CN212179648U - Auxiliary heat storage device of mining heat energy equipment - Google Patents

Abstract

The utility model discloses a mining heat energy equipment auxiliary heat storage device, including heat storage case and filter mechanism, the filter mechanism is through connecting between water pipe and the heat storage case intercommunication, the inside fixed mounting of heat storage case has the layering baffle, and the layering baffle is equipped with two sets of, the layering baffle separates the heat storage case into three heat transfer chambeies, the inside fixed mounting of heat storage case has the heat transfer coil pipe, the heat transfer coil pipe distributes in three inside the heat transfer chamber, heat transfer intracavity wall one side fixed mounting has the heating piece; the utility model discloses a heat transfer chamber of installation for the hot water temperature of three heat transfer intracavity is different, and still can carry out the thermal treatment to the hot water of three heat transfer intracavity through the heating piece, makes hot water can reach the temperature of three kinds of differences, can not need temporarily to heat or cool down the processing because of hot water only a temperature, need not to wait for, and guarantees the temperature of water, reduces water wasting of resources, reduces the manufacturing cost of enterprise, increases enterprise economic benefits.

Description

Auxiliary heat storage device of mining heat energy equipment

Technical Field

The utility model relates to a mining heat energy equipment technical field specifically is a supplementary heat accumulation device of mining heat energy equipment.

Background

The status and importance of coal-fired boilers in the development of national economy and society are well known; however, smoke, sulfur dioxide, carbon dioxide and oxynitride generated in the operation process of the coal-fired boiler are directly discharged into the atmosphere without being treated, so that serious environmental pollution is caused, and the acidity of the water-reducing boiler is stronger in recent years because the discharge amount of sulfur dioxide is larger and larger. For sustainable development of society, resource-saving and environment-friendly society is built, energy conservation, emission reduction and environmental pollution treatment are more and more emphasized by Chinese governments, and when general mining heat energy equipment is used, a large amount of heat is generated, so that some waste heat cannot be directly discharged after being utilized, and the waste of resources is caused, and therefore a heat storage device is required to be used for heat storage treatment.

However, most of the heat storage devices in the market have single functionality and are inconvenient to use, and the conventional heat storage device can only heat water by a single pair in the using process, so that the efficiency of heat absorption of water is not high, and hot water at one temperature can be stored, and when hot water at different temperatures is required to be used, the temperature of the hot water needs to be reduced or heated immediately, so that the use of people is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a supplementary heat accumulation device of mining thermal energy equipment to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a supplementary heat accumulation device of mining heat energy equipment, includes heat accumulation case and filtering mechanism, the filtering mechanism is through connecting each other intercommunication between water pipe and the heat accumulation case, the inside fixed mounting of heat accumulation case has the layering baffle, and the layering baffle is equipped with two sets ofly, three heat transfer chamber is separated into with the heat accumulation case to the layering baffle, the inside fixed mounting of heat accumulation case has heat exchange coil, heat exchange coil distributes threely inside the heat transfer chamber, heat transfer intracavity wall one side fixed mounting has the heating piece.

Preferably, filtering mechanism includes the rose box, the inside top of rose box is inlayed and is had the filter screen, the inside packing of filter screen has ion exchange resin, the inside bottom of rose box is inlayed and is had and receive filter membrane and reverse osmosis membrane, and reverse osmosis membrane is located and receives the filter membrane bottom, rose box top fixedly connected with inlet tube.

Preferably, the surface of the layered partition board is provided with water through holes, two groups of the water through holes are arranged in a crossed manner, and electromagnetic valves are fixedly installed inside the water through holes.

Preferably, heat transfer chamber one end fixed mounting has the outlet pipe, heat transfer coil one end fixedly connected with steam advances the pipe, and steam advances the pipe and extends to heat accumulation incasement portion, heat transfer coil other end fixedly connected with steam exit tube, and the steam exit tube extends to heat accumulation incasement portion outside, heat accumulation incasement wall one side fixed mounting has the thermometer, and the thermometer is equipped with threely, the sense terminal of thermometer extends to the heat transfer intracavity portion respectively.

Preferably, the areas of the three heat exchange cavities are the same, and the areas of the heat exchange coil pipes positioned in the three heat exchange cavities are the same.

Preferably, a heat preservation layer is embedded between the inner wall and the outer wall of the heat storage box and is made of polyurethane heat preservation materials.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model can connect the waste heat or waste heat steam of the mining heat energy equipment with the steam inlet pipe of the heat exchange coil pipe when in actual use, so that the steam can enter the heat exchange coil pipe, simultaneously, the water in the heat exchange cavity can absorb the heat of the steam in the heat exchange coil pipe for heat exchange treatment, the heat exchange cavity of the uppermost layer is contacted with the heat exchange coil pipe firstly, the absorbed heat is more, the water temperature in the heat exchange cavity of the uppermost layer is higher, so that the water temperature in the heat exchange cavity of the lowermost layer is lower, the three heat exchange cavities are independent, the hot water temperature in the three heat exchange cavities is different, and the hot water in the three heat exchange cavities can be heated by the heating block, so that the hot water can reach three different temperatures, and the temporary heating or cooling treatment can not be needed because the hot water has only one temperature, the waiting is not needed, the temperature of the water is ensured, the waste of water resources is reduced, the production cost of enterprises is reduced, and the economic benefit of the enterprises is increased.

