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CN212721020U - Cold and hot energy storage conversion equipment system - Google Patents

Cold and hot energy storage conversion equipment system Download PDF

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Publication number
CN212721020U
CN212721020U CN202021667108.3U CN202021667108U CN212721020U CN 212721020 U CN212721020 U CN 212721020U CN 202021667108 U CN202021667108 U CN 202021667108U CN 212721020 U CN212721020 U CN 212721020U
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China
Prior art keywords
heat exchange
energy storage
filter
pipe
inlet
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CN202021667108.3U
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Chinese (zh)
Inventor
左方
肖洒
邱勇智
黄晓舟
叶蒙
彭云志
杨耿琦
杨鑫
胡勇波
周晗
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Xiaogan Power Supply Co of State Grid Hubei Electric Power Co Ltd
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Xiaogan Power Supply Co of State Grid Hubei Electric Power Co Ltd
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Abstract

The utility model discloses a cold and hot energy storage conversion equipment system, heat exchange tube setting are in the inside of energy storage transfer case, and the mouth of pipe intercommunication that advances of transfer case is on the upper portion of energy storage transfer case, and the transfer case goes out the mouth of pipe intercommunication in the lower part of energy storage transfer case, and heat exchange tube import and heat exchange tube export communicate respectively at the both ends of heat exchange tube, and the mouth of pipe is advanced to the transfer case has first filter through first circulating pump intercommunication, and the heat exchange tube import has the second filter through second circulating pump intercommunication. The utility model discloses beneficial effect: the utility model discloses be provided with first filter, second filter, first filter, second filter impurity in the fluid when the fluid gets into energy storage transfer case, heat exchange tube and fall, avoid getting into energy storage transfer case, heat exchange tube with a large amount of impurity in and lead to the pipeline to block up and the conversion effect reduces, the snakelike gyration of heat exchange tube distributes in addition, and the cross-section is the wave, increases pipeline water route, and the hot-fluid improves thermal conversion efficiency, effect with the area of contact of heat exchange tube.

