CN107636408A - Freezer - Google Patents

Abstract

The present invention provides a kind of freezer, freezer heat as caused by heater when the design temperature for switching storeroom switches to high temperature side from low temperature side is obstructed by air door, other storerooms will not be heated, the increase of power consumption can be suppressed, in the freezer (13) for possessing multiple switching storerooms (14,15,16), switching storeroom (14) design temperature from low temperature side switch to high temperature side when, switch storeroom (14) to be closed with air door (20), and the heating part (23) in switching storeroom (14) is worked.

Description

Freezer

Technical field

The present invention relates to the temperature of at least one storeroom can be switched into the cold of refrigerated storage temperature domain from cryogenic temperature domain Zang Ku.

Background technology

In the prior art, be set to only can be cold by the predetermined temperature field of each storeroom, refrigerating chamber for freezer Temperature adjustment is carried out in the range of jelly temperature field, refrigerating chamber can only carry out temperature adjustment in the range of refrigerated storage temperature domain.

But in recent years, due to variation of life style etc., the food materials of user's purchase are also diversified, think switching storage The temperature field for hiding room, the demand for changing the storage of desired temperature field in predetermined temperature field also uprise.

Therefore, exploitation have can by the temperature field of storeroom from cryogenic temperature domain switch to refrigerated storage temperature domain, from refrigeration temperature Degree domain switches to the freezer (referring for example to patent document 1) in cryogenic temperature domain.

Illustrate that existing freezer as described above illustrates referring to the drawings.

Fig. 4 represents the longitudinal section for illustrating the existing freezer 100 described in patent document 1.Fig. 5 is existing The front elevation on the switching chamber periphery of freezer 100.In figures 4 and 5, freezer 100 includes by compressor 102, condenser, subtracted The cooling system 104 that splenium and evaporator 103 are formed.In addition, freezer 100 includes refrigerating chamber 105, switching chamber 106, refrigerating chamber 107 and vegetable compartment 108, the opening portion on the preceding surface of each room it is closed by door 105a, 106a, 107a, 108a to be opened/closed.

Evaporator 103 is accommodated in the cooling chamber 109 at the back side of refrigerating chamber 107.The top of evaporator 103 is provided with cooling Fan 110, make to circulate in storehouse in the cold air that evaporator 103 generates.

In addition, at the back side of switching chamber 106, it is provided with and the cold air circulated by cooling fan 110 is imported and obstructed in cutting The switching air door 111 changed in room 106.Having heaters 112 is set in the bottom surface of switching chamber 106, to being heated in switching chamber 106.

When freezer 100 operates, circulated in the cold air that evaporator 103 generates by cooling fan 110 in storehouse, each storage Room is maintained at defined temperature.

Now, in order to maintain design temperature in switching chamber 106, switching air door 111 is opened and closed, and controls cold air to switching chamber Blowing in 106.

Herein, when switching chamber 106 is changed to refrigeration setting from freezing setting, heater 112 is powered, to switching chamber Heated in 106, thus, it is possible to rapidly make switching chamber 106 turn into refrigerated storage temperature domain, the product of preserved food products etc. can be kept Matter.

But in above-mentioned existing structure, in the case of switching air door when being powered to heater as open mode, The heat that heater be present flows to other storerooms through air door, turns into heat load so that what the power consumption of freezer uprised asks Topic.

In addition, because heater only heats to the wall of bottom surface, switching chamber is heated by free convection, so depositing Overheated in only bottom surface, and the problem of central temperature is not easy to rise to target temperature.

Prior art literature

Patent document

Patent document 1：No. 3361038 publications of Japanese Patent Publication No.