2. The utility model discloses a filtering mechanism of installation, when in-service use, can connect the inlet tube with the water that needs the heating, water then enters into the rose box from the inlet tube in, then pass the filter screen in proper order, ion exchange resin, receive filter membrane and reverse osmosis membrane, at last in entering into the heat accumulation incasement from connecting the water pipe, can accomplish the filtration treatment to water, not only can get rid of the impurity of aquatic, can also get rid of the calcium of aquatic, magnesium ion, reduce water hardness, can not produce the incrustation because of the water heating, people's abluent inconvenience has been saved, the cleanliness factor of quality of water has still been guaranteed, the life of this equipment has effectively been prolonged.

Drawings

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

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic structural view of the filtering mechanism of the present invention;

fig. 4 is a side view of the present invention.

In the figure: 1-a heat storage tank; 2-a filtering mechanism; 3-water outlet pipe; 4-a thermometer; 5-water inlet pipe; 6-steam inlet pipe; 7-a steam outlet pipe; 8-water through holes; 9-a heat-insulating layer; 10-a heat exchange cavity; 11-a heat exchange coil; 12-a layered separator; 13-connecting a water pipe; 14-a heating block; 15-an electromagnetic valve; 16-a filter screen; 17-a nanofiltration membrane; 18-a reverse osmosis membrane; 19-ion exchange resin; 20-a filter box.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a mining heat energy equipment auxiliary heat storage device comprises a heat storage box 1 and a filter mechanism 2, wherein the filter mechanism 2 is communicated with the heat storage box 1 through a connecting water pipe 13, a layered partition plate 12 is fixedly arranged in the heat storage box 1, two groups of layered partition plates 12 are arranged, the layered partition plate 12 divides the heat storage box 1 into three heat exchange cavities 10, a heat exchange coil 11 is fixedly arranged in the heat storage box 1, the heat exchange coil 11 is distributed in the three heat exchange cavities 10, when the mining heat energy equipment auxiliary heat storage device is used, waste heat or waste heat steam of the mining heat energy equipment can be connected with a steam inlet pipe 6 of the heat exchange coil 11, so that the steam can enter the heat exchange coil 11, meanwhile, the water in the heat exchange cavity 10 can adsorb the heat of the steam in the heat exchange coil 11 and carry out heat exchange treatment, and the heat exchange cavity 10 on the uppermost layer is more in heat adsorption because the heat exchange cavity, therefore, the temperature of water in the uppermost heat exchange cavity 10 is high, and by analogy, the temperature of water in the lowermost heat exchange cavity 10 is low, and the three heat exchange cavities 10 are independent, so that the temperature of hot water in the three heat exchange cavities 10 is different, hot water in the three heat exchange cavities 10 can be heated through the heating block 14, the hot water can reach three different temperatures, temporary heating or cooling treatment cannot be needed due to the fact that the hot water is only at one temperature, waiting is not needed, the temperature of the water is guaranteed, waste of water resources is reduced, production cost of enterprises is reduced, economic benefits of enterprises are increased, the heating block 14 is fixedly installed on one side of the inner wall of the heat exchange cavity 10, the heating block 14 is electrified to heat the hot water in the three heat exchange cavities 10, and different temperatures can be achieved.

Wherein, filtering mechanism 2 includes rose box 20, filter screen 16 has been inlayed on the inside top of rose box 20, filter screen 16 is inside to be filled with ion exchange resin 19, can carry out the cladding to ion exchange resin 19, the inside bottom of rose box 20 is inlayed and is had and receive filter membrane 17 and reverse osmosis membrane 18, and reverse osmosis membrane 18 is located and receives filter membrane 17 bottom, rose box 20 top fixedly connected with inlet tube 5, during the use, can be with the water connection inlet tube 5 that needs the heating, water then enters into rose box 20 from the inlet tube, then passes filter screen 16, ion exchange resin 19, receive filter membrane 17 and reverse osmosis membrane 18 in proper order, at last in entering heat accumulation case 1 from connecting pipe 13, can accomplish the filtration of water, not only can get rid of the impurity of aquatic, can also get rid of the calcium, magnesium ion of aquatic, reduce quality hardness, can not produce the incrustation because of the water heating, the inconvenience of cleaning is avoided, the cleanliness of water quality is guaranteed, and the service life of the equipment is effectively prolonged.

Wherein, limbers 8 have been seted up on layering baffle 12 surface, and two sets of limbers 8 are the cross arrangement, the inside fixed mounting of limbers 8 has solenoid valve 15, and the accessible is opened solenoid valve 15 and is accomplished the intercommunication in three heat transfer chamber 10, can become a heat transfer chamber 10 or two heat transfer chambers 10, can change as required by oneself.

