CN211782943U - Heating power cyclic utilization system - Google Patents

Abstract

The utility model discloses a thermal cycle utilizes system, including heat absorption cold head module, heat conduction dish, heat dissipation cold row, heat conduction oil tank and water pump, heat absorption cold head module, heat conduction dish and heat dissipation cold row are the shell structure who has the inner chamber, and the upper portion of heat conduction dish is used for placing the article to be heated, and heat absorption cold head module is used for absorbing the heat of heat source in the heat conduction oil in the heat absorption cold head module; a first liquid outlet of the water pump is communicated with a second liquid inlet of the heat absorption cold head module through a first pipeline, a second liquid outlet of the heat absorption cold head module is communicated with a third liquid inlet of the heat conducting disc through a second pipeline, and a third liquid outlet of the heat conducting disc is communicated with a fourth liquid inlet of the heat dissipation cold row through a third pipeline; the utility model discloses in the middle of the whole operation in-process conduction oil is in closed circulation all the time, can furthest save the conduction oil, can give off and run off the heat that comes out to the heat source moreover effectively and carry out cyclic utilization to treat that heating article heats, accord with the energy-concerving and environment-protective requirement that the society advocated.

Description

Heating power cyclic utilization system

Technical Field

The utility model belongs to the technical field of the thermal utilization technique and specifically relates to a thermal cycle utilizes system is related to.

Background

With the recognition of more and more people on the concepts of energy conservation and environmental protection and low-carbon life, people pay more attention to and think how to contribute a part of their own power to the concepts of environmental protection. In the past, people mainly focus on energy consumption and pollution discharge, and heat is used as released energy, such as heat generated by a CPU and a display card in the use process of a computer, and heat dissipated and lost in the use process of a boiler, and electric furnaces, electric heating equipment, infrared radiators, industrial waste heat, geothermal heat and solar energy, which are wasted wastefully in many times.

Chinese utility model patent publication No. CN202630012U discloses a heat recycling system of a heat pipeline, which comprises a boiler, a main outlet heat pipeline, a main return heat pipeline, a plurality of machine devices, and a machine device inlet pipeline and a machine device outlet pipeline provided on each machine device, wherein the outlet of the boiler is connected with the inlet end of the main outlet heat pipeline, the inlet of the boiler is connected with the outlet end of the main return heat pipeline, the inlets of the machine device inlet pipelines on the plurality of machine devices are all communicated with the outlet end of the main outlet heat pipeline and the inlet end of the main return heat pipeline through an electric three-way regulating valve, so that when a certain machine device does not work, a worker can correspondingly close the machine device inlet pipeline connected with the machine device through the electric three-way regulating valve to make the heat flow back to the main return heat pipeline directly, thereby effectively avoiding the loss of the part of heat and greatly improving the heat utilization rate of the heat distribution pipeline. However, the utility model discloses only carry out trunk line heating power recovery to the heat that the heating power pipeline lost in the past, can not utilize and utilize these heating powers to heat the utilization to article.

Therefore, it is very important to develop a thermodynamic cycle system.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at prior art's not enough, provide a heating power cyclic utilization system, can effectively utilize the heat source to distribute and run off the heat that comes out and carry out cyclic utilization to treat that heating article heat, accord with the energy-concerving and environment-protective requirement that the society advocated.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a thermal power recycling system comprises a heat absorption cold head module, a heat conduction plate, a heat dissipation cold row, a heat conduction oil tank and a water pump, wherein the heat absorption cold head module, the heat conduction plate and the heat dissipation cold row are all of shell structures with inner cavities, the upper part of the heat conduction plate is used for placing an article to be heated, and the heat absorption cold head module is used for absorbing heat of a heat source into heat conduction oil in the heat absorption cold head module;

the first liquid outlet of the water pump is communicated with the second liquid inlet of the heat absorption cold head module through a first pipeline, the second liquid outlet of the heat absorption cold head module is communicated with the three phase liquid inlet of the heat conducting disc through a second pipeline, the third liquid outlet of the heat conducting disc is communicated with the fourth liquid inlet of the heat dissipation cold row through a third pipeline, the fourth liquid outlet of the heat dissipation cold row is communicated with the fifth liquid inlet of the heat conducting oil tank through a fourth pipeline, and the fifth liquid outlet of the heat conducting oil tank is communicated with the first liquid inlet of the water pump through a fifth pipeline.

