CN204902276U - Split type solar water heater with silicone tube runner vacuum tube - Google Patents

Abstract

The utility model relates to a split type solar water heater with silicone tube runner vacuum tube, including heat collector and holding water box, the heat collector includes a plurality of solar vacuum heat collection tube to and be fixed in the shell and the conduit saddle at solar vacuum heat collection tube both ends, solar vacuum heat collection tube includes interior / the outer glass pipe of two coaxial settings and sets up in orificial sealing member, the intraductal silicone tube that is fixed with the U type of interior glass, it is a plurality of the silicone tube pass the sealing member and establish ties as an organic wholely in the shell each other to be connected to constitute with holding water box through the heat exchange tube and trade hot -water circulation, still be equipped with circulating water pump on the heat exchange tube, the utility model discloses a silicone tube of high temperature resistant ageing resistance replaces the inside metal runner of traditional vacuum tube heat collector, can directly use water not freeze and the scale deposit as working medium, need not to select for use secondary heat transfer measure such as anti -icing fluid can reach freeze proof purpose of preventing the scale deposit, guarantees split type solar water heater safe operation in winter, and cost performance is high.

Description

A kind of Solar Enercy Fission Geyser with silicone tube runner vacuum tube

Technical field

The utility model relates to and belongs to solar water heater field, particularly a kind of Solar Enercy Fission Geyser adopting silicone tube runner vacuum tube.

Background technology

At present, traditional Solar Enercy Fission Geyser, the mode of medium secondary heat exchange is adopted to produce hot water, cold water enters attemperater, medium in attemperater heat exchange jacket enters solar thermal collector, and medium heats by solar radiation in heat collector, and temperature raises gradually, medium circulation in water tank heat exchange chuck, by the cool water heating in inner water tank.

Because needs adopt the measure of medium secondary heat exchange, technical measures are complicated, and the solar energy vacuum tube simultaneously in existing heat collector mostly is pure glass material or arranges metal flow passage in glass-vacuum tube inside, causes heat collector not possess freezing tolerance, cost is high, and easy scaling.The general anti-icing fluid that adopts in actual applications uses as heat transferring medium, and system integration application cost is high, and anti-icing fluid easily volatilizees, and often needs to carry out fluid infusion, brings inconvenience to later maintenance.

Summary of the invention

The technical problems to be solved in the utility model is the deficiency overcoming existing Solar Enercy Fission Geyser, adopt the metal heat-exchange runner that high temperature resistant aging-resistant silicone tube replaces in traditional solar energy vacuum tube, directly can leak water and not freeze and scaling, also not without the need to adopting the measure of the secondary heat exchanges such as anti-icing fluid.

The utility model design adopts following scheme for this reason:

Have a Solar Enercy Fission Geyser for silicone tube runner vacuum tube, comprise heat collector and attemperater 106, described heat collector comprises multiple solar vacuum heat-collecting pipe, and is fixed on shell and the conduit saddle at solar vacuum heat-collecting pipe two ends; Described solar vacuum heat-collecting pipe comprises two inside/outside glass tubes coaxially arranged and is arranged at the seal of the mouth of pipe, and described inner glass tube internal fixtion has U-shaped silicone tube; Multiple described silicone tube is mutually connected through seal and is integrated in shell, and connects and composes heat-exchanging water-circulation by heat exchanger tube and attemperater, and described heat exchanger tube is also provided with water circulating pump.

Further, described attemperater is unpressurized attemperater.

Further, described attemperater is the bearing insulated water box of band heat exchange jacket, multiple described silicone tube through seal in shell mutually series connection be integrated, and to be connected with heat exchange jacket by heat exchanger tube and to form heat-exchanging water-circulation.

The beneficial effects of the utility model are:

The utility model is in the inside of solar vacuum heat-collecting pipe, silicone tube is arranged in order using the form of U-tube as heat exchange runner, in the mode of series connection, single vacuum tube heat exchange runner is connected to form heat collection unit, form non-pressure freeze proof separated solar water heater using the solar energy vacuum tube of this silicone tube heat exchange runner as the solar thermal collector of heat exchange element and non-pressure attemperater, adopt the direct heat transfer of water pump forced circulation; Also can be combined, directly with water circulation secondary heat exchange, without the need to adopting anti-icing fluid with the bearing insulated water box of band heat exchange jacket simultaneously.

