CN218668716U - Movable energy-saving shower device - Google Patents

Abstract

The utility model relates to a shower technical field, concretely relates to portable energy-conserving shower bath, the technical problem that aims at solving lies in overcoming the not high defect of shower waste water utilization ratio among the prior art, mainly can realize through following technical scheme: the utility model provides a portable energy-conserving shower bath, including the shower box, yu Reli uses piece and heat pump set, the shower box includes a plurality of shower rooms and aqua storage chamber, be equipped with first cold water pipeline in the aqua storage chamber, the bottom is equipped with second cold water pipeline in the shower room, still be provided with heat pump set and storage water tank in the aqua storage chamber, shower room bottom is provided with waste heat utilization piece, waste heat utilization piece includes second heat exchanger and aqua storage tank, second cold water pipeline and storage water tank are connected to the second heat exchanger, heat pump set includes first heat exchanger, a compressor, a condenser, expansion valve and refrigerant pipeline, portable shower bath utilizes shower waste water, the intensification cost of the effective water saving of cooperation air source heat pump system.

Description

Movable energy-saving shower device

Technical Field

The utility model relates to a shower technical field, concretely relates to portable energy-conserving shower bath.

Background

Most of the heat pump systems are used in places such as construction sites where bathing is temporarily needed, and in the field of energy conservation and environmental protection, the heat pump systems are considered to be the most effective energy-saving method in a mode of extracting and utilizing heat energy. Resource recycling and circular economy development are important strategic tasks of economic and social development.

The shower waste water can be utilized in the places needing showering temporarily in order to solve the problems of energy conservation, convenience and the like. The temperature of the shower waste water is not too low generally, the shower waste water is a very beneficial waste heat resource, the heat in the shower waste water can be utilized for the second time, and the energy-saving effect of the heat exchanger is improved. In the prior art, shower wastewater is directly discharged in a bathing process, and heat in the shower wastewater is greatly wasted; immediately, collect shower waste water and carry out the heat transfer operation, but shower waste water velocity of flow is very fast, can not be fine play the heat transfer effect, and directly inside easily influencing the heat exchanger in the leading-in heat exchanger, thereby make inside pipeline scale deposit etc. influence the heat transfer effect.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming the not high defect of shower waste water utilization among the prior art to a portable energy-conserving shower bath is provided.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a mobile energy-saving shower device comprises

The shower box body comprises a plurality of shower rooms and a water storage room, the water storage room is arranged on one side of the shower rooms, the shower rooms are arranged in an array mode along the length direction of the water storage room and are spliced together, different shower rooms are separated by a partition plate, a first cold water pipeline is arranged in the water storage room, a second cold water pipeline is arranged at the bottom in the shower rooms, each shower room is connected with the water storage room through a pipeline, a heat pump unit and a water storage tank are further arranged in the water storage room, and a waste heat utilization part is arranged at the bottom of each shower room;

the waste heat utilization part comprises a second heat exchanger and a water storage tank, the water storage tank is arranged at the bottom of the shower room, the second heat exchanger is arranged at the bottom in the water storage tank, the second heat exchanger is connected with a second cold water pipeline, and the second heat exchanger is also connected with the water storage tank;

the heat pump unit comprises a first heat exchanger, a compressor, a condenser and an expansion valve, wherein the first heat exchanger, the compressor, the condenser and the expansion valve are sequentially connected through refrigerant pipelines and form a loop, the first heat exchanger is an air source heat pump, the condenser exchanges heat with water in the water storage tank, a first water inlet and a water outlet are formed in the water storage tank, the water outlet is communicated with a shower room through a hot water pipeline, and a third cold water pipeline is further connected to the first water inlet.

By adopting the technical scheme, the movable shower device is of the size of a container, is convenient to disassemble and assemble, and is suitable for temporary places such as construction sites and the like; waste water storage after the shower carries out waste heat utilization in the aqua storage tank, promotes energy-conserving effect for the energy is recycled, cooperates the intensification cost of the effective water economy of air source heat pump system.

Furthermore, a flow mixer is further arranged in the water storage chamber, the hot water pipeline and the first cold water pipeline are connected into the flow mixer, a plurality of water distribution pipes extend from the other end of the flow mixer, each shower room corresponds to one water distribution pipe, and a shower head is arranged at the tail end of each water distribution pipe.

Through adopting above-mentioned technical scheme, the water of different temperatures in hot water pipeline and the first cold water pipeline can be mixed to the mixer, and the temperature is invariable when guaranteeing the shower, guarantees that the temperature is suitable.