Further, the upper portion of heat conduction dish sets up the module of laying that is used for placing the article of waiting to heat, lay the module including seting up one row of recess on the upper portion of heat conduction dish, it has the permanent magnet strip to inlay in the recess, the heat conduction base has been placed on the upper portion of heat conduction dish, heat conduction base bottom set up with permanent magnet strip matched with iron sheet, heat conduction base upper portion sets up the sponge block, set up a plurality of different shapes and the splendid attire groove of size on the sponge block, the splendid attire groove is used for placing the article of waiting to heat.

Further, a water-proof layer is coated in the containing groove and used for preventing water from being soaked into the sponge block body.

Further, the top of the sponge block body is hinged with a cover body.

Further, the inner surface of the cover body is provided with a heat insulation layer for slowing down heat dissipation from the cover body.

Further, the top of the cover body is provided with a handle, and an anti-skid layer is arranged on the handle.

Furthermore, the heat-conducting oil tank is integrated above the water pump, and a fifth liquid outlet of the heat-conducting oil tank is communicated with the first liquid inlet of the water pump through a fifth pipeline.

Furthermore, the heat absorption cold head module is one or more independent heat absorption cold head units, the heat absorption cold head units are of a shell structure, and the bottoms of the heat absorption cold head units are attached to the surfaces of corresponding heat sources.

Further, the heat source is one or more of a CPU, a display card, a boiler, an electric furnace, an electric heating device, an infrared radiator, industrial waste heat, geothermal heat and solar energy.

Further, the article to be heated is one or more of a water cup, a teapot, a lunch box, a beverage box, a bagged food and a bagged soup.

Further, the shape of the heat conducting disc is rectangular, triangular, elliptical or circular.

Further, the shape of the heat dissipation cold row is rectangular, triangular, elliptical or circular.

Further, the heat transfer oil is alkylbenzene type heat transfer oil, or alkyl naphthalene type heat transfer oil, or alkyl biphenyl type heat transfer oil, or biphenyl and biphenyl ether low-melting mixture type heat transfer oil, or alkyl biphenyl ether type heat transfer oil, or mineral type heat transfer oil.

The utility model has the advantages that:

the utility model provides a pair of thermal cycle utilizes system, it adopts the closed structure of circulation on the whole, at first utilize in the partial heat transfer to the conduction oil in the heat absorption cold head module of heat absorption cold head module with the heat absorption cold head module, later the conduction oil is transmitted to the heat conduction dish along the conduction oil with the heating under the pressure effect of water pump, thereby heat or keep warm to placing the article of treating heating on the heat conduction dish, and get off and defeated the heat conduction oil tank by the cold exhaust heat dissipation cooling of heat conduction oil process heat dissipation of heat conduction dish, continue to circulate to impress the heat absorption cold head module with the conduction oil after the cooling with treating the water pump. Therefore, the heat conduction oil is always in the closed circulation in the whole operation process, the heat conduction oil can be saved to the maximum extent, and more importantly, the heat emitted by a heat source and lost can be effectively recycled to heat the article to be heated, so that the energy-saving and environment-friendly requirements advocated by the society are met.

