CN112343130A

CN112343130A - Automatic water supply device for fire fighting of high-rise building

Info

Publication number: CN112343130A
Application number: CN202011113194.8A
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-17
Filing date: 2020-10-17
Publication date: 2021-02-09

Abstract

The invention discloses an automatic water supply device for fire fighting of a high-rise building, which comprises a main water storage tank and is characterized in that: the water supply system is characterized in that a high-rise water flow compensation device, a power failure independent water supply device and a fire emergency water supply device are arranged on the right side of the main water storage tank, the high-rise water flow compensation device comprises a main output pipe welded and installed on the right side of the main water storage tank, a water pump is fixedly installed inside the main output pipe, the main output pipe is fixedly installed in a wall body, water inlet tanks are uniformly arranged on the right side of the main output pipe, water inlets are respectively formed in the upper end and the lower end of the left side of each water inlet tank, a floor water outlet pipe is arranged on the right side of each water inlet tank, a spiral rod is sleeved and installed on the right side of each floor water outlet pipe, and the outer sides of the spiral pipes are meshed.

Description

Automatic water supply device for fire fighting of high-rise building

Technical Field

The invention relates to the technical field of building water supply, in particular to an automatic water supply device for fire fighting of a high-rise building.

Background

At present, along with the development of urban economy, high-rise buildings are continuously increased, and the high-rise buildings in China are rapidly developed, except for building functions and urban planning, the high-rise buildings are mainly determined by urban population concentration and construction land shortage. Under the conditions that the population is more and the urban land is more and more tense, the high-rise building can be built, so that the land resource can be effectively saved, the building cost can be reduced, the urban greening rate can be improved, and the living environment of urban residents can be improved. Some high buildings reach more than 100 floors.

The existing high-rise building water supply device cannot well reduce the water flow of high-rise water, and has poor practicability; meanwhile, the existing water supply device for the high-rise building cannot be continuously used when the water supply device is damaged in emergency situations such as power failure or fire and the like or is insufficient in water supply in emergency situations. Therefore, it is necessary to design an automatic water supply device for fire fighting of high-rise buildings, which can improve the water flow of high-rise users and can be continuously used in case of emergency or device damage.

Disclosure of Invention

The invention aims to provide an automatic water supply device for fire fighting of a high-rise building, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a high-rise building fire control is with automatic water supply installation, includes total storage water tank, its characterized in that: the right side of total storage water tank is provided with high-rise rivers compensation arrangement, the independent water supply installation that has a power failure and the urgent water supply installation of fire control, and high-rise flowing water compensation arrangement's effect lies in improving high floor user's rivers, and the effect that has a power failure independent water supply installation also can continue to supply water when the floor has a power failure, and the urgent water supply installation of fire control's effect lies in when the conflagration that takes place, improves rivers flow.

According to the technical scheme, the high-rise water flow compensation device comprises a total output pipe welded and installed on the right side of a total water storage tank, a water pump is fixedly installed inside the total output pipe, the total output pipe is fixedly installed in a wall body, water inlet tanks are uniformly arranged on the right side of the total output pipe, water inlets are respectively formed in the upper end and the lower end of the left side of each water inlet tank, a floor water outlet pipe is arranged on the right side of each water inlet tank, a spiral rod is sleeved on the right side of each floor water outlet pipe, the outer side of each spiral pipe is connected with a magnetic spiral sleeve in a meshed mode, a sliding rod is welded and installed above each magnetic spiral sleeve, a sliding groove is connected above each sliding rod in a sliding mode, a limiting support is arranged on the left side of each magnetic spiral sleeve, the left end of the first connecting rod is fixedly provided with a push plate, the two ends of the right side of the push plate are correspondingly provided with first springs, the other ends of the first springs are welded with spring fixing blocks, the magnetism of the magnetic spiral sleeve is the same as that of the square magnetic block, when in daily water supply, a water pump is started to pump water in the main water storage tank into the main output pipe to supply water to a user, water in the main output pipe enters the water inlet tank in advance through the water inlets at the upper end and the lower end of the water inlet tank, the magnetic spiral sleeve moves leftwards outside the spiral rod by rotating the spiral rod, the push plate is pushed to move due to the characteristic of magnetic substances, water in the water inlet tank is led out from the right lower part of the water outlet pipe through the floor water outlet pipe to supply water to the user, when no water is needed, the spiral rod is rotated in the opposite direction to withdraw the, guarantee that all floor users' very first time water consumption equals, simple structure and the operation of being convenient for.

According to the technical scheme, the lower part of the water inlet is connected with a rotating sleeve through a bearing, a plurality of first magnetic blocks are uniformly arranged on the outer side of the rotating sleeve, second magnetic blocks are respectively arranged on two sides of the rotating sleeve, a second connecting rod is arranged above the first magnetic blocks, a third magnetic block is fixedly arranged below the tail end of the second connecting rod, a supporting rod is connected below the center of the second connecting rod through a bearing, a transmission rod is fixedly arranged below the front end of the second connecting rod, a trapezoidal water pressing barrel is welded and installed at the tail end of the transmission rod, a water suction bin is fixedly installed inside the trapezoidal water pressing barrel, a second square spring is welded and installed above the trapezoidal water pressing barrel, a water groove is arranged on the outer side of the trapezoidal water pressing barrel, when a push plate is pushed open and water in a water inlet tank is used, the first magnetic blocks are pressed to drive the rotating sleeve to move anticlockwise under the action of gravity, because the magnetism of the second magnetic block arranged at the two sides of the rotating sleeve is the same as that of the first magnetic block, when the first magnetic block is pressed by water flow to be close to the second magnetic block, the first magnetic block and the rotating sleeve are pushed to move clockwise by the principle that like poles of magnetic substances repel each other, the magnetism of the first magnetic block is the same as that of the third magnetic block, when the first magnetic block moves clockwise, the third magnetic block and the second connecting rod are pushed to reciprocate above the supporting rod, the second connecting rod reciprocates to drive the transmission rod and the trapezoidal water pressing barrel to move up and down, when the push plate is pushed to push water in the water inlet tank to enter the water tank, the transmission rod drives the trapezoidal water pressing barrel to move up and down in the water tank, when the trapezoidal water pressing barrel moves down, water in the water tank enters the square water suction bin, when part of the water below of the trapezoidal water pressing barrel moves up, the water cannot flow out to cause, make the water of basin below gush up fast, increased the velocity of flow of rivers, the device compares in current structure the power of the single increase water pump or increase the water pump on each floor, great saving use cost, and remove the loaded damage of water pump from and need the loaded down with trivial details of maintenance, through the automatic first magnetic path of pushing down of rivers, starting drive realizes automatic operation.

