CN116558114A - Intelligent temperature control air energy water heater - Google Patents

Abstract

The invention discloses an intelligent temperature control air energy water heater, which relates to the technical field of air energy water heaters and comprises a water storage tank, wherein an air inlet evaporator is arranged at the front side of the water storage tank, a connecting pipe is arranged between the air inlet evaporator and the water storage tank, a compressor is arranged on the connecting pipe, the intelligent temperature control air energy water heater further comprises an air inlet temperature regulating mechanism for increasing air inlet temperature and reducing energy consumption of the compressor, a preheating mechanism for preheating cold water and a constant temperature regulating mechanism for utilizing heat emitted by hot water in the water storage tank after use to avoid loss, the air inlet regulating mechanism comprises an air inlet pipe and an air inlet frame, and the air inlet frame is arranged at the side of the air inlet evaporator. This intelligence control by temperature change air can water heater when using, can utilize the heat that the surplus hot water in the water storage tank gives off after the user uses to preheat cold water, can also heat up the air of air inlet at the in-process of preheating hot water simultaneously, avoids intake air temperature to reduce the consumption that increases the compressor.

Description

Intelligent temperature control air energy water heater

Technical Field

The invention relates to the technical field of air energy water heaters, in particular to an intelligent temperature control air energy water heater.

Background

The working principle of the air energy water heater, also called an air source heat pump water heater, is very similar to that of an air conditioner, a small amount of electric energy is adopted to drive a compressor to operate, high-pressure liquid working medium is evaporated into a gas state in an evaporator after passing through an expansion valve, and a large amount of heat energy is absorbed from the air; the gaseous working medium is compressed into high-temperature and high-pressure liquid by a compressor, and then enters a condenser to release heat to heat water, so that the water can be heated to 50-65 ℃ by continuously and circularly heating.

When the existing air energy water heater is used, according to the working principle of the air energy water heater, a large amount of heat is required to be absorbed from the air by the air energy water heater, then gaseous working media are compressed, but in the use process, the external environment temperature is lower, the heat absorbed by the air energy water heater from the air is lower, in order to ensure that the working media can be compressed, the work required by a compressor is increased, so that the energy consumption of the water heater is increased, meanwhile, when the external temperature is lower, although a heat-preserving material is adopted in a water storage tank of the air energy water heater, the temperature of the water in the water storage tank is influenced by the ambient temperature due to the fact that the temperature difference between the inside and the outside of the water storage tank is larger, when the water temperature is reduced to a certain temperature, the compressor can repeatedly work at the moment, and compared with normal temperature, the power consumption of the compressor can be greatly increased when the temperature is lower.

Disclosure of Invention

Aiming at the technical problem that the prior art is too single, the technical scheme of the invention provides a solution which is obviously different from the prior art, and the embodiment of the invention provides the intelligent temperature control air energy water heater so as to solve the technical problem that the power consumption of the prior air energy water heater can be increased in a low-temperature environment although the prior air energy water heater has the intelligent temperature control function.

The embodiment of the invention adopts the following technical scheme: the utility model provides an intelligence control by temperature change air can water heater, includes the water storage tank, the front side of water storage tank is provided with the air inlet evaporimeter, be provided with the connecting pipe between air inlet evaporimeter and the water storage tank, thereby be provided with the compressor on the connecting pipe, still including the mechanism of adjusting temperature that admits air that improves air inlet temperature and reduce the compressor energy, preheating mechanism to cold water preheating for give off heat and utilize the constant temperature control mechanism who avoids losing to the inside hot water of water storage tank after using, the mechanism of adjusting temperature that admits air includes intake pipe and inlet frame, the inlet frame sets up the side at air inlet evaporimeter, and inlet frame is located air intake department of air inlet evaporimeter, be provided with a plurality of gas outlets on the inlet frame, every the gas outlet all with intake connection.

Further, the length of the air inlet frame is the same as that of the air inlet evaporator, a blocking grid is arranged outside the air inlet frame, and the air outlet is arranged below the air inlet frame.

