CN211260972U - Energy-saving and water-saving toilet - Google Patents

Abstract

An energy-saving and water-saving toilet comprises a shower room with a shower nozzle, wherein a hot water feed pipe and a cold water feed pipe which are communicated with the shower nozzle are arranged in the shower room, a carbon fiber radiator is arranged in a wall body of the shower room, the bottoms of the cold water feed pipe and the hot water feed pipe are connected with the carbon fiber radiator, an external source interface pipeline is arranged on the carbon fiber radiator, a temporary storage water tank is arranged at the bottom of the shower room, one end of the temporary storage water tank is connected with a waste water electric nozzle with a thermal electric rod, the other end of the temporary storage water tank is connected with the carbon fiber radiator, and a temperature control micro stainless steel electric rod is arranged at a water outlet which is. Through retrieving the bathing waste water, can be used for promoting the bulk temperature of bathroom, can spray again on the outdoor evaporimeter of domestic hot water unit to promote domestic air source hot water unit's operating efficiency, practice thrift the electric energy.

Description

Energy-saving and water-saving toilet

Technical Field

The utility model relates to a bathroom energy-conserving water saving system specifically is an energy-conserving water conservation bathroom.

Background

When a user bathes in a bathroom, the bathroom exhausts air to directly discharge indoor hot air, and low-temperature fresh air is introduced from the outdoor through the outer window, so that indoor heat loss and poor comfort are caused.

The hot water for bathing in the bathroom is directly discharged in winter, resulting in heat loss. And the bath water has better quality, and the direct discharge also causes the waste of water resources.

The outdoor evaporator of the household hot water unit is easy to freeze in winter, a large amount of energy is consumed to enable the outdoor evaporator to start normal work, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the above-mentioned defect that prior art exists, provide one kind and can recycle bathing hot water, reach energy-conserving water conservation bathroom of energy-conserving purpose.

The utility model provides a technical scheme that its technical problem adopted is: an energy-saving and water-saving toilet comprises a shower room with a shower nozzle, wherein a hot water feed pipe and a cold water feed pipe which are communicated with the shower nozzle are arranged in the shower room, a carbon fiber radiator is arranged in a wall body of the shower room, the bottoms of the cold water feed pipe and the hot water feed pipe are connected with the carbon fiber radiator, an external source interface pipeline is arranged on the carbon fiber radiator, a temporary storage water tank is arranged at the bottom of the shower room, one end of the temporary storage water tank is connected with a waste water electric nozzle with a thermal electric rod, the other end of the temporary storage water tank is connected with the carbon fiber radiator, and a temperature control micro stainless steel electric rod is arranged at a water outlet which is.

Furthermore, a first switching valve is arranged above a joint of the hot water feed pipe and the shower nozzle, and a second switching valve is arranged below the joint; and a third switching valve is arranged above a joint of the cold water feed pipe and the shower nozzle, and a fourth switching valve is arranged below the joint.

Further, the external source interface pipeline comprises a first external source interface pipeline and a second external source interface pipeline, each external source interface pipeline is provided with a water inlet and a water outlet, the first external source interface is used for supplying hot bath water, and the second external source interface is used for supplying hot water and cold water.

Furthermore, a fifth switching valve is arranged on the first external source interface pipeline, and a sixth switching valve is arranged on the second external source interface pipeline.

Further, a sewage draining outlet is formed in the bottom of the carbon fiber radiator.

Further, a water pump and an electric water outlet are arranged on the temporary storage box.

Furthermore, a seventh switching valve is arranged on a pipeline connecting the temporary storage water tank and the waste water electric spray head with the thermoelectric bar.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

when the temporary water tank of the shower room starts to collect the bath wastewater, the temperature control micro stainless steel electric heating rod is started to heat and remove the scale. The hot bath water in the temporary storage water tank is pressurized by the water pump and then is pumped into the carbon fiber radiator for heat dissipation, so that the temperature of the whole toilet is increased. The hot bathing water flows through the carbon fiber radiator and then enters the electric hot-water sprayer with the hot-water stick through the pipeline, the electric hot-water sprayer with the hot-water stick is opened, the hot bathing water is sprayed onto the outdoor evaporator of the household hot-water unit, frost on the surface of the evaporator of the household hot-water unit is removed, or the surface temperature of the outdoor evaporator of the household hot-water unit is increased, so that the running efficiency of the household air source hot-water unit is increased, and electric energy is saved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is an enlarged schematic view of a structure in fig. 1.

