CN115970216B - Fire control feedwater monitored control system - Google Patents

Abstract

The invention discloses a fire water supply monitoring system which comprises a fire water supply monitor, a fire hydrant pump partition control device, a spray fire pump partition control device, a pressure stabilizing water pump partition control device, a fire water tank partition control device, a fire pipe network partition control device, a patrol cabinet partition control device, a fire monitor partition control device and an end water test device partition control device. When the upper frame moves downwards, the upper frame drives the rotating frame at the top to rotate, the pressing frame is gradually far away from the outer frame in the rotating process of the rotating frame, the fireproof elastic membrane moves along with the pressing frame to be deformed wantonly, when an external part impacts on the fireproof elastic membrane, the elastic force of the fireproof elastic membrane can weaken the impact force of the part on the outer frame, and when the pressing frame is close to the outer frame due to the impact force of the part, the pressing frame makes the lower frame move downwards on the surface of the fixing rod due to the rotation of the rotating frame, the impact force of the part is further absorbed by the elastic force of the elastic plate, and the protection performance on the water tank is improved.

Description

Fire control feedwater monitored control system

Technical Field

The invention belongs to the technical field of fire water supply, and particularly relates to a fire water supply monitoring system.

Background

The fire-fighting water supply monitoring system is an important component of a fire-fighting safety facility, plays an important role in the fire-fighting rescue and evacuation escape processes when a fire disaster occurs, monitors all the zone control devices and fire-fighting equipment of the fire-fighting water supply monitoring system in real time in an intelligent control mode, and periodically performs automatic performance test, so that equipment in the system is kept in a good state, and the fire-fighting equipment can work normally when the fire disaster occurs.

When the water tank is used for supplying water for fire protection, the water tank is easy to be impacted and damaged by external components in the fire disaster occurrence process, and the normal use of the water tank is further affected.

Therefore, it is necessary to invent a fire feedwater monitoring system to solve the above problems.

Disclosure of Invention

In view of the above, the present invention provides a fire-fighting water supply monitoring system to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a fire control water supply monitored control system, includes fire control water monitor, fire hydrant pump partition control device, spray fire control pump partition control device, steady voltage water pump partition control device, fire control water tank partition control device, fire control pipe network partition control device, patrol cabinet partition control device, fire monitor partition control device, terminal water test device partition control device, fire control water monitor passes through CAN bus to fire hydrant pump partition control device, spray fire control pump partition control device, steady voltage water pump partition control device, fire control water tank partition control device, fire control pipe network partition control device, fire control water tank partition control device includes the frame, the inboard center department of frame is provided with the water tank, and the water tank top utilizes the riser to be connected with the communicating vessel, and the riser runs through the frame top surface, and the water tank utilizes the communicating vessel external shower nozzle at riser top, the inboard bottom of frame is provided with the clamping structure that prescribes a limit to the centre gripping water tank, the clamping structure includes a plurality of balladeur train, balladeur train slidable mounting is in the inboard bottom surface of frame, and the balladeur train outside end is provided with the dop, and the dop corresponds with the lateral strip of water tank bottom, the balladeur train utilization corresponds the buckle with the lateral strip.

Further, the inboard bottom of water tank is provided with the bottom plate, buffer structure is installed to the bottom plate bottom, and buffer structure is in water tank bottom, buffer structure includes a plurality of branches, after the branch top runs through the water tank bottom surface with bottom plate bottom surface fixed connection, branch bottom fixedly connected with clamp plate, the branch surface has cup jointed first spring, and the clamp plate utilizes first spring and water tank bottom surface fixed connection.

Further, a plurality of sliding grooves are formed in the bottom surface of the inner side of the outer frame, a plurality of sliding carriages are in one-to-one correspondence with the sliding grooves, limiting rods are fixedly arranged in the center of the inner side of the sliding grooves, the limiting rods penetrate through the sliding carriages, the sliding carriages are slidably mounted on the inner side of the sliding grooves by utilizing the limiting rods, inclined planes are formed in the tops of the inner ends of the sliding carriages, and tangential planes which are matched with the inclined planes in a corresponding mode are arranged on the inner side face of the pressing plate.