Drawings

Fig. 1 is a schematic structural diagram of a thermodynamic cycle utilization system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a thermodynamic cycle utilization system according to another embodiment of the present invention;

reference numerals:

a heat absorption cold head module 1; a heat conductive plate 2; a heat dissipation cold row 3; a heat-conducting oil tank 4; a water pump 5; a first liquid outlet 6; a second liquid inlet 7; a second liquid outlet 8; a first pipeline 9; a second pipeline 10; a third liquid inlet 11; a third liquid outlet 12; a third pipeline 13; a liquid inlet IV 14; a fourth liquid outlet 15; line four 16; a liquid inlet five 17; a liquid outlet five 18; a fifth pipeline 19; a first liquid inlet 20; a groove 21; a permanent magnet bar 22; a thermally conductive base 23; an iron piece 24; a sponge block 25; a containing groove 26; a lid body 27; a handle 28.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined below to clearly and completely describe the technical solution of the embodiments of the present invention. It is to be understood that the embodiments described are only some of the embodiments of the present invention, and not all of them. All other embodiments, which can be derived from the description of the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

A thermodynamic cycle utilization system according to an embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, a thermal recycling system according to an embodiment of the present invention is used for partially transferring heat of a heat source to an object to be heated, so as to achieve the effect of thermal recycling, and includes a heat absorption cold head module 1, a heat conduction plate 2, a heat dissipation cold row 3, a heat conduction oil tank 4, and a water pump 5.

Specifically, the heat absorption cold head module 1, the heat conduction plate 2 and the heat dissipation cold bar 3 are all of a sealed shell structure with an inner cavity, the upper portion of the heat conduction plate 2 is used for placing objects to be heated, the heat absorption cold head module 1 is used for absorbing heat of a heat source into heat conduction oil in the heat absorption cold head module 1, so that partial heat of the heat source can be transferred into the heat conduction oil by the heat absorption cold head module 1, the heated heat conduction oil is transferred onto the heat conduction plate 2 through a pipeline, the objects to be heated placed on the heat conduction plate 2 are heated or heat-insulated, and the heat conduction oil discharged from the heat conduction plate 2 is cooled by heat dissipation of the heat dissipation cold bar 3 to reduce the temperature of the heat conduction oil and output the heat conduction oil to the heat conduction oil tank 4.

The heat conducting oil is alkylbenzene heat conducting oil, and the heat conducting oil is a compound with benzene ring attached with paraffin branched chain and belongs to a product formed by combining short branched chain alkyl (including methyl, ethyl and isopropyl) with benzene ring. The boiling point of the product is 170-180 ℃, the condensation point is below-80 ℃, so the product can be used as a heat conduction medium for well avoiding boiling, the product is characterized by difficult precipitation in an application range, and an isopropyl attached chain compound is particularly preferred. Of course, the heat transfer oil may also be other types of heat transfer oil, such as alkyl naphthalene type heat transfer oil, or alkyl biphenyl type heat transfer oil, or biphenyl and biphenyl ether low-melting mixture type heat transfer oil, or alkyl biphenyl ether type heat transfer oil, or mineral type heat transfer oil.

Specifically, the pipe connections of the thermodynamic cycle utilization system are as follows: the first liquid outlet 6 of the water pump 5 is communicated with the second liquid inlet 7 of the heat absorption cold head module 1 through a first pipeline 9, the second liquid outlet 8 of the heat absorption cold head module 1 is communicated with the third liquid inlet 11 of the heat conducting disc 2 through a second pipeline 10, the third liquid outlet 12 of the heat conducting disc 2 is communicated with the fourth liquid inlet 14 of the heat dissipation cold row 3 through a third pipeline 13, the fourth liquid outlet 15 of the heat dissipation cold row 3 is communicated with the fifth liquid inlet 17 of the heat conducting oil tank 4 through a fourth pipeline 16, and the fifth liquid outlet 18 of the heat conducting oil tank 4 is communicated with the first liquid inlet 20 of the water pump 5 through a fifth pipeline 19.

According to some embodiments of the present invention, the upper portion of the heat conducting disc 2 is provided with a placing module for placing an article to be heated, the placing module comprises a row of grooves 21 formed in the upper portion of the heat conducting disc 2, permanent magnet strips 22 are embedded in the grooves 21, a heat conducting base 23 is placed on the upper portion of the heat conducting disc 2, iron sheets 24 matched with the permanent magnet strips 22 are arranged at the bottom of the heat conducting base 23, the upper portion of the heat conducting base 23 is provided with a sponge block 25, 6 containing grooves 26 with different shapes and sizes are formed in the sponge block 25, and the containing grooves 26 are used for placing the article to be heated; the number of the containing grooves in this embodiment is 6, but is not limited to only 6 in practice, and other numbers, such as 1, 2, 3, 4, 5, 7, 8, etc., may also be used; in addition, the shapes of the containing grooves can be the same or different, for example, circular, rectangular, oval and the like are adopted, and the containing grooves with different sizes can be customized according to the actual requirements, namely the sizes of the articles which are often required to be heated by a user, so that the personalized customization of purchasers is greatly enriched.

