CN101963438A - Cooling part and refrigeration equipment with same - Google Patents

Abstract

The invention discloses a cooling part, comprising a shell which is limited with a cavity; a water inlet and a water outlet communicated with the cavity are formed on the shell; the shell is internally provided with a separation piece which is used for ensuring that the water entering into the cavity from the water inlet flows into the water outlet along a curve path in the cavity. As a flow path formed by a plurality of clapboards is arranged in the cooling part, the cooling time of the unit water volume is increased, thus ensuring that the unit water volume flows through the flow path and gradually decreases to the ice water temperature; and additionally, coolant is utilized to ensure that the refrigeration equipment can continuously provide cooling in the running clearance of a refrigerator, thus the water can achieve rapidly cooling effect; and users can take and use the ice water in any volume at any time, which is simple and convenient. In addition, the invention also discloses refrigeration equipment with the cooling part.

Description

Cooling-part and have its refrigeration plant

Technical field

The present invention relates to refrigeration plant design and manufacturing technology field, particularly a kind of cooling-part and have its refrigeration plant.

Background technology

Along with the raising of people's living standard, refrigeration plants such as refrigerator have become the necessity of people's daily life.In real life, people are except paying close attention to the refrigerating function of refrigeration plant such as refrigerator, and other functions of refrigerator have also been had more requirements.For instance, refrigerator provides drinkable frozen water.Refrigerator in the market provides frozen water by the configuration drinking device.Drinking device is an interior little water tank of refrigerating chamber that is placed on refrigerator, by a period of time refrigerating chamber water temperature is reduced, thereby provides frozen water to the user.The temperature of utilizing the drinkable frozen water that above-mentioned drinking device provides for the 0-5 degree about.

But there are the following problems for the drinking device of existing refrigerator: owing to be used to place the restriction in water tank space in the refrigerator, water tank volume is very little, and the water cooling that newly enters in the water tank needs one period long period.When continuous use, can't continue to provide frozen water.

Summary of the invention

Purpose of the present invention is intended to solve at least one of above-mentioned technological deficiency.

For this reason, one object of the present invention is to propose a kind of cooling-part that can continue to provide frozen water.

Another object of the present invention is to propose a kind of refrigeration plant with above-mentioned cooling-part.

For achieving the above object, the embodiment of one aspect of the present invention has proposed a kind of cooling-part, comprise housing, be limited with cavity in the described housing, be formed with [water inlet and the delivery port, and be provided with in the described housing to be used to make and enter water in the described cavity flow to described delivery port along curved path in described cavity separator that are communicated with described cavity on the described housing from described water inlet.

Cooling-part according to the embodiment of the invention, by the curved path that forms by separator in the inner setting of cooling-part, make the water that enters cooling-part flow to delivery port from water inlet along curved path, prolonged travel path and the cool time of water in cooling-part, thereby guarantor unit's water yield flows along curved path and progressively is reduced to the frozen water temperature.

Cooling-part according to the embodiment of the invention can also have following additional technical feature:

Described housing comprises cap and shell block, and wherein said cap and shell block link together by snap-in structure, and is provided with sealing ring between described cap and the shell block.Thus, by the sealing function of sealing ring, the current in the housing can be not excessive.

Described housing is the cardinal principle parallelepiped shape, and described a plurality of dividing plate is separately positioned on the described shell block.

Described separator comprises a plurality of dividing plates, described a plurality of dividing plate is divided into first group and second group, wherein the dividing plate in first group is arranged on the front side wall of described cavity and their second end and the spaced apart predetermined gap of rear wall of described cavity at their first end, dividing plate in second group is arranged on the rear wall of described cavity and their second end and the spaced apart predetermined gap of front side wall of described cavity at their first end, and described first group of internal partition and second group of interior dividing plate are arranged alternately.

Thus, by a plurality of dividing plates alternately are arranged on the front and back sidewall of cavity, thereby in cavity, form corrugated passage substantially, farthest prolong mobile distance and the time of water in cavity, guarantee to supply with constantly frozen water better.