Further, the inclined plane is vertically arranged at the bottom of the tangent plane, the water tank drives the pressing plate to move downwards, the tangent plane is contacted with the inclined plane, the staggered cooperation of the tangent plane and the inclined plane enables the sliding frame to slide on the inner side of the sliding groove, and the inner side end of the sliding frame is fixedly connected with the inner side wall of the sliding groove by utilizing the rubber strip.

Further, the center department of frame trailing flank is provided with erects the groove, erect inslot portion and be provided with the slider, and water tank trailing flank and slider fixed connection, the water tank utilizes the slider to slide from top to bottom in erectting inslot side, erect inslot portion both sides and all be provided with the gliding clamping lever from top to bottom of cooperation slider, slider bottom utilizes second spring and erects tank bottom fixed connection, and the second spring cup joints in the clamping lever surface.

Further, a plurality of dead levers are arranged on two sides of the outer frame, the top and the bottom of the dead levers are respectively sleeved with an upper frame and a lower frame in a sliding manner, the bottom of the lower frame is fixedly connected with the inner bottom surface of the outer frame by a plurality of elastic plates, and a plurality of nuts which are in spiral fit with the dead levers are arranged on the top of the lower frame.

Further, go up the frame and correspond the setting with the water tank, and go up the medial surface and utilize connecting rod and water tank fixed connection, the water tank utilizes to go up the frame and slide from top to bottom in the dead lever surface, go up and be provided with the pressure frame between frame and the lower frame, and go up frame and lower frame and all utilize revolving frame and pressure frame to rotate and be connected.

Further, a fireproof elastic film is connected between the upper frame and the lower frame, the center of the fireproof elastic film is wrapped on the surface of the pressing frame, and the top and the bottom of the fireproof elastic film are respectively connected with the upper frame and the lower frame.

The invention has the technical effects and advantages that:

1. when the upper frame moves downwards, the upper frame drives the rotating frame at the top to rotate, the pressing frame is gradually far away from the outer frame in the rotating process of the rotating frame, the fireproof elastic membrane moves along with the pressing frame to be deformed wantonly, when an external part impacts on the fireproof elastic membrane, the elastic force of the fireproof elastic membrane can weaken the impact force of the part on the outer frame, and when the pressing frame is close to the outer frame due to the impact force of the part, the pressing frame makes the lower frame move downwards on the surface of the fixing rod due to the rotation of the rotating frame, the impact force of the part is further absorbed by the elastic force of the elastic plate, and the protection performance on the water tank is improved.

2. According to the invention, when the water tank moves downwards at the inner side of the outer frame, the water tank drives the pressing plate to synchronously move downwards by using the supporting rod until the tangent plane of the pressing plate contacts with the inclined plane of the sliding frame, the elastic force of the rubber strip limits the sliding frame, the pressure of the tangent plane and the inclined plane cannot enable the sliding frame to move at the moment, the impact force of the downward movement of the water tank is weakened by using the first spring until the water tank and the pressing plate cannot extrude the first spring, the water tank pushes the pressing plate to move downwards by using the first spring, the tangent plane and the inclined plane move in a dislocation manner, the sliding frame starts to extrude the rubber strip in the process of interlacing the tangent plane and the inclined plane, the sliding frame gradually moves towards the inner side end of the sliding groove until the water tank cannot move downwards, and the clamping head at the outer side end of the sliding frame is correspondingly buckled with the side strips at the side edges of the water tank at the moment, so that the stability of the inner side of the outer frame of the water tank is ensured, and the water tank is prevented from shaking wantonly in the water draining process.

