CN106052150A - Novel heat collection pipe - Google Patents

Abstract

The invention relates to the technical field of solar energy, in particular to a novel heat collection pipe. The novel heat collection pipe comprises an inner glass pipe body, an outer glass pipe body and inner pipe body positioning pieces. The inner glass pipe body is installed in the outer glass pipe body. A heat exchange channel is formed by the space between the outer wall of the inner glass pipe body and the inner wall of the outer glass pipe body. A spiral pipeline is arranged in the heat exchange channel. A long strip-shaped heat absorption plate is arranged in the inner glass pipe body. A sleeve is arranged on the long strip-shaped heat absorption plate in the center line direction. A heat absorption pipeline is installed in the spiral pipeline. The height of the spiral pipeline is smaller than the length of the heat absorption pipeline. The first end of the spiral pipeline penetrates through the pipe wall of an inner pipe body part and communicates with the first end of the heat absorption pipeline. The second end of the spiral pipeline penetrates through the pipe wall of the inner pipe body part and communicates with the heat absorption pipeline at a notch. The novel heat collection pipe has excellent heat-conducting performance; the inner glass pipe body can be detached, so that maintenance and replacement are convenient; and the novel heat collection pipe has good economic benefits.

Description

A kind of novel heat collecting pipe

Technical field

The present invention relates to technical field of solar, refer specifically to a kind of novel heat collecting pipe.

Background technology

At present, on my domestic market, the solar energy heat collection pipe of application is double-glass vacuum pipe, and its structure is: double-deck glass The centre of glass pipe is heat-sink shell and vacuum, one end open.The vacuum tube of this structure is low temperature, frangible explosive, one end open Thermal-collecting tube application mode and field have significant limitation, indivedual thermal-collecting tubes, so-called pressure-bearing, high temperature resistant, this present situation can not Meet the needs of China's high speed development.

As can be seen here, above-mentioned existing solar energy heat collection pipe in structure and uses, it is clear that still suffered from inconvenience and defect, And be urgently further improved.The most how to found a kind of solar energy heat collection pipe, range of application field expands, and saves for China Can reduce discharging, protection environment plays facilitation, and the shortage to the energy serves mitigation, and also becoming current industry pole needs to improve Target.

Summary of the invention

For problems of the prior art, it is contemplated that open a kind of novel heat collecting pipe.

For solving the problems referred to above, the present invention provides techniques below scheme:

A kind of novel heat collecting pipe, including glass inner tube, outer glass tube and inner tube keeper, described glass inner tube is installed on In described outer glass tube, described glass inner tube includes the first end cap, the second end cap and interior tube body；The first described end cap With the two ends that the second described end cap is connected and fixed on described interior tube body respectively；The outer wall of described glass inner tube is with described Outer glass tube inwall between space constitute hot switching path；Spiral bodily form pipeline it is provided with in described hot switching path； Strip absorber plate it is provided with in described glass inner tube；Described strip absorber plate is provided with the set along centerline direction Pipe；The middle part of described sleeve pipe is provided with breach；In described pipeline, heat absorbing conduit is installed；Two ends of described heat absorbing conduit Portion closes；The length of described spiral bodily form pipeline is less than the length of described heat absorbing conduit；Described spiral bodily form pipeline First end connects through the described tube wall of interior tube body with the first end of described heat absorbing conduit；Described spiral bodily form pipeline The second end through the tube wall of described interior tube body and connect with described heat absorbing conduit in described indentation, there.

Described outer glass tube includes outer tube body and outer tube end cap；The lower surface of described outer tube body is provided with into water Mouthful；The top of described outer tube body is provided with the first flange；It is evenly distributed with bolt hole on the first described flange；Outside described Pipe end-cap is provided with outlet and the second flange, and the second described flange is evenly distributed with bolt hole；Described outer tube body It is spirally connected by the first described flange and the second flange respectively with described outer tube end cap；The first described flange and described the Between two flanges, sealing ring is installed；Described water inlet diameter is identical with the diameter of described apopore；Described water inlet With outlet all with described outer tube body coaxial inner conductor.