The content of the invention

The present invention is in view of existing issue as described above and the invention completed, an example of embodiments of the present invention Freezer include being separated to form with thermal wall storeroom, store the cooling chamber of cooler, blow from cooling chamber to storeroom The cooling fan of cold air and the multiple air doors for being arranged on the discharge wind path that storeroom is communicated to from cooling chamber.In addition, the present invention The storeroom of the freezer of one example of embodiment has can be by the open and close controlling of multiple air doors come in switching chamber The switching storeroom of temperature.In addition, setting temperature of the freezer of an example of embodiments of the present invention in switching storeroom Degree from low temperature side switch to high temperature side when, switching storeroom air door is closed by control unit, and made in switching storeroom Heating part works.

According to such structure, heat is obstructed by air door as caused by heater, and other storerooms will not be heated, and can be pressed down The increase of power consumption processed.

In addition, the freezer of an example of embodiments of the present invention can also switching storeroom design temperature from When low temperature side switches to high temperature side, the air door switched beyond storeroom is closed by control unit, opens switching storeroom air door, Heating part and cooling fan is set to work.

According to such structure, it can raise the temperature of rapidly switching chamber, the freshness of repertory can be prevented Deterioration.

Brief description of the drawings

Fig. 1 is the longitudinal section of the freezer of embodiments of the present invention 1 and embodiment 2.

Fig. 2 is the flow chart of the action for the freezer for illustrating embodiments of the present invention 1.

Fig. 3 is the flow chart of the action for the freezer for illustrating embodiments of the present invention 2.

Fig. 4 is the longitudinal section of existing freezer.

Fig. 5 is the front elevation near the switching chamber of existing freezer.

Embodiment

Below, embodiments of the present invention are described with reference to.In addition, the present invention is not limited to the embodiment.

(embodiment 1)

Fig. 1 is the longitudinal section of the freezer of embodiments of the present invention 1.Fig. 2 represents embodiments of the present invention 1 The flow chart of the action of freezer.

In Fig. 1, freezer 13 includes the cooling system 4 being made up of compressor 2, condenser, relief portion and evaporator 3. (below, sometimes will in addition, freezer 13 includes refrigerating chamber 5, the first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16 First switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16 collectively referred to as switch storeroom 14,15,16), before each room Opening portion is configured with door 5a, 14a, 15a, 16a to be opened/closed.

Evaporator 3 is in the rear of the second switching chamber 15, storage and the 15 interior cooling by the heat rejection of thermal wall 17 of the second switching chamber In room 18.Cooling fan 10 is configured with the top of evaporator 3, makes to exist in the cold air that evaporator 3 generates by cooling fan 10 Circulated in storehouse.

In addition, in each storeroom of refrigerating chamber 5, the first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16, difference It is configured with the switching of refrigerating chamber air door 19, first for the cold air circulated by cooling fan 10 being imported and being obstructed in each storeroom Air door 20, second switches air door 21 and the 3rd and switches air door 22.In addition, in the first switching chamber 14, the second switching chamber 15 and the 3rd Bottom surface in each storeroom of switching chamber 16, primary heater 23, the heater 25 of secondary heater 24 and the 3rd are each configured with, The first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16 are heated respectively.

Further, in order to control refrigerating chamber 5, the first switching chamber 14, the second switching chamber 15 and the temperature of the 3rd switching chamber 16, Refrigerating chamber 5, the first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16 be each configured with refrigerating chamber thermistor 26, First thermistor 27, the second thermistor 28 and the 3rd thermistor 29.

Illustrate its action and effect to the freezer formed as described above below.

When freezer 13 operates, circulated in the cold air that evaporator 3 generates by cooling fan 10 in storehouse, each storeroom It is maintained at defined temperature.

Now, the first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16 can pass through the first switching air door 20, the The opening and closing of two switching air doors 21 and the 3rd switching air door 22 and be respectively maintained at the cryogenic temperature domain before and after minus 20 degrees to before 5 degree Refrigerated storage temperature domain afterwards.

Then, the flow chart based on Fig. 2 illustrates the setting of the first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16 Temperature is switched to the action during temperature higher than the temperature at the moment.

Herein, the explanation of the switching control of the first switching chamber 14 is only limitted to for the purpose of simplifying the description, but in the first switching Room 14, the second switching chamber 15 and the 3rd switching chamber 16 can obtain same effect with same action.

