CN210014421U - Novel heat release system of hot pond - Google Patents

Abstract

The utility model relates to an energy system technical field especially relates to a novel heat release system in hot pond. The system includes a hot tank in which the energy storage material is heated, and further includes: the heating and cooling tank is in fluid connection with the hot pool tank, and the energy storage material heated in the hot pool tank can flow into the heating and cooling tank to heat the heating water in the heating and cooling tank; and the heat exchange tube is arranged inside the cooling and heating tank, and the energy storage material can flow into the heat exchange tube to exchange heat with heating water in the cooling and heating tank. The utility model provides a novel heat release system in hot pond directly sets up the heat exchange tube in the changes in temperature jar, and the energy storage material after the intensification in the hot pond jar can directly go into in the heat exchange tube and heat the heating water in the changes in temperature jar, and then heats for the user. Above setting has avoided the problem that the connecting line is inside easily to freeze between plate heat exchanger and the changes in temperature jar when stopping the heat transfer, has reduced operation equipment quantity simultaneously, has improved heat exchange efficiency.

Description

Novel heat release system of hot pond

Technical Field

The utility model relates to an energy system optimizes technical field, especially relates to a novel heat release system in hot pond.

Background

The hot pool tank is widely applied to clean heating industry as a container for storing heat. The hot tank stores high-temperature media inside, and the heat of the high-temperature media needs to be released through the heat exchange device for heating. By storing heat in the heat tank during valley power (other waste heat or waste heat), the stability and safety of energy supply can be optimized.

In the prior art, when heat is released from the hot tank, a high-temperature working medium in the hot tank is generally required to be sent into the plate heat exchanger, so that the high-temperature working medium and low-temperature water entering the heat exchanger simultaneously exchange heat, then the heated water is sent into the cold and hot tank so as to be used by a user, and the working medium cooled in the heat exchanger is sent back to the hot tank again for heating. However, the arrangement of the heat release system increases the number of devices on one hand, and on the other hand, when the energy storage material stops heat exchange, the heating water in the connecting pipeline between the cooling and heating tank and the plate heat exchanger is frozen due to the reduction of the external temperature, which is not favorable for the safe and stable operation of the whole heat release system.

Therefore, a novel heat sink heat release system is needed, which can solve the problems that the number of heat sink heat exchange systems in the prior art is large, and the heating water in the connecting pipeline between the cooling and heating tank and the plate heat exchanger is easy to freeze.

SUMMERY OF THE UTILITY MODEL

Based on above, an object of the utility model is to provide a novel heat release system in hot pond can reduce the quantity of operation equipment under the prerequisite of guaranteeing user's heating to reduce initial investment and later stage operation maintenance cost, and can avoid the heating water in the connecting line between changes in temperature jar and the plate heat exchanger to freeze, and then guarantee the operation of whole heat release system's safety and stability.

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

the utility model provides a novel hot pond exothermal system, including hot pond jar, energy storage material heats in the hot pond jar, still includes:

the cooling and heating tank is in fluid connection with the hot pool tank, and the energy storage material heated in the hot pool tank can flow into the cooling and heating tank to heat the heating water in the cooling and heating tank;

the heat exchange tube is arranged inside the cooling and heating tank, and the energy storage material can flow into the heat exchange tube to exchange heat with heating water in the cooling and heating tank.

As a preferred scheme of the novel heat-sink heat-releasing system, the heat exchange tube is a coil heat exchange tube or a water-cooled wall heat exchange tube.

As a preferred scheme of the novel heat-sink heat-releasing system, the heat exchange tube is a U-shaped heat exchange tube.

As an optimal scheme of a novel heat-sink heat-releasing system, a power part is connected between the heat sink tank and the cooling and heating tank and used for sending the cooled energy storage material back to the heat sink tank.

As a preferable scheme of the novel heat-sink heat-releasing system, the power part is arranged as a water pump.

As an optimal scheme of a novel heat-sink heat-releasing system, a first flange is arranged at the joint of the inlet of the heat exchange tube and the cooling and heating tank, and a first connecting pipe is connected between the first flange and the heat sink tank.

As a preferable scheme of the novel heat-sink heat-releasing system, an outlet pipe is arranged on the heat-sink tank, and one end of the first connecting pipe is connected to the outlet pipe.

As an optimal scheme of a novel heat sink heat release system, a second flange is arranged at the joint of the outlet of the heat exchange tube and the cooling and heating tank, and a second connecting pipe is connected between the second flange and the inlet of the power part.

As a preferred scheme of a novel heat-sink heat-releasing system, a return pipe is further arranged on the heat sink tank, and a third connecting pipe is connected between the return pipe and an outlet of the power part.

As an optimal scheme of a novel heat sink heat release system, a supporting seat is arranged at the bottom of the cooling and heating tank.