According to the utility model discloses a further embodiment, having coated the water barrier in the splendid attire groove 26, on the one hand can not block heat transfer to the article of waiting to heat on, on the other hand can prevent to wait that the unrestrained water of article of heating from polluting the clearance of being convenient for in with the splendid attire groove 26.

In some embodiments of the utility model, sponge block 25 top articulates there is lid 27, can be like this when putting into containing groove 26 with waiting to heat article and heating or keeping warm to and can utilize lid 27 to cover containing groove 26 and sponge block 25 upper surface under the not user state, more sanitary.

In some embodiments of the present invention, the inner surface of the cover 27 is provided with a thermal insulation layer, so that the thermal insulation layer can be utilized to protect the cover 27 from heat, thereby prolonging the service life of the inner surface of the cover, and the thermal insulation layer can increase the aesthetic property of the cover.

The utility model discloses an in some embodiments, lid 27 top is provided with handle 28, set up the skid resistant course on the handle 28, can realize drawing the operation that opens and shuts to the lid through handle 28 like this, be convenient for get the operation of putting the article of waiting to heat of placing in splendid attire groove 26 for whole operation flow is more convenient, high-efficient.

In some embodiments of the present invention, the heat-conducting oil tank 4 is integrated above the water pump 5, and the liquid outlet five 18 of the heat-conducting oil tank 4 is communicated with the liquid inlet one 20 of the water pump 5 through the pipeline five 19, that is, in this embodiment, the heat-conducting oil tank 4 and the water pump 5 are integrated together and belong to an integrated water pump, so that not only the number of components can be reduced, but also the occupied space can be reduced and the volume is smaller; of course, the heat-conducting oil tank 4 and the water pump 5 can also adopt a separately purchased split structure, so that the heat-conducting oil tank and the water pump are more easily purchased in the market.

The utility model discloses an in some embodiments, heat absorption cold head module 1 is two independent heat absorption cold head units, the heat absorption cold head unit is shell structure, just the bottom and the corresponding heat source surface of heat absorption cold head unit are laminated mutually, and two independent heat absorption cold head units are CPU heat absorption cold head unit and display card heat absorption cold head unit respectively, and is very obvious, the utility model discloses also not be limited to and adopt two independent heat absorption cold head units, also can adopt other quantity a, for example one, three, four etc. can carry out the reasonable selection according to specific heat source classification and quantity.

In some embodiments of the utility model, the heat source is CPU and display card, of course, also can be according to actual conditions, adopt CPU, display card, boiler, electric stove, electric heating equipment, infrared radiator, industrial waste heat, geothermol power and one or more heat sources in the solar energy, can only need like this according to the type and the quantity of customer's heat source adopt suitable heat absorption cold head module can, greatly enlarged the utility model discloses a application range.

In some embodiments of the present invention, the heated material is a water cup, and obviously, the heated material may be a teapot, a lunch box, a beverage box, a bagged food or a soup filled in a box bag; furthermore, a plurality of the above-mentioned objects to be heated, such as two, three, four, etc., may be used according to the user's needs, that is, the objects that the user wants to heat or keep warm.

In some embodiments of the present invention, the shape of the heat conducting plate 2 is rectangular, and of course, the heat conducting plate can be designed to be triangular, elliptical or circular according to the user's preference. The heat dissipation cold row 3 is rectangular, and certainly, the heat dissipation cold row 3 can be designed to be triangular, elliptical or circular according to the preference of a user.