Wherein, heat transfer chamber 10 one end fixed mounting has outlet pipe 3 for discharge heat accumulation incasement hot water, can directly use, need not the heating, and outlet pipe 3 all is equipped with the valve, 11 one end fixedly connected with steam of heat transfer coil pipe advances pipe 6, and steam advances pipe 6 and extend to heat accumulation case 1 outside, 11 other end fixedly connected with steam exit tube 7 of heat transfer coil pipe, and steam exit tube 7 extends to heat accumulation case 1 outside, 1 outer wall one side fixed mounting of heat accumulation case has thermometer 4, and thermometer 4 is equipped with threely, thermometer 4's sense terminal extends to heat transfer chamber 10 inside respectively, and thermometer 4 is used for the hot-water temperature in the real-time supervision heat transfer chamber 10.

The areas of the three heat exchange cavities 10 are the same, and the areas of the heat exchange coil 11 located in the three heat exchange cavities 10 are the same, so that the areas of the heat absorbed by the hot water in the three heat exchange cavities 10 are the same.

Wherein, it has heat preservation 9 to inlay between heat accumulation case 1 inner wall and the outer wall, and heat preservation 9 specifically forms by the preparation of polyurethane insulation material, can avoid heat loss in the heat accumulation case 1, avoids causing the waste of resource.

The working principle is as follows: when the heat exchange device is used, water to be heated can be connected with the water inlet pipe 5, the water enters the filter box 20 from the water inlet pipe, then sequentially passes through the filter screen 16, the ion exchange resin 19, the nanofiltration membrane 17 and the reverse osmosis membrane 18, and finally enters the heat storage box 1 from the connecting water pipe 13, so that the water can be filtered, then waste heat or waste heat steam of the mining heat energy equipment can be connected with the steam inlet pipe 6 of the heat exchange coil 11, so that the steam can enter the heat exchange coil 11, meanwhile, the water in the heat exchange cavity 10 can absorb the heat of the steam in the heat exchange coil 11 for heat exchange treatment, the heat exchange cavity 10 in the uppermost layer is firstly contacted with the heat exchange coil 11, the absorbed heat is more, so that the water temperature in the heat exchange cavity 10 in the uppermost layer is higher, and so on, the water temperature in the heat exchange cavity 10 in the lowermost layer is lower, and the three heat exchange cavities 10, the temperature of hot water in the three heat exchange cavities 10 is different, and the hot water in the three heat exchange cavities 10 can be heated through the heating block 14, so that the hot water can reach three different temperatures, temporary heating or cooling treatment can not be needed due to only one temperature of the hot water, waiting is not needed, the temperature of the water is ensured, and water resource waste is reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a supplementary heat accumulation device of mining thermal energy equipment, includes heat accumulation case (1) and filter mechanism (2), filter mechanism (2) are through connecting intercommunication, its characterized in that between water pipe (13) and heat accumulation case (1): heat accumulation case (1) inside fixed mounting has layering baffle (12), and layering baffle (12) are equipped with two sets ofly, three heat transfer chamber (10) are separated into with heat accumulation case (1) layering baffle (12), heat accumulation case (1) inside fixed mounting has heat exchange coil (11), heat exchange coil (11) distribute threely heat transfer chamber (10) are inside, heat transfer chamber (10) inner wall one side fixed mounting has heating block (14).

2. The auxiliary heat storage device for the mining thermal energy equipment as claimed in claim 1, wherein: filtering mechanism (2) include rose box (20), inlay on the inside top of rose box (20) has filter screen (16), the inside packing of filter screen (16) has ion exchange resin (19), inlay in the inside bottom of rose box (20) has nanofiltration membrane (17) and reverse osmosis membrane (18), and reverse osmosis membrane (18) are located nanofiltration membrane (17) bottom, rose box (20) top fixedly connected with inlet tube (5).

3. The auxiliary heat storage device for the mining thermal energy equipment as claimed in claim 1, wherein: limber holes (8) are formed in the surface of the layered partition plate (12), the limber holes (8) are arranged in a crossed mode, and electromagnetic valves (15) are fixedly mounted inside the limber holes (8).

4. The auxiliary heat storage device for the mining thermal energy equipment as claimed in claim 1, wherein: heat transfer chamber (10) one end fixed mounting has outlet pipe (3), heat transfer coil (11) one end fixedly connected with steam advances pipe (6), and steam advances pipe (6) and extends to heat accumulation case (1) outside, heat transfer coil (11) other end fixedly connected with steam exit tube (7), and steam exit tube (7) extend to heat accumulation case (1) outside, heat accumulation case (1) outer wall one side fixed mounting has thermometer (4), and thermometer (4) are equipped with threely, the sense terminal of thermometer (4) extends to heat transfer chamber (10) inside respectively.

5. The auxiliary heat storage device for the mining thermal energy equipment as claimed in claim 1, wherein: the three heat exchange cavities (10) are consistent in area size, and the areas of the heat exchange coil pipes (11) located in the three heat exchange cavities (10) are equal in size.

6. The auxiliary heat storage device for the mining thermal energy equipment as claimed in claim 1, wherein: heat preservation (9) are inlayed between heat accumulation case (1) inner wall and the outer wall, and heat preservation (9) are specifically formed by the preparation of polyurethane insulation material.

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