CN115183519B - Two-stage energy-saving water-cooled balance system - Google Patents

Abstract

The invention discloses a two-stage energy-saving water-cooled balance system, and belongs to the technical field of high-temperature cooling equipment. The balance system comprises a heat exchange box, wherein the heat exchange box comprises a cold water supply box, a refrigerator is arranged in the cold water supply box, a first heat exchange pipe and a second heat exchange pipe are arranged on the cold water supply box, an air compressor is arranged on one side of the heat exchange box, a vent pipe is arranged on the air compressor and penetrates through the first heat exchange pipe and the second heat exchange pipe respectively, a control valve is arranged on the first heat exchange pipe and the second heat exchange pipe respectively, a neutralization pipe is arranged on the vent pipe and is arranged between the first heat exchange pipe and the second heat exchange pipe, the cold water supply box is communicated with a water storage tank through a pipeline, a control panel is arranged on the heat exchange box and is connected with the cold water supply box, the air compressor and the water storage tank through wires, and the control panel has a regulation function.

Description

Two-stage energy-saving water-cooled balance system

Technical Field

The invention relates to the technical field of high-temperature cooling equipment, in particular to a two-stage energy-saving water-cooled balance system.

Background

The water-cooled balance system is a good-effect cooling device, when facing to high-temperature gas or high-temperature liquid, the single cooling device needs extremely high power and high-specification cooling device, the use effect is not ideal, the temperature of the gas which is needed by multiple steps cannot be accurately regulated and controlled, the obtained liquid or gas can be used after being treated again, the labor is wasted, the production process is complicated, the variable which needs to be controlled is too much, the burden is also applied to operators, and the excellent use efficiency and the accurate controllable operation of the multi-stage treatment device in the use process are approved by people.

However, some problems are still found in the use process, the condition of uneven cooling effect is often generated in the cooling process, the cooling effect is also generated after a long time, new equipment is not obvious gradually, the problem of blockage is often generated in the use process, manual cleaning is very labor and effort, a plurality of problems are brought to subsequent work, meanwhile, a more obvious problem is found, the equipment is greatly influenced by external environmental factors in the use process, particularly when four seasons are alternated, and the traditional method has no better means except for adding a protective cover, so the problems are mutually influenced, and the problems are very urgent to be solved.

Disclosure of Invention

The present invention is directed to a two-stage energy-saving water-cooled balance system, which solves the problems set forth in the above-mentioned background art.

In order to solve the technical problems, the invention provides the following technical scheme:

The balance system comprises a heat exchange box, wherein the heat exchange box comprises a cold water supply box, a refrigerator is arranged in the cold water supply box, a first heat exchange pipe and a second heat exchange pipe are arranged on the cold water supply box, an air compressor is arranged on one side of the heat exchange box, a vent pipe is arranged on the air compressor and penetrates through the first heat exchange pipe and the second heat exchange pipe respectively, control valves are arranged on the first heat exchange pipe and the second heat exchange pipe respectively, a neutralization pipe is arranged on the vent pipe and is arranged between the first heat exchange pipe and the second heat exchange pipe, the cold water supply box is communicated with a water storage tank through a pipeline, a control panel is arranged on the heat exchange box and is connected with the cold water supply box, the air compressor and the water storage tank through wires, the air compressor compresses gases needing to be cooled and conveys the gases into the vent pipe, after the primary heat exchange, the first heat exchange pipe provides a water source for the first heat exchange pipe, the water source is from the water storage tank, the gases in the vent pipe are conveyed into the neutralization pipe, the neutralization pipe is adjusted, the conveying gases are conveyed into the heat exchange pipe, the neutralization pipe is adjusted, the heat exchange pipe is stopped when the temperature of the gases is required to be accidentally changed, and the gases can flow into the heat exchange pipe through the second heat exchange pipe, and the heat exchange pipe is stopped, and the air can flow accidentally, and the air can flow through the heat exchange pipe is stopped, and the second heat exchange pipe is timely, and the air can be timely stopped, and the air flows through the heat exchange pipe is timely and the heat exchange pipe is required, and the air is cooled down.

The first heat exchange tube and the second heat exchange tube are respectively internally provided with a cleaning frame, the cleaning frame is provided with a follow-up turbine, the follow-up turbine is provided with a plurality of follow-up blades, two ends of each follow-up blade are respectively and rotatably connected with the follow-up turbine and a follow-up ring, one end of each follow-up blade, which is close to the follow-up ring, is provided with a follow-up shaft which is in sliding connection with the follow-up shaft, the follow-up shaft is meshed with the gear on the follow-up blade, the follow-up shaft is in sliding connection with the cleaning frame, the follow-up shaft is provided with the gear, two sides of the cleaning frame are respectively provided with a plurality of cleaning rollers, the cleaning rollers on the two sides of the cleaning frame are respectively propped against the inner wall of the first heat exchange tube and the inner wall of the second heat exchange tube, the cleaning frame is provided with a follow-up roller which is in rotating connection with the cleaning frame, the guide pipe is arranged on the cleaning frame and is in sliding connection with the cleaning frame through a bracket, the guide pipe is provided with a guide impeller, the guide pipe is internally provided with a guide shaft, the guide shaft is respectively connected with the guide impellers on the two ends of the guide pipe, the guide pipe is provided with a water inlet and a water outlet, the adsorption magnet is a permanent magnet, the following roller is clung to the inner walls of the first heat exchange pipe and the second heat exchange pipe, the friction force between the following roller and the first heat exchange pipe and between the following roller and the second heat exchange pipe is increased, the following roller rotates along with the flow of water flow, the rotating turbine drives the following ring to rotate, the following roller is driven to move along with the rotating ring, the cleaning roller is driven to rotate, the cleaning roller at the same time cleans the inner walls of the first heat exchange pipe and the second heat exchange pipe, the cleaning roller at the opposite side cleans the outer wall of the vent pipe, and vibration generated during cleaning is transmitted to the vent pipe, the inside of the vent pipe can vibrate and enable the compressed gas to be mixed and released to a certain extent, meanwhile, the dust and other substances adhered to the inner wall of the vent pipe can be separated, when the dust and other substances reach the ports of the first heat exchange pipe and the second heat exchange pipe along with the rotating shaft, the dust and other substances move along with the rotating shaft, the direction of the rotating blades changes along with the rotating shaft after the dust and other substances move along with the rotating shaft, so that the rotating direction along with the water flow direction is opposite, the reciprocating cleaning effect is achieved, when the cleaning frame rotates along with the first heat exchange pipe and the second heat exchange pipe, the guide pipe rotates along with the action of the water flow, the impeller rotates to drive the guide shaft to rotate, and when the guide pipe rotates, the cooling water source enters the guide pipe from the water inlet, and blows water to the vent pipe under the action of the guide shaft, the vent pipe is regularly vibrated in the water spraying process, cooling gas in the vent pipe is fully mixed, meanwhile, the nearby water flow can exchange heat with the vent pipe due to the direct water flow spraying effect, the utilization rate of cooling liquid is fully improved, and meanwhile, the blowing mode can also clear scraps on the vent pipe, so that impurities which do not fall off can fall off more easily.

