CN1880892A

CN1880892A - Evaporator layout structure of refrigerator

Info

Publication number: CN1880892A
Application number: CNA2006100928580A
Authority: CN
Inventors: 南在郁
Original assignee: WiniaMando Inc
Current assignee: WiniaDimchae Co Ltd
Priority date: 2005-06-17
Filing date: 2006-06-16
Publication date: 2006-12-20
Anticipated expiration: 2026-06-16
Also published as: KR100660099B1; CN100412477C

Abstract

The layout structure of evaporator for kraut refrigerator is provided, and the evaporator is one symmetrical structure around the store chamber and thus can reduce the temperature difference inside the store chamber. The layout structure of the evaporator includes one main body to form the casing, at least one store chamber symmetrically on two sides of the main body, and one evaporator comprising the multiple turn refrigerant pipe wound around the store chamber to provide cold air. When the refrigerant pipes are wound onto the store chamber in constant interval onto the store chamber to form the evaporator during manufacture, they have opposite winding directions on the right and the left store chambers.

Description

The evaporator layout structure of refrigerator

Technical field

The present invention relates to be used for the evaporator layout structure of refrigerator of the pickles of one of Korean traditional fermented food, be particularly related to the evaporator layout structure of kimchi refrigerator, in this kimchi refrigerator, when the refrigerant pipe that will constitute evaporimeter on the production line of making refrigerator is wrapped in the storeroom periphery, the winding direction of refrigerant pipe on the storeroom of the left and right sides is opposite each other, and when a plurality of storerooms that corresponding evaporator is installed are assembled and are arranged in the main body, the refrigerant inlet of corresponding a plurality of evaporimeters and refrigerant outlet are all with in the symmetrical structure setting that faces with each other between described a plurality of storerooms of main body center side, thereby when controlling the temperature of described a plurality of storerooms under the same conditions, can reduce the temperature deviation between each storeroom.

Background technology

Generally speaking, kimchi refrigerator is a kind of household electrical appliance, and it comprises: slaking heater (matureheater) is used to make the pickles slaking of being stored; Refrigeration system is carried out refrigerating function, and the pickles of slaking remain on low-temperature condition to be used for inciting somebody to action when the preservation pickles, so that keep the taste and the freshness of pickles for a long time; And temperature control system, can control suitable storage temperature.

As mentioned above, place in pickle jar that pickles are packed into and with pickle jar under the state in the storeroom, kimchi refrigerator can utilize refrigeration system to come the long-term storage pickles to keep the freshness of pickles.In addition,, use the slaking heater to make suitably slaking of pickles, hold it in then under the suitable temperature according to user's taste.Thereby the taste of the good pickles of slaking can keep at low temperatures for a long time.

Therefore, kimchi refrigerator be can keep the desirable pickles taste of user and freshness for a long time and with the irrelevant household electrical appliance of seasonal variations.

Therefore, the housewifves that endure the hardship that is difficult to the long-term storage pickles to the fullest extent favor recently gradually in using kimchi refrigerator.

Below, being constructed as follows of traditional kimchi refrigerator described with reference to the accompanying drawings.

Fig. 1 is the schematic diagram that the outward appearance of traditional pickles (pickles are one of Korean traditional fermented foods) refrigerator is shown.Fig. 2 is the profile that the internal structure of traditional kimchi refrigerator is shown.

Referring to Fig. 1 and Fig. 2, traditional kimchi refrigerator comprises the main body 10 that constitutes outward appearance, is positioned at the door 30 that main body 10 inside are used to store at least one storeroom 20 of pickles and are used for each storeroom 20 of switch.

Here, door 30 is hinged with the hinge 11 of the back upper end of main body 10, thereby when the handle of holding door 30 as the user promoted then and depresses, door 30 can upwards be opened and close downwards with respect to the upside of storeroom 20.

In addition,, mark off machine chamber 50 separately, the draft fan 51 that the heat that is provided with the condenser 70 of the compressor 60 that is used for kind of refrigeration cycle in this machine chamber 50 and is used to make condenser 70 to produce is cooled off in the bottom of storeroom 20.

