 2 is welded on the outer surface of the water pumping box 1, the water supply and drainage device 3 is installed on the top of the water pumping box 1, the protective cover 4 is connected with the water pumping box 1 through the water supply and drainage device 3, the drainage interface 5 is embedded and installed in the water supply and drainage device 3, and the water supply and drainage device;

the water supply and drainage device 3 comprises a centrifugal rotating rod 31, a water level rotating transmission device 32, a water level pushing group 33, an inflatable water pressure device 34, a protective shell 35, a total stored water release device 36, a total power supply 37, an extrusion pushing device 38 and a pressure pushing device 39;

the centrifugal rotating rods 31 are arranged on the outer surfaces of two sides of the pressure pushing device 39, the water level rotating transmission device 32 is arranged inside the protective shell 35, the water level pushing group 33 is connected with the extrusion pushing device 38, the inflating water pressure device 34 is arranged above the water level pushing group 33, the main water storage release device 36 is embedded and arranged inside the protective shell 35, the main power supply 37 is connected with the main water storage release device 36, and the water level rotating transmission device 32 is arranged between the extrusion pushing device 38 and the pressure pushing device 39.

The water level pushing group 33 comprises a push-aid rod 331, a linking rotating shaft 332, a pushing anti-overflow block 333, a pulley 334, a fixing block 335, a straight sliding rail 336 and a first return spring 337, the linking rotating shaft 332 is embedded and installed inside the push-aid rod 331, the push-aid rod 331 is connected with the fixing block 335 through the linking rotating shaft 332, the pushing anti-overflow block 333 is installed on the outer surface of the pulley 334, the first return spring 337 is installed between the push-aid rod 331 and the pushing anti-overflow block 333, the pulley 334 is embedded and installed inside the straight sliding rail 336, and the extrusion pushing device 38 is embedded and installed inside the push-aid rod 331.

The centrifugal rotating rod 31 comprises a swinging pushing rod 311, a pressed pushing ball 312, a pressing pushing rod 313, a fixed rotating shaft 314, a second return spring 315, a smooth rail 316, a pushing assistant pulley 317, a centrifugal swinging turbine rod 318, a pushing connecting rod 319 and a third return spring 3110, the fixed rotating shaft 314 is embedded and installed inside the centrifugal rotating rod 31, the pressed pushing ball 312 is connected with the second return spring 315, the pressing pushing rod 313 is welded with the pressed pushing ball 312, the pressed pushing ball 312 is embedded and installed inside the smooth rail 316, the pushing assistant pulley 317 is welded on the outer surface of the top of the pushing connecting rod 319, the third return spring 3110 is installed on the outer surface of the top of the pressure pushing device 39, the total water storage and release device 36 comprises a water level transmission pipe 361, a conductive wire 362, a water collection and drainage tank 363, a water guide pipe 364, a total output water pipe 365 and a discharge interface 366, the water level transmission pipe 361 is embedded in the water collection and drainage tank 363, the water guide pipe 364 is installed in the water collection and drainage tank 363, the water collection and drainage tank 363 is connected with the discharge interface 366 through the main output water pipe 365, the conductive wire 362 is embedded in the main power supply 37, and the conductive wire 362 is electrically connected with the inflating water pressure device 34.

The inflatable hydraulic device 34 comprises a fourth return spring 341, a forced extrusion pushing slider 342, a sliding rail 343, an inflatable interface 344 and an inflator 345, the fourth return spring 341 is mounted on the outer surface of the forced extrusion pushing slider 342, the forced extrusion pushing slider 342 is embedded and mounted inside the sliding rail 343, the inflatable interface 344 is embedded and mounted inside the inflator 345, the electric lead 362 is electrically connected with the inflator 345, the main power supply 37 comprises a to-be-triggered block 371, a fifth return spring 372, a forced extrusion triggering block 373, a conductor 374, a storage battery 375, a lead 376, a transmission lead 377, a motor 378, a transmission rotating shaft 379 and a transmission band 3710, the to-be-triggered block 371 is mounted on the outer surface of the conductor 374, the to-be-triggered block 371 is connected with the forced extrusion triggering block 373 through the fifth return spring 372, and the conductor 374 is embedded and mounted inside the storage, the lead 376 is mounted inside the storage battery box 375, the transmission lead 377 is embedded inside the storage battery box 375, the transmission rotating shaft 379 is mounted inside the motor 378, the transmission belt 3710 is attached to the outer surface of the transmission rotating shaft 379, and the lead 362 is electrically connected with the storage battery box 375.