According to the technical scheme, a first clamping block is welded and installed inside the left end and the right end of the lower portion of the trapezoidal pressurized water barrel, a first counterweight ball is connected inside the first clamping block in a sliding mode, a third spring is fixedly installed on the right side of the first counterweight ball, a first long magnetic stripe is welded and installed at the tail end of the third spring, a third connecting rod is arranged above the first counterweight ball, a rubber rod is fixedly installed at the tail end of the third connecting rod, a second clamping block is welded and installed on the upper portion of the inner portion of the trapezoidal pressurized water barrel, a second counterweight ball is connected inside the second clamping block in a sliding mode, a fourth spring is fixedly installed on the right side of the second counterweight ball, a first long magnetic stripe is welded and installed at the tail end of the fourth spring, striking blocks are respectively arranged on the outer sides of the third spring and the fourth spring, and a second long magnetic stripe is connected on the right side of the first long magnetic stripe through magnetic attraction, the right side of the second long magnetic stripe is provided with a third long magnetic stripe, a gap between the second long magnetic stripe and the third long magnetic stripe is a magnetic suspension slideway, when water used by high-rise users meets fire or the temperature of summer is too high, the water tank is heated to expand and clamp the trapezoidal water pressing barrel so that the trapezoidal water pressing barrel cannot move, when two sides of the lower end of the trapezoidal water pressing barrel are extruded, the first counterweight ball is separated from the first clamping block and is moved rightwards under the action of a third spring, when the first counterweight ball pushes a rubber rod at the tail end of a third connecting rod to vibrate in the moving process, the second counterweight ball is separated from the second clamping block and is moved rightwards under the action of a fourth spring, the length of the fourth spring is half of that of the third spring, the first counterweight ball and the second counterweight ball simultaneously impact the right impact block, so that the first long magnetic stripe and the second long magnetic stripe which are adsorbed together through magnetism are separated from being attached, and the magnetic suspension slideway always exists when the, when the second long magnetic stripe is vibrated, the second long magnetic stripe is instantaneously inverted and adsorbed by the third long magnetic stripe and is repelled by the first long magnetic stripe, so that the square water suction bin is separated from the control of the trapezoidal water pressing barrel.

According to the technical scheme, a one-way opening is arranged below the square water absorption bin, a plurality of telescopic rods are welded and installed in the center of the upper portion of the one-way opening, a floating ball is fixedly installed at the top end of each telescopic rod, a first tension rope is fixedly installed on the right side of the top end of the one-way opening, a rotating gear is fixedly installed at the other end of each first tension rope, a second tension rope is connected to the outer side of each rotating gear in a sliding mode, the other end of each second tension rope is welded and installed on the inner wall of the square water absorption bin, a limiting clamping tooth is arranged above each rotating gear, a third tension rope is fixedly installed above each limiting clamping tooth, the other end of each third tension rope is fixedly installed below a top cover of the square water absorption bin, and when the square water absorption bin moves up and down for multiple times, the one-way opening is opened and closed, pushing the floating ball to pull the multi-section telescopic rod to move upwards until the top end of the square water absorption bin, pushing the floating ball to open the top cover of the square water absorption bin when the square water absorption bin is filled with water, enabling the water in the square water absorption bin to flow out from the top, opening and closing the one-way opening for multiple times, pulling the first pull rope to enable the rotary gear to rotate, enabling the rotary gear to rotate and continuously stretching the second pull rope to wind on the outer side of the gear to form pretightening force, preventing the rotary gear from rotating reversely, when the water level is too high to push the top cover, pulling the third pull rope by the top cover to enable the limiting latch to be separated from the rotary gear, enabling the second pull rope to contract to enable the rotary gear to rotate rapidly, rapidly guiding the water in the square water absorption bin out of the square water absorption bin to facilitate continuous water intake, ensuring that the water flow of users in high buildings is not reduced all the time, and based on the prior structure, the square water suction bin is prevented from being required to wait for self-slow water drainage after being filled with water to affect the water pumping efficiency, the water level rises through the floating ball and the multi-section telescopic rods, the floating ball is driven to move upwards to push the top cover to drain water, the floating ball moves downwards under the water level under the action of gravity, so that the multi-section telescopic rods contract to move in a reciprocating mode, the water drainage automation is realized, and the working efficiency is improved.

According to the technical scheme, the power failure independent water supply device comprises a cover plate which is slidably connected inside a main water storage tank, a fourth connecting rod is welded and installed above the cover plate, a pressurizing magnetic block is fixedly installed at the other end of the fourth connecting rod, a plurality of magnet blocks are uniformly arranged above the pressurizing magnetic block, a lead is wound on the outer side of each magnet block, a switch is correspondingly arranged on the right side of each magnet block, a high-temperature heat conduction pipe is fixedly installed on the right side of a wall body, a garbage incinerator is welded and installed on the right side of the high-temperature heat conduction pipe, an air compressor is fixedly installed on the left side of the high-temperature heat conduction pipe, a water guide opening is formed below the air compressor, a temporary water storage bin is arranged below the air compressor, a water bin switch is arranged on the right side of the temporary water storage bin, and an elastic rubber, when power is not cut off, users on each floor only need to close the switch, so that the wires of the floors are electrified and connected in parallel to the main circuit, the electrified wires enable the magnet conduction blocks to have magnetism, the pressurizing magnetic blocks are pushed to move downwards through the principle that like poles of magnetic substances repel each other, the fourth connecting rod and the cover plate below the pressurizing magnetic blocks are driven to move downwards to pressurize water in the main water storage tank, the water is enabled to flow into the main output pipe, the water pressure in the main output pipe is increased, water flow is increased, the daily garbage of the users on each floor is burned in the garbage incinerator, generated high-temperature smoke enters the air compressor through the high-temperature heat conduction pipe, the air compressor compresses the high-temperature smoke, the water vapor in the smoke is compressed into water, the water enters the temporary water storage tank through the water guide port, and when power is cut off, only the water switch needs to be opened, and the.

