CN106979635B - A kind of ground-source heat pump system underground heat-transfer pipe construction method - Google Patents

Abstract

The invention discloses a kind of ground-source heat pump system underground heat-transfer pipe construction method, step 1) prepares a rope, and one end of rope is motionless, and the other end of rope passes through the annulus of all resilient mount units；Step 2) grabs the both ends of rope, heat-transfer pipe is placed into barrel-shaped steel reinforcement cage, both hands firmly pull up rope during placement, so that resilient mount units are by upward pulling force, at this moment resilient mount units can generate deformation, and upward pulling force will guarantee so that heat-transfer pipe is easy for can be placed in cylindric steel reinforcement cage；Step 3) no longer applies pulling force to rope when heat-transfer pipe has been placed in steel reinforcement cage, and hand grabs one end of rope, and the other end comes loose, and then extracts rope from annulus.

Description

A kind of ground-source heat pump system underground heat-transfer pipe construction method

Technical field

The present invention relates to a kind of ground-source heat pump systems.

Background technique

Earth source heat pump is that the land shallow-layer energy is realized by inputting a small amount of high-grade energy (such as electric energy) by low-grade heat It can be to high-grade heat energy transfer.The energy of usual earth source heat pump consumption 1kWh, the heat of the available 4.4kWh or more of user or Cooling capacity.

Earth source heat pump is one of the technology for the building energy conservation emission reduction that state key promotes and applies；It is a kind of using buried under ground Heat exchange of heat pipe and the earth underground shallow layer geothermal energy resources carry out the cold device exchanged of heat, realize heat supply in winter, cooling in summer it is dual Effect.But since the work such as embedded heat exchanger that need to drill cause the initial outlay expense of ground-source heat pump system relatively high, To limit its popularization and application.Therefore, seek to reduce the technical solution of underground pipe drilling construction expense to be engineers and technicians The direction and ground source heat pump technology laid siege to obtains the necessary condition of wide popularization and application.Heat exchanger buries originating party at present Method is to verify the quasi- strata condition for setting pile foundation and embedded earth source heat pump underground heat-transfer pipe first, then to earth drilling, so Steel reinforcement cage is placed in the stake holes accomplished fluently afterwards, and it is in barrel-shaped shape that steel reinforcement cage, which is typically all, the production of steel reinforcement cage is by transverse steel Then heat-transfer pipe is placed in steel reinforcement cage by the steel reinforcement cage constituted with longitudinal reinforcement, the underfill armored concrete of steel reinforcement cage Portion.It is practical embedded long in the process problem appear to is that heat-transfer pipe is placed in steel reinforcement cage by every heat-transfer pipe by connector connection It moves up and down or moves left and right since the later period needs fill soil to will lead to heat-transfer pipe after portion, it can not so as to cause heat-transfer pipe The phenomenon that being disposed vertically or the joint looseness for connecting heat-transfer pipe caused to lead to leak.

Summary of the invention

The technical problem to be solved by the present invention is in order to solve background technology part.

In order to solve the above technical problems, the technical scheme adopted by the invention is that: a kind of ground-source heat pump system underground biography Heat pipe construction method, which is characterized in that

Including earth source heat pump unit, indoor exhaust wind device and underground heat transfer unit；

The underground heat transfer unit includes heat-transfer pipe, connector, multiple resilient mount units；

The connector is used to for the bottom port of each heat-transfer pipe being connected to；

The resilient mount units include spring and annulus, and one end of spring is fixed on the tube wall of heat-transfer pipe, another End setting annulus；

The multiple resilient mount units of spaced set on the outer wall of the heat-transfer pipe, the resilient mount units are vertical In the axis direction of heat-transfer pipe；

Concrete construction method:

Step 1) prepares a rope, and one end of rope is motionless, and the other end of rope passes through all resilient mount units Annulus；

Step 2) grabs the both ends of rope, heat-transfer pipe is placed into barrel-shaped steel reinforcement cage, double during placement Hand firmly pulls up rope, so that resilient mount units are by upward pulling force, at this moment resilient mount units can generate shape Become, upward pulling force will guarantee so that heat-transfer pipe is easy for can be placed in cylindric steel reinforcement cage；

Step 3) no longer applies pulling force to rope when heat-transfer pipe has been placed in steel reinforcement cage, and hand grabs the one of rope End, the other end come loose, then extract rope from annulus.

Wherein, if the maximum horizontal range between each heat-transfer pipe is X, the length of resilient mount units is Y,

The diameter of the steel reinforcement cage of barrel shape is Z；X+2*Y>Z.

