CN110906485A - Dynamic cold storage device - Google Patents

Abstract

The invention discloses a dynamic cold accumulation device, which comprises a tank body; the water distribution mechanism is arranged in the tank body and comprises an upper water distribution component unit and a lower water distribution component unit, the upper water distribution component unit comprises an upper water distribution pipe, an upper connecting pipe and an upper water distribution cover shell, the upper connecting pipe is connected with the outside through a hot water pipe, the upper water distribution pipe is provided with a plurality of upper water distribution holes, the upper water distribution cover shell is provided with a plurality of upper cover shell holes, the lower water distribution component unit comprises a lower water distribution pipe, a lower connecting pipe and a lower water distribution cover shell, the lower connecting pipe is connected with the outside through a cold water pipe, the lower water distribution pipe is provided with a plurality of lower water distribution holes, and the lower water distribution cover shell is provided with a; the upper sliding housing can slide to align or stagger the upper housing hole and the upper water distribution hole, and the lower sliding housing can slide to align or stagger the lower housing hole and the lower water distribution hole, so that the outflow area of the water distribution holes is adjusted, the outflow speed of hot water and cold water in the water distribution pipes is controlled, and the water distribution effect is improved.

Description

Dynamic cold storage device

Technical Field

The invention is used in the field of cold accumulation devices, and particularly relates to a dynamic cold accumulation device.

Background

The cold accumulation jar mainly utilizes and is in the low ebb period at night the electrovalence and carry out the cold accumulation, carries out the device of putting the cold at daytime power consumption peak period, and it not only can save considerable air conditioner expense for the user every year, still can realize big difference in temperature water supply and emergent cold source, has that the investment is little, and the operation is reliable, and refrigeration effect is good, and economic benefits is high is showing characteristics.

In the prior art, the design of the water distributor structure needs to be according to design parameters, but a certain process exists when a data center or an air-conditioning building is put into use, and the end load of an air conditioner is small due to the fact that the data center/the air-conditioning building is less in use in the early stage, so that the flow of water cold accumulation is small, the flow speed of a flow dispersing hole of the water distributor is reduced, the flow dispersing hole deviates from the design working condition seriously, and the water distribution effect of the water distributor is seriously influenced.

Disclosure of Invention

The invention aims to solve at least one technical problem in the prior art, and provides a dynamic cold accumulation device which can dynamically adjust the flow area of water distribution holes on a water distribution pipe according to the requirement of end load and improve the water distribution efficiency.

The technical scheme adopted by the invention for solving the technical problems is as follows: a dynamic cold storage device comprises

A tank body;

the water distribution mechanism is arranged in the tank body and comprises an upper water distribution component unit and a lower water distribution component unit, the upper water distribution component unit comprises an upper water distribution pipe, an upper connecting pipe and an upper water distribution cover shell, the upper water distribution pipe is connected with the upper connecting pipe, the upper connecting pipe is connected with the outside through a hot water pipe, the upper water distribution cover shell is arranged on the outer side of the upper water distribution pipe, the upper water distribution pipe is provided with a plurality of upper water distribution holes, the upper water distribution cover shell is provided with a plurality of upper cover shell holes, the lower water distribution component unit comprises a lower water distribution pipe, a lower connecting pipe and a lower water distribution cover shell, the lower water distribution pipe is connected with the lower connecting pipe, the lower connecting pipe is connected with the outside through a cold water pipe, the lower water distribution cover shell is arranged on the outer side of the lower water distribution pipe, the lower water distribution pipe is provided with a plurality of lower water distribution holes, the lower water distribution cover shell is provided with a plurality of lower cover shell holes, the upper sliding cover shell can, the lower sliding cover shell can slide to align or stagger the lower cover shell hole and the lower water distribution hole.

Preferably, the water distribution mechanism comprises a central vertical pipe, an isolation component is arranged in the central vertical pipe, the central vertical pipe is divided into an upper central vertical pipe and a lower central vertical pipe by the isolation component, the upper central vertical pipe is connected with the hot water pipe, the upper connecting pipe is connected with the upper central vertical pipe, the lower central vertical pipe is connected with the cold water pipe, and the lower connecting pipe is connected with the lower central vertical pipe.

Preferably, glass wool is arranged inside the isolation component.

Preferably, the water distribution mechanism comprises a plurality of groups of upper water distribution assembly units which are uniformly distributed along the circumferential direction of the central vertical pipe.

Preferably, the water distribution mechanism comprises a plurality of groups of lower water distribution assembly units which are uniformly distributed along the circumferential direction of the central vertical pipe.