The angle alpha between the plane where the following roller is positioned and the plane where the cleaning frame is positioned is less than or equal to 10 degrees and less than or equal to 30 degrees, the following roller is connected with the follow-up rotating ring through the crawler, the sucker is arranged on the hub of the following roller, the follow-up rotating ring is provided with the anti-drop button, the anti-drop button is connected with the follow-up rotating ring through the spring, one side of the anti-drop button, away from the follow-up rotating ring, is propped against the follow-up rotating shaft, the existing angle alpha can effectively enhance the cleaning effect, when the angle between the plane where the following roller is positioned and the plane where the cleaning frame is positioned is less than 10 degrees, the cleaning frame cannot move in all positions, and cannot clean comprehensively, when the angle between the plane where the following roller is positioned and the plane where the cleaning frame is positioned is greater than 30 degrees, the position change range is too large, so that part of positions cannot be cleaned, and the cleaning effect is greatly discounted due to too short cleaning time on a single position, the sucker on the following roller can prevent water from flowing too fast, so that the cleaning frame is stressed too much, the cleaning frame moves, the roller cannot move in a misplacement, the situation that the following rotating ring cannot easily rotate along with the rotating shaft is avoided.

The utility model provides a neutralization pipe, the breather pipe in the neutralization pipe both ends respectively with first heat exchange tube, breather pipe intercommunication on the second heat exchange tube, the neutralization pipe bit spiral disc pipeline, be provided with the buffer chamber on the neutralization pipe, the buffer chamber passes through the breather pipe intercommunication in pipeline and the first heat exchange tube, be provided with a plurality of hybrid blade in the neutralization pipe, be connected with neutralization pipe swivelling respectively on every hybrid blade, spiral disc neutralization pipe can make the interior gas self of neutralization pipe adjust, heat transfer, and spiral form pipeline can also make inside air take place to mix when flowing, and hybrid blade utilizes the velocity of flow of interior gas self of neutralization pipe, the flabellum rotates, can fully mix the interior gas of neutralization pipe after the flabellum rotates, make the hot gas that is lived obtain releasing, when cold and hot gas fuses, because the difference in temperature is too big, arouse compressed gas's rapid expansion, cause the burst of neutralization pipe, after adopting this device, the hybrid mountain also rotates, make gas carry out little measurement's energy release, while reducing energy loss, also a large amount of release energy and the interior gas takes place to mix the heat, the dangerous state that the interior gas of the well is makeed, the expansion of the well in the pipe is carried out, the slow cooling down is carried out, the dangerous state that the well is carried out, the well in the well cooling that the well gas takes place, the well in the life of the situation of the well, the well is expanded, the life of the situation is and the life of the situation is well.

The buffer chamber is internally provided with a wind following shaft which is rotationally connected with the buffer chamber, a wind following air bag is arranged on the wind following shaft, a wind following ring is arranged on the wind following shaft, a plurality of wind following blades are arranged on the wind following ring, the wind following blades are in sliding connection with the wind following ring through springs, the buffer chamber is internally provided with a rotary disc which is rotationally connected with the buffer chamber through a spring shaft, the top end of the rotary disc is provided with a notch, the shape of the notch is the same as the shape of the cross section of a pipeline on the buffer chamber, one side of the rotary disc is provided with a vent, the shape of the vent is the same as the cross section of a neutralizing pipe, a plurality of clamping grooves are arranged on the inner wall of the rotary disc, the distance between the clamping grooves is the same as the distance between the wind following blades, the gas after primary cooling can flow through the wind following air bag, the gas space in the wind following air bag can feel the temperature change, and the gas after the stirring and neutralizing pipe can flow through the wind following air bag, the wind-following air bag will deform and prop against the wind-following blade, so that the wind-following blade will stretch, when the temperature is normal, the wind-following blade will rotate, and flow out of the neutralization tube through the rotating disc, when the temperature is too high, the wind-following blade will prop against the rotating disc to rotate, and under the limit of the spring shaft, the rotating disc will be fixed in one direction, and will flow out of the neutralization tube to block the inlet, and flow back into the ventilation tube in the first heat exchange tube through the notch above, at this time, the first ventilation tube forms a loop due to the increase of gas mass, resulting in slow operation, longer contact time with the cooling water in the first heat exchange tube, achieving better cooling effect, until the volume of the wind-following air bag is recovered, so that the gas heat entering the second heat exchange tube is more uniform and stable, under the action of the second heat exchange tube, and the control is easier, so that the temperature accuracy of gas discharge is more accurate, and the gas discharge device has extremely strong operability.

