CN211476324U - Heat collecting pipe with high-efficiency heat conduction - Google Patents

Abstract

The utility model provides a thermal-collecting tube of high-efficient heat conduction relates to solar energy collection pipe field, including the pipe, the cover is established at the outside vacuum sleeve of pipe, be located the semi-seal ring of pipe both sides and locate the dielectric layer between pipe and the vacuum sleeve, vacuum sleeve includes that inner tube and diameter are greater than the outer tube of inner tube, the clearance has between inner tube and the pipe, semi-seal ring is used for the both sides in shutoff clearance, the dielectric layer is located the clearance, take out into the vacuum between inner tube and the outer tube, the both ends seal weld of inner tube and outer tube, inner tube and outer tube adopt the same quartz glass or hard glass to make, thereby realized effectively improving the heat conduction efficiency of thermal-.

Description

Heat collecting pipe with high-efficiency heat conduction

Technical Field

The utility model relates to a solar energy collection pipe field especially relates to a thermal-collecting tube of high-efficient heat conduction.

Background

The solar heat collecting pipe is a common structure for collecting solar heat in a solar system, the existing solar heat collecting pipe generally comprises a stainless steel pipe serving as an inner pipe, a glass pipe serving as an outer sleeve and a metal corrugated diaphragm used for connecting the stainless steel pipe and the glass pipe, the metal corrugated diaphragm is connected with the stainless steel pipe and the glass pipe through welding points, a vacuum gap is formed between the stainless steel pipe and the glass pipe, the vacuum gap can firstly prevent the heat of the stainless steel pipe from being dissipated, and can prevent the glass pipe from being damaged when the stainless steel pipe is heated and expanded; the metal corrugated diaphragm has realized the sealed of vacuum clearance both sides between nonrust steel pipe and the glass pipe, the metal corrugated diaphragm can prevent to tear the vacuum clearance when nonrust steel pipe is heated the inflation and extends, and the metal corrugated diaphragm can isolated air, make the vacuum clearance between glass pipe and the nonrust steel pipe keep vacuum state, prevent the heat loss of nonrust steel pipe, but because the material of metal diaphragm and glass pipe is different, the expansion coefficient is different, not only cause welding process difficulty, and the solder joint is under the environment of expend with heat and contract with cold, be difficult to effectively keep the long-term encapsulated situation in vacuum clearance, consequently how can effectively improve the heat conduction efficiency of thermal-collecting tube and become the problem that the skilled person in the art needs to solve urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome exist among the prior art not enough, provide an effectively improve hot-conductive thermal-collecting tube.

The utility model discloses a realize through following technical scheme: the utility model provides a thermal-collecting tube of high-efficient heat conduction, including the pipe, the cover is established at the outside vacuum casing of pipe, be located the half sealing ring of pipe both sides and locate the medium layer between pipe and the vacuum casing, vacuum casing includes that inner tube and diameter are greater than the outer tube of inner tube, the clearance has between inner tube and the pipe, half sealing ring is used for the both sides in shutoff clearance, the medium layer is located the clearance, take out into the vacuum between inner tube and the outer tube, inner tube and outer tube adopt the same quartz glass or hard glass to make, the both ends seal weld of inner tube and outer tube.

According to the above technical solution, preferably, the thickness of the dielectric layer is smaller than that of the gap, and the dielectric layer is made of one or more of copper beads, aluminum beads and aluminum alloy beads.

According to the technical scheme, the guide pipe is preferably a stainless steel pipe or a copper pipe.

According to the technical scheme, the two ends of the inner pipe and the outer pipe are preferably welded in a sealing mode by adopting melting vacuum.

According to the above technical solution, preferably, the conduit has high pressure threaded pipe joints at both ends.

According to the technical scheme, preferably, one or more of blackening, selective coating or roughening treatment is carried out on the side, close to the outer tube, of the inner tube.

According to the technical scheme, preferably, getter evaporation is completed between the inner tube and the outer tube, and antireflection film treatment is performed on the outer surfaces of the inner tube and the outer tube.

According to the above technical solution, preferably, the ends of the inner pipe and the outer pipe are provided with corrugations.

According to the technical scheme, preferably, the semi-sealing ring is made of flexible semi-breathable high-temperature-resistant materials.

