CN102985778A

CN102985778A - Refrigerating device and evaporator for said device

Info

Publication number: CN102985778A
Application number: CN2011800331969A
Authority: CN
Inventors: S·霍尔策
Original assignee: BSH Bosch und Siemens Hausgeraete GmbH
Current assignee: BSH Hausgeraete GmbH
Priority date: 2010-05-04
Filing date: 2011-04-14
Publication date: 2013-03-20
Anticipated expiration: 2031-04-14
Also published as: CN102985778B; RU2012147338A; EP2567168B1; RU2529302C2; DE102010028526A1; WO2011138145A1; EP2567168A1

Abstract

The invention relates to an evaporator for a refrigerating device, comprising a pipe (11) that conducts a coolant, at least one base (7) on which the pipe (11) is fixed, and a heat distributing plate (12) that lies between the pipe (11) and the base (7), said heat distributing plate supporting projections (18) that clamp the pipe (11).

Description

Refrigeration plant and the evaporimeter that is used for refrigeration plant

Technical field

The evaporimeter that the present invention relates to refrigeration plant, especially domestic refrigerating appts and can in such refrigeration plant, use.

Background technology

Such evaporimeter comprise traditionally pipe, carrier board and be arranged on the pipe and carrier board between the heat distributor layer, cold-producing medium circulates in described pipe, described pipe is fixed on the described carrier board and manages and pass through described carrier board by the heat exchange between the refrigeration plant inner space of evaporator cools and occurs, and described heat distributor layer is facilitated the high efficiencies of heat transfer between carrier board and the pipe.

Disclose a kind of evaporimeter of described type by DE 20 2,005 000 909U1, wherein carrier board is the freezer chamber groove that is formed in the internal container of refrigeration plant, and pipe is wrapped in around it.As the heat distributor layer, metallic plate can be arranged between pipe and the freezer chamber groove and respectively and be fixed on pipe and the freezer chamber groove by the splicing tape of bilateral.Because the contact area between the pipe of flat metallic plate and circle is less, so compare described locational double-sided adhesive tape splicing and damage significantly more hot-fluid between freezer chamber and the pipe with the large tracts of land adhesive linkage between metallic plate and the freezer chamber groove.

Summary of the invention

Task of the present invention is, realizes a kind of evaporimeter for refrigeration plant, its in lower-cost situation aspect its thermal characteristics the evaporimeter with traditional suitable at least.

Described task solves in the following way: the evaporimeter that is used for refrigeration plant have pipe, at least one carrier board of guiding cooling agent and be arranged on described pipe and described carrier board between the heat distributor plate, described pipe is fixed on described at least one carrier board, and described heat exchanger plate supporting clamps the projection of described pipe.Described clamp can to realize managing on the one hand be assembled to fast on the heat distributor plate and can realize on the other hand direct contact between described pipe and the described heat distributor plate.

Therefore can save the adhesive linkage that the infringement heat between pipe and the heat distributor plate is transmitted.

The protruding preferred and dispenser panel of pinch tube is constructed integratedly, in order to can also self realize efficient heat exchange by described projection.

In order to realize large-area heat exchange, the heat distributor plate preferably has shape and clings in locking manner concave surface on the described pipe.

Preferably, described projection has and is in over the ground opposed recessed sidewall, thereby pipe can be clamped between the sidewall opposite each other of two projections.

In order to realize the large contact area for efficiently heat transmission, projection can meet the destination and be configured to along the rib of pipe extension.

When evaporimeter was used for the freezer chamber of cooling domestic refrigerating appts, dispenser panel had at least 0.4Wm ^-2K ^-1Thermal conductivity factor.

According to a preferred configuration, dispenser panel is made of the plastics of the additive that is applied with heat conduction.Widely used plastics (such as pure PS or PE) typically have 0.15 to 0.3Wm in respective pure form ^-1K ^-1The value of thermal conductivity, and can easily realize 1Wm by suitable additive ^-1K ^-1Above thermal conductivity.

Because the thermal conductivity of described raising is also significantly less than the thermal conductivity of the metal of good heat conductive, thus need the larger thickness of dispenser panel, in order in carrier board, realize similar uniform heat distribution when using the metal distributor plate.Yet the material cost related with it compared less with the metal distributor plate, and compare projection with the dispenser panel that is consisted of by metal (and possible concave surface) can be simpler and more cheap how be implemented on the dispenser panel that is consisted of by plastics.