And, the evaporimeter 80 of following structure is set in the periphery of each storeroom 20, that is, be used for providing the refrigerant pipe 21 of cold air to be wrapped in each storeroom 20 periphery to storeroom with constant interval by contact.Be wrapped in each storeroom 20 outer each evaporimeter 80 of placing and be connected to compressor 60 and condenser 70 in the machine chamber 50 by coolant conduits 61, thus circulating refrigerant.

Certainly, in the coolant conduits 61 that the inlet with the outlet of condenser 70 and evaporimeter 80 is connected, be provided with the very narrow capillary of refrigerant flow path 90, thereby cold-producing medium can evaporation reposefully in evaporimeter 80.

As mentioned above, kimchi refrigerator is equipped with the refrigeration system with the coolant conduits 61 that forms closed loop, to carry out refrigerating function at the cold-producing medium circulation time by compressor 60, condenser 70, capillary 90 and evaporimeter 80.

Have at aforesaid kimchi refrigerator under the situation of a plurality of storerooms 20, control providing to the cold air of each storeroom 20 by refrigeration system.For this purpose, the place that is branched off into each evaporimeter 80 at coolant conduits 61 is provided with magnetic valve 52, cold-producing medium is offered reposefully each evaporimeter 80, wherein, the flow velocity that offers the cold-producing medium of each evaporimeter 80 is controlled as and controls each storeroom 20 independently.

Here, magnetic valve 52 is an electronic valve, and it belongs to a kind of switch valve, and it can keep cold-producing medium stream and isolate cold-producing medium stream under closure state under open mode.

And the downside that is wrapped in each storeroom 20 outer each evaporimeter 80 of placing is provided with slaking heater 22.Therefore, when the pickles in the storeroom 20 need maturation process, predetermined heating-up temperature is provided for storeroom 20.For this purpose, the temperature sensor 23 that is used for detecting the temperature in the storeroom 20 is installed on evaporimeter 80.

In addition, as shown in Figure 1, front side, top in main body 10 is provided with display operation unit 40, and it has the permission user and selects a plurality of buttons of slaking state, refrigerating state and temperature conditions according to the pickles kind of storage in the storeroom 20, and can show the mode of operation of selected kimchi refrigerator.

Therefore, by the display operation unit 40 of operation setting in main body 10 front portions, the user can control all operations of kimchi refrigerator.

Have in the pickle jar (not shown) of traditional kimchi refrigerator with the separation of Korean kimchee storage in storeroom 20 of above-mentioned structure, make pickles slaking and long preservation pickles by the temperature in the control storage chamber 20 then.

Here, come temperature in the control storage chamber 20, control refrigeration system by control program default in the microprocessor (not shown) that is connected to display operation unit 40 by cold air is provided.

Meanwhile, Fig. 3 is a stereogram, and it is illustrated in the pipe winding arrangement of the refrigerant pipe that is arranged on the peripheral evaporimeter that constitutes of storeroom in the conventional refrigerator, and Fig. 4 is front view, and it illustrates the pipe winding arrangement according to the refrigerant pipe shown in Figure 3 of prior art.

Here, referring to Fig. 3 and Fig. 4, the pipe winding arrangement that will describe refrigerant pipe 21 (it forms the evaporimeter 80 around traditional storeroom 20) is as follows.During making refrigerator, on production line, refrigerant pipe 21 is wrapped in the outer of each storeroom 20 and places.In the case, refrigerant pipe 21 twines with constant interval toward the lower end from the upper end of storeroom 20 with respect to the periphery of each storeroom 20, and twines downwards with equidirectional in the periphery of each storeroom 20.Meanwhile, refrigerant pipe 21 with

refrigerant inlet

81 and 82 and refrigerant outlet 83 and 84 twine in the mode of a side coplane of storeroom 20; Wherein, the cold-producing medium of evaporimeter 80 enters by

refrigerant inlet

81 and 82, and the cold-producing medium of evaporimeter 80 comes out by refrigerant outlet 83 and 84.