According to the technical scheme, a sliding iron sheet is fixedly mounted on the outer side of the tail end of the elastic rubber air bag, a resistor is fixedly mounted on one side of the sliding iron sheet, a wire is fixedly mounted at the tail end of the resistor, an elastic push plate is arranged on the right side of the elastic rubber air bag, a fifth connecting rod is welded and mounted on the right side of the elastic push plate, a first auxiliary magnetic block is arranged at the tail end of the fifth connecting rod, a plurality of arc-shaped plates are arranged on the right side of the first auxiliary magnetic block, gear teeth are arranged at the top ends of the arc-shaped plates, a second auxiliary magnetic block is welded and mounted on one side of the arc-shaped plates, a quarter circular plate is meshed and connected to the right side of the arc-shaped plates, electromagnetic guide blocks are correspondingly arranged on two sides of the quarter circular plate, the wire is fixedly mounted below the electromagnetic guide, the magnetism of the second auxiliary magnetic block below the arc-shaped plate is the same as that of the first auxiliary magnetic block, the arc-shaped plate is pushed to rotate, the arc-shaped plate is meshed with the quarter circular plate on the right side of the arc-shaped plate, the quarter circular plate is driven to do cutting magnetic induction line motion between the conductive magnetic blocks on the two sides, power is supplied to the lead, the air bag is increased to push the sliding iron sheet below the arc-shaped plate to move up and down on the resistance, so that the resistance in the circuit is reduced, a formula H (N I)/L shows that when the current in the circuit is increased, the magnetic field of the electromagnet is increased, the current is increased by reducing the resistance in the circuit to increase the magnetic field of the conductive iron block, the pressurizing magnetic block moves down, the fourth connecting rod and the cover plate below the pressurizing magnetic block move down to pressurize the water in the main water storage tank, so that the water flows into the main output pipe, the water pressure in the main, the trouble that the garbage is lost when a floor user goes downstairs is avoided, and the energy generated by burning the garbage is stored for emergency when the household garbage is directly treated.

According to the technical scheme, the fire-fighting emergency water supply device comprises a pressurizing channel arranged in a wall body, air inlets are uniformly arranged in the wall body, and four longitudinal fixing blocks are correspondingly arranged at the upper end and the lower end of each air inlet.

According to the technical scheme, an upper shell is connected between two longitudinal fixing blocks above an air inlet in a sliding manner, a fifth spring is welded at the top end of the upper shell, the tail end of the fifth spring is fixedly installed inside a wall body, a plurality of upper blocks are uniformly arranged inside the upper shell, a stretching air film is fixedly installed below the upper blocks, a lower block is fixedly installed at the other end of the stretching air film, the lower block is magnetic, strings are arranged among the plurality of lower blocks, a lower shell is connected between the two longitudinal fixing blocks below the air inlet in a sliding manner, a plurality of limiting grooves are formed in the top end inside the lower shell, magnetic fixing blocks are correspondingly arranged below the limiting grooves, and when a fire disaster happens to a high-rise building, if floor water flow is reduced, hot air is guided into the air inlet to enable the stretching air film to stretch and expand, when the stretching gas film expands to the limit position, explosion occurs, high-temperature hot gas generated by explosion heats and pressurizes original high-temperature gas, the gas rapidly moves downwards through the pressurizing channel to reach the upper part of the main water storage tank to push the cover plate to rapidly extrude water flow into the main output pipe to increase water flow, when the stretching gas film continuously expands, the upper shell and the lower shell at two ends of the stretching gas film are continuously close, the magnetic fixing block below the limiting groove at the top end of the lower shell attracts the magnetic lower block to enable the lower block to enter the limiting groove, when the previous stretching gas film finishes explosion, the fifth spring contracts, the upper shell and the lower shell are separated, the gas inlet still admits gas to stretch the stretching gas film, the lower block is clamped into the limiting groove to enable the lower block not to move any more, the upper shell and the lower shell are separated to enable the next lower block to be limited to be in place through the thin rope, and meanwhile, the thin rope is disconnected to enable the upper shell and the, through the steps, the user can continuously pressurize the upper part of the total water outlet tank, so that the water yield of a high-rise building is increased.

Compared with the prior art, the invention has the following beneficial effects: in the invention, the raw materials are mixed,

(1) compared with the existing structure, the structure is provided with the water inlet tank, the spiral rod, the magnetic spiral sleeve and the square magnetic block, so that the water consumption of all floor users in the first time is ensured to be equal, the structure is simple, and the operation is convenient;

(2) compared with the prior art that the power of the water pump is increased only in the structure or the water pump is added in each floor, the device greatly saves the use cost, avoids the trouble that the load of the water pump is damaged and needs to be maintained, automatically presses down the first magnetic block through water flow, starts the device, and realizes automatic operation;

(3) compared with the existing structure, the device has the advantages that the step that the structure cannot operate due to thermal expansion and needs to be disassembled and replaced is omitted, so that the device can still operate when being heated and extruded, and the operating efficiency of the device is greatly improved by reducing friction in the operation of the device according to the principle of magnetic suspension;