3. When the water tank moves downwards on the inner side of the outer frame through the weight of the spray head, the pressing plate firstly contacts the bottom surface of the inner side of the outer frame, and when the water tank continues to move downwards, the pressing plate limits the bottom plate through the support rods under the limit of the outer frame, so that the bottom plate moves upwards on the inner side of the water tank relatively, the bottom plate moves upwards to push water in the water tank to move upwards, and the water pressure sprayed from the inner side of the connecting device connected with the spray head is improved; when the water tank moves downwards, the water tank is matched with the pressing plate to extrude the first spring, and the impact force of the water tank moving downwards on the inner side of the outer frame is reduced by utilizing the elastic force of the first spring, so that impact damage of the bottom surface of the water tank and the outer frame is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an overall block diagram of a fire feedwater monitoring system of an embodiment of the present invention;

FIG. 2 is a schematic view of the overall structure of a fire fighting water tank partition control device according to an embodiment of the present invention;

FIG. 3 is a schematic view of the rear side structure of the outer frame according to the embodiment of the present invention;

fig. 4 is a schematic view of the internal structure of the water tank according to the embodiment of the present invention;

in the figure: 1. a fire-fighting water tank partition control device; 2. an outer frame; 3. a water tank; 4. a standpipe; 5. a communicating vessel; 6. a carriage; 7. a chuck; 8. side bars; 9. a bottom plate; 10. a support rod; 11. a pressing plate; 12. a first spring; 13. a chute; 14. a limiting rod; 15. an inclined plane; 16. cutting into sections; 17. a vertical groove; 18. a slide block; 19. a clamping rod; 20. a second spring; 21. a fixed rod; 22. loading on a frame; 23. placing the frame; 24. an elastic plate; 25. a screw cap; 26. a connecting rod; 27. a pressing frame; 28. a rotating frame.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a fire-fighting water supply monitoring system, as shown in figures 1-2, which comprises a fire-fighting water supply monitor, a fire hydrant pump partition control device, a spray fire pump partition control device, a pressure stabilizing water pump partition control device, a fire-fighting water tank partition control device 1, a fire-fighting pipe network partition control device, a patrol cabinet partition control device, a fire-fighting gun partition control device and an end water testing device partition control device, wherein the fire-fighting water supply monitor is connected with the fire hydrant pump partition control device, the spray fire hydrant pump partition control device, the pressure stabilizing water pump partition control device, the fire-fighting water tank partition control device 1 and the fire-fighting pipe network partition control device through a CAN bus, the fire-fighting water tank partition control device 1 comprises an outer frame 2, a water tank 3 is arranged in the center of the inner side of the outer frame 2, a communicating vessel 5 is connected with the top of the water tank 3 through a vertical pipe 4, the water tank 3 is externally connected with a spray head through the communicating vessel 5 at the top of the outer frame 2 through the vertical pipe 4, the inner side bottom of the outer frame 2 is provided with a clamping structure for limiting the water tank 3, the clamping structure comprises a plurality of carriages 6, the carriages 6 are slidably arranged on the inner bottom of the 2, the carriages 6 are arranged at the inner sides of the bottom of the outer frame 6, the inner side 7 of the outer frame 6 is provided with ends corresponding to the clamping heads 7 and the side edges are matched with the side edges 8, which correspond to the side edges 8, and the side edges 8. When the fire-fighting water tank partition control device 1 works, the water tank 3 needs to be limited, the communicating vessel 5 is externally connected with a spray head, the weight of the spray head is actually arranged at the top of the water tank 3 through the communicating vessel 5, when the water tank 3 moves downwards at the inner side of the outer frame 2 due to the weight of the spray head, the water tank 3 pulls the vertical pipe 4 to move downwards, the communicating vessel 5 gradually approaches the top surface of the outer frame 2 along with the in-process of moving downwards of the vertical pipe 4 until the water tank 3 cannot move downwards, the communicating vessel 5 and the outer frame 2 reach the minimum distance, the water tank 3 utilizes the communicating vessel 5 at the top of the vertical pipe 4 to externally connect the spray head, the reaction force of the spray head is conveniently reduced, the reaction force of the spray head is applied to the surface of the vertical pipe 4 through the communicating vessel 5, the limitation of the outer frame 2 and the vertical pipe 4 is utilized, the reaction force of the spray head is avoided, the vertical pipe 4 is excessively bent in the spraying process of the spray head, and the pressure damage to the vertical pipe 4 is reduced. After the water tank 3 moves downwards at the inner side of the outer frame 2, the clamping structure is moved in the process of moving downwards the water tank 3, at the moment, the sliding frame 6 gradually approaches the side strips 8 at the side edges of the water tank 3 in the moving process, and the stability of the water tank 3 at the inner side of the outer frame 2 is improved by utilizing the clamping buckles of the clamping heads 7 and the side strips 8.

