CN205980459U - Aluminium capillary condenser with hose connection - Google Patents

Abstract

The utility model relates to an aluminium capillary condenser with hose connection, the both ends of aluminium capillary are managed and are returned a liquid union coupling with minute liquid respectively, divide the liquid pipe to include that branch liquid pipe is responsible for and many the branch liquid pipes with dividing liquid to manage person in charge's intercommunication are in charge of, return the liquid pipe include back the liquid pipe be responsible for with many with return liquid and manage time liquid pipes that the person in charge communicates and be in charge of, the aluminium capillary is in charge of with branch liquid pipe and is connected through high pressure hose, high pressure hose's both ends through the sleeve pipe respectively with a minute liquid pipe be in charge of with the crimping of aluminium capillary, the aluminium capillary is in charge of with time liquid pipe and is connected through high pressure hose, high pressure hose's both ends through the sleeve pipe respectively with return the liquid pipe be in charge of with the crimping of aluminium capillary. The utility model discloses save the electric energy, increasing the heat efficiency reduces heating engineering cost, reduces heat supply cost, and connect the aluminium capillary, divide the liquid pipe and return liquid pipe, simple structure, simple to operate with high pressure hose.

Description

A kind of with hose connection aluminum capillary condensation device

Technical field

This utility model is related to a kind of hose connection aluminum capillary condensation device.

Background technology

Do floor heating thermal source with water resource heat pump in prior art, in cardinal principle heat pump, water is heated by condenser, use As intermediate heat transfer medium, circulating pump makes it run in floor heating pipe to water, is heated.The shortcoming of this heating system is：System Complexity, need to carry out heating for multiple times (first heating water, ground is heated by reusable heat water), and engineering cost is high, pays Re Feigao, thermal effect year Rate is low, inadequate energy-conserving and environment-protective, and complex structure needs professional to install.

Utility model content

The utility model proposes a kind of with hose connection aluminum capillary condensation device, with the compressor outlet in heat pump Produce hot high pressure gas, indoor mortar ground is directly heated by aluminum capillary tube, for indoor heating, eliminates in prior art Circulating pump, eliminate and do heat transferring medium link with water.

The technical solution of the utility model is realized in：

A kind of with hose connection aluminum capillary condensation device, the two ends of aluminum capillary tube are respectively with separating tube and liquid back pipe even Connect, described separating tube includes separating tube supervisor and a plurality of and described separating tube is responsible for the separating tube that connects and is in charge of, described liquid back pipe It is responsible for, including liquid back pipe supervisor and a plurality of and described liquid back pipe, the liquid back pipe that connects to be in charge of, described aluminum capillary tube and described separating tube It is in charge of and is connected by high-pressure hose, the two ends of high-pressure hose are in charge of with described separating tube and described aluminum capillary tube respectively by sleeve pipe Crimping, described aluminum capillary tube is in charge of with described liquid back pipe and is connected by high-pressure hose, and the two ends of high-pressure hose are by sleeve pipe respectively It is in charge of with described liquid back pipe and described aluminum capillary tube crimps.

The internal diameter of described aluminum capillary tube is 2 millimeters.

The internal diameter of described high-pressure hose is 4 millimeters.

Described separating tube is in charge of external diameter and described liquid back pipe is in charge of external diameter and is 4 millimeters.

The external diameter of described aluminum capillary tube is 4 millimeters.

Described separating tube and described liquid back pipe are copper pipe.

The coolant flowing out from compressor flows to each bar separating tube by separating tube supervisor and is in charge of, and flows to liquid back pipe through aluminum capillary tube It is in charge of, by liquid back pipe, supervisor flows to expansion valve.

The beneficial effects of the utility model are：

Compressor outlet in this utility model heat pump produces hot high pressure gas, is directly heated by aluminum capillary tube Indoor mortar ground, for indoor heating, eliminates circulating pump of the prior art, eliminates and do heat transferring medium link with water, Simplify structure, save electric energy, improve the thermal efficiency, reduce heating engineering cost, reduce heating cost, and connected with high-pressure hose Aluminum capillary tube, separating tube and liquid back pipe, structure is simple, easy for installation.

Brief description

In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, below will be to embodiment Or in description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, drawings in the following description are only It is some embodiments of the present utility model, for those of ordinary skill in the art, in the premise not paying creative work Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic diagram with hose connection aluminum capillary condensation device described in this utility model embodiment.

