CN212960906U - Constant temperature shower device - Google Patents

Abstract

The utility model discloses a constant temperature shower device, relating to the technical field of shower devices, a steam inlet pipeline is connected with a steam outlet pipeline through a heat exchanger, the upper end of the heat exchanger is connected with a hot water pipeline water tank through a circulating pipeline, the water tank is connected with users through the circulating pipeline, the circulating pipeline is provided with a circulating pump, a heating pump is arranged on a cold water pipeline at one side of the water tank, the end of a water replenishing pipeline is connected with the cold water pipeline, a bypass pipeline is connected between the cold water pipeline and the hot water pipeline, can quickly raise the water temperature entering the water tank, maintain the water temperature in the water tank constant, solve the problem of sudden cold and sudden hot water temperature, meanwhile, the waste of cold water before use by a user can be effectively avoided, in addition, part of components adopt a one-use one-standby mode, when the parts need to be maintained or replaced, the operation does not need to be stopped, and the device is simple to operate, safe, efficient and convenient to use.

Description

Constant temperature shower device

Technical Field

The utility model relates to a shower bath technical field, in particular to constant temperature shower bath.

Background

In the prior art, when the water amount in the water tank is reduced, tap water with lower temperature is usually directly added into the water tank, and the influence on the water temperature in the water tank is large when water is added, so that the water temperature is suddenly cooled and suddenly heated, and the shower device is particularly obvious in winter.

In addition, when a user takes a shower, a pipe between the water tank and the shower head is filled with cold water, and therefore, when the shower head is used, the cold water in the pipe needs to be discharged to allow the hot water in the water tank to flow out. The longer this section pipeline is, the more cold water that stores is just, and the time that hot water arrived is just longer, and the experience of bathing is seriously influenced to the cold water that stores in this section pipeline simultaneously, can only outwards discharge and can not reuse.

SUMMERY OF THE UTILITY MODEL

The utility model provides a constant temperature shower device relates to shower technical field, can maintain the temperature in the water tank and keep invariable, has solved the temperature effectively and has neglected the cold problem of neglecting hot, has avoided the waste of cold water in the pipeline simultaneously.

The specific technical scheme is a constant temperature shower device, includes: steam admission line, steam outlet pipe way, heat transfer device, hot water pipeline, water supply pipe, water supply installation, user, circulating device, heating device, moisturizing pipeline, bypass pipeline.

The output end of the steam inlet pipeline is connected with the heat exchange device, the heat exchange device is connected with the water supply device through the hot water pipeline, one end of the water supply device is connected with the heat exchange device through the heating device, the other end of the water supply device is connected with the heat exchange device through the user and the circulating device, the input end of the water replenishing pipeline is connected with the circulating device, the input end of the steam outlet pipeline is connected with the heat exchange device, and a bypass pipeline is arranged between the circulating device and the hot water pipeline.

Furthermore, a first switch valve, a first filter, a first temperature control valve and a second switch valve are sequentially arranged on the steam inlet pipeline from left to right, an air inlet bypass pipeline is arranged on the steam inlet pipeline, and a third switch valve is arranged on the air inlet bypass pipeline.

Further, the heat exchange device comprises: the heat exchanger comprises a heat exchanger, a fourth switch valve, a fifth switch valve, a sixth switch valve and a seventh switch valve, wherein the sixth switch valve is installed on an air inlet pipeline of the heat exchanger, the seventh switch valve is installed on an air outlet pipeline of the heat exchanger, the fourth switch valve is installed on an water outlet pipeline of the heat exchanger, and the fifth switch valve is installed on an air inlet pipeline of the heat exchanger.

Furthermore, the hot water pipeline is connected with the water tank through a ninth switch valve, one end of the water tank is connected with the circulating pipeline through a tenth switch valve, and the other end of the water tank is connected with the heating pipeline through an eleventh switch valve and a user.

Further, an overflow pipeline is arranged on the side face of the upper end of the water tank, a sewage discharge pipeline is arranged at the bottom of the water tank, and an eighth switch valve is installed on the sewage discharge pipeline.

