CN215216442U - Heat pipe type indoor skirting board - Google Patents

Abstract

The utility model relates to an indoor skirting line board of heat pipe formula, including the bottom plate, with the bottom plate cooperation and cover the apron of bottom plate, form the passageway between bottom plate and the apron, establish at least one double-pipe heat exchanger and many along the heat pipe of the axial interval arrangement of double-pipe heat exchanger in the passageway, the double-pipe heat exchanger is connected to at least one end of heat pipe, the double-pipe heat exchanger is the tubulose, is used for carrying the heat transfer medium in the pipe, the heat transfer medium spreads after transmitting the heat to the heat pipe through the double-pipe heat exchanger; the cold source and the heat source can be applied at the same time, and the heat conduction device has light weight, long service life, safety, stability and good heat conductivity.

Description

Heat pipe type indoor skirting board

Technical Field

The utility model relates to a skirting line heat conduction technical field, concretely relates to indoor skirting line board of heat pipe formula.

Background

In the prior art, a skirting board is generally heated by a heating device inside the skirting line, and then heat is conducted by a metal material (mostly aluminum alloy) for manufacturing a skirting line shell, so that the ambient temperature in a room is heated; because mainly rely on metal heat conductivility and heat radiation effect with the heat release to the indoor environment that its inside device that generates heat produced, most heat still gathers near the skirting line, can not form the convection current with the indoor air fast, give off the heat to the indoor environment in, thereby lead to indoor environment temperature rise slower, and the device that generates heat and ambient temperature will form great difference in temperature and just can effectively improve the intensification effect, make the device that generates heat in the skirting line must produce higher temperature like this, and generally like heating film or heating cable etc. generate heat the device and heat to surface temperature higher more, the time that the heating needs just also longer, also be the reason that leads to the indoor environment temperature rise too slowly.

Because the refrigeration technology is relatively limited, the common skirting line board can only be used as a heating device, so how to promote the temperature circulation in the skirting line board to give off, and the indoor temperature can be raised or lowered rapidly, becomes the technical problem of popularization skirting line board.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough that prior art is overcome to the purpose, provides a light in weight, long service life, and safety and stability, thermal conductivity are good, can make indoor temperature can rapid heating up or the skirting line board of cooling down.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: including the bottom plate, with the bottom plate cooperation and cover the apron of bottom plate, form the passageway between bottom plate and the apron, its characterized in that: the heat pipe type heat exchanger is characterized in that at least one sleeve heat exchanger and a plurality of heat pipes which are arranged at intervals along the axial direction of the sleeve heat exchanger are arranged in the channel, at least one end of each heat pipe is connected with the sleeve heat exchanger, the sleeve heat exchanger is tubular, a heat transfer medium is used for conveying in the pipe, and the heat transfer medium conducts the temperature to the heat pipes through the sleeve heat exchanger and then diffuses.

As the utility model discloses an optimal technical scheme, double pipe heat exchanger is including setting up inner tube and outer tube with one heart, the outer tube is tubulose heat pipe and cladding inner tube, and the inner wall of inner tube outer wall and outer tube is closely laminated for the temperature of inner tube conduction can be direct is absorbed by the heat pipe, improves heat conduction efficiency.

As the utility model discloses an preferred technical scheme, inside the heat pipe stretches into after passing the double pipe heat exchanger inner wall, the heat transfer medium direct contact heat pipe one end that makes to get into in the double pipe heat exchanger, heat pipe and heat transfer medium direct contact, the other end with cold, heat source conduction to heat pipe that can be quick to quick conduct the temperature to the air in, improve heat conduction efficiency.

As the utility model discloses an optimized technical scheme, heat pipe in the heat pipe is the platykurtic heat pipe, and the subsides of flat department in one side of the double-pipe heat exchanger outer wall are connected, pastes and connects soldering or other physical method that can adopt the lower temperature and fasten, and the platykurtic heat pipe contacts with the flat department of double-pipe heat exchanger to area of contact when increasing the conduction is favorable to improving conduction efficiency, under the condition of not destroying double-pipe heat exchanger's surface, effectively avoids the seepage problem of heat transfer medium simultaneously.

As the utility model discloses a preferred technical scheme, sealed phase transition working medium that pours into after the heat pipe evacuation establishes slot or capillary core in the heat pipe.