In figure：

1st, aluminum capillary tube；2nd, separating tube supervisor；3rd, separating tube is in charge of；4th, liquid back pipe supervisor；5th, liquid back pipe is in charge of；6th, high pressure Flexible pipe；7th, sleeve pipe.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely description is it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under the premise of making creative work The every other embodiment being obtained, broadly falls into the scope of this utility model protection.

As shown in figure 1, described in this utility model embodiment with hose connection aluminum capillary condensation device, aluminum capillary tube 1 Two ends be connected with separating tube and liquid back pipe respectively, separating tube includes separating tube supervisor 2 to be responsible for 2 with separating tube and connects with a plurality of Separating tube is in charge of 3, and liquid back pipe is included liquid back pipe supervisor 4 and is in charge of 5 with a plurality of liquid back pipe being connected with liquid back pipe supervisor 4, aluminum capillary Pipe 1 is in charge of 3 with separating tube and is connected by high-pressure hose 6, the two ends of high-pressure hose 6 by sleeve pipe 7 be in charge of with separating tube respectively 3 and Aluminum capillary tube 1 crimps, and aluminum capillary tube 1 is in charge of 5 with liquid back pipe and is connected by high-pressure hose 6, and sleeve pipe is passed through at the two ends of high-pressure hose 6 7 be in charge of with liquid back pipe respectively 5 and aluminum capillary tube 1 crimp.

In this example, the internal diameter of described aluminum capillary tube 1 is 2 millimeters.

In this example, the internal diameter of described high-pressure hose 6 is 4 millimeters.

In this example, described separating tube is in charge of 3 external diameters and described liquid back pipe is in charge of 5 external diameters and is 4 millimeters.

In this example, the external diameter of described aluminum capillary tube 1 is 4 millimeters.

In this example, described separating tube and described liquid back pipe are copper pipe.

The coolant flowing out from compressor flows to each bar separating tube by separating tube supervisor and is in charge of, and flows to liquid back pipe through aluminum capillary tube It is in charge of, by liquid back pipe, supervisor flows to expansion valve.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all this Within the spirit of utility model and principle, any modification, equivalent substitution and improvement made etc., should be included in this utility model Protection domain within.

Claims (7)

1. a kind of with hose connection aluminum capillary condensation device it is characterised in that：The two ends of aluminum capillary tube respectively with separating tube and Liquid back pipe connects, and described separating tube includes separating tube supervisor and a plurality of and described separating tube is responsible for the separating tube that connects and is in charge of, institute State that liquid back pipe includes liquid back pipe supervisor and a plurality of and described liquid back pipe is responsible for the liquid back pipe that connects and is in charge of, described aluminum capillary tube and institute State separating tube and be in charge of and connected by high-pressure hose, the two ends of high-pressure hose are in charge of and described with described separating tube respectively by sleeve pipe Aluminum capillary tube crimps, and described aluminum capillary tube is in charge of with described liquid back pipe and is connected by high-pressure hose, and the two ends of high-pressure hose are passed through Sleeve pipe is in charge of with described liquid back pipe respectively and described aluminum capillary tube crimps.

2. according to claim 1 with hose connection aluminum capillary condensation device it is characterised in that：Described aluminum capillary tube Internal diameter is 2 millimeters.

3. according to claim 1 with hose connection aluminum capillary condensation device it is characterised in that：Described high-pressure hose Internal diameter is 4 millimeters.

4. according to claim 3 with hose connection aluminum capillary condensation device it is characterised in that：Described separating tube is in charge of External diameter and described liquid back pipe are in charge of external diameter and are 4 millimeters.

5. according to claim 3 with hose connection aluminum capillary condensation device it is characterised in that：Described aluminum capillary tube External diameter is 4 millimeters.

6. according to claim 1 with hose connection aluminum capillary condensation device it is characterised in that：Described separating tube and institute State liquid back pipe and be copper pipe.

7. according to claim 1 with hose connection aluminum capillary condensation device it is characterised in that：Flow out from compressor Coolant flows to each bar separating tube by separating tube supervisor and is in charge of, and flows to liquid back pipe through aluminum capillary tube and is in charge of, is responsible for flow direction by liquid back pipe Expansion valve.