As mentioned above, when on production line, refrigerant pipe 21 being wrapped in storeroom 20 peripheral according to prior art, refrigerant pipe 21 usually with identical single direction be wrapped in the outer of each storeroom 20 and place.

In this way, the refrigerant pipe 21 of each traditional storeroom 20 is wrapped in the outer of each storeroom 20 with an identical direction and places, thereby with so that the refrigerant inlet 81 that the cold-producing medium of evaporimeter 80 enters and 82 and with so that refrigerant outlet 83 that the cold-producing medium of evaporimeter 80 comes out and the 84 side coplanes at storeroom 20.Thereby, because the pipe winding arrangement of aforesaid refrigerant pipe 21, two left and right sides of storeroom 20 in main body 10 be arranged in parallel and assemble, the refrigerant inlet 81 that centers on the evaporimeter 80 of left side storeroom 20 is positioned at towards the inboard of main body 10 center side, and the refrigerant inlet 82 that centers on the evaporimeter 80 of right side storeroom 20 then is positioned at the position (referring to Fig. 3 and Fig. 4) of more close main body 10 peripheries.

In this way, flowing has a Ce that is positioned at main body 10 in the

refrigerant inlet

81 and 82 of each evaporimeter 80 of the cold-producing medium of cold state, and another then is positioned at the position of more close main body 10 peripheries.Thereby, compare with the refrigerant inlet 81 that is positioned at main body 10 Ces of evaporimeter 80, evaporimeter 80 refrigerant inlets 82 (it is positioned near main body 10 peripheral position) that are used for right side storeroom 20 will be difficult to be subjected to from the main body 10 peripheral influences that pass the temperature effect of the external temperature of coming with avoiding.

At last, by under identical temperature conditions and identical refrigerant amount, providing cold air, control the temperature of each storeroom 20.In the case, owing to act on the influence of the

refrigerant inlet

81 and 82 the external temperature of each evaporimeter 80, between two storerooms 20 temperature deviation of cryogenic temperature will take place inevitably.

In addition,, require kimchi refrigerator can accurately control temperature, to keep the intrinsic taste and the long preservation pickles of pickles because pickles are very responsive to variations in temperature.Thereby from the temperature control reliability of product, afore-mentioned is undesirable.Therefore, can accurately control the product performance of temperature, need improve when controlling temperature under the same conditions the properties of product that the cryogenic temperature deviation takes place between two storerooms 20 from requiring kimchi refrigerator.

And the refrigerant outlet 83 and 84 of each evaporimeter 80 is connected to the coolant conduits 61 that leads to compressor 60.At this moment, join at the Ce of main body 10 from each storeroom 20 branch and the refrigerant outlet 83 and 84 that is wrapped in each evaporimeter 80 in the kimchi refrigerator.Then, the refrigerant outlet 83 and 84 of junction is merged into a coolant conduits 61, is connected to compressor 60 then.As a result, distribute and the cold-producing medium that offers each evaporimeter 80 is merged, introduce compressor 60 then.

But, as shown in Figure 3 and Figure 4, according to the coolant conduits layout structure of aforesaid kimchi refrigerator, for the refrigerant outlet 83 of the evaporimeter 80 of left side storeroom 20, refrigerant pipe 21 sharply extends downwards, is connected to the coolant conduits 61 of compressor 60 then.Simultaneously, for the refrigerant outlet 84 of the evaporimeter 80 of right side storeroom 20, refrigerant pipe 21 sharply extends downwards, crookedly then once and along the basal surface of storeroom 20 extends, and is connected to the coolant conduits 61 of compressor 60 at last.

Therefore as seen, the length of described refrigerant pipe 21 or be connected to the length of coolant conduits 61 of compressor 60 from the refrigerant outlet 83 and 84 of each evaporimeter 80 (twining each storeroom 20) different.

As mentioned above, the total length of the refrigerant pipe 21 of storeroom 20 and right side storeroom 20 though control temperature under identical condition, offers the still obvious inevitably difference of cold-producing medium supply of each evaporimeter 80 not simultaneously on the left of twining respectively.As a result, just produce when the refrigerant amount that provides in this way changes the problem that the drive condition of kimchi refrigerator also changes.