Wherein, fire-fighting water tank partition control device 1 monitors low-level fire-fighting water tank temperature, water level and water storage capacity in real time. Water temperature, water level and water storage capacity of the high-level fire-fighting water tank 3. The fire control pipe network pressure, the outdoor fire hydrant pressure, the water pump combiner pressure and the valve switch state, and when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire control water supply controller.

The fire control water supply controller receives fire alarm information and accurately broadcasts the fire alarm information to the hydrant pump partition control device, the spray fire pump partition control device, the pressure stabilizing water pump partition control device, the fire control water tank partition control device 1, the fire control pipe network partition control device and the like to control fire control equipment according to preset logic, action information is fed back to the fire control water supply monitor, and the fire control water supply monitor uploads the action information to the fire control linkage controller.

The fire hydrant pump partition control device monitors the main and standby power states, the manual and automatic states, the water pump motor current, the hydraulic alarm bell alarm, the water flow indication signal, the pressure switch signal, the fire water supply module signal, the fire hydrant button, the working state of the fire hydrant pump, the fire extinguishing pump fault detection state and the flow information of the fire hydrant pump in real time. And when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire water supply controller.

When signals such as a low-pressure switch arranged on a water outlet main pipe of the fire hydrant system, a flow switch or an alarm valve pressure switch arranged on a water outlet pipe of the high-level fire hydrant box are received as trigger signals, the fire hydrant pump is started. Providing sufficient power for fire extinguishment of the fire hydrant.

The regional control device of the spray fire pump monitors the main and standby power state, the manual and automatic state, the motor current of the spray pump, the hydraulic alarm signal, the water flow indication signal, the pressure switch signal, the fire water supply module, the working state of the spray pump, the fault state of the spray pump and the flow information of the fire extinguishing pump in real time. And when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire water supply controller. When the wet alarm valve pressure switch pump starting signal is received, the spray fire pump is started immediately. Providing sufficient power for fire-fighting spraying and extinguishing.

The pressure stabilizing pump partition control device monitors the main and standby power states, the manual and automatic states, the motor current of the pressure stabilizing pump, the working state of the pressure stabilizing pump and the working state of the air pressure tank in real time. And when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire water supply controller.

The inspection cabinet partition control device monitors the working state and fault information of the inspection cabinet in real time. And when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire water supply controller.

The fire monitor partition control device monitors the working state and fault information of the fire monitor in real time. And when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire water supply controller.

The partition control device of the terminal water testing device monitors the pressure information of the terminal water testing device and the action signal of the terminal water testing device in real time, and when abnormality is found, an alarm signal is sent out and the alarm information is uploaded to the fire water supply controller.

In fig. 2 and fig. 4, the bottom plate 9 is arranged at the bottom of the inner side of the water tank 3, a buffer structure is arranged at the bottom of the bottom plate 9 and is positioned at the bottom of the water tank 3, the buffer structure comprises a plurality of supporting rods 10, the top ends of the supporting rods 10 penetrate through the bottom surface of the water tank 3 and are fixedly connected with the bottom surface of the bottom plate 9, the bottom ends of the supporting rods 10 are fixedly connected with a pressing plate 11, the surface of the supporting rods 10 is sleeved with a first spring 12, and the pressing plate 11 is fixedly connected with the bottom surface of the water tank 3 by the aid of the first spring 12. When the water tank 3 moves downwards at the inner side of the outer frame 2 by the weight of the spray head, the pressing plate 11 firstly contacts the bottom surface of the inner side of the outer frame 2, and when the water tank 3 continues to move downwards, the pressing plate 11 limits the bottom plate 9 through the supporting rods 10 under the limitation of the outer frame 2, so that the bottom plate 9 moves upwards at the inner side of the water tank 3 relatively, the bottom plate 9 moves upwards to push water in the water tank 3 to move upwards, and the water pressure sprayed from the inner side of the spray head connected with the communicating vessel 5 is improved. When the water tank 3 moves downwards, the first spring 12 is extruded by being matched with the pressing plate 11, and the impact force of the water tank 3 moving downwards at the inner side of the outer frame 2 is reduced by utilizing the elastic force of the first spring 12, so that impact damage of the bottom surface of the water tank 3 and the outer frame 2 is avoided.