Furthermore, the user is connected with the heat exchange device through a circulating pipeline in the circulating device, and a thirteenth switch valve, a first one-way valve, a circulating pump, a first rubber flexible connector and a twelfth switch valve are sequentially connected to the circulating pipeline from left to right.

Furthermore, a heating pipeline in the heating device is sequentially connected with a fifteenth switch valve, a second one-way valve, a heating pump, a second rubber flexible connector and a fourteenth switch valve from left to right.

Furthermore, a sixteenth switch valve, a second filter, a second temperature control valve, a seventeenth switch valve and a third one-way valve are sequentially installed on the water supplementing pipeline from left to right, a water supplementing side branch pipeline is arranged on the water supplementing pipeline, and an eighteenth switch valve is installed on the water supplementing side branch pipeline.

Furthermore, a nineteenth switch valve is installed on the bypass pipeline.

Furthermore, the heat exchange device, the water supply device, the circulating device and the heating device all adopt a one-use one-standby mode.

In one embodiment, the industrial byproduct steam enters the heat exchanger through the steam inlet pipeline and exchanges heat with cold water in the heat exchanger, the steam temperature is reduced, part of the steam is condensed water, the condensed water is discharged through the steam outlet pipeline, the water after heat exchange enters the water tank through the hot water pipeline, and meanwhile, the water in the water tank flows back to the inside of the heat exchanger to be heated under the action of the heating pump within a set time.

Before a user uses shower, the circulating pump is started at first, so that cold water stored in the pipeline flows back to the heat exchanger through the circulating pump, when the cold water circulates to a certain time, the cold water in the pipeline is drained, and the circulating pump is closed for the user to use.

Due to the adoption of the technical scheme, compared with the prior art, tap water with lower temperature enters the water tank, industrial byproduct steam is used as a heat source, the water temperature rises rapidly under the action of the heat exchanger, the water temperature in the water tank is kept constant, the problem of sudden cold and sudden hot water is solved, meanwhile, cold water discharged by a user before use passes through the action of the circulating pump, waste can be effectively avoided, energy is saved, the environment is protected, in addition, partial components of the device adopt a one-use one-standby mode, when the components need to be maintained or replaced, operation does not need to be stopped, a maintenance space is reserved for equipment, and the device is simple to operate, safe, efficient and convenient to use.

Drawings

Fig. 1 is a schematic structural view of the constant temperature shower device of the present invention.

Description of reference numerals:

1. a steam inlet pipeline 2, a steam outlet pipeline 3, a heat exchange device 4, a hot water pipeline 5, a water supply device 6, a user 7, a circulating device 8, a heating device 9, a water replenishing pipeline 10, a bypass pipeline,

11. a first switch valve 12, a first filter 13, a second switch valve 14, an air inlet bypass pipeline 15, a third switch valve 16, a first temperature control valve,

31. a heat exchanger, 32, a fourth switch valve, 33, a fifth switch valve, 34, a sixth switch valve, 35 and a seventh switch valve,

51. a water tank 52, a sewage discharge pipeline 53, an eighth switch valve 54, an overflow pipeline 55, a ninth switch valve 56, a tenth switch valve 57 and an eleventh switch valve,

71. a twelfth switch valve 72, a first rubber flexible connection 73, a circulating pump 74, a first one-way valve 75, a thirteenth switch valve 76 and a circulating pipeline,

81. a fourteenth switch valve 82, a second rubber soft connection 83, a heating pump 84, a second one-way valve 85, a fifteenth switch valve 86, a heating pipeline,

91. a sixteenth switch valve 92, a second filter 93, a seventeenth switch valve 94, a water supplementing bypass pipeline 95, an eighteenth switch valve 96, a third one-way valve 97, a second temperature control valve,

101. a nineteenth switching valve.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings and examples:

it should be noted that the structure, ratio, size and the like shown in the drawings of the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, and any modification of the structure, change of the ratio relationship or adjustment of the size should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the efficacy that the present invention can produce and the purpose that the present invention can achieve.

Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

Example (b): with reference to fig. 1, a constant temperature shower apparatus includes: the system comprises a steam inlet pipeline 1, a steam outlet pipeline 2, a heat exchange device 3, a hot water pipeline 4, a water supply device 5, a user 6, a circulating device 7, a heating device 8, a water supplementing pipeline 9 and a bypass pipeline 10.

The output of steam admission line 1 is connected with heat transfer device 3, heat transfer device 3 passes through hot water pipeline 4 and is connected with water supply installation 5, 5 one ends of water supply installation are passed through heating device 8 and are connected with heat transfer device 3, the other end of water supply installation 5 passes through user 6 and circulating device 7 and is connected with heat transfer device 3, the input and the circulating device 7 of moisturizing pipeline 9 are connected, heat transfer device 3 is connected to the input of steam pipeline 2 of giving vent to anger, be equipped with bypass pipeline 10 between circulating device 7 and the hot water pipeline 4.

Further, a first switch valve 11, a first filter 12, a first temperature control valve 16 and a second switch valve 13 are sequentially installed on the steam inlet pipeline 1 from left to right, an inlet bypass pipeline 14 is arranged on the steam inlet pipeline 1, and a third switch valve 15 is installed on the inlet bypass pipeline 14.

Further, the heat exchanging device 3 includes: the heat exchanger comprises a heat exchanger 31, a fourth switch valve 32, a fifth switch valve 33, a sixth switch valve 34 and a seventh switch valve 35, wherein the sixth switch valve 34 is installed on an air inlet pipeline of the heat exchanger 31, the seventh switch valve 35 is installed on an air outlet pipeline of the heat exchanger 31, the fourth switch valve 32 is installed on an water outlet pipeline of the heat exchanger 31, and the fifth switch valve 33 is installed on an air inlet pipeline of the heat exchanger 31.

Further, the hot water pipe 4 is connected to the water tank 51 through a ninth switching valve 55, one end of the water tank 51 is connected to the circulation pipe 76 through a tenth switching valve 56, and the other end of the water tank 51 is connected to the heating pipe 86 through an eleventh switching valve 57 and the user 6.

Further, an overflow pipe 54 is provided on the side of the upper end of the water tank 51, a drain pipe 52 is provided at the bottom of the water tank 51, and an eighth switch valve 53 is provided on the drain pipe 52.

Further, the user 6 is connected to the heat exchanger 3 through a circulation pipe 76 in the circulation device 7, and a thirteenth switch valve 75, a first check valve 74, a circulation pump 73, a first rubber flexible connector 72, and a twelfth switch valve 71 are sequentially connected to the circulation pipe 76 from left to right.

Further, a fifteenth on-off valve 85, a second check valve 84, a heating pump 83, a second rubber flexible joint 82, and a fourteenth on-off valve 81 are connected to a heating pipe 86 in the heating device 8 in this order from left to right.

Further, a sixteenth switch valve 91, a second filter 92, a second temperature control valve 97, a seventeenth switch valve 93 and a third one-way valve 96 are sequentially installed on the water replenishing pipeline 9 from left to right, a water replenishing side branch pipeline 94 is arranged on the water replenishing pipeline 9, and an eighteenth switch valve 95 is installed on the water replenishing side branch pipeline 94.

Further, a nineteenth switching valve 101 is installed on the bypass line 10.

Further, the heat exchange device 3, the water supply device 5, the circulating device 7 and the heating device 8 all adopt a one-use one-standby mode.

The working principle of the utility model is as follows: the industrial byproduct steam enters the heat exchanger 31 through the steam inlet pipeline 1 and exchanges heat with cold water in the heat exchanger 31, the steam temperature is reduced, condensate water is partially formed and discharged through the steam outlet pipeline 2, the water after heat exchange enters the water tank 51 through the hot water pipeline 4, and meanwhile, the water in the water tank 51 flows back to the inside of the heat exchanger 31 to be heated under the action of the heating pump 83 within a set time.