In the figure, 1, a shower room, 2, a shower nozzle, 3, a carbon fiber radiator, 4, an external source interface pipeline, 4.1, a first external source interface pipeline, 4.11, a fifth switching valve, 4.2, a second interface pipeline, 4.21, a sixth switching valve 5, a sewage discharge outlet, 6, a temporary storage water tank, 6.1, a water pump, 6.2, an electric water discharge outlet, 7, a waste water electric nozzle with a thermoelectric bar, 8, a temperature control micro stainless steel electric heating bar, 9, a household hot water unit outdoor evaporator, 10, a hot water supply pipe, 10.1, a first switching valve, 10.2, a second switching valve, 11, a cold water supply pipe, 11.1, a third switching valve, 11.2, a fourth switching valve, 12 and a seventh switching valve are arranged.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1, this embodiment includes shower room 1 that has shower nozzle 2, be equipped with carbon fiber radiator 3 in the wall body of shower room 1, be equipped with external source interface pipeline 4 on the carbon fiber radiator 3, carbon fiber radiator 3's bottom is equipped with drain 5, shower room 1's bottom is equipped with temporary storage water tank 6, temporary storage water tank 6's one end and area hot electric rod waste water electric spray head 7 are connected, its other end with carbon fiber radiator 3 connects, is equipped with the miniature stainless steel electric heat bar of control by temperature change 8 in the delivery port department that is close to area hot electric rod waste water electric spray head 7.

The electric waste water spray head 7 with the electric heating rod is closed at ordinary times and can be controlled to be opened to spray water, so that the bathing hot water recovered by the temporary storage water tank 6 is uniformly sprayed onto the outdoor evaporator 9 of the household hot water unit, the temperature of the outdoor evaporator 9 of the household hot water unit is increased, and the operation efficiency of the household hot water unit is improved.

Because organic impurities and dirt exist in bath wastewater, the outlet aperture of the electric shower nozzle 7 with the electric heating rod wastewater is small and is easily blocked by the dirt, the temperature control micro stainless steel electric heating rod 8 is arranged at the position close to the outlet of the electric shower nozzle 7 with the electric heating rod wastewater, and is opened during water spraying to heat the organic dirt accumulated at the outlet of the shower nozzle, dehydrate, shrink and separate from the outlet boundary of the electric shower nozzle 7 with the electric heating rod wastewater, and the organic dirt is discharged along with water flow during water spraying, so that the shower nozzle is prevented from being blocked. In order to achieve a good decontamination effect, the temperature control micro stainless steel electric heating rod 8 can be turned on in advance in a few minutes before the waste water electric spray head 7 with the electric heating rod, water spraying is started again after the surface temperature of the temperature control micro stainless steel electric heating rod 8 reaches about 200 ℃ and organic dirt begins to shrink by heating (the electric heating rod is automatically turned off when no water exists), a good cleaning effect is achieved, and meanwhile the temperature control micro stainless steel electric heating rod 8 is prevented from being burnt out.

A hot water feed pipe 10 and a cold water feed pipe 11 which are communicated with a shower nozzle are arranged in the shower room 1, the bottoms of the cold water feed pipe 10 and the hot water feed pipe 11 are connected with the carbon fiber radiator 3 and used for providing hot water for the carbon fiber radiator, and then the carbon fiber radiator 3 radiates the wall body of the shower room 1, so that the temperature of the whole bathroom is improved, and the comfort level during shower is improved.

The bottom of the carbon fiber radiator 3 is provided with a drain outlet 5, impurities precipitated at the bottom of the carbon fiber radiator 3 can be cleaned after the carbon fiber radiator is opened, large dirt such as hair is prevented from blocking a drainage pipeline, and the carbon fiber radiator can adapt to bathing wastewater with more impurities and dirt.

Be equipped with two external source interface pipelines 4 on carbon fiber radiator 3, including first external source interface pipeline 4.1 and second interface pipeline 4.2, every external source interface pipeline 4 includes water inlet and delivery port, and wherein first external source interface 4.1 is used for bathing hot water to supply water, and second external source interface 4.2 is used for supplying water of hot-water of supplying heat and cooling cold water. The first external source interface pipeline 4.1 is provided with a fifth switching valve 4.11, and the second external source interface pipeline 4.2 is provided with a sixth switching valve 4.21, so that the amount of hot water or cold water injected into the carbon fiber radiator 3 from the external source interface pipeline 4 is controlled, and the heat radiation or heat absorption is carried out on the wall body of the shower room 1.