Furthermore, each shower room all is equipped with the partition door, every still be provided with the air discharge fan in the shower room, the air discharge fan is located the lateral wall top of shower room, the air discharge fan sets up with the partition door is relative.

Through adopting above-mentioned technical scheme, the existence of partition door and air discharge fan guarantees that the shower environment is independent and suitable.

Further, shower room bottom is provided with the drain bar, the drain bar sets up with the aqua storage tank joint, the array is provided with a plurality of water drainage tank on the drain bar, the water drainage tank sets up and runs through the drain bar along drain bar length direction and sets up, the inside filter screen that still inlays of drain bar.

Through adopting above-mentioned technical scheme, during shower waste water got into the aqua storage tank along with the drain bar, earlier filtered through the filter screen before getting into the aqua storage tank, the dirt influences heat transfer copper pipe work when avoiding bathing, guarantees the heat transfer effect.

Further, the drain bar includes horizontal segment and slope section, horizontal segment and the integrative setting of slope section, the horizontal segment sets up and is being close to gondola water faucet one side, the lower department of slope section upper surface is fixed with horizontal segment one side, the slope section lower surface is the horizontal plane, the horizontal segment is kept away from slope section one side and is provided with the buckle with the aqua storage tank joint, it has the draw-in groove to correspond the buckle extension in the aqua storage tank.

Through adopting above-mentioned technical scheme, the drain bar that adopts the slope is convenient for waste water and is flowed to one side, and the drain bar convenient to detach drain bar of joint to be convenient for clear up the drain bar surface.

Further, the bottom of the water storage tank is also provided with a drain outlet, the drain outlet is arranged on one side close to the shower head, a drain valve is arranged on the drain outlet, a temperature sensor and a liquid level controller are also arranged in the water storage tank, and the temperature sensor and the liquid level controller are both in signal control connection with the drain valve.

Through adopting above-mentioned technical scheme, adopt the aqua storage tank to store a certain amount of shower waste water, increase the contact time of shower waste water and heat transfer copper pipe, promote the heat transfer effect, temperature sensor control aqua storage tank interior waste water temperature simultaneously, liquid level controller detects the interior waste water level of aqua storage tank, crosses low or the water level is too high at waste water temperature, starts the blowdown valve and carries out waste water discharge through the drain, the next round of waste water storage of being convenient for.

Furthermore, the second heat exchanger comprises a heat exchanger main body and a heat exchange copper pipe, the heat exchange copper pipe is arranged in the water storage tank in an S shape, the heat exchanger main body is arranged at the bottom of the water storage tank, one end of the heat exchange copper pipe is connected with a second cold water pipeline, the other end of the heat exchange copper pipe is connected with the water storage tank, and a second water inlet is formed in the water storage tank and is connected with the heat exchange copper pipe.

By adopting the technical scheme, the heat exchange copper pipe is coiled in the water storage tank, so that the contact area between the outer surface of the heat exchange copper pipe and wastewater is increased, the heat exchange efficiency is effectively improved, and the heat exchange effect is ensured; and part of cold water enters from the second cold water pipeline, exchanges heat and then enters the water storage tank, so that the temperature rise of part of water is reduced, and the energy consumption is reduced.

Furthermore, the inner side wall of the water storage tank is also provided with a heat insulation layer.

Through adopting above-mentioned technical scheme, the heat preservation promotes waste water utilization time, realizes the heat accumulation function.

To sum up, the utility model discloses technical scheme has following advantage:

1. the utility model provides a portable energy-conserving shower bath, portable shower bath are container size, and the convenient to detach installation is applicable to temporary places such as building site.

2. The utility model provides a portable energy-conserving shower bath, waste water storage after the shower carries out waste heat utilization in the aqua storage tank, promotes energy-conserving effect for the energy is recycled, cooperates the intensification cost of the effective water economy of air source heat pump system.

3. The utility model provides an energy-conserving shower unit of portable adopts the aqua storage tank to store an amount of shower waste water, increases the contact time of shower waste water and heat transfer copper pipe, promotes the heat transfer effect, and waste water temperature in the temperature sensor control aqua storage tank simultaneously, liquid level controller detect the waste water level in the aqua storage tank, when waste water temperature is low excessively or the water level is too high, starts the blowdown valve and carries out wastewater discharge through the drain, the next round of waste water storage of being convenient for.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following descriptions are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic overall structural view of a mobile energy-saving shower device provided in an embodiment of the present invention;

FIG. 2 is a schematic diagram of a heat pump unit according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a bath cabinet according to an embodiment of the present invention;

FIG. 4 is a schematic view of an exploded structure of a bathing enclosure according to an embodiment of the present invention;

fig. 5 is a schematic view of a partial structure of a water storage tank according to an embodiment of the present invention.

