CN111649376A - Vacuum tube type normal-pressure heat collection and pressure bearing operation integrated heat supply system - Google Patents

Abstract

The invention discloses a heat supply system integrating vacuum tube type normal-pressure heat collection and pressure-bearing operation, which comprises a solar normal-pressure and pressure-bearing heat exchange and heat collection header, wherein a solar pressure-bearing heat exchange stainless steel corrugated heat exchanger is arranged on the solar normal-pressure and pressure-bearing heat exchange and heat collection header, a solar heat collector normal-pressure heat exchange inlet and outlet is arranged on the solar normal-pressure and pressure-bearing heat exchange and heat collection header, a plurality of solar heat exchanger glass vacuum tubes are arranged on the solar normal-pressure and pressure-bearing heat exchange and heat collection header, and a solar normal-pressure and pressure-bearing heat exchange connecting piece is arranged at the tail end of. The invention has reasonable structure, realizes the polymerization stroke multi-modularization form of the single-module type vacuum tube type heat collector through the connecting structure by arranging the connecting mechanism, and improves the heat conduction efficiency of the whole module of the vacuum tube type heat collector on the basis of improving the whole bearing capacity of the vacuum tube type heat collector.

Description

Vacuum tube type normal-pressure heat collection and pressure bearing operation integrated heat supply system

Technical Field

The invention relates to the technical field of vacuum tube type heat collection, in particular to a heat supply system integrating vacuum tube type normal-pressure heat collection and pressure-bearing operation.

Background

Vacuum tube collectors are in general three types in the market circulation: one is a monomer household type, and the cost performance ratio belongs to a normal pressure operation mode; the second type is a combined engineering module, the cost performance ratio belongs to a normal pressure operation mode, but the pressure cannot be borne due to the structure of the module; the three types are heat pipes, the cost performance is low, and the vacuum pipe type heat collection module adopts a normal pressure concept: because the sealing between the inner container of the heat collection header and the vacuum tube is combined by a silica gel ring, the national standard operating pressure is 0.6 kg, the operating pressure of a municipal tap water pipe network is 3 kg, and the operating pressure of a heating pipe network is 10 kg, the two types are that a combined engineering module can not be directly communicated with the municipal tap water pipe network and the heating pipe network for operation absolutely; municipal tap water pipe networks and heating pipe networks belong to pressure-bearing modes.

When the existing vacuum tube type heat collector is used, because the existing vacuum tube type heat collector is in a single-module type connection mode, the bearing capacity of the existing vacuum tube type heat collector for normal pressure and pressure bearing is limited by a connecting pipe and an integral connection mode when the existing vacuum tube type heat collector is used, and the existing vacuum tube type heat collector does not have a circulating structure of a heat transfer medium when the existing vacuum tube type heat collector is used, so that the consumption rate of the heat transfer medium is high.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a heating system integrating vacuum tube type normal-pressure heat collection and pressure-bearing operation.

In order to achieve the purpose, the invention adopts the following technical scheme:

a heat supply system integrating vacuum tube type normal-pressure heat collection and pressure-bearing operation comprises a solar normal-pressure and pressure-bearing heat exchange heat collection header, wherein a solar pressure-bearing heat exchange stainless steel corrugated heat exchanger is arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header, a solar heat collector normal-pressure heat exchange inlet and outlet is arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header, a plurality of solar heat exchanger glass vacuum tubes are arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header, a solar normal-pressure and pressure-bearing heat exchange connecting piece is arranged at the tail end of each solar heat exchanger glass vacuum tube, a normal-pressure heat exchange exhaust port is arranged on each solar normal-pressure and pressure-bearing heat exchange connecting piece, a connecting mechanism for realizing normal-pressure and pressure-bearing circulating heat exchange is arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header, a solar heat, the solar energy normal pressure and pressure bearing heat exchange heat collection header is provided with a solar energy heat collection east-west module support, the solar energy normal pressure and pressure bearing heat exchange heat collection header is provided with a circulation mechanism for realizing solar energy normal pressure heat collection and heat formation heat exchange medium circulation, and the solar energy normal pressure and pressure bearing heat exchange heat collection header is provided with a normal pressure and pressure bearing inlet and outlet end circulation special module.