The utility model discloses adopt the closed structure of circulation on the whole, at first utilize in the partial heat transfer oil in the heat absorption cold head module of heat absorption cold head module with the heat source, later the heat transfer oil is transferred to the heat conduction dish along the heat transfer oil with the heating under the pressure effect of water pump, thereby heat or keep warm to placing the article of treating the heating on the heat conduction dish, and get off and defeated back the heat conduction oil tank through the heat dissipation cooling of heat dissipation cold row by heat conduction dish exhaust heat transfer oil, continue to circulate to impress the heat transfer oil after the cooling in the heat absorption cold head module with treating the water pump. Therefore, the heat conduction oil is always in closed circulation in the whole operation process, the heat conduction oil can be saved to the maximum extent, more importantly, the heat emitted by a heat source and lost can be effectively recycled, and the energy-saving and environment-friendly requirements advocated by the society are met.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and other modifications or equivalent replacements made by the technical solutions of the present invention by those of ordinary skill in the art should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A thermal power recycling system is characterized in that: the heat-absorbing cold head module, the heat-conducting disc and the heat-radiating cold row are all of a shell structure with an inner cavity, the upper part of the heat-conducting disc is used for placing an article to be heated, and the heat-absorbing cold head module is used for absorbing heat of a heat source into heat-conducting oil in the heat-absorbing cold head module;

the first liquid outlet of the water pump is communicated with the second liquid inlet of the heat absorption cold head module through a first pipeline, the second liquid outlet of the heat absorption cold head module is communicated with the three phase liquid inlet of the heat conducting disc through a second pipeline, the third liquid outlet of the heat conducting disc is communicated with the fourth liquid inlet of the heat dissipation cold row through a third pipeline, the fourth liquid outlet of the heat dissipation cold row is communicated with the fifth liquid inlet of the heat conducting oil tank through a fourth pipeline, and the fifth liquid outlet of the heat conducting oil tank is communicated with the first liquid inlet of the water pump through a fifth pipeline.

2. A thermodynamic cycle system as claimed in claim 1, wherein: the upper portion of heat conduction dish sets up the module of laying that is used for placing the article of waiting to heat, lay the module including seting up one row of recess on the upper portion of heat conduction dish, it has permanent magnet strip to inlay in the recess, heat conduction base has been placed on the upper portion of heat conduction dish, heat conduction base bottom set up with permanent magnet strip matched with iron sheet, heat conduction base upper portion sets up the sponge block, set up a plurality of splendid attire grooves of different shapes and size on the sponge block, the splendid attire groove is used for placing the article of waiting to heat.

3. A thermodynamic recycling system according to claim 2, wherein: and a water-resisting layer is coated in the containing groove and is used for preventing water from immersing into the sponge block body.

4. A thermodynamic recycling system according to claim 2, wherein: the top of the sponge block body is hinged with a cover body.

5. The thermodynamic cycle system of claim 4, wherein: the inner surface of the cover body is provided with a heat insulation layer.

6. The thermodynamic cycle system of claim 4, wherein: the top of the cover body is provided with a handle, and an anti-skid layer is arranged on the handle.

7. A thermodynamic cycle system as claimed in claim 1, wherein: the heat-conducting oil tank is integrated above the water pump, and a fifth liquid outlet of the heat-conducting oil tank is communicated with a first liquid inlet of the water pump through a fifth pipeline.

8. A thermodynamic cycle system as claimed in claim 1, wherein: the heat absorption cold head module is one or more independent heat absorption cold head units, the heat absorption cold head units are of a shell structure, and the bottoms of the heat absorption cold head units are attached to the surfaces of corresponding heat sources.

9. A thermodynamic cycle system according to any one of claims 1 to 8, wherein: the heat source is one or more of a CPU, a display card, a boiler, an electric furnace, electric heating equipment, an infrared radiator, industrial waste heat, geothermal heat and solar energy.

10. A thermodynamic cycle system according to any one of claims 1 to 8, wherein: the article to be heated is one or more of a water cup, a teapot, a lunch box, a beverage box, bagged food and bagged soup.

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