As the utility model discloses an optimized technical scheme, the apron is netted, and the apron plays the guard action to the heat pipe, also avoids human or other animals directly to receive heat pipe department, and network structure does benefit to the temperature source and gives off simultaneously.

As the utility model discloses an optimized technical scheme, be equipped with the first lateral wall and the first lateral wall of going up that are parallel to each other on the bottom plate, lateral wall and second lateral wall under be equipped with the second that is parallel to each other on the apron, the one end of lateral wall and second lateral wall all is equipped with the arch on the first lateral wall of going up, first lateral wall, the second, and the bottom plate passes through protruding lock with the apron.

As the utility model discloses an optimal technical scheme, the bottom plate inboard is equipped with the card arm that forms first draw-in groove with the bottom plate medial surface, is equipped with the convex part that forms the second draw-in groove with the bottom plate medial surface on the first lateral wall of bottom plate, and card strip both ends insert the draw-in groove, and the double pipe heat exchanger that will block strip one side is fixed.

As the utility model discloses a preferred technical scheme, the first lateral wall of bottom plate is the step form, and the slot that the length direction who follows the passageway set up is connected to the step below.

As the utility model discloses a preferred technical scheme, be equipped with the temperature sensor who is used for monitoring the interior heat pipe temperature of passageway that is connected with the temperature controller in the passageway.

Compared with the prior art, the utility model discloses a carry the heat transfer medium in double-pipe heat exchanger, during rethread hot tube diffuses the temperature to the air fast, its advantage lies in: 1. all cold and heat sources can be applied, and the indoor heating and refrigerating can be realized. 2. The weight is light: the heat pipe, as the main heat transfer medium, is very light in weight. 3. Supersonic heat transfer: the heat pipe is a passive heat transfer element with extremely high heat conductivity, and the heat pipe has heat transfer efficiency which is hundreds to thousands of times higher than that of pure copper made of the same material by utilizing a phase change principle and capillary action. 4. The installation is convenient: simple structure, need not professional and can install the construction.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a front view of the present invention;

fig. 3 is a schematic view of the internal three-dimensional structure of the present invention with the cover plate removed;

fig. 4 is a front view of the present invention with the cover removed;

fig. 5 is a left side view of fig. 2.

In the drawings: 1. the heat pipe comprises a bottom plate, a base plate, a cover plate, a base plate, a sleeve heat exchanger, a heat pipe, a clamping strip, a connecting piece, a first upper side wall, a first lower side wall, a second upper side wall, a second lower side wall, a first clamping groove, a second clamping groove, a convex portion, a clamping arm and a clamping arm, wherein the bottom plate, the cover plate, the base plate, the sleeve heat exchanger, the heat pipe, the clamping strip, the connecting piece, the first upper side wall, the second upper side wall, the first lower side wall, the second upper side wall, the second lower side wall, the clamping arm and the second clamping groove are sequentially arranged from top to bottom.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-5, the present embodiment discloses a heat pipe type indoor skirting board, which includes a bottom plate 1, and a cover plate 2 that is matched with the bottom plate 1 and covers the bottom plate 1, wherein a channel is formed between the bottom plate 1 and the cover plate 2, at least one sleeve heat exchanger 3 and a plurality of heat pipes 4 that are arranged at intervals along the axial direction of the sleeve heat exchanger 3 are arranged in the channel, at least one end of each heat pipe 4 is connected to the sleeve heat exchanger 3, the sleeve heat exchanger 3 is tubular, and is used for conveying a heat transfer medium, and the heat transfer medium transfers temperature to the heat pipe 4 through the sleeve heat exchanger 3 and then diffuses; the bottom plate 1 and the cover plate 2 are both made of aluminum alloy sections, and the whole skirting line plate is made according to a certain length, so that connecting pieces 6 are arranged at two ends of the double-pipe heat exchanger 3 and are used for connecting the next-stage double-pipe heat exchanger 3 to realize length adjustment and expansion; according to the difference of heat transfer media conveyed in the double-pipe heat exchanger 3, such as a cold source or a heat source, the functions of refrigerating and heating are realized, the cold source or the heat source can be various gases or liquids, in the practical implementation process, the double-pipe heat exchanger 3 can be arranged, namely, the upper double-pipe heat exchanger 3 and the lower double-pipe heat exchanger 3 are arranged, the upper double-pipe heat exchanger 3 is mainly used for conveying the cold source, the lower double-pipe heat exchanger 3 is used for conveying the heat source, and when the cold source is conveyed in the upper double-pipe heat exchanger 3, the heat source can be used as a vertex angle line board, namely, the vertex angle line board is arranged on the top of an indoor wall, so that the refrigerating effect is improved.