The cold water supply box is internally provided with a temperature control assembly, the temperature control assembly comprises two shunt pipes, each shunt pipe is respectively communicated with the water storage tank, each shunt pipe comprises a cooling pipe and a flow pipe, a refrigerator is arranged on the cooling pipe, each group of cooling pipes and the flow pipe are respectively communicated with the first heat exchange pipe and the second heat exchange pipe, a flow water motor is respectively arranged in the first heat exchange pipe and the second heat exchange pipe, a flow water turbine is respectively arranged at the output end of each flow water motor, one ends of the first heat exchange pipe and the second heat exchange pipe, which are far away from the flow water motor, are respectively communicated with the water storage tank, a selection switch is arranged at the junction of the cooling pipe and the flow pipe, one end of the shunt pipe, which is far away from the selection switch, is provided with a blocker, the flow water turbine is driven to rotate, water in the water outlet tank is sucked out and is transmitted into the first heat exchange pipe and the second heat exchange pipe, after the water source passes through the shunt pipes, the selection switch selectively enters the cooling pipe or the flow pipe according to the external environment temperature, after the water passes through the cooling pipe, the cooling pipe is processed by the refrigerator, the temperature of the water is greatly reduced, the flow water turbine is prevented from being blocked, the temperature of the cooling pipe is greatly reduced, the temperature of the water is prevented from being wasted by the air, the air is directly flowing through the water source, the temperature of the water source is controlled by the temperature of the flow water motor, the temperature is directly and the air is prevented from being directly flowing through the heat exchange pipe, and the water heater, and the temperature is directly-cooled, and the temperature of the water channel, and the temperature is well is prevented from being directly being influenced by the temperature and the temperature, and the temperature of the heat.

The selection switch comprises a selection slide plate, the selection slide plate is in sliding connection with a cooling pipe and a flow pipe, a selection motor is arranged in a shunt pipe, the output end of the selection motor is meshed with the selection slide plate, the input end of the selection motor is provided with a rotary electrode, the rotary electrode is meshed with the temperature sensing slide plate, a tooth is arranged on the temperature sensing slide plate, the temperature sensing slide plate is connected with a piston plate in a temperature sensing chamber, one end of the shunt pipe, which is far away from the selection slide plate, is provided with a stopper, the stopper comprises a forward flow baffle, the forward flow baffle is respectively propped against the cooling pipe and the flow pipe, the forward flow baffle is respectively in rotary connection with the cooling pipe and the flow pipe at the partition, a control shaft is arranged at the partition of the cooling pipe and the flow pipe and is connected with the forward flow baffle through a chain, when the device works, various weather changes exist, and when the temperature changes greatly, the selection slide plate can select the cooling pipe and the flow pipe, when the weather is hot, the air in the temperature sensing chamber expands to cause the piston plate to move upwards and drive the temperature sensing slide plate to move, the selection motor is a direct current motor, the temperature sensing slide plate drives the rotary electrode to rotate, the current input directions of the rotary electrode are different to cause the rotary directions of the selection motor to be different, the selection motor at the moment drives the selection slide plate to move and block the flow pipe to enable water flow to pass through the refrigerator to obtain better water cooling effect, when the weather is cold, the air in the temperature sensing chamber contracts, the piston plate moves downwards and drives the temperature sensing slide plate to move, the temperature sensing slide plate drives the rotary electrode to rotate, the selection motor drives the selection slide plate to move and block the cooling pipe to enable the water flow not to pass through the refrigerator, the temperature of the atmosphere and the temperature of the water are enough to cool the air, the stopper provides power for blocking water source backflow by utilizing the flow of water, and is good in durability, strong in maneuverability and rapid in reaction.

The water storage tank is arranged at the bottom end of the cold water supply tank, the preheating pipe is arranged in the water storage tank, the filter screen is arranged in the water storage tank, the water exchange port is arranged on the water storage tank, the positioning ring is arranged at the water exchange port, the positioning ring is provided with the following gear, the following gear is rotationally connected with the positioning ring, the filter screen is fixedly connected with the following gear, the water exchange port is provided with the water blocking plug, the water blocking plug and the water exchange port are of a detachable structure, when the external temperature is lower, the phenomenon that the water in the water storage tank is frozen can be caused, the water exchange pipe cannot be pumped while the water storage tank is damaged, the heat exchange operation cannot be performed, the preheating pipe is opened by the control panel when the water storage tank works in cold winter, the water in the preheating pipe is heated, freezing is avoided, meanwhile, the water quality in the water storage tank is changed due to the continuous work of the cleaning mechanism in the working process, the filter screen is required to be replaced, the impurities in the water storage tank are taken away along with the rotation of the gear, the filter screen is contracted, and the impurities are brought out in the process, and meanwhile, the impurities can be enabled to be repeatedly attached to the inner wall of the filter screen in the water storage tank.

Compared with the prior art, the invention has the following beneficial effects: 1. the self-cleaning type pipeline heat exchanger adopts an automatic cleaning type structure, solves the problem of difficult cleaning of the inner wall of the pipeline, solves the problem of scale generated in the heat exchange process, can adhere to the inner wall of the heat exchange pipeline and the outer wall of the heat exchange ventilation, can influence the heat exchange effect, and can separate out some salt substances in the heat exchange process, wherein the salt substances can generate certain corrosion on the pipeline.

2. The invention adopts a neutralization structure, and before preparing the secondary cooling, the conveyed gas is neutralized and selected, so that the wrapped hot gas is released, when the cold gas and the hot gas are fused, the temperature difference is overlarge, the rapid expansion of the compressed gas is easy to cause the burst of a neutralization pipe, the internal energy is released, the energy loss is reduced, the problem of the rapid expansion of the gas generated by the hot compressed air clamped by a cold air bag is avoided, and the problem that the finally obtained gas is not at the required temperature is avoided.

