CN210951968U

CN210951968U - Air source heat pump

Info

Publication number: CN210951968U
Application number: CN201921929655.1U
Authority: CN
Inventors: 龚宇锋; 汪振杰; 冯昀涛; 周阳; 姚珍
Original assignee: Jiangsu Hengtai Swimming Pool Technology Co ltd
Current assignee: Jiangsu Hengtai Swimming Pool Technology Co ltd
Priority date: 2019-11-11
Filing date: 2019-11-11
Publication date: 2020-07-07
Anticipated expiration: 2029-11-11

Abstract

The utility model relates to a technical field of heat pump especially relates to an air source heat pump, include: the dehumidifying mechanism is suitable for removing water vapor in the hot humid air; the air exhaust channel and the air return channel are arranged at two ends of the dehumidifying mechanism, the air exhaust channel is suitable for exhausting indoor damp and hot air into the dehumidifying mechanism, and the air return channel is suitable for exhausting the dehumidified air into the room; the plugging mechanism is lifted to plug the air return channel after the active carbon filter sheet is pulled out; and a heat exchange mechanism, the heat exchange mechanism comprising: a water inlet pipeline, a water return pipeline, a plurality of heating pipelines which penetrate through the condenser and are connected end to end, and a water storage barrel; wherein the condenser is adapted to heat cold water flowing through the heating conduit from the water inlet conduit; after water in the heating pipeline is heated into hot water, the hot water is stored in the water storage barrel through the water return pipeline to wait for discharging the hot water, and the problem that the working environment of the air source heat pump is damaged due to leakage of damp and hot air is solved.

Description

Air source heat pump

Technical Field

The utility model relates to a technical field of heat pump especially relates to an air source heat pump.

Background

With the continuous improvement of living standard, people's demand for body-building is getting bigger and bigger, as is well known, swimming is a body-building sport which is very beneficial to human body, most of body-building meetings establish swimming pools, at present, a multifunctional air source heat pump is arranged in most of swimming rooms, the swimming rooms can be refrigerated, cooled, dehumidified and provided with hot water, activated carbon is usually adopted to adsorb chlorine in tap water, but after the chlorine is adsorbed by the activated carbon, the activated carbon can be saturated, wet hot air in an exhaust passage is easy to leak in the working environment of the air source heat pump when the air source heat pump is manually replaced after the chlorine is adsorbed, moss and the like are easy to form after the air source heat pump is saturated, and the air quality is affected after the.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an air source heat pump has solved the humid hot air and has leaked the operational environment who destroys air source heat pump.

In order to solve the technical problem, the utility model provides an air source heat pump, include:

a dehumidifying mechanism adapted to remove water vapor from the hot humid air;

the air exhaust channel and the air return channel are arranged at two ends of the dehumidifying mechanism, the air exhaust channel is suitable for exhausting indoor damp and hot air into the dehumidifying mechanism, and the air return channel is suitable for exhausting the dehumidified air into the room;

the air return channel is provided with a notch suitable for inserting an active carbon filter, and the active carbon filter is suitable for removing chloride ions in the damp and hot air;

the plugging mechanism is lifted to plug the air return channel after the active carbon filter sheet is pulled out; and

heat transfer mechanism, heat transfer mechanism includes: a water inlet pipeline, a water return pipeline, a plurality of heating pipelines which penetrate through the condenser and are connected end to end, and a water storage barrel; wherein the condenser is adapted to heat cold water flowing through the heating conduit from the water inlet conduit; after the water in the heating pipeline is heated into hot water, the hot water is stored in the water storage barrel through the water return pipeline to be discharged.

Further, the occlusion mechanism comprises: the setting is provided with the extension at the back that the passageway is located the notch of airing exhaust, both sides in the extension are fixed with the guide arm respectively, the adaptation has along the gliding slider of guide arm on the guide arm, the bottom of guide arm is provided with the fixed block, slider and fixed block are fixed with the upper and lower both ends of separation blade respectively, the separation blade is flexible piece, the guide arm overcoat is equipped with the spring that is located between fixed block and the slider to kick-back drives the separation blade through the slider and expandes in order to plug up the passageway of airing exhaust.

Furthermore, the inner wall of the exhaust channel is provided with a stop block at the position of the extension part to block a gap between the expanded stop sheet and the inner wall of the exhaust channel, and the stop blocks are respectively arranged at two sides and the top of the inner wall of the exhaust channel.

Furthermore, an air guide groove penetrating through the stop block is formed in the end face, close to the extending portion, of one side of the stop block, so that hot and humid air in the air exhaust channel penetrates through the air guide groove to be discharged after being blocked by the blocking piece.

