CN218120186U - Heat-preservation water pool and accessory device - Google Patents

Abstract

The utility model discloses a heat preservation pond and auxiliary device, including heat preservation pond main part, heat preservation, porous damping layer, guide pipe and water tank, the inner chamber wall of heat preservation pond main part is equipped with the heat preservation, be close to bottom of the pool position department in the heat preservation pond main part and be equipped with porous damping layer, and be equipped with bottom of the pool water cavity between porous damping layer and the bottom of the pool, the water tank is established in the position department that leans on of heat preservation pond main part inside wall, the top of water tank is equipped with the water conservancy diversion baffle, two the one end of guide pipe all stretches into in bottom of the pool water cavity, and the other end of two guide pipes is connected with the first water pitcher of slowing and the second water pitcher of slowing through connecting pipe interconnect respectively, one side of water tank is passed through the raceway and is connected with the connector head of the water pitcher side is slowed to the second. The utility model discloses a heat preservation pond main part independent existence, its bottom is supported through bracing piece frame altitude, and the bottom is passed through stabilizing base and ground contact, makes the convenient subsequent transfer of heat preservation pond main part, makes it can the secondary use, increases its practicality.

Description

Heat-preservation water pool and accessory device

Technical Field

The utility model relates to a heat preservation pond relevant field specifically is a heat preservation pond and auxiliary device.

Background

In the industrial field, cold water and hot water are often used as media for cooling or heating, and a heat-preservation water pool is used for collecting dispersed energy, so that industrial heat energy can be fully utilized, and hot water can be provided for industrial use;

for example, patent publication No. CN213391386U (thermal insulation pool): comprises a supporting part, wherein a pool cavity with an upward opening is formed in the supporting part and is used for containing water; the supporting part comprises a heat preservation part and a water pool sleeve, wherein the heat preservation part can play a supporting role, the heat preservation part at least comprises a heat preservation body which is of an annular structure and surrounds a water pool cavity, and the water pool sleeve is connected to the heat preservation part to form the water pool cavity. It has the following advantages: the heat preservation technical effect can be realized, and the supporting strength is high;

the heat preservation pond in present stage adopts heat preservation mechanism to keep warm to leading-in hot water, tightly can carry out hot water heat preservation and store, can't store cold water, the hot water exchange, can't circulate hot water and cold water exchange, the functionality is not enough, the auxiliary device in the heat preservation pond generally adopts the steelframe with the equipment in pond to support, this mode installation is fixed convenient inadequately, and leading-in or derive the water process, can't buffer memory to water, make it cause the injection easily, or the stability of the water supply process is not well controlled, cause too big easily, pipeline pressure is big, short service life, the pond generally adopts concrete and ground to be connected, after its position is confirmed, the later stage will not shift.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat preservation pond and auxiliary device, in order to solve the tight hot water heat preservation storage that can carry out that proposes in the above-mentioned background art, can't store cold water, the hot water exchange, can't circulate hot water and cold water exchange, the functionality is not enough, auxiliary device in the heat preservation pond generally adopts the steelframe with the equipment in pond to support, this mode installation is fixed convenient inadequately, and leading-in or derive the water process, can't buffer memory to water, make it cause the injection easily, or the good control of water supply process stability, cause too big easily, pipeline pressure is big, short service life, the pond generally adopts the concrete to be connected with ground, after its position is confirmed, the problem that the later stage will unable transfer.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a heat preservation pond and auxiliary device, includes heat preservation pond main part, heat preservation, porous damping layer, guide tube and water tank, the inner chamber wall of heat preservation pond main part is equipped with the heat preservation, be close to bottom of the pool position department in the heat preservation pond main part and be equipped with porous damping layer, and be equipped with bottom of the pool water cavity between porous damping layer and the bottom of the pool, the water tank is established in the last position department of keeping somewhere the pond main part inside wall, the top of water tank is equipped with the water conservancy diversion baffle, two the one end of guide tube all stretches into in bottom of the pool water cavity, and the other end of two guide tubes is respectively with the first water pitcher of slowing and the second water pitcher switch-on through connecting pipe interconnect, one side of water tank is passed through the raceway and is connected with the connector of second water pitcher side, be equipped with the three-way valve on the raceway, and the top of three-way valve is passed through the pipe and is connected with refrigeration mechanism, and the cold water after the refrigeration flows back to the three-way valve by the pipe.

In a further embodiment, the heat preservation pool further comprises a support rod, wherein the support rod is arranged at the corner of the bottom end of the heat preservation pool main body, and the bottom end of the support rod is connected with the stabilizing base.