3. The invention adopts the selecting type reflux device, can carry out the return of unqualified gas, at the moment, the first vent pipe forms a loop, and the gas mass is increased, so that the operation is slow, the contact time with the cooling water in the first heat exchange pipe is longer, the better cooling effect is achieved, and the effect that the discharged gas presents different temperatures is avoided.

4. The invention has the advantages that the working state is automatically regulated and controlled according to the external environment temperature, when the temperature is high, the cooling water source flows through the pipeline with the refrigerator, the cooling effect is far better than that of the water source in the normal state, the problem of secondary heat absorption of the cooling gas is avoided when the external temperature is neutralized, when the temperature is low, the cooling water source does not flow through the refrigerator, the energy is saved, the external temperature can be adapted, the cooling water source is matched with the water storage tank and the preheating, and the cooling function can be finished when the freezing is avoided.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic diagram of the front view of the present invention;

FIG. 3 is a schematic view of the internal structure of the heat exchange box of the present invention;

FIG. 4 is a schematic view of the internal structure of a first heat exchange tube according to the present invention;

FIG. 5 is a schematic diagram of a cleaning assembly mating relationship of the present invention;

FIG. 6 is a schematic view of the structure following roller and the cleaning frame;

FIG. 7 is a schematic view showing the internal structure of the water storage tank of the present invention;

FIG. 8 is a schematic diagram of the structure of the rotary electrode and the selection motor of the present invention;

FIG. 9 is a schematic view showing an internal structure of the cold water supply tank of the present invention;

FIG. 10 is a schematic view of the internal structure of a buffer chamber of the present invention;

In the figure: 1. a heat exchange box; 2. a cold water supply tank; 3. a refrigerator; 4. a first heat exchange tube; 401. a running water motor; 5. a second heat exchange tube; 6. an air compressor; 7. a vent pipe; 8. a control valve; 9. a neutralization tube; 10. a water storage tank; 1001. a preheating tube; 1002. a water exchanging port; 1003. a positioning ring; 1004. a follower gear; 1005. a water blocking plug; 1006. a filter screen; 11. a control panel; 12. a cleaning frame; 13. a turbine is rotated along with; 14. a following rotating blade; 15. a follower ring; 16. along with the rotating shaft; 17. a cleaning roller; 18. following the roller; 19. an anti-falling button; 20. a buffer chamber; 2001. a wind-following shaft; 2002. an air bag along with wind; 2003. a wind-following ring; 2004. wind following blades; 2005. a rotating disc; 21. a temperature control assembly; 2101. a shunt; 2102. a cooling tube; 2103. a flow pipe; 2104. a selection switch; 2105. a stopper; 2106. selecting a sliding plate; 2107. selecting a motor; 2108. rotating the electrode; 2109. a temperature sensing slide plate; 2111. a temperature sensing chamber; 2112. a piston plate; 2113. a downstream baffle; 2114. a control shaft; 22. a flow guiding pipe; 23. a guide shaft: 24. a inducer; 25. a water outlet; 26. and a water inlet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Referring to fig. 1 to 10, the present invention provides the following technical solutions: the balance system comprises a heat exchange box 1, wherein the heat exchange box 1 comprises a cold water supply box 2, a refrigerator 3 is arranged in the cold water supply box 2, a first heat exchange tube 4 and a second heat exchange tube 5 are arranged on the cold water supply box 2, an air compressor 6 is arranged on one side of the heat exchange box 1, an air pipe 7 is arranged on the air compressor 6, the air pipe 7 respectively penetrates through the first heat exchange tube 4 and the second heat exchange tube 5, a control valve 8 is respectively arranged on the first heat exchange tube 4 and the second heat exchange tube 5, a neutralization tube 9 is arranged on the air pipe 7, the neutralization tube 9 is arranged between the first heat exchange tube 4 and the second heat exchange tube 5, the cold water supply box 2 is communicated with a water storage tank 10 through a pipeline, a control panel 11 is arranged on the heat exchange box 1, the control panel 11 is connected with the cold water supply box 2, the air compressor 6 and the water storage tank 10 through wires, the air compressor compresses the gas to be cooled and transmits the gas into the breather pipe, the breather pipe conveys the gas to the first heat exchange pipe for primary heat exchange, after the primary heat exchange, the first heat exchange pipe is provided with a water source by the cold water supply tank, the water source is from the water storage tank, then the gas in the breather pipe is conveyed into the neutralization pipe, the neutralization pipe is used for neutralizing and adjusting the conveyed gas and selecting whether reflux is needed or not, after passing through the neutralization pipe, the gas enters the second heat exchange pipe, the second heat exchange pipe is used for secondary heat exchange of the gas transmitted from the breather pipe, the gas temperature is required, the control valve can be used for stopping operation in time, and when accidents occur in the middle, the liquid flow in the heat exchange pipe can be stopped in time, so that the accidents are avoided.