The tube heat exchanger comprises an inner tube and an outer tube which are concentrically arranged, the outer tube is a tubular heat tube and wraps the inner tube, and the outer wall of the inner tube is tightly attached to the inner wall of the outer tube, so that the temperature conducted by the inner tube can be directly absorbed by the heat tube 4, and the heat conduction efficiency is improved; as another embodiment, the inside of the double-pipe heat exchanger 3 is not provided with an inner pipe, but is directly a tubular copper pipe or a tubular heat pipe 4, and a channel for conveying a temperature transfer medium is formed in the inner pipe, so that the copper pipe or the heat pipe 4 is directly contacted with the temperature transfer medium, a cold source and a heat source can be rapidly conducted to the other end of the heat pipe 4, the temperature is rapidly conducted to the air, and the heat conduction efficiency is higher.

As shown in fig. 5, as a preferred embodiment, the heat pipe 4 is inserted into the double-pipe heat exchanger 3, so that the temperature transfer medium entering the double-pipe heat exchanger 3 directly contacts one end of the heat pipe 4, and the heat pipe 4 directly contacts the temperature transfer medium, so that the cold and heat sources can be rapidly conducted to the other end of the heat pipe 4, thereby rapidly conducting the temperature to the outside and improving the heat conduction efficiency; meanwhile, in another preferred embodiment, the heat pipe 4 can also be a flat heat pipe 4 and is attached to one flat part on one side of the outer wall of the double-pipe heat exchanger 3, and the flat heat pipe 4 is in contact with the flat part of the double-pipe heat exchanger 3 to increase the contact area during conduction, which is beneficial to improving the conduction efficiency, and meanwhile, the leakage problem of the heat transfer medium is effectively avoided under the condition that the outer surface of the double-pipe heat exchanger 3 is not damaged.

The heat pipe is a passive heat transfer element with extremely high heat conductivity, and the heat pipe has the heat transfer efficiency which is hundreds to thousands of times higher than that of pure copper made of the same material by utilizing the phase change principle and the capillary action; the heat pipe is vacuumized and then is hermetically injected with a phase-change working medium, a liquid absorption core structure is arranged on the wall of the heat pipe, and condensed liquid returns to the evaporation end from the condensation end by virtue of capillary force generated by the liquid absorption core; after the interior of the heat pipe is vacuumized, liquid is injected before sealing, the pressure in the heat pipe is determined by the vapor pressure of the evaporated working liquid, the working liquid can be evaporated as long as the surface of the heat pipe is heated, the temperature and the pressure of the vapor at the evaporation end are slightly higher than those of other parts of the heat pipe, therefore, pressure difference is generated in the heat pipe, the vapor is enabled to flow to the cold end in the heat pipe, when the vapor is condensed on the wall of the heat pipe, the latent heat of vaporization is released by the vapor, so that the heat is transferred to the condensation end, and then the liquid after condensation returns to the evaporation end by the liquid absorption core structure of the heat pipe; therefore, as long as the heat source body is heated, the process can be circularly carried out, and the heat pipe is a circular or flat heat pipe.

As shown in fig. 1 and 2, the cover plate 2 is mesh-shaped, the cover plate 2 plays a role in protecting the heat pipe 4, and also prevents human bodies or other animals from directly receiving the heat pipe 4, and meanwhile, the mesh-shaped structure is beneficial to the dissipation of temperature sources.