Furthermore, an arc sheet suitable for sealing the notch is suitably arranged in the notch, and the activated carbon filter sheet is embedded and fixed on the inner wall of the arc sheet.

Furthermore, the inner wall of the arc piece is oppositely provided with two clamping pieces and a plurality of clamping teeth which are uniformly distributed on one side wall opposite to the clamping pieces so as to clamp the active carbon filter piece.

Further, the clamping pieces are in a step shape so as to clamp the activated carbon filter pieces with different thicknesses.

Further, the dehumidification mechanism includes: the exhaust fan, the air chamber, the evaporator, the condenser and the air return fan are sequentially arranged from the exhaust channel to the air return channel; wherein

The exhaust fan is suitable for enabling indoor hot and humid air to enter the air cavity chamber through the exhaust channel;

the evaporator is suitable for liquefying water vapor in the damp and hot air, and a disc body suitable for receiving condensed water is arranged below the evaporator;

the condenser is suitable for heating dried air, and the air is driven by the air return fan to flow back to the room through the air return channel.

Furthermore, the top of the air chamber is respectively provided with an air outlet and an air inlet; and

a ventilation box is arranged in the air chamber to divide the air chamber into an air outlet area, an air inlet area and a transition area; wherein

The damp and hot air in the exhaust channel passes through the transition area and then contacts with the evaporator;

the outdoor air entering from the air inlet passes through the air inlet area and then contacts with the condenser;

and the air in the ventilation box passes through the air outlet area and then is discharged to the outside from the air outlet.

Furthermore, the exhaust channel is connected with an exhaust static pressure box to reduce the airflow vibration in the exhaust channel, and the return air channel is connected with a return air static pressure box to reduce the airflow vibration in the return air channel.

The beneficial effects of the utility model are that, the utility model discloses an air source heat pump, include: a dehumidifying mechanism adapted to remove water vapor from the hot humid air; the air exhaust channel and the air return channel are arranged at two ends of the dehumidifying mechanism, the air exhaust channel is suitable for exhausting indoor damp and hot air into the dehumidifying mechanism, and the air return channel is suitable for exhausting the dehumidified air into the room; the air return channel is provided with a notch suitable for inserting an active carbon filter, and the active carbon filter is suitable for removing chloride ions in the damp and hot air; the plugging mechanism is lifted to plug the air return channel after the active carbon filter sheet is pulled out; and a heat exchange mechanism, the heat exchange mechanism comprising: a water inlet pipeline, a water return pipeline, a plurality of heating pipelines which penetrate through the condenser and are connected end to end, and a water storage barrel; wherein the condenser is adapted to heat cold water flowing through the heating conduit from the water inlet conduit; after water in the heating pipeline is heated into hot water, the hot water is stored in the water storage barrel through the water return pipeline to be discharged, and then when the active carbon filter sheet is taken out to be replaced, the plugging component blocks the air exhaust channel to avoid moist hot air in the air exhaust channel from leaking to cause the dehumidifying mechanism to be in a moist environment, and moss is prevented from forming in corners to influence air quality.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a first perspective view of a preferred embodiment of the activated carbon filter mounting of the present invention;

FIG. 2 is a second perspective view of a preferred embodiment of the activated carbon filter mounting of the present invention;

FIG. 3 is a schematic view of a portion A of FIG. 2 in an enlarged view;

FIG. 4 is a schematic view in half section of the exhaust duct;

fig. 5 is a schematic cross-sectional view of a preferred embodiment of the stop of the present invention;

fig. 6 is a schematic structural diagram of a preferred embodiment of the air source heat pump of the present invention.

In the figure:

an air exhaust channel 1, a notch 11, an extension part 12, a guide rod 13, a slide block 14, a fixed block 15, a baffle 16, a spring 17, a stop block 18, an air guide groove 19, an air exhaust static pressure box 110,

a return air channel 2, a return air plenum box 21,

an active carbon filter 3, an arc piece 31, a clamping piece 32, a latch 33,

the air conditioner comprises an exhaust fan 41, an air chamber 42, an air outlet area 421, an air inlet area 422, a transition area 423, an evaporator 43, a condenser 44, an air return fan 45, a disc body 46, an air outlet 47, an air inlet 48 and an air box 49;