The first heat exchange tube 4 and the second heat exchange tube 5 are respectively provided with a cleaning frame 12, the cleaning frame 12 is provided with a following turbine 13, the following turbine 13 is provided with a plurality of following rotating blades 14, two ends of the following rotating blades 14 are respectively connected with the following turbine 13 and a following rotating ring 15 in a rotating way, one end of the following rotating blades 14, which is close to the following rotating ring 15, is provided with a following rotating shaft 16 which is connected with the following rotating shaft 16 in a sliding way, the following rotating shaft 16 is meshed with the gears on the following rotating blades 14, the following rotating shaft 16 is connected with the cleaning frame 12 in a sliding way, the following rotating shaft 16 is provided with gears, two sides of the cleaning frame 12 are respectively provided with a plurality of cleaning rollers 17, the cleaning rollers 17 on two sides of the cleaning frame 12 are respectively meshed with the gears on the following rotating shaft 16, the cleaning rollers 17 respectively prop against the inner wall of the ventilation tube 7 and the inner wall of the first heat exchange tube 4 and the inner wall of the second heat exchange tube 5, the cleaning frame 12 is provided with a following roller 18, the following roller 18 is rotationally connected with the cleaning frame 12, the cleaning frame 12 is provided with a guide pipe 22, the guide pipe 22 is connected with the cleaning frame 12 through a bracket, the guide pipe 22 is provided with a guide impeller 24, a guide shaft 23 is arranged in the guide pipe 22, the guide shaft 23 is respectively connected with the guide impellers 24 on two ends of the guide pipe 22, the guide pipe 22 is provided with a water inlet 26 and a water outlet 25, the absorbing magnet is a permanent magnet, the following roller is tightly attached to the inner wall of the first heat exchange tube and the inner wall of the second heat exchange tube, the friction force between the following roller and the first heat exchange tube and the friction force between the second heat exchange tube are increased, the following turbine rotates along with the flow of water flow, the rotating turbine drives a following ring to rotate, the following ring drives the following roller to move, and simultaneously drives the cleaning roller to rotate, the cleaning roller will clear up first heat exchange tube inner wall and second heat exchange tube inner wall, the cleaning roller of opposite side then clears up the outer wall of breather pipe simultaneously, the vibrations that produce during the clearance are transmitted to the breather pipe simultaneously, will produce vibrations in the breather pipe and make compressed gas can obtain the mixture and release to a certain extent, simultaneously also can make the adhesion in the dust etc. of breather pipe inner wall break away from, when reaching first heat exchange tube with the pivot, when the second heat exchange tube port, will take place to remove along the pivot, will make along with the direction change of change the vane after the pivot removes, thereby make the direction of rotation opposite along the rivers direction, thereby reach reciprocal abluent effect, when the clearance frame rotates along first heat exchange tube, the second heat exchange tube, the honeycomb duct also can rotate thereupon, and along with the effect of rivers, the impeller is rotatory, drive the guide shaft rotates, and along with the honeycomb duct is rotatory, the cooling will follow the water inlet in the honeycomb duct, and under the effect of guide shaft, blow water to the breather pipe, make the breather pipe carry out the direction change along with the pivot, thereby making the water jet in the breather pipe, make full use of the water jet effect in the water stream direction, can be more fully utilized simultaneously, can make full use of the cooling effect of the nearby the breather pipe that can be had, the cooling down, the water jet can be fully because of the impurity is convenient, the cooling effect can be obtained simultaneously.

The angle alpha between the plane of the following roller 18 and the plane of the cleaning frame 12 is less than or equal to 10 degrees and less than or equal to 30 degrees, the following roller 18 is connected with the follow-up rotating ring 15 through a crawler, a sucker is arranged on the hub of the following roller 18, an anti-falling button 19 is arranged on the follow-up rotating ring 15, the anti-falling button 19 is connected with the follow-up rotating ring 15 through a spring, one side of the anti-falling button 19 away from the follow-up rotating ring 15 is propped against the follow-up rotating shaft 16, the cleaning effect can be effectively enhanced, when the angle between the plane of the following roller 18 and the plane of the cleaning frame 12 is less than 10 degrees, the cleaning frame cannot move in all positions, and when the angle between the plane of the following roller 18 and the plane of the cleaning frame 12 is greater than 30 degrees, the position change range is too large, so that part of positions cannot be cleaned, the cleaning effect is greatly reduced due to the fact that the cleaning time on a single position is too short, the sucker on the following roller can prevent water flow from being too fast, the cleaning frame is stressed, dislocation movement occurs, the cleaning frame cannot move easily, the anti-falling button cannot move along with the rotating ring, and the situation cannot be avoided.

The two ends of the neutralization tube 9 are respectively communicated with the vent tube 7 in the first heat exchange tube 4 and the vent tube 7 on the second heat exchange tube 5, the neutralization tube 9 is provided with a buffer chamber 20, the buffer chamber 20 is communicated with the vent tube 7 in the first heat exchange tube 4 through the pipeline, the neutralization tube 9 is internally provided with a plurality of mixing blades, each mixing blade is respectively and rotatably connected with the neutralization tube 9, the spiral-disc-shaped neutralization tube can enable the gas in the neutralization tube to adjust and exchange heat, the spiral pipeline can enable the internal air to mix during flowing, the mixing blades rotate with the blades by utilizing the flow velocity of the gas in the neutralization tube, and after the blades rotate, the gas in the neutralization tube can be fully mixed, when cold and hot gases are fused, the temperature difference is too large, so that the compressed gases are easy to expand rapidly, the neutralization pipe is burst, after the device is adopted, the mixing mountain is rotated, the gases are subjected to small-metering energy release, the energy loss is reduced, the secondary expansion of ambient cooling gases caused by the release of a large amount of hot gases is avoided, the neutralization pipe is severely damaged, the spiral neutralization pipe is matched, the flowing state of the gases in the neutralization pipe is changed, the internally wrapped hot gases slowly surge, and the danger of large-scale hot gas release caused by active hot gas surge in the neutralization process is avoided.