Description of reference numerals:

1. a shower box body; 2. a shower room; 21. a second cold water pipe; 22. a partition door; 23. an exhaust fan; 24. a drain plate; 241. a horizontal segment; 2411. buckling; 242. an inclined section; 243. a water discharge tank; 244. filtering with a screen; 3. a water storage chamber; 31. a first cold water pipe; 32. a flow mixer; 321. a water diversion pipe; 322. a shower head; 33. a water storage tank; 331. a first water inlet; 3311. a third cold water pipe; 332. a water outlet; 3321. a hot water pipe; 333. a second water inlet; 4. a partition plate; 5. a waste heat utilization member; 51. a second heat exchanger; 511. a heat exchanger main body; 512. a heat exchange copper pipe; 52. a water storage tank; 521. a card slot; 522. a sewage draining outlet; 5221. a blowdown valve; 523. a temperature sensor; 524. a liquid level controller; 525. a heat-insulating layer; 6. a heat pump unit; 61. a first heat exchanger; 62. a compressor; 63. a condenser; 64. an expansion valve; 65. a refrigerant pipeline.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

A movable energy-saving shower device is shown in figures 1 and 3 and comprises a shower box body 1, wherein the shower box body 1 comprises a plurality of shower rooms 2 and a water storage room 3, the water storage room 3 is arranged at the rightmost side of the shower rooms 2, the shower rooms 2 are arranged in an array mode along the length direction of the water storage room 3 and are spliced together, different shower rooms 2 are separated by a partition plate 4, a heat pump unit 6 and a water storage tank 33 are further arranged in the water storage room 3, and a waste heat utilization piece 5 is arranged at the bottom of the shower room 2. The waste heat utilization member 5 comprises a second heat exchanger 51 and a water storage tank 52, the water storage tank 52 is arranged at the bottom of the shower room 2, the second heat exchanger 51 is arranged at the bottom in the water storage tank 52, the second heat exchanger 51 is connected with the second cold water pipeline 21, and the second heat exchanger 51 is also connected with the water storage tank 33. The movable shower device is of the size of a container, is convenient to disassemble and assemble, and is suitable for temporary places such as construction sites and the like; waste water storage after the shower carries out waste heat utilization in aqua storage tank 52, promotes energy-conserving effect for the energy recycles, cooperates the intensification cost of the effective water economy of air source heat pump system.

As shown in fig. 1, 2 and 4, the heat pump unit 6 includes a first heat exchanger 61, a compressor 62, a condenser 63 and an expansion valve 64, the first heat exchanger 61, the compressor 62, the condenser 63 and the expansion valve 64 are sequentially connected through a refrigerant pipe 65 to form a loop, the first heat exchanger 61 is an air source heat pump, the condenser 63 exchanges heat with water in the water storage tank 33, the water storage tank 33 is provided with a first water inlet 331 and a water outlet 332, the water outlet 332 is communicated with the shower room 2 through a hot water pipe 3321, and the first water inlet 331 is further connected with a third cold water pipe 3311. Adopt heat pump set 6 to provide hot water when not having shower waste water, heat pump set 6 adopts contrary carnot circulation to supply heat, and the theory of operation is the same with prior art in, no longer gives unnecessary details in this application.

As shown in fig. 1, 3 and 4, each shower room 2 is provided with a partition door 22, an exhaust fan 23 is further arranged in each shower room 2, the exhaust fan 23 is positioned above the rear side wall of the shower room 2, the exhaust fan 23 is arranged opposite to the partition door 22, and the partition door 22 and the exhaust fan 23 are arranged to ensure independent and appropriate shower environment.

The inside of the water storage chamber 3 is also provided with a flow mixer 32, a hot water pipeline 3321 and a first cold water pipeline 31 are connected into the flow mixer 32, the other end of the flow mixer 32 extends to form a plurality of water distribution pipes 321, each shower room 2 corresponds to one water distribution pipe 321, the tail ends of the water distribution pipes 321 are provided with shower heads 322, the flow mixer 32 can mix water with different temperatures in the hot water pipeline 3321 and the first cold water pipeline 31, the constant water temperature during showering is ensured, and the proper temperature is ensured.