Preferably, the water distribution device further comprises a transmission mechanism, the transmission mechanism comprises a water retaining part, a worm wheel and a transmission gear, the worm is arranged in the central vertical pipe, the water retaining part is connected with the tail of the worm, the worm wheel and the transmission gear are arranged on the top of the worm, the worm is meshed with the worm wheel, the worm wheel is meshed with the transmission gear, and the transmission gear is connected with the upper water distribution housing and can drive the upper water distribution housing to move.

Preferably, go up the water distribution housing and include half shell of first water distribution housing and half shell of second water distribution housing on, half shell of first water distribution housing with half shell of second water distribution housing can dismantle and be connected, half shell of first water distribution housing with half shell of second water distribution housing overlaps respectively on going up the water distribution pipe, the water distribution housing includes half shell of first water distribution housing and half shell of second water distribution housing down, half shell of first water distribution housing with half shell of second water distribution housing can dismantle and be connected down, half shell of first water distribution housing and half shell of second water distribution housing overlap respectively under with the second on the water distribution pipe.

Preferably, the upper water distribution housing is provided with an upper limiting hole avoiding the upper connecting pipe, and the lower water distribution housing is provided with a lower limiting hole avoiding the lower connecting pipe.

Preferably, a vertical pipe base plate is arranged at the bottom end of the central vertical pipe, and a plurality of reinforcing plates connected with the central vertical pipe are arranged on the vertical pipe base plate.

One of the above technical solutions has at least one of the following advantages or beneficial effects: when the dynamic cold accumulation device works, hot water flows in or flows out through the upper water distribution holes of the upper water distribution pipe, and correspondingly, cold water flows out or flows in the lower water distribution holes of the lower water distribution pipe, so that cold discharge or cold accumulation is performed. When the water distribution housing is cooled or cooled, the outflow areas of the upper water distribution hole and the lower water distribution hole can be synchronously controlled, and when the upper housing hole is superposed with the upper water distribution hole and the lower housing hole is superposed with the lower water distribution hole, the outflow areas of the upper water distribution hole and the lower water distribution hole are the largest; when the upper shell hole and the upper water distribution hole are staggered, and the lower shell hole and the lower water distribution hole are staggered, the outflow areas of the upper water distribution hole and the lower water distribution hole are increased or decreased along with the deviation degree or the water distribution holes are closed, so that the outflow areas of the water distribution holes are adjusted, the water distribution flow of hot water and cold water in the tank body is controlled, and the water distribution effect is improved.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic block diagram of one embodiment of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a schematic diagram of the internal structure of one embodiment shown in FIG. 1

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is an enlarged view of a portion of FIG. 3 at C;

FIG. 7 is an enlarged view of a portion of FIG. 3 at D;

FIG. 8 is an enlarged view of a portion E of FIG. 3;

fig. 9 is a partially enlarged view of F in fig. 3.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the present invention, if directions (up, down, left, right, front, and rear) are described, it is only for convenience of describing the technical solution of the present invention, and it is not intended or implied that the technical features referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, it is not to be construed as limiting the present invention.

In the invention, the meaning of "a plurality" is one or more, the meaning of "a plurality" is more than two, and the terms of "more than", "less than", "more than" and the like are understood to exclude the number; the terms "above", "below", "within" and the like are understood to include the instant numbers. In the description of the present invention, if there is description of "first" and "second" only for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the present invention, unless otherwise specifically limited, the terms "disposed," "mounted," "connected," and the like are to be understood in a broad sense, and for example, may be directly connected or indirectly connected through an intermediate; can be fixedly connected, can also be detachably connected and can also be integrally formed; may be mechanically coupled, may be electrically coupled or may be capable of communicating with each other; either as communication within the two elements or as an interactive relationship of the two elements. The specific meaning of the above-mentioned words in the present invention can be reasonably determined by those skilled in the art in combination with the detailed contents of the technical solutions.

Referring to fig. 2, fig. 3, fig. 4, fig. 5, fig. 7, and fig. 8, an embodiment of the present invention provides a dynamic cold storage device, which senses the water flow through the water blocking part 91, and adjusts the outflow area of the water distribution pipe under the combined action of gravity and water flow thrust through the transmission mechanism, so as to ensure the outflow speed, and thus ensure the water distribution effect.

