阅读说明：本技术 一种河流用防堵塞灌注装置 (River is with preventing blockking up perfusion device ) 是由 薛强 于 2021-05-25 设计创作，主要内容包括：本发明公开了一种河流用防堵塞灌注装置,包括防堵塞灌注装置,其特征在于：所述防堵塞灌注装置包括第一泵机,所述第一泵机左右两端分别套接有进水管和出水管,所述出水管的另一端套接有水量控制机构,所述水量控制机构的一侧通过管路连接有水箱,所述水量控制机构包括挤压筒,所述挤压筒的内部滑动连接有推液板,所述推液板的下方设置有推动囊,所述推动囊的内部设置有酒精,所述推液板的上方设置有氢气,所述挤压筒一侧设置有若干水桶,若干所述水桶的内部底端均设置有V型排水口,本发明,具有根据火灾情况抽取相对应河水量并且针对起火位置精确灌注灭火的特点。(The invention discloses an anti-blocking filling device for a river, which comprises an anti-blocking filling device and is characterized in that: the anti-blocking filling device comprises a first pump, a water inlet pipe and a water outlet pipe are respectively sleeved at the left end and the right end of the first pump, a water quantity control mechanism is sleeved at the other end of the water outlet pipe, one side of the water quantity control mechanism is connected with a water tank through a pipeline, the water quantity control mechanism comprises an extrusion barrel, a liquid pushing plate is slidably connected inside the extrusion barrel, a pushing bag is arranged below the liquid pushing plate, alcohol is arranged inside the pushing bag, hydrogen is arranged above the liquid pushing plate, a plurality of water buckets are arranged on one side of the extrusion barrel, and V-shaped water outlets are formed in the bottom ends of the water buckets.)

1. The utility model provides a river is with preventing blockking up perfusion device, includes and prevents blockking up perfusion device, its characterized in that: the anti-blocking filling device comprises a first pump (8), a water inlet pipe and a water outlet pipe are respectively sleeved at the left end and the right end of the first pump (8), a water quantity control mechanism is sleeved at the other end of the water outlet pipe, and a water tank (10) is connected to one side of the water quantity control mechanism through a pipeline.

2. The anti-clogging perfusion apparatus for rivers according to claim 1, wherein: the water quantity control mechanism comprises an extrusion barrel (1), wherein a liquid pushing plate (2) is connected to the inside of the extrusion barrel (1) in a sliding mode, a pushing bag (3) is arranged below the liquid pushing plate (2), alcohol is arranged inside the pushing bag (3), hydrogen is arranged above the liquid pushing plate (2), a plurality of water buckets (4) are arranged on one side of the extrusion barrel (1), V-shaped water outlets are formed in the bottom ends of the water buckets (4), a blocking bag (6) is arranged above the V-shaped water outlets, a floating ball (5) is arranged inside the blocking bag (6), the top end of the extrusion barrel (1) is connected with the floating ball (5) through a pipeline, mercury liquid is arranged on the outer side, located on the outer side of the floating ball (5), of each water bucket (4) is connected to the top end of the adjacent water bucket (4) through a pipeline, the drain pipe has been cup jointed on the right side of cask (4), sliding connection has interception board (7) on the drain pipe, each floater (5) all are connected with interception board (7) pole of last cask (4) one side, and the end is the bottom of cask (4) is passed through the bottom of tube coupling to water tank (10).

3. The anti-clogging perfusion apparatus for rivers according to claim 2, wherein: the bottom of water tank (10) is provided with motor (9), the drive shaft has been cup jointed on the top of motor (9), the drive shaft runs through the bottom of water tank (10), the one end that the drive shaft is located water tank (10) inside is provided with aqueduct (20), the top of aqueduct (20) evenly is provided with a plurality of delivery ports, the both ends of aqueduct (20) all are connected with foaming ball (19) through the rope, the inside of foaming ball (19) is provided with chemical foaming agent, the outside of foaming ball (19) evenly is provided with a plurality of valves.

4. The anti-clogging perfusion apparatus for rivers according to claim 3, wherein: supreme a plurality of pipe chute (13) of evenly being provided with are followed to the inside both sides of water tank (10) from down, the outside both sides of water tank (10) evenly are provided with a plurality of reacting chambers from below on, are provided with quick lime in a plurality of reacting chambers, and are a plurality of reacting chamber and a plurality of pipe chute (13) one-to-one, the outside both sides of water tank (10) are provided with gasbag (12) respectively, and are a plurality of the reacting chamber all is connected with gasbag (12) through the pipeline, the equal sliding connection in outside both ends of water tank (10) has lift board (11), the top of lifting board (11) is provided with C type pole, C type pole runs through water tank (10), the one end that C type pole is located water tank (10) inside is provided with toper mouth (18) that draws water.