Compared with the prior art, the advantages of the present invention are as follows: first, heat-transfer pipe will not move up and down and left in work progress It moves right, to ensure that heat-transfer pipe is intact；Second, heat-transfer pipe, which is stablized, motionless also ensures that connector part will not be by Damage, to guarantee that connector part will not leak.

Detailed description of the invention

Fig. 1 is the pre- embedded steel reinforcement cage schematic diagram of existing earth source heat pump underground heat transfer unit；

Fig. 2 is the underground heat transfer unit structural schematic diagram that the present invention designs.

Fig. 3 is the schematic diagram for the annulus that rope passes through underground heat transfer unit.

Wherein, 1 is steel reinforcement cage；2 be armored concrete；3 be heat-transfer pipe；4 be connector；5 be resilient mount units；6 are Rope.

Specific embodiment

The invention will be described in further detail with reference to the accompanying drawing.

A kind of embodiment: ground-source heat pump system underground heat-transfer pipe construction method, which is characterized in that including ground source heat pump machine Group, indoor exhaust wind device and underground heat transfer unit；The underground heat transfer unit includes that heat-transfer pipe, connector, multiple elasticity are solid Order member；The connector is used to for the bottom port of each heat-transfer pipe being connected to；The resilient mount units include spring And annulus, one end of spring are fixed on the tube wall of heat-transfer pipe, annulus is arranged in the other end；Between being waited on the outer wall of the heat-transfer pipe Away from the multiple resilient mount units of setting, axis direction of the resilient mount units perpendicular to heat-transfer pipe；

Concrete construction method:

Step 1) prepares a rope, and one end of rope is motionless, and the other end of rope passes through all resilient mount units Annulus；

Step 2) grabs the both ends of rope, heat-transfer pipe is placed into barrel-shaped steel reinforcement cage, double during placement Hand firmly pulls up rope, so that resilient mount units are by upward pulling force, at this moment resilient mount units can generate shape Become, upward pulling force will guarantee so that heat-transfer pipe is easy for can be placed in cylindric steel reinforcement cage；

Step 3) no longer applies pulling force to rope when heat-transfer pipe has been placed in steel reinforcement cage, and hand grabs the one of rope End, the other end come loose, then extract rope from annulus.

It is of the invention be placed in steel reinforcement cage after specific Action Specification: when needing that heat-transfer pipe is placed in inside steel reinforcement cage When, using rope, one end of rope passes through all annulus, and the both ends then to tighten up a rope, at this time spring can be drawn It is curved, at this time easily heat-transfer pipe can be put into inside steel reinforcement cage, one end of rope is then held again, bleed off rope The other end releases rope.At this moment resilient mount units can be in natural state, can with the transverse steel of steel reinforcement cage and indulge To reinforcing bar intersect, thus ensure that heat-transfer pipe at this time will not up and down and move left and right.

Claims (1)

1. a kind of ground-source heat pump system underground heat-transfer pipe construction method, which is characterized in that

Including earth source heat pump unit, indoor exhaust wind device and underground heat transfer unit；

The underground heat transfer unit includes heat-transfer pipe, connector, multiple resilient mount units；

The connector is used to for the bottom port of each heat-transfer pipe being connected to；

The resilient mount units include spring and annulus, and one end of spring is fixed on the tube wall of heat-transfer pipe, and the other end is set Set annulus；

The multiple resilient mount units of spaced set on the outer wall of the heat-transfer pipe, the resilient mount units are perpendicular to biography The axis direction of heat pipe；

Wherein, if the maximum horizontal range between each heat-transfer pipe is X, the length of resilient mount units is Y,

The diameter of the steel reinforcement cage of barrel shape is Z；X+2*Y>Z；

Concrete construction method:

Step 1) prepares a rope, and one end of rope is motionless, and the other end of rope passes through the circle of all resilient mount units Ring；

Step 2) grabs the both ends of rope, heat-transfer pipe is placed into barrel-shaped steel reinforcement cage, and both hands are used during placement Power pulls up rope, so that resilient mount units are by upward pulling force, at this moment resilient mount units can generate deformation, to On pulling force to guarantee so that heat-transfer pipe is easy for can be placed in cylindric steel reinforcement cage；

Step 3) no longer applies pulling force to rope when heat-transfer pipe has been placed in steel reinforcement cage, and hand grabs one end of rope, separately One end comes loose, and then extracts rope from annulus.