阅读说明：本技术 一种具有过滤功能的空气能热泵水机组 (Air energy heat pump water unit with filtering function ) 是由 李新国 于 2021-09-24 设计创作，主要内容包括：本发明提供了一种具有过滤功能的空气能热泵水机组,包括有压缩室、过滤室、循环加热室,压缩室的内部设置有水泵,水泵的上侧面设置有水泵入流管,水泵入流管的顶端从压缩室的上侧面伸出,水泵入流管的顶端与过滤室的下侧面接触连通,水泵的下侧面设置有水泵排流软管,水泵排流软管的下部外周与套环的内周接触,套环的左部外周与第一回位弹簧的右端固定连接,套环的右部外周与位移杆的左端固定连接,位移杆的上下侧面分别与上位限制柱、下位限制柱接触,位移杆的右端与三角板的左斜面接触。本发明公开的技术方案有效的解决了现有技术中不具备水流动能利用能力以及不能实现智能过滤、压力实时监督等技术问题,有利于推广应用。(The invention provides an air energy heat pump water unit with a filtering function, which comprises a compression chamber, a filtering chamber and a circulating heating chamber, wherein a water pump is arranged in the compression chamber, a water pump inflow pipe is arranged on the upper side surface of the water pump, the top end of the water pump inflow pipe extends out of the upper side surface of the compression chamber, the top end of the water pump inflow pipe is in contact communication with the lower side surface of the filtering chamber, a water pump drainage hose is arranged on the lower side surface of the water pump, the outer periphery of the lower part of the water pump drainage hose is in contact with the inner periphery of a lantern ring, the outer periphery of the left part of the lantern ring is fixedly connected with the right end of a first return spring, the outer periphery of the right part of the lantern ring is fixedly connected with the left end of a displacement rod, the upper side surface and the lower side surface of the displacement rod are respectively in contact with an upper limiting column and a lower limiting column, and the right end of the displacement rod is in contact with a left inclined surface of a triangular plate. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have water flow energy utilization capability, can not realize intelligent filtration, real-time pressure supervision and the like, and is beneficial to popularization and application.)

1. The utility model provides an air can heat pump water unit with filtering capability, its characterized in that, including compression chamber (1), filter chamber (2), circulation heating chamber (3), the inside of compression chamber (1) be provided with water pump (5), the side of going up of water pump (5) be provided with water pump inflow pipe (4), the top of water pump inflow pipe (4) stretch out from the side of going up of compression chamber (1), the top of water pump inflow pipe (4) and the downside contact intercommunication of filter chamber (2), the downside of water pump (5) be provided with water pump drainage hose (6), the lower part periphery of water pump drainage hose (6) and the interior peripheral contact of lantern ring (7), the left part periphery of lantern ring (7) and the right-hand member fixed connection of first return spring (8), the right part periphery of lantern ring (7) and the left end fixed connection of displacement pole (9), the upper side surface and the lower side surface of the displacement rod (9) are respectively contacted with the upper limiting column (10) and the lower limiting column (11), and the right end of the displacement rod (9) is contacted with the left inclined surface of the triangular plate (12).

2. Furthermore, a hydraulic cylinder bottom plate (14) is arranged on the upper side face inside the compression chamber 1, a hydraulic cylinder (15) is fixed on the lower side face of the hydraulic cylinder bottom plate (14), a hydraulic rod (16) is arranged at the bottom power output end of the hydraulic cylinder (15), a lateral connecting rod (13) is fixed on the left side face of the middle part of the hydraulic rod (16), a triangular plate (12) is fixed on the left end of the lateral connecting rod (13), the bottom end of the hydraulic rod (16) extends into the compression cylinder (17), an upper pressing sheet (18) is fixed on the bottom end of the hydraulic rod (16), a lower pressing sheet (19) is arranged right below the upper pressing sheet (18), a friction strip (20) is fixed on the lower side face of the lower pressing sheet (19), and the right side face of the compression cylinder (17) is respectively in contact communication with the left ends of the inlet pipe (21) and the outlet pipe (22), the right ends of the inlet pipe (21) and the outlet pipe (22) respectively extend into the circulating heating chamber (3).

3. The air energy heat pump water unit with the filtering function according to claim 1, wherein: the compression mechanism is characterized in that a bearing cylinder (25) is arranged in the compression chamber (1), the bearing cylinder (25) is positioned below a drainage hose (6) of a water pump, the lower side surface of the compression chamber (1) is in contact communication with the top end of a longitudinal water tank pipe (29), the bottom end of the longitudinal water tank pipe (29) is in contact communication with the left end of a transverse water tank pipe (73), the right end of the transverse water tank pipe (73) is in contact communication with the left side surface of a water tank (74), a spray head (75) is arranged on the bottom surface of the water tank (74), a follow-up impeller (28) is arranged in the bearing cylinder (25), a second bevel gear (27) is arranged in the middle of the follow-up impeller (28), the right part of the second bevel gear (27) is in contact engagement with the rear part of a first bevel gear (26), and the right side surface of the first bevel gear (26) is fixedly connected with the left end of a rotating shaft (24), a friction cylinder (23) is fixed at the right end of the rotating shaft (24), and the rear part of the friction cylinder (23) is in contact with the middle part of the friction strip (20).

4. The air energy heat pump water unit with the filtering function according to claim 1, wherein: an electric cylinder bottom plate (33) is fixed on the right side surface inside the filtering chamber (2), an electric cylinder (34) is fixed on the left side surface of the electric cylinder bottom plate (33), an action rod (35) is arranged at the left power output end of the electric cylinder (34), an action plate (36) is fixed at the left end of the action rod (35), a second return spring (37) is fixed at the upper end of the left side surface of the action plate (36), a squeezing block (38) is fixed at the left end of the second return spring (37), a left supporting block (32) is fixed on the left side surface inside the filtering chamber (2), the right end of the left supporting block (32) is contacted with the left side surface of the lower part of the hose (31), the top end of the hose (31) extends out of the upper side surface of the filtering chamber (2), and the top end of the hose (31) is provided with a confluence dish (30).