When the design temperature of the first switching chamber 14 is switched to temperature (the being denoted as Current Temperatures in fig. 2) height than the moment Temperature (S1, S2) when, by control unit, close the first switching air door 20 (S3) first, and primary heater 23 is powered, it is right Heating (S4) in first switching chamber 14.

When the temperature (being denoted as detection temperature in fig. 2) for detecting the first thermistor 27 turns into some more than fixed value T1 (S5), by control unit, the energization (S6) to primary heater 23 is obstructed, the first switching air door 20 is generally controlled (S7)。

Thereby, it is possible to make the temperature of the first switching chamber 14 rapidly rise to target temperature using primary heater 23, and And the first switching air door 20 is closed, thus, the warm air of the first switching chamber 14 will not flow to other storerooms, freezer 13 Heat load will not increase.

In addition, in the present embodiment, T1 can enter according to design temperature of external air temperature and other storerooms etc. Row changes.For example, can by the design temperature of external air temperature and other storerooms it is higher just T1 is set as it is lower The temperature control for being worth and being stablized.

In addition, in the present embodiment, the structure at the rear of the second switching chamber 15, Bu Guozheng are configured exemplified with evaporator 3 The position of hair device 3 is in any storeroom rear.In addition, by the way that evaporator 3 is accommodated in 1 storeroom, there is letter Change pipeline, increase the advantages of storing internal volume.

In addition, there are this 3 switching storages of the first switching chamber to the 3rd switching chamber exemplified with freezer in the present embodiment The example of room is hidden, it should be clear that as long as there is more than Room 1 can just obtaining same effect.

In addition, in the present embodiment, it is respectively configured with primary heater 23, the heater 25 of secondary heater 24 and the 3rd It is illustrated exemplified by the structure of the bottom surface of the first switching chamber 14, the second switching chamber 15 and the 3rd switching chamber 16, but also may be used To configure in side wall or top surface etc..In addition, though by that can accelerate to rise in the additional configuration heater such as side wall or top surface Warm speed, but power consumption uprises.

In addition, in the present embodiment, by the surface configuration secondary heater 24 of thermal wall 17, in the second switching chamber 15 When carrying out refrigerated storage temperature setting, can utilize secondary heater 24 suppress in the second switching chamber 15 by from cooling chamber 18 through thermal wall 17 coolings, therefore the thickness of thin of thermal wall 17 can be made, the storage of the second switching chamber 15 can be made to become big.

(embodiment 2)

Then, the freezer of embodiments of the present invention 2 is illustrated.

Fig. 3 is the flow chart of the action for the freezer for representing embodiments of the present invention 2.

It is higher than the temperature at the moment that flow chart based on Fig. 3 illustrates that the design temperature for switching storeroom 14,15,16 switches to Temperature when action.

Herein, the explanation of the switching control of the first switching chamber 14 is only limitted to for the purpose of simplifying the description, but in the first switching Any switching storeroom of room 14, the second switching chamber 15 and the 3rd switching chamber 16 can obtain same effect with same action Fruit.

When the design temperature of the first switching chamber 14 is switched to temperature (the being denoted as Current Temperatures in figure 3) height than the moment Temperature (S11, S12) when, by control unit, close refrigerating chamber air door 19, second first and switch switching air door 21 and the 3rd and cut Air door 22 is changed, opens the first switching air door 20 (S13).In addition, primary heater 23 is powered (S14), operate cooling fan 10 (S15)。

When the temperature (being denoted as detection temperature in figure 3) for detecting the first thermistor 27 turns into some more than fixed value T1 (S16), by control unit, the energization (S17) to primary heater 23, various air doors and cooling fan 10 is cut off and is carried out generally Control (S18).

Thereby, it is possible to make the temperature of the first switching chamber 14 rapidly rise to target temperature using primary heater 23, and And close refrigerating chamber air door 19, second and switch switching air door 21 and the 3rd and switch air door 22, thus, the first switching chamber 14 it is warm Air will not flow to other storerooms, the heat load of freezer 13 will not increase.