Further, constant temperature adjustment mechanism includes cold water preheating component and heat recovery subassembly, the heat recovery subassembly includes the constant temperature control box, be provided with the heat conduction board that can move about in the constant temperature control box, be provided with connecting spring between heat conduction board and the constant temperature control box internal surface, the constant temperature control box is internal to run through and is provided with a plurality of heat conduction wing pipe, the peripheral hardware of heat conduction wing pipe has the cooperation cover, and heat conduction wing pipe sliding connection in the cooperation cover, connect through the cooperation board between a plurality of heat conduction wing pipe, the cooperation board top is provided with displacement regulator, be provided with a plurality of through-holes on the constant temperature control box, all articulate in every through-hole and be provided with unidirectional rotating piece.

Further, cold water preheating component is including joining in marriage the plywood, join in marriage and be provided with reset spring between plywood and the thermostated container, be provided with the slot in the plywood of joining in marriage, one of them side inner wall of thermostated container is provided with the cooperation piece, cooperation piece position corresponds with the slot position, another side inner wall of thermostated container is provided with the second dog, the second dog below is provided with the conflict piece, the below of conflict piece is provided with the extrusion piece, extrusion piece and conflict piece contact surface are the inclined plane, second dog one side is provided with the connecting block, be provided with the spring post on the connecting block, the spring post runs through and sets up in the second dog, limiting hole has been seted up to second dog one side, limiting hole is provided with the restriction pole outward, the restriction pole tip is the cambered surface, the connecting rod is equipped with the connecting rod outward, the connecting rod sets up the outside at the thermostated container, be provided with the buffering restorer between connecting rod and the thermostated container, the below of connecting rod is provided with the release piece, and release piece is connected with the connecting rod.

Further, the cooperation board is hollow structure, and adopts soft material in the middle of the cooperation board, cooperation board top and bottom pass through telescopic spring and connect.

Further, the water storage tank comprises a water inlet pipe and a water outlet pipe, the water inlet pipe is arranged at the lower end of the water storage tank, the water outlet pipe is arranged at the upper end of the water storage tank, and a controller is arranged on the water outlet pipe and is electrically connected with the displacement regulator.

Further, the preheating mechanism comprises a preheating water tank, the preheating water tank is arranged on one side of the water storage tank, a heating circulating pipe is arranged between the preheating water tank and the water storage tank, and the air inlet position of the heating circulating pipe corresponds to the position of the second stop block.

Further, the preheating water tank is made of heat-insulating materials.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the preheating mechanism can be used for preheating cold water in the using process, so that the cold water is prevented from being added into the water storage tank, hot water in the water storage tank is prevented from being influenced by the cold water to become warm water, the compressor is enabled to work, and when the preheating mechanism is used for heating the cold water, the residual heat of the hot water after the use of a user is used for heating the cold water, generally, when the use of the user is finished, hot water is needed to be added, so that the heat of the hot water in the water storage tank is additionally lost, or when the cold water is not added, the water storage tank is made of a heat-preserving material, but due to the fact that the hot water is reduced, the residual space in the water storage tank is increased, the heat loss speed of the hot water is increased compared with the heat loss speed of the water in a full state, and when the outdoor temperature is lower, the heat loss speed of the hot water is faster at the moment due to the fact that the difference of the internal temperature and the external temperature is larger, the water inlet temperature is lower, when cold water directly enters the water storage tank, the time for heating the equipment is longer, in the using process, when a user prepares to add water after using the water storage tank, the heat conduction finned tube is inserted into the bottom hot water under the action of the heat recovery component to utilize the bottom hot water, cold water in the preheating water tank is preheated through the cooperation of the cold water preheating component and the preheating mechanism, thereby the heat of residual hot water is utilized, the resource waste is reduced, in the using process, as the heat conduction finned tube is provided with a plurality of heat conduction finned tubes which are in sliding connection in the matching sleeve, in the initial state, the heat conduction finned tube is contracted in the matching sleeve, thereby avoiding that a large amount of heat flows away through the heat conduction finned tube when the water is heated, when the residual hot water is required to be recovered after the use is finished, the heat conduction finned tube is inserted into the hot water, the heat conduction finned tubes are round and are provided with a plurality of heat conduction finned tubes, and gaps are reserved among the heat conduction finned tubes, so that rapid heat exchange can be performed, and the preheating speed of the preheating water tank is increased;

