CN218410158U - Water cold storage energy-saving air conditioner - Google Patents

Abstract

The utility model relates to an air conditioner field specifically is an energy-conserving air conditioner of water cold-storage, including air conditioner shell, heat transfer board, cold-storage case, refrigerator and cold-storage mechanism, air conditioner shell left side internally mounted has the heat transfer board, the cold-storage case to the high temperature water cooling is installed in the heat transfer board left side, the utility model discloses a refrigerator operation, the ice-cold water system ice, with the cooling energy of refrigerator with the form of ice store in the inside of low temperature sump, wait to daytime when peak electric power period needs to use the air conditioner refrigeration, can let the ice of the inside storage of low temperature sump melt, first drive wheel drives the rotation of second drive wheel through the belt of the outside suit of front end installation wheel to make high temperature sump, low temperature sump and the inside screw rod synchronous rotation in separate bin, the meshing drives storehouse body diaphragm and is spacing downstream at spacing, drives the brush board and hugs closely the bottom and closes the formula manhole release from the cold-storage case front side wall correspondence with the incrustation scale to set up to it is more obvious to follow-up water cold-storage cooling effect.

Description

Water cold storage energy-saving air conditioner

Technical Field

The utility model relates to an air conditioner field specifically is an energy-conserving air conditioner of water cold-storage.

Background

With the development of modern industry and the improvement of the living standard of people, the application of an air conditioner is more and more extensive, the power consumption of the air conditioner is more and more increased, the peak-valley load difference of a power system is increased, the load rate of a power grid is increased, the power grid has to carry out switching-off and power limiting, and the industrial production is severely restricted.

Patent No. CN213630738U discloses an energy-saving dual-system central air conditioner with water cold accumulation, which can recycle the water resource of the air conditioner through the installed main body, extend the low-temperature water distribution pipe into the low-temperature water tank, and introduce the low-temperature secondary refrigerant made by the water chiller into the pipe, so that the water in the low-temperature water tank freezes into ice, when in use, the ethylene glycol solution with higher temperature flowing back from the load end of the central air conditioner is transported into the pipe, and the hot water generated during the air conditioner working can flow into the high-temperature water tank through the high-temperature water pipe, and when in accumulation of hot water, the hot water can flow into the interlayer below the low-temperature water tank through the water leakage pipe, the ice in the interlayer can cool the hot water, thereby cooling the hot water when necessary, and avoiding the waste of water resource after the hot water is directly discharged.

Some of the disadvantages of the air conditioner are as follows: above-mentioned air conditioner is storing the water cold-storage with the ice form through low temperature sump, the water to high temperature sump is cooled down so that the in-process of high temperature water cycle use after cooling down, all be for producing the incrustation scale in each sump, the incrustation scale can be attached to storehouse body bottom after long-time the use, cause the influence to the transmission of temperature, thereby can influence subsequent cooling and handle, but above-mentioned water cold-storage subassembly does not have the function to the incrustation scale clearance, thereby can only dismantle the change to the water cold-storage subassembly that loses efficacy after long-time the use, and the cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving air conditioner of water cold-storage, be used for solving above-mentioned air conditioner and storing water cold-storage with the ice form through low temperature sump, the water to high temperature sump is cooled down so that the in-process of high temperature water cycle use after cooling down, all be for producing the incrustation scale in each sump, the incrustation scale can be attached to storehouse body bottom after long-time the use, cause the influence to the transmission of temperature, thereby can influence subsequent cooling and handle, but above-mentioned water cold-storage subassembly does not have the function to the incrustation scale clearance, thereby can only dismantle the change to the water cold-storage subassembly of inefficacy after long-time the use, the problem of cost is increased.

Therefore, the utility model provides an energy-conserving air conditioner of water cold-storage, including air conditioner shell, heat transfer board, cold-storage case, refrigerator and cold-storage mechanism, air conditioner shell left side internally mounted has the heat transfer board, the cold-storage case to the high temperature water cooling is installed in heat transfer board left side, cold-storage incasement portion is provided with and is used for the cold-storage mechanism that can clear up the incrustation scale, the refrigerator is installed in cold-storage case left side.

Preferably: the cold-storage mechanism includes high temperature sump, low temperature sump and compartment, the high temperature sump sets up inside cold-storage tank right side, the low temperature sump sets up inside cold-storage tank left side upper end, the compartment sets up in the cold-storage incasement portion of low temperature sump downside, the spacing groove has all been seted up to high temperature sump, low temperature sump and compartment left side wall, the inside rotation of spacing groove installs the screw rod, screw rod lateral wall cover is equipped with the diaphragm, lateral wall fixed mounting has the brush board under the diaphragm, high temperature sump downside screw rod front end runs through cold-storage tank fixedly connected with runner, runner front end fixed mounting has the support, support front end fixed mounting has the motor, compartment downside screw rod front end fixedly connected with first drive wheel, low temperature sump downside screw rod front end fixedly connected with second drive wheel.

Preferably: the thickness dimension of the transverse plate is matched with that of the limiting groove.