The buffer chamber 20 is internally provided with a wind following shaft 2001, the wind following shaft 2001 is rotationally connected with the buffer chamber 20, a wind following air bag 2002 is arranged on the wind following shaft 2001, a wind following ring 2003 is arranged on the wind following shaft 2001, a plurality of wind following blades 2004 are arranged on the wind following ring 2003, the wind following blades 2004 are in sliding connection with the wind following ring 2003 through springs, the buffer chamber 20 is internally provided with a rotating disc 2005, the rotating disc 2005 is rotationally connected with the buffer chamber 20 through a spring shaft, the top end of the rotating disc 2005 is provided with a notch, the shape of the notch is the same as the shape of the cross section of a pipeline on the buffer chamber 20, one side of the rotating disc 2005 is provided with a vent, the shape of the vent is the same as the cross section of a neutralizing pipe 9, a plurality of clamping grooves are arranged on the inner wall of the rotating disc 2005, the distance between the clamping grooves is equal to the distance between the wind following blades 2004, and the gas after primary cooling will flow through the wind following air bag, the air space in the air following bag can feel the temperature change, the air after being disturbed and neutralized by the neutralizing tube flows through the air following bag, the air following bag can deform and prop against the air following blade, so that the air following blade can stretch, when the temperature is normal, the air following blade can rotate and flow out of the neutralizing tube through the rotating disc, when the temperature is too high, the air following blade can prop against the rotating disc to rotate, and under the limit of the spring shaft, the rotating disc can be fixed in one direction, the inlet of the flowing neutralizing tube is blocked, and flows back into the air tube in the first heat exchange tube through the notch above, at the moment, the first air tube forms a loop due to the increase of air quality, the operation is slow, the contact time with cooling water in the first heat exchange tube is longer, the better cooling effect is achieved until the volume of the air following bag is recovered, the heat of the gas entering the second heat exchange tube is more uniform and stable, and the gas is easier to control under the action of the second heat exchange tube, so that the temperature precision of the gas exhaust is more accurate, and the gas exhaust has extremely strong operability.

The cold water supply tank 2 is internally provided with a temperature control component 21, the temperature control component 21 comprises two shunt pipes 2101, each shunt pipe 2101 is respectively communicated with the water storage tank 10, each shunt pipe 2101 comprises a cooling pipe 2102 and a flow pipe 2103, the cooling pipe 2102 is provided with a refrigerator 3, each group of cooling pipes 2102 and the flow pipe 2103 are respectively communicated with a first heat exchange pipe 4 and a second heat exchange pipe 5, a water flow motor 401 is respectively arranged in the first heat exchange pipe 4 and the second heat exchange pipe 5, the output end of each water flow motor 401 is respectively provided with a water flow turbine, the junction of the cooling pipe 2102 and the flow pipe 2103 is provided with a selection switch 2104, the end of the shunt pipe 2101, which is far away from the selection switch 2104, is provided with a stopper 2105, the water flow motor works to drive the water flow turbine to rotate, the running water turbine will be sucked out the water in the play water pitcher and transmit in first heat exchange tube and the second heat exchange tube, after the shunt tubes is passed through to the water source, selector switch will select to get into cooling tube or runner pipe according to external environment temperature, when the water flow is through the cooling tube, the processing back of cooler is passed through to the cooling tube, can make the temperature of water drop by a wide margin, the reinforcing cooling effect, when the cooperation of the temperature of water source itself and external environment's temperature when the water flow is through the runner pipe, and utilize the effect of neutralizing pipe direct exposure in the air, enough cool down the cooling with gas, when reducing the energy extravagant, still can avoid excessively cooling to the injury of required gas, and the stopper will prevent the rivers to flow backward, and through control panel's temperature detection function, can adjust the working power of the running water motor in the second heat exchange tube by oneself, thereby control exhaust gas's precision.

The selection switch 2104 comprises a selection slide plate 2106, the selection slide plate 2106 is in sliding connection with the cooling pipe 2102 and the flow tube 2103, a selection motor 2107 is arranged in the shunt tube 2101, the output end of the selection motor 2107 is meshed with the selection slide plate 2106, the input end of the selection motor 2107 is provided with a rotary electrode 2108, the rotary electrode 2108 is meshed with the temperature sensing slide plate 2109, the temperature sensing slide plate 2109 is provided with teeth, the temperature sensing slide plate 2109 is connected with a piston plate 2112 in the temperature sensing chamber 2111, one end of the shunt tube 2101, far away from the selection slide plate 2106, is provided with a stopper 2105, the stopper 2105 comprises a forward flow baffle 2113, the forward flow baffle 2113 is respectively propped against the cooling pipe 2102 and the flow tube 2103, the separation position of the cooling pipe 2102 and the flow tube 2103 is respectively in rotary connection, the separation position of the cooling pipe 2102 and the flow tube 2103 is provided with a control shaft 2114, the control shaft 2114 is connected with the forward flow baffle 2113 through a chain, when the device is in operation, various weather changes exist, when the temperature change of the day is large, the selection slide plate can select the cooling pipe and the runner pipe, when the weather is hot, the air in the temperature sensing chamber can expand, so that the piston plate can move upwards and drive the temperature sensing slide plate to move, the selection motor is a direct current motor, the temperature sensing slide plate drives the rotating electrode to rotate, the current input directions of the rotating electrode are different, the rotation directions of the selection motor are different, the selection motor at the moment drives the selection slide plate to move and block the runner pipe, so that water flow can pass through the refrigerator to obtain better water cooling effect, when the weather is cold, the air in the temperature sensing chamber can shrink, the piston plate can move downwards and drive the temperature sensing slide plate to move, the temperature sensing slide plate drives the rotating electrode to rotate, the selection motor drives the selection slide plate to move and block the cooling pipe, the water flow can not pass through the refrigerator, the temperature of the atmosphere and the temperature of the water are enough to cool the gas, the stopper provides power for blocking the water source from flowing backwards by utilizing the flowing of the water, the durability is good, the maneuverability is strong, and the reaction is rapid.