The with respect to the horizontal plane downward-sloping setting of described a plurality of dividing plate.Thus, water can flow downward along dividing plate, is convenient to water and flows automatically to delivery port from water inlet, need not extra power.

Described a plurality of dividing plate tilt adjustable with respect to the horizontal plane is whole.Thus, can adjust the length in the mobile path of water and the speed of current easily, satisfy different requirements.

The paired angular dependence setting of described water inlet and described delivery port.Further prolong the length in the mobile path of water thus.

The rear side outer wall of described housing is provided with bottom, and the rear side outer wall of described bottom and described housing limits to use and holds agent for storage of coldness and have the agent for storage of coldness chamber that agent for storage of coldness adds inlet.

Continue as water when utilizing agent for storage of coldness can make the refrigeration plant compressor out of service cooling is provided, thus, can not be interrupted providing of frozen water, improved the continuation that frozen water provides.

The rear wall of described at least housing and the rear wall of described bottom are made by leading adiabator.Thus, the indoor agent for storage of coldness of agent for storage of coldness can cool off the water in the cavity better, and cost is low.

The present invention embodiment has on the other hand proposed a kind of refrigeration plant, comprises body, is limited with refrigerating chamber in the described body; Refrigerator evaporator, described refrigerator evaporator are arranged in the described refrigerating chamber; And cooling-part, described cooling-part is provided with the position of contiguous described refrigerator evaporator in refrigerating chamber, and wherein said cooling-part can be the described cooling-part of embodiment according to an aspect of the present invention.

Refrigerator according to the embodiment of the invention, utilize refrigerator evaporator that water in the cooling-part is cooled off, need not additionally to be provided with the device that the water in the cooling-part is cooled off, reduced manufacturing cost, and can provide frozen water constantly, even when using frozen water continuously, can not occur frozen water yet and be interrupted, improved the convenience of refrigerator.

Aspect that the present invention adds and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present invention.

Description of drawings

Above-mentioned and/or additional aspect of the present invention and advantage are from obviously and easily understanding becoming the description of embodiment below in conjunction with accompanying drawing, wherein:

Fig. 1 is the left view of analysing and observe of the cooling-part of the embodiment of the invention;

Fig. 2 is the front view of cooling-part shown in Figure 1;

Fig. 3 is the sectional plan view of cooling-part shown in Figure 1; With

Fig. 4 is the schematic diagram of the refrigeration plant with cooling-part of the embodiment of the invention.

The specific embodiment

Describe embodiments of the invention below in detail, the example of described embodiment is shown in the drawings, and wherein identical from start to finish or similar label is represented identical or similar elements or the element with identical or similar functions.Below by the embodiment that is described with reference to the drawings is exemplary, only is used to explain the present invention, and can not be interpreted as limitation of the present invention.

In description of the invention, term " vertically ", " laterally ", " on ", close the orientation of indications such as D score, " preceding ", " back ", " left side ", " right side ", " vertically ", " level " or position is based on orientation shown in the drawings or position relation, only be the present invention for convenience of description rather than require the present invention therefore can not be interpreted as limitation of the present invention with specific orientation structure and operation.

Below with reference to the cooling-part 100 of accompanying drawing description according to the embodiment of the invention.

As Figure 1-3, the cooling-part 100 of the embodiment of the invention comprises housing 1.Be limited with in the housing 1 and be used to hold water and the cavity 2 that supplies water and flow through.Be formed with the water inlet 14 and the delivery port 15 that are communicated with cavity 2 on housing 1, the water that comes from external water source enters cavity 2 from water inlet 14, and the cavity 2 of flowing through is then discharged from delivery port 15.Be provided with separator in the cavity of housing 1, separator has limited curved path (or being called curved channel) in cavity 2, and the water that enters in the cavity 2 from water inlet 14 flow to delivery port 15 along this curved path in cavity 2.