And, when on production line, being wrapped in refrigerant pipe 21 on each storeroom 20, mode is distinguished and is arranged on left side storeroom 20 and right side storeroom 20 as described above, described thus refrigerant pipe 21 or described coolant conduits 61 will be wound in unsymmetric structure, i.e. the total length of refrigerant pipe 21 or from each refrigerant outlet 83 and 84 different to the total length of the coolant conduits 61 of compressor 60.Thereby, reduced machinability.

Summary of the invention

For solving the problems referred to above of conventional art, the objective of the invention is to propose a kind of like this evaporator layout structure of kimchi refrigerator, wherein when a plurality of storerooms that corresponding evaporator is installed are assembled and are arranged in the main body, the refrigerant inlet of corresponding a plurality of evaporimeters and refrigerant outlet are all with in the symmetrical structure setting that faces with each other between a plurality of storerooms of main body center side, thereby when controlling the temperature of corresponding evaporator of a plurality of storerooms under the same conditions, because each evaporimeter is subjected to the same affect of outside air, can reduce the temperature deviation between each storeroom, improved the machinability of producing product, i.e. productivity ratio.

For realizing purpose of the present invention, a kind of evaporator layout structure of kimchi refrigerator is provided, comprising: main body, it forms shell; At least one storeroom, described at least one storeroom relatively is formed on the left and right sides of main body; And evaporimeter, it is formed by the multi-turn refrigerant pipe on the outer wall that is wrapped in storeroom with constant interval, so that cold air to be provided; Wherein: peripheral and when constituting evaporimeter, the winding direction of described refrigerant pipe on left storeroom that places the main body left and right sides and right storeroom is opposite each other when on making the production line of refrigerator, refrigerant pipe being wrapped in described storeroom; And when the assembling of a plurality of storerooms and when being arranged in this main body, the refrigerant inlet of corresponding a plurality of evaporimeters and refrigerant outlet are all with in the symmetrical structure setting that faces with each other between described a plurality of storerooms of main body center side.

And as mentioned above, when the refrigerant inlet of corresponding a plurality of evaporimeters and refrigerant outlet all with when the symmetrical structure that faces with each other between described a plurality of storerooms of main body center side is provided with, the diameter that is wrapped in the refrigerant pipe on this left side storeroom and this right side storeroom is different, and offer the cold-producing medium supply difference of each refrigerant pipe, thereby allow left side storeroom and right side storeroom to control temperature discriminatively.

Description of drawings

Describe the preferred embodiments of the present invention in detail by the reference accompanying drawing, above and other objects of the present invention, advantage will be more apparent, and accompanying drawing comprises:

Fig. 1 is the schematic diagram that the outward appearance of traditional pickles (pickles are one of Korean traditional fermented foods) refrigerator is shown;

Fig. 2 is the profile that the internal structure of traditional kimchi refrigerator is shown;

Fig. 3 is a stereogram, and it is illustrated in the pipe winding arrangement of the refrigerant pipe of the formation evaporimeter that is arranged on the storeroom periphery in the conventional refrigerator;

Fig. 4 is a front view, and it illustrates the pipe winding arrangement according to the refrigerant pipe shown in Figure 3 of prior art;

Fig. 5 is the profile that illustrates according to the internal structure of kimchi refrigerator of the present invention;

Fig. 6 is a stereogram, and it is illustrated in according to the pipe winding arrangement as the refrigerant pipe of evaporimeter that is arranged on the storeroom periphery in the kimchi refrigerator of the present invention; And

Fig. 7 is a front view, and it illustrates the pipe winding arrangement according to refrigerant pipe shown in Figure 6 of the present invention.

The specific embodiment

The evaporator layout structure of kimchi refrigerator is described with reference to the accompanying drawings according to the preferred embodiment of the invention.