The utility model adopts high temperature resistant aging-resistant silicone tube to replace the metal flow passage of traditional vacuum tube collector inside, can with water be directly working medium and not freeze and fouling, without the need to the object selecting the secondary heat exchange measures such as anti-icing fluid can reach freeze proof good antiscale property, guarantee that Solar Enercy Fission Geyser Winter safety runs, the ratio of performance to price is high.

Accompanying drawing explanation

Be described further with regard to detailed description of the invention of the present utility model below in conjunction with accompanying drawing, wherein:

Fig. 1 is the structural representation of embodiment one;

Fig. 2 is the structural representation of embodiment two.

Detailed description of the invention

Embodiment one

With reference to a kind of Solar Enercy Fission Geyser with silicone tube runner vacuum tube shown in Fig. 1, comprise heat collector and unpressurized attemperater, it is more that described heat collector comprises four solar vacuum heat-collecting pipe 102(actual quantities, this sentences four for example), and be fixed on shell 101 and the conduit saddle 100 at solar vacuum heat-collecting pipe 102 two ends; Solar vacuum heat-collecting pipe 102 comprises two inside/outside glass tubes coaxially arranged and is arranged at the seal 103 of the mouth of pipe, by being fixed with U-shaped silicone tube 105 along the partition 104 that inside pipe wall is uniform in inner glass tube; U-shaped silicone tube 105 mouth of pipe of four is mutually connected through seal 103 and is integrated in shell 101, and connect and compose heat-exchanging water-circulation by heat exchanger tube 107 and the intake-outlet of attemperater 106, heat exchanger tube 107 is also provided with water circulating pump 108, to realize supercharging water outlet.

Embodiment two

With reference to a kind of Solar Enercy Fission Geyser with silicone tube runner vacuum tube shown in Fig. 2, comprise the bearing insulated water box 206 of heat collector and band heat exchange jacket 207, it is more that heat collector comprises four solar vacuum heat-collecting pipe 202(actual quantities, this sentences four for example), and be fixed on shell 201 and the conduit saddle 200 at solar vacuum heat-collecting pipe 202 two ends; Solar vacuum heat-collecting pipe 202 comprises two inside/outside glass tubes coaxially arranged and is arranged at the seal 203 of the mouth of pipe, by being fixed with U-shaped silicone tube 205 along the partition 204 that inside pipe wall is uniform in inner glass tube; U-shaped silicone tube 205 mouth of pipe of four is mutually connected through seal 203 and is integrated in shell 201, and connect and compose heat-exchanging water-circulation by heat exchanger tube 207 and the intake-outlet of heat exchange jacket 207, direct is the heat exchange of working medium secondary cycle with water, without the need to anti-icing fluid, heat exchanger tube 207 is also provided with water circulating pump 208, to realize supercharging water outlet.

The above; be only the better detailed description of the invention of the utility model; but the utility model protection domain is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore the utility model protection domain is as the criterion with the protection domain of claims.

Claims (3)

1. have a Solar Enercy Fission Geyser for silicone tube runner vacuum tube, comprise heat collector and attemperater, described heat collector comprises multiple solar vacuum heat-collecting pipe, and is fixed on shell and the conduit saddle at solar vacuum heat-collecting pipe two ends; It is characterized in that, described solar vacuum heat-collecting pipe comprises two inside/outside glass tubes coaxially arranged and is arranged at the seal of the mouth of pipe, and described inner glass tube internal fixtion has U-shaped silicone tube; Multiple described silicone tube is mutually connected through seal and is integrated in shell, and connects and composes heat-exchanging water-circulation by heat exchanger tube and attemperater, and described heat exchanger tube is also provided with water circulating pump.

2. a kind of Solar Enercy Fission Geyser with silicone tube runner vacuum tube according to claim 1, is characterized in that, described attemperater is unpressurized attemperater.

3. a kind of Solar Enercy Fission Geyser with silicone tube runner vacuum tube according to claim 1, it is characterized in that, described attemperater is the bearing insulated water box of band heat exchange jacket, multiple described silicone tube through seal in shell mutually series connection be integrated, and to be connected with heat exchange jacket by heat exchanger tube and to form heat-exchanging water-circulation.