5. The air energy heat pump water unit with the filtering function according to claim 1, wherein: an upper hanging plate (44) is fixed on the left side surface inside the filtering chamber (2), a lower hanging plate (45) is fixed on the right end of the lower side surface of the upper hanging plate (44), a first rotating half shaft (46) is arranged on the left side surface of the lower hanging plate (45), the bottom of the first rotating half shaft (46) is connected with the top end of a rotating door (47), a fourth return spring (48) is arranged on the left side surface of the rotating door (47), the bottom end of the rotating door (47) is contacted with the left part of the upper side surface of an inclined filtering plate (43), the middle part of the upper side surface of the inclined filtering plate (43) is contacted with the bottom end of a follow-up plate (42), a third return spring (40) is arranged on the top end of the follow-up plate (42), the top end of the third return spring (40) is fixedly connected with the bottom end of an action plate (36), and a left side arm (72) is fixed on the bottom of the left side surface of the action plate (36), the lower part of the right side surface of the left side arm (72) is in contact with the left side surface of the follow-up plate (42), the lower end of the left side surface of the left side arm (72) is fixed with a push rod (41), the bottom of the right side surface of the action plate (36) is fixed with a right side arm (39), and the lower part of the left side surface of the right side arm (39) is in contact with the right side surface of the follow-up plate (42).

6. The air energy heat pump water unit with the filtering function according to claim 1, wherein: the circulating heating chamber (3) is internally provided with a heated gasification chamber (53) and an expansion liquefaction chamber (54), the left side surfaces of the heated gasification chamber (53) and the expansion liquefaction chamber (54) are respectively communicated with the right ends of a third communicating pipe (51) and a fourth communicating pipe (52) in a contact manner, the left end of the third communicating pipe (51) is communicated with the top end of a first communicating pipe (49) in a contact manner, the bottom end of the first communicating pipe (49) is communicated with the right end of an inlet pipe (21) in a contact manner, the left end of the fourth communicating pipe (52) is communicated with the bottom end of a second communicating pipe (50) in a contact manner, the top end of the second communicating pipe (50) is communicated with the right end of an exhaust pipe (22) in a contact manner, the right side surfaces of the heated gasification chamber (53) and the expansion liquefaction chamber (54) are respectively communicated with the left ends of a fifth communicating pipe (55) and a sixth communicating pipe (56) in a contact manner, the right end of the fifth communication pipe (55) is in contact communication with the top end of the seventh communication pipe (57), the right end of the sixth communication pipe (56) is in contact communication with the bottom end of the eighth communication pipe (58), the bottom end of the seventh communication pipe (57) is in contact communication with the upper side surface of the intermediate chamber (59), the top end of the eighth communication pipe (58) is in contact communication with the lower side surface of the intermediate chamber (59), the upper side surface of the heated gasification chamber (53) is in contact with the lower side surface of the upper heat transfer plate (76), the lower side surface of the expansion liquefaction chamber (54) is in contact with the upper side surface of the lower heat transfer plate (77), and the lower side surface of the lower heat transfer plate (77) is in contact with the upper side surface of the water tank (74).

7. The air energy heat pump water unit with the filtering function according to claim 1, wherein: the inside of circulation heating chamber (3) be provided with inductor (61), the inside of inductor (61) be provided with by movable plate (63), the upper portion of the left surface of by movable plate (63) be provided with fifth return spring (64), the inside downside of inductor (61) be fixed with lower backup pad (65), the top of lower backup pad (65) be fixed with fixation nut (66), the middle part periphery of the interior circumference of fixation nut (66) and long bolt (67) carry out the contact fit through threaded connection, the left end of long bolt (67) be fixed with end piece (68), the right-hand member of long bolt (67) be fixed with base (69), the right flank of base (69) be provided with bee calling organ (70), the right flank of bee calling organ (70) be provided with start button (71), the right flank of lower backup pad (65) be fixed connection with the left end of induction column (60), the right end of the induction column (60) extends into the middle chamber (59), and a movable plate (62) is fixed at the right end of the induction column (60).

Technical Field

The invention relates to the technical field of air energy heat pumps, in particular to an air energy heat pump water unit with a filtering function.

Background

The air energy heat pump water unit is an energy-saving and environment-friendly hot water supply device which can replace a boiler and is not limited by resources, and green pollution-free cold coal is adopted to absorb heat in air and produce domestic hot water with the temperature of more than 50 ℃ by applying work. The air source heat pump hot water unit is suitable for places needing hot water heat sources such as indoor swimming pools, hotels, villas, hair salons, bath pedicure, factories, farms and the like. The air source heat pump hot water unit can be used for refrigerating in the heating process, and can also be installed in places which need cold quantity but have low requirements. Along with the development of economy, the requirements of people on the quality of life are higher and higher. The requirements of people on bathing in a cool environment are higher and higher, and the requirements of people on comfort, energy conservation and safety cannot be met by a gas water heater, an electric water heater and a solar water heater.

The invention of the air energy heat pump water unit with the filtering function brings various conveniences to production and life of people, and the air energy heat pump water unit with the filtering function plays an important role in modern production and life. However, the existing air energy heat pump water unit with the filtering function often does not have the water flow energy utilization capability and cannot realize the technical problems of intelligent filtering, pressure real-time supervision and the like, so in view of the above, research and improvement are performed on the structure and the defects in the prior art, and a novel air energy heat pump water unit with the filtering function is provided, which can effectively solve the problems and is beneficial to the future popularization and application of the device.

Disclosure of Invention

The invention aims to provide an air energy heat pump water unit with a filtering function, and aims to solve the technical problems that the prior art does not have water flow energy utilization capability, cannot realize intelligent filtering, cannot realize real-time pressure supervision and the like.

In order to achieve the aim, the invention provides an air energy heat pump water unit with a filtering function, which comprises a compression chamber, a filtering chamber and a circulating heating chamber, the interior of the compression chamber is provided with a water pump, the upper side surface of the water pump is provided with a water pump inflow pipe, the top end of the water pump inflow pipe extends out of the upper side surface of the compression chamber, the top end of the water pump inflow pipe is communicated with the lower side surface of the filter chamber in a contact way, the lower side surface of the water pump is provided with a water pump drainage hose, the outer periphery of the lower part of the water pump drainage hose is contacted with the inner periphery of the lantern ring, the left periphery of the lantern ring is fixedly connected with the right end of the first return spring, the right periphery of the lantern ring is fixedly connected with the left end of the displacement rod, the upper side surface and the lower side surface of the displacement rod are respectively contacted with the upper limiting column and the lower limiting column, and the right end of the displacement rod is contacted with the left inclined surface of the triangular plate.

The inside side of going up of compression chamber be provided with the pneumatic cylinder bottom plate, the downside of pneumatic cylinder bottom plate be fixed with the pneumatic cylinder, the bottom power take off of pneumatic cylinder be provided with the hydraulic stem, the middle part left surface of hydraulic stem be fixed with the side direction connecting rod, the left end of side direction connecting rod be fixed with the set-square, the bottom of hydraulic stem stretch into the inside of compression section of thick bamboo, the bottom mounting of hydraulic stem have last preforming, be provided with the next preforming under the last preforming, the downside of next preforming be fixed with the friction strip, the right side of compression section of thick bamboo contact the intercommunication with the left end of admission pipe, discharge pipe respectively, the right-hand member of admission pipe, discharge pipe stretch into the inside of circulation heating chamber respectively.