5. The anti-clogging perfusion apparatus for rivers according to claim 4, wherein: suction tube (15) have been cup jointed on the top of toper mouth (18) that draws water, the inside top both sides of water tank (10) all are provided with the supporting rod, two be provided with the centre gripping subassembly between the supporting rod, suction tube (15) run through the centre gripping subassembly, toper is drawn water mouth (18) and is divided into inside and outside two parts, inside and outside two parts the toper is drawn water and is provided with first telescopic link between mouth (18), the outward toper is drawn water mouth (18) and is the annular, the outward toper is drawn water mouth (18) and is divided into a plurality of combination pieces, the outward the inside that toper was drawn water mouth (18) is provided with annular telescopic link, annular telescopic link is multisection concatenation formula, each the below of combination piece all is provided with balancing weight (181).

6. The anti-clogging perfusion apparatus for rivers according to claim 5, wherein: the clamping assembly comprises a clamping ring (14), a plurality of clamping channels are uniformly arranged in the clamping ring (14), a second telescopic rod (141) is arranged in each of the clamping channels, one end of the second telescopic rod (141) is fixed to the clamping ring (14), the other end of the second telescopic rod (141) penetrates through the clamping ring (14) and is located on the inner side of the clamping ring (14), a clamping block is arranged at one end, located on the inner side of the clamping ring (14), of the second telescopic rod (141), a spring (143) is arranged on the outer side of the second telescopic rod (141), one end of the spring (143) is fixed to each clamping channel, the other end of the spring (143) is fixed to the second telescopic rod (141), opening and closing valves are arranged on two sides, located on the clamping channels, of the inner portion of the clamping ring (14), one end of each opening and closing valve is connected with a second telescopic rod rope, and an exhaust port is arranged between every two opening and closing valves, the exhaust port is connected with the opening and closing valve through a pipeline, the clamping ring (14) is hollow, and hydrogen is arranged inside the clamping ring (14).

7. The anti-clogging perfusion apparatus for rivers according to claim 6, wherein: be provided with second pump machine (17) on suction tube (15), there is fire extinguishing box (21) top of second pump machine (17) through the tube coupling, fire extinguishing box (21) are scalable, the inside of fire extinguishing box (21) is provided with a plurality of bags (22) of putting out a fire, the leftmost end the left end of bag (22) of putting out a fire passes through the pipeline and is connected with second pump machine (17), each all through the tube coupling between bag (22) of putting out a fire, each the pipeline quantity of connecting between bag (22) of putting out a fire increases from a left side to the right side in proper order, and is a plurality of the toper mouth of putting out a fire has all been cup jointed to the bottom of bag of putting out a fire (22), the inside of toper mouth of putting out a fire is provided with accuse water subassembly.

8. The anti-clogging perfusion apparatus for rivers according to claim 7, wherein: the utility model discloses a fire extinguishing case, including the accuse water subassembly, the inside of accuse volume shell (23) is provided with heart type accuse water board and is provided with regulation and control bag (26), the bottom of heart type accuse water board is flexible, the bottom both sides of accuse volume shell (23) are provided with the water board respectively, the top of accuse volume shell (23) has cup jointed steel pipe (25), the central authorities and the fire extinguishing chamber (21) bearing of steel pipe (25) are connected, the both sides top of steel pipe (25) all is provided with the baffle, all be provided with temperature sensing bag (24) between baffle and steel pipe (25), the top of steel pipe (25) is passed through the flexible pipe and is connected rather than fire extinguishing bag (22) that the upper end corresponds.

9. The anti-clogging perfusion apparatus for rivers according to claim 8, wherein: the conical fire extinguishing port is made of titanium alloy.

10. The anti-clogging perfusion apparatus for a river according to claim 9, wherein: the temperature sensing bag (24) is made of high-temperature resistant materials.

Technical Field

The invention relates to the technical field of pouring, in particular to an anti-blocking pouring device for a river.