In addition, the action of embodiment 1 and embodiment 2 can also be with the operating condition of compressor 2 accordingly based upon feelings Condition is carried out.That is, in being to operate in compressor 2 in the case of (evaporator 3 is in cooling), implement the action of embodiment 1, pressing Contracting machine 2 is in stopping in the case of (evaporator 3 for non-cooled in), implements the action of embodiment 2, thus, it is possible to efficiently The temperature of the first switching chamber 14 is set to increase.

Further, can also be using the Defrost heater configured near evaporator 3, in the temperature for making the first switching chamber 14 Rise.

As described above, the freezer of an example of embodiments of the present invention includes separating shape with thermal wall Into storeroom, store the cooling chamber of cooler, from cooling chamber to the cooling fan of storeroom blowing cooling air and be arranged on from cold But room is communicated to multiple air doors of the discharge wind path of storeroom.Storeroom has and can cut by the open and close controlling of multiple air doors Change the switching storeroom of the temperature of interior.When the design temperature for switching storeroom switches to high temperature side from low temperature side, closing is cut Storeroom air door is changed, and the heating part in switching storeroom is worked.According to such structure, other storerooms will not be by Make the heat heating of the heater of switching chamber heating, the low freezer of power consumption can be obtained.

In addition, the freezer of an example of embodiments of the present invention switching storeroom design temperature from low temperature side The air door closed when switching to high temperature side beyond switching storeroom, switching storeroom air door is opened, make heating part and cooling wind Fan work.According to such structure, the heat of heater can be made to store indoor circulation in desired switching by cooling fan, The temperature of desired switching storeroom can be made rapidly to raise, freshness high freezer can be obtained.

Industrial applicability

As described above, the present invention provides can not make other storages when the temperature for switching storeroom switches to high temperature from low temperature Hiding the heat load increase ground of room makes switching storeroom rapidly heat up, improves the freezer of heat-proof quality.Thereby, it is possible to can be wide The freezer and other all refrigerating equipments for being applied to there is the storeroom of the temperature in switching chamber generally.

Description of reference numerals

3 evaporators

5 refrigerating chambers

5a doors

10 cooling fans

13 freezers

14 first switching chambers

14a, 15a, 16a door

15 second switching chambers

16 the 3rd switching chambers

17 thermal walls

18 cooling chambers

19 refrigerating chamber air doors

20 first switching air doors

21 second switching air doors

22 the 3rd switching air doors

23 primary heaters

24 secondary heaters

25 the 3rd heaters

26 refrigerating chamber thermistors

27 first thermistors

28 second thermistors

29 the 3rd thermistors.

Claims (2)

1. A kind of 1. freezer, it is characterised in that including：

   The storeroom being separated to form with thermal wall；

   Store the cooling chamber of cooler；

   From the cooling chamber to the cooling fan of the storeroom blowing cooling air；With

   The multiple air doors for the discharge wind path that the storeroom is communicated to from the cooling chamber are arranged on,

   The storeroom have can by the open and close controlling of the multiple air door come the switching storeroom of the temperature in switching chamber,

   When the design temperature of the switching storeroom switches to high temperature side from low temperature side, close described in the multiple air door Switch the air door of storeroom, and make the heating part work in the switching storeroom.
2. A kind of 2. freezer, it is characterised in that including：

   The storeroom being separated to form with thermal wall；

   Store the cooling chamber of cooler；

   From the cooling chamber to the cooling fan of the storeroom blowing cooling air；With

   The multiple air doors for the discharge wind path that the storeroom is communicated to from the cooling chamber are arranged on,

   The storeroom have can by the open and close controlling of the multiple air door come the switching storeroom of the temperature in switching chamber,

   When the design temperature of the switching storeroom switches to high temperature side from low temperature side, close described in the multiple air door Switch the air door beyond storeroom, and open the air door of the switching storeroom, make the heating part and described cold But fan work.