CN211204310U - Buried refrigeration system adopting tap water - Google Patents

Abstract

The utility model relates to an adopt buried refrigeration system of running water, including buried annular water circulation pipeline, delivery pipe and wet return and running water source pipeline, a serial communication port, including open and close valve I, first drinking water pipeline, second water intake pipe and third wet return, the second water intake pipe is linked together with the delivery pipe, and third wet return is linked together with the wet return, is equipped with check valve I between first drinking water pipeline and second water intake pipe, still is equipped with check valve II at the end of first drinking water pipeline, is equipped with open and close valve II between second water intake pipe and third wet return, still be equipped with open and close valve III and IV respectively on second water intake pipe and third wet return, running water source pipeline and third wet return still be connected with each pipeline of domestic water. The advantages are that: the running water is introduced into the indoor buried annular water circulation pipeline, so that the energy consumption is saved, and the physical cooling can also greatly improve the comfort level of the human body.

Description

Buried refrigeration system adopting tap water

Technical Field

The utility model relates to an adopt buried refrigeration system of running water.

Background

In the north of China, people often use air conditioners or geothermal equipment and the like to adjust the temperature in winter. Air conditioners, electric fans or water-cooled fans are used to regulate the temperature in summer. However, the air conditioner used in hot summer neither accords with the green life concept of low carbon and environmental protection, wastes energy, and is easy to cause 'air conditioning diseases'. The electric fan or the water-cooling fan converts electric energy into wind energy, and the body feeling comfort level of people is not ideal enough.

The research finds that in northeast areas, for example, the temperature difference between tap water in summer and the temperature is about more than 5 ℃, and more families use geothermal heating in the northern areas in winter, if a certain device can be added into a geothermal system, the temperature difference between the tap water and the temperature can be reduced to a certain temperature in summer, so that the refrigeration purpose is realized, the energy consumption is greatly reduced, the low-carbon and environment-friendly green life concept is met, the household power consumption expenditure is reduced, meanwhile, the physical cooling can greatly improve the comfort level of a human body, and the purpose is achieved.

Disclosure of Invention

The utility model aims at providing a not only accord with the green life theory of low carbon environmental protection, reduced the power consumptive expenditure of family again, promote the formula of burying refrigerating system with running water of human comfort level greatly.

The utility model discloses a buried refrigeration system using running water, which comprises a buried annular water circulation pipeline arranged indoors, a water supply pipe, a water return pipe and a running water source pipeline, wherein the water supply pipe, the water return pipe and the running water source pipeline are connected with the annular water circulation pipeline, the buried refrigeration system is characterized in that a water inlet port of the running water source pipeline is provided with an opening and closing valve I, the running water source pipeline is also connected with a first drinking water pipeline, a second water inlet pipeline and a third water return pipeline through a tee joint, the second water inlet pipeline is communicated with the water supply pipe, the third water return pipeline is communicated with the water return pipe, a check valve VIII is arranged on the running water source pipeline between the first drinking water pipeline and the second water inlet pipeline, the tail end of the first drinking water pipeline is also provided with a check valve IX, the water inlet end of the first drinking water pipeline is arranged on the running water source pipeline of the opening and closing valve I and the check valve VIII, the other end of the second water return pipeline is arranged between the third water return pipeline and the domestic water pipeline and is connected with a tap water source pipeline, an on-off valve II is arranged on the tap water source pipeline between the second water inlet pipeline and the third water return pipeline, an on-off valve III and an on-off valve IV are further respectively arranged on the second water inlet pipeline and the third water return pipeline, and the tap water source pipeline and the third water return pipeline are further connected with each pipeline of the domestic water.

As a further optimization of the utility model, each pipeline of the domestic water comprises a water pipeline for toilet, a water pipeline for washing machine, a water pipeline for mop pool, a water pipeline for wash basin and a water pipeline for shower bath.

As the utility model discloses a further optimization, the delivery pipe still be linked together through open and close valve V with the hot water inlet tube of heat supply pipe network, the wet return still be linked together with the wet return of heat supply pipe network through open and close valve VI, constitute by heat supply pipe network, delivery pipe, bury the formula of burying annular water circulation pipeline and wet return and constitute ground and bury formula heating system.

