CN1981169A

CN1981169A - Vacuum storage compartment construction in a cooling apparatus body

Info

Publication number: CN1981169A
Application number: CN200580022306.6A
Authority: CN
Inventors: 西蒙·詹姆斯·内勒; 萨米尔·希尔盖昂卡尔; 詹姆斯·比钦·尼夫; 马克斯·威廉·米德尔顿
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2004-07-02
Filing date: 2005-07-04
Publication date: 2007-06-13
Anticipated expiration: 2025-07-04
Also published as: ATE495417T1; GB2415766B; CN100570251C; EP1766307A1; DE602005025877D1; GB0414920D0; WO2006003193A1; US20070205705A1; EP1766307B1; ES2357898T3; GB2415766A

Abstract

A cooling apparatus body (11), for example, for a refrigerator (10), has a first compartment (15) intended for storage of items at atmospheric pressure and a second compartment (16) for storage of items at subatmospheric pressure, the two compartments: being surrounded by surrounds formed by a thermal insulation element (13). The second compartment (16) is lined within the associated surround by a separately constructed hermetic liner (23) bonded to that surround. The liner (23) can be an integrally formed box-shaped component produced by, for example, injection moulding or blow moulding from plastics material. The resistance of the liner (23) to the internal load of subatmospheric pressure is provided primarily by the thermal insulation lining surround and the bond therewith, so that the liner, whilst providing a hermetic barrier relative to the surround, can be of inexpensive lightweight construction.

Description

The structure of the vacuum storage compartment in the body of chiller

The present invention relates to the body of chiller, especially relate to the structure of the vacuum storage compartment in the body of chiller.

Proposed in chiller, especially in refrigerator, refrigerating plant and the refrigerator/freezing composite set of family expenses, to comprise the vacuum storage compartment that is used at the vacuum environment storage food.Except other factors, this environment provides by breeding of minimizing aerobe and photosynthesis and delays the rotten possibility of stored article.Such chamber is preferably automatically vacuumized and is returned to atmospheric pressure to allow taking out article by the closed access hole of this chamber when article lie on the table when storing.Therefore, described chamber should be easy to vacuumize and repressurize, can be long-time and repetitive cycling ground stand to be lower than absolute pressures atmospheric pressure, about 200 millibars of levels, and relatively be easy to keep health and cleaning.To the requirement of keeping inner low-pressure constantly should be partly potential leakage point by minimum number satisfy.Say that more at large this chamber should be not only simple but also be included in economically in the body of chiller, and can not bring the remarkable cost on the weight.It also should be efficiently that this chamber utilizes aspect the inner space of chiller at them, so that excessively do not sacrifice the storage volumes in the adjacent main storage area that is under the atmospheric pressure.Space utilization efficient is also at the inside of this chamber, this inside not should cause by low-pressure, especially under the load that bias internal causes, diminish by interface wall.Therefore the rigidity of structure of this chamber has substantial importance.

Therefore, primary and foremost purpose of the present invention is, the body of chiller is provided, and this body has apotheca, and this apotheca can be included in such body with low relatively cost effectively and this apotheca satisfies the requirement that robust construction is reached low spillage risk.

Secondary objective of the present invention is, alleviates cleaning and saves structure space.Other purpose of the present invention and advantage obtain from following explanation.

According to the present invention, a kind of chiller body is provided, this body has first Room that is designed to store and one and is designed to be lower than second Room that stores under the atmospheric pressure under atmospheric pressure, these chambers are wrapped up by some integuments, these integuments form by the heat insulation element of an inside, this second Room is inner by the lining of lining with the sealing of separate construction at corresponding integument, and this lining is attached on this integument.

In the body of chiller, for example in the body of refrigerator, refrigerating plant or refrigerator/freezing composite set, vacuum storage compartment is set, has embodied a kind of economic especially scheme of compatible this storage capacity by being combined in the intrinsic heat insulation element.In fact, usually essential heat insulation element is formed for limiting the border of second Room and is provided as the major part of the necessary structural intergrity of load that opposing causes by inner vacuum.Lining by sealing obtains---except that access hole---for vacuum storage compartment essential hermetically enclosed.Can easily be designed to such an extent that have a minimum potential leakage paths as this lining of fabrication portion separately.Because this lining need not to bear individually vacuum-load, so this lining can relatively gently and reach even can be non-rigid structure, internal load passes to lining by the interface that combines with this lining.

