CN202813841U - Water pipe type solar vacuum collector tube - Google Patents

Abstract

A water tube type solar vacuum heat collecting tube relates to the field of photothermal energy saving products. It includes a glass tube (1), a heat-absorbing coating (2), a seamless stainless steel tube (3) and a sealing ring (4); the outside of the seamless stainless steel tube (3) is provided with a glass tube (1), and the glass tube ( A heat-absorbing coating (2) is provided between 1) and the seamless stainless steel tube (3), and a sealing ring (4) is provided at the end of the glass tube (1) and the seamless stainless steel tube (3), and the seamless stainless steel tube Both ends of (3) are provided with external threads (5). It can be installed vertically in parallel or in series on balconies and walls like water pipes, and can directly absorb and convert solar energy into heat energy and store it; under the condition of bearing tap water pressure, it can flow hot water from the upper end for use and integrate with the building , high flexibility, safe and reliable.

Description

A water tube type solar vacuum heat collecting tube

Technical field:

The utility model relates to the field of photothermal energy-saving products, in particular to a water tube type solar vacuum heat collecting tube.

Background technique:

The currently used solar collector tubes are U-shaped vacuum heat collector tubes. U-shaped vacuum heat collector tubes use the microcirculation flow of cold and hot water to solve the water cycle between the water tank and the heat collector tubes, and achieve the purpose of completely heating cold water. It is used in low-rise buildings. good results. However, when used in high-rise buildings, it is usually solved by installing a heat exchanger in the U-shaped tube, that is, inserting a copper tube in the U-shaped tube, and the water in the copper tube exchanges heat with the medium in the heat collector to achieve the heating effect of the water. purpose, but this method makes the water output and hot water temperature not stable enough, and it cannot be perfectly combined with the building, and the safety is poor, which limits the application of solar collectors in high-rise buildings.

Utility model content:

The purpose of this utility model is to provide a water pipe type solar vacuum heat collecting tube, which can be installed on the balcony and the wall in vertical parallel or in series like a water pipe, and can directly absorb and convert solar energy into heat energy and store it; it can withstand the pressure of tap water Under the circumstances, hot water flows out from the upper end for use, and it is integrated with the building, which is safe and reliable.

In order to solve the existing problems of the background technology, the utility model adopts the following technical scheme: it includes a glass tube 1, a heat-absorbing coating 2, a seamless stainless steel tube 3 and a sealing ring 4; the outside of the seamless stainless steel tube 3 is provided with a glass A heat-absorbing coating 2 is provided between the tube 1, the glass tube 1 and the seamless stainless steel tube 3, a sealing ring 4 is provided at the end of the glass tube 1 and the seamless stainless steel tube 3, and outer seal rings 4 are provided at both ends of the seamless stainless steel tube 3. Thread 5.

The glass tube 1 and the seamless stainless steel tube 3 adopt a concentric structure, and vacuum is used between them, which effectively reduces the heat loss to the surrounding environment and improves the heat collection efficiency.

Both ends of the seamless stainless steel pipe 3 are provided with openings, one end is a water inlet, and the other end is a water outlet.

Working principle: solar energy shines through the outer glass tube 1 onto the heat-absorbing coating 2 on the outer surface of the seamless stainless steel tube 3, and converts it into heat to heat the water in the seamless stainless steel tube 3; when installed vertically, the seamless stainless steel tube 3 The lower end of the lower end is connected to the tap water cold water inlet, and the upper end is connected to the hot water outlet. When in use, the hot water tap is opened, and the hot water in the seamless stainless steel pipe 3 will be directly pressed out by the pressure of the cold water below.

The utility model can be vertically connected in parallel or connected in series on the balcony and the wall like a water pipe, and can directly absorb and convert solar energy into heat energy and store it; under the condition of bearing tap water pressure, hot water can flow out from the upper end for use, and can be integrated with the building As a whole, high flexibility, safe and reliable.

Description of drawings:

Fig. 1 is the structural representation of the utility model;

Fig. 2 is an enlarged view of part A of Fig. 1 .

Detailed ways:

With reference to Fig. 1-Fig. 2, this specific embodiment adopts following technical scheme: it comprises glass tube 1, heat-absorbing coating 2, seamless stainless steel tube 3 and sealing ring 4; The outside of seamless stainless steel tube 3 is provided with glass tube 1 A heat-absorbing coating 2 is provided between the glass tube 1 and the seamless stainless steel tube 3, a sealing ring 4 is provided at the ends of the glass tube 1 and the seamless stainless steel tube 3, and external threads 5 are provided at both ends of the seamless stainless steel tube 3 .

The glass tube 1 and the seamless stainless steel tube 3 adopt a concentric structure, and vacuum is used between them, which effectively reduces the heat loss to the surrounding environment and improves the heat collection efficiency.

Both ends of the seamless stainless steel pipe 3 are provided with openings, one end is a water inlet, and the other end is a water outlet. The interior of the seamless stainless steel pipe 3 stores water and can withstand a certain water pressure.

The sealing ring 4 seals the vacuum between the glass tube 1 and the seamless stainless steel tube 3 .

The external threads 5 at both ends are used for connection with water tanks, water pipes and the like.

Working principle: solar energy shines through the outer glass tube 1 onto the heat-absorbing coating 2 on the outer surface of the seamless stainless steel tube 3, and converts it into heat to heat the water in the seamless stainless steel tube 3; when installed vertically, the seamless stainless steel tube 3 The lower end of the lower end is connected to the tap water cold water inlet, and the upper end is connected to the hot water outlet. When in use, the hot water tap is opened, and the hot water in the seamless stainless steel pipe 3 will be directly pressed out by the pressure of the cold water below.

This specific embodiment can be installed vertically in parallel or in series on balconies and walls like water pipes, and can directly absorb and convert solar energy into heat energy and store it; under the condition of bearing the pressure of tap water, hot water can flow out from the upper end for use, which is compatible with buildings. Integration, high flexibility, safety and reliability.

Claims (3)

1. a water tube type solar vacuum heat collecting tube is characterized in that it comprises glass tube (1), heat-absorbing coating (2), seamless stainless steel tube (3) and sealing ring (4); seamless stainless steel tube (3) ) is provided with a glass tube (1), a heat-absorbing coating (2) is provided between the glass tube (1) and the seamless stainless steel tube (3), and the glass tube (1) and the seamless stainless steel tube (3) The end is provided with a sealing ring (4), and the two ends of the seamless stainless steel pipe (3) are provided with external threads (5). 2. A water tube type solar vacuum heat collection tube according to claim 1, characterized in that said glass tube (1) and seamless stainless steel tube (3) adopt a concentric circle structure, and a vacuum is used between them. 3. A water tube type solar vacuum heat collecting tube according to claim 1, characterized in that two ends of the seamless stainless steel tube (3) are provided with openings, one end is a water inlet, and the other end is a water outlet.

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