Background

Forest fire refers to the action of forest fire which loses artificial control, freely spreads and expands in forest lands and brings certain harm and loss to forests, forest ecosystems and human beings. A large number of pine trees are planted in the forest in Australia, the pine trees are easy to generate nature under the ring with high outside temperature to cause forest fire, and the forest fire is a natural disaster with strong burst, great destructiveness and difficult treatment and rescue. The method is to know the burning rule of the forest fire, establish a strict emergency mechanism and a powerful command system, organize a trained fire fighting team, and apply an effective and scientific method and advanced fire fighting equipment to fight in time, so as to reduce the fire loss to the maximum extent.

The existing filling device can not extract river water in response to different fire conditions, the extraction amount is rated, the fire cannot be extinguished timely or water resources are wasted, and the practicability is poor; meanwhile, the existing filling device cannot perform targeted filling and fire extinguishing on a fire position. Therefore, it is necessary to design an anti-clogging pouring device for rivers, which can extract the corresponding amount of river water according to the fire situation and pour out the fire precisely for the fire.

Disclosure of Invention

The invention aims to provide an anti-blocking perfusion device for a river, 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 river is with preventing blockking up perfusion device, includes and prevents blockking up perfusion device, its characterized in that: the anti-blocking filling device comprises a first pump, a water inlet pipe and a water outlet pipe are respectively sleeved at the left end and the right end of the first pump, a water quantity control mechanism is sleeved at the other end of the water outlet pipe, and a water tank is connected to one side of the water quantity control mechanism through a pipeline.

According to the technical scheme, the water quantity control mechanism comprises an extrusion barrel, a liquid pushing plate is connected to the interior of the extrusion barrel in a sliding mode, a pushing bag is arranged below the liquid pushing plate, alcohol is arranged inside the pushing bag, hydrogen is arranged above the liquid pushing plate, a plurality of water buckets are arranged on one side of the extrusion barrel, V-shaped water outlets are formed in the bottom ends of the inner portions of the water buckets, a blocking bag is arranged above the V-shaped water outlets, a floating ball is arranged inside the blocking bag, the top end of the extrusion barrel is connected with the floating ball through a pipeline, mercury liquid is arranged on the outer side of the floating ball inside the blocking bag, the bottom end of each water bucket is connected to the top end of an adjacent water bucket through a pipeline, a water drainage pipe is sleeved on the right side of the water bucket, a blocking plate is connected to the water drainage pipe in a sliding mode, and each floating ball is connected with a blocking plate rod on one side of the previous water bucket, the bottom end of the water bucket at the tail end is connected to the bottom end of the water tank through a pipeline.

According to the technical scheme, the bottom of water tank is provided with the motor, the drive shaft has been cup jointed on the top of motor, the drive shaft runs through the bottom of water tank, the one end that the drive shaft is located the inside of water tank is provided with the aqueduct, the top of aqueduct evenly is provided with a plurality of delivery ports, the both ends of aqueduct all are connected with the foaming ball through the rope, the inside of foaming ball is provided with chemical foaming agent, the outside of foaming ball evenly is provided with a plurality of valves.

According to the technical scheme, supreme a plurality of pipe chute of evenly being provided with is followed to the inside both sides of water tank, the outside both sides of water tank evenly are provided with a plurality of reaction chambers from the top down, are provided with quick lime in a plurality of reaction chambers, and are a plurality of the reaction chamber is with a plurality of pipe chute one-to-one, the outside both sides of water tank are provided with the gasbag respectively, and are a plurality of the reaction chamber all is connected with the gasbag through the pipeline, the equal sliding connection in outside both ends of water tank has the board of lifting, the top of lifting the board is provided with C type pole, C type pole runs through the water tank, the one end that C type pole is located the water tank inside is provided with the toper mouth that draws water.

According to the technical scheme, the suction tube has been cup jointed on the top that the mouth was drawn water to the toper, the inside top both sides of water tank all are provided with the supporting rod, two be provided with the centre gripping subassembly between the supporting rod, the suction tube runs through the centre gripping subassembly, the toper is drawn water the mouth and is divided into inside and outside two parts, inside and outside two parts the toper is drawn water and is provided with first telescopic link between the mouth, the outward the toper is drawn water the mouth and is annular, the outward the toper is drawn water the mouth and is divided into a plurality of combined blocks, the outward the inside that the toper was drawn water the mouth is provided with annular telescopic rod, annular telescopic rod is multisection concatenation formula, each the below of combined block all is provided with the balancing weight.