Referring to fig. 3, 4, 5, 7, and 8, the dynamic cold storage device includes a tank 1 and a water distribution mechanism, wherein the water distribution mechanism is disposed in the tank 1, the water distribution mechanism includes an upper water distribution component unit 2 and a lower water distribution component unit 3, the upper water distribution component unit 2 includes an upper water distribution pipe 21 and an upper connection pipe 23, the upper water distribution pipe 21 is connected with the upper connection pipe 23, the upper connection pipe 23 is connected with the outside through a hot water pipe 42, a plurality of upper water distribution holes 24 are disposed on the upper water distribution pipe 21, the lower water distribution component unit 3 includes a lower water distribution pipe 31 and a lower connection pipe 33, the lower water distribution pipe 31 is connected with the lower connection pipe 33, the lower connection pipe 33 is connected with the outside through a cold water pipe 41, and a plurality of lower water distribution holes 34 are disposed on the lower water. During operation, hot water flows in or out through the upper water distribution holes 24 of the upper water distribution pipes 21, and correspondingly, cold water flows out or flows in the lower water distribution holes 34 of the lower water distribution pipes 31, so that cooling or cold accumulation is performed.

Referring to fig. 4, 5, 7, and 8, in the present embodiment, the upper water distribution assembly unit 2 further includes an upper water distribution housing 22, the upper water distribution housing 22 is disposed outside the upper water distribution pipe 21, a plurality of upper housing holes 223 are disposed on the upper water distribution housing 22, the lower water distribution assembly unit 3 further includes a lower water distribution housing 32, the lower water distribution housing 32 is disposed outside the lower water distribution pipe 31, and a plurality of lower housing holes 323 are disposed on the lower water distribution housing 32.

Referring to fig. 3, 4, 5, 7 and 8, in the use process, the upper shell holes 223 and the upper water distribution holes 24 and the lower shell holes 323 and the lower water distribution holes 34 are overlapped or offset, so as to synchronously adjust the outflow areas of the upper water distribution holes 24 and the lower water distribution holes 34. In the cold release or cold accumulation work, when the upper shell hole 223 coincides with the upper water distribution hole 24 and the lower shell hole 323 coincides with the lower water distribution hole 34, the outflow areas of the upper water distribution hole 24 and the lower water distribution hole 34 are the largest; when the upper shell hole 223 deviates from the upper water distribution hole 24 and the lower shell hole 323 deviates from the lower water distribution hole 34, the outflow areas of the upper water distribution hole 24 and the lower water distribution hole 34 become larger and smaller or the water distribution holes are closed along with the deviation degree, so that the outflow areas of the water distribution holes are adjusted to control the water distribution flow of hot water and cold water in the tank body 1, and the water distribution effect is improved.

The upper water distribution casing 22 may be an integral type or a split type, referring to fig. 3, 4, and 5, in some embodiments, the upper water distribution casing 22 includes a first upper water distribution casing half shell 221 and a second upper water distribution casing half shell 222, the first upper water distribution casing half shell 221 and the second upper water distribution casing half shell 222 are detachably connected, the first upper water distribution casing half shell 221 and the second upper water distribution casing half shell 222 are respectively sleeved on the upper water distribution pipe 21, the detachable connection includes, but is not limited to, a snap connection, a key connection, a threaded connection, and the like, and the upper water distribution casing 22 is convenient to install and detach. Referring to fig. 4 and 5, in some embodiments, the upper water distribution housing 22 is provided with an upper limiting hole 25 which avoids the upper connecting pipe 23, the upper connecting pipe 23 passes through the upper limiting hole 25 and then is connected to the upper water distribution pipe 21, so that the upper connecting pipe 23 is convenient to mount, and in addition, the upper limiting hole 25 can also play a role of mechanical limiting, so as to prevent the upper water distribution housing 22 from sliding on the upper water distribution pipe 21 beyond a predetermined stroke.

Referring to fig. 3, 7, and 8, the lower water distribution casing 32 may be an integral type or a split type, in some embodiments, the lower water distribution casing 32 includes a first lower water distribution casing half 321 and a second lower water distribution casing half 322, the first lower water distribution casing half 321 is detachably connected to the second lower water distribution casing half 322, the first lower water distribution casing half 321 and the second lower water distribution casing half 322 are respectively sleeved on the lower water distribution pipe 31, the detachable connection includes, but is not limited to, a snap connection, a key connection, a threaded connection, and the like, and the installation and the detachment of the lower water distribution casing 32 are facilitated. In some embodiments, the lower water distribution housing 32 is provided with a lower limiting hole 35 avoiding the lower connecting pipe 33, so that the lower connecting pipe 33 can pass through the lower limiting hole 35 and then be connected with the lower water distribution pipe 31, and the lower connecting pipe 33 can be installed conveniently, and in addition, the lower limiting hole 35 can also play a role of mechanical limiting, so that the lower water distribution housing 33 can be prevented from sliding on the lower water distribution pipe 31 beyond a predetermined stroke.

