CN207299588U - The multi-functional buried guard system of compound energy - Google Patents

Abstract

The utility model discloses a kind of multi-functional buried guard system of compound energy, it is characterised in that：Including main water supply pipe（1）, main water return tube road（2）With underground heat exchange device assembly, the underground heat exchange device assembly includes some spaced vertical shafts（3）, in vertical shaft（3）Heat exchanger tube is inside installed, the heat exchanger tube includes isocon（4）, the U-tube that is arranged in parallel（5）And header（6）, isocon（4）Output terminal and U-tube（5）Input terminal connection；U-tube（5）Output terminal and header（6）Input terminal connection, the utility model makes full use of the thermal energy of soil using vertical shaft buries heat exchanger tube by the way of, and raising heat exchange property, had not only reduced preceding current cost, but also reduce later maintenance expense.

Description

The multi-functional buried guard system of compound energy

Technical field

The utility model belongs to building and supplies cooling/warming system technical field, and in particular to a kind of multi-functional complementation combined energy Pipe laying system.

Background technology

At present, building be typically all it is high-rise set, build floor height and flow of the people be also big, the changes in demand of fresh air volume is also very Greatly, it is only conventional use of at present to supply cold-heating system operating cost high and be difficult to carry so spike cooling and heating load is very big, and mesh The preceding soil source being commonly used is in embedded underground heat exchanger, carries out heat exchange by heat exchanger and soil and realizes refrigeration Heat.But the embedded use of heat exchanger is horizontally disposed, although up-front investment is cheap, heat exchange property is poor, but also Limited be subject to using land area.In addition, thimble tube and single tube are generally used using perpendicularly buried pipe, pipe laying even if having Type, there are heat loss during fluid heat exchange in the inner and outer pipe of thimble tube.The use scope of single-tube is limited by hydrogeologic condition System.Also, mode of communicating is also to use serial communication between multiple heat exchangers, and train caliber is larger, pipeline fee compared with Height, and length drooping characteristic limits system capability.

Utility model content

To be solved in the utility model is that the heat exchange performance of existing soil source is relatively low, and the technologies such as cost is higher are asked Topic, so as to provide a kind of buried guard system of multi-functional complementation combined energy.

In order to solve the above technical problems, technical solution is as follows used by the utility model：

A kind of buried guard system of multi-functional compound energy, including main water supply pipe, main water return tube road and ground heat exchanger group Part, the underground heat exchange device assembly includes some spaced vertical shafts, heat exchanger tube is provided with vertical shaft, described Heat exchanger tube includes isocon, the U-tube being arranged in parallel and header, the output terminal of isocon and is connected with the input terminal of U-tube；U The output terminal of type pipe is connected with the input terminal of header；Isocon in neighboring vertical vertical shaft is arranged in parallel and the input of isocon End is connected with main water supply pipe respectively；The output terminal of header in neighboring vertical vertical shaft be sequentially communicated after by return duct and master Water return pipeline connects.

The U-tube is two U-tubes being arranged in parallel, and double U pipes structure increases and the contact area of soil, raising are changed Hot property.

The isocon, U-tube and header are the siphunculus made of polyethylene.Polyethylene pipe is flexible corrosion-resistant, Good pressure-resistant performance, service life is strong, and price is also relatively inexpensive.

The caliber of the isocon, U-tube and header is 32 millimeters.Pipe diameter both meets to keep minimum delivery work( Rate, also meets to keep turbulent flow in pipeline so that the heat transfer between fluid and inner-walls of duct is guaranteed.

Spacing between the vertical shaft is 4-5 meters.At utmost exchanged heat using soil, soil will not be caused unrestrained Take and excessively take soil.

The utility model makes full use of the thermal energy of soil by the way of vertical shaft buries heat exchanger tube, improves heat-exchange performance Energy.Moreover, heat exchanger tube, using the U-tube being arranged in parallel, further increase and the contact area of soil, improve heat exchange property.Change Circulation between heat pipe is using and in conjunction with by the way of journey so that the water flow each in heat exchanger tube is substantially the same, heat exchange amount phase Together, be not in not hot or not hot enough the phenomenon of front end heating, moreover, and having in conjunction with the drooping characteristic of the heat exchanger tube under journey mode Beneficial to raising system capability.The polyethylene pipe that heat exchanger tube is grown using cheap and service life, had not only reduced preceding current cost, but also Reduce later maintenance expense.