(4) compared with the existing structure, the device avoids the problem that the water pumping efficiency is influenced by waiting for the water to be slowly drained by itself after the square water sucking bin is filled with water, the floating ball is driven to move upwards to push the top cover to drain water by the rising of the water level through the floating ball and the multi-section telescopic rods, and the floating ball moves downwards under the action of gravity to enable the multi-section telescopic rods to contract and reciprocate, so that the drainage automation is realized, and the working efficiency is improved;

(5) compared with the prior structure, the device realizes the effect of supplying water to floors no matter whether power is off or not by arranging the pressurizing magnetic block, the magnet block, the lead, the switch, the high-temperature heat conduction pipe, the air compressor, the water guide port and the temporary water storage bin;

(6) the device is provided with the elastic rubber air bag, the sliding iron sheet, the elastic push plate, the first auxiliary magnetic block, the second auxiliary magnetic block, the arc-shaped plate and the quarter circular plate, the magnetic field of the magnetic block is increased by increasing current by reducing the resistance in the circuit, so that the pressurizing magnetic block moves downwards to increase the water pressure in the main water storage tank and the water pressure in the main water storage tank is enabled to flow into the main output pipe, the water pressure in the main output pipe is increased to increase water flow, and compared with the existing structure, the device avoids the trouble of losing garbage when a floor user goes downstairs, and stores the energy generated by burning the garbage for emergency when the household garbage is directly treated;

(7) the device is provided with a stretching air film, a pressurizing channel, an air inlet, a longitudinal fixing block, an upper shell, a lower shell, an upper molding block, a lower molding block and a limiting groove; through the device, a user can continuously pressurize the upper part of the main water outlet tank, so that the water yield of a high-rise building is stable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic sectional front view of a high-rise water flow compensator according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the present invention in partial cross-section of the trapezoidal shaped water pressing barrel of FIG. 2;

FIG. 4 is a schematic front cross-sectional view of the square water absorption bin of FIG. 2 according to the present invention;

FIG. 5 is a schematic sectional front view of the overall water storage tank of the present invention;

FIG. 6 is a front sectional view of the power-off independent water supply apparatus of the present invention;

FIG. 7 is an enlarged view of portion B of FIG. 6 in accordance with the present invention;

FIG. 8 is a front cross-sectional schematic view of the fire emergency water supply of the present invention;

FIG. 9 is an enlarged view of portion C of FIG. 8 in accordance with the present invention;

in the figure: 1. a main water storage tank; 2. a total output pipe; 3. a water pump; 4. a water inlet tank; 5. a water inlet; 6. a limiting bracket; 10. a screw rod; 11. a slide bar; 12. a chute; 13. a square magnetic block; 15. a first connecting rod; 16. a spring fixing block; 17. pushing the plate; 18. a first spring; 19. a floor water outlet pipe; 20. a magnetic spiral sleeve; 21. rotating the sleeve; 22. a first magnetic block; 23. a second magnetic block; 24. a second connecting rod; 25. a third magnetic block; 26. a support bar; 27. a water tank; 28. a transmission rod; 29. a trapezoidal pressurized water barrel; 30. a square water absorption bin; 31. a second spring; 32. a first clamping block; 33. a first weight ball; 34. a third spring; 35. an impact block; 36. a third connecting rod; 37. a rubber rod; 38. a second fixture block; 39. a second weight ball; 40. a fourth spring; 41. a first long magnetic stripe; 42. a second long magnetic stripe; 43. a third long magnetic stripe; 44. a magnetic suspension slideway; 45. a one-way opening; 46. a multi-section telescopic rod; 47. a floating ball; 48. a first tensile cord; 49. a rotating gear; 50. a second tensile cord; 51. limiting latch teeth; 52. a third tensile cord; 53. a pressurizing magnetic block; 54. a fourth connecting rod; 55. a cover plate; 56. a magnet block is electrified; 57. a wire; 58. a switch; 59. a garbage incinerator; 60. a high temperature heat conducting pipe; 61. an air compressor; 62. a wall body; 63. a water guide port; 64. a temporary water storage bin; 65. a water sump switch; 66. an elastic rubber bladder; 67. sliding the iron sheet; 68. a resistance; 69. an elastic push plate; 70. a fifth connecting rod; 71. a first auxiliary magnetic block; 72. an arc-shaped plate; 73. a second auxiliary magnetic block; 74. a quarter circular plate; 75. a conductive magnetic block; 76. a pressurizing channel; 85. stretching the air film; 86. a longitudinal fixing block; 87. a lower housing; 88. an upper housing; 89. a fifth spring; 91. an upper molding block; 92. a lower molding block; 93. a string; 94. a limiting groove; 95. and a magnetic fixing block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides the following technical solutions: the utility model provides a high-rise building fire control is with automatic water supply installation, includes total storage water tank 1, its characterized in that: the right side of the main water storage tank 1 is provided with a high-rise water flow compensation device, a power-off independent water supply device and a fire-fighting emergency water supply device, wherein the high-rise water flow compensation device is used for improving the water flow of high-rise users, the power-off independent water supply device is used for continuously supplying water when power is off on a floor, and the fire-fighting emergency water supply device is used for improving the water flow when a fire disaster occurs;