In a further embodiment, the top end of the heat-preservation tank main body is provided with Chi Biankuang, the middle of the tank frame is provided with a limit top plate of a connected structure, two sides of the limit top plate are provided with fixed lifting lugs in the middle, one side of the top of the tank frame is provided with a second pipe connector through a connecting frame, and the second pipe connector is opposite to the flow guide baffle.

In further embodiment, the top of first water pitcher and the second water pitcher that delays all is equipped with the jib, the middle part of connecting pipe welding up has first connector, and the jib is connected with fixed lug, and the port of first connector is connected with the middle part of spacing roof.

In a further embodiment, a water tank outlet pipe is arranged on one side inside the water tank, a rotational flow preventer is arranged at one end of the water tank outlet pipe, and the other end of the water tank outlet pipe is connected with a water conveying pipe.

In a further embodiment, the first connector is used for being connected with an external pump body, the external pump body is communicated with the heating assembly, and the heated hot water is discharged from the second connector and flows back into the heat preservation pool main body after being slowly flowed through the flow guide baffle.

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

1. the utility model discloses a heat preservation pond main part independent existence, its bottom is supported through bracing piece frame height, and the bottom is through stabilizing base and ground contact, makes the convenient subsequent transfer of heat preservation pond main part, makes it can the secondary use, increases its practicality.

2. The utility model discloses a be equipped with the water tank, and the water tank adopts the curb plate to be connected with heat preservation pond main part inner chamber lateral wall, this kind of mode is compared in the bottom sprag, can accomplish the installation not getting into the pond, it is all comparatively convenient to install and dismantle, it is equipped with porous damping layer to lean on lower position department in the inside of heat preservation pond main part, and be equipped with bottom of the pool water cavity between porous damping layer and the bottom of the pool, can derive the bottom of the pool water alone through bottom of the pool water cavity, can not influence the use of upper high-temperature water in the pond, this kind of design makes the heat preservation water can be when mixing temperature, can continuously supply with the use, improve the cyclicity ability.

3. The utility model discloses an two guide tube tops are equipped with first water pitcher and the slow water pitcher of second respectively, can carry out the buffer memory to the cold water of drawing forth through first water pitcher and the slow water pitcher of second, then derive with external pump through first connector, compare in direct deriving by the guide tube, have reduced pipeline and pump body pressure, can carry out better protection to equipment, and can make the pump body at the stability of drawing forth process rivers, make firing equipment more even to the heating of leading into water.

Drawings

Figure 1 is a schematic top view of the pool and attachment of example 1,

FIG. 2 is a schematic side view of embodiment 1.

FIG. 3 is a schematic view of the structure of a thermal insulation water tank and an attachment according to embodiment 2;

FIG. 4 is a top view of the cell frame of example 2;

FIG. 5 is a schematic structural view of a buffer tank in embodiment 2;

FIG. 6 is a schematic view of the structure of section A in embodiment 2;

fig. 7 is a schematic structural view of a part B in embodiment 2.

In the figure: 201. a pool wall; 202. a first heat insulation layer; 203. the bottom surface of the water tank; 204. a damping layer; 205. a water inlet and outlet pipeline at the bottom of the water tank; 206. a first water tank; 207. a peripheral platform on the upper edge of the water tank; 208. water inlet and outlet pipelines at the upper part of the water pool 209 and a rotational flow preventer; 210. supporting the water tank steel frame; 211. pool water;

1. chi Biankuang; 2. a heat preservation tank main body; 3. a second heat insulation layer; 4. a porous damping layer; 5. a support bar; 6. a stabilizing base; 7. a first connector head; 8. a limiting top plate; 9. fixing the lifting lug; 10. a second connector head; 11. a flow guide baffle; 12. a connecting frame; 13. a guide tube; 14. a pool bottom water cavity; 15. a water tank outlet pipe; 16. a whirl preventer; 17. a second water tank; 18. a boom; 19. a first buffer tank; 20. a connecting pipe; 21. a second buffer tank; 22. a pipe connector; 23. a water delivery pipe.

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.

Example 1:

as shown in figures 1-2, the heat-insulating water pool and the auxiliary device thereof comprise a pool body 201, a pool bottom 203 and a pool top which are made of reinforced concrete, a pool wall which is made of reinforced concrete or brick wall, and an inner surface which is covered with a first heat-insulating layer 202. A damping layer 204 made of porous materials is arranged at a position 10-50 cm above the bottom of the pool, a pool bottom water inlet and outlet pipeline 205 is arranged between the pool bottom and the damping layer and connected with external related equipment, a first water tank 206 is arranged at a position 5-20 cm below the water surface of the upper part of the pool, the first water tank is supported by a steel frame 210, and a small platform 207 is arranged around the upper edge of the first water tank to ensure that water with higher temperature can smoothly enter and exit and reduce turbulence; the water tank I is internally provided with a water inlet and outlet pipeline 208 at the upper part of the water tank and a rotational flow preventer 209 which are connected with external related equipment.