Before the user 6 uses the shower bath, the circulating pump 73 is firstly started, so that the cold water stored in the pipeline flows back to the heat exchanger 31 through the circulating pump 73, when the cold water circulates for a certain time, the cold water in the pipeline is drained, and the circulating pump 73 is closed for the user 6 to use.

Claims (10)

1. A constant temperature shower apparatus, comprising: the system comprises a steam inlet pipeline (1), a steam outlet pipeline (2), a heat exchange device (3), a hot water pipeline (4), a water supply device (5), a user (6), a circulating device (7), a heating device (8), a water replenishing pipeline (9) and a bypass pipeline (10);

the output end of the steam inlet pipeline (1) is connected with the heat exchange device (3), the heat exchange device (3) is connected with the water supply device (5) through the hot water pipeline (4), one end of the water supply device (5) is connected with the heat exchange device (3) through the heating device (8), the other end of the water supply device (5) is connected with the heat exchange device (3) through the user (6) and the circulating device (7), the input end of the water supplementing pipeline (9) is connected with the circulating device (7), the input end of the steam outlet pipeline (2) is connected with the heat exchange device (3), and the bypass pipeline (10) is arranged between the circulating device (7) and the hot water pipeline (4).

2. The constant-temperature shower device as claimed in claim 1, wherein a first switch valve (11), a first filter (12), a first temperature control valve (16) and a second switch valve (13) are sequentially installed on the steam inlet pipeline (1) from left to right, an inlet bypass pipeline (14) is arranged on the steam inlet pipeline (1), and a third switch valve (15) is installed on the inlet bypass pipeline (14).

3. A thermostatic shower device as claimed in claim 1, characterised in that the heat exchange means (3) comprises: heat exchanger (31), fourth ooff valve (32), fifth ooff valve (33), sixth ooff valve (34) and seventh ooff valve (35), install on the admission line of heat exchanger (31) sixth ooff valve (34), install on the pipeline of giving vent to anger of heat exchanger (31) seventh ooff valve (35), install the outlet conduit of heat exchanger (31) fourth ooff valve (32), install the inlet conduit of heat exchanger (31) fifth ooff valve (33).

4. A thermostatic shower device as claimed in claim 1, characterized in that said hot water pipe (4) is connected to the water tank (51) through a ninth on-off valve (55), one end of said water tank (51) is connected to the circulation pipe (76) through a tenth on-off valve (56), and the other end of said water tank (51) is connected to the heating pipe (86) through an eleventh on-off valve (57) and said user (6).

5. A shower device as claimed in claim 4, characterized in that the side of the upper end of the water tank (51) is provided with an overflow pipe (54), the bottom of the water tank (51) is provided with a sewage drain pipe (52), and the sewage drain pipe (52) is provided with an eighth switch valve (53).

6. A constant temperature shower apparatus as claimed in claim 1, wherein said user (6) is connected to said heat exchanging means (3) through a circulation pipe (76) of said circulation means (7), said circulation pipe (76) being connected with a thirteenth switch valve (75), a first one-way valve (74), a circulation pump (73), a first rubber soft joint (72) and a twelfth switch valve (71) in sequence from left to right.

7. A constant temperature shower apparatus as claimed in claim 1, wherein a fifteenth switch valve (85), a second one-way valve (84), a heating pump (83), a second rubber soft connection (82) and a fourteenth switch valve (81) are connected to the heating pipeline (86) in the heating apparatus (8) from left to right in sequence.

8. The constant temperature shower device according to claim 1, wherein a sixteenth switch valve (91), a second filter (92), a second temperature control valve (97), a seventeenth switch valve (93) and a third one-way valve (96) are sequentially installed on the water replenishing pipeline (9) from left to right, a water replenishing bypass pipeline (94) is arranged on the water replenishing pipeline (9), and an eighteenth switch valve (95) is installed on the water replenishing bypass pipeline (94).

9. A thermostatic shower device as claimed in claim 1 characterised in that a nineteenth switching valve (101) is mounted on the bypass conduit (10).

10. A thermostatic shower device as claimed in claim 1 characterised in that the heat exchange means (3), the water supply means (5), the circulation means (7) and the heating means (8) all adopt a use-by-use mode.

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