CN201764722U - Integrated pressurized solar vacuum glass heat pipe water heater - Google Patents

Abstract

The utility model discloses an integrated pressure-bearing solar water heater with a vacuum glass heat pipe, which comprises the vacuum glass heat pipe (2), a pressure-bearing water tank (3) and a stainless steel pressure-bearing inner container (4) positioned in the pressure-bearing water tank (3), wherein the stainless steel pressure-bearing inner container (4) consists of a stainless steel barrel (5), an end socket and a water pipe; the end socket and the water pipe are welded on the stainless steel barrel; a hole (5-1) is punched on one side of the stainless steel barrel (5); the hole (5-1) is provided with a flange; a stainless steel connecting pipe (6) with an internal thread is welded at the inner side of the flange; a brass pipe (7) with an external thread is screwed on the stainless steel connecting pipe (6); a heat exchange sleeve (8) is welded in a hole inside the brass pipe (7); the heat exchange sleeve (8) extends into the stainless steel barrel (5); and the condensing end of the vacuum glass heat pipe (2) is inserted into the heat exchange sleeve (8). The integrated pressure-bearing solar water heater has the advantages of simple structure, convenience in mounting, high heat efficiency and low manufacturing cost.

Description

Integrated pressurized solar vacuum glass heat pipe water heater

technical field

The utility model relates to an integrated pressurized solar vacuum glass heat pipe water heater, which belongs to the field of solar water heater manufacturing.

Background technique

Most of the current pressure-bearing vacuum tube heat pipe solar water heaters use red copper superconducting heat pipe cores, and aluminum heat-absorbing fins are inserted in the vacuum tubes, and then the condensing end of the superconducting heat pipe cores is connected to the flow channel of red copper material. The heat transfer needs to be conducted several times through the vacuum tube, first from the inner wall of the glass tube to the aluminum heat-absorbing fin, then from the aluminum heat-absorbing fin to the superconducting heat pipe, and finally transferred to the pressurized water tank by the superconducting heat pipe, and finally The heat is carried away by the medium of the pressurized tank. Moreover, the diameter of the condensing end of the core of the superconducting heat pipe currently used is generally φ14-22mm, and the heat exchange area is relatively small. In this way, after several times of attenuation of heat conduction, in addition to the fact that there is not a large enough heat exchange area on the condensing end of the heat pipe core and the flow channel, the thermal efficiency of the heat collector is affected.

Contents of the invention

The purpose of the utility model is to overcome the defects of the prior art and provide a pressurized solar vacuum glass heat pipe water heater with simple structure, convenient installation, high thermal efficiency and low manufacturing cost.

The technical solution to achieve the above purpose is: a pressurized solar vacuum glass heat pipe water heater, including a vacuum glass heat pipe, a pressurized water tank and a stainless steel liner located in the pressurized water tank. The stainless steel pressurized liner is composed of a stainless steel cylinder and welded The head on the stainless steel cylinder and the water pipe are composed of a hole punched on one side of the stainless steel cylinder, with a flange on the hole, and a stainless steel connecting pipe with internal thread welded on the inside of the flange, which is screwed on the stainless steel connecting pipe There is a brass tube with external threads, and a heat exchange sleeve is welded in the inner hole of the brass tube, and the heat exchange sleeve extends into the stainless steel cylinder body, and the condensing end of the vacuum glass heat pipe is inserted into the heat exchange sleeve.

The heat exchange sleeve is a copper tube.

The screw connection between the stainless steel connecting pipe and the brass pipe with external thread is coated with sealing anaerobic adhesive.

After adopting the above technical scheme, the heat on the inner wall of the vacuum tube is directly carried to the condensation end by the medium of the vacuum glass heat pipe, only through one heat convection heat transfer process, and the diameter of the heat exchange sleeve of the stainless steel liner is much larger than φ14mm, which effectively improves the Thermal efficiency of the collector. Since the main body of the heat collector is made of non-metallic glass material, the cost is also greatly reduced compared with the conventional vacuum tube heat pipe type solar heat collector. Because the metal runner tube is composed of a stainless steel pressure-bearing inner tank and related accessories welded on the stainless steel inner tank, it belongs to a fully welded and sealed structure, and the collector can operate under pressure.