The water level rotation transmission device 32 comprises a centrifugal conveying wheel 321, a transmission belt 322, a connecting transmission belt 323, a central rotating shaft 324 and a limiting anti-overflow edge 325, wherein the central rotating shaft 324 is embedded in the centrifugal conveying wheel 321 and is positioned on the same axis, the transmission belt 322 is connected with the connecting transmission belt 323 through the central rotating shaft 324, the limiting anti-overflow edge 325 is welded on the side surface of the centrifugal conveying wheel 321, and the transmission belt 322 is installed on the outer surface of the central rotating shaft 324.

The pressure pushing device 39 comprises a transmission pressing plate 391, a joint rod 392, a joint boosting block 393, a water flow channel 394, an anti-overflow pushing block 395, a water injection space 396, a water injection inlet 397 and a water pump 398, wherein the transmission pressing plate 391 is welded on the outer surface of the bottom of the joint rod 392, the transmission pressing plate 391 is connected with the joint boosting block 393 through the joint rod 392, the anti-overflow pushing block 395 is attached on the outer surface of the bottom of the joint boosting block 393, the water injection space 396 is embedded and installed inside the water flow channel 394, the water injection inlet 397 is installed inside the water pump 398, and the third return spring 3110 is welded on the outer surface of the top of the transmission pressing plate 391.

The extrusion pushing device 38 comprises a positive magnetic field 381, a sliding groove 382, a pushing rotating shaft 383, a sliding block 384, a linking pushing rotating shaft 385, a pushing rod 386, a sixth reset spring 387, a negative linking center rotating shaft 388 and a pressing linking pushing block 389, wherein the positive magnetic field 381 is embedded and installed inside the sliding groove 382, the pushing rotating shaft 383 is installed inside the sliding block 384, the pushing rod 386 is hinged with the sliding block 384 through the pushing rotating shaft 383, the linking pushing rotating shaft 385 is embedded and installed inside the sliding block 384, the sixth reset spring 387 is installed between the positive magnetic field 381 and the negative linking center rotating shaft 388, the negative linking center rotating shaft 388 is embedded and installed inside the pressing linking pushing block 389, and the linking pushing rotating shaft 385 is embedded and installed inside the push assisting rod 331.

The object that is said in this patent and makes a circular motion by centrifugally swinging the turbine rod 318 generates a physical phenomenon that gradually moves away from the center of a circle under the condition that the centripetal force suddenly disappears or the centripetal force required by the circular motion is not enough provided, and the application is common in life, for example: a washing machine dehydration barrel is used for making cotton candy, a centrifugal machine is used for throwing a mercury column of a thermometer back into a glass bulb, and the like, an air pump 345 is called an air pump, an air pump and an air pump to work through the operation of a motor, the valve of a communicating device is opened by the atmospheric pressure during air suction, air enters an air cylinder, when the air is pumped into a tire, the valve is closed by the atmospheric pressure in the air cylinder, and the air enters the tire even if the principle of atmospheric pressure is used for inflating a car, a leather ball and a rubber boat.

When the anti-overflow pushing block 395 is lifted to a certain position, the transmission squeezing plate 391 drives the transmission squeezing plate to push the connecting rod 319 upwards, so that the swinging pushing rod 311 is pushed along the fixed rotating shaft 314, when the other end of the swing pushing rod 311 is pushed downwards, the push rod 313 is pushed downwards along with the push ball 312, the second return spring 315 is squeezed, so that when the centrifugal whipping turbine rod 318 is positioned at the side of the water flow channel 394, water is injected into the water flow channel 394, and when the electric motor 378 is electrically conducted by the transmission lead 377 through the storage battery box 375, the operation of the storage battery box is started, the transmission rotating shaft 379 is driven to rotate, and then the transmission belt 3710 is driven to transmit the centrifugal whipping turbine rod 318 to rotate centrifugally, so that the water upwards rotates along the texture of the storage battery box 318 and is screwed into the limit anti-overflow edge 325, so that the centrifugal whipping turbine rod 318 is driven to rotate by the central rotating shaft 324 through the transmission belt 322, the water in the storage battery box is screwed into the anti-overflow block 333 through the centrifugal force of the rotation of the storage battery box 375, and when the energy is introduced into the positive magnetic field 381 through the lead 376, the slide block is fully magnetized, the upper negative electrode connecting central rotating shaft 388 is sucked downwards, the pressing connecting pushing block 389 is pulled to extrude the sixth reset spring 387, the pushing rotating shaft 383 drives the slide block 384 to be limited by the sliding chute 382 so as to slide along the slide block, the boosting rod 331 of the slide block is downwards and elastically conveyed through the boosting force of the first reset spring 337 when the slide block slides to a certain position, the anti-overflow block 333 is pushed to slide on the straight sliding rail 336 through the pulley 334 so as to be pushed upwards, the energy is introduced into the inflator pump 345 through the electric lead 362 by the accumulator tank 375, the inner part of the sliding rail 343 of the accumulator tank is inflated through the inflation interface 344, the accumulator tank is forced by air to extrude the slide block 342 to push along the sliding rail 343 so as to extrude the water level of the fourth reset spring 341, and when the slide block 342 is extruded by force in the operation process, the pushed by the water is pushed into the transmission pipe 361 and the water guide pipe 364 by pressure, thereby guiding both into the water collecting and draining tank 363, draining it from the inside of the water collecting and draining tank 363, and using it.