Fig. 5 is the profile that illustrates according to the internal structure of kimchi refrigerator of the present invention.Fig. 6 is a stereogram, and it is illustrated in the pipe winding arrangement according to the refrigerant pipe that is arranged on the peripheral evaporimeter that constitutes of storeroom in the kimchi refrigerator of the present invention.Fig. 7 is a front view, and it illustrates the pipe winding arrangement according to refrigerant pipe shown in Figure 6 of the present invention.

Here, because the ordinary construction of kimchi refrigerator in the conventional art has been shown, therefore will omit its detailed description.If necessary, also can structure according to kimchi refrigerator of the present invention be described with reference to the described technology contents of conventional art and relevant drawings.

, use kimchi refrigerator of the present invention and comprise to shown in Figure 7 as Fig. 5: main body 100 constitutes shell; A plurality of

storerooms

200 and 210, the left and right sides that is arranged on main body 100 is used to store pickles etc. to face with each other; Door 300, each

storeroom

200 or 210 of energy switch; And evaporimeter 400, form by the multi-turn refrigerant pipe 410 that is wrapped in each

storeroom

200 or 210 peripheries with constant interval.

Extremely shown in Figure 7 as Fig. 5, having as mentioned above, the evaporator layout structure according to kimchi refrigerator of the present invention of structure is characterised in that to have symmetrical structure, the refrigerant inlet 411,412 of described evaporimeter 400 and refrigerant outlet 413,414 are wrapped in a plurality of storerooms 200 and 210 (described

storeroom

200 and 210 is assembled in the left and right sides in the main body 100 to face with each other), and are arranged between the

storeroom

200 and 210 of main body 100 center side to face with each other.

That is to say, in the present invention, the refrigerant inlet that is in cold state 411 of refrigerant pipe 410 (being configured on the

storeroom

200 and 210 of the left and right sides that is arranged at main body 100 respectively) and 412 and the

refrigerant outlet

413 and 414 that is in the high temperature attitude all be configured in the center side of kimchi refrigerator.Evaporator layout structure according to the present invention is subjected to the same affect of the outside air that transmits from main body 100 outsides.

The winding arrangement that only needs to change the refrigerant pipe 410 of

traditional storeroom

200 and 210 on production line just can be realized according to evaporator layout structure of the present invention.That is to say, in the present invention, only need the winding of a direction of the refrigerant pipe 410 in change

traditional storeroom

200 and 210.

That is to say, in the present invention, on production line, when the refrigerant pipe 410 that forms evaporimeter 400 on each

storeroom

200 or 210 is wrapped in each

storeroom

200 or 210 peripheral, for left storeroom 200 and right storeroom 210, winding direction should be along opposite reverse design with different.

As mentioned above, be wrapped in the periphery of each

storeroom

200 or 210 at refrigerant pipe 410 after, the temperature sensor 500 that is used for measuring the temperature of each storeroom 200 in the kimchi refrigerator or 210 is installed in the temperature of the outside of refrigerant pipe 410 with

control storage chamber

200 or 210, and is used for to each

storeroom

200 or 210 defrostings and makes the heater wire 600 of pickles slaking be wrapped in the bottom of each

storeroom

200 or 210.

In this way, when on production line when being in each

storeroom

200 or 210 that left and right sides faces with each other and twining with different winding directions, the refrigerant inlet that is in cold state 411 of

refrigerant pipe

410 and 412 can be arranged under the identical situation of the total length of refrigerant pipe 410 with the refrigerant outlet 413 that is in the high temperature attitude and 414 and to face with each other.

As shown in Figure 5, the

refrigerant inlet

411 and 412 of each refrigerant pipe 410 (around each storeroom 200 or 210) is positioned at the central authorities of main body 100, thereby still less is subjected to the influence of ambient temperature.And because

refrigerant inlet

411 and 412 is positioned at apart from the peripheral identical distances of main body 100, and

refrigerant inlet

411 and 412 is subjected to the influence of outside air under the same conditions, therefore can keep the identical temperature conditions of surrounding environment.