Description of drawings

Fig. 1 is the assembly structure schematic diagram of the present utility model;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the schematic diagram of the stainless steel pressure-bearing liner in Fig. 1;

Fig. 4 is a schematic cross-sectional view of the stainless steel pressure-bearing liner in Fig. 1;

Fig. 5 is a diagram showing the connection relationship between the stainless steel pressurized inner tank and the vacuum glass heat pipe in Fig. 1 .

Detailed ways

Below in conjunction with accompanying drawing and embodiment the utility model is described in further detail.

As shown in Figures 1 to 5, a pressure-bearing solar vacuum glass heat pipe water heater includes a vacuum glass heat pipe 2, a pressure-bearing water tank 3, and a stainless steel pressure-bearing liner 4 located in the pressure-bearing water tank 3. The stainless steel pressure-bearing liner 4 consists of The stainless steel cylinder 5 is composed of a head and a water pipe welded on the stainless steel cylinder 5 by automatic argon arc welding. One side of the stainless steel cylinder 5 is punched with a hole 5-1, and the hole 5-1 has a flanging. A stainless steel connecting pipe 6 with internal thread is welded on the inner side of the side, and a brass pipe 7 with external thread is screwed on the stainless steel connecting pipe 6, and a heat exchange sleeve 8 is welded by brazing in the inner hole of the brass pipe 7, and the replacement The thermal sleeve 8 extends into the stainless steel cylinder 5 , and the condensation end of the vacuum glass heat pipe 2 is inserted into the heat exchange sleeve 8 . The heat exchange sleeve 8 is a copper tube. The vacuum glass heat pipe 2 is installed on the water heater support 1.

The joint of the stainless steel connecting pipe 6 and the brass pipe 7 with external thread is coated with sealing anaerobic adhesive. The sealing between the stainless steel connecting pipe 6 and the brass pipe 7 can be ensured.

The working principle of the utility model is as follows:

The vacuum glass heat pipe 2 absorbs solar energy and converts it into heat energy, and transmits the heat to the condensation end through the medium in the vacuum glass heat pipe, and exchanges heat with the fluid medium in the pressure inner tank 4 through the copper heat exchange sleeve 8, so as to realize heat transfer. Collection.

Claims (3)

1. integral type pressure-bearing solar vacuum glass heat pipe water heater, comprise vacuum glass heat pipe (2), water heater press-bearing water tank (3) and the stainless steel pressure-bearing inner bag (4) that is arranged in water heater press-bearing water tank (3), stainless steel pressure-bearing inner bag (4) is made up of stainless steel cylinder (5) and the end socket and the water pipe that are welded on the stainless steel cylinder (5), it is characterized in that: a side blow of stainless steel cylinder (5) porose (5-1), has flange on the hole (5-1), and be welded with tapped stainless steel tube connector (6) in the flange inboard, be connected with on the stainless steel tube connector (6) and be with externally threaded brass tube (7), be welded with heat exchange sleeve (8) in brass tube (7) endoporus, and heat exchange sleeve (8) stretches in the stainless steel cylinder (5), and the condensation end of vacuum glass heat pipe (2) is inserted in the heat exchange sleeve (8).

2. integral type pressure-bearing solar vacuum glass heat pipe water heater according to claim 1 is characterized in that: described heat exchange sleeve (8) is a copper tube.

3. integral type pressure-bearing solar vacuum glass heat pipe water heater according to claim 1 and 2 is characterized in that: stainless steel tube connector (6) with scribble sealing anaerbic adhesive with the screw-on place of externally threaded brass tube (7).

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