The bearing cylinder is arranged inside the compression chamber, the bearing cylinder is positioned below a drainage hose of the water pump, the lower side surface of the compression chamber is in contact communication with the top end of a longitudinal water tank pipe, the bottom end of the longitudinal water tank pipe is in contact communication with the left end of a transverse water tank pipe, the right end of the transverse water tank pipe is in contact communication with the left side surface of the water tank, a spray head is arranged on the bottom surface of the water tank, a follow-up impeller is arranged inside the bearing cylinder, a second bevel gear is arranged in the middle of the follow-up impeller, the right part of the second bevel gear is in contact engagement with the rear part of a first bevel gear, the right side surface of the first bevel gear is fixedly connected with the left end of a rotating shaft, a friction cylinder is fixed at the right end of the rotating shaft, and the rear part of the friction cylinder is in contact with the middle of a friction strip.

The inside right flank of filter chamber be fixed with electronic jar bottom plate, the left surface of electronic jar bottom plate be fixed with electronic jar, the left part power take off end of electronic jar be provided with the action bars, the left end of action bars be fixed with the action board, the upper end of the left surface of action board be fixed with second return spring, the left end of second return spring be fixed with the extrusion piece, the inside left surface of filter chamber be fixed with left supporting shoe, the left side contact of the right-hand member of left supporting shoe and the lower part of hose, the top of hose stretch out from the side of going up of filter chamber, the top of hose be provided with the confluence ware.

The left side surface of the inside of the filtering chamber is fixed with an upper hanging plate, the right end of the lower side surface of the upper hanging plate is fixed with a lower hanging plate, the left side surface of the lower hanging plate is provided with a first rotating half shaft, the bottom of the first rotating half shaft is connected with the top end of a rotating door, the left side surface of the rotating door is provided with a fourth return spring, the bottom end of the rotating door is contacted with the left part of the upper side surface of an inclined filtering plate, the middle part of the upper side surface of the inclined filtering plate is contacted with the bottom end of a follow-up plate, the top end of the follow-up plate is provided with a third return spring, the top end of the third return spring is fixedly connected with the bottom end of an action plate, the bottom of the left side surface of the action plate is fixed with a left position, the lower part of the right side surface of a side arm is contacted with the left side surface of the follow-up plate, the lower end of the left side surface of the left side arm is fixed with a push rod, the bottom of the right side surface of the action plate is fixed with a right side arm, and the lower part of the left side surface of the right side arm is in contact with the right side surface of the follow-up plate.

The circulating heating chamber is internally provided with a heated gasification chamber and an expansion liquefaction chamber, the left side surfaces of the heated gasification chamber and the expansion liquefaction chamber are respectively in contact communication with the right ends of a third communicating pipe and a fourth communicating pipe, the left end of the third communicating pipe is in contact communication with the top end of a first communicating pipe, the bottom end of the first communicating pipe is in contact communication with the right end of an inlet pipe, the left end of the fourth communicating pipe is in contact communication with the bottom end of a second communicating pipe, the top end of the second communicating pipe is in contact communication with the right end of a discharge pipe, the right side surfaces of the heated gasification chamber and the expansion liquefaction chamber are respectively in contact communication with the left ends of a fifth communicating pipe and a sixth communicating pipe, the right end of the fifth communicating pipe is in contact communication with the top end of a seventh communicating pipe, the right end of the sixth communicating pipe is in contact communication with the bottom end of an eighth communicating pipe, and the bottom end of the seventh communicating pipe is in contact communication with the upper side surface of an intermediate chamber, the top end of the eighth communicating pipe is communicated with the lower side surface of the middle chamber in a contact manner, the upper side surface of the heated gasification chamber is contacted with the lower side surface of the upper heat transfer plate, the lower side surface of the expansion liquefaction chamber is contacted with the upper side surface of the lower heat transfer plate, and the lower side surface of the lower heat transfer plate is contacted with the upper side surface of the water tank.

The inside of circulation heating chamber be provided with the inductor, the inside of inductor be provided with by the movable plate, the upper portion of the left surface of by the movable plate be provided with fifth return spring, the inside downside of inductor be fixed with next backup pad, the top of next backup pad be fixed with fixation nut, fixation nut's the interior circumference and the middle part periphery of stay bolt carry out the contact cooperation through threaded connection, the left end of stay bolt be fixed with the end piece, the right-hand member of stay bolt be fixed with the base, the right flank of base be provided with bee calling organ, bee calling organ's right flank be provided with the start button, the right flank of next backup pad and the left end fixed connection of induction column, the right-hand member of induction column stretch into the inside of intermediate chamber, the right-hand member of induction column be fixed with the movable plate.

The water pump, the hydraulic cylinder, the electric cylinder, the buzzer and the like are all assembled on the existing equipment, and therefore specific models and specifications are not described repeatedly.

The invention has the beneficial effects that:

1. the components of the air energy heat pump water unit with the filtering function are reliably connected, the detection and maintenance are very convenient, the realization cost is low, and a water pump, a hydraulic cylinder, an electric cylinder, a buzzer and the like which are involved in the equipment are all assembled by the existing equipment, so that the popularization and the application of the air energy heat pump water unit with the filtering function in the technical field of future air energy heat pumps are facilitated;