Cooling-part according to the embodiment of the invention, in cavity 2, form curved path by the separator that in cavity 2, is provided with, make that enter water in the cavity 2 14 flow to delivery port 15 along curved path from water inlet, prolonged the path of water in cavity 2, prolonged the time that water is cooled in cavity 2, the unit water yield flows along curved path and progressively is reduced to the frozen water temperature thus, therefore, even use frozen water continuously, also can continue provides, and the situation of frozen water supply discontinuity can not occur.

In a specific embodiment of the present invention, housing 1 comprises that cap 11 and shell block 12 link together by snap-in structure.In order to prevent that the water in the housing 1 from overflowing, engage the position at cap 11 with shell block 12 and further be provided with sealing ring 13.Sealing ring 13 can guarantee that the connecting portion between cap 11 and the shell block 12 is seamless, thereby guarantees that better the water in the housing 1 can be not excessive.More specifically, can form projection on cap 11, form groove on shell block 12, described projection is a tight fit in the described groove, thus cap 11 is connected with shell block 12.Need to prove that the present invention is not limited to this, cap 11 can link to each other by any suitable snap-in structure with shell block 12 and form the housing with inner chamber 2.

In one embodiment of the invention, housing 1 is the cardinal principle parallelepiped shape, for example flat cuboid, or square.Certainly, it will be appreciated by persons skilled in the art that hull shape is not limited to above-mentioned specific embodiment, cooling-part 100 can support any other shapes of putting into refrigeration plant easily.

In a concrete example of the present invention, water inlet 14 is arranged on the upper end (upside among Fig. 1) of shell block 12, and delivery port 15 is arranged on the bottom (downside among Fig. 1) of shell block 12.

In some embodiments of the invention, as shown in Figure 2, water inlet 14 and delivery port 15 paired angular dependence settings, for example water inlet 14 is arranged on the upper right corner of the housing 1 of cuboid shape, and delivery port 15 is arranged on the lower left corner, thus, can further increase the distance between water inlet 14 and the delivery port 15, increase the mobile distance of water in cavity 2, prolong cool time, frozen water is provided better.

In further embodiment of the present invention, separator comprises a plurality of dividing plates 16 that are separately positioned on the described shell block 12.Preferably, a plurality of dividing plates 16 are divided into first group and second group.Wherein the dividing plate 16 in first group is arranged on the front side wall of cavity 2 (left side among Fig. 3) at their first end, and the rear wall of its second end and cavity 2 (right side among Fig. 3) separates predetermined gap.Dividing plate 16 in second group is arranged on the rear wall of cavity 2 (right side among Fig. 3) at their first end, and the front side wall of its second end and cavity 2 (left side among Fig. 3) separates predetermined gap.First group of internal partition 16 and second group of interior dividing plate 16 can be arranged alternately, and limit corrugated flow path (being water flow channel) substantially thus in cavity 2.Need to prove, separator is not limited to the form of a plurality of dividing plates, for example separator also can be for being arranged on single corrugated parts in the cavity 2, as long as can limit the curved path that supplies water and flow in cavity 2, separator can be any suitable form.

Moving along the flow path sulfate layer flows downhill in order to help current, a plurality of dividing plates 16 with respect to the horizontal plane (lateral cross section among Fig. 3) dip down and tiltedly are provided with.

Dividing plate 16 can be rectangular slab, and certainly the present invention is not limited to this, and for example dividing plate 16 also can be for arc etc.

In one embodiment of the invention, dividing plate 16 tilt adjustable with respect to the horizontal plane is whole.By adjusting dividing plate 16 angle of inclination with respect to the horizontal plane, thereby, can adjust the length of flow path and the speed of current, can adjust the cool time that water is cooled easily in cavity 2.For example dividing plate 16 can be removably mounted on the wall of cavity 2, by adjusting installation position, just can adjust dividing plate 16 angle of inclination with respect to the horizontal plane.