According to the technical scheme, the clamping assembly comprises a clamping ring, a plurality of clamping channels are uniformly arranged inside the clamping ring, a second telescopic rod is arranged inside each clamping channel, one end of the second telescopic rod is fixed with the clamping ring, the other end of the second telescopic rod penetrates through the clamping ring and is positioned on the inner side of the clamping ring, a clamping block is arranged at one end of the second telescopic rod, which is positioned on the inner side of the clamping ring, a spring is arranged on the outer side of the second telescopic rod, one end of the spring is fixed with the clamping channel, the other end of the spring is fixed with the second telescopic rod, opening and closing valves are arranged on two sides of each clamping channel inside the clamping ring, one end of each opening and closing valve is connected with a second telescopic rod rope, an exhaust port is arranged between every two opening and closing valves, the exhaust port is connected with the opening and closing valves through a pipeline, and the clamping ring is hollow, the inside of grip ring is provided with hydrogen.

According to the technical scheme, be provided with the second pump machine on the suction tube, there is the case of putting out a fire the top of second pump machine through the tube coupling, it is scalable to put out a fire the case, the inside of case of putting out a fire is provided with a plurality of bags of putting out a fire, and the leftmost end the left end of bag of putting out a fire is passed through the pipeline and is connected with the second pump machine, each all through the tube coupling between the bag of putting out a fire, each the pipeline quantity of connecting between the bag of putting out a fire increases from a left side to the right side in proper order, and is a plurality of the toper mouth of putting out a fire has all been cup jointed to the bottom of bag of putting out a fire, the inside of toper mouth of putting out a fire is provided with accuse water subassembly.

According to the technical scheme, the water control assembly comprises a water control shell, a control bag is arranged inside a core type water control plate arranged inside the water control shell, the bottom end of the core type water control plate is flexible, water plates are arranged on two sides of the bottom end of the water control shell respectively, a steel pipe is sleeved on the top end of the water control shell, the center of the steel pipe is connected with a fire extinguishing box bearing, baffles are arranged above two sides of the steel pipe, a temperature sensing bag is arranged between each baffle and the steel pipe, and the top end of the steel pipe is connected with the corresponding fire extinguishing bag at the upper end of the steel pipe through a flexible pipe.

According to the technical scheme, the conical fire extinguishing port is made of titanium alloy.

According to the technical scheme, the temperature sensing bag is made of high-temperature-resistant materials.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the water quantity control mechanism is arranged, the mechanism can extract river water from a river to fill the forest when the external temperature rises, so that a fire disaster caused by overhigh forest temperature is avoided, or the fire is timely extinguished when the fire disaster occurs, and the corresponding amount of river water is extracted according to the temperature rise condition.

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 overall elevational cross-sectional structural view of the present invention;

FIG. 2 is a schematic view of the tapered pumping port of the present invention;

FIG. 3 is a top cross-sectional structural schematic view of the clamping assembly of the present invention;

FIG. 4 is a schematic structural view in elevation and section of the water control assembly of the present invention;

in the figure: 1. an extrusion cylinder; 2. a liquid pushing plate; 3. pushing the capsule; 4. a water bucket; 5. a floating ball; 6. blocking the balloon; 7. a interception plate; 8. a first pump; 9. a motor; 10. a water tank; 11. lifting the plate; 12. an air bag; 13. an inclined tube; 14. a clamp ring; 141. a second telescopic rod; 143. a spring; 15. a suction tube; 17. a second pump; 18. a conical water pumping port; 181. a balancing weight; 19. foaming balls; 20. a water conduit; 21. a fire extinguishing box; 22. a fire extinguishing bag; 23. a quantity control shell; 24. a temperature sensing bladder; 25. a steel pipe; 26. a regulatory capsule.

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. 1-4, the present invention provides the following technical solutions: the utility model provides a river is with preventing blockking up perfusion device, includes and prevents blockking up perfusion device, its characterized in that: the anti-blocking filling device comprises a first pump 8, a water inlet pipe and a water outlet pipe are respectively sleeved at the left end and the right end of the first pump 8, a water quantity control mechanism is sleeved at the other end of the water outlet pipe, and one side of the water quantity control mechanism is connected with a water tank 10 through a pipeline; the water quantity control mechanism can extract river water from a river to fill the forest when the external temperature rises, so that a fire disaster caused by the fact that the temperature of the forest is too high is avoided, or the fire disaster is timely extinguished when the fire disaster occurs, and the river water with the corresponding quantity is extracted according to the temperature rising condition.