The external diameter of described inner tube keeper is identical with the internal diameter of described outer glass tube；Described inner tube keeper includes The first keeper that structure is identical and the second keeper；Inner tube location is offered on first end face of described inner tube keeper Hole；The diameter in described hole, inner tube location is identical with the external diameter of described glass inner tube；Second end of described inner tube keeper Face is provided with cross guiding gutter；Described cross guiding gutter includes the first diversion division, the second diversion division, the 3rd diversion division With the 4th diversion division；The direction of axis line along described inner tube keeper it is evenly distributed with on the circumference of described inner tube keeper The first groove, the second groove, the 3rd groove and the 4th groove；Described the first groove, the second groove, the 3rd groove and the 4th Groove connects with the first described diversion division, the second diversion division, the 3rd diversion division and the 4th diversion division one_to_one corresponding respectively.

Second end face of the first described keeper is close to the end face of the inwall of described outer tube body；Described first is fixed Inner tube hole, location on first end face of position part and the one end fits of described glass inner tube；The first of the second described keeper Hole, inner tube location on end face coordinates with the other end of described glass inner tube.

It is provided with disc shaped elastomeric part in described outer tube end cap；The central part of described disc shaped elastomeric part is provided with through hole； The diameter of described through hole is more than the diameter of described outlet；The diameter of described disc shaped elastomeric part and described outer tube end cap Internal diameter identical；The end face of the side of described disc shaped elastomeric part is close to the inner face of described outer tube end cap；Described circle Another end face of dish type elastic component is close to the second end face of the second described keeper.

The caliber of described spiral bodily form pipeline is the 1/8～1/5 of the pitch of described spiral bodily form pipeline.

The surface of described strip absorber plate has high-absorbility black coating.

Described heat absorbing conduit is built with distilled water.

Beneficial effect: the present invention has good heat-conductive characteristic, inner tube is detachable, and convenient maintenance is changed, and has good Economic benefit.

Accompanying drawing explanation

Fig. 1 is the perspective cross-sectional structural representation of the present invention.

Fig. 2 is the perspective cross-sectional structural representation of the glass inner tube of the present invention.

Fig. 3 is the stereo decomposing structural representation of the outer glass tube of the present invention.

Fig. 4 is the front view of the inner tube keeper of the present invention.

Fig. 5 is the rearview of the inner tube keeper of the present invention.

Description of reference numerals: glass inner tube 1, the first end cap 11, the second end cap 12, interior tube body 13, strip absorber plate 14, sleeve pipe 15, breach 151, heat absorbing conduit 16, outer glass tube 2, outer tube body 21, outer tube end cap 22, the first flange 23, second Flange 24, water inlet 25, outlet 26, sealing ring 27, disc shaped elastomeric part 28, inner tube keeper 3, hole 31, inner tube location, ten Font guiding gutter 32, the first diversion division 321, the second diversion division 322, the 3rd diversion division 323, the 4th diversion division 324, the first groove 325, the second groove 326, the 3rd groove 327, the 4th groove 328, spiral bodily form pipeline 4.

Embodiment

Below in conjunction with Figure of description and embodiment, the detailed description of the invention of the present invention is described in further detail:

With reference to a kind of novel heat collecting pipe of Fig. 1～5, including glass inner tube 1, outer glass tube 2 and inner tube keeper 3, described Glass inner tube 1 be installed in described outer glass tube 2, described glass inner tube 1 includes first end cap the 11, second end cap 12 and Interior tube body 13；The first described end cap 11 and the second described end cap 12 are connected and fixed on described interior tube body 13 respectively Two ends；Space between outer wall and the inwall of described outer glass tube 2 of described glass inner tube 1 constitutes hot switching path；Institute Spiral bodily form pipeline 4 it is provided with in the hot switching path stated；It is provided with strip absorber plate 14 in described glass inner tube 1；Described Strip absorber plate 14 is provided with the sleeve pipe 15 along centerline direction；The middle part of described sleeve pipe 15 is provided with breach 151；Described Pipeline in heat absorbing conduit 16 is installed；Two end-encloseds of described heat absorbing conduit 16；Described spiral bodily form pipeline 4 Length is less than the length of described heat absorbing conduit 16；First end of described spiral bodily form pipeline 4 is through described interior tube body The tube wall of 13 connects with the first end of described heat absorbing conduit 16；Second end of described spiral bodily form pipeline 4 is through described The tube wall of interior tube body 13 also connects with described heat absorbing conduit 16 at described breach 151；Described outer glass tube 2 includes Outer tube body 21 and outer tube end cap 22；The lower surface of described outer tube body 21 is provided with water inlet 25；Described outer tube body The top of 21 is provided with the first flange 23；It is evenly distributed with bolt hole on the first described flange 23；On described outer tube end cap 22 It is provided with outlet 26 and the second flange 24, the second described flange 24 is evenly distributed with bolt hole；Described outer tube body 21 It is spirally connected by the first described flange 23 and the second flange 24 respectively with described outer tube end cap 22；Described first flange 23 with Between the second described flange 24, sealing ring 27 is installed；The diameter phase of described water inlet 25 diameter and described apopore With；Described water inlet 25 and outlet 26 all with described outer tube body 21 coaxial inner conductor；Outside described inner tube keeper 3 Footpath is identical with the internal diameter of described outer glass tube 2；Described inner tube keeper 3 includes the first keeper and second that structure is identical Keeper；Hole 31, inner tube location is offered on first end face of described inner tube keeper 3；Described inner tube positions the straight of hole 31 Footpath is identical with the external diameter of described glass inner tube 1；Second end face of described inner tube keeper 3 is provided with cross guiding gutter 32；Described cross guiding gutter 32 includes first diversion division the 321, second diversion division the 322, the 3rd diversion division 323 and the 4th Diversion division 324；The direction of axis line along described inner tube keeper 3 it is evenly distributed with on the circumference of described inner tube keeper 3 The first groove the 325, second groove the 326, the 3rd groove 327 and the 4th groove 328；First described groove the 325, second groove 326, the 3rd groove 327 and the 4th groove 328 respectively with first described diversion division the 321, second diversion division the 322, the 3rd water conservancy diversion Portion 323 connects with the 4th diversion division 324 one_to_one corresponding；Second end face of the first described keeper is close to described outer tube body The end face of the inwall of 21；Hole, inner tube location 31 on first end face of the first described keeper and described glass inner tube 1 One end fits；Hole, inner tube location 31 on first end face of the second described keeper and the other end of described glass inner tube 1 Coordinate；It is provided with disc shaped elastomeric part 28 in described outer tube end cap 22；The central part of described disc shaped elastomeric part 28 is provided with logical Hole；The diameter of described through hole is more than the diameter of described outlet 26；The diameter of described disc shaped elastomeric part 28 is with described The internal diameter of outer tube end cap 22 is identical；The end face of the side of described disc shaped elastomeric part 28 is close to the interior of described outer tube end cap 22 End face；Another end face of described disc shaped elastomeric part 28 is close to the second end face of the second described keeper；Described The caliber of spiral bodily form pipeline 4 is the 1/8～1/5 of the pitch of described spiral bodily form pipeline 4；Described strip absorber plate 14 Surface there is high-absorbility black coating；Described heat absorbing conduit 16 is built with distilled water.

A kind of novel heat collecting pipe of the present invention holds the duty that water inlet 25 is downward in use, and cold water has entering of bottom The mouth of a river 25 enters, and hot water is entered in the water tank in solar energy equipment by described outlet 26.

Once combine above-mentioned technical characteristic the operation principle of the present invention is done explanation:

Heat absorbing conduit 16 in the glass inner tube 1 of a kind of novel heat collecting pipe of the present invention is built with distilled water, when described Strip absorber plate 14 irradiates at sunlight, owing to the surface of described strip absorber plate 14 is provided with high-absorbility black coating, After sunlight irradiates a period of time, the temperature of strip absorber plate 14 rises, and the heat heat absorption of absorption is conducted to described endothermic tube Road 16, to the distilled water within heat absorbing conduit 16 by heating until seething with excitement and producing substantial amounts of high-temperature vapor, high-temperature water steams Gas rises along described heat absorbing conduit 16 and in spiral bodily form pipeline 4 described in entering, causes owing to steam is continuously increased Internal pressure rises, and the steam of High Temperature High Pressure is just rapidly introduced into bottom, spirillum from described spiral bodily form pipeline 4 top The high-temperature vapor being full of in shape pipeline 4 makes the temperature of described hot switching path constantly rise, by described water inlet 25 note The cold water entered constantly is heated in described hot switching path, due to described spiral bodily form pipeline 4 two ends respectively with institute The top of the heat absorbing conduit 16 stated connects with middle part, and distilled water is constantly added into becomes high-temperature vapor, then through described Spiral bodily form pipeline 4 is returned in described heat absorbing conduit 16 after being condensed by heat exchange with the water in hot switching path.