Referring to fig. 2 and 3, in some embodiments, the water distribution mechanism includes a central vertical pipe 6, an isolation member 61 is disposed in the central vertical pipe 6, the isolation member 61 divides the central vertical pipe 6 into an upper central vertical pipe 62 and a lower central vertical pipe 63, the upper central vertical pipe 62 is connected to the hot water pipe 42, the upper connecting pipe 23 is connected to the upper central vertical pipe 62, the lower central vertical pipe 63 is connected to the cold water pipe 41, and the lower connecting pipe 33 is connected to the lower central vertical pipe 63. Through the central vertical pipe 6, cold water and hot water entering the tank body 1 can be distributed to the upper part and the lower part of the tank body 1 during working, the cold water and the hot water flowing out of the tank body 1 can be separately transported out, the cold water and the hot water are prevented from being mixed during the working, and the cold accumulation effect is better. In practice, the isolation member 61 includes, but is not limited to, an isolation plate, an isolation plug, and the like.

Referring to fig. 2, in some embodiments, the insulating member 61 is provided with glass wool inside, which has good heat insulating property and can effectively prevent the heat of the hot water in the upper central vertical pipe 62 from being transferred to the cold water in the lower central vertical pipe 63.

Referring to fig. 3 and 9, in some embodiments, a riser pad 7 is disposed at the bottom end of the central riser 6, and a plurality of reinforcing plates 71 connected to the central riser 6 are disposed on the riser pad 7, so as to reinforce the central riser 6, so that the stability of the stress is good, and the stability of the water distribution mechanism is ensured.

Referring to fig. 3, in some embodiments, the water distribution mechanism includes a plurality of groups of upper water distribution assembly units 2, the groups of upper water distribution assembly units 2 are uniformly distributed along the circumferential direction of the central vertical pipe 6, so as to ensure uniform and stable water distribution and a wider hot water outlet flow range, so as to adapt to the water distribution amount of the actual demand.

Referring to fig. 3, in some embodiments, the water distribution mechanism includes a plurality of groups of lower water distribution assembly units 3, the groups of lower water distribution assembly units 3 are uniformly distributed along the circumferential direction of the central vertical pipe 6, so as to ensure uniform and stable water distribution and a wider range of cold water outflow rate, so as to adapt to the water distribution amount required in practice.

Referring to fig. 2 and 6, in some embodiments, the water distributor further comprises a transmission mechanism, the transmission mechanism comprises a water blocking part 91, a worm 92, a worm wheel 93 and a transmission gear 94, the worm 92 is arranged in the central vertical pipe 6, the water blocking part 91 is connected with the tail part of the worm 92, the worm wheel 93 and the transmission gear 94 are both arranged on the top part of the worm 92, wherein the worm 92 is meshed with the worm wheel 93, the worm wheel 93 is meshed with the transmission gear 94, and the transmission gear 94 is connected with the upper water distribution housing 22 through a connecting rod and can drive the upper water distribution housing 22 to move.

Referring to fig. 2 to 8, when in use, cold water at the bottom of the tank enters the lower water distribution pipe 31 through the lower water distribution holes 34 on the lower water distribution assembly unit 3, enters the lower connecting pipe 33 through the lower water distribution pipe 31, the cold water entering the lower connecting pipe 33 is collected in the cold water pipeline 41, is discharged out of the tank through the cold water pipeline 41, realizes cooling and heat exchange when flowing through an external load, and finally is returned to the inside of the upper connecting pipe 23 through the hot water pipeline 42 and discharged to the top of the tank through the upper water distribution assembly unit 2.

When the water flow entering from the hot water pipe 42 becomes large, the water blocking member 91 pushes the worm 92 to move upward along the axial direction of the central vertical pipe 6 under the action of water flow impact, the worm 92 drives the worm wheel 93 to rotate, the worm wheel 93 is meshed with the transmission gear 94 to rotate, the transmission gear 94 drives the upper water distribution housing 22 to slide on the upper water distribution pipe 21, so that the upper housing hole 223 on the upper water distribution housing 22 is staggered with the upper water distribution hole 24 on the upper water distribution pipe 21, and the outflow speed and the outflow area of the upper water distribution assembly unit 2 become small.