Description

Cold and hot energy storage conversion equipment system
Technical Field
The utility model belongs to the technical field of the thermal conversion technique and specifically relates to a cold and hot energy storage conversion equipment system.
Background
The cold and hot energy storage conversion equipment is energy-saving equipment for realizing heat transfer between materials between two or more than two fluids with different temperatures, and is used for transferring heat from the fluid with higher temperature to the fluid with lower temperature so as to enable the temperature of the fluid to reach the index specified by the process, thereby meeting the requirements of process conditions and being one of main equipment for improving the energy utilization rate.
Cold and hot energy storage conversion equipment of prior art does not set up the filter usually, and impurity in the fluid gets into conversion equipment deposit more, has led to the pipe blockage easily for a long time, and hot conversion effect is poor.
Therefore, it is necessary to provide a cold-hot energy storage conversion device system for the above problems.
SUMMERY OF THE UTILITY MODEL
To the not enough of existence among the above-mentioned prior art, the utility model aims to provide a cold and hot energy storage conversion equipment system to solve above-mentioned problem.
The utility model provides a cold and hot energy storage conversion equipment system, includes energy storage conversion case, heat exchange tube, conversion case mouth of pipe, conversion case play mouth of pipe, heat exchange tube import and heat exchange tube export, the heat exchange tube sets up the inside of energy storage conversion case, the mouth of pipe intercommunication that advances of conversion case is in the upper portion of energy storage conversion case, conversion case mouth of pipe intercommunication is in the lower part of energy storage conversion case, heat exchange tube import and heat exchange tube export communicate respectively the both ends of heat exchange tube, the conversion case enters the mouth of pipe and has first filter through first circulating pump intercommunication, the heat exchange tube import has the second filter through second circulating pump intercommunication, the external first pipeline of advancing of first filter, the external second of second filter advances the pipeline, the external first pipeline of going out of conversion case mouth of pipe, the external second of heat exchange tube export goes out the pipeline.
Preferably, the conversion box inlet pipe orifice, the conversion box outlet pipe orifice, the heat exchange pipe inlet and the heat exchange pipe outlet are all provided with switch valves.
The beneficial effects of the preferable technical scheme are as follows: the switching valve is used for regulating the fluid flow.
Preferably, the heat exchange tubes are distributed in a serpentine shape.
Preferably, the cross section of the heat exchange tube is wavy.
The beneficial effects of the preferable technical scheme are as follows: the heat exchange tubes are distributed in a snake-shaped rotary mode, the cross sections of the heat exchange tubes are wavy, the water path of the pipeline is increased, the contact area of hot fluid and the heat exchange tubes is increased, and the heat conversion efficiency and the effect are improved.
Preferably, both ends of the first filter are respectively provided with a first external thread for being in threaded connection with a pipe inlet of the conversion box and the first inlet pipeline.
Preferably, the two ends of the second filter are respectively provided with a second external thread for connecting the inlet of the heat exchange tube and the second inlet pipe in a threaded manner.
The beneficial effects of the preferable technical scheme are as follows: the screw thread is convenient for dismouting, is convenient for more the filter.
Preferably, be provided with first quartz sand filter layer, first active carbon filter layer and first sponge filter layer in the first filter, first active carbon filter layer centre gripping is between first quartz sand filter layer and first sponge filter layer.
The beneficial effects of the preferable technical scheme are as follows: the multi-stage filtration can improve the filtration effect.
Preferably, a second quartz sand filtering layer, a second activated carbon filtering layer and a second sponge filtering layer are arranged in the second filter, and the second activated carbon filtering layer is clamped between the second quartz sand filtering layer and the second sponge filtering layer.
The beneficial effects of the preferable technical scheme are as follows: the multi-stage filtration can improve the filtration effect.
Compared with the prior art, the utility model discloses beneficial effect: the utility model discloses be provided with first filter, second filter, first filter, second filter impurity in the fluid when the fluid gets into energy storage transfer case, heat exchange tube and fall, avoid getting into energy storage transfer case, heat exchange tube with a large amount of impurity in and lead to the pipeline to block up and the conversion effect reduces, the snakelike gyration of heat exchange tube distributes in addition, and the cross-section is the wave, increases pipeline water route, and the hot-fluid improves thermal conversion efficiency, effect with the area of contact of heat exchange tube.
Drawings
Fig. 1 is a structural diagram of a cold-hot energy storage conversion device system provided by the present invention;
FIG. 2 is a side internal structure view of the present invention;
FIG. 3 is a first filter construction of the present invention;