The utility model has the advantages that:

the utility model provides a novel heat release system in hot pond directly sets up the heat exchange tube in the changes in temperature jar, and the energy storage material after the heating in the hot pond jar can directly go into the heat exchange tube in heat supply water to the changes in temperature jar heats, and then for the user heats. Above setting has avoided the problem that the connecting line is inside easily to freeze between plate heat exchanger and the changes in temperature jar when stopping the heat transfer, has reduced operation equipment quantity simultaneously, has improved heat exchange efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the contents of the embodiments of the present invention and the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a novel heat sink heat release system according to an embodiment of the present invention.

In the figure:

1. a hot tank; 11. an outlet pipe; 12. a return pipe;

2. a cooling and heating tank; 21. a supporting seat;

3. a heat exchange pipe;

4. a power member; 41. an inlet; 42. an outlet;

51. a first flange plate; 52. a second flange plate;

6. a first connecting pipe;

7. a second connecting pipe;

8. and a third connecting pipe.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The technical solution of the present invention is further explained by the specific embodiments with reference to the drawings.

The embodiment provides a novel heat release system in hot pond, mainly is applied to in the clean heating trade. As shown in fig. 1, the system includes a hot-pool tank 1 and a cooling-heating tank 2. Wherein, one end of the heat pool tank 1 is connected with valley electricity (not shown in the figure), and the valley electricity is used for heating the energy storage material in the heat pool tank 1; the heated energy storage material heats cold water in the cold and warm tank 2 after heat exchange, and further provides heat for users.

Before making the improvement, generally can set up plate heat exchanger between hot pond jar 1 and changes in temperature jar 2, high temperature energy storage material after the heating gets into plate heat exchanger earlier, lets in heating water simultaneously to plate heat exchanger, and energy storage material and heating water heat transfer in plate heat exchanger, and heating water heaies up and gets into in changes in temperature jar 2 after getting into, and then for the user heating, and the energy storage material after the cooling is sent back to and is heated again in hot pond jar 1 after flowing out from plate heat exchanger. However, the heat release system increases the number of devices, and when the energy storage material stops heat exchange, the heating water in the connecting pipeline between the cooling and heating tank 2 and the plate heat exchanger freezes due to the reduction of the external temperature, which is not beneficial to the safe and stable operation of the whole heat release system, and the heat exchange efficiency is reduced by the secondary heat exchange setting mode.

In order to overcome the above defect, the present embodiment provides a heat exchange pipe 3 in the cooling-heating tank 2. Specifically, the heating water is also in changes in temperature jar 2, and the high temperature energy storage material in the heat pond jar 1 directly gets into in the heat exchange tube 3 gives the heating water with heat transfer, and then for the user heating, during the energy storage material after the cooling flowed out from the heat exchange tube 3 directly sent back to heat pond jar 1, the millet electricity reheats energy storage material to carry out the heat transfer next time.

It should be noted that, in this embodiment, the heat exchange tube 3 may be disposed inside the cooling and heating tank 2 in various manners, such as a coil tube type or a water cooling wall type, or an opening may be disposed on the cooling and heating tank 2, the heat exchange tube 3 is inserted into the cooling and heating tank 2 from the outside, and then the opening is sealed.

In addition, set up heat exchange tube 3 into the U type in this embodiment, compare with the heat exchange tube of other forms, the U-shaped heat exchange tube can increase heat transfer area, and then reinforcing heat transfer effect.

Further, a first flange 51 is arranged at the joint of the inlet of the heat exchange tube 3 and the cooling and heating tank 2, and a second flange 52 is arranged at the joint of the outlet of the heat exchange tube 3 and the cooling and heating tank 2. The arrangement of the first flange 51 and the second flange 52 can enhance the sealing performance between the heat exchange tube 3 and the cooling and heating tank 2, and facilitate the detachment and installation of the heat exchange tube 3.

In order to enable the cooled energy storage material to quickly return to the hot tank 1, a power element 4 is optionally arranged between the hot tank 1 and the cold-warm tank 2. The power part 4 can be on the one hand take out the energy storage material after the cooling back fast and reheat in heat-exchanging tank 1, and on the other hand can provide certain draft force and make the high temperature energy storage material in heat-exchanging tank 1 get into heat exchange tube 3 fast in with the heat transfer of heating water, has improved entire system's operating efficiency.

It should be noted that the power member 4 in the present embodiment is configured as a water pump, however, in other embodiments, it may be configured as other power equipment.

Further, the hot tank 1 is provided with an outlet pipe 11 and a return pipe 12. One end of the first connecting pipe 6 is connected with the first flange 51, and the other end is connected with the outlet pipe 11; one end of the second connecting pipe 7 is connected with the second flange 52, the other end is connected with the inlet 41 of the power member 4, one end of the third connecting pipe 8 is connected with the outlet 42 of the power member 4, and the other end is connected with the return pipe 12.