the high-rise water flow compensation device comprises a main output pipe 2 welded and installed on the right side of a main water storage tank 1, a water pump 3 is fixedly installed inside the main output pipe 2, the main output pipe 2 is fixedly installed in a wall 62, water inlet tanks 4 are uniformly arranged on the right side of the main output pipe 2, water inlets 5 are respectively arranged at the upper end and the lower end of the left side of each water inlet tank 4, floor water outlet pipes 19 are arranged on the right side of each water inlet tank 4, spiral rods 10 are sleeved on the right sides of the floor water outlet pipes 19, magnetic spiral sleeves 20 are meshed and connected with the outer sides of the spiral rods 10, sliding rods 11 are welded and installed above the magnetic spiral sleeves 20, sliding grooves 12 are slidably connected above the sliding rods 11, a limiting support 6 is arranged on the left side of each magnetic spiral sleeve 20, a first connecting rod 15 is slidably connected inside the limiting support 6, square, the two ends of the right side of the push plate 17 are correspondingly provided with first springs 18, the other ends of the first springs 18 are welded with spring fixing blocks 16, the magnetism of the magnetic spiral sleeve 20 is the same as that of the square magnet 13, when in daily water supply, the water pump 3 is started to pump water in the main water storage tank 1 into the main output pipe 2 to supply water to users, the water in the main output pipe 2 enters the water inlet tank 4 in advance through the water inlet 5 at the upper end and the lower end of the water inlet tank 4, the magnetic spiral sleeve 20 moves leftwards outside the spiral rod 10 by rotating the spiral rod 10, the push plate 17 is pushed to move due to the characteristic of magnetic substances, the water in the water inlet tank 4 is led out from the right lower part of the water inlet tank through the floor water outlet pipe 19 to supply water to the users, when the water is not needed, the spiral rod 10 is rotated in the opposite direction, the magnetic spiral sleeve 20 is retracted, the water consumption of all floor users at the first time is ensured to be equal, the structure is simple, and the operation is convenient;

the lower part of the water inlet 5 is connected with a rotating sleeve 21 through a bearing, the outer side of the rotating sleeve 21 is uniformly provided with a plurality of first magnetic blocks 22, the two sides of the rotating sleeve 21 are respectively provided with a second magnetic block 23, a second connecting rod 24 is arranged above the first magnetic blocks 22, a third magnetic block 25 is fixedly arranged below the tail end of the second connecting rod 24, the lower part of the center of the second connecting rod 24 is connected with a supporting rod 26 through a bearing, a transmission rod 28 is fixedly arranged below the front end of the second connecting rod 24, the tail end of the transmission rod 28 is welded with a trapezoidal water pressing barrel 29, a square water suction bin 30 is fixedly arranged inside the trapezoidal water pressing barrel 29, a second spring 31 is welded above the trapezoidal water pressing barrel 29, the outer side of the trapezoidal water pressing barrel 29 is provided with a water groove 27, when the push plate 17 is pushed open by water in the water inlet tank 4, the water falls due to the gravity and presses the first magnetic, because the second magnetic blocks 23 arranged at the two sides of the rotating sleeve 21 have the same magnetism as the first magnetic blocks 22, when the first magnetic blocks 22 are pressed by water flow to be close to the second magnetic blocks 23, the first magnetic blocks 22 and the rotating sleeve 21 are pushed to move clockwise by the principle that like poles of magnetic substances repel each other, the magnetism of the first magnetic blocks 22 is the same as that of the third magnetic blocks 25, when the first magnetic blocks 22 move clockwise, the third magnetic blocks 25 and the second connecting rod 24 are pushed to reciprocate above the supporting rod 26, the second connecting rod 24 reciprocates to drive the transmission rod 28 and the trapezoidal water pressing barrel 29 to move up and down, when the push plate 17 is pushed away, water in the water inlet tank 4 enters the water tank 27, and simultaneously the transmission rod 28 drives the trapezoidal water pressing barrel 29 to move up and down in the water tank 27, when the trapezoidal water pressing barrel 29 moves down, water in the water tank 27 enters the square water suction bin 30, when the trapezoidal water pressing barrel 29 moves up, a part of water below cannot flow out because of the square water suction bin 30 to cause, compared with the prior structure that the power of the water pump 3 is simply increased or the water pump 3 is added on each floor, the device greatly saves the use cost, avoids the trouble that the load of the water pump 3 is damaged and needs to be maintained, automatically presses down the first magnetic block 22 through the water flow, starts the device, and realizes automatic operation;

a first clamping block 32 is welded and installed inside the left end and the right end below the trapezoid pressing water barrel 29, a first counterweight ball 33 is connected inside the first clamping block 32 in a sliding manner, a third spring 34 is fixedly installed on the right side of the first counterweight ball 33, a first long magnetic strip 41 is welded and installed at the tail end of the third spring 34, a third connecting rod 36 is arranged above the first counterweight ball 33, a rubber rod 37 is fixedly installed at the tail end of the third connecting rod 36, a second clamping block 38 is welded and installed above the trapezoid pressing water barrel 29, a second counterweight ball 39 is connected inside the second clamping block 38 in a sliding manner, a fourth spring 40 is fixedly installed on the right side of the second counterweight ball 39, a first long magnetic strip 41 is welded and installed at the tail end of the fourth spring 40, striking blocks 35 are respectively arranged outside the third spring 34 and the fourth spring 40, a second long magnetic strip 42 is connected on the right side of the first long magnetic strip 41 through magnetic attraction, a third long magnetic strip 43 is arranged on the right side of the second long magnetic strip 42, a gap between the second long magnetic stripe 42 and the third long magnetic stripe 43 is a magnetic suspension slideway 44, when water used by a user in a high building meets a fire disaster or the temperature is too high in summer, the water tank 27 is heated to expand and clamp the trapezoidal pressurized-water barrel 29 so that the trapezoidal pressurized-water barrel cannot move, when two sides of the lower end of the trapezoidal pressurized-water barrel 29 are extruded, the first counterweight ball 33 is separated from the first clamping block 32 and moves rightwards under the action of the third spring 34, when the first counterweight ball 33 pushes the rubber rod 37 at the tail end of the third connecting rod 36 to vibrate in the moving process, the second counterweight ball 39 is separated from the second clamping block 38 and moves rightwards under the action of the fourth spring 40, the length of the fourth spring 40 is half of that of the third spring 34, the first counterweight ball 33 and the second counterweight ball 39 simultaneously impact the right-side impact block 35, so that the first long magnetic stripe 41 and the second long magnetic stripe 42 which are originally adsorbed together through magnetism are separated from each other and attached, the magnetic suspension slideway 44 always exists, when the second long magnetic stripe 42 is vibrated, the second long magnetic stripe 42 is instantaneously inverted and adsorbed by the third long magnetic stripe 43 and is repelled by the first long magnetic stripe 41, so that the square water absorption bin 30 is separated from the control of the trapezoidal water pressing barrel 29, the sliding resistance of the square water absorption bin 30 is reduced due to the existence of the magnetic suspension slideway 44, the work is not influenced, the transmission rod 28 can still drive the square water absorption bin 30 to absorb water and pump partial vacuum so that the water flow is increased, compared with the existing structure, the device omits the step that the structure cannot operate due to thermal expansion and needs to be disassembled for replacement, the device can still operate when being heated and extruded, and the operating efficiency of the device is greatly improved by reducing the friction in the operation of the device according to the magnetic suspension principle;