secondly, the gas temperature of the air inlet can be regulated through the air inlet temperature regulating mechanism in the using process, the influence of outdoor temperature on the air inlet of the air inlet is avoided, the air inlet temperature is lower, the work of the compressor is influenced, the power consumption of the compressor is increased, in the using process, the water in the preheating water tank can be preheated through the constant temperature regulating mechanism, when the water in the preheating water tank is heated to a certain degree, the cold water preheating component stops working, but the residual heat is still led out through the heat conducting finned tube, the residual heat enters the air inlet frame through the air inlet pipe in the air inlet temperature regulating mechanism, the air is discharged through the air outlet in the air inlet frame, when the outdoor temperature is lower, the temperature is still higher than that of the air sucked into the air inlet pipe, after the two air flows into the air inlet pipe, the air sucked outdoors is heated to a certain degree, so that the temperature of the air sucked outdoors is increased, the circulating medium in the connecting pipe is increased, when the circulating medium enters the compressor, the work required by the compressor is reduced, and the power consumption of equipment is reduced;

in summary, when the device is in use, the heat emitted by the residual hot water in the water storage tank after the use of a user can be utilized to preheat cold water, and meanwhile, the temperature of air at the air inlet can be raised in the process of preheating the hot water, so that the reduction of the air inlet temperature is avoided, and the power consumption of the compressor is increased.

Drawings

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

FIG. 1 is a schematic diagram of a body structure of the present invention;

FIG. 2 is a schematic view of the main section structure of the present invention;

FIG. 3 is a schematic view of an air intake adjusting mechanism according to the present invention;

FIG. 4 is a schematic view of a first view angle structure of the inside of the thermostatic control mechanism according to the present invention;

FIG. 5 is a schematic view of a connecting rod according to the present invention;

FIG. 6 is a schematic view of a second view angle structure of the inside of the thermostatic control mechanism according to the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6A according to the present invention;

FIG. 8 is a schematic top view of the preheating mechanism of the present invention;

fig. 9 is a schematic diagram of a connection structure between a heat conduction fin tube and a mating sleeve according to the present invention.

Reference numerals:

1. an air intake evaporator; 2. a compressor; 3. a water storage tank; 31. a water inlet pipe; 32. a water outlet pipe; 33. a controller; 4. a constant temperature adjusting mechanism; 41. a mating block; 42. a return spring; 43. matching plates; 44. a heat conduction finned tube; 45. a displacement adjuster; 46. a heat conductive plate; 47. a connecting spring; 48. a constant temperature regulating box; 49. a spring post; 410. a restraining bar; 411. a connecting rod; 412. a unidirectional rotating block; 413. a second stopper; 414. a collision block; 415. a connecting block; 416. extruding a block; 417. a push-out block; 418. a matching sleeve; 5. a preheating mechanism; 51. preheating a water tank; 52. heating the circulation pipe; 6. an air inlet temperature adjusting mechanism; 61. an air inlet pipe; 62. an air outlet; 63. an air inlet frame.

Detailed Description

The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown.

The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The embodiment of the invention provides an intelligent temperature-control air-energy water heater, which is shown in fig. 1 to 9, and comprises a water storage tank 3, wherein an air inlet evaporator 1 is arranged at the front side of the water storage tank 3, a connecting pipe is arranged between the air inlet evaporator 1 and the water storage tank 3, a compressor 2 is arranged on the connecting pipe, the intelligent temperature-control air-energy water heater further comprises an air inlet temperature regulating mechanism 6 for increasing air inlet temperature and reducing energy consumption of the compressor 2, a preheating mechanism 5 for preheating cold water and a constant temperature regulating mechanism 4 for utilizing heat emitted by hot water in the water storage tank 3 after use to avoid loss, the air inlet regulating mechanism comprises an air inlet pipe 61 and an air inlet frame 63, the air inlet frame 63 is arranged at the side of the air inlet evaporator 1, the air inlet frame 63 is positioned at an air inlet of the air inlet evaporator 1, and a plurality of air outlets 62 are arranged on the air inlet frame 63, and each air outlet 62 is connected with the air inlet pipe 61.

When the device is in use, the heat emitted by the residual hot water in the water storage tank 3 after the device is used by a user can be utilized to preheat cold water, and meanwhile, the temperature of air at the air inlet can be increased in the process of preheating the hot water, so that the reduction of the air inlet temperature is avoided, and the power consumption of the compressor 2 is increased.

