CN205156387U - Efficient and efficient solar collector of hydrologic cycle of thermal transition - Google Patents

Abstract

The utility model discloses an efficient and efficient solar collector of hydrologic cycle of thermal transition, including reflecting plate and heating device, the reflecting plate with heating device side connect, the reflecting plate with the planar contained angle in heating device place be the obtuse angle, heating device include mounting panel and a plurality of vacuum tube heat collector, fixed setting of vacuum tube heat collector be in mounting panel surface, the vacuum tube heat collector include conduit and a plurality of vacuum tube that sets up along the conduit bilateral symmetry, contained angle between the plane that the vacuum tube of conduit both sides belonged to respectively is the obtuse angle. The utility model discloses an efficient and efficient solar collector of hydrologic cycle of thermal transition can reflect the sunlight that shines on the reflecting plate more than 90% heating device on, improved heat energy conversion efficiency, the same area's heat collector thermal transition efficiency is higher, simultaneously through the installation of inclining each other of the vacuum tube with conduit both sides, increase the water current circulation efficiency of heat collector.

Description

The solar thermal collector that a kind of thermal transition efficiency is high and water circulation efficiency is high

Technical field

The utility model relates to technical field of solar, specifically, relates to the solar thermal collector that a kind of thermal transition efficiency is high and water circulation efficiency is high.

Background technology

Solar thermal collector is the equipment that a kind of radiant energy by the sun is converted to heat energy.Because solar energy compares dispersion, it must be managed to put together, so heat collector is the various key components utilizing solar energy equipment.Because purposes is different, the system type of heat collector and coupling thereof is divided into many kinds, title is also different, as the solar cooker for cooking, the solar water heater for generation of hot water, the solar dryer for dry goods, the solar energy smelting furnace for smelting metal, and solar energy housing, solar energy power plant, solar energy desalinator etc.Existing solar thermal collector is all only rely on the sunlight be irradiated on heat collector to transform, the heat energy transformed is needed to need more at most more heat collector is installed, cost is high, and existing heat collector vacuum tube is owing to being all that level is installed, and water circulation efficiency is not high.

Utility model content

Technical problem to be solved in the utility model is to provide the solar thermal collector that thermal transition efficiency is high and water circulation efficiency is high that a kind of thermal transition efficiency is high, water circulation efficiency is high.

For solving the problems of the technologies described above, the utility model provides the solar thermal collector that a kind of thermal transition efficiency is high and water circulation efficiency is high, comprise reflecting plate and heat collector, described reflecting plate is connected with described heat collector side, and the angle of described reflecting plate and described heat collector place plane is obtuse angle; Described heat collector comprises installing plate and some vacuum tube collectors, described vacuum tube collector is fixedly installed on described installing plate surface, described vacuum tube collector comprises aqueduct and some vacuum tubes arranged along aqueduct bilateral symmetry, and the angle between the plane at the vacuum tube of described aqueduct both sides place is respectively obtuse angle.

Further, described reflecting plate surface is coated with nanometer reflecting coating.

Further, the angle of described reflecting plate and described installing plate is 122 °.

Further, the angle between the plane at the vacuum tube of described aqueduct both sides place is respectively 122 °.

Further, described vacuum tube collector is matrix arrangement, the aqueduct lontitudinal series of described vacuum tube collector, the aqueduct that described vacuum tube collector the top one is arranged is in parallel with outlet pipe respectively, and the aqueduct that described vacuum tube collector bottom one is arranged is in parallel with water inlet pipe respectively.

Further, described reflecting plate is provided with some grid-like air ports excessively.

Compared with prior art, high and that water circulation efficiency the is high solar thermal collector structure of a kind of thermal transition efficiency of the present utility model is simple, can the daylight more than 90% be irradiated on reflecting plate be reflexed on described heat collector, improve the thermal energy efficiency of heat collector by improving solar radiation intensity, the heat collector thermal transition efficiency of identical floor space is higher; Simultaneously by mutually tilting to install by the vacuum tube of aqueduct both sides, increase the water circulation efficiency of heat collector.

Accompanying drawing explanation

Fig. 1 is the solar thermal collector structural representation that the utility model thermal transition efficiency is high and water circulation efficiency is high;

Fig. 2 is the utility model vacuum tube collector structural representation.

In figure, 1, installing plate, 2, vacuum tube, 3, reflecting plate, 4, outlet pipe, 5, water inlet pipe, 6, cross air port, 7, aqueduct.

Detailed description of the invention

As employed some vocabulary to censure specific components in the middle of description and claim.Those skilled in the art should understand, and hardware manufacturer may call same assembly with different noun.This specification and claims are not used as with the difference of title the mode distinguishing assembly, but are used as the criterion of differentiation with assembly difference functionally." comprising " as mentioned in the middle of description and claim is in the whole text an open language, therefore should be construed to " including but not limited to ".Description subsequent descriptions is for implementing better embodiment of the present utility model, and right described description is to illustrate for the purpose of rule of the present utility model, and is not used to limit scope of the present utility model.Protection domain of the present utility model is when being as the criterion depending on the claims person of defining.