In one embodiment of the invention, refrigeration part 100 further includes agent for storage of coldness chamber 3.For example, rear side (right side among Fig. 1) outer wall at housing 1 is provided with bottom 17.Bottom 17 limits agent for storage of coldness chamber 3 with the rear side outer wall of housing, and certainly, the present invention is not limited to this, for example limits agent for storage of coldness chamber 3 and cavity 2 by a demarcation strip is set in single casing.Agent for storage of coldness chamber 3 can hold agent for storage of coldness and have agent for storage of coldness add the inlet 31.Agent for storage of coldness adds the upper end that inlet 31 is positioned at agent for storage of coldness chamber 2.

Continue as water when utilizing agent for storage of coldness chamber 3 interior agent for storage of coldness can make the refrigeration plant compressor out of service cooling is provided, thus, can not be interrupted providing of frozen water, improved the continuation that frozen water provides.

In one embodiment of the invention, add inlet 31 upper ends at agent for storage of coldness seal cover 32 is arranged.Seal cover 32 can be to the agent for storage of coldness sealed storage in the agent for storage of coldness chamber 3.

In one embodiment of the invention, in refrigeration part 100, the rear wall of the rear wall of housing 1 and bottom 17 is made by leading adiabator at least, thereby the agent for storage of coldness of being convenient in refrigeration plant or the agent for storage of coldness chamber 3 cools off the water in the cavity 2 of flowing through.Certainly, it will be understood by those skilled in the art that whole refrigeration part 100 can all make by leading adiabator, for example stainless steel is made.

Because the rear wall of cooling-part 100 middle shells 1 of the embodiment of the invention and the rear wall of bottom 18 are made by leading adiabator, so the cold of the agent for storage of coldness in the agent for storage of coldness chamber 3 can pass to cavity 2 by shell block 12.Thereby, remedy the required cold of refrigeration plant compressor start running clearance cooling-part 100 refrigeration.

Below in conjunction with the simple water cooling procedure in cooling-part 100 of describing of Fig. 1-3.

When starting intake switch, water enters the inside of housing 1 from water inlet 13.Water successively flows downward along the curved path that is limited by dividing plate, progressively is cooled to the frozen water temperature.At last, water flows out from delivery port 15.By regulating the angle of inclination of dividing plate, can adjust the length of flow path and the speed of current, thereby increase the cool time of the unit water yield, guarantor unit's water yield is in the temperature that progressively is reduced to frozen water through flow path.

According to the cooling-part of the embodiment of the invention, by limiting the curve flow path, increase the cool time of the unit water yield, thereby guarantor unit's water yield progressively is reduced to the frozen water temperature through flow path in cooling-part inside.In addition, utilize agent for storage of coldness to guarantee when refrigeration plant is out of service, to continue cooling can be provided.Thus, water by behind the cooling-part 100, can reach cooling effect in proper flow, and guarantees to continue supply chilled water.

Below with reference to Fig. 4 the present invention's refrigeration plant 1000 of embodiment is on the other hand described.As shown in Figure 4, refrigeration plant 1000 comprises body 200, refrigerator evaporator 300 and cooling-part 100.Refrigeration plant 1000 is a refrigerator for example, but the present invention is not limited to this.

Body 200 comprises case shell and case courage, is limited with refrigerating chamber 210 in the case courage.Be provided with refrigerator evaporator 300 in the refrigerating chamber 210, cooling-part 100 can be fitted and is arranged on the case courage and contiguous refrigerator evaporator 300, in other words, cooling-part 1000 cools off by refrigerator evaporator 300 in refrigerating chamber 210, thereby helps the cooling of water.For example, housing 1 is fitted on the case courage.When refrigeration part 100 further comprised agent for storage of coldness chamber 3, then a side at 3 places, agent for storage of coldness chamber was attached on the case courage.

Because refrigerator evaporator 300 positions are the minimum position of temperature in the refrigerating chamber 210, cooling-part 100 is placed on is adjacent to described refrigerator evaporator 300 positions, can guarantee that cooling-part 100 is in the low temperature environment, help reducing the temperature of the water of cooling-part 100, thereby reach the purpose of fast cooling.