The water quantity control mechanism comprises an extrusion barrel 1, a liquid pushing plate 2 is connected to the interior of the extrusion barrel 1 in a sliding mode, a pushing bag 3 is arranged below the liquid pushing plate 2, alcohol is arranged inside the pushing bag 3, hydrogen is arranged above the liquid pushing plate 2, a plurality of water buckets 4 are arranged on one side of the extrusion barrel 1, V-shaped water outlets are formed in the bottom ends of the interior of the water buckets 4, a blocking bag 6 is arranged above the V-shaped water outlets, a floating ball 5 is arranged inside the blocking bag 6, the top end of the extrusion barrel 1 is connected with the floating ball 5 through a pipeline, mercury liquid is arranged on the outer side, located on the floating ball 5, of the blocking bag 6, the bottom end of each water bucket 4 is connected to the top end of the adjacent water bucket 4 through a pipeline, a drain pipe is sleeved on the right side of each water bucket 4, a blocking plate 7 is connected to the drain pipe in a sliding mode, each floating ball 5 is connected with the blocking plate 7 on one side of the previous water bucket 4, and the bottom end of the water bucket 4 is connected to the bottom of a water tank 10 through a pipeline; the device is arranged at the river edge to start a first pump, as shown in figure 1, the first pump pumps water in the river into a first water barrel through a pipeline, water flow enters a water pumping box through a pipeline at the right side of the first water barrel, if the temperature of the outside rises in dry and hot summer, alcohol in a pushing bag is heated and gasified into gas, the size of the pushing bag is increased to push a liquid pushing plate to slide and move upwards in the squeezing process, air above the liquid pushing plate in a squeezing barrel is pushed into a floating ball in the first water barrel through the pipeline, the blocking bag in the first water barrel is filled with river water at the moment, the floating ball floats upwards to the top end in the blocking bag along with the increase of air filled in the floating ball, so that the blocking bag does not block a V-shaped water outlet below the blocking bag, the water in the first water barrel originally passes through the V-shaped water outlet and enters the next water barrel through the pipeline, and if the outside temperature continuously rises, more air is squeezed out of the squeezing barrel, after the floating ball in the first water barrel is filled with air and overflows, redundant air rushes into the next floating ball to repeat the steps, simultaneously along with the upward movement of the floating ball in the second water barrel, the interception plate on the right side of the first water barrel is lifted, the pipeline on the right side of the first water barrel is intercepted and is not circulated any more, the water in the first water barrel only can be filled into the pipeline on the right side of the second water barrel together with the water in the second water barrel to supply water to the water tank, and the superposition finally realizes that a plurality of water barrels are connected in series to fill the water tank together, the step realizes that if the external temperature rise degree is small at the moment, a small amount of water barrels supply water to the water tank simultaneously, so as to ensure that the water in the water tank is enough to fill the forest and avoid water resource waste, if the external temperature rise is more at the moment, the forest is very easy to have fire, and more water tanks are supplied to the water tank at the moment, guarantee the water in the water tank and satisfy the needs that fill to the forest that the temperature rose or catch fire, avoid leading to unable cooling to put out a fire because of the volume of pouring is not enough, along with ambient temperature's increase, constantly increase the cask for the water tank water supply, satisfy the water yield needs in the water tank through constantly increasing the cask quantity in the series connection admission line.