a one-way opening 45 is arranged below the square water suction bin 30, a multi-section telescopic rod 46 is welded and installed at the center of the upper part of the one-way opening 45, a floating ball 47 is fixedly installed at the top end of the multi-section telescopic rod 46, a first tension rope 48 is fixedly installed at the right side of the top end of the one-way opening 45, a rotating gear 49 is fixedly installed at the other end of the first tension rope 48, a second tension rope 50 is connected to the outer side of the rotating gear 49 in a sliding mode, the other end of the second tension rope 50 is welded and installed on the inner wall of the square water suction bin 30, a limiting latch 51 is arranged above the rotating gear 49, a third tension rope 52 is fixedly installed above the limiting latch 51, the other end of the third tension rope 52 is fixedly installed below the top cover of the square water suction bin 30, when the square water suction bin 30 moves up and down for multiple times, the one-way opening 45 opens and closes, until the top end of the square water absorption bin 30, when water fills the square water absorption bin 30, the floating ball 47 pushes open the top cover of the square water absorption bin 30, so that the water in the square water absorption bin 30 flows out from the top, the one-way opening 45 is opened and closed for a plurality of times, the first pull rope 48 is pulled, the rotating gear 49 rotates to continuously stretch the second pull rope 50 to wind on the outer side of the rotating gear 49 to form a pretightening force, the limit latch 51 has the function of preventing the rotating gear 49 from rotating reversely, when the water level is too high to push open the top cover, the top cover pulls the third pull rope 52, so that the limit latch 51 is separated from the rotating gear 49, the second pull rope 50 contracts to quickly rotate the rotating gear 49, the water in the square water absorption bin 30 is quickly led out to empty the square water absorption bin 30 for continuous water intake, so that the water pumping work is uninterrupted, and the water flow of users in high buildings is ensured not to be reduced all the time, the problem that when the square water absorption bin 30 is filled with water, the water needs to wait for the water to be slowly drained automatically to influence the water pumping efficiency is avoided, the water level rises through the floating ball 47 and the multi-section telescopic rod 46, the floating ball 47 is driven to move upwards to push the top cover to drain, the floating ball 47 moves downwards under the action of gravity to enable the multi-section telescopic rod 46 to contract and reciprocate to realize automatic drainage, and the working efficiency is improved;

the independent water supply device for power failure comprises a cover plate 55 which is connected inside a main water storage tank 1 in a sliding manner, a fourth connecting rod 54 is welded and installed above the cover plate 55, a pressurizing magnetic block 53 is fixedly installed at the other end of the fourth connecting rod 54, a plurality of magnet passing blocks 56 are uniformly arranged above the pressurizing magnetic block 53, a lead wire 57 is wound on the outer side of each magnet passing block 56, a switch 58 is correspondingly arranged on the right side of each magnet passing block 56, a high-temperature heat conduction pipe 60 is fixedly installed on the right side of a wall body 62, a garbage incinerator 59 is welded and installed on the right side of the high-temperature heat conduction pipe 60, an air compressor 61 is fixedly installed on the left side of the high-temperature heat conduction pipe 60, a water guide port 63 is formed below the air compressor 61, a temporary water storage tank 64 is arranged below the air compressor 61, a water storage tank switch 65 is arranged on the, each floor user need only close switch 58 so that the conductor 57 of that floor is energized in parallel to the main line, the conductor 57 is energized so that the energized magnet block 56 is magnetic, the pressurizing magnetic block 53 is pushed to move downwards by the principle that like poles of magnetic substances repel each other, the fourth connecting rod 54 and the cover plate 55 below the pressurizing magnetic block are driven to move downwards to pressurize the water in the main water storage tank 1, so that the water is flushed into the main output pipe 2, the water pressure in the main output pipe 2 is increased to increase the water flow, the daily garbage incinerator 59 for people throwing garbage of each floor user burns, the generated high-temperature flue gas enters the air compressor 61 through the high-temperature heat conduction pipe 60, the air compressor 61 compresses the high-temperature flue gas, the vapor in the flue gas is compressed into water, the water enters the temporary water storage bin 64 through the water guide port 63, when power is off, the water bin switch 65 is only needed to be opened, so that water in the temporary water storage bin 64 flows into the elastic rubber air bag 66, and the elastic rubber air bag 66 is enlarged;

a sliding iron sheet 67 is fixedly installed on the outer side of the tail end of the elastic rubber air bag 66, a resistor 68 is fixedly installed on one side of the sliding iron sheet 67, a lead 57 is fixedly installed on the tail end of the resistor 68, an elastic push plate 69 is arranged on the right side of the elastic rubber air bag 66, a fifth connecting rod 70 is welded and installed on the right side of the elastic push plate 69, a first auxiliary magnetic block 71 is arranged at the tail end of the fifth connecting rod 70, a plurality of arc-shaped plates 72 are arranged on the right side of the first auxiliary magnetic block 71, gear teeth are arranged at the top ends of the arc-shaped plates 72, a second auxiliary magnetic block 73 is welded and installed on one side of the arc-shaped plates 72, a quarter circular plate 74 is meshed and connected to the right side of the arc-shaped plates 72, magnetic conductive blocks 75 are correspondingly arranged on two sides of the quarter circular plate 74, the lead 57 is fixedly installed below, the magnetism of the second auxiliary magnetic block 73 below the arc-shaped plate 72 is the same as that of the first auxiliary magnetic block 71, the arc-shaped plate 72 is pushed to rotate, the arc-shaped plate 72 is meshed with the quarter circular plate 74 on the right side of the arc-shaped plate, the quarter circular plate 74 is driven to perform magnetic induction line cutting motion between the conductive magnetic blocks 75 on two sides, the conducting wire 57 is powered, the elastic rubber air bag 66 is increased to push the sliding iron sheet 67 below to move up and down on the resistor 68, so that the resistor 68 in the circuit is reduced, a formula H (N I)/L is obtained, when the current in the circuit is increased, the magnetic field of the electromagnet is increased, the current is increased by reducing the resistor 68 in the circuit to increase the magnetic field of the conductive magnetic iron block 56, so that the pressurizing 53 moves down to drive the fourth connecting rod 54 and the cover plate 55 below to move down to pressurize the water in the total water storage tank 1, so that the water flows into, the water pressure in the main output pipe 2 is increased, so that the water flow is increased, and compared with the existing structure, the device avoids the trouble that a floor user drops garbage, directly processes household garbage and stores energy generated by garbage incineration for emergency;