a water inlet pipe 51, a water return pipe 52, a heating pipe 53 and a water storage barrel 54.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in the figure, the utility model discloses an air source heat pump, include: a dehumidifying mechanism adapted to remove water vapor from the hot humid air; the air-conditioning system comprises an exhaust channel 1 and an air return channel 2 which are arranged at two ends of a dehumidifying mechanism, wherein the exhaust channel 1 is suitable for discharging indoor damp and hot air into the dehumidifying mechanism, and the air return channel 2 is suitable for discharging dehumidified air into a room; the air return channel 2 is provided with a notch 11 suitable for inserting the activated carbon filter 3, and the activated carbon filter 3 is suitable for removing chloride ions in the damp and hot air; an extension part 12 is arranged on the back of the air exhaust channel 1 positioned at the notch 11, guide rods 13 are respectively fixed on two sides in the extension part 12, a sliding block 14 sliding along the guide rods 13 is adapted on the guide rods 13, a fixed block 15 is arranged at the bottom of the guide rods 13, the sliding block 14 and the fixed block 15 are respectively fixed with the upper end and the lower end of a blocking piece 16, the blocking piece 16 is a flexible piece, a spring 17 positioned between the fixed block 15 and the sliding block 14 is sleeved outside the guide rods 13, and the blocking piece 16 is driven by the sliding block 14 to expand through rebound so as to block the air exhaust channel 1; in the embodiment, in order to enable the active carbon filter 3 to push the slider 14 to compress the spring 17 and push the slider 14 into the extension part 12 when the active carbon filter 3 is inserted, the plane where the baffle 16 is unfolded is not coplanar with the plane formed by the two guide rods 13, and further when the active carbon filter 3 is taken out and replaced, the baffle 16 is unfolded to block the exhaust channel 1 to prevent the wet and hot air in the exhaust channel 1 from leaking to cause the dehumidifying mechanism to be in a wet environment, so that moss is prevented from forming at corners to affect the air quality.

Preferably, in order to further avoid moist and hot air leakage, the inner wall of the exhaust channel 1 is provided with a stopper 18 at the position of the extension portion 12 to block a gap between the baffle 16 and the inner wall of the exhaust channel 1 after the baffle 16 is unfolded, the stoppers 18 are respectively arranged at both sides and the top of the inner wall of the exhaust channel 1, it is noted that the exhaust channel 1 is circular, and in order to unfold the baffle 16, both sides of the upper end of the baffle 16 need to be respectively hung on the slider 14, if the baffle 16 is directly designed to be circular to be attached to the inner wall of the exhaust channel 1, the baffle 16 cannot be unfolded, so the baffle 16 can only be designed to be square, but after the square baffle 16 is unfolded, gaps are formed between both sides and the top and the inner wall of the exhaust channel 1, so that moist and hot air leakage is caused, and the gaps are blocked by the stoppers 18, so that the exhaust channel 1 is completely, further avoiding leakage of hot and humid air.

Preferably, in order to further avoid the leakage of the hot and humid air, it is noted that the baffle 16 is only hung on the slider 14 at two sides of the upper end, that is, the middle part of the baffle 16 is fragile after being unfolded, and if the middle part is impacted by a relatively large amount, the baffle 16 will bend to form a gap and then the hot and humid air leaks.

Preferably, in order to further avoid moist hot air leakage, it should be pointed out that active carbon filter 3 is porous slice, and moist hot air can pass active carbon filter 3 axially, also can radially pass behind active carbon filter 3 and leak from notch 11, in order to solve above-mentioned problem, the adaptation has the arc piece 31 that is suitable for sealed notch 11 in the notch 11, active carbon filter 3 inlays to be established and fixes the inner wall at arc piece 31, and then blocks moist hot air and leak from notch 11, has further guaranteed dehumidification mechanism's operational environment.

In this embodiment, the inner wall of the arc piece 31 is provided with two clamping pieces 32, and a plurality of latches 33 evenly distributed on a side wall opposite to the clamping pieces 32 to clamp the activated carbon filter piece 3, and the friction coefficient of the inner wall of the clamping pieces 32 is improved by setting the latches 33, so that the friction force between the clamping pieces 32 and the activated carbon filter piece 3 is improved, and further the clamping effect of the activated carbon filter piece 3 is improved, and it is ensured that the activated carbon filter piece 3 can push the sliding block 14 to compress the spring 17, and the situation that the activated carbon filter piece 3 inclines or bends or is separated from the clamping pieces 32 when pushing the sliding block 14 is avoided.

Preferably, the clamping pieces 32 are in a step shape to clamp the activated carbon filter pieces 3 with different thicknesses, so that the applicability of the clamping pieces 32 is enriched, and the activated carbon filter pieces 3 with different thicknesses are required to be used for the exhaust channels 1 with different pipe diameters to meet the requirements of different adsorption degrees.

Optionally, the dehumidification mechanism includes: an exhaust fan 41, an air chamber 42, an evaporator 43, a condenser 44 and a return fan 45 which are arranged from the exhaust channel 1 to the return air channel 2 in sequence; wherein the exhaust fan 41 is adapted to introduce hot and humid air in the room into the air chamber 42 through the exhaust duct 1; the evaporator 43 is suitable for liquefying water vapor in damp and hot air, a tray body 46 suitable for receiving condensed water is arranged below the evaporator 43, and a drain hole is formed below the tray body 46; the condenser 44 is adapted to heat the dried air, and the return air blower 45 drives the air to flow back to the room through the return air channel 2, thereby maintaining a low humidity of the indoor air.