The utility model has the advantages that: the utility model adopts the sealed vacuum sleeve composed of the inner tube and the outer tube made of the same material, effectively replaces the vacuum heat collecting tube composed of the stainless steel tube and the glass sleeve by welding, solves the problem that the sealing is difficult to guarantee for a long time, and effectively improves the service life of the device; and a medium layer is arranged between the inner tube and the guide tube, and the heat conductivity coefficient of the medium layer is far higher than that of air, so that the medium layer can effectively conduct the heat of the inner tube to the guide tube, the heating effect of the heat collecting tube is improved, and the heat conduction efficiency of the heat collecting tube is effectively improved.

Drawings

Fig. 1 shows a schematic front view structure according to an embodiment of the present invention.

In the figure: 1. a conduit; 2. a vacuum bushing; 3. a half seal ring; 4. a dielectric layer; 5. an inner tube; 6. An outer tube; 7. a gap; 8. a high-pressure threaded pipe joint; 9. a corrugated portion; 10. a male head; 11. and (4) a female head.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in the figures, the utility model provides a high-efficiency heat-conducting heat collecting tube, which comprises a guide tube 1, a vacuum sleeve 2 sleeved outside the guide tube 1, half sealing rings 3 positioned at two sides of the guide tube 1 and a medium layer 4 arranged between the guide tube 1 and the vacuum sleeve 2, wherein the vacuum sleeve 2 comprises an inner tube 5 and an outer tube 6 with a diameter larger than that of the inner tube 5, a gap 7 is arranged between the inner tube 5 and the guide tube 1, the half sealing rings 3 are used for plugging two sides of the gap 7, the medium layer 4 is positioned in the gap 7, vacuum is pumped between the inner tube 5 and the outer tube 6, the inner tube 5 and the outer tube 6 are made of the same quartz glass or hard glass, two ends of the inner tube 5 and the outer tube 6 are hermetically welded, the utility model adopts the sealed vacuum sleeve 2 formed by the inner tube 5 and the outer tube 6 made of the, the problem that the sealing is difficult to guarantee lasting is solved, and the service life of the device is effectively prolonged; and be equipped with medium layer 4 between inner tube 5 and pipe 1 to the coefficient of thermal conductivity of medium layer 4 is far higher than the air, makes medium layer 4 can effectually conduct the heat of inner tube 5 to pipe 1, improves the heating effect of thermal-collecting tube, thereby has realized effectively improving the heat-conduction efficiency of thermal-collecting tube.

According to the above embodiment, preferably, the thickness of the medium layer 4 is smaller than that of the gap 7, the medium layer 4 is made of one or more of copper beads, aluminum beads and aluminum alloy beads, the heat conductivity coefficient is high, and the melting point is high, so that the absorbed solar heat of the inner pipe 5 can be transferred to the guide pipe 1.

According to the above embodiment, it is preferable that the guide tube 1 is made of stainless steel tube or copper tube, and the stainless steel tube is inexpensive but the copper tube has a higher heat conductivity coefficient.

According to the above embodiment, preferably, the sealing welding is completed at the two ends of the inner tube 5 and the outer tube 6 by adopting melting vacuum, the technology is simple, the sealing effect is stable, and the industrial mass production is convenient to realize.

According to the above embodiment, preferably, the conduit 1 has the high-pressure threaded pipe joints 8 at two ends, so that the connection of a plurality of heat collecting pipes can be performed according to the required length, and the continuous heating device can be applied to the continuous heating of liquid in the conduit, so as to heat the liquid to a higher temperature according to the requirement.

According to the above embodiment, preferably, the inner tube 5 is one or more of blackened, selectively coated or roughened near the outer tube 6 side to improve the absorption effect of solar energy.

According to the above embodiment, preferably, getters are evaporated between the inner tube 5 and the outer tube 6, and antireflection coating is performed on the outer surfaces of the inner tube 5 and the outer tube 6, so as to further increase the vacuum degree between the inner tube 5 and the outer tube 6, reduce the loss of heat absorbed by the inner tube 5, and enhance the absorption effect of solar energy through antireflection coating.

According to the above embodiment, it is preferable that the ends of the inner and outer pipes 5 and 6 are provided with the corrugated portions 9 so as to relieve stress deformation caused by temperature rise of the inner and outer pipes 5 and 6.