2. the air energy heat pump water unit with the filtering function innovatively realizes the utilization effect of water flow energy, and realizes the auxiliary compression effect of a medium with a low boiling point while saving energy, in particular, a water pump is arranged in a compression chamber, a water pump inflow pipe is arranged on the upper side surface of the water pump, the top end of the water pump inflow pipe extends out of the upper side surface of the compression chamber, the top end of the water pump inflow pipe is communicated with the lower side surface of a filtering chamber in a contact manner, a water pump drainage hose is arranged on the lower side surface of the water pump, the lower outer periphery of the water pump drainage hose is contacted with the inner periphery of a lantern ring, the left outer periphery of the lantern ring is fixedly connected with the right end of a first return spring, the right outer periphery of the lantern ring is fixedly connected with the left end of a displacement rod, the upper side surface and the lower side surface of the displacement rod are respectively contacted with an upper limiting column and a lower limiting column, and the right end of the displacement rod is contacted with the left inclined surface of a triangular plate, a hydraulic cylinder bottom plate is arranged on the upper side face in the compression chamber, a hydraulic cylinder is fixed on the lower side face of the hydraulic cylinder bottom plate, a hydraulic rod is arranged at the power output end of the bottom of the hydraulic cylinder, a lateral connecting rod is fixed on the left side face of the middle part of the hydraulic rod, a triangular plate is fixed on the left end of the lateral connecting rod, the bottom end of the hydraulic rod extends into the compression cylinder, an upper pressing sheet is fixed on the bottom end of the hydraulic rod, a lower pressing sheet is arranged right below the upper pressing sheet, a friction strip is fixed on the lower side face of the lower pressing sheet, the right side face of the compression cylinder is respectively in contact communication with the left ends of an inlet pipe and a discharge pipe, the right ends of the inlet pipe and the discharge pipe respectively extend into the circulating heating chamber, a bearing cylinder is arranged in the compression chamber and is positioned below a drainage hose of a water pump, a follow-up impeller is arranged in the bearing cylinder, a second bevel gear is arranged in the middle of the follow-up impeller, and the right of the second bevel gear is in contact engagement with the rear part of the first bevel gear, the right side surface of the first bevel gear is fixedly connected with the left end of the rotating shaft, the right end of the rotating shaft is fixedly provided with a friction cylinder, the rear part of the friction cylinder is contacted with the middle part of the friction strip, further, gasified media enter the compression cylinder through an inlet pipe, the water pump discharges water flow through a water pump drainage hose, the hydraulic cylinder works and outputs power through a hydraulic rod, when the hydraulic rod moves downwards, on one hand, a downward compression effect is generated through an upper pressing sheet, on the other hand, a triangular plate is driven to move downwards through a lateral connecting rod, a displacement rod pushes the lower part of the water pump drainage hose leftwards through a lantern ring, further, the water flow discharged downwards through the water pump drainage hose impacts the left part of the follow-up impeller to drive the follow-up impeller to move anticlockwise, the motion is transmitted to the rotating shaft through a second bevel gear and the rotating friction cylinder drives the friction strip to move upwards, and an upward compression effect is generated through a lower pressing sheet, when the hydraulic rod moves upwards, on one hand, an upward return effect is generated through the upper pressing sheet, on the other hand, the triangular plate is driven to move upwards through the lateral connecting rod, the displacement rod pushes the lower part of the water pump drainage hose rightwards through the lantern ring, then, water flow discharged downwards through the water pump drainage hose impacts the right part of the follow-up impeller to drive the follow-up impeller to move clockwise, the movement is transmitted to the rotating shaft through the second bevel gear and the first bevel gear, the rotating friction cylinder drives the friction strip to move downwards, and a downward return effect is generated through the lower pressing sheet;

3. the air energy heat pump water unit with the filtering function is characterized in that an electric cylinder bottom plate is fixed on the right side face inside the filtering chamber, an electric cylinder is fixed on the left side face of the electric cylinder bottom plate, an action rod is arranged at the left power output end of the electric cylinder, an action plate is fixed at the left end of the action rod, a second return spring is fixed at the upper end of the left side face of the action plate, a squeezing block is fixed at the left end of the second return spring, a left supporting block is fixed on the left side face inside the filtering chamber, the right end of the left supporting block is in contact with the left side face of the lower portion of a hose, the top end of the hose extends out of the upper side face of the filtering chamber, a confluence dish is arranged at the top end of the hose, and an upper hanging plate is fixed on the left side face inside the filtering chamber, the right end of the lower side surface of the upper hanging plate is fixed with a lower hanging plate, the left side surface of the lower hanging plate is provided with a first rotating half shaft, the bottom of the first rotating half shaft is connected with the top end of a rotating door, the left side surface of the rotating door is provided with a fourth return spring, the bottom end of the rotating door is in contact with the left part of the upper side surface of an inclined filter plate, the middle part of the upper side surface of the inclined filter plate is in contact with the bottom end of a follow-up plate, the top end of the follow-up plate is provided with a third return spring, the top end of the third return spring is fixedly connected with the bottom end of an action plate, the bottom of the left side surface of the action plate is fixed with a left side arm, the lower part of the right side surface of the left side arm is in contact with the left side surface of the follow-up plate, the lower end of the left side surface of the left side arm is fixed with a push rod, the bottom of the right side surface of the action plate is fixed with a right side arm, the lower part of the left side surface of the right side arm is in contact with the right side surface of the follow-up plate, and water flow passes through a confluence dish, The hose is discharged into the filter chamber, the inclined filter plate filters water flow, filtered impurities are retained on the upper side face of the inclined filter plate, when more impurities are accumulated, the electric cylinder works and transmits power to the action plate through the action rod, on one hand, the hose is extruded by the extrusion block to prevent the water flow from continuously flowing down, on the other hand, the action plate drives the follow-up plate to move leftwards through the left side arm and the right side arm, the push rod pushes the swing door to rotate anticlockwise to form an opening, the follow-up plate pushes the impurities on the upper side face of the inclined filter plate to move leftwards and discharge the impurities to the left side of the swing door, and the impurities are prevented from being blocked by the inclined filter plate due to excessive deformation;

4. the air energy heat pump water unit with the filtering function can realize circulation heating of a water tank based on a circulation heating chamber, and meanwhile, can monitor the internal pressure in real time, and can give an alarm to remind a user when the pressure is too high, so that the work safety is guaranteed The left end of a sixth communicating pipe is communicated in a contact mode, the right end of a fifth communicating pipe is communicated with the top end of a seventh communicating pipe in a contact mode, the right end of the sixth communicating pipe is communicated with the bottom end of an eighth communicating pipe in a contact mode, the bottom end of the seventh communicating pipe is communicated with the upper side face of an intermediate chamber in a contact mode, the top end of the eighth communicating pipe is communicated with the lower side face of the intermediate chamber in a contact mode, the upper side face of a heated gasification chamber is contacted with the lower side face of an upper heat transfer plate, the lower side face of an expansion liquefaction chamber is contacted with the upper side face of a lower heat transfer plate, the lower side face of the lower heat transfer plate is contacted with the upper side face of a water tank, an inductor is arranged inside the circulating heating chamber, a driven plate is arranged inside the inductor, a fifth return spring is arranged on the upper portion of the left side face of the driven plate, a lower support plate is fixed to the inner lower side face of the inductor, a fixing nut is fixed to the top end of the lower support plate, and the inner circumference of the fixing nut are in contact fit with the middle portion of a long bolt through threaded connection, the left end of the long bolt is fixed with an end piece, the right end of the long bolt is fixed with a base, the right side of the base is provided with a buzzer, the right side of the buzzer is provided with a start button, the right side of a lower support plate is fixedly connected with the left end of an induction column, the right end of the induction column extends into the middle chamber, a movable plate is fixed at the right end of the induction column, further, a compressed and gasified medium in a compression cylinder is discharged into the expansion liquefying chamber through a discharge pipe, a second communication pipe and a fourth communication pipe to expand and release heat, further, the lower heat transfer plate is used for heating the water tank, the liquefied medium is discharged into the heated gasifying chamber through an eighth communication pipe, the middle chamber, a seventh communication pipe and a fifth communication pipe, air is heated and gasified through the upper heat transfer plate, and the gasified medium is gasified through a third communication pipe and a first communication pipe, The admission pipe emits into inside and then accomplish the circulation of compression section of thick bamboo, in addition, when the internal pressure of middle room was too big, through movable plate, response post promotion by the movable plate, the left surface of by the movable plate forces the start button that bee calling organ right flank set up for bee calling organ sends out the police dispatch newspaper in order reminding the user, and the user also can be through rotatory end piece, long bolt in order to change the initial position of bee calling organ, and then realizes the adjustment to alarm pressure.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below.