Preferably, the connecting mechanism includes a pressure-bearing heat exchange medium circulation channel arranged on the solar normal pressure and pressure-bearing heat exchange heat collection header, the tail end of the pressure-bearing heat exchange medium circulation channel is provided with a normal pressure and pressure-bearing heat exchange medium separator, the tail end of the normal pressure and pressure-bearing heat exchange medium separator is provided with a normal pressure heat exchange medium tee joint, the tail end of the normal pressure heat exchange medium tee joint is provided with a normal pressure heat exchange medium loose joint, the pressure-bearing heat exchange medium circulation channel is provided with a pressure-bearing heat exchange medium sloton, the pressure-bearing heat exchange medium sloton is provided with a normal pressure heat exchange medium inlet valve, and the pressure-bearing heat exchange medium sloton is.

Preferably, the circulating mechanism comprises a solar normal-pressure heat exchange medium ascending water tank, the solar normal-pressure heat exchange medium ascending water tank is connected with a cold water source through a connecting pipe, the cold water source is connected with a ground heating heat return pipe network distribution table through a connecting pipe, the ground heating heat return pipe network distribution table is connected with a ground source heat pump auxiliary system through a connecting pipe, and the ground heating heat supply pipe network distribution table is connected through a connecting pipe.

Preferably, a stainless steel corrugated pipe is additionally arranged in the solar normal-pressure and pressure-bearing heat exchange and collection header to serve as a heat exchange pressure-bearing guide pipe, and special bidirectional backflow pipe fittings are arranged at an inlet and an outlet of the solar normal-pressure and pressure-bearing heat exchange and collection header.

Preferably, the solar vacuum tube type normal-pressure heat collection operating pressure is 0.3 kg, and the synchronous heat exchange pressure-bearing operating pressure is more than 10 kg.

Compared with the prior art, the invention has the beneficial effects that:

1. the single-module type vacuum tube type heat collector realizes a polymerization stroke multi-modularization form through the connecting structure by arranging the connecting mechanism, and the heat conduction efficiency of the whole module of the vacuum tube type heat collector is improved on the basis of improving the whole bearing capacity of the vacuum tube type heat collector.

2. The circulation mechanism is arranged to realize circulation of heat transfer media in the vacuum tube type heat collector, so that the heat transfer media are kept in cyclic utilization, and the consumption rate of the heat transfer media is reduced.

Drawings

FIG. 1 is a schematic diagram of the operation principle and structure of a heating system integrating vacuum tube type normal pressure heat collection and pressure bearing operation;

FIG. 2 is a schematic top view of a heating system with integrated vacuum tube type normal pressure heat collection and pressure bearing operation according to the present invention;

FIG. 3 is a schematic view of a heating system integrated with vacuum tube type normal pressure heat collection and pressure bearing operation according to the present invention;

FIG. 4 is a schematic view of a bellows exchanger of a heating system integrating vacuum tube type normal pressure heat collection and pressure bearing operation;

FIG. 5 is a schematic sectional view of a heat supply system integrating vacuum tube type normal pressure heat collection and pressure bearing operation;

FIG. 6 is a schematic view of a heat coupling box of a heating system integrating vacuum tube type normal pressure heat collection and pressure bearing operation;

FIG. 7 is a schematic view of a connection mechanism of a heating system integrating vacuum tube type normal pressure heat collection and pressure bearing operation;

FIG. 8 is a schematic diagram of a special module for circulation of the normal pressure and pressure-bearing inlet and outlet ends of a heating system integrating the normal pressure heat collection and pressure-bearing operation of the vacuum tube type;

FIG. 9 is an enlarged schematic view of the structure at the position A of the heat supply system integrating the vacuum tube type normal pressure heat collection and pressure bearing operation.