If lining is integrally formed parts, be box-like basically preferably, have some opposed sidewalls, a upper wall, a lower wall and a rear wall, then available simple mode especially realizes the minimized of leakage point by eliminating seam.The box-like of integral body for example can be made with plastics at an easy rate by injection moulding or blow molding.The point that may leak can reduce to the access hole place door sealing the zone and be used to supply with or the junction of the pipeline that deflates.Also advantageously, one or more being rounded off in the junction surface of the wall of lining, with the transition of avoiding suddenling change, this can help to keep health and alleviated clean-up task by the delay that reduces food.

To increase the surface area that combines with corresponding integument, this structure has for example form of rib at least a portion of the outer surface of preferred lining by structuring.The outer surface area that obtains by this structuring increases, and has increased the lining of sealing and combining of its integument, has improved lining thus comparably in the resistance that is caused the bending under the internal load situation by low pressure.These ribs irrespectively also provide additional rigidity and structural strength to a certain degree to lining with the support that the integument that is combined by institute provides.

Lining is preferably made of plastic, and in the case, this lining can easily be made by for example injection moulding.A kind of specially suitable material is a polystyrene.Lining for example can have three millimeters wall thickness basically, and this can irrespectively guarantee enough shape stabilities and allow to make especially economically lining with the support integument.

The lining that uses separate construction in the heat insulation integument that limits the vacuum storage compartment border also provides chance for the whole guider that forms function element, for example is used for drawer on lining.Under the situation with injection-moulding plastic or blow molding lining, function element can form during forming process thus.The different contents that is used for this chamber can obtain by using different linings, and need not to change the basic internal specifications of chiller, especially heat insulation element.

The material of integument is polyurethane preferably.One favourable, aspect space utilization among the economic especially embodiment, the integument of the integument of first Room and second Room comprises the public separator of separating these two chambers.First Room preferably is arranged on top, second Room, and the volume of common first Room is many times of the second Room volume.The integument of first Room is preferably served as a contrast with a lining, and this lining is preferably made with polystyrene.

Second Room preferably can be sealed by approaching, the own door of the main door of this refrigerating plant by one.The door of the second Room special use can be carried by above-mentioned drawer, if this drawer exists.

The present invention also comprises the method for making this chiller body, and this method may further comprise the steps: with interval turning up the soil is arranged to few one first inwall spare in the housing of an outside, and described inwall spare is determined first Room; In housing with interval turn up the soil and turn up the soil at interval with one or more first wall spares one second inwall spare is set, this second inwall spare is determined second Room; Give space filling between housing and these the wall spares with heat-barrier material, this heat-barrier material can harden so that be attached on housing and these the wall spares and form heat insulation element.

With reference to accompanying drawing one embodiment of the present of invention are described in more detail by example now.Accompanying drawing is represented:

Fig. 1 has a schematic side elevation implementing the refrigerator of body of the present invention; And

The schematic three-dimensional view of the decomposition of a magnification ratio in the zone of Fig. 2 apotheca.

Referring now to accompanying drawing, show a refrigerator 10 with extremely schematic form among Fig. 1, this refrigerator comprises a body 11, this body constitutes by the housing 12 of an outside made from metallic plate basically, with a heat insulation element made from heat-barrier material, especially polyurethane 13 with about 20 millimeters thickness, this element imports with the liquid foam state this housing at the inside lining---following will further the explanation.This element 13 serves as a contrast the lining made from polystyrene with about 0.8 millimeter thickness 14 again.Element 13 forms some integuments, these integuments limit a upper chambers that is used for storing object under atmospheric pressure 15, one and are used for being lower than the vacuum that stores object under the atmospheric pressure and store chamber 16, middle part and a border that is used for also storing the bottom compartment 17 of object under atmospheric pressure, but reasonably to construct element 13 is condition, this bottom compartment selectively is in the significantly reduced temperature of temperature that exists with respect in the upper chambers 15, so that be provided for the ability that deep cooling freezes.The integument that constitutes by element 13 comprises that one is separated the common wall part of upper chambers and chamber, middle part 15 and 16 and the common wall part of another separation chamber, middle part and bottom compartment 16 and 17.Upper chambers and bottom compartment 15 and 17 comprise shelf, chamber and other annex, and they are all not shown, exist in refrigerator usually.