Drawings

FIG. 1 is a schematic diagram of an axial side projection structure of the overall structure of the device of the present invention.

Fig. 2 is a front view of the overall structure of the device of the present invention.

Fig. 3 is a rear view of the overall structure of the device of the present invention.

Fig. 4 is a left side view of the overall structure of the device of the present invention.

Fig. 5 is a schematic view showing an internal structure of a compression chamber according to the present invention.

Figure 6 is a schematic view of the internal structure of the filtering chamber according to the present invention.

Fig. 7 is a schematic view of the internal structure of the circulation heating chamber according to the present invention.

Fig. 8 is a schematic view showing an internal structure of the middle chamber according to the present invention.

Fig. 9 is a schematic diagram of the internal structure of the inductor according to the present invention.

1. A compression chamber, 2, a filter chamber, 3, a circulating heating chamber, 4, a water pump inflow pipe, 5, a water pump, 6, a water pump drainage hose, 7, a lantern ring, 8, a first return spring, 9, a displacement rod, 10, an upper limiting column, 11, a lower limiting column, 12, a triangular plate, 13, a lateral connecting rod, 14, a hydraulic cylinder bottom plate, 15, a hydraulic cylinder, 16, a hydraulic rod, 17, a compression cylinder, 18, an upper pressing plate, 19, a lower pressing plate, 20, a friction strip, 21, an inlet pipe, 22, a discharge pipe, 23, a friction cylinder, 24, a rotating shaft, 25, a bearing cylinder, 26, a first bevel gear, 27, a second bevel gear, 28, a follow-up impeller, 29, a water tank longitudinal pipe, 30, a confluence vessel, 31, a hose, 32, a left supporting block, 33, an electric cylinder bottom plate, 34, an electric cylinder, 35, an action rod, 36, an action plate, 37, a second return spring, 38, and a squeezing block, 39. a right side arm 40, a third return spring 41, a push rod 42, a follower plate 43, an inclined filter plate 44, an upper hanger plate 45, a lower hanger plate 46, a first rotating half shaft 47, a rotating door 48, a fourth return spring 49, a first communication pipe 50, a second communication pipe 51, a third communication pipe 52, a fourth communication pipe 53, a heated vaporizer 54, an expansion liquefier 55, a fifth communication pipe 56, a sixth communication pipe 57, a seventh communication pipe 58, an eighth communication pipe 59, an intermediate chamber 60, a sensing column 61, a sensor 62, a movable plate 63, a follower plate 64, a fifth return spring 65, a lower support plate 66, a fixing nut 67, a long bolt 68, an end piece 69, a base 70, a buzzer 71, a start button 72, a left side arm 73, a water tank transverse pipe 74, a water tank 75, a water tank 74, A nozzle 76, an upper heat transfer plate 77 and a lower heat transfer plate.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1 to 9, the air energy heat pump water unit with a filtering function provided by the invention comprises a compression chamber 1, a filtering chamber 2 and a circulating heating chamber 3, wherein a water pump 5 is arranged inside the compression chamber 1, a water pump inflow pipe 4 is arranged on the upper side surface of the water pump 5, the top end of the water pump inflow pipe 4 extends out of the upper side surface of the compression chamber 1, the top end of the water pump inflow pipe 4 is in contact communication with the lower side surface of the filtering chamber 2, a water pump drainage hose 6 is arranged on the lower side surface of the water pump 5, the lower outer periphery of the water pump drainage hose 6 is in contact with the inner periphery of a lantern ring 7, the left outer periphery of the lantern ring 7 is fixedly connected with the right end of a first return spring 8, the right outer periphery of the lantern ring 7 is fixedly connected with the left end of a displacement rod 9, and the upper and lower side surfaces of the displacement rod 9 are respectively connected with an upper limiting column 10, a lower limiting column 10 and a lower limiting column 4, The lower limiting column 11 is contacted, and the right end of the displacement rod 9 is contacted with the left inclined surface of the triangular plate 12.

Furthermore, a hydraulic cylinder bottom plate 14 is arranged on the upper side surface inside the compression chamber 1, a hydraulic cylinder 15 is fixed on the lower side surface of the hydraulic cylinder bottom plate 14, the bottom power output end of the hydraulic cylinder 15 is provided with a hydraulic rod 16, the left side surface of the middle part of the hydraulic rod 16 is fixed with a lateral connecting rod 13, the left end of the lateral connecting rod 13 is fixed with a triangle 12, the bottom end of the hydraulic rod 16 extends into the compression cylinder 17, an upper pressing sheet 18 is fixed at the bottom end of the hydraulic rod 16, a lower pressing sheet 19 is arranged right below the upper pressing sheet 18, the lower side surface of the lower pressing sheet 19 is fixed with a friction strip 20, the right side surface of the compression cylinder 17 is respectively contacted and communicated with the left ends of an inlet pipe 21 and an outlet pipe 22, the right ends of the inlet pipe 21 and the outlet pipe 22 extend into the circulating heating chamber 3.