It should be noted that an inlet of the cooling and heating tank 2 is connected to a water supply device (not shown in the figure) through a pipeline, a water supply pump is disposed in the water supply device and used for quickly supplying water into the cooling and heating tank 2, and an outlet of the cooling and heating tank 2 is connected to each heating user through a pipeline to realize heating.

Secondly, in the embodiment, the upper part and the lower part of the cooling and heating tank 2 are both provided with round head structures, so that the storage capacity of heating water can be increased; in order to stably place the cooling and heating tank 2, a support base 21 is welded to the bottom of the cooling and heating tank 2.

The specific working process of the novel heat sink heat release system provided by the embodiment is as follows:

1. the millet electricity heats the heat tank 1, and the energy storage material is heated;

2. starting a water replenishing pump, and conveying heating water into the cooling and heating tank 2 by a water replenishing device;

3. after the energy storage material is heated, the power part 4 is opened, and the high-temperature energy storage material enters the heat exchange tube 3 along the first connecting tube 6 to exchange heat with heating water;

4. the heated heating water supplies heat for each user, and the cooled energy storage material enters the second connecting pipe 7, passes through the power part 4 and then flows back to the heat tank 1 along the third connecting pipe 8;

5. and (4) repeating the steps 1-4 until the heat exchange is stopped.

It should be noted that the temperature of the heated tank 1 is 100 ℃ to 120 ℃, preferably 120 ℃, the temperature of the energy storage material is-20 ℃ to 120 ℃, and the energy storage material is heated to more than 100 ℃, which completely satisfies the heat required for heating cold water.

Secondly, after the heating is stopped, the energy storage material may remain in the first connection pipe 6, but even in an environment of-20 ℃, the energy storage material may not freeze, so that the entire heat release system can still safely and stably operate in a lower temperature environment.

The novel heat release system in hot pond that this embodiment provided directly sets up heat exchange tube 3 in changes in temperature jar 2, and the energy storage material after the heating in the hot pond jar 1 can directly go into in heat exchange tube 3 and heat the heating water in changes in temperature jar 2, and then for the user heating. Above setting has avoided the problem that the connecting line is inside easily to freeze between plate heat exchanger and the changes in temperature jar 2 when stopping the heat transfer, has reduced operation equipment quantity simultaneously, has improved heat exchange efficiency.

In addition, because the number of operating equipment is reduced, the floor area is reduced, and simultaneously the initial investment and the later operating and maintaining cost of the whole heat release system are greatly reduced.

In the description of the present application, it is to be noted that the terms "horizontal", "vertical", "upward", "downward", "below", "above", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. A novel thermal bath heat release system comprising a thermal bath tank (1), wherein an energy storage material is heated in the thermal bath tank (1), characterized by further comprising:

the cooling and heating tank (2), the cooling and heating tank (2) is in fluid connection with the hot pool tank (1), and the energy storage material heated in the hot pool tank (1) can flow into the cooling and heating tank (2) to heat the heating water in the cooling and heating tank (2);

the heat exchange tube (3) is arranged inside the cooling and heating tank (2), and the energy storage material can flow into the heat exchange tube (3) to exchange heat with heating water in the cooling and heating tank (2).

2. The new heat sink exothermic system according to claim 1, wherein the heat exchange tubes (3) are provided as coil type heat exchange tubes or water wall type heat exchange tubes.

3. The new heat sink exothermic system according to claim 1, wherein the heat exchange tubes (3) are U-shaped.

4. The novel hot pool heat release system as claimed in claim 1, wherein a power member (4) is connected between the hot pool tank (1) and the cooling and heating tank (2) for returning the cooled energy storage material to the hot pool tank (1).

5. A new hot-bath heat release system according to claim 4, characterized in that the power member (4) is arranged as a water pump.

6. The novel hot pool heat release system as claimed in claim 1, wherein a first flange (51) is arranged at the joint of the inlet of the heat exchange pipe (3) and the cooling and heating tank (2), and a first connecting pipe (6) is connected between the first flange (51) and the hot pool tank (1).

7. A new hot cell exothermic system according to claim 6, wherein the hot cell tank (1) is provided with an outlet pipe (11), and one end of the first connecting pipe (6) is connected to the outlet pipe (11).

8. The novel heat sink heat release system according to claim 4, wherein a second flange (52) is arranged at the joint of the outlet of the heat exchange tube (3) and the cooling and heating tank (2), and a second connecting pipe (7) is connected between the second flange (52) and the inlet (41) of the power member (4).

9. A novel hot cell heat release system according to claim 4 or 8, characterized in that a return pipe (12) is further arranged on the hot cell tank (1), and a third connecting pipe (8) is connected between the return pipe (12) and the outlet (42) of the power member (4).

10. The novel hot pool heat release system as claimed in claim 1, characterized in that a support base (21) is arranged at the bottom of the cooling and heating tank (2).

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