When the water tank is used, if cold water is stored, water with higher temperature at the upper part of the water tank is pumped out through the rotational flow preventer 209 by using the water inlet and outlet pipeline 208 at the upper part of the water tank and the first water tank 206 at the upper part of the water tank, is reduced to water with lower temperature by the refrigerator and then enters from the lower part of the damping layer 204 through the pipeline 205, and due to lower density (when the temperature is more than or equal to 4 ℃), the water with higher temperature is uniformly and gradually replaced upwards after passing through the damping layer. When storing hot water, cold water is pumped from the lower part through the water inlet and outlet pipeline 205 at the bottom of the water tank, heated by the heating equipment and then flows back from the first upper water tank, and the lower-temperature water is smoothly replaced from top to bottom gradually after being buffered by the peripheral platform 207 on the first upper edge of the first water tank.

The scheme can be used for preparing cold water and hot water in a centralized manner to be stored in an orderly manner for decentralized use, and can also be used for collecting and centralized use of decentralized energy, so that the utilization rate of the energy is improved to the maximum extent, the energy resource waste is reduced, and the carbon emission is reduced.

The beneficial effects of the embodiment 1 are as follows: people can concentrate cold water and hot water to prepare and store, disperse and use, and also can collect dispersed energy to concentrate and use (especially hot water can be prepared by fully collecting and utilizing steam tail gas of industrial equipment at ordinary times), and when in use, a circulating pump is reused to convey the energy-using equipment or to heat and cool through a pipeline, so that the utilization rate of energy is greatly improved, the energy resource waste is reduced, and the carbon emission is reduced.

Example 2:

referring to fig. 1-5, the present invention provides an embodiment: the utility model provides a heat preservation pond and auxiliary device, including heat preservation pond main part 2, heat preservation two 3, porous damping layer 4, guide pipe 13 and second water tank 17, the inner chamber wall of heat preservation pond main part 2 is equipped with heat preservation two 3, be equipped with porous damping layer 4 near bottom of the pool position in the heat preservation pond main part 2, and be equipped with bottom of the pool water cavity 14 between porous damping layer 4 and the bottom of the pool, second water tank 17 is established near upper position department of 2 inside walls in heat preservation pond main part, the top of second water tank 17 is equipped with water conservancy diversion baffle 11, the one end of two guide pipes 13 all stretches into in bottom of the pool water cavity 14, and the other end of two guide pipes 13 respectively with through the first slow water jar 19 of connecting pipe 20 interconnect with second slow water jar 21 switch-on, one side of second water tank 17 is connected with the connector 22 of second slow water jar 21 side through raceway 23, be equipped with the three-way valve on the raceway 23, and the top of three-way valve is connected with refrigeration mechanism through the pipe, the cold water after the refrigeration flows back to the three-way valve by the pipe.

Make heat preservation pond main part 2 can keep warm through two 3 heat preservation layers, prevent that the heat from losing too fast, carry out even heat transfer for bottom of the pool water cavity 14 rather than top water through porous damping layer 4, be used for collecting the hot water of leaning on upper position department in the pond through two 17 water tanks, be used for buffering leading-in hot water through water conservancy diversion baffle 11, it is comparatively steady to make leading-in water, be used for shunting the hot water that raceway 23 carried to refrigeration mechanism through the three-way valve, make hot water be converted into cold water.

Further, still include bracing piece 5, bracing piece 5 is established in the bottom corner of heat preservation pond main part 2, and the bottom and the stabilizing base 6 of bracing piece 5 are connected, can set up the high support of heat preservation pond main part 2 through bracing piece 5, make it break away from ground and place alone.

Further, the top of heat preservation pond main part 2 is equipped with pond frame 1, and 1 middle part of pond frame is equipped with disjunctor structure's spacing roof 8, and the both sides department placed in the middle of spacing roof 8 is equipped with fixed lug 9, and top one side of pond frame 1 is equipped with second connector 10 through link 12, and second connector 10 just to setting up with water conservancy diversion baffle 11, and the hoist and mount through spacing roof 8 and fixed lug 9 make things convenient for first water slowing tank 19 and second water slowing tank 21 to be fixed.

Further, the top of first buffer tank 19 and second buffer tank 21 all is equipped with jib 18, and the middle part of connecting pipe 20 has first connector 7 of welding up, and jib 18 is connected with fixed lug 9, and the port of first connector 7 is connected with the middle part of spacing roof 8.