Furthermore, a receiving cylinder 25 is arranged inside the compression chamber 1, the receiving cylinder 25 is positioned below the water pump drainage hose 6, the lower side surface of the compression chamber 1 is in contact communication with the top end of the water tank longitudinal pipe 29, the bottom end of the water tank longitudinal pipe 29 is in contact communication with the left end of the water tank transverse pipe 73, the right end of the water tank transverse pipe 73 is in contact communication with the left side surface of the water tank 74, the bottom surface of the water tank 74 is provided with a spray head 75, a following impeller 28 is arranged in the bearing cylinder 25, a second bevel gear 27 is arranged in the middle of the following impeller 28, the right part of the second bevel gear 27 is in contact and meshed with the rear part of the first bevel gear 26, the right side surface of the first bevel gear 26 is fixedly connected with the left end of the rotating shaft 24, the right end of the rotating shaft 24 is fixed with a friction cylinder 23, and the rear part of the friction cylinder 23 is contacted with the middle part of the friction strip 20. Furthermore, the device can realize the utilization effect of water flow energy and the compression effect of low boiling point media, the gasified media enter the compression cylinder 17 through the inlet pipe 21, the water pump 5 discharges the water flow through the water pump drainage hose 6, the hydraulic cylinder 15 works and outputs power through the hydraulic rod 16, when the hydraulic rod 16 moves downwards, on one hand, the upper pressing sheet 18 generates downward compression effect, on the other hand, the side connecting rod 13 drives the triangular plate 12 to move downwards, the displacement rod 9 pushes the lower part of the water pump drainage hose 6 leftwards through the lantern ring 7, and then the water flow discharged downwards through the water pump drainage hose 6 impacts the left part of the follow-up impeller 28 to drive the follow-up impeller 28 to move anticlockwise, the movement is transmitted to the rotating shaft 24 through the second bevel gear 27 and the first bevel gear 26, the rotating friction cylinder 23 drives the friction strip 20 to move upwards, produce ascending compression effect through lower preforming 19, when hydraulic stem 16 upwards moves, produce ascending return effect through last preforming 18 on the one hand, on the other hand drives set-square 12 upward movement through side direction connecting rod 13, displacement rod 9 promotes the lower part of water pump drainage hose 6 right through lantern ring 7, and then the rivers impact the right part of follow-up impeller 28 that pass through water pump drainage hose 6 downward exhaust, drive follow-up impeller 28 clockwise motion, the motion is transmitted to axis of rotation 24 through second bevel gear 27, first bevel gear 26, pivoted friction cylinder 23 drives friction strip 20 and moves down, produce decurrent return effect through lower preforming 19.

Further, an electric cylinder bottom plate 33 is fixed on the right side surface inside the filtering chamber 2, an electric cylinder 34 is fixed on the left side surface of the electric cylinder bottom plate 33, an actuating rod 35 is arranged at the left power output end of the electric cylinder 34, an actuating plate 36 is fixed at the left end of the actuating rod 35, a second return spring 37 is fixed at the upper end of the left side surface of the actuating plate 36, a squeezing block 38 is fixed at the left end of the second return spring 37, a left support block 32 is fixed on the left side surface inside the filtering chamber 2, the right end of the left support block 32 is in contact with the left side surface of the lower portion of the hose 31, the top end of the hose 31 extends out of the upper side surface of the filtering chamber 2, and a confluence plate 30 is arranged at the top end of the hose 31.

Furthermore, an upper hanging plate 44 is fixed on the left side surface inside the filtering chamber 2, a lower hanging plate 45 is fixed on the right end of the lower side surface of the upper hanging plate 44, a first rotating half shaft 46 is arranged on the left side surface of the lower hanging plate 45, the bottom of the first rotating half shaft 46 is connected with the top end of a rotating door 47, a fourth return spring 48 is arranged on the left side surface of the rotating door 47, the bottom end of the rotating door 47 is in contact with the left part of the upper side surface of an inclined filtering plate 43, the middle part of the upper side surface of the inclined filtering plate 43 is in contact with the bottom end of a follow-up plate 42, a third return spring 40 is arranged on the top end of the follow-up plate 42, the top end of the third return spring 40 is fixedly connected with the bottom end of an actuating plate 36, a left side arm 72 is fixed on the bottom of the left side surface of the actuating plate 36, the lower part of the right side surface of the left side arm 72 is in contact with the left side surface of the follow-up plate 42, the lower end of the left side surface of the left side arm 72 is fixed with a push rod 41, the bottom of the right side surface of the action plate 36 is fixed with a right side arm 39, and the lower part of the left side surface of the right side arm 39 is contacted with the right side surface of the follow-up plate 42. Furthermore, the device of the invention can realize the filtering function to the water flow, and can discharge the impurities filtered in the water flow to avoid the blockage, the water flow is discharged into the interior of the filtering chamber 2 through the confluence dish 30 and the hose 31, the inclined filtering plate 43 filters the water flow, the filtered impurities are retained on the upper side surface of the inclined filtering plate 43, when the accumulated impurities are more, the electric cylinder 34 works and transmits power to the action plate 36 through the action rod 35, on one hand, the extrusion block 38 extrudes the hose 31 to prevent water flow from flowing down continuously, on the other hand, the action plate 36 drives the follow-up plate 42 to move leftwards through the left side arm 72 and the right side arm 39, the push rod 41 pushes the revolving door 47 to rotate anticlockwise to form an opening, and the follow-up plate 42 pushes the impurities on the upper side surface of the inclined filter plate 43 to move leftwards and discharge the impurities to the left side of the revolving door 47, so that the impurities are prevented from blocking the inclined filter plate 43 due to multiformity.

Further, a heated vaporizing chamber 53 and an expansion liquefying chamber 54 are arranged inside the circulating heating chamber 3, the left side surfaces of the heated vaporizing chamber 53 and the expansion liquefying chamber 54 are respectively in contact communication with the right ends of a third communicating pipe 51 and a fourth communicating pipe 52, the left end of the third communicating pipe 51 is in contact communication with the top end of a first communicating pipe 49, the bottom end of the first communicating pipe 49 is in contact communication with the right end of the inlet pipe 21, the left end of the fourth communicating pipe 52 is in contact communication with the bottom end of a second communicating pipe 50, the top end of the second communicating pipe 50 is in contact communication with the right end of the outlet pipe 22, the right side surfaces of the heated vaporizing chamber 53 and the expansion liquefying chamber 54 are respectively in contact communication with the left ends of a fifth communicating pipe 55 and a sixth communicating pipe 56, the right end of the fifth communicating pipe 55 is in contact communication with the top end of a seventh communicating pipe 57, the right end of the sixth communicating pipe 56 is in contact communication with the bottom end of an eighth communicating pipe 58, the bottom end of the seventh communication pipe 57 is in contact communication with the upper side surface of the intermediate chamber 59, the top end of the eighth communication pipe 58 is in contact communication with the lower side surface of the intermediate chamber 59, the upper side surface of the heated gasification chamber 53 is in contact with the lower side surface of the upper heat transfer plate 76, the lower side surface of the expansion liquefaction chamber 54 is in contact with the upper side surface of the lower heat transfer plate 77, and the lower side surface of the lower heat transfer plate 77 is in contact with the upper side surface of the water tank 74.