Specifically, the length of the air inlet frame 63 is the same as that of the air inlet evaporator 1, a blocking grid is arranged outside the air inlet frame 63, and the air outlet 62 is arranged below the air inlet frame 63.

In operation, the hot air ejected from the air inlet frame 63 can be fully mixed with the air inlet, so that the temperature of the air inlet is increased, and the blocking grid is arranged, so that foreign matters can be prevented from entering, and equipment is damaged.

Specifically, the constant temperature adjustment mechanism 4 includes cold water preheating component and heat recovery subassembly, the heat recovery subassembly includes the constant temperature adjustment case 48, be provided with movable heat conduction board 46 in the constant temperature adjustment case 48, be provided with coupling spring 47 between heat conduction board 46 and the constant temperature adjustment case 48 internal surface, it is provided with a plurality of heat conduction finned tube 44 to run through in the constant temperature adjustment case 48, the peripheral hardware of heat conduction finned tube 44 has cooperation cover 418, and heat conduction finned tube 44 sliding connection in cooperation cover 418, connect through the cooperation board between a plurality of heat conduction finned tube 44, the cooperation board top is provided with displacement regulator 45, be provided with a plurality of through-holes on the constant temperature adjustment case 48, all articulate in every through-hole and be provided with unidirectional rotating piece 412.

Specifically, the cold water preheating component includes cooperation board 43, be provided with reset spring 42 between cooperation board 43 and the thermostated container 48, be provided with the slot in the cooperation board 43, one of them side inner wall of thermostated container 48 is provided with cooperation piece 41, cooperation piece 41 position corresponds with the slot position, the other side inner wall of thermostated container 48 is provided with second dog 413, second dog 413 below is provided with conflict piece 414, conflict piece 414's below is provided with extrusion piece 416, extrusion piece 416 is the inclined plane with conflict piece 414 contact surface, second dog 413 one side is provided with connecting block 415, be provided with spring post 49 on the connecting block 415, spring post 49 runs through and sets up in second dog 413, limit hole has been seted up to one side of second dog 413, limit hole is provided with limit lever 410 outward, limit lever 410 tip is the cambered surface, limit lever 411 sets up the outside thermostated container 48, 411 are provided with the connecting rod and are provided with the connecting rod between connection piece 411 and the thermostated container 48, the below is provided with the connecting rod 417 and is provided with the connecting rod and is released 417.

Specifically, the matching plate 43 is of a hollow structure, soft materials are adopted in the middle of the matching plate 43, and the top and the bottom of the matching plate 43 are connected through a telescopic spring.

During operation, the matching plate 43 and the heat conducting plate 46 can be always abutted, so that the normal operation of the equipment is ensured.

Specifically, the water storage tank 3 includes a water inlet pipe 31 and a water outlet pipe 32, the water inlet pipe 31 is provided with the lower end of the water storage tank 3, the water outlet pipe 32 is provided with the upper end of the water storage tank 3, the water outlet pipe 32 is provided with a controller 33, and the controller 33 is electrically connected with a displacement regulator 45.

Specifically, the preheating mechanism 5 includes a preheating water tank 51, the preheating water tank 51 is disposed at one side of the water storage tank 3, and a heating circulation pipe 52 is disposed between the preheating water tank 51 and the water storage tank 3, and an air inlet position of the heating circulation pipe 52 corresponds to the position of the second stop 413.

Specifically, the preheating water tank 51 is made of heat-insulating material.

In operation, the heat-insulating effect of the preheating water tank 51 is improved.