Further, a second water tank outlet pipe 15 is arranged on one side inside the second water tank 17, a swirl preventer 16 is arranged at one end of the second water tank outlet pipe 15, the other end of the second water tank outlet pipe 15 is connected with a water delivery pipe 23, and the swirl preventer 16 is used for leading out hot water in the second water tank 17.

Further, the first connector 7 is used for being connected with an external pump body, the external pump body is communicated with the heating assembly, and heated hot water is discharged from the second connector 10 and flows back into the heat preservation pool main body 2 after being slowly flowed through the flow guide baffle plate 11.

The working principle is as follows: when the device is used, cold water is stored, the water with higher temperature at the upper part of the water tank is pumped out of the second water tank 17 through the second water tank eduction tube 15 by the cyclone preventer 16 and is shunted to the refrigerating mechanism by the three-way valve on the water conveying tube 23, the water after refrigeration and temperature reduction flows back to the water conveying tube 23 and is supplied to the second water slow-release tank 21, and the water is introduced into the water cavity 14 at the bottom of the water tank through the guide tube 13 at the bottom of the water slow-release tank, and the water with higher temperature is uniformly and gradually replaced upwards after passing through the porous damping layer 4 due to lower density (when the temperature is more than or equal to 4 ℃). When hot water is stored, cold water in the pool bottom water cavity 14 is pumped into the first slow water tank 19 and the second slow water tank 21 through the guide pipe 13, is led out through the connecting pipe 20 and the first connector 7, is heated by heating equipment and then flows back into the second connector 10, is led onto the flow guide baffle plate 11 through the second connector 10, and is buffered by the flow guide baffle plate 11 to stably replace water with lower temperature from top to bottom gradually.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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.

Claims (6)

1. The utility model provides a heat preservation pond and auxiliary device, includes heat preservation pond main part (2), heat preservation (3), porous damping layer (4), guide tube (13) and water tank (17), its characterized in that: inner chamber wall of heat preservation pond main part (2) is equipped with heat preservation (3), be close to bottom of the pool position department in heat preservation pond main part (2) and be equipped with porous damping layer (4), and be equipped with bottom of the pool water cavity (14) between porous damping layer (4) and the bottom of the pool, position department on leaning on of heat preservation pond main part (2) inside wall is established in water tank (17), the top of water tank (17) is equipped with water conservancy diversion baffle (11), two the one end of guide tube (13) all stretches into in bottom of the pool water cavity (14), and the other end of two guide tubes (13) is respectively with the first water pitcher (19) of slowing that slow through connecting pipe (20) interconnect and the switch-on of the water pitcher (21) of second slow, one side of water tank (17) is passed through raceway (23) and is connected with the connector (22) of water pitcher (21) side of second slow, be equipped with the three-way valve on raceway (23), and the top of pipe and the three-way valve is passed through pipe and refrigeration mechanism is connected, and refrigerated cold water after is flowed back to three-way valve by the pipe.

2. The insulated pool and attachment of claim 1, wherein: still include bracing piece (5), establish the bottom corner in heat preservation pond main part (2) in bracing piece (5), the bottom and the stabilizing base (6) of bracing piece (5) are connected.

3. The insulated pool and attachment of claim 1, wherein: the heat preservation pond is characterized in that Chi Biankuang (1) is arranged at the top end of the heat preservation pond main body (2), a limit top plate (8) of a connected structure is arranged in the middle of Chi Biankuang (1), fixed lifting lugs (9) are arranged in the middle of two sides of the limit top plate (8), a second pipe joint (10) is arranged on one side of the top of Chi Biankuang (1) through a connecting frame (12), and the second pipe joint (10) is opposite to the flow guide baffle (11).

4. The insulated pool and attachment of claim 1, wherein: the top of first water slowing tank (19) and second water slowing tank (21) all is equipped with jib (18), the middle part of connecting pipe (20) welding up has first nipple (7), and jib (18) are connected with fixed lug (9), and the port of first nipple (7) is connected with the middle part of spacing roof (8).

5. The insulated pool and attachment of claim 1, wherein: a water tank outlet pipe (15) is arranged on one side in the water tank (17), a rotational flow preventer (16) is arranged at one end of the water tank outlet pipe (15), and the other end of the water tank outlet pipe (15) is connected with a water conveying pipe (23).

6. The thermal insulation water pool and the attachment thereof as claimed in claim 4, wherein: the first connector (7) is used for being connected with an external pump body, the external pump body is communicated with the heating assembly, and heated hot water is discharged from the second connector (10) and flows back to the heat preservation tank main body (2) after flowing slowly through the flow guide baffle (11).

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