The novel fire-fighting water supply and drainage device solves the problems that the existing fire hydrant can be opened only by certain operation, and can be used, if the existing fire hydrant is in an emergency, a lot of precious time can be delayed, if the existing fire hydrant can be opened without some operation, the existing fire hydrant can be damaged by some passers-by or can be used for some unfavorable events.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

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

Claims

1. The utility model provides a novel fire control feedwater drainage device, its structure includes suction box (1), water injection entry (2), feedwater drainage device (3), protective cover (4), drainage interface (5), unable adjustment base (6), its characterized in that:

the water pumping box is characterized in that the outer surface of the bottom of the water pumping box (1) is arranged on the outer surface of the top of a fixed base (6), the water injection inlet (2) is welded on the outer surface of the water pumping box (1), the water supply and drainage device (3) is arranged at the top of the water pumping box (1), the protective cover (4) is connected with the water pumping box (1) through the water supply and drainage device (3), the drainage interface (5) is embedded and arranged inside the water supply and drainage device (3), and the water supply and drainage device (3) is connected with the fixed base (6) through the water pumping box (1);

the water supply and drainage device (3) comprises a centrifugal rotating rod (31), a water level rotating transmission device (32), a water level pushing group (33), an inflatable water pressure device (34), a protective shell (35), a main water storage release device (36), a main power supply (37), an extrusion pushing device (38) and a pressure pushing device (39);

the centrifugal rotating rod (31) is installed on the outer surfaces of two sides of the pressure pushing device (39), the water level rotating transmission device (32) is arranged inside the protective shell (35), the water level pushing group (33) is connected with the extrusion pushing device (38), the inflating water pressure device (34) is installed above the water level pushing group (33), the main water storage release device (36) is installed inside the protective shell (35) in an embedded mode, the main power supply (37) is connected with the main water storage release device (36), the water level rotating transmission device (32) is arranged between the extrusion pushing device (38) and the pressure pushing device (39), the water level pushing group (33) comprises a push-aid rod (331), a rotating shaft (332) for connecting, an anti-overflow block (333), a pulley (334), a fixed block (335), a straight sliding rail (336) and a first return spring (337), the rotating shaft (332) is installed inside the push-aid rod (331) in an embedded mode, the push-assisting rod (331) is connected with the fixed block (335) through a connecting rotating shaft (332), the pushing anti-overflow block (333) is installed on the outer surface of the pulley (334), the first return spring (337) is installed between the push-assisting rod (331) and the pushing anti-overflow block (333), the pulley (334) is installed in the straight sliding rail (336) in an embedded manner, and the extrusion pushing device (38) is installed in the push-assisting rod (331) in an embedded manner;

the centrifugal rotating rod (31) comprises a swinging pushing rod (311), a pressed pushing ball (312), a pushing rod (313), a fixed rotating shaft (314), a second reset spring (315), a smooth rail (316), a pushing assistant pulley (317), a centrifugal swinging turbine rod (318), a pushing connection rod (319) and a third reset spring (3110), the fixed rotating shaft (314) is embedded in the centrifugal rotating rod (31), the pressed pushing ball (312) is connected with the second reset spring (315), the pushing rod (313) is welded with the pressed pushing ball (312), the pressed pushing ball (312) is embedded in the smooth rail (316), the pushing assistant pulley (317) is welded on the outer surface of the top of the pushing connection rod (319), and the third reset spring (3110) is installed on the outer surface of the top of the pressure pushing device (39);