In the figure: 1 a solar normal pressure and pressure bearing heat exchange heat collection header, 2 a normal pressure heat exchange exhaust port, 3 a solar heat exchanger glass vacuum tube, 4 a solar heat collection north-south module support, 5 a solar heat collection east-west module support, 6 a solar pressure bearing heat exchange stainless steel corrugated heat exchanger, 7 a solar normal pressure and pressure bearing heat exchange connecting piece, 8 a solar heat collector normal pressure heat exchange inlet and outlet, 9 a pressure bearing heat exchange medium circulation channel, 10 a normal pressure and pressure bearing heat exchange medium isolating piece and 11 a normal pressure heat exchange medium tee joint piece, 12 normal pressure heat exchange medium movable connecting pieces, 13 pressure-bearing heat exchange medium scone pieces, 14 ground heating heat return pipe network distribution tables, 15 normal pressure heat exchange medium inlet valves, 16 normal pressure medium exhaust valves, 17 normal pressure and pressure-bearing inlet and outlet end circulation special modules, 18 solar normal pressure heat exchange medium ascending water tanks, 19 cold water sources, 20 ground source heat pump auxiliary systems and 21 ground heating heat supply pipe network distribution tables.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1-9, a heat supply system integrating vacuum tube type normal pressure heat collection and pressure bearing operation, comprising a solar normal pressure and pressure bearing heat exchange heat collection header 1, wherein the solar normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a solar pressure bearing heat exchange stainless steel corrugated heat exchanger 6, the solar normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a solar collector normal pressure heat exchange inlet and outlet 8, the solar normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a plurality of solar heat exchanger glass vacuum tubes 3, the tail end of the solar heat exchanger glass vacuum tubes 3 is provided with a solar normal pressure and pressure bearing heat exchange connecting piece 7, the solar normal pressure and pressure bearing heat exchange connecting piece 7 is provided with a normal pressure heat exchange exhaust port 2, the solar normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a connecting mechanism for realizing normal pressure and pressure bearing in, the solar energy normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a solar energy heat collection south-north module support 4, the solar energy normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a solar energy heat collection east-west module support 5, the solar energy normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a circulating mechanism for realizing the circulation of solar energy normal pressure heat collection and heat forming heat exchange media, and the solar energy normal pressure and pressure bearing heat exchange heat collection header 1 is provided with a normal pressure and pressure bearing inlet and outlet end circulation special module 17.

In the invention, a connecting mechanism comprises a pressure-bearing heat exchange medium circulating channel 9 arranged on a solar normal-pressure and pressure-bearing heat exchange heat collection header 1, the tail end of the pressure-bearing heat exchange medium circulating channel 9 is provided with a normal-pressure and pressure-bearing heat exchange medium isolating piece 10, the tail end of the normal-pressure and pressure-bearing heat exchange medium isolating piece 10 is provided with a normal-pressure heat exchange medium tee joint piece 11, the tail end of the normal-pressure heat exchange medium tee joint piece 11 is provided with a normal-pressure heat exchange medium movable connecting piece 12, the pressure-bearing heat exchange medium circulating channel 9 is provided with a pressure-bearing heat exchange medium through piece 13, the pressure-bearing heat exchange medium through piece 13 is provided with a normal-pressure heat exchange medium inlet valve 15, the pressure-bearing heat exchange medium through piece 13 is provided with a normal-pressure medium exhaust valve 16, the single-module, the heat conduction efficiency of the whole module of the vacuum tube type heat collector is improved.

The circulating mechanism comprises a solar normal-pressure heat exchange medium ascending water tank 18, the solar normal-pressure heat exchange medium ascending water tank 18 is connected with a cold water source 19 through a connecting pipe, the cold water source 19 is connected with a ground heating heat return pipe network distribution table 14 through a connecting pipe, the ground heating heat return pipe network distribution table 14 is connected with a ground source heat pump auxiliary system 20 through a connecting pipe, the ground heating heat supply pipe network distribution table 21 is connected through a connecting pipe, a stainless steel corrugated pipe is added in a solar normal-pressure and pressure-bearing heat exchange and heat collection header 1 to serve as a heat exchange pressure-bearing guide pipe, a special bidirectional backflow pipe fitting is installed at an inlet and an outlet of the solar normal-pressure and pressure-bearing heat exchange and heat collection header 1, the solar vacuum pipe type normal-pressure heat collection operating pressure is 0.3 kg, the synchronous heat exchange pressure-bearing operating pressure is more, reducing the rate of consumption of the heat transfer medium.