As a further optimization of the utility model, the water supply pipe on still be equipped with supplementary concurrent heating device and supplementary refrigerating plant.

The utility model has the advantages that: the running water is introduced into the indoor buried annular water circulation pipeline, so that the energy consumption is saved, and the physical cooling can also greatly improve the comfort level of the human body. Meanwhile, the refrigeration system is used for recycling refrigeration return water and domestic water through pipeline connection, can provide sanitary water, washing water and the like, has the advantages of environmental protection, energy conservation, emission reduction, energy conservation and efficiency improvement, and has considerable economic benefit.

Drawings

Fig. 1 is the structural schematic diagram of the buried refrigeration system of the present invention.

Fig. 2 is the utility model discloses bury formula heating, refrigerating system structural sketch in winter.

Detailed Description

The following describes the problems of the present invention with reference to the accompanying drawings.

By using a city water supply system, taking the Anshan as an example, the water source region, the Tanghe reservoir in the Anshan city has the tap water temperature which is lower than the air temperature and is about 5-10 ℃ generally, if the temperature difference can be well utilized, the indoor temperature is reduced to a certain extent, the refrigeration purpose is further achieved, and the method has profound significance for saving energy.

As shown in fig. 1, the utility model discloses a bury formula refrigerating system with running water, including laying at indoor bury formula annular water circulation pipeline 1, delivery pipe 3 and third return water pipeline 4 and running water source pipeline 8 of being connected with annular water circulation pipeline 1, its characterized in that is equipped with open and close valve I7 at the inlet port of running water source pipeline 8 the running water source pipeline on still be connected with first drinking water pipeline 10, second inlet pipe 5 and third return water pipeline 4 through the tee bend, second inlet pipe 5 be linked together with delivery pipe 3, third return water pipeline 4 be linked together with return water pipe 2, be equipped with check valve VIII 9 on running water source pipeline 8 between first drinking water pipeline 10 and second inlet pipe 5, still be equipped with check valve IX 12 at the end of first drinking water pipeline 10, the inlet end of first drinking water pipeline 10 set up the running water source pipeline VIII 9 of open and close valve VIII 9 8, the other end is arranged between the third return water pipeline and the domestic water pipeline and is connected with a tap water source pipeline, an opening and closing valve II 11 is arranged on the tap water source pipeline between the second water inlet pipeline 5 and the third return water pipeline 4, an opening and closing valve III 13 and an opening and closing valve IV 14 are respectively arranged on the second water inlet pipeline 5 and the third return water pipeline 4, and the tap water source pipeline 8 and the third return water pipeline 4 are also connected with each pipeline 15 of the domestic water.

When the system refrigerates in summer, the utility model discloses can refrigerate, provide drinking water and domestic water for the user in summer.

The system shown in fig. 1 operates as follows: opening the opening and closing valve I, the opening and closing valve III and the opening and closing valve IV, simultaneously opening the circulating pump, closing the check valve VIII, the check valve IX and the opening and closing valve II, leading tap water into the indoor buried annular water circulating pipeline 1 through the second water inlet pipeline 5 and the water supply pipe 3, refrigerating by using medium tap water, and communicating the refrigerated water with each pipeline of domestic water through the third water return pipeline 4, wherein each pipeline of the domestic water comprises a water pipeline for toilet, a water pipeline for a washing machine, a water pipeline for a mop pool, a water pipeline for a washbasin and a water pipeline for shower bath. Because each pipeline of domestic water is communicated with the third return water pipeline 4, the refrigeration effect of the domestic water is related to the consumption of domestic water, and the more the consumption is, the better the refrigeration effect is.

In the midsummer season, because the utility model discloses second water intake pipe 5 on still be equipped with supplementary refrigerating plant 6, when the running water temperature is higher than 20 ℃, start supplementary refrigerating plant 6 and fall the running water temperature to the back below 20 ℃, bury formula annular water circulation pipeline 1 and refrigerate for indoor through second water intake pipe 5 and delivery pipe 3 again, refrigeration effect is better like this, supplementary refrigerating plant adopt the water-cooling radiator of market.