A motor 9 is arranged at the bottom end of the water tank 10, a driving shaft is sleeved at the top end of the motor 9 and penetrates through the bottom end of the water tank 10, a water guide pipe 20 is arranged at one end of the driving shaft, which is positioned inside the water tank 10, a plurality of water outlets are uniformly arranged above the water guide pipe 20, two ends of the water guide pipe 20 are connected with a foaming ball 19 through ropes, a chemical foaming agent is arranged inside the foaming ball 19, and a plurality of valves are uniformly arranged outside the foaming ball 19; the steps can be known, the water level in the water tank continuously increases along with the rise of the external temperature, at the moment, the motor is started, the driving shaft rotates to drive the water guide pipe and the plurality of water outlets above the water guide pipe to rotate, the foaming balls at two ends of the water guide pipe rotate in the water along with the water guide pipe, the resistance received by the foaming balls during rotation continuously increases along with the continuous increase of the water level in the water tank, the valve at the outer side of the foaming balls is opened under pressure, the chemical foaming agent in the foaming balls is extruded out and mixed with the water, the foam continuously generates along with the stirring of the water flow and floats upwards to the center of the water surface, the step realizes linkage with the steps, if the external temperature rises less at the moment, the possibility of spontaneous combustion and ignition of the forest oil pine trees is low, at the moment, a small amount of the chemical foaming agent is extruded and mixed with the water to generate the foam, if the external temperature rises greatly at the moment, the possibility of natural ignition of the forest oil pine is high, at this moment, a large amount of chemical foaming agents are extruded to be mixed with water to generate foam, foam water can be used for achieving better fire extinguishing, meanwhile, the foam generated by the foaming agents cannot harm the plant environment, meanwhile, after the foaming agents in the foaming balls are extruded, the foaming balls are small, the resistance to the foaming balls is small, the resistance to the water guide pipe which is rotating at the moment is reduced, the rotating speed is high, the extruded foaming agents and the water are fully stirred, the stirring degree is changed according to the extruded foaming agents in the foaming balls, if the extruded foaming agents are more, the rotating speed of the water guide pipe is accelerated to enable the water and the foaming agents to be fully stirred to generate foam water so as to be convenient for subsequent fire extinguishing, if the extruded foaming agents are less, the rotating speed of the water guide pipe is increased less, excessive stirring and scattering of the foaming agents are avoided, the generated foam is thinner, and the fire extinguishing efficiency is difficult to form foam water to reduce.

The water tank comprises a water tank 10, wherein a plurality of inclined pipes 13 are uniformly arranged on two inner sides of the water tank 10 from bottom to top, a plurality of reaction chambers are uniformly arranged on two outer sides of the water tank 10 from bottom to top, quicklime is arranged in the reaction chambers, the reaction chambers correspond to the inclined pipes 13 one by one, air bags 12 are respectively arranged on two outer sides of the water tank 10, the reaction chambers are connected with the air bags 12 through pipelines, lifting plates 11 are slidably connected to two outer ends of the water tank 10, a C-shaped rod is arranged at the top ends of the lifting plates 11 and penetrates through the water tank 10, and a conical water pumping port 18 is formed in one end, located inside the water tank 10, of the C-shaped rod; according to the steps, if the temperature rise degree of the external temperature is small, the water level in the water tank rises slightly, the water level overflows a small amount of inclined pipes, the water passes through the inclined pipes and enters the reaction chamber, the water reacts with quicklime in the reaction chamber to generate a large amount of water vapor, the water vapor passes through a pipeline and enters the air bag to inflate the air bag, the air bag pushes the lifting plate above the air bag to slide and move upwards on two sides of the water tank after being expanded, the lifting plate moves upwards to drive the C-shaped rod to move, and the conical water pumping port fixed at one end of the C-shaped rod in the water tank is driven to move upwards, the step realizes the control of the rising degree of the water level, if the water level rises more at the moment, the air bag expands greatly to drive the conical water pumping port to move upwards for a larger distance, if the water level rises more at the moment, the air bag expands less to drive the conical water pumping port to move upwards for a smaller distance, so as to ensure that the conical water pumping port rises together with the water level at the upper end all the time, the mixture of foam and water on the upper layer of the water level is ensured to be extracted by the conical water pumping port, the phenomenon that most of the conical water pumping port is moved upwards slightly to extract river water is avoided, the efficiency of temperature reduction and fire extinguishment is low, most of the conical water pumping port is prevented from being moved upwards to extract foam due to too much distance, fire extinguishment cannot be realized, meanwhile, the expansion degree of the air bag is in direct proportion to the outside air temperature, if the outside air temperature is higher due to forest fire, the expansion of the air bag is larger, the animals in the forest are easy to impact the water tank when being driven by the forest fire to rush towards rivers, the air bag with larger expansion degree is used for protecting the water tank in real time, if the temperature rise of the outside air is smaller, the gasbag expands the degree less, and the animal that is driven out because of high temperature in the forest is less, utilizes outside the gasbag that is expanded alleviateed the striking of animal to the water tank, avoids the too much influence device heat dissipation of gasbag expansion to lead to the device because of being heated too much and damage.