In description of the present utility model, needs are understood, the orientation of the instruction such as ＂, D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end ", " interior ", " outward " on term ＂ or position relationship, only that device or the element of the utility model and simplified characterization instead of instruction or hint indication for convenience of description must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

Below in conjunction with accompanying drawing, the utility model is described in further detail, but not as to restriction of the present utility model.

The solar thermal collector that thermal transition efficiency is high and water circulation efficiency is high, comprise reflecting plate 3 and heat collector, described reflecting plate 3 is connected with described heat collector side, and described reflecting plate 3 is obtuse angle with the angle of described heat collector place plane; Described heat collector comprises installing plate 1 and some vacuum tube collectors, described vacuum tube collector is fixedly installed on described installing plate 1 surface, described vacuum tube collector comprises aqueduct 7 and some vacuum tubes 2 arranged along aqueduct 7 bilateral symmetry, and the angle between the plane at the vacuum tube 2 of described aqueduct 7 both sides place is respectively obtuse angle.

Particularly preferred, described reflecting plate 3 surface is coated with nanometer reflecting coating, and cost is lower, day light reflectance also can reach more than 95, reflecting plate base plate can adopt various hard material, even can use regrown material.

Particularly preferred, described reflecting plate 3 is 122 ° with the angle of described installing plate 1, and best reflection angle, can make the daylight uniform irradiation of reflection on described vacuum tube collector.

Particularly preferred, the angle between the plane at the vacuum tube 2 of described aqueduct 7 both sides place is respectively 122 °, makes the cycle efficieny of water the highest.

Particularly preferred, described vacuum tube collector is matrix arrangement, aqueduct 7 lontitudinal series of described vacuum tube collector, the aqueduct 7 that described vacuum tube collector the top one is arranged is in parallel with outlet pipe 4 respectively, and the aqueduct 7 that described vacuum tube collector bottom one is arranged is in parallel with water inlet pipe 5 respectively.

Particularly preferred, described reflecting plate 3 is provided with some grid-like air ports 6 excessively, reduces windage, ensure that structural safety.

Compared with prior art, high and that water circulation efficiency the is high solar thermal collector structure of a kind of thermal transition efficiency of the present utility model is simple, can the daylight more than 90% be irradiated on reflecting plate be reflexed on described heat collector, improve the thermal energy efficiency of heat collector by improving solar radiation intensity, the heat collector thermal transition efficiency of identical floor space is higher; Simultaneously by mutually tilting to install by the vacuum tube of aqueduct both sides, increase the water circulation efficiency of heat collector.

Above-mentioned explanation illustrate and describes some preferred embodiments of the present utility model, but as previously mentioned, be to be understood that the utility model is not limited to the form disclosed by this paper, should not regard the eliminating to other embodiments as, and can be used for other combinations various, amendment and environment, and can in utility model contemplated scope described herein, changed by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change do not depart from spirit and scope of the present utility model, then all should in the protection domain of the utility model claims.

Claims (6)

1. the solar thermal collector that thermal transition efficiency is high and water circulation efficiency is high, it is characterized in that: comprise reflecting plate (3) and heat collector, described reflecting plate (3) is connected with described heat collector side, and described reflecting plate (3) is obtuse angle with the angle of described heat collector place plane; Described heat collector comprises installing plate (1) and some vacuum tube collectors, described vacuum tube collector is fixedly installed on described installing plate (1) surface, described vacuum tube collector comprises aqueduct (7) and some vacuum tubes (2) arranged along aqueduct (7) bilateral symmetry, and the angle between the plane at the vacuum tube (2) of described aqueduct (7) both sides place is respectively obtuse angle.

2. the solar thermal collector that thermal transition efficiency as claimed in claim 1 is high and water circulation efficiency is high, is characterized in that: described reflecting plate (3) surface is coated with nanometer reflecting coating.

3. the solar thermal collector that thermal transition efficiency as claimed in claim 1 is high and water circulation efficiency is high, is characterized in that: described reflecting plate (3) is 122 ° with the angle of described installing plate (1).

4. the solar thermal collector that thermal transition efficiency as claimed in claim 1 is high and water circulation efficiency is high, is characterized in that: the angle between the plane at the vacuum tube (2) of described aqueduct (7) both sides place is respectively 122 °.

5. the solar thermal collector that thermal transition efficiency as claimed in claim 1 is high and water circulation efficiency is high, it is characterized in that: described vacuum tube collector is matrix arrangement, aqueduct (7) lontitudinal series of described vacuum tube collector, the aqueduct (7) that described vacuum tube collector the top one is arranged is in parallel with outlet pipe (4) respectively, and the aqueduct (7) that described vacuum tube collector bottom one is arranged is in parallel with water inlet pipe (5) respectively.

6. the solar thermal collector that thermal transition efficiency as claimed in claim 1 is high and water circulation efficiency is high, is characterized in that: described reflecting plate (3) is provided with some grid-like air port (6) excessively.