Furthermore, an inductor 61 is arranged inside the circulating heating chamber 3, a driven plate 63 is arranged inside the inductor 61, a fifth return spring 64 is arranged on the upper portion of the left side surface of the driven plate 63, a lower support plate 65 is fixed on the lower side surface inside the inductor 61, a fixing nut 66 is fixed on the top end of the lower support plate 65, the inner circumference of the fixing nut 66 is in contact fit with the outer circumference of the middle part of a long bolt 67 through threaded connection, an end piece 68 is fixed on the left end of the long bolt 67, a base 69 is fixed on the right end of the long bolt 67, a buzzer 70 is arranged on the right side surface of the base 69, a starting button 71 is arranged on the right side surface of the buzzer 70, the right side surface of the support plate 65 is fixedly connected with the left end of the induction column 60, and the right end of the induction column 60 extends into the middle chamber 59, a movable plate 62 is fixed to the right end of the induction column 60. Furthermore, the inventive device can realize circulation heating of the water tank 74, simultaneously supervise the internal pressure in real time, alarm to remind the user when the pressure is too high, the gasified medium compressed in the compression cylinder 17 is discharged into the expansion liquefaction chamber 54 through the discharge pipe 22, the second communication pipe 50 and the fourth communication pipe 52 to expand and release heat, further the water tank 74 is heated through the lower heat transfer plate 77, the liquefied medium is discharged into the heated gasification chamber 53 through the eighth communication pipe 58, the middle chamber 59, the seventh communication pipe 57 and the fifth communication pipe 55, the air heats and gasifies the medium through the upper heat transfer plate 76, the gasified medium is discharged into the compression cylinder 17 through the third communication pipe 51, the first communication pipe 49 and the inlet pipe 21 to complete circulation, furthermore, when the internal pressure of the middle chamber 59 is too high, the driven plate 63 is pushed by the movable plate 62 and the induction column 60, and the left side surface of the driven plate 63 presses the starting button 71 arranged on the right side surface of the buzzer 70, so that the buzzer 70 gives an alarm to remind a user, and the user can change the initial position of the buzzer 70 by rotating the end piece 68 and the long bolt 67, and further realize the adjustment of the alarm pressure.

The water pump 5, the hydraulic cylinder 15, the electric cylinder 34, the buzzer 70 and the like are all assembled by existing equipment, and therefore specific models and specifications are not described in detail.

The working principle of the invention is as follows:

the invention provides an air energy heat pump water unit with a filtering function, which comprises a compression chamber 1, a filtering chamber 2 and a circulating heating chamber 3, wherein a water pump 5 is arranged in the compression chamber 1, a water pump inflow pipe 4 is arranged on the upper side surface of the water pump 5, the top end of the water pump inflow pipe 4 extends out of the upper side surface of the compression chamber 1, the top end of the water pump inflow pipe 4 is in contact communication with the lower side surface of the filtering chamber 2, a water pump drainage hose 6 is arranged on the lower side surface of the water pump 5, the lower outer periphery of the water pump drainage hose 6 is in contact with the inner periphery of a lantern ring 7, the left outer periphery of the lantern ring 7 is fixedly connected with the right end of a first return spring 8, the right outer periphery of the lantern ring 7 is fixedly connected with the left end of a displacement rod 9, the upper side surface and the lower side surface of the displacement rod 9 are respectively in contact with an upper limiting column 10 and a limiting column 11, the right end of the displacement rod 9 contacts with the left inclined plane of the triangular plate 12, the upper side surface inside the compression chamber 1 is provided with a hydraulic cylinder bottom plate 14, the lower side surface of the hydraulic cylinder bottom plate 14 is fixed with a hydraulic cylinder 15, the bottom power output end of the hydraulic cylinder 15 is provided with a hydraulic rod 16, the left side surface in the middle of the hydraulic rod 16 is fixed with a lateral connecting rod 13, the left end of the lateral connecting rod 13 is fixed with the triangular plate 12, the bottom end of the hydraulic rod 16 extends into the compression cylinder 17, the bottom end of the hydraulic rod 16 is fixed with an upper pressing sheet 18, a lower pressing sheet 19 is arranged right below the upper pressing sheet 18, the lower side surface of the lower pressing sheet 19 is fixed with a friction strip 20, the right side surface of the compression cylinder 17 is respectively contacted and communicated with the left ends of the inlet pipe 21 and the outlet pipe 22, and the right ends of the inlet pipe 21 and the outlet pipe 22 respectively extend into the circulation heating chamber 3, the compression chamber 1 is internally provided with a bearing cylinder 25, the bearing cylinder 25 is positioned below the water pump drainage hose 6, the lower side surface of the compression chamber 1 is in contact communication with the top end of the water tank longitudinal pipe 29, the bottom end of the water tank longitudinal pipe 29 is in contact communication with the left end of the water tank transverse pipe 73, the right end of the water tank transverse pipe 73 is in contact communication with the left side surface of the water tank 74, the bottom surface of the water tank 74 is provided with a spray head 75, the bearing cylinder 25 is internally provided with a follow-up impeller 28, the middle part of the follow-up impeller 28 is provided with a second bevel gear 27, the device can realize the utilization effect on the water kinetic energy, the compression effect on the low boiling point medium is realized, the gasified medium enters the compression cylinder 17 through the inlet pipe 21, the water pump 5 discharges the water flow through the water pump drainage hose 6, the water pump hydraulic cylinder 15 works and outputs power through the hydraulic rod 16, when the hydraulic rod 16 moves downwards, on one hand, the upper pressing sheet 18 generates a downward compression effect, on the other hand, the lateral connecting rod 13 drives the triangular plate 12 to move downwards, the displacement rod 9 pushes the lower part of the water pump drainage hose 6 leftwards through the lantern ring 7, then water flow discharged downwards through the water pump drainage hose 6 impacts the left part of the follow-up impeller 28 to drive the follow-up impeller 28 to move anticlockwise, the motion is transmitted to the rotating shaft 24 through the second bevel gear 27 and the first bevel gear 26, the rotating friction cylinder 23 drives the friction strip 20 to move upwards, the lower pressing sheet 19 generates an upward compression effect, when the hydraulic rod 16 moves upwards, on the one hand, the upper pressing sheet 18 generates an upward return effect, on the other hand, the lateral connecting rod 13 drives the triangular plate 12 to move upwards, the displacement rod 9 pushes the lower part of the water pump drainage hose 6 rightwards through the lantern ring 7, and then water flow discharged downwards through the water pump drainage hose 6 impacts the right part of the follow-up impeller 28, the following impeller 28 is driven to move clockwise, the movement is transmitted to the rotating shaft 24 through the second bevel gear 27 and the first bevel gear 26, the rotating friction cylinder 23 drives the friction strip 20 to move downwards, and a downward returning effect is generated through the lower pressing sheet 19.

