CN104296453A - Energy storage refrigerator and energy storage method thereof - Google Patents

Abstract

The invention discloses an energy storage refrigerator and an energy storage method thereof. An energy storage box is arranged in the refrigerator; an energy storage agent is arranged in the energy storage box; a heat exchanger is arranged to penetrate through the energy storage box; as a result, the energy storage agent can be used for storing cold and heat; when the internal environment or the external environment of the refrigerator changes, the stored cold and heat are released to reduce the temperature fluctuation of the internal environment or the external environment, and therefore, the condensed water and the frosting quantity of the refrigerator can be reduced, and the freshness retaining capacity of the refrigerator can be improved; besides, as the refrigerator is provided with the energy storage agent, when the heat exchanger does not work, the energy storage agent functions instead of the heat exchanger, and consequently, the heat exchange time is prolonged and the heat exchange efficiency of the refrigerator is improved; in addition, as the heat exchange efficiency of the refrigerator is improved, the size of the heat exchanger can be designed to be smaller.

Description

Energy-accumulating refrigerator and energy-storage method thereof

Technical field

The present invention relates to refrigerator, in particular energy-accumulating refrigerator and energy-storage method thereof.

Background technology

During refrigerator work, heat exchanger can carry out heat exchange at press run duration, and in a cooling cycle, the heat exchanger working time accounts for about 1/3rd of cooling cycle.

Heat exchanger comprises evaporimeter and condenser, and heat exchanger is by exchanging with surrounding air after steel plate or plastic conductive, and the heat exchange efficiency that the working time due to heat exchanger causes refrigerator compared with short-range missile is low.

In addition, also there are some problems in conventional refrigerator heat exchanger, as the temperature difference in evaporimeter and refrigerator storage environment is comparatively large, can cause the generation of a large amount of condensed water in refrigerating chamber, a large amount of frosting of refrigerating chamber like this; Simple employing heat exchanger, the temperature change of the internal and external environment of refrigerator can be made very fast, and during as having a power failure, do not have low-temperature receiver supply, the low temperature continuous time is short, and in other words, the constant temperature effect of refrigerator is poor, is unfavorable for food fresh keeping.

Prior art also cannot solve the problem, and therefore, prior art has yet to be improved and developed.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art, the object of the present invention is to provide energy-accumulating refrigerator and energy-storage method thereof, by the accumulation of energy agent heat exchange of heat exchanger and surrounding, accumulation of energy agent is utilized to store cold or heat, when heat exchanger quits work, accumulation of energy agent continues heat exchange, extend the heat-exchange time of refrigerator, improve refrigerator heat exchange efficiency, the fast problem of refrigerator internal and external environment temperature change can also be solved simultaneously.

For reaching above-mentioned purpose, the invention provides following technical scheme:

Energy-accumulating refrigerator, comprises heat exchanger, and energy-storage box and the accumulation of energy agent be arranged in energy-storage box, heat exchanger is located in energy-storage box.

Described energy-accumulating refrigerator, wherein, described heat exchanger comprises evaporimeter and/or condenser; Described energy-storage box comprises cold storage box and/or accumulation of heat box, and its material is the nonmetallic materials that metal material or thermal conductivity are good; Described accumulation of energy agent comprises agent for storage of coldness and/or heat-storage agent.

Described energy-accumulating refrigerator, wherein, described evaporimeter comprises freezer evaporator and/or refrigerator evaporator.

Described energy-accumulating refrigerator, wherein, described evaporimeter is refrigerator evaporator, and described cold storage box is the first cold storage box, and described first cold storage box is arranged on outside refrigerating chamber inner bag, is wrapped up, be inside provided with the first agent for storage of coldness by the first expanded material.

Described energy-accumulating refrigerator, wherein, described evaporimeter is freezer evaporator, and described cold storage box is the second cold storage box, is inside provided with the second agent for storage of coldness.

Described energy-accumulating refrigerator, wherein, described evaporimeter is freezer evaporator and refrigerator evaporator, wherein, described evaporimeter is refrigerator evaporator, and described cold storage box is the first cold storage box, and described first cold storage box is arranged on outside refrigerating chamber inner bag, wrapped up by expanded material, be inside provided with the first agent for storage of coldness; Described evaporimeter is freezer evaporator, and described cold storage box is the second cold storage box, is inside provided with the second agent for storage of coldness.

Described energy-accumulating refrigerator, wherein, described heat exchanger is condenser, and described energy-storage box is the accumulation of heat box being contained with heat-storage agent, and condenser is located in accumulation of heat box, and described accumulation of heat box is arranged on inside cabinet shell, is wrapped up by the second expanded material.