The top end of the conical water pumping port 18 is sleeved with a suction pipe 15, clamping rods are arranged on two sides above the inside of the water tank 10, a clamping assembly is arranged between the two clamping rods, the suction pipe 15 penetrates through the clamping assembly, the conical water pumping port 18 is divided into an inner part and an outer part, a first telescopic rod is arranged between the inner part and the outer part of the conical water pumping port 18, the outer part of the conical water pumping port 18 is annular, the outer part of the conical water pumping port 18 is divided into a plurality of combined blocks, an annular telescopic rod is arranged inside the outer part of the conical water pumping port 18 and is spliced in a multi-section mode, and a balancing weight 181 is arranged below each combined block; the steps can be known, the position of the conical water pumping port rises along with the rise of the water level, the outside temperature is proved to be higher, at the moment, the water flow flowing out of a plurality of water outlets on the water guide pipe increases, the size of the water outlets is unchanged, the flow velocity of the water flow sprayed from the water outlets increases, after the rotating speed of the water guide pipe is increased, the water flow column sprayed from the water outlets is arc-shaped and is difficult to directly spray into the conical water pumping port, at the moment, the conical water pumping port moves upwards, the balancing weight block pulls the corresponding combination block downwards under the influence of gravity, the inner conical water pumping port and the outer conical water pumping port are separated from each other, the first telescopic rod and the annular telescopic rod are stretched, so that the conical water pumping port is expanded, an arc-shaped water column which is formed due to the increase of the rotating speed can be better contained, the water column is covered for pumping, and the linkage with the step is realized along with the increase of the water level, the water column of spun in the delivery port receives inertia to increase four scattered serious, satisfies four scattered serious water columns through the size of expansion toper mouth that draws water, covers the suction to it, guarantees to draw the mixed water in the water tank smoothly and fills the cooling and put out a fire to the external world.

The clamping assembly comprises a clamping ring 14, a plurality of clamping channels are uniformly arranged inside the clamping ring 14, second telescopic rods 141 are arranged inside the clamping channels, one end of each second telescopic rod 141 is fixed to the clamping ring 14, the other end of each second telescopic rod 141 penetrates through the clamping ring 14 and is located on the inner side of the clamping ring 14, a clamping block is arranged at one end, located on the inner side of the clamping ring 14, of each second telescopic rod 141, a spring 143 is arranged on the outer side of each second telescopic rod 141, one end of each spring 143 is fixed to each clamping channel, the other end of each spring 143 is fixed to the corresponding second telescopic rod 141, opening and closing valves are arranged on two sides, located on the clamping channels, inside the clamping ring 14, one end of each opening and closing valve is connected with a second telescopic rod rope, an exhaust port is arranged between every two opening and closing valves, the exhaust port is connected with the opening and closing valves through a pipeline, the clamping ring 14 is hollow, and hydrogen is arranged inside the clamping ring 14; according to the steps, when water flow passes through the conical water pumping opening to be transmitted in the suction pipe, due to the fact that the water amount is different, impact with different sizes can be generated on the suction pipe in the circulating process, the suction pipe is caused to shake in the water tank, when the suction pipe shakes, the clamping block at one end of the second telescopic rod outside the suction pipe is impacted, the clamping block is pushed, the second telescopic rod is stressed to contract, the spring is compressed, the second telescopic rod drives the opening and closing valve connected with the second telescopic rod to be opened in the contraction process, hydrogen in the clamping ring penetrates through the exhaust port and enters the clamping channel through the pipeline, the clamping block is impacted to slide in the clamping channel at the moment, the hydrogen flowing into the clamping channel is compressed, when the hydrogen is compressed to a certain degree, explosion is generated, the clamping block is reversely pushed out of the clamping channel by the explosive thrust to impact with the suction pipe, and the impact with the shaking force of the suction pipe is counteracted, this step has realized that when leading to its production to rock by the rivers circulation in the suction tube, the second telescopic link of grip ring and grip block exert and shake the corresponding thrust of power, the suction tube rocks behind certain department on the striking grip ring, and the grip block of this department produces the impact to the suction tube of this department and forces its to reset and no longer rock, realizes rocking of the processing suction tube of pertinence, guarantees the temperature of rivers circulation, has also avoided the suction tube to lead to the fracture because of rocking to influence the device operation.