fig. 4 is a second filter structure view of the present invention.
Reference numbers in the figures: 1. an energy storage conversion box; 2. a heat exchange pipe; 3. a conversion box inlet pipe orifice; 4. the outlet of the conversion box; 5. an inlet of the heat exchange tube; 6. an outlet of the heat exchange tube; 7. a first circulation pump; 8. a second circulation pump; 9. a first filter; 10. a second filter; 11. an on-off valve; 12. a first inlet duct; 13. a second inlet pipe; 14. a first outlet pipe; 15. a second outlet pipe; 16. a first external thread; 17. a first quartz sand filter layer; 18. a first activated carbon filter layer; 19. a first sponge filter layer; 20. a second external thread; 21. a second quartz sand filter layer; 22. a second activated carbon filter layer; 23. the second sponge filter layer.
Detailed Description
It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.
The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.
As shown in fig. 1 and fig. 2 to 4, a cold and heat energy storage conversion device system comprises an energy storage conversion box 1, a heat exchange pipe 2, a conversion box inlet pipe orifice 3, a conversion box outlet pipe orifice 4, a heat exchange pipe inlet 5 and a heat exchange pipe outlet 6, wherein the heat exchange pipe 2 is arranged inside the energy storage conversion box 1, the conversion box inlet pipe orifice 3 is communicated with the upper part of the energy storage conversion box 1, the conversion box outlet pipe orifice 4 is communicated with the lower part of the energy storage conversion box 1, the heat exchange pipe inlet 5 and the heat exchange pipe outlet 6 are respectively communicated with two ends of the heat exchange pipe 2, the conversion box inlet pipe orifice 3 is communicated with a first filter 9 through a first circulating pump 7, the heat exchange pipe inlet 5 is communicated with a second filter 10 through a second circulating pump 8, the first filter 9 is externally connected with a first inlet pipe 12, and the second filter 10 is externally connected with a second inlet pipe 13, the outlet 4 of the conversion box is externally connected with a first outlet pipeline 14, and the outlet 6 of the heat exchange tube is externally connected with a second outlet pipeline 15.
Further, the conversion box inlet pipe orifice 3, the conversion box outlet pipe orifice 4, the heat exchange pipe inlet 5 and the heat exchange pipe outlet 6 are all provided with switch valves 11.
The beneficial effects of the further technical scheme are that: the on-off valve 11 is used to regulate the flow of fluid.
Further, the heat exchange tubes 2 are distributed in a snake-shaped rotary manner.
Further, the cross section of the heat exchange tube 2 is wavy.
The beneficial effects of the further technical scheme are that: the heat exchange tubes 2 are distributed in a snake-shaped rotary mode, the cross sections of the heat exchange tubes are wavy, pipeline water paths are increased, the contact area of hot fluid and the heat exchange tubes 2 is increased, and heat conversion efficiency and effects are improved.
Furthermore, both ends of the first filter 9 are respectively provided with a first external thread 16 for screwing the inlet pipe mouth 3 of the conversion box and the first inlet pipe 12.
Preferably, the second filter 10 is provided at both ends thereof with second external threads 20 for threadedly connecting the inlet 5 of the heat exchange tube and the second inlet pipe 13, respectively.
The beneficial effects of the further technical scheme are that: the screw thread is convenient for dismouting, is convenient for more the filter.
Further, a first quartz sand filtering layer 17, a first activated carbon filtering layer 18 and a first sponge filtering layer 19 are arranged in the first filter 9, and the first activated carbon filtering layer 18 is clamped between the first quartz sand filtering layer 17 and the first sponge filtering layer 19.
The beneficial effects of the further technical scheme are that: the multi-stage filtration can improve the filtration effect.
Further, a second quartz sand filtering layer 21, a second activated carbon filtering layer 22 and a second sponge filtering layer 23 are arranged in the second filter 10, and the second activated carbon filtering layer 22 is clamped between the second quartz sand filtering layer 21 and the second sponge filtering layer 23.
The beneficial effects of the further technical scheme are that: the multi-stage filtration can improve the filtration effect.
Compared with the prior art, the utility model discloses beneficial effect: the utility model discloses be provided with first filter 9, second filter 10, first filter 9, second filter 10 filter impurity in the fluid when the fluid gets into energy storage transfer case 1, heat exchange tube 2 and fall, avoid getting into energy storage transfer case 1, heat exchange tube 2 with a large amount of impurity in and lead to the pipe blockage and conversion effect to reduce, the snakelike gyration of heat exchange tube distributes in addition, the cross-section is the wave, increases pipeline water route, the area of contact of hot-fluid and heat exchange tube improves thermal conversion efficiency, the effect.
The working principle is as follows: the hot fluid enters the energy storage conversion box 1 through the conversion box inlet pipe orifice 3, heat is transferred to the heat transfer pipe 2, then the heat is discharged from the conversion box outlet pipe orifice 4, and the cold fluid enters the heat exchange pipe 2 through the heat exchange pipe inlet 5 to absorb heat and then passes through the heat pipe outlet 6, so that cold-heat conversion is realized.
The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (8)