The utility model discloses an all set up the check valve around the first drinking water pipeline 10, consequently, can not cause the cooling water to get into first drinking water pipeline 10, cause drinking water pollution's phenomenon.

The utility model discloses still be equipped with circulating pump 20 on the wet return, when water pressure does not reach the regulation requirement, start circulating pump 20, enable refrigeration or heating and keep normal operating.

When getting warm winter, the utility model discloses can be in winter for the user heat supply, provide drinking water and domestic water.

Delivery pipe 3 still be linked together through open and close valve V17 with the hot water inlet tube 18 of heat supply pipe network, wet return 2 still be linked together with the wet return of heat supply pipe network through open and close valve VI 16, constitute by heat supply pipe network, delivery pipe, bury the formula of burying annular water circulation pipeline and wet return and constitute ground and bury formula heating system.

The system shown in fig. 2 operates as follows: the open-close valve I, the open-close valve II, the open-close valve V17, the open-close valve VI 16, the check valve VIII and the check valve IX are opened, the open-close valve III 13 and the open-close valve IV 14 are closed, and tap water normally supplies drinking water and domestic water through the first drinking water pipeline 10;

the water supply pipe 3 connected with the hot water inlet pipe 18 of the heat supply pipe network, the indoor buried annular water circulation pipeline 1 and the water return pipe 2 connected with the hot water return pipe of the heat supply pipe network form a heating loop, so that heat energy is provided for users, and the purpose of heating is achieved.

Because the utility model discloses second water intake pipe 5 on still be equipped with supplementary concurrent heating device 19, stop temporarily when the winter heating, need start supplementary concurrent heating device 19 before early spring season or the heating season, make the body of people feel more suitable, supplementary concurrent heating device adopt instant heating type water heater.

Claims (6)

1. A buried refrigeration system using running water comprises a buried annular water circulation pipeline arranged indoors, a water supply pipe, a water return pipe and a running water source pipeline, wherein the water supply pipe, the water return pipe and the running water source pipeline are connected with the annular water circulation pipeline, the buried annular water circulation pipeline is characterized in that a water inlet port of the running water source pipeline is provided with an opening and closing valve I, the running water source pipeline is further connected with a first drinking water pipeline, a second water inlet pipeline and a third water return pipeline through a tee joint, the second water inlet pipeline is communicated with the water supply pipe, the third water return pipeline is communicated with the water return pipe, a check valve VIII is arranged on the running water source pipeline between the first drinking water pipeline and the second water inlet pipeline, the tail end of the first drinking water pipeline is further provided with a check valve IX, the water inlet end of the first drinking water pipeline is arranged on the running water source pipeline between the opening and closing valve I and the check valve VIII, the other end of the first drinking water pipeline is arranged between the third water return pipeline, and the tap water source pipeline and the third water return pipeline are also connected with various pipelines of domestic water.

2. A buried refrigeration system using tap water as set forth in claim 1 wherein said domestic water pipes include a shower water pipe, a toilet water pipe, a washing machine water pipe, a mop water pipe and a wash water pipe.

3. The buried refrigeration system using tap water as claimed in claim 1, wherein the water supply pipe is further communicated with a hot water inlet pipe of the heating pipe network through an opening and closing valve v, and the water return pipe is further communicated with a water return pipe of the heating pipe network through an opening and closing valve vi, thereby forming the buried heating system consisting of the heating pipe network, the water supply pipe, the buried circular water circulation pipeline and the water return pipe.

4. A buried refrigeration system using tap water as set forth in claim 1, wherein an auxiliary heat supplementing device and an auxiliary refrigeration device are further provided on said water supply pipe.

5. A buried refrigeration system using tap water as claimed in claim 4, wherein the auxiliary heat supplementing device is an instantaneous water heater, and the auxiliary refrigeration device is a water-cooled radiator.

6. The buried refrigeration system using tap water as claimed in claim 1, wherein a circulation pump is further provided on the return pipe.

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