Present invention also offers energy-accumulating refrigerator energy-storage method, comprise the following steps:

A, to arrange at energy-accumulating refrigerator and be contained with the energy-storage box of accumulation of energy agent, and heat exchanger is located in energy-storage box;

B, when flow of refrigerant crosses heat exchanger, accumulation of energy agent absorbs cold and/or heat;

Absorption cold and/or heat pass through energy-storage box by C, accumulation of energy agent.

Described energy-accumulating refrigerator energy-storage method, wherein,

Described steps A specifically comprises:

The first cold storage box being contained with the first agent for storage of coldness is set at energy-accumulating refrigerator, and refrigerator evaporator is located in the first cold storage box;

Described step B specifically comprises:

When cold-producing medium flows through refrigerator evaporator, the first agent for storage of coldness absorbs cold;

Described step C specifically comprises:

The cold of absorption is delivered to refrigerating chamber through the first cold storage box by the first agent for storage of coldness.

Described energy-accumulating refrigerator energy-storage method, wherein,

Described steps A specifically comprises:

The second cold storage box being contained with the second agent for storage of coldness is set at energy-accumulating refrigerator, and freezer evaporator is located in the second cold storage box;

Described step B specifically comprises:

When cold-producing medium flows through freezer evaporator, the second agent for storage of coldness absorbs cold;

Described step C specifically comprises:

The cold of absorption is delivered to refrigerating chamber through the second cold storage box by the second agent for storage of coldness.

Described energy-accumulating refrigerator energy-storage method, wherein,

Described steps A specifically comprises:

The accumulation of heat box being contained with heat-storage agent is set at energy-accumulating refrigerator, and condenser is located in accumulation of heat box;

Described step B specifically comprises:

When cold-producing medium flows through condenser, heat-storage agent absorbs heat;

Described step C specifically comprises:

The heat of absorption is delivered to through accumulation of heat box in the air outside refrigerator by heat-storage agent.

Compared with prior art, energy-accumulating refrigerator provided by the present invention and energy-storage method thereof, in refrigerator, energy-storage box is set, accumulation of energy agent is set in energy-storage box, heat exchanger is located in energy-storage box, accumulation of energy agent so just can be utilized to store cold and heat, when refrigerator environment or external environment change by the cold of storage and thermal release, reduce the temperature fluctuation of environment or external environment, be conducive to the frosting degree reducing condensed water and refrigerator, the preservativity of refrigerator can also be improved; And refrigerator arranges accumulation of energy agent, when heat exchanger does not work, its work can be replaced by accumulation of energy agent, extend heat-exchange time, improve refrigerator heat exchange efficiency, in addition, because refrigerator heat exchange efficiency improves, also can less by the size design of heat exchanger.

Accompanying drawing explanation

Fig. 1 is energy-accumulating refrigerator described in first embodiment of the invention has set up the first cold storage box part sectioned view at refrigerator evaporator.

Fig. 2 is the second cold storage box perspective view that the energy-accumulating refrigerator described in second embodiment of the invention is set up at freezer evaporator.

Fig. 3 is energy-accumulating refrigerator described in third embodiment of the invention sets up accumulation of heat box partial schematic diagram at condenser.

Fig. 4 is energy-accumulating refrigerator energy-storage method flow chart of the present invention.

Detailed description of the invention

The invention provides energy-accumulating refrigerator and energy-storage method thereof, for making object of the present invention, technical scheme and effect clearly, clearly, referring to accompanying drawing examples, the present invention is described in more detail.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Energy-accumulating refrigerator of the present invention, is provided with energy-storage box in refrigerator, and in energy-storage box, be provided with accumulation of energy agent, and accumulation of energy agent has heat-storage agent and agent for storage of coldness two kinds, and heat-storage agent Absorbable rod heat stores, and agent for storage of coldness Absorbable rod cold stores.The present invention utilizes the character of accumulation of energy agent to improve refrigerator, utilizes heat-storage agent storing heat, improves condenser; Utilize agent for storage of coldness to store cold and improve evaporimeter, evaporimeter in refrigerator comprises refrigerator evaporator and freezer evaporator, for this reason, the invention provides three kinds of specific embodiments, improve the performance of refrigerator evaporator, freezer evaporator and heat-storage agent respectively, specifically refer to Fig. 1, Fig. 2 and Fig. 3.It is emphasized that and the performance of refrigerator evaporator, freezer evaporator and heat-storage agent is improved, can implement separately, also can multinomially implement simultaneously.