A first switching valve 10.1 is arranged above a joint of the hot water feed pipe 10 and the shower nozzle 2, and a second switching valve 10.2 is arranged below the joint; the cold water feed pipe 11 is provided with a third switching valve 11.1 above the interface with the shower nozzle 2, and a fourth switching valve 11.2 below the interface. The first switching valve 10.1 can control hot water to enter the shower head 2, the third switching valve 11.1 can control cold water to enter the shower head 2, and the temperature of the water sprayed by the shower head 2 is controlled by adjusting the first switching valve 10.1 and the second switching valve 10.2; the third switching valve 11.1 can control hot water in the hot water feed pipe to enter the carbon fiber radiator 3, so that the carbon fiber radiator 3 can radiate the wall of the shower room 1, the ambient temperature of the whole shower room 1 is improved, and the requirement of showering in winter is met.

The fourth switching valve 11.2 can control the cold water in the cold water feed pipe 11 to enter the carbon fiber radiator 3, thereby reducing the temperature of the wall body of the shower room 1 and meeting the shower requirement in summer.

In this embodiment, the temporary water storage tank 6 is provided with a water pump 6.1 and an electric drainage outlet 6.2. The electric water outlet 6.2 is arranged at the bottom of the temporary storage water tank 6, so that water can be drained by electric opening when the carbon fiber radiator 3 does not need water supply circulation; the water pump 6.1 adopts safe low-voltage power supply and liquid level interlocking control, when reaching the pump starting liquid level, the water pump 6.1 is started to supply water into the carbon fiber radiator 3, so that after high-temperature wastewater generated by bathing is collected by the temporary storage water tank 6, a part of high-temperature bathing wastewater in the temporary storage water tank 6 is pressurized and injected into the carbon fiber radiator 3 through the water pump 6.1, the overall temperature of the shower room 1 can be improved, and the energy consumption can be reduced; the other part of high-temperature wastewater in the temporary storage water tank 6 is uniformly sprayed onto the outdoor evaporator 9 of the household hot water unit through the electric heating rod wastewater electric spray head 7 under the control of the seventh switching valve 12, so that the temperature of the outdoor evaporator 9 of the household hot water unit is increased, and the operation efficiency of the household hot water unit is improved.

Various modifications and variations of the present invention may be made by those skilled in the art, which are also within the scope of the present invention, provided they are within the scope of the claims and their equivalents.

What is not described in detail in the specification is prior art that is well known to those skilled in the art.

Claims (7)

1. An energy-saving and water-saving toilet comprises a shower room with a shower nozzle, wherein a hot water supply pipe and a cold water supply pipe which are communicated with the shower nozzle are arranged in the shower room, and the energy-saving and water-saving toilet is characterized in that: the carbon fiber heat radiator is arranged in the wall of the shower room, the bottoms of the cold water feed pipe and the hot water feed pipe are connected with the carbon fiber heat radiator, an external source interface pipeline is arranged on the carbon fiber heat radiator, a temporary storage water tank is arranged at the bottom of the shower room, one end of the temporary storage water tank is connected with the waste water electric spray head with the thermal electric stick, the other end of the temporary storage water tank is connected with the carbon fiber heat radiator, and a temperature control micro stainless steel electric heating stick is arranged at a water outlet close to the waste water electric spray head with the thermal.

2. The energy-saving and water-saving toilet according to claim 1, wherein: a first switching valve is arranged above a joint of the hot water feed pipe and the shower nozzle, and a second switching valve is arranged below the joint; and a third switching valve is arranged above a joint of the cold water feed pipe and the shower nozzle, and a fourth switching valve is arranged below the joint.

3. The energy-saving and water-saving toilet according to claim 1 or 2, wherein: the external source interface pipeline comprises a first external source interface pipeline and a second external source interface pipeline, each external source interface pipeline is provided with a water inlet and a water outlet, the first external source interface is used for supplying water for bath hot water, and the second external source interface is used for supplying water for hot water and cold water.

4. The energy-saving and water-saving toilet according to claim 3, wherein: and a fifth switching valve is arranged on the first external source interface pipeline, and a sixth switching valve is arranged on the second external source interface pipeline.

5. The energy-saving and water-saving toilet according to claim 1 or 2, wherein: and a sewage draining outlet is formed in the bottom of the carbon fiber radiator.

6. The energy-saving and water-saving toilet according to claim 1 or 2, wherein: and a water pump and an electric water outlet are arranged on the temporary storage water tank.

7. The energy-saving and water-saving toilet according to claim 1 or 2, wherein: and a seventh switching valve is arranged on a pipeline connecting the temporary storage water tank and the waste water electric spray head with the thermal electric rod.

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