The water storage tank 10 is arranged at the bottom end of the cold water supply tank 2, the preheating pipe 1001 is arranged in the water storage tank 10, the filter screen 1006 is arranged in the water storage tank 10, the water exchange port 1002 is arranged on the water storage tank 10, the positioning ring 1003 is arranged at the water exchange port 1002, the gear 1004 is rotatably connected with the positioning ring 1003, the filter screen 1006 is fixedly connected with the gear 1004, the water blocking plug 1005 is arranged on the water exchange port 1002, the water blocking plug 1005 and the water exchange port 1002 are of a detachable structure, when the external temperature is lower, the phenomenon that water in the water storage tank is frozen and the like can be caused, the preheating pipe is damaged, the water exchange pipe cannot be pumped, the heat exchange operation cannot be performed, the preheating pipe is opened by a control panel when the water storage tank works in cold winter, the water is heated to avoid freezing, meanwhile, the water in the water storage tank is required to be replaced due to the continuous operation of the cleaning mechanism in the working process, the impurities in the water storage tank are prevented from being taken away, the impurities in the water storage tank are contracted along with the gear, the filter screen is taken out again, and the filter screen is attached to the filter screen in the water storage tank when the filter screen is overturned.

The working principle of the invention is as follows: when the device works, various weather changes exist, when the temperature change of the weather is large, the selection slide plate 2106 can select the cooling pipe 2102 and the runner pipe 2103, when the weather is hot, the air in the temperature sensing chamber 2111 can expand, the piston plate 2112 can move upwards and drive the temperature sensing slide plate 2109 to move, the temperature sensing slide plate 2109 drives the rotating electrode 2108 to rotate, the current input direction of the rotating electrode 2108 is different, the rotating direction of the selection motor 2107 is different, the selection motor 2107 drives the selection slide plate 2106 to move at the moment, the runner pipe 2103 is blocked, the water flow can pass through the refrigerator 3, a better water cooling effect is obtained, when the weather is cold, the air in the temperature sensing chamber 2111 can shrink, the piston plate 2112 can move downwards and drive the temperature sensing slide plate 2109 to move, the temperature sensing slide plate 2109 drives the rotating electrode 2108 to rotate, the selection motor 2107 drives the selection slide plate 2106 to move and block the cooling pipe 2102, so that water flow can not pass through the refrigerator 3, the atmospheric temperature and the water temperature are enough to cool the gas, the stopper 2105 provides power for blocking water source backflow by utilizing the flow of the water, the air compressor 6 compresses the gas needing to be cooled and conveys the gas into the ventilation pipe 7, the ventilation pipe 7 conveys the gas to the first heat exchange pipe 4 for primary heat exchange, the cleaning assembly performs reciprocating cleaning operation in the heat exchange process, impurities are brought into the water storage tank 10 by flowing water, after the primary heat exchange, the first heat exchange pipe 4 is provided with a water source by the cold water supply tank 2, the water source is from the water storage tank 10, then the gas in the ventilation pipe 7 is conveyed into the neutralization pipe 9, the neutralization pipe 9 neutralizes the conveyed gas and selects whether the backflow is needed or not, after passing through the neutralization tube 9, the gas entering the buffer chamber 20 after primary cooling will flow through the windy air bag 2002, the gas space in the windy air bag 2002 will feel the temperature change, after being disturbed and neutralized by the neutralization tube 9 will flow through the windy air bag 2002, the windy air bag will deform and prop against the windy blades 2004, the windy blades 2004 will stretch, when the temperature is normal, the windy blades 2004 will rotate, and flow out of the neutralization tube 9 through the rotating disc 2005, when the temperature is too high, the windy blades 2004 will prop against the rotating disc 2005 to rotate, and under the limit of the spring shaft, the rotating disc 2005 will be fixed in one direction, and will flow out of the inlet of the neutralization tube 9, and flow back into the ventilation tube 7 in the first heat exchange tube 4 through the notch above, at this time, the ventilation tube 7 is due to the formation of a loop, and the gas quality is increased, the operation is slow, until the volume of the windy air bag 2004 is restored, the gas needed enters into the second heat exchange tube 5, the second heat exchange tube 5 will rotate against the rotating disc 2005, and the inlet of the air tube 9 will stop in time, the unexpected operation is stopped, and the unexpected operation of the liquid can be avoided, and the unexpected operation of the second heat exchange tube 9 can be stopped, and the unexpected operation of the liquid can be avoided.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A two-stage energy-saving water-cooled balance system is characterized in that: the balance system comprises a heat exchange box (1), wherein the heat exchange box (1) comprises a cold water supply box (2), a refrigerator (3) is arranged in the cold water supply box (2), a first heat exchange tube (4) and a second heat exchange tube (5) are arranged on the cold water supply box (2), an air compressor (6) is arranged on one side of the heat exchange box (1), a vent tube (7) is arranged on the air compressor (6), the vent tube (7) respectively penetrates through the first heat exchange tube (4) and the second heat exchange tube (5), a control valve (8) is respectively arranged on the first heat exchange tube (4) and the second heat exchange tube (5), a neutralization tube (9) is arranged on the vent tube (7), the neutralization tube (9) is arranged between the first heat exchange tube (4) and the second heat exchange tube (5), the cold water supply box (2) is communicated with a water storage tank (10) through a pipeline, a control panel (11) is arranged on the heat exchange box (1), and the control panel (11) is connected with the cold water supply box (4) and the water storage tank (10) through leads and the air storage tank (10) through leads;

the first heat exchange tube (4) and the second heat exchange tube (5) are respectively provided with a cleaning frame (12), the cleaning frames (12) are respectively provided with a following turbine (13), the following turbine (13) is provided with a plurality of following blades (14), two ends of the following blades (14) are respectively and rotatably connected with the following turbine (13) and the following ring (15), one end of the following blades (14) close to the following ring (15) is provided with a gear, the following ring (15) is internally provided with a following shaft (16) and is in sliding connection with the following shaft (16), the following shaft (16) is meshed with the gear on the following blades (14), the following shaft (16) is in sliding connection with the cleaning frames (12), the following shaft (16) is provided with a gear, two sides of the cleaning frames (12) are respectively provided with a plurality of cleaning rollers (17), the cleaning rollers (17) are respectively meshed with the gears on the following shafts (16), the two sides of the following frames (12) are respectively provided with a guide pipe (7) and are respectively connected with the cleaning rollers (18) on the two sides of the cleaning frames (12), the first heat exchange tube (12) are in sliding connection with the cleaning frames (12), the second heat exchange tube (12) is provided with the cleaning rollers (18), the first heat exchange tube (12) are respectively provided with the cleaning frames (18), the utility model discloses a cleaning device, including honeycomb duct (22), clearance frame, honeycomb duct (22), guiding vane wheel (24) are provided with on honeycomb duct (22), be provided with guiding axle (23) in honeycomb duct (22), guiding axle (23) are connected with guiding vane wheel (24) on the both ends of honeycomb duct (22) respectively, be provided with water inlet (26) and delivery port (25) on honeycomb duct (22).