According to the refrigeration plant of the embodiment of the invention, by adopting above-mentioned cooling-part, increased the distance that water flows, increased the cool time of the unit water yield, thereby guarantor unit's water yield progressively is reduced to the frozen water temperature through flow path.In addition, utilize agent for storage of coldness to guarantee that refrigerating plant continues cooling can be provided when freezer compressor is out of service.Thus, water by behind the cooling-part, can reach cooling effect in proper flow, and guarantees to continue supply chilled water.User's whatever you like at any time takes frozen water, and is simple and convenient.And, this cooling-part is arranged on the position of refrigerator evaporator, because the temperature of this position is relatively low, help the cooling of water.

In the description of this specification, the description of reference term " embodiment ", " some embodiment ", " specific embodiment " or " example " etc. means combination.Concrete feature, structure, material or characteristics that this embodiment or example are described are contained at least one embodiment of the present invention or the example.In this manual, the schematic statement to above-mentioned term not necessarily refers to identical embodiment or example.And concrete feature, structure, material or the characteristics of description can be with the suitable manner combination in any one or more embodiment or example.

Although illustrated and described embodiments of the invention, for the ordinary skill in the art, be appreciated that without departing from the principles and spirit of the present invention and can carry out multiple variation, modification, replacement and modification that scope of the present invention is by claims and be equal to and limit to these embodiment.

Claims (10)

1. cooling-part, it is characterized in that, comprise housing, be limited with cavity in the described housing, be formed with the water inlet and the delivery port that are communicated with described cavity on the described housing, and be provided with in the described housing to be used to make and enter water in the described cavity flow to described delivery port along curved path in described cavity separator from described water inlet.

2. cooling-part as claimed in claim 1 is characterized in that described housing comprises cap and shell block, and wherein said cap and shell block link together by snap-in structure, and is provided with sealing ring between described cap and the shell block.

3. cooling-part as claimed in claim 2 is characterized in that, described housing is the cardinal principle parallelepiped shape, and described separator comprises a plurality of dividing plates that are separately positioned on the described shell block.

4. cooling-part as claimed in claim 3, it is characterized in that, described a plurality of dividing plate is divided into first group and second group, wherein the dividing plate in first group is arranged on the front side wall of described cavity and their second end and the spaced apart predetermined gap of rear wall of described cavity at their first end, dividing plate in second group is arranged on the rear wall of described cavity and their second end and the spaced apart predetermined gap of front side wall of described cavity at their first end, and described first group of internal partition and second group of interior dividing plate are arranged alternately.

5. cooling-part as claimed in claim 4 is characterized in that, the with respect to the horizontal plane downward-sloping setting of described a plurality of dividing plates.

6. cooling-part as claimed in claim 5 is characterized in that, described a plurality of dividing plates tilt adjustable with respect to the horizontal plane is whole.

7. cooling-part as claimed in claim 3 is characterized in that, the paired angular dependence setting of described water inlet and described delivery port.

8. cooling-part as claimed in claim 1 is characterized in that, the rear side outer wall of described housing is provided with bottom, and the rear side outer wall of described bottom and described housing limits to use and holds agent for storage of coldness and have the agent for storage of coldness chamber that agent for storage of coldness adds inlet.

9. cooling-part as claimed in claim 8 is characterized in that, the rear wall of described at least housing and the rear wall of described bottom are made by leading adiabator.

10. a refrigeration plant is characterized in that, comprising:

Body, described body comprise case shell and case courage, are limited with refrigerating chamber in the described case courage;

Refrigerator evaporator, described refrigerator evaporator are arranged in the described refrigerating chamber; With

Cooling-part, described cooling-part are provided with the position of contiguous described refrigerator evaporator in refrigerating chamber, wherein said cooling-part is each described cooling-part among the claim 1-9.

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