The above, be only presently preferred embodiments of the present invention, and not the technical scope to the present invention makes any limit System, therefore every any trickle amendment, equivalent variations and modification above example made according to the technical spirit of the present invention, all Still fall within the range of technical scheme.

Claims (8)

1. a novel heat collecting pipe, including glass inner tube, outer glass tube and inner tube keeper, it is characterised in that: described glass Inner tube is installed in described outer glass tube, and described glass inner tube includes the first end cap, the second end cap and interior tube body；Described The first end cap and the second described end cap be connected and fixed on the two ends of described interior tube body respectively；Described glass inner tube Space between the inwall of outer wall and described outer glass tube constitutes hot switching path；It is provided with spiral in described hot switching path Bodily form pipeline；Strip absorber plate it is provided with in described glass inner tube；Described strip absorber plate is provided with along centrage The sleeve pipe in direction；The middle part of described sleeve pipe is provided with breach；In described pipeline, heat absorbing conduit is installed；Described heat absorbing conduit Two end-encloseds；The length of described spiral bodily form pipeline is less than the length of described heat absorbing conduit；Described spirillum First end of shape pipeline connects through the described tube wall of interior tube body with the first end of described heat absorbing conduit；Described spiral Second end of bodily form pipeline passes the tube wall of described interior tube body and connects with described heat absorbing conduit in described indentation, there.

2. novel heat collecting pipe as claimed in claim 1 a kind of, it is characterised in that: described outer glass tube include outer tube body and Outer tube end cap；The lower surface of described outer tube body is provided with water inlet；The top of described outer tube body is provided with the first flange； It is evenly distributed with bolt hole on the first described flange；Described outer tunnel end lid is provided with outlet and the second flange, described It is evenly distributed with bolt hole on second flange；Described outer tube body and described outer tube end cap are respectively by the first described method Blue and the second flange is spirally connected；Between the first described flange and the second described flange, sealing ring is installed；Described water inlet Diameter is identical with the diameter of described apopore；Described water inlet and outlet all with described outer tube body coaxial inner conductor.

3. a kind of novel heat collecting pipe as claimed in claim 1, it is characterised in that: the external diameter of described inner tube keeper is with described The internal diameter of outer glass tube identical；Described inner tube keeper includes the first keeper and the second keeper that structure is identical；Institute Hole, inner tube location is offered on first end face of the inner tube keeper stated；The diameter in described hole, inner tube location and described glass The external diameter of inner tube is identical；Second end face of described inner tube keeper is provided with cross guiding gutter；Described cross water conservancy diversion Groove includes the first diversion division, the second diversion division, the 3rd diversion division and the 4th diversion division；On the circumference of described inner tube keeper It is evenly distributed with the first groove of direction of axis line along described inner tube keeper, the second groove, the 3rd groove and four-way Groove；Described the first groove, the second groove, the 3rd groove and the 4th groove and the first described diversion division, the second diversion division, the Three diversion divisions and the connection of the 4th diversion division one_to_one corresponding.

4. a kind of novel heat collecting pipe as described in claim 1 or 3, it is characterised in that: the second end of the first described keeper The end face of the inwall of described outer tube body is close in face；Inner tube hole, location on first end face of the first described keeper and institute The one end fits of the glass inner tube stated；Inner tube on first end face of the second described keeper positions in hole and described glass The other end of pipe coordinates.

5. a kind of novel heat collecting pipe, it is characterised in that: it is provided with disk in described outer tube end cap Shape elastic component；The central part of described disc shaped elastomeric part is provided with through hole；The diameter of described through hole is more than described outlet Diameter；The diameter of described disc shaped elastomeric part is identical with the internal diameter of described outer tube end cap；Described disc shaped elastomeric part The end face of side is close to the inner face of described outer tube end cap；Another end face of described disc shaped elastomeric part is close to described The second end face of the second keeper.

6. a kind of novel heat collecting pipe as claimed in claim 1, it is characterised in that: the caliber of described spiral bodily form pipeline is institute The 1/8～1/5 of the pitch of the spiral bodily form pipeline stated.

7. a kind of novel heat collecting pipe as claimed in claim 1, it is characterised in that: the surface of described strip absorber plate has High-absorbility black coating.

8. a kind of novel heat collecting pipe as claimed in claim 1, it is characterised in that: described heat absorbing conduit is built with distilled water.