Body 11 is equipped with the door 19 of 18 and bottoms of door on a top, is respectively applied near upper chambers 15 and bottom compartment 17.Medial compartment 16 can be sealed by door 18 approaching, the own doors 20 on top by one.Door 20 carries a seal, or matches with a seal, to realize the being sealed shut chamber, middle part, to be vacuum storage compartment.

Also have a chamber 21 in body 11, some legacy devices evaporation of this chamber housing refrigerator and condensation loop, that schematically show by unit 22 and vavuum pump and some are used for the associated pipe and the control element of vacuum storage compartment 16.

The lining 23 that chamber 16 serves as a contrast with the sealing of constructing dividually so that a sealing barrier with respect to the integument that forms by lining 13 to be provided, illustrates in greater detail this lining in Fig. 2.Therefore, lining 14 is replaced by lining 23 in the zone of chamber 16.Lining 23 be injection moulding or blow molding, integrally formed, lightweight, make with polystyrene, have the parts that are about 3 millimeters wall thickness and have the shape of a box, it has two opposed sidewalls, a upper wall, a lower wall and a rear wall.An access hole is arranged on the opposite of rear wall, and this mouth is by door 20 sealings.The junction surface of all walls of lining 23 all is rounded off, so that optimize the intensity of lining and realize level and smooth, continual inwall transition and remove the delay of remaining food thus and alleviate clean-up task by eliminating crooked position.

Lining 23 is by fix in position on the constituent polyurethane material that is attached to heat insulation lining 13, just as the wall 14 on opposite.More particularly, for the body 11 of constructing refrigerator 10, with respect to the housing 12 of metallic plate and relative to each other import in this housing with predetermined interval, this interval is fixed by the web on the correct position or other isolated component as individual components for lining 14 and lining 23.Then, the space between housing 12, lining 14 and the lining 23 is filled the polyurethane with the liquid foam state.The curing of polyurethane produces heat insulation element 13 and causes and the combining closely of lining 14 and lining 23.Because this combination and have described 20 millimeters thickness sclerosis the rigidity of heat insulating element, no matter lining 14 still is lining 23 does not all need to have remarkable grade with regard to shape stability a inherent strength.Therefore, lining 23 can obtain its tolerance to the power that produces owing to inner low pressure, this tolerance be mainly derived from the integument that forms by element 13 rigidity and with the combining of this integument, thus, this lining can have cheapness, lightweight structure.

The outer surface of lining 23 comprises some integrally formed ribs 24, and these ribs have the exterior surface area that increases lining and increase effect with the bond strength of the integument that forms by element 13 thus.The rib 24 additional bendings of wall on the length direction of rib that strengthen opposing lining 23.Be provided with in the material that rib 24 made in the curing of heat insulation element 13 and produce complementary groove 25.

The door 20 that be used to seal vacuum storage compartment 16, seals the open side of lining 23 thus can be made with glass fully or partly, so that allow to see this chamber interior.This door or carry a flexible seal, the sealing part matches with the end face of the chamber integument that forms by element 13, make this chamber to seal airtightly with respect to atmospheric pressure reliably, in the body 11 of refrigerator at other this atmospheric pressure of position ubiquity, this or match with seal on such one end face that is fixed on this integument.Door 20 can be assemblied on the drawer (not shown), and this drawer can be directed on slideway 26 slidably, and these slideways are integrally formed on two inside surface of side wall of lining 23.When door 20 was opened, drawer skidded off to realize being stored in the approaching easily of object in the chamber 16.

The rear wall of lining 23 comprises the junction (not shown) that is used for vacuum pipe, flexible pipe or other pipeline, described other pipeline is used for deflating from this chamber and being used for keeping the state that is evacuated at storage stage in vacuumizing phase, and be used for air is flowed to this chamber to recover atmospheric pressure, so that allow door 20 to be opened to put into and to take out object.