Preferably: the brush plate is tightly attached to the side walls of the bottom of the high-temperature water bin, the low-temperature water bin and the separation bin.

Preferably, the following components: the front sides of the high-temperature water bin, the low-temperature water bin and the separation bin are all provided with closeable manholes.

Preferably: the rotating wheel, the first driving wheel and the second driving wheel are all connected through a belt.

Preferably: and a screw hole meshed with the screw threads on the outer wall of the screw rod is formed in the left side of the transverse plate.

The utility model, through the operation of the refrigerator, the ice water is cooled, the cooling energy of the refrigerator is stored in the low-temperature water sump in the form of ice, when the air conditioner is needed to be used for refrigeration in the peak power time period in the daytime, the ice stored in the low-temperature water sump can be dissolved, the heat generated by the air conditioner can be absorbed, the effect of ice water cooling is achieved, the low-temperature water distributing pipe is extended into the low-temperature water sump, and the low-temperature secondary refrigerant made by the water chilling unit is introduced into the pipe, the water in the low-temperature water sump is frozen into ice again, meanwhile, the hot water transferred by the heat exchange plate flows into the high-temperature water sump through the side wall hole of the partition, and the high-temperature water in the partition and the high-temperature water sump is cooled through the upper low-temperature water sump, the effect of water cold-storage in order to supply air conditioner heat transfer water cooling has been reached, can remain the incrustation scale bottom high temperature sump and low temperature sump and compartment, the incrustation scale can influence the transmission of temperature and lead to cooling effect to reduce, thereby need clear up the incrustation scale of each sump bottom, control motor operation drives the runner and rotates, drive first drive wheel through the belt and rotate, first drive wheel drives the second drive wheel through the belt of the outside suit of front end installation wheel and rotates, thereby make high temperature sump, the inside screw rod synchronous rotation of low temperature sump and compartment, the meshing drives the diaphragm and moves forward under spacing groove, it pushes out the closeable formula manhole that the lateral wall corresponds the seting up with the incrustation scale from cold-storage box front side to drive brush board hug closely storehouse body bottom, so that follow-up water cold-storage cooling effect is more obvious.

Drawings

FIG. 1 is a structural diagram of the air conditioner of the present invention;

fig. 2 is a sectional view of the cold storage box of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 2 according to the present invention.

In the figure:

1. an air conditioner housing; 2. a heat exchange plate; 3. a cold storage tank; 4. a refrigerator; 501. a high-temperature water sump; 502. a low-temperature water sump; 503. separating the bin; 504. a limiting groove; 505. a screw; 506. a transverse plate; 507. a rotating wheel; 508. a support; 509. a motor; 510. a first drive pulley; 511. a second transmission wheel; 512. and (7) brushing the board.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Please refer to fig. 1-3, which illustrate an embodiment of the present invention, a water cold storage energy saving air conditioner, including an air conditioner case 1, a heat exchange plate 2, a cold storage tank 3, a refrigerator 4 and a cold storage mechanism, wherein the heat exchange plate 2 is installed inside the left side of the air conditioner case 1, the cold storage tank 3 for cooling high temperature water is installed on the left side of the heat exchange plate 2, the cold storage mechanism for cleaning scale is installed inside the cold storage tank 3, and the refrigerator 4 is installed on the left side of the cold storage tank 3.

It should be noted that: high temperature water that produces the air conditioner through cold-storage mechanism in this scheme cools down cyclic utilization effectively clears up the incrustation scale in the sump simultaneously.

Wherein, cold-storage mechanism includes high temperature sump 501, low temperature sump 502 and compartment 503, high temperature sump 501 sets up inside cold-storage box 3 right sides, low temperature sump 502 sets up inside cold-storage box 3 left side upper end, compartment 503 sets up inside cold-storage box 3 of low temperature sump 502 downside, spacing groove 504 has all been seted up to high temperature sump 501, low temperature sump 502 and compartment 503 left side wall, screw rod 505 is installed in the inside rotation of spacing groove 504, screw rod 505 lateral wall cover is equipped with diaphragm 506, diaphragm 506 downside wall fixed mounting has brush board 512, high temperature sump 501 downside screw rod 505 front end runs through cold-storage box 3 fixedly connected with runner 507, runner 507 front end fixed mounting has support 508, support 508 front end fixed mounting has motor 509, compartment 503 downside screw rod 505 front end fixed connection has first drive wheel 510, low temperature sump 502 downside screw rod 505 front end fixed connection has second drive wheel 511.

It should be noted that: this scheme is being convenient for carry out high-efficient clearance to the incrustation scale in each sump.

Wherein, the thickness dimension of the transverse plate 506 is matched with the thickness dimension of the limit groove 504.

It should be noted that: this scheme is convenient for make more stable clear up the incrustation scale through above setting up.

The brush plate 512 is tightly attached to the side walls of the bottoms of the high-temperature water sump 501, the low-temperature water sump 502 and the partition 503.

It should be noted that: this scheme is convenient for abundant brush to the incrustation scale through above setting up and is removed.

The front sides of the high-temperature water sump 501, the low-temperature water sump 502 and the separation chamber 503 are all provided with a closable manhole.