The inside right flank of filter chamber 2 be fixed with electronic jar bottom plate 33, the left flank of electronic jar bottom plate 33 be fixed with electronic jar 34, the left side power take off end of electronic jar 34 be provided with action bars 35, the left end of action bars 35 be fixed with action plate 36, the upper end of the left flank of action plate 36 be fixed with second return spring 37, the left end of second return spring 37 be fixed with extrusion piece 38, the inside left flank of filter chamber 2 be fixed with left supporting shoe 32, the left side contact of the right-hand member of left supporting shoe 32 with the left surface of the lower part of hose 31, the top of hose 31 stretch out from the side of filter chamber 2, the top of hose 31 be provided with confluence dish 30, the inside left flank of filter chamber 2 be fixed with upper hanger plate 44, the right-hand member of the downside of upper hanger plate 44 be fixed with lower hanger plate 45, a first rotating half shaft 46 is arranged on the left side surface of the lower hanging plate 45, the bottom of the first rotating half shaft 46 is connected with the top end of a rotating door 47, a fourth return spring 48 is arranged on the left side surface of the rotating door 47, the bottom end of the rotating door 47 is in contact with the left part of the upper side surface of the inclined filter plate 43, the middle part of the upper side surface of the inclined filter plate 43 is in contact with the bottom end of a follow-up plate 42, a third return spring 40 is arranged on the top end of the follow-up plate 42, the top end of the third return spring 40 is fixedly connected with the bottom end of the action plate 36, a left side arm 72 is fixed at the bottom of the left side surface of the action plate 36, the lower part of the right side surface of the left side arm 72 is in contact with the left side surface of the follow-up plate 42, a push rod 41 is fixed at the lower end of the left side surface of the left side arm 72, a right side arm 39 is fixed at the bottom of the right side surface of the action plate 36, furthermore, the device of the invention can realize the filtering function to the water flow, and can discharge the impurities filtered in the water flow to avoid the blockage, the water flow is discharged into the interior of the filtering chamber 2 through the confluence dish 30 and the hose 31, the inclined filtering plate 43 filters the water flow, the filtered impurities are retained on the upper side surface of the inclined filtering plate 43, when the accumulated impurities are more, the electric cylinder 34 works and transmits power to the action plate 36 through the action rod 35, on one hand, the extrusion block 38 extrudes the hose 31 to prevent water flow from flowing down continuously, on the other hand, the action plate 36 drives the follow-up plate 42 to move leftwards through the left side arm 72 and the right side arm 39, the push rod 41 pushes the revolving door 47 to rotate anticlockwise to form an opening, and the follow-up plate 42 pushes the impurities on the upper side surface of the inclined filter plate 43 to move leftwards and discharge the impurities to the left side of the revolving door 47, so that the impurities are prevented from blocking the inclined filter plate 43 due to multiformity.

The inside of the circulating heating chamber 3 is provided with a heated vaporizing chamber 53 and an expansion liquefying chamber 54, the left side surfaces of the heated vaporizing chamber 53 and the expansion liquefying chamber 54 are respectively in contact communication with the right ends of a third communicating pipe 51 and a fourth communicating pipe 52, the left end of the third communicating pipe 51 is in contact communication with the top end of a first communicating pipe 49, the bottom end of the first communicating pipe 49 is in contact communication with the right end of the inlet pipe 21, the left end of the fourth communicating pipe 52 is in contact communication with the bottom end of a second communicating pipe 50, the top end of the second communicating pipe 50 is in contact communication with the right end of the outlet pipe 22, the right side surfaces of the heated vaporizing chamber 53 and the expansion liquefying chamber 54 are respectively in contact communication with the left ends of a fifth communicating pipe 55 and a sixth communicating pipe 56, the right end of the fifth communicating pipe 55 is in contact communication with the top end of a seventh communicating pipe 57, the right end of the sixth communicating pipe 56 is in contact communication with the bottom end of an eighth communicating pipe 58, the bottom end of the seventh communication pipe 57 is in contact communication with the upper side surface of the intermediate chamber 59, the top end of the eighth communication pipe 58 is in contact communication with the lower side surface of the intermediate chamber 59, the upper side surface of the heated gasification chamber 53 is in contact with the lower side surface of the upper heat transfer plate 76, the lower side surface of the expansion liquefaction chamber 54 is in contact with the upper side surface of the lower heat transfer plate 77, the lower side surface of the lower heat transfer plate 77 is in contact with the upper side surface of the water tank 74, the circulating heating chamber 3 is internally provided with the inductor 61, the inductor 61 is internally provided with the driven plate 63, the upper part of the left side surface of the driven plate 63 is provided with the fifth return spring 64, the lower side surface of the inductor 61 is fixedly provided with the lower support plate 65, the top end of the lower support plate 65 is fixedly provided with the fixing nut 66, the inner periphery of the fixing nut 66 is in contact fit with the middle periphery of the long bolt 67 through threaded connection, an end piece 68 is fixed at the left end of the long bolt 67, a base 69 is fixed at the right end of the long bolt 67, a buzzer 70 is arranged on the right side surface of the base 69, a starting button 71 is arranged on the right side surface of the buzzer 70, the right side surface of the lower support plate 65 is fixedly connected with the left end of the induction column 60, the device can realize the circulating heating of the water tank 74, the real-time supervision of the internal pressure is realized, when the pressure is too high, an alarm is given to remind a user, the gasified medium which is compressed in the compression cylinder 17 is discharged into the expansion liquefaction chamber 54 through the discharge pipe 22, the second communication pipe 50 and the fourth communication pipe 52 to expand and release heat, the heating of the water tank 74 is realized through the lower heat transfer plate 77, and the liquefied medium is heated through the eighth communication pipe 58, the middle chamber 59, the seventh communication pipe 57 and the eighth communication pipe 57, The fifth communication pipe 55 is discharged into the heated vaporizing chamber 53, the air heats the medium through the upper heat transfer plate 76 to be vaporized, the vaporized medium is discharged into the compression cylinder 17 through the third communication pipe 51, the first communication pipe 49 and the inlet pipe 21 to complete the circulation, in addition, when the internal pressure of the intermediate chamber 59 is too high, the movable plate 62 and the induction column 60 push the driven plate 63, the left side surface of the driven plate 63 presses the start button 71 arranged on the right side surface of the buzzer 70, so that the buzzer 70 gives an alarm to remind a user, the user can also change the initial position of the buzzer 70 by rotating the end piece 68 and the long bolt 67, and further the adjustment of the alarm pressure is realized.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.