the fire-fighting emergency water supply device comprises a pressurizing channel 76 arranged in the wall body 62, air inlets are uniformly arranged in the wall body 62, and four longitudinal fixing blocks 86 are correspondingly arranged at the upper end and the lower end of each air inlet;

an upper shell 88 is connected between two longitudinal fixing blocks 86 above an air inlet in a sliding manner, a fifth spring 89 is welded at the top end of the upper shell 88, the tail end of the fifth spring 89 is fixedly installed inside a wall 62, a plurality of upper type blocks 91 are uniformly arranged inside the upper shell 88, a stretching air film 85 is fixedly installed below the upper type blocks 91, a lower type block 92 is fixedly installed at the other end of the stretching air film 85, the lower type block 92 is magnetic, a string 93 is arranged between the lower type blocks 92, a lower shell 87 is connected between the two longitudinal fixing blocks 86 below the air inlet in a sliding manner, a plurality of limiting grooves 94 are formed in the top end inside the lower shell 87, magnetic fixing blocks 95 are correspondingly arranged below the limiting grooves 94, when a high-rise fire disaster occurs, if floor water flow is reduced, hot air is guided from the air inlet, the stretching air film 85 stretches and expands, and when the stretching air film 85 expands to a limit position, the explosion occurs, the high-temperature hot gas generated by explosion heats and pressurizes the original high-temperature gas, the high-temperature hot gas rapidly moves downwards through the pressurizing channel 76 to reach the upper part of the main water storage tank 1 to push the cover plate 55 to rapidly extrude the water flow into the main output pipe 2 to increase the water flow, when the stretching gas film 85 continuously expands, the upper shell 88 and the lower shell 87 at two ends of the stretching gas film 85 are continuously close, the magnetic fixing block 95 below the limiting groove 94 at the top end of the lower shell 87 attracts the magnetic lower block 92 to enable the magnetic lower block 92 to enter the limiting groove 94, when the previous stretching gas film 85 finishes the explosion, the fifth spring 89 contracts, so that the air inlet still admits air to stretch the stretching gas film 85 while the upper shell 88 and the lower shell 87 are separated, the lower block 92 is clamped into the limiting groove 94 to enable the lower block 92 not to move any more, the upper shell 88 and the lower shell 87 are separated to enable the lower block 92 to be limited to pull the next lower block, meanwhile, the upper shell 88 and the lower shell 87 are smoothly separated by disconnecting the string 93, and the user can continuously pressurize the upper part of the main water outlet tank 1 through the steps, so that the water outlet amount of a high-rise building is increased.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a high-rise building fire control is with automatic water supply installation, includes total storage water tank (1), its characterized in that: the right side of the main water storage tank (1) is provided with a high-rise water flow compensation device, an independent power failure water supply device and an emergency fire-fighting water supply device.

2. The automatic water supply device for fire fighting of high-rise buildings according to claim 1, characterized in that: the high-rise water flow compensation device comprises a total output pipe (2) welded and installed on the right side of a total water storage tank (1), a water pump (3) is fixedly installed inside the total output pipe (2), the total output pipe (2) is fixedly installed in a wall body (62), a water inlet tank (4) is uniformly arranged on the right side of the total output pipe (2), a water inlet (5) is respectively formed in the upper end and the lower end of the left side of the water inlet tank (4), a floor water outlet pipe (19) is arranged on the right side of the water inlet tank (4), a spiral rod (10) is sleeved and installed on the right side of the floor water outlet pipe (19), a magnetic spiral sleeve (20) is meshed and connected with the outer side of the spiral rod (10), a sliding rod (11) is welded and installed above the magnetic spiral sleeve (20), a sliding chute (12) is slidably connected to the upper side of the sliding rod (, the magnetic spiral sleeve is characterized in that a first connecting rod (15) is slidably connected inside the limiting support (6), a square magnetic block (13) is fixedly mounted at one end of the first connecting rod (15), a push plate (17) is fixedly mounted at the left end of the first connecting rod (15), first springs (18) are correspondingly arranged at two ends of the right side of the push plate (17), spring fixing blocks (16) are welded to the other ends of the first springs (18), and the magnetism of the magnetic spiral sleeve (20) is the same as that of the square magnetic block (13).

3. The automatic water supply device for fire fighting of high-rise buildings according to claim 2, characterized in that: the water pump is characterized in that a rotary sleeve (21) is connected to the lower portion of the water inlet (5) through a bearing, a plurality of first magnetic blocks (22) are uniformly arranged on the outer side of the rotary sleeve (21), second magnetic blocks (23) are respectively arranged on two sides of the rotary sleeve (21), a second connecting rod (24) is arranged above the first magnetic blocks (22), a third magnetic block (25) is fixedly arranged below the tail end of the second connecting rod (24), a supporting rod (26) is connected to the lower portion of the center of the second connecting rod (24) through a bearing, a transmission rod (28) is fixedly arranged below the front end of the second connecting rod (24), a trapezoidal water pressing barrel (29) is welded to the tail end of the transmission rod (28), a square water suction bin (30) is fixedly arranged inside the trapezoidal water pressing barrel (29), a second spring (31) is welded to the upper portion of the trapezoidal water pressing barrel (29), a water tank (27) is arranged on the outer side of the trapezoidal pressurized-water barrel (29).