According to the above embodiment, preferably, the half sealing ring is made of flexible, semi-permeable and high temperature resistant material, so that the conduit 1 and the vacuum sleeve 2 can be fixedly connected to prevent the medium layer from flowing out of the gap 7, the heat loss caused by the overflow of hot air in the gap 7 can be prevented, and the respiration effect during the temperature change in the gap 7 can be realized.

Selecting a quartz glass tube with the outer diameter phi of 50mm, the wall thickness of 2mm and the length of 2m as an inner tube 5, carrying out blackening, selective coating or roughening treatment on the outer surface of the inner tube 5, selecting a quartz glass tube with the outer diameter phi of 80mm, the wall thickness of 2mm and the length of 2m as an outer tube 6, processing two ends of the inner tube 5 and the outer tube 6 in advance to generate a corrugated part 9, vacuumizing the space between the inner tube 6 and the outer tube 6, carrying out sealing welding on the two ends of the inner tube 5 and the outer tube 6 by adopting melting vacuum to form a vacuum sleeve 2, selecting a copper tube with the outer diameter phi of 43mm, the wall thickness of 2mm and the length of more than 2m, inserting the copper tube into the vacuum sleeve 2, respectively installing a male head 10 and a female head 11 of a high-pressure threaded tube joint 8 at the two ends of the copper tube, forming a gap 7 of about 1mm between the inner tube 5 and the copper, with vacuum sleeve 2 and copper pipe fixed connection to the heat that inner tube 5 absorbed conducts to the copper pipe through the aluminium pearl, realizes the high-efficient heat conduction efficiency that effectively improves the thermal-collecting tube.

The utility model has the advantages that: the utility model adopts the sealed vacuum sleeve composed of the inner tube and the outer tube made of the same material, effectively replaces the vacuum heat collecting tube composed of the stainless steel tube and the glass sleeve by welding, solves the problem that the sealing is difficult to guarantee for a long time, and effectively improves the service life of the device; and a medium layer is arranged between the inner tube and the guide tube, and the heat conductivity coefficient of the medium layer is far higher than that of air, so that the medium layer can effectively conduct the heat of the inner tube to the guide tube, the heating effect of the heat collecting tube is improved, and the heat conduction efficiency of the heat collecting tube is effectively improved.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a thermal-collecting tube of high-efficient heat conduction, its characterized in that includes the pipe, overlaps establishes at the outside vacuum casing of pipe, is located the half sealing ring of pipe both sides and locates the dielectric layer between pipe and the vacuum casing, vacuum casing includes that inner tube and diameter are greater than the outer tube of inner tube, the clearance has between inner tube and the pipe, half sealing ring is used for the both sides in shutoff clearance, the dielectric layer is located in the clearance, take out into the vacuum between inner tube and the outer tube, inner tube and outer tube adopt the same quartz glass or hard glass to make, the both ends seal weld of inner tube and outer tube.

2. An efficient heat-conducting heat collecting tube according to claim 1, characterized in that the thickness of the medium layer is smaller than the thickness of the gap, and the medium layer is made of one or more of copper beads, aluminum beads and aluminum alloy beads.

3. An efficient heat-conducting heat collecting tube according to claim 1, characterized in that the conduit is made of stainless steel tube or copper tube.

4. An efficient heat-conducting heat collecting tube according to claim 1, characterized in that the two ends of the inner tube and the outer tube are sealed and welded by melting vacuum.

5. A heat collecting tube with high efficiency of heat conduction as claimed in claim 3, characterized in that the two ends of the conduit are provided with high pressure threaded pipe joints.

6. A heat collecting tube according to claim 4, characterized in that the inner tube is one or more of blackened, selectively coated or roughened adjacent to the outer tube.

7. The heat collecting tube with high efficiency in heat conduction according to claim 6, wherein a getter is evaporated between the inner tube and the outer tube, and anti-reflection coatings are applied to the outer surfaces of the inner tube and the outer tube.

8. An efficient heat-conducting heat collecting tube according to claim 7, characterized in that the ends of the inner tube and the outer tube are provided with corrugated parts.

9. An efficient heat-conducting heat collecting tube according to claim 1, characterized in that the semi-sealing ring is made of flexible semi-permeable high temperature resistant material.

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