Refer to Fig. 1, Fig. 1 is energy-accumulating refrigerator described in first embodiment of the invention has set up the first cold storage box part sectioned view at refrigerator evaporator.Heat exchanger shown in Fig. 1 is refrigerator evaporator 102, and refrigerator evaporator 102 is located in the first cold storage box 104, and the first cold storage box 104 is arranged on outside refrigerating chamber inner bag 103, is wrapped up by the first expanded material 101, is inside provided with the first agent for storage of coldness 105.Like this, when refrigerator refrigerant flows through refrigerator evaporator, first agent for storage of coldness absorbs and stores cold, utilizes the first agent for storage of coldness and chiller refrigeration, when refrigerator evaporator quits work, replace cold-producing medium by the first agent for storage of coldness to freeze, extend cooling time, improve the refrigerating efficiency of refrigerator, simultaneously, also ensure that the constant temperature effect of refrigerator, be conducive to the fresh-keeping of food (particularly vegetables and fruit).

Refer to Fig. 2, Fig. 2 is the second cold storage box perspective view that the energy-accumulating refrigerator described in second embodiment of the invention is set up at freezer evaporator.Heat exchanger shown in Fig. 2 is freezer evaporator 202, and described freezer evaporator 202 is located in the second cold storage box 201, is contained with the second agent for storage of coldness 203 in the second cold storage box.It should be noted that, the little black patches shown in Fig. 2 is for representing the second agent for storage of coldness be stored in the second cold storage box, not other any implications of tool.After second agent for storage of coldness has been set up to freezer evaporator, when refrigerator refrigerant flows through freezer evaporator, second agent for storage of coldness absorbs and stores cold, utilize the second agent for storage of coldness and chiller refrigeration, when freezer evaporator quits work, replace cold-producing medium by the second agent for storage of coldness and freeze, extend cooling time, improve the refrigerating efficiency of refrigerator, meanwhile, also ensure that the constant temperature effect of refrigerator.

Refer to Fig. 3, Fig. 3 is energy-accumulating refrigerator described in third embodiment of the invention sets up accumulation of heat box partial schematic diagram at condenser.Heat exchanger shown in Fig. 3 is condenser 304, and described condenser is worn 304 and is located in accumulation of heat box 303, and accumulation of heat box 303 is contained with heat-storage agent 305, is arranged on inside cabinet shell 302, is wrapped up by the second expanded material 301, and heat-storage agent 305 can absorb heat and store.When cold-producing medium flows through condenser, heat-storage agent absorbs heat; Then, the heat of absorption is delivered in the air outside refrigerator by heat-storage agent through accumulation of heat box, utilize heat-storage agent and discharge refrigerant heat, when condenser shut down, replace cold-producing medium by heat-storage agent and carry out heat release, extend Exotherm Time, improve the exothermal efficiency of refrigerator, meanwhile, the constant temperature of refrigerator external environment is also conducive to.

Refer to Fig. 4, Fig. 4 is energy-accumulating refrigerator energy-storage method flow chart of the present invention.As shown in Figure 4, energy-accumulating refrigerator energy-storage method of the present invention, comprising:

Step 401, to arrange at energy-accumulating refrigerator and be contained with the energy-storage box of accumulation of energy agent, and heat exchanger is located in energy-storage box;

Step 402, when flow of refrigerant crosses heat exchanger, accumulation of energy agent absorbs cold and/or heat;

Absorption cold and/or heat pass through energy-storage box by step 403, accumulation of energy agent.

Described energy-accumulating refrigerator energy-storage method, wherein, includes the improvement to refrigerator evaporator cold-storage method, specific as follows:

Described step 401 specifically comprises:

The first cold storage box being contained with the first agent for storage of coldness is set at energy-accumulating refrigerator, and refrigerator evaporator is located in the first cold storage box;

Described step 402 specifically comprises:

When cold-producing medium flows through refrigerator evaporator, the first agent for storage of coldness absorbs cold;

Described step 403 specifically comprises:

The cold of absorption is delivered to refrigerating chamber through the first cold storage box by the first agent for storage of coldness.

Described energy-accumulating refrigerator energy-storage method, wherein, includes the improvement to freezer evaporator cold-storage method, specific as follows:

Described step 401 specifically comprises:

The second cold storage box being contained with the second agent for storage of coldness is set at energy-accumulating refrigerator, and freezer evaporator is located in the second cold storage box;

Described step 402 specifically comprises:

When cold-producing medium flows through freezer evaporator, the second agent for storage of coldness absorbs cold;

Described step 403 specifically comprises:

The cold of absorption is delivered to refrigerating chamber through the second cold storage box by the second agent for storage of coldness.

Described energy-accumulating refrigerator energy-storage method, wherein, includes the improvement to condenser heat accumulation method, specific as follows:

Described step 401 specifically comprises:

The accumulation of heat box being contained with heat-storage agent is set at energy-accumulating refrigerator, and condenser is located in accumulation of heat box;

Described step 402 specifically comprises:

When cold-producing medium flows through condenser, heat-storage agent absorbs heat;

Described step 403 specifically comprises:

The heat of absorption is delivered to through accumulation of heat box in the air outside refrigerator by heat-storage agent.