In fig. 2 and 4, the bottom surface of the inner side of the outer frame 2 is provided with a plurality of sliding grooves 13, a plurality of sliding carriages 6 are in one-to-one correspondence with the sliding grooves 13, a limiting rod 14 is fixedly arranged at the center of the inner side of the sliding grooves 13, the limiting rod 14 penetrates through the sliding carriage 6, the sliding carriage 6 is slidably mounted inside the sliding grooves 13 by using the limiting rod 14, the top of the inner side end of the sliding carriage 6 is provided with an inclined surface 15, and the inner side surface of the pressing plate 11 is provided with a tangential surface 16 which is correspondingly matched with the inclined surface 15. The inclined plane 15 is vertically arranged at the bottom of the tangent plane 16, the water tank 3 drives the pressing plate 11 to move downwards, the tangent plane 16 is in contact with the inclined plane 15, the intersecting cooperation of the tangent plane 16 and the inclined plane 15 enables the sliding frame 6 to slide on the inner side of the sliding groove 13, and the inner side end of the sliding frame 6 is fixedly connected with the inner side wall of the sliding groove 13 by utilizing a rubber strip. When the water tank 3 moves downwards at the inner side of the outer frame 2, the water tank 3 drives the pressing plate 11 to move downwards synchronously by utilizing the supporting rod 10 until the tangent plane 16 of the pressing plate 11 contacts the inclined plane 15 of the sliding frame 6, the pressure of the tangent plane 16 and the inclined plane 15 cannot enable the sliding frame 6 to move due to limitation of the elasticity of the rubber strip to the sliding frame 6, the impact force of the downward movement of the water tank 3 is weakened by utilizing the first spring 12 until the water tank 3 and the pressing plate 11 cannot extrude the first spring 12, the water tank 3 pushes the pressing plate 11 to move downwards by utilizing the first spring 12, at this time, the tangent plane 16 and the inclined plane 15 generate dislocation movement, the sliding frame 6 starts to extrude the rubber strip in the process of interlacing the tangent plane 16 and the inclined plane 15, the sliding frame 6 gradually moves towards the inner side end direction of the sliding groove 13, and until the water tank 3 cannot move downwards, at this time, the clamping head 7 at the outer side end of the sliding frame 6 corresponds to the side bar 8 of the water tank 3 is buckled by utilizing the clamping head 7 and the side bar 8, so that the stability of the inner side of the outer frame 2 of the water tank 3 is ensured, and the water tank 3 is prevented from shaking in a water draining process.

In fig. 3, a vertical groove 17 is formed in the center of the rear side of the outer frame 2, a sliding block 18 is arranged in the vertical groove 17, the rear side of the water tank 3 is fixedly connected with the sliding block 18, the water tank 3 slides up and down on the inner side of the vertical groove 17 by the sliding block 18, clamping rods 19 matched with the sliding block 18 to slide up and down are arranged on two sides of the inner side of the vertical groove 17, the bottom of the sliding block 18 is fixedly connected with the bottom surface of the vertical groove 17 by a second spring 20, and the second spring 20 is sleeved on the surface of the clamping rods 19. When the water tank 3 moves downwards at the inner side of the outer frame 2, the water tank 3 moves downwards on the surface of the clamping rod 19 of the vertical groove 17 by utilizing the sliding block 18, and the sliding block 18 extrudes the second spring 20 in the downward movement process, so that the water tank 3 is prevented from moving downwards at the inner side of the outer frame 2 too rapidly, the clamping rod 19 limits the sliding block 18, the water tank 3 can be prevented from shaking wantonly in the downward movement process of the inner side of the outer frame 2, and the stability of the water tank 3 moving upwards and downwards at the inner side of the outer frame 2 is ensured.