the main water storage releasing device (36) comprises a water level transmission pipe (361), a conductive wire (362), a water collecting and draining box (363), a water guide pipe (364), a main output water pipe (365) and a draining interface (366), wherein the water level transmission pipe (361) is embedded in the water collecting and draining box (363), the water guide pipe (364) is installed in the water collecting and draining box (363), the water collecting and draining box (363) is connected with the draining interface (366) through the main output water pipe (365), the conductive wire (362) is embedded in a main power supply (37), and the conductive wire (362) is electrically connected with an inflating water pressure device (34);

the inflation hydraulic device (34) comprises a fourth return spring (341), a force-bearing extrusion pushing slider (342), a sliding rail (343), an inflation interface (344) and an inflation pump (345), wherein the fourth return spring (341) is mounted on the outer surface of the force-bearing extrusion pushing slider (342), the force-bearing extrusion pushing slider (342) is embedded and mounted inside the sliding rail (343), the inflation interface (344) is embedded and mounted inside the inflation pump (345), and the conductive wire (362) is electrically connected with the inflation pump (345);

the main power supply (37) comprises a block to be triggered (371), a fifth return spring (372), a stressed extrusion triggering block (373), a conductor (374), a storage battery box (375), a lead (376), a transmission lead (377), a motor (378), a transmission rotating shaft (379) and a transmission belt (3710), the block to be triggered (371) is arranged on the outer surface of the conductor (374), the block to be triggered (371) is connected with the forced extrusion triggering block (373) through a fifth return spring (372), the conductor (374) is embedded and installed inside the storage battery box (375), the lead (376) is installed inside the storage battery box (375), the transmission lead (377) is embedded and arranged inside the accumulator box (375), the transmission rotating shaft (379) is arranged inside the motor (378), the transmission belt (3710) is attached to the outer surface of the transmission rotating shaft (379), and the conductive wire (362) is electrically connected with the storage battery box (375);

the water level rotation transmission device (32) comprises a centrifugal conveying wheel (321), a transmission belt (322), a connecting transmission belt (323), a central rotating shaft (324) and a limiting anti-overflow edge (325), the central rotating shaft (324) is embedded in the centrifugal conveying wheel (321) and is positioned on the same axis, the transmission belt (322) is connected with the connecting transmission belt (323) through the central rotating shaft (324), the limiting anti-overflow edge (325) is welded on the side surface of the centrifugal conveying wheel (321), and the transmission belt (322) is installed on the outer surface of the central rotating shaft (324);

the pressure pushing device (39) comprises a transmission extrusion plate (391), a joint rod (392), a joint boosting block (393), a water flow channel (394), an anti-overflow pushing block (395), a water injection space (396), a water injection inlet (397) and a water suction pump (398), wherein the transmission extrusion plate (391) is welded on the outer surface of the top of the joint rod (392), the transmission extrusion plate (391) is connected with the joint boosting block (393) through the joint rod (392), the anti-overflow pushing block (395) is attached to the outer surface of the bottom of the joint boosting block (393), the water injection space (396) is embedded and installed inside the water flow channel (394), the water injection inlet (397) is installed inside the water suction pump (398), and a third return spring (3110) is welded on the outer surface of the top of the transmission extrusion plate (391);

the extrusion pushing device (38) comprises a positive magnetic field (381), a sliding chute (382), a pushing rotating shaft (383), a sliding block (384), a connecting pushing rotating shaft (385), a pushing rod (386), a sixth reset spring (387), a negative connecting central rotating shaft (388) and a pressing connecting pushing block (389), the positive magnetic field (381) is embedded and arranged inside the sliding chute (382), the push rotating shaft (383) is arranged inside the sliding block (384), the push rod (386) is hinged with the slide block (384) through a push rotating shaft (383), the joint pushing rotating shaft (385) is embedded and arranged inside the sliding block (384), the sixth reset spring (387) is arranged between the positive pole magnetic field (381) and the negative pole joint central rotating shaft (388), the negative electrode connecting central rotating shaft (388) is embedded and arranged inside the pressing connecting pushing block (389), the connecting pushing rotating shaft (385) is embedded in the push-aid rod (331).