The bottom of the water storage tank 52 is also provided with a drain 522, the drain 522 is arranged on one side close to the shower head 322, the drain 522 is provided with a drain valve 5221, the water storage tank 52 is also internally provided with a temperature sensor 523 and a liquid level controller 524, and the temperature sensor 523 and the liquid level controller 524 are in signal control connection with the drain valve 5221. Adopt aqua storage tank 52 to store a certain amount of shower waste water, increase the contact time of shower waste water and heat transfer copper pipe 512, promote the heat transfer effect, temperature sensor 523 monitors the interior waste water temperature of aqua storage tank 52 simultaneously, and liquid level controller 524 detects the interior waste water level of aqua storage tank 52, crosses when low or the water level is too high at waste water temperature, starts blowdown valve 5221 and carries out waste water discharge through drain 522, the next round of waste water storage of being convenient for.

As shown in fig. 1, 3 and 4, the second heat exchanger 51 includes a heat exchanger main body 511 and a heat exchange copper pipe 512, the heat exchange copper pipe 512 is arranged in the water storage tank 52 in an S shape, the heat exchanger main body 511 is arranged at the bottom of the water storage tank 52, one end of the heat exchange copper pipe 512 is connected to the second cold water pipe 21, the other end is connected to the water storage tank 33, and the water storage tank 33 is provided with a second water inlet 333 connected to the heat exchange copper pipe 512. The heat exchange copper pipe 512 is coiled in the water storage tank 52, so that the contact area between the outer surface of the heat exchange copper pipe 512 and the wastewater is increased, the heat exchange efficiency is effectively improved, and the heat exchange effect is ensured; part of cold water enters from the second cold water pipeline 21, and enters the water storage tank 33 after heat exchange, so that the temperature rise of part of water is reduced, and the energy consumption is reduced. The inside wall of the water storage tank 52 is also provided with a heat preservation layer 525, and the utilization time of the waste water is prolonged through the heat preservation layer 525, so that the heat exchange of the shower waste water is ensured to be smoothly carried out.

As shown in fig. 3, 4 and 5, a drain board 24 is disposed at the bottom of the shower room 2, the drain board 24 is connected with the water storage tank 52 in a clamping manner, a plurality of drain grooves 243 are arranged on the drain board 24 in an array manner, the drain grooves 243 are arranged along the length direction of the drain board 24 and penetrate through the drain board 24, and a filter screen 244 is further embedded in the drain board 24. Shower waste water gets into the aqua storage tank 52 along with drain bar 24, filters through filter screen 244 earlier before getting into aqua storage tank 52, and the dirt influences heat transfer copper pipe 512 work when avoiding bathing, guarantees the heat transfer effect.

The drain board 24 includes horizontal segment 241 and slope section 242, and horizontal segment 241 and the integrative setting of slope section 242, horizontal segment 241 set up and be close to gondola water faucet 322 one side, and the lower department of slope section 242 upper surface is fixed with horizontal segment 241 one side, and slope section 242 lower surface is the horizontal plane, and horizontal segment 241 keeps away from slope section 242 one side and is provided with the buckle 2411 with aqua storage tank 52 joint, corresponds buckle 2411 and extends in the aqua storage tank 52 and have draw-in groove 521. Adopt the drain bar 24 of slope to be convenient for waste water to flow to one side, the drain bar 24 convenient to detach drain bar 24 of joint to be convenient for clear up 24 surfaces of drain bar.

The working principle and the using method of the mobile energy-saving shower device are as follows: before showering, the heat pump unit 6 works to provide hot water, at the moment, cold water is introduced from the third cold water pipeline 3311 to enter the water storage tank 33 to exchange heat with the heat pump unit 6, hot water is generated and enters the flow mixer 32 from the hot water pipeline 3321, water in the hot water pipeline 3321 and water in the first cold water pipeline 31 are mixed in the flow mixer 32 to be at a constant temperature, and then the mixed water is sent to the water distribution pipe 321; when showering, hot water provided by the heat pump unit 6 is used, waste water generated by showering is stored in the water storage tank 52, at the moment, partial cold water is introduced into the water storage tank 52 through the second cold water pipeline 21 and enters the heat exchange copper pipe 512, the hot water in the heat exchange copper pipe 512 and the waste water in the water storage tank 52 generate heat exchange, the cold water passing through the heat exchange copper pipe 512 enters the water storage tank 33 after being subjected to heat exchange and temperature rise to continue to exchange heat with the heat pump unit 6, hot water is generated, and the energy consumption of the heat pump unit 6 is reduced in the process.