In fig. 2 and 3, a plurality of fixing rods 21 are disposed on two sides of the outer frame 2, an upper frame 22 and a lower frame 23 are respectively sleeved on the top and the bottom of the fixing rods 21 in a sliding manner, the bottom of the lower frame 23 is fixedly connected with the bottom of the inner side of the outer frame 2 by a plurality of elastic plates 24, and a plurality of nuts 25 in screw fit with the fixing rods 21 are disposed on the top of the lower frame 23. The screw effect of the nuts 25 and the fixing rods 21 and the elastic force of the elastic plates 24 are utilized to limit the position of the lower frame 23 on the surface of the fixing rods 21, and when the lower frame 23 moves on the surface of the fixing rods 21, the nuts 25 and the elastic plates 24 are matched, so that the lower frame 23 can be in a horizontal state under the limitation of the fixing rods 21.

In fig. 2 and 3, the upper frame 22 is disposed corresponding to the water tank 3, the inner side surface of the upper frame 22 is fixedly connected with the water tank 3 by a connecting rod 26, the water tank 3 slides up and down on the surface of the fixing rod 21 by the upper frame 22, a pressing frame 27 is disposed between the upper frame 22 and the lower frame 23, and the upper frame 22 and the lower frame 23 are both rotatably connected with the pressing frame 27 by a rotating frame 28. A fireproof elastic film is connected between the upper frame 22 and the lower frame 23, the center of the fireproof elastic film is wrapped on the surface of the pressing frame 27, and the top and the bottom of the fireproof elastic film are respectively connected with the upper frame 22 and the lower frame 23. When the water tank 3 moves downwards at the inner side of the outer frame 2, the water tank 3 drives the upper frames 22 to move downwards synchronously by using the connecting rods 26, the upper frames 22 at the two sides are in sliding fit with the plurality of fixing rods 21, the stability of the water tank 3 moving downwards at the inner side of the outer frame 2 is further improved, and the situation that the water tank 3 shifts in the downward moving process is avoided. When the upper frame 22 moves downwards, the upper frame 22 drives the rotating frame 28 at the top to rotate, the lower frame 23 is limited by the nuts 25 and the elastic plates 24, the pressing frame 27 is gradually far away from the outer frame 2 in the rotating process of the rotating frame 28, the fireproof elastic film moves along with the pressing frame 27 to be deformed wantonly, when an external part impacts on the fireproof elastic film, the elastic force of the fireproof elastic film can weaken the impact force of the part on the outer frame 2, and the impact force of the part makes the pressing frame 27 close to the outer frame 2, due to the limitation of the side strips 8 and the clamping heads 7 of the water tank 3, the impact force of the part is avoided to enable the water tank 3 to shake, the pressing frame 27 utilizes the rotation of the rotating frame 28 to enable the lower frame 23 to move downwards on the surface of the fixed rod 21, and the elastic force of the elastic plate 24 is utilized to further absorb the impact force of the part, so that the protection of the water tank 3 is improved.

The working principle of the invention is as follows:

referring to the drawings of fig. 1-4 of the specification, when the fire-fighting water tank partition control device 1 works, the water tank 3 needs to be limited, the communicating vessel 5 is externally connected with a spray head, the weight of the spray head is actually arranged at the top of the water tank 3 through the communicating vessel 5, when the water tank 3 moves downwards at the inner side of the outer frame 2, the water tank 3 pulls the vertical pipe 4 to move downwards, the communicating vessel 5 gradually approaches the top surface of the outer frame 2 in the process of moving downwards along with the vertical pipe 4 until the water tank 3 cannot move downwards, at the moment, the communicating vessel 5 and the outer frame 2 reach the minimum distance, the water tank 3 utilizes the communicating vessel 5 at the top of the vertical pipe 4 to be externally connected with the spray head, the reaction force of the spray head is conveniently reduced to be applied to the surface of the vertical pipe 4 through the communicating vessel 5 by reducing the distance between the communicating vessel 5 and the top surface of the outer frame 2, the limitation of the vertical pipe 4 is utilized, the reaction force of the spray head is avoided, so that the vertical pipe 4 is excessively bent in the process of spraying the spray head is avoided, and the pressure damage to the vertical pipe 4 is reduced.