As shown in fig. 2 and 3, a first upper sidewall 11 and a first lower sidewall 12 which are parallel to each other are arranged on the bottom plate 1, a second upper sidewall 21 and a second lower sidewall 22 which are parallel to each other are arranged on the cover plate 2, protrusions are arranged at one end of each of the first upper sidewall 11, the first lower sidewall 12, the second upper sidewall 21 and the second lower sidewall 22, and the bottom plate 1 and the cover plate 2 are fastened by the protrusions; the inner side of the bottom plate 1 is provided with a clamping arm 122 forming a first clamping groove 123 with the inner side surface of the bottom plate 1, the first lower side wall 12 of the bottom plate 1 is provided with a convex part 121 forming a second clamping groove 124 with the inner side surface of the bottom plate 1, two ends of the clamping strip 5 are inserted into the clamping grooves to fix the sleeve heat exchanger 3 on one side of the clamping strip 5, and a plurality of clamping strips 5 can be arranged at intervals according to the actual length when the sleeve heat exchanger 3 is fixed, so that the firmness degree of the sleeve heat exchanger 3 is ensured; the first lateral wall 12 of bottom plate 1 is the step form, and the slot that the length direction that follows the passageway set up is connected to the step below, is installed at indoor wall top when skirting line board, when using as the apex angle line board, because the comdenstion water easily appears in the refrigeration process, and the processing is not done to the comdenstion water, and very easy water clock is consequently, sets up a slot in bottom plate 1 below for with the comdenstion water conservancy diversion, avoid appearing the comdenstion water clock condition.

The temperature sensor is used for acquiring the surface temperature of the heat pipe 4 in the channel, transmitting the surface temperature value of the heat pipe 4 to the temperature controller through a lead, comparing the surface temperature of the heat pipe 4 with the indoor environment temperature, effectively adjusting the indoor temperature by controlling the temperature of a temperature transmission medium or the flow of the transmission medium in the sleeve heat exchanger 3, and stably controlling the indoor temperature at the environment temperature set by the temperature controller. .

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides an indoor skirting line board of heat pipe formula, includes the bottom plate, cooperates and covers the apron of bottom plate with the bottom plate, form the passageway between bottom plate and the apron, its characterized in that: the heat pipe type heat exchanger is characterized in that at least one sleeve heat exchanger and a plurality of heat pipes which are arranged at intervals along the axial direction of the sleeve heat exchanger are arranged in the channel, at least one end of each heat pipe is connected with the sleeve heat exchanger, the sleeve heat exchanger is tubular, a heat transfer medium is used for conveying in the pipe, and the heat transfer medium conducts the temperature to the heat pipes through the sleeve heat exchanger and then diffuses.

2. The heat pipe type indoor skirting board of claim 1, wherein: the double-pipe heat exchanger comprises an inner pipe and an outer pipe which are concentrically arranged, the outer pipe is a tubular heat pipe and wraps the inner pipe, and the outer wall of the inner pipe is tightly attached to the inner wall of the outer pipe.

3. The heat pipe type indoor skirting board of claim 1, wherein: the heat pipe penetrates through the inner wall of the sleeve heat exchanger and then extends into the sleeve heat exchanger, so that the temperature transfer medium entering the sleeve heat exchanger directly contacts one end of the heat pipe.

4. The heat pipe type indoor skirting board of claim 1, wherein: the heat pipe in the heat pipe is a flat heat pipe and is attached to the flat part on one side of the outer wall of the sleeve heat exchanger.

5. The heat pipe type indoor skirting board of claim 1, wherein: and the heat pipe is vacuumized and then is sealed and injected with a phase change working medium, and a groove or a capillary core is arranged in the heat pipe.

6. The heat pipe type indoor skirting board of claim 1, wherein: the cover plate is in a net shape.

7. The heat pipe type indoor skirting board of claim 1, wherein: the bottom plate is provided with a first upper side wall and a first lower side wall which are parallel to each other, the cover plate is provided with a second upper side wall and a second lower side wall which are parallel to each other, one end of each of the first upper side wall, the first lower side wall, the second upper side wall and the second lower side wall is provided with a protrusion, and the bottom plate and the cover plate are buckled through the protrusions.

8. The heat pipe type indoor skirting board of claim 7, wherein: the inner side of the bottom plate is provided with a clamping arm forming a first clamping groove with the inner side surface of the bottom plate, a convex part forming a second clamping groove with the inner side surface of the bottom plate is arranged on the first lower side wall of the bottom plate, and the two ends of the clamping strip are inserted into the clamping grooves to fix the sleeve heat exchanger on one side of the clamping strip.

9. A heat pipe type indoor skirting board as claimed in claim 7 or 8, wherein: the first lower side wall of the bottom plate is step-shaped, and a groove arranged along the length direction of the channel is connected below the step.

10. The heat pipe type indoor skirting board of claim 1, wherein: and a temperature sensor connected with a temperature controller and used for monitoring the temperature of the heat pipe in the channel is arranged in the channel.

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