Finally emphasize a bit, the product being prior art that agent for storage of coldness involved in the present invention and heat-storage agent adopt, do not limit at this and illustrate.

In sum, energy-accumulating refrigerator provided by the present invention and energy-storage method thereof, in refrigerator, energy-storage box is set, accumulation of energy agent is set in energy-storage box, heat exchanger is located in energy-storage box, accumulation of energy agent so just can be utilized to store cold and heat, when refrigerator environment or external environment change by the cold of storage and thermal release, reduce the temperature fluctuation of environment or external environment, be conducive to the frosting degree reducing condensed water and refrigerator, the preservativity of refrigerator can also be improved; And refrigerator arranges accumulation of energy agent, when heat exchanger does not work, its work can be replaced by accumulation of energy agent, extend heat-exchange time, improve refrigerator heat exchange efficiency, in addition, because refrigerator heat exchange efficiency improves, also can less by the size design of heat exchanger.

Should be understood that, application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (10)

1. energy-accumulating refrigerator, comprises heat exchanger, it is characterized in that, also comprises:

Energy-storage box and the accumulation of energy agent be arranged in energy-storage box, heat exchanger is located in energy-storage box.

2. energy-accumulating refrigerator according to claim 1, is characterized in that, described heat exchanger comprises evaporimeter and/or condenser; Described energy-storage box comprises cold storage box and/or accumulation of heat box, and its material is the nonmetallic materials that metal material or thermal conductivity are good; Described accumulation of energy agent comprises agent for storage of coldness and/or heat-storage agent.

3. energy-accumulating refrigerator according to claim 2, is characterized in that, described evaporimeter comprises freezer evaporator and/or refrigerator evaporator.

4. energy-accumulating refrigerator according to claim 3, is characterized in that, described evaporimeter is refrigerator evaporator, described cold storage box is the first cold storage box, described first cold storage box is arranged on outside refrigerating chamber inner bag, is wrapped up, be inside provided with the first agent for storage of coldness by the first expanded material.

5. energy-accumulating refrigerator according to claim 3, is characterized in that, described evaporimeter is freezer evaporator, and described cold storage box is the second cold storage box, is inside provided with the second agent for storage of coldness.

6. energy-accumulating refrigerator according to claim 2, is characterized in that, described heat exchanger is condenser, described energy-storage box is the accumulation of heat box being contained with heat-storage agent, condenser is located in accumulation of heat box, and described accumulation of heat box is arranged on inside cabinet shell, is wrapped up by the second expanded material.

7. energy-accumulating refrigerator energy-storage method, is characterized in that, comprises the following steps:

A, to arrange at energy-accumulating refrigerator and be contained with the energy-storage box of accumulation of energy agent, and heat exchanger is located in energy-storage box;

B, when flow of refrigerant crosses heat exchanger, accumulation of energy agent absorbs cold and/or heat;

Absorption cold and/or heat pass through energy-storage box by C, accumulation of energy agent.

8. energy-accumulating refrigerator energy-storage method according to claim 7, is characterized in that,

Described steps A specifically comprises:

The first cold storage box being contained with the first agent for storage of coldness is set at energy-accumulating refrigerator, and refrigerator evaporator is located in the first cold storage box;

Described step B specifically comprises:

When cold-producing medium flows through refrigerator evaporator, the first agent for storage of coldness absorbs cold;

Described step C specifically comprises:

The cold of absorption is delivered to refrigerating chamber through the first cold storage box by the first agent for storage of coldness.

9. energy-accumulating refrigerator energy-storage method according to claim 7, is characterized in that,

Described steps A specifically comprises:

The second cold storage box being contained with the second agent for storage of coldness is set at energy-accumulating refrigerator, and freezer evaporator is located in the second cold storage box;

Described step B specifically comprises:

When cold-producing medium flows through freezer evaporator, the second agent for storage of coldness absorbs cold;

Described step C specifically comprises:

The cold of absorption is delivered to refrigerating chamber through the second cold storage box by the second agent for storage of coldness.

10. energy-accumulating refrigerator energy-storage method according to claim 8, is characterized in that,

Described steps A specifically comprises:

The accumulation of heat box being contained with heat-storage agent is set at energy-accumulating refrigerator, and condenser is located in accumulation of heat box;

Described step B specifically comprises:

When cold-producing medium flows through condenser, heat-storage agent absorbs heat;

Described step C specifically comprises:

The heat of absorption is delivered to through accumulation of heat box in the air outside refrigerator by heat-storage agent.