The working principle is as follows; in the use process, after the cold water in the water storage tank 3 is heated by the compressor 2, at the moment, a user uses hot water, the hot water flows out through the water outlet pipe 32, when the use is not needed, the cold water is not added at first, the hot water stops flowing out at the moment, the controller 33 sends out a signal and transmits the signal to the displacement regulator 45, the displacement regulator 45 works to drive the heat conducting finned tubes 44 to move, in the use process, as the heat conducting finned tubes are provided with a plurality of heat conducting finned tubes and are in sliding connection in the matching sleeve, in the initial state, the heat conducting finned tubes are contracted in the matching sleeve, so that a large amount of heat is caused to flow away through the heat conducting finned tubes when the water is needed to be recovered after the use is finished, the heat conducting finned tubes are inserted into the hot water at the moment, and because the heat conducting finned tubes are circular and are provided with gaps between each heat conducting finned tubes, so that rapid heat exchange can be performed, the preheating speed of the preheating water tank is accelerated, the heat emitted by the residual hot water rapidly enters the constant temperature adjusting box 48 through the heat conduction finned tube 44, the gas in the constant temperature adjusting box 48 is heated and expanded, the heat conduction plate 46 and the matching plate 43 are respectively pushed to move in the process of expanding the gas, the matching plate 43 can always abut against the heat conduction plate 46 due to the fact that the matching plate 43 can stretch and contract in the process of moving the heat conduction plate 46, the internal gas can be ensured to expand normally, when the heat conduction plate 46 moves to a certain extent, the heat conduction plate 46 abuts against the push-out block 417 at the moment, the push-out block 417 can move due to the fact that the contact surface of the push-out block 417 and the heat conduction plate 46 is an inclined plane, the connecting rod 411 can be driven to move in the process of moving the push-out block 417, and the connecting rod 411 moves to drive the limiting rod 410 to move, the restricting lever 410 is moved out of the restricting hole, when the restricting lever 410 is moved out, the second stopper 413 is reset under the action of the spring post 49, so that the air inlet of the heating circulation pipe 52 is exposed, the collided air enters the heating circulation pipe 52, but the air after entering cannot normally flow due to no external force, but the air pressure in the thermostatic control chamber 48 is reduced due to the loss of the air, at this time, the heat conducting plate 46 and the matching plate 43 are reset, the rest air can be extruded in the resetting process of the heat conducting plate 46, the matching plate 43 is reset to extract the air, the air in the heating circulation pipe 52 is promoted to circulate, the circulated air can initially heat the water in the preheating water tank 51 through the heating circulation pipe 52, the sucked air enters the thermostatic control chamber 48 again, the extrusion block 416 arranged on the matching plate 43 can abut against the abutting block 414 in the resetting process of the matching plate 43, so that the second stop block 413 is displaced, the air inlet position of the heating circulation pipe 52 is blocked, the heating expansion of the air in the constant temperature adjustment box 48 is facilitated, when the heat emitted by the residual water quantity is insufficient to enable the heat conduction plate 46 to move to the pushing block 417, the preheating water tank 51 stops heating, but part of the residual heat is led out through the heat conduction plate 46, the air inlet 52 of the heating circulation pipe is closed, the heat loss of the preheating water tank 52 can be avoided, the air enters the air inlet frame 63 through the air inlet pipe 61 and flows out through the air outlet 62 on the air inlet frame 63, when the outdoor temperature is low, the temperature with the heat at the moment can be mixed with cold air, the cold air is heated, the normal operation of the compressor 2 is prevented from being influenced by the low outdoor temperature, when the cold air enters the air inlet evaporator 1, the air outlet 62 is in a negative pressure state, so that the effect of sucking hot air can be achieved, the flow of air is promoted, and when the temperature of the cold air is increased, the time required by the compressor 2 to work is reduced, so that the energy consumption of the device is reduced;

when the device is used, the heat emitted by residual hot water in the water storage tank 3 after the device is used by a user can be utilized to preheat cold water, and meanwhile, the temperature of air at the air inlet can be increased in the process of preheating the hot water, so that the reduction of the air inlet temperature is avoided, and the power consumption of the compressor 2 is increased.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (8)

1. An intelligent temperature control air energy water heater comprises a water storage tank (3), wherein an air inlet evaporator (1) is arranged at the front side of the water storage tank (3), a connecting pipe is arranged between the air inlet evaporator (1) and the water storage tank (3), and a compressor (2) is arranged on the connecting pipe, and is characterized in that the air energy water heater comprises a water storage tank, a water inlet pipe and a water inlet pipe; the device is characterized by further comprising an air inlet temperature regulating mechanism (6) for increasing air inlet temperature and reducing energy consumption of the compressor (2), a preheating mechanism (5) for preheating cold water, and a constant temperature regulating mechanism (4) for utilizing hot water in the water storage tank (3) to dissipate heat after the device is used, wherein the constant temperature regulating mechanism (4) is used for avoiding loss, the air inlet regulating mechanism comprises an air inlet pipe (61) and an air inlet frame (63), the air inlet frame (63) is arranged at the side of the air inlet evaporator (1), the air inlet frame (63) is positioned at an air inlet of the air inlet evaporator (1), a plurality of air outlets (62) are formed in the air inlet frame (63), and each air outlet (62) is connected with the air inlet pipe (61).