While the foregoing description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to exclude other embodiments and may be used in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (8)

1. A mobile energy saving shower apparatus, comprising:

the shower box body (1) comprises a plurality of shower rooms (2) and water storage rooms (3), the water storage rooms (3) are arranged on one sides of the shower rooms (2), the shower rooms (2) are arranged on one sides of the water storage rooms (3) in an array mode and are spliced together, different shower rooms (2) are separated by partition plates (4), a first cold water pipeline (31) is arranged in the water storage room (3), a second cold water pipeline (21) is arranged at the bottom in the shower room (2), each shower room (2) is connected with the water storage room (3) through a pipeline, a heat pump unit (6) and a water storage tank (33) are further arranged in the water storage room (3), and a waste heat utilization piece (5) is arranged at the bottom of the shower room (2);

the waste heat utilization part (5), the waste heat utilization part (5) comprises a second heat exchanger (51) and a water storage tank (52), the water storage tank (52) is arranged at the bottom of the shower room (2), the second heat exchanger (51) is arranged at the inner bottom of the water storage tank (52), the second heat exchanger (51) is connected with a second cold water pipeline (21), and the second heat exchanger (51) is also connected with a water storage tank (33);

heat pump set (6), heat pump set (6) are including first heat exchanger (61), compressor (62), condenser (63) and expansion valve (64), first heat exchanger (61), compressor (62), condenser (63) and expansion valve (64) connect gradually and form the return circuit through refrigerant pipeline (65), first heat exchanger (61) is air source heat pump, condenser (63) with storage water tank (33) carry out the heat transfer, first water inlet (331) and delivery port (332) have been seted up on storage water tank (33), delivery port (332) are through hot water pipeline (3321) and shower room (2) intercommunication, still be connected with third cold water pipeline (3311) on first water inlet (331).

2. A mobile energy-saving shower device according to claim 1, wherein a flow mixer (32) is further disposed in the water storage chamber (3), the hot water pipe (3321) and the first cold water pipe (31) are connected to the flow mixer (32), a plurality of water diversion pipes (321) extend from the other end of the flow mixer (32), each shower chamber (2) corresponds to one water diversion pipe (321), and a shower head (322) is disposed at the end of each water diversion pipe (321).

3. A mobile energy saving shower apparatus according to claim 2, wherein each shower room (2) is provided with a partition door (22), and an exhaust fan (23) is further provided in each shower room (2), wherein the exhaust fan (23) is located above the side wall of the shower room (2), and the exhaust fan (23) is arranged opposite to the partition door (22).

4. A mobile energy-saving shower device according to claim 3, wherein a drain plate (24) is arranged at the bottom of the shower room (2), the drain plate (24) is clamped with the water storage tank (52), a plurality of drain grooves (243) are arranged on the drain plate (24) in an array manner, the drain grooves (243) are arranged along the length direction of the drain plate (24) and penetrate through the drain plate (24), and a filter screen (244) is embedded in the drain plate (24).

5. The mobile energy-saving shower device according to claim 4, wherein the drain plate (24) comprises a horizontal section (241) and an inclined section (242), the horizontal section (241) and the inclined section (242) are integrally arranged, the horizontal section (241) is arranged on one side close to the shower head (322), the lower part of the upper surface of the inclined section (242) is fixed on one side of the horizontal section (241), the lower surface of the inclined section (242) is a horizontal plane, a buckle (2411) clamped with the water storage tank (52) is arranged on one side of the horizontal section (241) far away from the inclined section (242), and a clamping groove (521) extends from the corresponding buckle (2411) in the water storage tank (52).

6. A mobile energy-saving shower device as claimed in claim 5, wherein a drain outlet (522) is further provided at the bottom of the water storage tank (52), the drain outlet (522) is provided at one side close to the shower head (322), a drain valve (5221) is provided on the drain outlet (522), a temperature sensor (523) and a liquid level controller (524) are further provided in the water storage tank (52), and the temperature sensor (523) and the liquid level controller (524) are both in signal control connection with the drain valve (5221).

7. A mobile energy-saving shower bath device according to claim 6, wherein the second heat exchanger (51) comprises a heat exchanger main body (511) and heat exchange copper pipes (512), the heat exchange copper pipes (512) are arranged in the water storage tank (52) in an S shape, the heat exchanger main body (511) is arranged at the bottom of the water storage tank (52), one end of each heat exchange copper pipe (512) is connected with the second cold water pipeline (21), the other end of each heat exchange copper pipe is connected with the water storage tank (33), and the water storage tank (33) is provided with a second water inlet (333) connected with the heat exchange copper pipes (512).

8. A mobile energy saving shower apparatus according to claim 7, wherein the inner side wall of said water storage tank (52) is further provided with an insulating layer (525).

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