When the water tank 3 moves downwards at the inner side of the outer frame 2, the water tank 3 drives the pressing plate 11 to move downwards synchronously by utilizing the supporting rod 10 until the tangent plane 16 of the pressing plate 11 contacts the inclined plane 15 of the sliding frame 6, the pressure of the tangent plane 16 and the inclined plane 15 cannot enable the sliding frame 6 to move due to limitation of the elasticity of the rubber strip to the sliding frame 6, the impact force of the downward movement of the water tank 3 is weakened by utilizing the first spring 12 until the water tank 3 and the pressing plate 11 cannot extrude the first spring 12, the water tank 3 pushes the pressing plate 11 to move downwards by utilizing the first spring 12, at this time, the tangent plane 16 and the inclined plane 15 generate dislocation movement, the sliding frame 6 starts to extrude the rubber strip in the process of interlacing the tangent plane 16 and the inclined plane 15, the sliding frame 6 gradually moves towards the inner side end direction of the sliding groove 13, and until the water tank 3 cannot move downwards, at this time, the clamping head 7 at the outer side end of the sliding frame 6 corresponds to the side bar 8 of the water tank 3 is buckled by utilizing the clamping head 7 and the side bar 8, so that the stability of the inner side of the outer frame 2 of the water tank 3 is ensured, and the water tank 3 is prevented from shaking in a water draining process.

When the water tank 3 moves downwards at the inner side of the outer frame 2, the water tank 3 drives the upper frames 22 to move downwards synchronously by utilizing the connecting rods 26, the upper frames 22 at the two sides are in sliding fit with the plurality of fixing rods 21, the stability of the water tank 3 moving downwards at the inner side of the outer frame 2 is further improved, and the situation that the water tank 3 shifts in the downward moving process is avoided. When the upper frame 22 moves downwards, the upper frame 22 drives the rotating frame 28 at the top to rotate, the lower frame 23 is limited by the nuts 25 and the elastic plates 24, the pressing frame 27 is gradually far away from the outer frame 2 in the rotating process of the rotating frame 28, the fireproof elastic film moves along with the pressing frame 27 to be deformed wantonly, when an external part impacts on the fireproof elastic film, the elastic force of the fireproof elastic film can weaken the impact force of the part on the outer frame 2, and the impact force of the part makes the pressing frame 27 close to the outer frame 2, due to the limitation of the side strips 8 and the clamping heads 7 of the water tank 3, the impact force of the part is avoided to enable the water tank 3 to shake, the pressing frame 27 utilizes the rotation of the rotating frame 28 to enable the lower frame 23 to move downwards on the surface of the fixed rod 21, and the elastic force of the elastic plate 24 is utilized to further absorb the impact force of the part, so that the protection of the water tank 3 is improved.

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. A fire feed water monitored control system, characterized in that: including fire control water supply monitor, fire hydrant pump subregion controlling means, spray fire control pump subregion controlling means, steady voltage water pump subregion controlling means, fire control box subregion controlling means (1), fire control pipe network subregion controlling means, inspection cabinet subregion controlling means, fire monitor subregion controlling means, terminal water test device subregion controlling means, fire control water supply monitor passes through the CAN bus to fire hydrant pump subregion controlling means, spray fire control pump subregion controlling means, steady voltage water pump subregion controlling means, fire control box subregion controlling means (1), fire control pipe network subregion controlling means, fire control box subregion controlling means (1) include frame (2), frame (2) inboard center department is provided with water tank (3), and water tank (3) top utilizes standpipe (4) to be connected with communicating vessel (5), and riser (4) run through frame (2) top surface, and water tank (3) utilize communicating vessel (5) external shower nozzle at standpipe (4) top, frame (2) inboard bottom is provided with the structure that limits centre gripping water tank (3), the centre gripping structure includes a plurality of balladeur train (6), balladeur train (6) slidable mounting is in frame (6) side (7) and corresponding side strip (7) are provided with in the side of balladeur train (7) and side (8), the sliding frame (6) is correspondingly buckled with the side bars (8) by using the clamping heads (7);