Optionally, the top of the air chamber 42 is respectively provided with an air outlet 47 and an air inlet 48; a ventilation box 49 is arranged in the air chamber 42, the ventilation box 9 is of a hollow structure, and air in the ventilation box 9 can go out from the air outlet 47, so that the air chamber 42 is divided into an air outlet area 421, an air inlet area 422 and a transition area 423; wherein the hot and humid air in the exhaust duct 1 passes through the transition region 423 and then contacts the evaporator 43; the outdoor air entering from the air inlet 48 passes through the air inlet area 422 and then contacts with the condenser 44 to heat the air; the air in the ventilation box 49 passes through the air outlet area 421 and is discharged to the outside from the air outlet, and the outdoor air is further supplied to the inside of the room.

Preferably, the exhaust channel 1 is connected with an exhaust static pressure box 110 to reduce the air flow vibration in the exhaust channel 1, thereby improving the air supply effect of the exhaust channel 1.

Preferably, the return air channel 2 is connected with a return air static pressure box 21 to reduce the air flow vibration in the return air channel 2, and further improve the return air effect in the return air channel 2.

Optionally, the heat exchange mechanism includes: a water inlet pipe 51, a water return pipe 52, a plurality of heating pipes 53 which pass through the condenser 44 and are connected end to end, and a water storage barrel 54; wherein the condenser 44 is adapted to heat cold water flowing through the heating conduit 53 from the water inlet conduit 51; after the water in the heating pipeline 53 is heated into hot water, the hot water is stored in the water storage barrel 54 through the water return pipeline 52 to be discharged, in the embodiment, the heating pipeline 53 is in a serpentine shape, so that the heating efficiency of the condenser 44 on the water in the heating pipeline 53 can be improved, and the hot water stored in the water storage barrel 54 can be connected to a shower room through a pipeline to provide hot water.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. An air-source heat pump, comprising:

a dehumidifying mechanism adapted to remove water vapor from the hot humid air;

2. An air-source heat pump as claimed in claim 1,

the plugging mechanism comprises: the setting is provided with the extension at the back that the passageway is located the notch of airing exhaust, both sides in the extension are fixed with the guide arm respectively, the adaptation has along the gliding slider of guide arm on the guide arm, the bottom of guide arm is provided with the fixed block, slider and fixed block are fixed with the upper and lower both ends of separation blade respectively, the separation blade is flexible piece, the guide arm overcoat is equipped with the spring that is located between fixed block and the slider to kick-back drives the separation blade through the slider and expandes in order to plug up the passageway of airing exhaust.

3. An air-source heat pump as claimed in claim 2,

and the inner wall of the air exhaust channel is provided with a stop block at the position of the extension part so as to block a gap between the separation blade after the separation blade is unfolded and the inner wall of the air exhaust channel, and the stop blocks are respectively arranged at the two sides and the top of the inner wall of the air exhaust channel.

4. An air-source heat pump as claimed in claim 3,

the end face of one side of the stop block, which is close to the extending part, is provided with an air guide groove which penetrates through the stop block, so that the hot and humid air in the exhaust channel passes through the air guide groove after being blocked by the blocking piece to leak air.

5. An air-source heat pump as claimed in claim 1,

the inside of the notch is provided with an arc sheet suitable for sealing the notch, and the activated carbon filter sheet is embedded and fixed on the inner wall of the arc sheet.

6. An air-source heat pump as claimed in claim 5,

the inner wall of the arc piece is oppositely provided with two clamping pieces and a plurality of clamping teeth which are uniformly distributed on one side wall opposite to the clamping pieces so as to clamp the active carbon filter piece.

7. An air-source heat pump as claimed in claim 6,

the clamping pieces are in a step shape so as to clamp the activated carbon filter pieces with different thicknesses.

8. An air-source heat pump as claimed in claim 1,

the dehumidification mechanism includes: the exhaust fan, the air chamber, the evaporator, the condenser and the air return fan are sequentially arranged from the exhaust channel to the air return channel; wherein

9. An air-source heat pump as claimed in claim 8,

the top of the air chamber is respectively provided with an air outlet and an air inlet; and

10. An air-source heat pump as claimed in claim 9,

the air exhaust channel is connected with an air exhaust static pressure box to reduce the air flow vibration in the air exhaust channel;

the return air channel is connected with a return air static pressure box to reduce the vibration of air flow in the return air channel.