When the solar constant-pressure heat exchange and collection system is used, as shown in figures 1-8, each solar constant-pressure and pressure-bearing heat exchange and collection header 1 is connected through a solar pressure-bearing heat exchange stainless steel corrugated heat exchanger 6, a plurality of modules formed by combining the solar constant-pressure and pressure-bearing heat exchange and collection headers 1 are fixed and supported through a solar constant-pressure and pressure-bearing heat exchange connecting piece 7, a solar heat collection north-south module support 4 and a solar heat collection east-west module support 5, heat is transmitted through a solar heat exchanger glass vacuum tube 3 on the solar constant-pressure and pressure-bearing heat exchange and collection header 1 and the solar pressure-bearing heat exchange stainless steel corrugated heat exchanger 6, the constant-pressure heat exchange exhaust port 2 is in contact with a constant-pressure and pressure-bearing inlet-outlet end circulation special module 17, a constant-pressure and pressure-bearing heat exchange medium isolating piece 10 on a pressure-bearing heat exchange medium circulation passage 9 is connected with a constant-, the expansion of a loop is realized through the normal-pressure heat exchange medium tee joint piece 11 and the pressure-bearing heat exchange medium scone piece 13, the control of the expansion loop is realized through the normal-pressure medium exhaust valve 16 and the normal-pressure heat exchange medium inlet valve 15, the solar normal-pressure heat exchange medium ascending water tank 18 is connected with the cold water source 19 through a connecting pipe, heat distribution is carried out through the floor heating heat return pipe network distribution table 14, each shunt is connected through the connecting pipe, and the ground source heat pump auxiliary system 20 and the floor heating heat supply pipe network distribution table 21 are connected through the connecting pipe to form a heat loop.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. The heat supply system integrating the normal-pressure heat collection and pressure-bearing operation of the vacuum tube type comprises a solar normal-pressure and pressure-bearing heat exchange heat collection header (1) and is characterized in that a solar pressure-bearing heat exchange stainless steel corrugated heat exchanger (6) is arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header (1), a solar collector normal-pressure heat exchange inlet and outlet (8) is arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header (1), a plurality of solar heat exchanger glass vacuum tubes (3) are arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header (1), a solar normal-pressure and pressure-bearing heat exchange connecting piece (7) is arranged at the tail end of each solar heat exchanger glass vacuum tube (3), a normal-pressure heat exchange exhaust port (2) is arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header (1), and normal-pressure and pressure-bearing heat exchange circulating heat exchange The solar constant-pressure and pressure-bearing heat exchange and heat collection header is characterized in that a solar heat collection north-south module support (4) is arranged on the solar constant-pressure and pressure-bearing heat exchange and heat collection header (1), a solar heat collection east-west module support (5) is arranged on the solar constant-pressure and pressure-bearing heat exchange and heat collection header (1), a circulating mechanism used for realizing circulation of solar constant-pressure heat collection and heat formation heat exchange media is arranged on the solar constant-pressure and pressure-bearing heat exchange and heat collection header (1), and a constant-pressure and pressure-bearing inlet-outlet end circulation special module (17) is arranged on the solar constant-pressure and pressure-bearing heat.

2. The heating system of claim 1, wherein the vacuum tube type normal pressure heat collection and pressure bearing operation is integrated, it is characterized in that the connecting mechanism comprises a pressure-bearing heat exchange medium circulating channel (9) arranged on the solar normal-pressure and pressure-bearing heat exchange heat collection header (1), the tail end of the pressure-bearing heat exchange medium circulating channel (9) is provided with a normal pressure and pressure-bearing heat exchange medium isolating piece (10), the tail end of the normal pressure and pressure-bearing heat exchange medium isolating piece (10) is provided with a normal pressure heat exchange medium tee joint piece (11), the tail end of the normal pressure heat exchange medium three-way piece (11) is provided with a normal pressure heat exchange medium movable connecting piece (12), a pressure-bearing heat exchange medium Stepper piece (13) is arranged on the pressure-bearing heat exchange medium circulating channel (9), the pressure-bearing heat exchange medium Stepper (13) is provided with a normal pressure heat exchange medium inlet valve (15), and a normal pressure medium exhaust valve (16) is arranged on the pressure-bearing heat exchange medium Steady piece (13).

3. The heating system integrating vacuum tube type normal-pressure heat collection and pressure bearing is characterized in that the circulating mechanism comprises a solar normal-pressure heat exchange medium ascending water tank (18), the solar normal-pressure heat exchange medium ascending water tank (18) is connected with a cold water source (19) through a connecting pipe, the cold water source (19) is connected with a ground heating heat recovery pipe network distribution table (14) through a connecting pipe, the ground heating heat recovery pipe network distribution table (14) is connected with a ground source heat pump auxiliary system (20) through a connecting pipe, and the ground heating heat supply pipe network distribution table (21) is connected through a connecting pipe.

4. The heating system integrating vacuum tube type normal-pressure heat collection and pressure-bearing operation as claimed in claim 1, wherein a stainless steel corrugated tube is added in the solar normal-pressure and pressure-bearing heat exchange and heat collection header (1) to serve as a heat exchange pressure-bearing conduit, and a special bidirectional backflow pipe fitting is installed at an inlet and an outlet of the solar normal-pressure and pressure-bearing heat exchange and heat collection header (1).

5. The heating system of claim 1, wherein the operating pressure of the solar vacuum tube type normal pressure heat collection is 0.3 kg, and the pressure-bearing operating pressure of the synchronous heat exchange is more than 10 kg.

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