2. The two-stage energy-saving water-cooled balance system according to claim 1, wherein: the angle between the plane where the following roller (18) is located and the plane where the cleaning frame (12) is located is 10 degrees or more and less than or equal to 30 degrees, the following roller (18) is connected with the follow-up rotating ring (15) through a track, a sucker is arranged on the hub of the following roller (18), an anti-falling button (19) is arranged on the follow-up rotating ring (15), the anti-falling button (19) is connected with the follow-up rotating ring (15) through a spring, and one side, far away from the follow-up rotating ring (15), of the anti-falling button (19) props against the follow-up rotating shaft (16).

3. The two-stage energy-saving water-cooled balance system according to claim 1, wherein: the utility model discloses a heat exchange tube, including neutralization tube (9), buffer chamber (20), neutralization tube (9) are provided with in the pipe and are provided with in the pipe (9) with the pipe (7) in the first heat exchange tube (4), neutralization tube (9) respectively with breather pipe (7) in the first heat exchange tube (7), breather pipe (7) in the second heat exchange tube (5) are connected, every mix be provided with a plurality of flabellum on the flabellum respectively with neutralization tube (9) swivelling joint.

4. The two-stage energy-saving water-cooled balance system according to claim 3, wherein: be provided with along with wind axle (2001) in buffer chamber (20), along with wind axle (2001) and buffer chamber (20) swivelling joint, be provided with along with wind gasbag (2002) on along with wind axle (2001), be provided with along with wind ring (2003) on along with wind ring (2003), be provided with a plurality of along with wind blade (2004) on along with wind ring (2003), along with wind blade (2004) pass through spring and along with wind ring (2003) sliding connection, be provided with rotatory disc (2005) in buffer chamber (20), rotatory disc (2005) pass through spring axle and buffer chamber (20) swivelling joint, rotatory disc (2005) top is provided with the breach, the shape of breach is the same with the shape of pipeline cross-sectional area on buffer chamber (20), rotatory disc (2005) one side is provided with the vent, the shape of vent is the same with the cross-section of neutralizing tube (9), be provided with a plurality of draw-in groove on the inner wall of rotatory disc (2005), distance between the draw-in groove equals with the distance between along with wind blade (2004).

5. The two-stage energy-saving water-cooled balance system according to claim 1, wherein: the cold water supply box (2) is internally provided with a temperature control assembly (21), the temperature control assembly (21) comprises two shunt pipes (2101), each shunt pipe (2101) is respectively communicated with a water storage tank (10), each shunt pipe (2101) comprises a cooling pipe (2102) and a flow pipe (2103), a refrigerator (3) is arranged on the cooling pipe (2102), each group of cooling pipes (2102) and the flow pipe (2103) are respectively communicated with a first heat exchange pipe (4) and a second heat exchange pipe (5), a water flow motor (401) is respectively arranged on the output end of each first heat exchange pipe (4) and the output end of each second heat exchange pipe (5), one end of each first heat exchange pipe (4) and one end of each second heat exchange pipe (401) are respectively communicated with the water storage tank (10), a selective switch (2104) is arranged at the position of the cooling pipe (2102) and the flow pipe (2103), and the junction (2101) is respectively provided with a water flow turbine (401), and the shunt pipes (2105) are respectively arranged at the positions of each selective switch (2101).

6. The two-stage energy-saving water-cooled balance system according to claim 5, wherein: the selection switch (2104) comprises a selection sliding plate (2106), the selection sliding plate (2106) is connected with a cooling pipe (2102) and a runner pipe (2103) in a sliding mode, a selection motor (2107) is arranged in the shunt pipe (2101), the output end of the selection motor (2107) is meshed with the selection sliding plate (2106), the input end of the selection motor (2107) is provided with a rotary electrode (2108), the rotary electrode (2108) is meshed with a temperature sensing sliding plate (2109), teeth are arranged on the temperature sensing sliding plate (2109), the temperature sensing sliding plate (2109) is connected with a piston plate (2112) in a temperature sensing chamber (2111), the shunt pipe (2101) is far away from the selection sliding plate (2106), a stopper (2105) is arranged at one end of the shunt pipe (2101), the stopper (2103) comprises a downstream baffle (2113) respectively propped against the cooling pipe (2102) and the runner pipe (2103), the downstream baffle (2113) is respectively meshed with the cooling pipe (2109), the cooling pipe (2113) is connected with a control shaft (2113) through the rotary joint (2114) and the control shaft (2114) is connected with the control shaft (2114).

7. The two-stage energy-saving water-cooled balance system according to claim 1, wherein: the utility model discloses a water storage tank, including cold water supply tank (2), water storage tank (10) are provided with preheating pipe (1001), be provided with filter screen (1006) in water storage tank (10), be provided with water changing port (1002) on water storage tank (10), water changing port (1002) department is provided with holding ring (1003), be provided with on holding ring (1003) along with gear (1004), along with gear (1004) and holding ring (1003) swivelling joint, filter screen (1006) and along with gear (1004) fixed connection, be provided with water blocking plug (1005) on water changing port (1002), water blocking plug (1005) are detachable construction with water changing port (1002).