The suction pipe 15 is provided with a second pump 17, the upper part of the second pump 17 is connected with a fire extinguishing box 21 through a pipeline, the fire extinguishing box 21 is telescopic, a plurality of fire extinguishing bags 22 are arranged inside the fire extinguishing box 21, the left end of the fire extinguishing bag 22 at the leftmost end is connected with the second pump 17 through a pipeline, each fire extinguishing bag 22 is connected with each other through a pipeline, the number of the pipelines connected between each fire extinguishing bag 22 is sequentially increased from left to right, the bottom ends of the fire extinguishing bags 22 are sleeved with conical fire extinguishing ports, and water control assemblies are arranged inside the conical fire extinguishing ports; the steps can be known, the pump machine is started, the foam water in the water tank is pumped and guided into the fire extinguishing bags in the fire extinguishing box through the suction pipes, after the foam water is filled in the fire extinguishing bags, the fire extinguishing bags expand to drive the telescopic box to stretch to the side length, as the pipeline connected between every two fire extinguishing bags is sequentially increased, the quantity of the foam water filled in the first fire extinguishing bag is minimum, the quantity of the foam water filled in the fire extinguishing bags far away from the device is more, and the expansion degree of each fire extinguishing bag is sequentially increased, the step realizes that when forest fire occurs, as the device is close to a river, the moisture near the device is larger, a small quantity of the foam water filled in the fire extinguishing bags close to the device meets fire extinguishing requirements, and the air humidity far away from the river is lower, the foam water filled in the fire extinguishing bags far away from the device is increased to ensure the fire extinguishing requirements, and simultaneously, the quantity of the water filled in the fire extinguishing bags is increased, the expansion of fire extinguishing bag increases, drives the toper fire extinguishing mouthful displacement distance that corresponds with it and constantly increases, and the distance between per two toper fire extinguishing mouths increases, and is corresponding with the water yield of each fire extinguishing bag, avoids the scope of two adjacent toper fire extinguishing mouthful sprinkles to overlap to some extent and leads to extravagant foam water, and the coverage of the improvement foam water of maximize and the efficiency of putting out a fire is practiced thrift foam water again.

The water control assembly comprises a water control shell 23, a core-type water control plate is arranged in the water control shell 23, a control bag 26 is arranged in the core-type water control plate, the bottom end of the core-type water control plate is flexible, water plates are respectively arranged on two sides of the bottom end of the water control shell 23, a steel pipe 25 is sleeved on the top end of the water control shell 23, the center of the steel pipe 25 is connected with a fire extinguishing box 21 through a bearing, baffles are arranged above two sides of the steel pipe 25, a temperature sensing bag 24 is arranged between each baffle and the steel pipe 25, and the top end of the steel pipe 25 is connected with a fire extinguishing bag 22 corresponding to the upper end of the steel pipe 25 through a flexible pipe; as can be seen from the above steps, the foam water in the fire extinguishing bag enters the steel pipe through the flexible pipe, is guided into the core type water control plate, flows out through the bottom end of the core type water control plate and fills the forest outside, when the fire phenomenon occurs first on the left side of the conical fire extinguishing port, the air in the temperature sensing bag on the left side of the steel pipe is heated and expands faster, the temperature sensing bag on the left side of the steel pipe pushes the steel pipe after expanding, the steel pipe deflects around the center connected with the fire extinguishing box bearing to drive the quantity control shell and the lower water plate to deflect towards the left side to sprinkle water and extinguish the fire on the left fire position, and when the outside of the conical fire extinguishing port is only increased in temperature, the expansion of the control bag is less influenced by the outside temperature, the stretching of the flexible part on the bottom end of the core type water control plate is smaller, the outflow water slightly increases to cool the forest in real time, when the outside of the conical fire extinguishing port is increased in temperature sharply, the expansion of the control bag is serious, flexible department in heart type accuse water board bottom is stretched great, and the water yield that flows increases, implements to the external world and puts out a fire, and this step has realized adjusting the orientation of toper fire extinguishing port to the ignition point of a certain department in toper fire extinguishing port outside, and real-time pertinence watering is put out a fire, and to the ambient temperature situation of change, if only temperature is higher, then increase the flow of water slightly and implement the cooling, if the external world catches fire and sharply increases in temperature, then enlarge the bottom export of heart type accuse water board, increase discharge and satisfy the needs of putting out a fire.

The conical fire extinguishing port is made of titanium alloy; the conical fire extinguishing port made of the titanium alloy cannot deform after being heated for a long time due to high temperature of external fire, so that water drainage is not influenced.

The temperature sensing bag 24 is made of high temperature resistant material; the temperature sensing bag made of high-temperature resistant materials can effectively avoid the phenomenon that the deflection direction of the conical fire extinguishing hole is adjusted by misjudgment of the device due to the fact that the outside only rises in temperature.

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.