the water tank is characterized in that a bottom plate (9) is arranged at the bottom of the inner side of the water tank (3), a buffer structure is arranged at the bottom of the bottom plate (9), the buffer structure comprises a plurality of support rods (10), the top ends of the support rods (10) penetrate through the bottom surface of the water tank (3) and are fixedly connected with the bottom surface of the bottom plate (9), a pressing plate (11) is fixedly connected with the bottom end of the support rod (10), a first spring (12) is sleeved on the surface of the support rod (10), and the pressing plate (11) is fixedly connected with the bottom surface of the water tank (3) by the aid of the first spring (12);

the inner bottom surface of the outer frame (2) is provided with a plurality of sliding grooves (13), a plurality of sliding carriages (6) are in one-to-one correspondence with the sliding grooves (13), limiting rods (14) are fixedly arranged in the center of the inner side of the sliding grooves (13), the limiting rods (14) penetrate through the sliding carriages (6), the sliding carriages (6) are slidably mounted inside the sliding grooves (13) by utilizing the limiting rods (14), the top of the inner side end of each sliding carriage (6) is provided with an inclined surface (15), and the inner side surface of each pressing plate (11) is provided with a tangential surface (16) which is correspondingly matched with the inclined surface (15);

the inclined plane (15) is vertically arranged at the bottom of the tangent plane (16), the water tank (3) drives the pressing plate (11) to move downwards, the tangent plane (16) is in contact with the inclined plane (15), the intersecting cooperation of the tangent plane (16) and the inclined plane (15) enables the sliding frame (6) to slide on the inner side of the sliding groove (13), and the inner side end of the sliding frame (6) is fixedly connected with the inner side wall of the sliding groove (13) through the rubber strip.

2. The fire feedwater monitoring system of claim 1, wherein: the utility model discloses a water tank, including frame (2), water tank (3), slider (18) are provided with perpendicular groove (17) in frame (2) trailing flank center department, perpendicular groove (17) inside is provided with slider (18), and water tank (3) utilize slider (18) to slide from top to bottom in perpendicular groove (17) inboard, perpendicular groove (17) inside both sides all are provided with cooperation slider (18) gliding draw-in bar (19) from top to bottom, slider (18) bottom utilizes second spring (20) and perpendicular groove (17) bottom surface fixed connection, and second spring (20) cup joint in draw-in bar (19) surface.

3. The fire feedwater monitoring system of claim 1, wherein: the utility model discloses a frame, including frame (2), fixed rod (21), upper bracket (22) and lower bracket (23) have all been provided with a plurality of dead levers (21) in frame (2) both sides, fixed rod (21) top and bottom have slidingly been cup jointed respectively, lower bracket (23) bottom surface utilizes a plurality of elastic plates (24) and the inboard bottom surface fixed connection of frame (2), and lower bracket (23) top be provided with a plurality of screw caps (25) with fixed rod (21) screw-fitting.

4. A fire feedwater monitoring system according to claim 3, wherein: go up frame (22) and water tank (3) corresponding setting, and go up frame (22) medial surface and water tank (3) fixed connection, water tank (3) utilize to go up frame (22) and slide from top to bottom in dead lever (21) surface, go up and be provided with between frame (22) and lower frame (23) and press frame (27), and go up frame (22) and lower frame (23) and all utilize revolving rack (28) to rotate with frame (27) and be connected.

5. The fire feedwater monitoring system of claim 4, wherein: the fireproof elastic membrane is connected between the upper frame (22) and the lower frame (23), the center of the fireproof elastic membrane is wrapped on the surface of the pressing frame (27), and the top and the bottom of the fireproof elastic membrane are respectively connected with the upper frame (22) and the lower frame (23).