4. The automatic water supply device for fire fighting of high-rise buildings according to claim 3, characterized in that: a first clamping block (32) is welded and installed at the left end and the right end of the lower portion of the trapezoidal pressurized water barrel (29), a first counterweight ball (33) is connected to the inner portion of the first clamping block (32) in a sliding mode, a third spring (34) is fixedly installed on the right side of the first counterweight ball (33), a first long magnetic stripe (41) is welded and installed at the tail end of the third spring (34), a third connecting rod (36) is arranged above the first counterweight ball (33), a rubber rod (37) is fixedly installed at the tail end of the third connecting rod (36), a second clamping block (38) is welded and installed at the upper portion of the inner portion of the trapezoidal pressurized water barrel (29), a second counterweight ball (39) is connected to the inner portion of the second clamping block (38) in a sliding mode, a fourth spring (40) is fixedly installed on the right side of the second counterweight ball (39), and a first long magnetic stripe (41) is welded and installed at the tail end of the fourth spring (, the outside of third spring (34) and fourth spring (40) is provided with striking piece (35) respectively, the right side of first long magnetic stripe (41) is connected with long magnetic stripe of second (42) through magnetic attraction, the right side of the long magnetic stripe of second (42) is provided with long magnetic stripe of third (43), the clearance between the long magnetic stripe of second (42) and the long magnetic stripe of third (43) is magnetic suspension slide (44).

5. The automatic water supply device for fire fighting of high-rise buildings according to claim 4, characterized in that: a one-way opening (45) is arranged below the square water absorption bin (30), a plurality of sections of telescopic rods (46) are welded and installed in the center above the one-way opening (45), a floating ball (47) is fixedly arranged at the top end of the multi-section telescopic rod (46), a first tension rope (48) is fixedly arranged on the right side of the top end of the one-way opening (45), the other end of the first pulling force rope (48) is fixedly provided with a rotating gear (49), the outer side of the rotating gear (49) is connected with a second tension rope (50) in a sliding way, the other end of the second tension rope (50) is welded and installed on the inner wall of the square water absorption bin (30), a limiting latch (51) is arranged above the rotating gear (49), a third tension rope (52) is fixedly arranged above the limiting latch (51), the other end of the third tensile rope (52) is fixedly arranged below the top cover of the square water absorption bin (30).

6. The automatic water supply device for fire fighting of high-rise buildings according to claim 5, characterized in that: the power failure independent water supply device comprises a cover plate (55) which is slidably connected inside a main water storage tank (1), a fourth connecting rod (54) is welded and installed above the cover plate (55), a pressurizing magnetic block (53) is fixedly installed at the other end of the fourth connecting rod (54), a plurality of magnet blocks (56) are uniformly arranged above the pressurizing magnetic block (53), a lead (57) is wound outside the magnet blocks (56), a switch (58) is correspondingly arranged on the right side of the magnet blocks (56), a high-temperature heat pipe (60) is fixedly installed on the right side of a wall body (62), a garbage incinerator (59) is welded and installed on the right side of the high-temperature heat pipe (60), an air compressor (61) is fixedly installed on the left side of the high-temperature heat pipe (60), a water guide port (63) is formed below the air compressor (61), and a temporary water storage bin (64) is arranged below the air compressor (61), the right side of the temporary water storage bin (64) is provided with a water bin switch (65), and an elastic rubber air bag (66) is sleeved and mounted below the temporary water storage bin (64).

7. The automatic water supply device for fire fighting of high-rise buildings according to claim 6, characterized in that: the terminal outside fixed mounting of elasticity rubber gasbag (66) has slip iron sheet (67), one side fixed mounting of slip iron sheet (67) has resistance (68), the terminal fixed mounting of resistance (68) has wire (57), the right side of elasticity rubber gasbag (66) is provided with elasticity push pedal (69), the right side welded mounting of elasticity push pedal (69) has fifth connecting rod (70), the end of fifth connecting rod (70) is provided with first supplementary magnetic block (71), the right side of first supplementary magnetic block (71) is provided with polylith arc (72), the top of arc (72) is provided with the teeth of a cogwheel, one side welded mounting of arc (72) has second supplementary magnetic block (73), the right side meshing of arc (72) is connected with quarter plectane (74), the both sides correspondence of quarter plectane (74) is provided with leads electromagnetic block (75), and a lead (57) is fixedly arranged below the electromagnetic conducting block (75).

8. The automatic water supply device for fire fighting of high-rise buildings according to claim 7, characterized in that: the fire-fighting emergency water supply device comprises a pressurizing channel (76) formed in a wall body (62), air inlets are uniformly formed in the wall body (62), and four longitudinal fixing blocks (86) are correspondingly arranged at the upper end and the lower end of each air inlet.

9. The automatic water supply device for fire fighting of high-rise buildings according to claim 8, characterized in that: an upper shell (88) is connected between the two longitudinal fixing blocks (86) above the air inlet in a sliding way, a fifth spring (89) is welded and installed at the top end of the upper shell (88), the tail end of the fifth spring (89) is fixedly installed inside the wall body (62), a plurality of upper molding blocks (91) are uniformly arranged in the upper shell (88), a stretching air film (85) is fixedly arranged below the upper molding blocks (91), the other end of the stretching air film (85) is fixedly provided with a lower type block (92), the lower shaped blocks (92) are magnetic, strings (93) are arranged among the lower shaped blocks (92), a lower shell (87) is connected between the two longitudinal fixing blocks (86) below the air inlet in a sliding way, the top end of the inner part of the lower shell (87) is provided with a plurality of limiting grooves (94), and a magnetic fixing block (95) is correspondingly arranged below the limiting groove (94).