Known the use of vacuum storage compartment 16 when operating refrigerator 10 by above description.After this door 18 on the top by opening the outside then makes this chamber supercharging, and door 20 can be opened, and obtains approaching to chamber 16 thus.After door 20 sealings, this chamber can be evacuated again.Described supercharging and vacuumize can be automatically by a detector control, the operation and the response pressure level of this detector response opposite house 20 and/or door 18.This detector for example can be mechanical switch and pressure switch.Therefore the switch of manual activation also can be set, be used for controlling by the user specially and/or being used for artificial operation automatically.

The above-mentioned body of refrigerator comprises a vacuum storage compartment, and this vacuum storage compartment is combined in the body by this way: the heat insulation element that provides usually additionally is provided.To the chamber integument acquisition of the tolerance of the load that causes by the low pressure that in this chamber, produces by the rigidity that forms by this element.Lining by separate construction provides---except access hole---for this chamber hermetically enclosed.Reach suitably selection material by the structure of integral body, suitable moulding, this lining can be designed to be enough stable essential degree and the feasible potential vacuum leak point that in use produces seldom of fabrication stage that embeds in the liquid foam heat-barrier material that reach of shape.Some features such as drawer slide can easily be included in the lining during fabrication.Therefore, the economic measure that vacuum storage is provided has been embodied in the chamber of the combination of this structure in mass-produced refrigerator and other chiller.

Claims

1. the body of chiller, have first Room that is designed under atmospheric pressure, store and one and be designed to be lower than second Room that stores under the atmospheric pressure, these chambers are wrapped up by some integuments, these integuments form by the heat insulation element of an inside, this second Room is inner by the lining of lining with the sealing of separate construction at corresponding integument, and this lining is attached on this integument.

2. according to the body of claim 1, wherein, this lining is integrally formed parts.

3. according to the body of claim 1 or 2, wherein, this lining is box-like basically, has some opposed sidewalls, a upper wall, a lower wall and a rear wall.

4. according to the body of claim 3, wherein, at least one is rounded off in the junction surface of these walls.

5. according to each body in the above claim, wherein, at least a portion of the outer surface of this lining by structuring to increase the surface area that combines with corresponding integument.

6. according to the body of claim 5, wherein, this structuring realizes by some ribs.

7. according to each body in the above claim, wherein, this lining is made of plastic.

8. according to the body of claim 7, wherein, these plastics are polystyrene.

9. according to each body in the above claim, wherein, this lining has three millimeters wall thickness basically.

10. according to each body in the above claim, wherein, this lining has some integrally formed function element.

11. according to the body of claim 10, wherein, these function element comprise that some are used for the guider of the drawer of this second Room.

12. according to each body in the above claim, wherein, this heat insulation element comprises polyurethane.

13. according to each body in the above claim, wherein, the integument of this first Room and this second Room comprises the public separator of separating these chambers.

14. according to each body in the above claim, wherein, this first Room is arranged on this top, second Room.

15. according to each body in the above claim, wherein, the integument of this first Room is served as a contrast with lining.

16. according to the body of claim 15, wherein, the wall on opposite is made with polystyrene.

17. according to each body in the above claim, wherein, this second Room can be sealed by approaching, the own door of the main door of this device by one.

18. chiller comprises according to each body in the above claim.

19. according to the device of claim 18, wherein, this device is a refrigerator, a refrigerating plant or a refrigerator/refrigerating plant.

20. be used for making according to each the method for chiller body of above claim, may further comprise the steps: with interval turning up the soil is arranged to few one first inwall spare in the housing of an outside, and described inwall spare is determined this first Room; In this housing with interval turn up the soil and turn up the soil at interval with one or more first wall spares one second inwall spare is set, this second inwall spare is determined this second Room; Give space filling between this housing and these the wall spares with heat-barrier material, this heat-barrier material can harden so that be attached on this housing and these the wall spares and form this heat insulation element.

21. the chiller body is by the method manufacturing according to claim 20.