When the water flow entering the first connecting pipe is decreased, the water blocking part 91 moves downward along the axial direction of the first connecting pipe under the action of its own gravity and drives the worm 92 to rotate, the worm 92 drives the worm wheel 93 to rotate, the worm wheel 93 is meshed with the transmission gear 94 to rotate, the transmission gear 94 drives the lower water distribution housing 32 to slide on the lower water distribution pipe 31, so that the lower housing hole 323 on the lower water distribution housing 32 is aligned with the lower water distribution hole 24 on the lower water distribution pipe 31, and the outflow rate and the outflow area on the lower water distribution assembly unit 3 are increased.

The invention is not limited to the above embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the invention, and such equivalent modifications or substitutions are included in the scope defined by the claims of the present application.

Claims (9)

1. A dynamic cold storage device is characterized in that: comprises that

A tank body;

the water distribution mechanism is arranged in the tank body and comprises an upper water distribution component unit and a lower water distribution component unit, the upper water distribution component unit comprises an upper water distribution pipe, an upper connecting pipe and an upper water distribution cover shell, the upper water distribution pipe is connected with the upper connecting pipe, the upper connecting pipe is connected with the outside through a hot water pipe, the upper water distribution cover shell is arranged on the outer side of the upper water distribution pipe, the upper water distribution pipe is provided with a plurality of upper water distribution holes, the upper water distribution cover shell is provided with a plurality of upper cover shell holes, the lower water distribution component unit comprises a lower water distribution pipe, a lower connecting pipe and a lower water distribution cover shell, the lower water distribution pipe is connected with the lower connecting pipe, the lower connecting pipe is connected with the outside through a cold water pipe, the lower water distribution cover shell is arranged on the outer side of the lower water distribution pipe, the lower water distribution pipe is provided with a plurality of lower water distribution holes, the lower water distribution cover shell is provided with a plurality of lower cover shell holes, the upper sliding cover shell can, the lower sliding cover shell can slide to align or stagger the lower cover shell hole and the lower water distribution hole.

2. The dynamic cold storage device according to claim 1, wherein: the water distribution mechanism comprises a central vertical pipe, an isolation component is arranged in the central vertical pipe and divides the central vertical pipe into an upper central vertical pipe and a lower central vertical pipe, the upper central vertical pipe is connected with the hot water pipe, the upper connecting pipe is connected with the upper central vertical pipe, the lower central vertical pipe is connected with the cold water pipe, and the lower connecting pipe is connected with the lower central vertical pipe.

3. The dynamic cold storage device according to claim 2, characterized in that: and glass wool is arranged inside the isolation component.

4. The dynamic cold storage device according to claim 2, characterized in that: the water distribution mechanism comprises a plurality of groups of upper water distribution assembly units which are uniformly distributed along the circumferential direction of the central vertical pipe.

5. The dynamic cold storage device according to claim 2, characterized in that: the water distribution mechanism comprises a plurality of groups of lower water distribution component units which are uniformly distributed along the circumferential direction of the central vertical pipe.

6. The dynamic cold storage device according to claim 1, wherein: the water distribution device is characterized by further comprising a transmission mechanism, wherein the transmission mechanism comprises a water retaining part, a worm wheel and a transmission gear, the worm is arranged in the central vertical pipe, the water retaining part is connected with the tail of the worm, the worm wheel and the transmission gear are arranged at the top of the worm, the worm is meshed with the worm wheel, the worm wheel is meshed with the transmission gear, and the transmission gear is connected with the upper water distribution housing and can drive the upper water distribution housing to move.

7. The dynamic cold storage device according to claim 1, wherein: go up the water distribution housing and include half shell of first water distribution cover and half shell of second water distribution cover on the water distribution cover, half shell of first water distribution cover with half shell of second water distribution cover can be dismantled and be connected, half shell of first water distribution cover with half shell of second water distribution cover overlaps respectively on the water distribution pipe, the water distribution housing includes half shell of first water distribution cover and half shell of second water distribution cover down, half shell of first water distribution cover with half shell of second water distribution cover can be dismantled and be connected down, half shell of first water distribution cover overlaps respectively with half shell of second water distribution cover down on the water distribution pipe.

8. The dynamic cold storage device according to claim 1, wherein: the upper water distribution housing is provided with an upper limiting hole avoiding the upper connecting pipe, and the lower water distribution housing is provided with a lower limiting hole avoiding the lower connecting pipe.

9. The dynamic cold storage device according to claim 2, characterized in that: the bottom end of the central vertical pipe is provided with a vertical pipe base plate, and the vertical pipe base plate is provided with a plurality of reinforcing plates connected with the central vertical pipe.

Images