2. The intelligent temperature-controlled air-powered water heater as claimed in claim 1, wherein; the length of the air inlet frame (63) is the same as that of the air inlet evaporator (1), a blocking grid is arranged outside the air inlet frame (63), and the air outlet (62) is arranged below the air inlet frame (63).

3. The intelligent temperature-controlled air-powered water heater as claimed in claim 1, wherein; the constant temperature adjustment mechanism (4) comprises a cold water preheating component and a heat recovery component, the heat recovery component comprises a constant temperature adjustment box (48), a movable heat conducting plate (46) is arranged in the constant temperature adjustment box (48), a connecting spring (47) is arranged between the heat conducting plate (46) and the inner surface of the constant temperature adjustment box (48), a plurality of heat conducting finned tubes (44) are arranged in the constant temperature adjustment box (48) in a penetrating mode, a matching sleeve (418) is arranged outside the heat conducting finned tubes (44), the heat conducting finned tubes (44) are in sliding connection in the matching sleeve (418), the plurality of heat conducting finned tubes (44) are connected through the matching plate, a displacement adjuster (45) is arranged above the matching plate, a plurality of through holes are formed in the constant temperature adjustment box (48), and unidirectional rotating blocks (412) are all hinged in each through hole.

4. An intelligent temperature-controlled air-powered water heater as claimed in claim 3 wherein; the cold water preheating component comprises a matching plate (43), a reset spring (42) is arranged between the matching plate (43) and a constant temperature regulating box (48), a slot is arranged in the matching plate (43), a matching block (41) is arranged on one side inner wall of the constant temperature regulating box (48), the position of the matching block (41) corresponds to that of the slot, a second stop block (413) is arranged on the other side inner wall of the constant temperature regulating box (48), a supporting block (414) is arranged below the second stop block (413), a pressing block (416) is arranged below the supporting block (414), an inclined plane is arranged on the contact surface of the pressing block (416) and the supporting block (414), a connecting block (415) is arranged on one side of the second stop block (413), a spring column (49) is arranged on the connecting block (415), a limiting hole is formed in one side of the second stop block (413) in a penetrating mode, a limiting rod (410) is arranged outside the limiting hole, the limiting rod (410) is arranged at the end portion of the limiting rod (410), a connecting rod (411) is arranged outside the connecting rod (48), the connecting rod (411) is arranged between the constant temperature regulating box and the connecting rod (48), a push-out block (417) is arranged below the connecting rod (411), and the push-out block (417) is connected with the connecting rod (411).

5. The intelligent temperature-controlled air-powered water heater as claimed in claim 4, wherein; the cooperation board (43) is hollow structure, and adopts soft material in the middle of cooperation board (43), cooperation board (43) top and bottom are through flexible spring connection.

6. The intelligent temperature-controlled air-powered water heater as claimed in claim 1, wherein; the water storage tank (3) comprises a water inlet pipe (31) and a water outlet pipe (32), wherein the water inlet pipe (31) is arranged at the lower end of the water storage tank (3), the water outlet pipe (32) is arranged at the upper end of the water storage tank (3), a controller (33) is arranged on the water outlet pipe (32), and the controller (33) is electrically connected with the displacement regulator (45).

7. The intelligent temperature-controlled air-powered water heater as claimed in claim 1, wherein; the preheating mechanism (5) comprises a preheating water tank (51), the preheating water tank (51) is arranged on one side of the water storage tank (3), a heating circulating pipe (52) is arranged between the preheating water tank (51) and the water storage tank (3), and the air inlet position of the heating circulating pipe (52) corresponds to the position of the second stop block (413).

8. The intelligent temperature-controlled air-powered water heater as claimed in claim 7, wherein; the preheating water tank (51) is made of heat-insulating materials.