It should be noted that: this scheme is convenient for clear up out each sump with the incrustation scale and seal the sump and continue to use through above setting up.

The rotating wheel 507, the first driving wheel 510 and the second driving wheel 511 are all connected through a belt.

It should be noted that: this scheme is convenient for make the clearance subassembly synchronous operation in each sump through above setting up.

Wherein, the inside screw hole that meshes with screw 505 outer wall screw thread is seted up to diaphragm 506 left side.

It should be noted that: this scheme is convenient for efficient drive clearance subassembly function through above setting up.

The utility model discloses a work flow and principle: the ice water is cooled to make ice by the operation of the refrigerator 4, the cooling energy of the refrigerator 4 is stored in the low-temperature water bin 502 in the form of ice, when the air conditioner is needed to cool in the peak power period in the daytime, the ice stored in the low-temperature water bin 502 can be melted to absorb the heat generated by the air conditioner, so as to achieve the effect of cooling the ice water, the low-temperature water distribution pipe is extended into the low-temperature water bin 502, and a low-temperature secondary refrigerant produced by a water chilling unit is introduced into the pipe, so that the water in the low-temperature water bin 502 is frozen into the ice again, meanwhile, the hot water transferred by the heat exchange plate 2 in the operation process of the air conditioner is guided into the high-temperature water bin 501 and flows into the compartment 503 through the side wall hole of the compartment 503, and the high-temperature water in the compartment 503 and the high-temperature water bin 501 is cooled through the low-temperature water bin 502 on the upper side, the effect of water cold-storage in order to supply the air conditioner heat transfer water to cool down has been reached, can remain the incrustation scale bottom high temperature sump 501 and low temperature sump 502 and compartment 503, the incrustation scale can influence the transmission of temperature and lead to cooling effect to reduce, thereby need clear up the incrustation scale of each sump bottom, control motor 509 operates and drives runner 507 and rotate, drive first drive wheel 510 through the belt and rotate, first drive wheel 510 drives second drive wheel 511 through the belt of the outside suit of front end installation wheel and rotates, thereby make high temperature sump 501, the inside screw rod 505 synchronous revolution of low temperature sump 502 and compartment 503, the meshing drives diaphragm 506 and moves forward under spacing groove 504 is spacing, it hugs closely storehouse body bottom to drive brush 512 and releases the incrustation scale from the closed manhole that cold-storage box 3 front side wall corresponds to set up.

The above description is provided for further details of the present invention, and it should not be assumed that the present invention is limited to these descriptions, and it will be appreciated by those skilled in the art that various modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (7)

1. A chilled water storage energy-saving air conditioner is characterized in that: including air conditioner shell (1), heat transfer board (2), cold-storage case (3), refrigerator (4) and cold-storage mechanism, air conditioner shell (1) left side internally mounted has heat transfer board (2), cold-storage case (3) to the high temperature water cooling are installed in heat transfer board (2) left side, cold-storage case (3) inside is provided with and is used for the cold-storage mechanism to the incrustation scale clearance, refrigerator (4) are installed in cold-storage case (3) left side.

2. The chilled water storage energy-saving air conditioner according to claim 1, characterized in that: cold-storage mechanism includes high temperature sump (501), low temperature sump (502) and compartment (503), high temperature sump (501) sets up inside cold-storage box (3) right side, low temperature sump (502) set up inside cold-storage box (3) left side upper end, compartment (503) set up inside cold-storage box (3) of low temperature sump (502) downside, spacing groove (504) have all been seted up to high temperature sump (501), low temperature sump (502) and compartment (503) left side wall, screw rod (505) are installed in the inside rotation of spacing groove (504), screw rod (505) lateral wall cover is equipped with diaphragm (506), diaphragm (506) downside lateral wall fixed mounting has brush board (512), high temperature sump (501) downside screw rod (505) front end runs through cold-storage box (3) fixedly connected with runner (507), runner (507) front end fixed mounting has support (508), motor (509) is installed to support (508) front, compartment (503) downside screw rod (505) front end is connected with first transmission wheel (510), low temperature sump (502) front end fixed connection has second transmission wheel (511).

3. The chilled water storage energy-saving air conditioner according to claim 2, characterized in that: the thickness dimension of the transverse plate (506) is matched with that of the limiting groove (504).

4. The chilled water storage energy-saving air conditioner according to claim 2, characterized in that: the brush plate (512) is tightly attached to the side walls of the bottoms of the high-temperature water sump (501), the low-temperature water sump (502) and the separation chamber (503).

5. The chilled water storage energy-saving air conditioner according to claim 2, characterized in that: the front sides of the high-temperature water sump (501), the low-temperature water sump (502) and the separation chamber (503) are all provided with closable manholes.

6. The chilled water storage energy-saving air conditioner according to claim 2, characterized in that: the rotating wheel (507), the first driving wheel (510) and the second driving wheel (511) are connected through belts.

7. The chilled water storage energy-saving air conditioner according to claim 2, characterized in that: and a screw hole meshed with the thread on the outer wall of the screw rod (505) is formed in the left inner part of the transverse plate (506).

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