1. A cold and hot energy storage conversion equipment system which characterized in that: the energy storage conversion box comprises an energy storage conversion box (1), a heat exchange pipe (2), a conversion box pipe inlet (3), a conversion box pipe outlet (4), a heat exchange pipe inlet (5) and a heat exchange pipe outlet (6), wherein the heat exchange pipe (2) is arranged inside the energy storage conversion box (1), the conversion box pipe inlet (3) is communicated with the upper part of the energy storage conversion box (1), the conversion box pipe outlet (4) is communicated with the lower part of the energy storage conversion box (1), the heat exchange pipe inlet (5) and the heat exchange pipe outlet (6) are respectively communicated with two ends of the heat exchange pipe (2), the conversion box pipe inlet (3) is communicated with a first filter (9) through a first circulating pump (7), the heat exchange pipe inlet (5) is communicated with a second filter (10) through a second circulating pump (8), and the first filter (9) is externally connected with a first inlet pipeline (12), the second filter (10) is externally connected with a second inlet pipeline (13), the conversion box outlet pipe orifice (4) is externally connected with a first outlet pipeline (14), and the heat exchange pipe outlet (6) is externally connected with a second outlet pipeline (15).
2. A cold-hot energy storage conversion device system according to claim 1, wherein: and the conversion box inlet pipe orifice (3), the conversion box outlet pipe orifice (4), the heat exchange pipe inlet (5) and the heat exchange pipe outlet (6) are all provided with switch valves (11).
3. A cold-hot energy storage conversion device system according to claim 1, wherein: the heat exchange tubes (2) are distributed in a snake-shaped rotary manner.
4. A cold-hot energy storage conversion device system according to claim 1, wherein: the cross section of the heat exchange tube (2) is wavy.
5. A cold-hot energy storage conversion device system according to claim 1, wherein: and two ends of the first filter (9) are respectively provided with a first external thread (16) for being in threaded connection with the inlet pipe orifice (3) of the conversion box and the first inlet pipeline (12).
6. A cold-hot energy storage conversion device system according to claim 1, wherein: two ends of the first filter (9) are respectively provided with a first external thread (16) for connecting the inlet pipe orifice (3) of the conversion box and the first inlet pipeline (12) in a threaded manner; and second external threads (20) for being in threaded connection with the heat exchange tube inlet (5) and the second inlet pipeline (13) are respectively arranged at two ends of the second filter (10).
7. A cold-hot energy storage conversion device system according to claim 1, wherein: be provided with first quartz sand filter layer (17), first active carbon filter layer (18) and first sponge filter layer (19) in first filter (9), first active carbon filter layer (18) centre gripping is between first quartz sand filter layer (17) and first sponge filter layer (19).
8. A cold-hot energy storage conversion device system according to claim 1, wherein: a second quartz sand filter layer (21), a second activated carbon filter layer (22) and a second sponge filter layer (23) are arranged in the second filter (10), and the second activated carbon filter layer (22) is clamped between the second quartz sand filter layer (21) and the second sponge filter layer (23).
CN202021667108.3U 2020-08-11 2020-08-11 Cold and hot energy storage conversion equipment system Active CN212721020U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202021667108.3U CN212721020U (en) 2020-08-11 2020-08-11 Cold and hot energy storage conversion equipment system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202021667108.3U CN212721020U (en) 2020-08-11 2020-08-11 Cold and hot energy storage conversion equipment system

Publications (1)

Publication Number Publication Date
CN212721020U true CN212721020U (en) 2021-03-16

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202021667108.3U Active CN212721020U (en) 2020-08-11 2020-08-11 Cold and hot energy storage conversion equipment system

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116182615A (en) * 2023-04-26 2023-05-30 四川优浦达科技有限公司 High-efficiency recovery device and method for waste liquid and waste heat of wastewater treatment plant

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116182615A (en) * 2023-04-26 2023-05-30 四川优浦达科技有限公司 High-efficiency recovery device and method for waste liquid and waste heat of wastewater treatment plant
CN116182615B (en) * 2023-04-26 2023-06-27 四川优浦达科技有限公司 High-efficiency recovery device and method for waste liquid and waste heat of wastewater treatment plant

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