According to evaporator layout structure of the present invention, when attempting under the uniform temp condition control and be arranged on the temperature of main body 100 left and right sides, the storeroom 200 that faces with each other and 210, offering storeroom 200 can be consistent with 210 cold-producing medium supply, and the same affect of the temperature effect that the refrigerant inlet 411 of

evaporimeter

400 and 412 can hard to bear outside air.Therefore, can as one man carry out the temperature control of evaporimeter 400 under the same conditions.As a result, carry out under the same conditions under the temperature controlled situation, can reduce the deviation of the cryogenic temperature between left side storeroom 200 and the right side storeroom 210 most possibly.

Meanwhile, as mentioned above, in the present invention, the length that is wrapped in the refrigerant pipe 410 on left side storeroom 200 and the right side storeroom 210 is identical.Therefore, the present invention can solve in the conventional art since between two

storerooms

200 and 210 length of the length of refrigerant pipe 21 or coolant conduits 61 (from the refrigerant outlet 83 or 84 of each evaporimeter 80 to the compressor 60) problem that the machinability that causes reduces that differs from one another.

That is to say, in the present invention, can to form ground identical for the length of (from the

refrigerant outlet

413 or 414 of each evaporimeter 400 to compressor 700) because the length of refrigerant pipe 410 or coolant conduits 710, therefore compare with conventional art, the connection task of coolant conduits 710 can be finished at an easy rate.

Particularly, under the situation of aforesaid evaporator layout structure of the present invention, the evaporimeter 400 on left side and right side can minimize the temperature effect of the evaporimeter 400 that causes because of main body 100, even and under the situation that external environment changes, also can keep the same terms.Therefore, the diameter that is wrapped in the refrigerant pipe on left side storeroom 200 and the right side storeroom 210 is provided with differently, and the cold-producing medium supply that offers each evaporimeter 400 is provided with differently, thereby allows the storeroom difference on left side and right side to control temperature.

According to the evaporator layout structure of kimchi refrigerator of the present invention, center on the layout left-right symmetry of storeroom evaporator refrigerant pipe respectively.Therefore, when each evaporimeter of left side storeroom and right side storeroom was Controllable Temperature, externally air effect was carried out temperature control under the same terms on the main body.As a result, deviation can not take place in the cryogenic temperature in each storeroom.

And because the identical and left-right symmetry of length of refrigerant pipe is compared with conventional art, the machinability of the connection of refrigerant pipe is fairly good when producing product.

As mentioned above, the present invention has used preferred embodiment to describe.Yet the present invention is not limited to the foregoing description, for the ordinary skill in the art, can make various modifications and variations under the premise of without departing from the spirit of the present invention.Therefore, protection scope of the present invention is not to be limited in its detailed description, but is limited by claim of enclosing and technical spirit of the present invention.

Claims

1. the evaporator layout structure of a kimchi refrigerator comprises:

Main body, it forms shell;

At least one storeroom, described at least one storeroom relatively is formed on the left and right sides of this main body; And

Evaporimeter, it is formed by the multi-turn refrigerant pipe on the outer wall that is wrapped in described storeroom with constant interval, so that cold air to be provided;

Wherein:

Peripheral and when constituting evaporimeter, the winding direction of described refrigerant pipe on left side storeroom that places this main body left and right sides and right side storeroom is opposite each other when on making the production line of refrigerator, this refrigerant pipe being wrapped in described storeroom; And

When the assembling of a plurality of storerooms and when being arranged in this main body, the refrigerant inlet of corresponding a plurality of evaporimeters and refrigerant outlet are all with in the symmetrical structure setting that faces with each other between described a plurality of storerooms of the center side of this main body.

2. the evaporator layout structure of kimchi refrigerator as claimed in claim 1, wherein, when the refrigerant inlet of corresponding a plurality of evaporimeters and refrigerant outlet all with when the symmetrical structure that faces with each other between described a plurality of storerooms of the center side of this main body is provided with, the diameter that is wrapped in the refrigerant pipe on this left side storeroom and this right side storeroom is different, and offer the cold-producing medium supply difference of each refrigerant pipe, thereby allow this left side storeroom and this right side storeroom to control temperature distinctively.