Brief description of the drawings

Fig. 1 is the total arrangement schematic diagram of the utility model.

Fig. 2 is the schematic layout pattern of one vertical shaft of the utility model.

Embodiment

As shown in Figs. 1-2, a kind of buried guard system of multi-functional compound energy, including main water supply pipe 1, main water return tube road 2 With underground heat exchange device assembly.The underground heat exchange device assembly includes some spaced vertical shafts 3, the vertical shaft 3 Between spacing be 4-5 meters.At utmost exchanged heat using soil, soil will not be caused to waste and excessively take soil.

Heat exchanger tube is installed in vertical shaft 3.5 sum aggregate of U-tube that the heat exchanger tube includes isocon 4, is arranged in parallel Flow tube 6, the output terminal of isocon 4 are connected with the input terminal of U-tube 5；The output terminal of U-tube 5 connects with the input terminal of header 6 It is logical；Isocon 4 in neighboring vertical vertical shaft 3 is arranged in parallel and the input terminal of isocon 4 is connected with main water supply pipe 1 respectively；Phase The output terminal of header 6 in adjacent vertical shaft 3 is connected after being sequentially communicated by return duct 7 with main water return tube road 2.

In the present embodiment, the U-tube 5 is two U-tubes being arranged in parallel, and double U pipes structure increases connect with soil Contacting surface is accumulated, and improves heat exchange property.The isocon 4, U-tube 5 and header 6 are the siphunculus made of polyethylene.Polyethylene Manage flexible corrosion-resistant, good pressure-resistant performance, service life is strong, and price is also relatively inexpensive.The isocon 4,5 sum aggregate of U-tube The caliber of flow tube 6 is 32 millimeters.Pipe diameter both meets to keep minimum delivery power, also meets to keep turbulent flow to cause in pipeline Heat transfer between fluid and inner-walls of duct is guaranteed.

It is each vertical perpendicular that fluid flow direction between the utility model heat exchanger tube is that fluid in main water supply pipe 1 separately flows into In the heat exchanger tube input terminal of well, the output terminal of the heat exchanger tube in vertical shaft is sequentially communicated, the return pipe of last heat exchanger tube Connected with return duct 7, the same journey parallel way that return duct 7 is connected with main water return tube road 2 so that the water flow in each heat exchanger tube Substantially the same, heat exchange amount is identical, is not in not hot or not hot enough the phenomenon of front end heating.

Claims (5)

1. A kind of 1. buried guard system of multi-functional compound energy, it is characterised in that：Including main water supply pipe（1）, main water return tube road（2） With underground heat exchange device assembly, the underground heat exchange device assembly includes some spaced vertical shafts（3）, in vertical shaft （3）Heat exchanger tube is inside installed, the heat exchanger tube includes isocon（4）, the U-tube that is arranged in parallel（5）And header（6）, shunting Pipe（4）Output terminal and U-tube（5）Input terminal connection；U-tube（5）Output terminal and header（6）Input terminal connection； Neighboring vertical vertical shaft（3）Interior isocon（4）It is arranged in parallel and isocon（4）Input terminal respectively with main water supply pipe（1）Even It is logical；Neighboring vertical vertical shaft（3）Interior header（6）Output terminal be sequentially communicated after pass through return duct（7）With main water return tube road（2） Connection.
2. 2. the buried guard system of multi-functional compound energy according to claim 1, it is characterised in that：The U-tube（5）For two A U-tube being arranged in parallel.
3. 3. the buried guard system of multi-functional compound energy according to claim 1, it is characterised in that：The isocon（4）、U Type pipe（5）And header（6）It is the siphunculus made of polyethylene.
4. 4. the buried guard system of multi-functional compound energy according to claim 3, it is characterised in that：The isocon（4）、U Type pipe（5）And header（6）Caliber be 32 millimeters.
5. 5. the buried guard system of multi-functional compound energy according to claim 1, it is characterised in that：The vertical shaft（3） Between spacing be 4-5 meters.