Preferably, the thermal conductivity that is applied with the plastics of additive is 1.5Wm at least ^-1K ^-1, 2Wm better at least ^-1K ^-1

Can realize well such thermal conductivity in as the situation of heat-conductive additives using graphite.

In practice, the graphite additive preferably is every square centimeter of 100mg of the area of dispenser panel at least, is every square centimeter of 200mg of plate area at least preferably.

Too high graphite additive may damage the mechanical robustness of plastics.Although the adding the mutabililty that causes by high graphite and promote pipe contact with closely large tracts of land between the dispenser panel of plastics, its simultaneously---especially when projection with the dispenser panel Construction integration time---damage for the thrust that pipe is pressed onto on the dispenser panel.Therefore, also meaningfully, use metal dust as additive, it damages the robustness of dispenser panel indistinctively.Although metal dust may act on the injection mold that uses with grinding when the shaping dispenser panel, use at the same time that the lubricant effect by graphite plays reaction to it in the situation of graphite.

Carrier board can be according to the internal container in the refrigeration plant of the present invention simultaneously---the wall of freezer chamber especially.

When carrier board was the rear wall of internal container, it was particularly advantageous using dispenser panel, because cannot be by the section that extends at rear wall of the pipe that is fastened around internal container.

When a section zigzag shape ground of pipe twined around diapire, roof and the sidewall of internal container, dispenser panel can meet additional section's section of destination pinch tube, and it extends between section's section adjacent one another are of the section of zigzag shape ground winding.Can be implemented in by described at least one additional section's section that higher pipe lays density on the wall that twines than on other walls, in order to react in case of necessity by the thermograde in the storage lattice chamber of internal container gauge.

Yet the present invention also can be used for following evaporimeter: the carrier board of described evaporimeter freely is arranged in the internal container of refrigeration plant.

Description of drawings

Other features and advantages of the present invention are drawn by the following description of the embodiment of reference accompanying drawing.

Accompanying drawing illustrates:

Fig. 1: according to the schematic cross section of domestic refrigerating appts of the present invention;

Fig. 2: according to the sectional view of the wall of the freezer chamber of the refrigeration plant among Fig. 1 of the first configuration,

Fig. 3: according to the sectional view of the wall of the freezer chamber of the refrigeration plant among Fig. 1 of the second configuration,

Fig. 4: according to the sectional view of the wall of the freezer chamber of the refrigeration plant among Fig. 1 of the 3rd configuration,

Fig. 5: according to the schematic three-dimensional view of the freezer chamber interior container with evaporimeter of the 4th configuration of the present invention.

The specific embodiment

Fig. 1 illustrates the sectional view of combination domestic refrigerating appts, and described combination domestic refrigerating appts has main body 1, standard refrigeration lattice chamber 2, freezer chamber 3 and is used for two lattice chambers 2 of sealing, 3 door 4,5.Lattice chamber 2,3 by self known mode by by the internal container of plastics deep drawn by spacer material layer 6 gauges of surrounding it.Internal container is respectively box-shaped, has towards door 4 or 5 front side, rear wall 7, roof 8, diapire 9 and the sidewalls 10 that open wide.

The

wall

8,9 of the internal container of freezer chamber 3,10 the outside towards spacer material layer 6 are pasted with by graphite or the film made by graphite-filled plastics, its in Fig. 1 because its less thickness is sightless.Film respectively piecewise sticks on each

wall

8,9,10, perhaps is wrapped on all four

walls

8,9,10 with one section.The double-sided adhesive tape splicing that heat distributor plate 12 applies by means of large tracts of land in two lattice chambers 2,3 or another suitable adhering device be fixed on rear wall 7 on the outside of spacer material layer 6.Coolant hose 11 made of aluminum extends at heat distributor plate 12 circuitously.In the situation of freezer chamber 3, coolant hose 11 is connected with pipe 20, and described pipe 20 extends at the

wall

8,9,10 of internal container on zigzag shape ground in intimate contact with described film.

What Fig. 2 illustrated rear wall 7, heat distributor plate 12 and standard refrigeration lattice chamber 2 or freezer chamber 3 is fixed on pipe 11 on the heat distributor plate along the cross section of vertical plane.Pipe 11 on dispenser panel 12 with a plurality of tortuous extensions of straight sections 13 with horizontal orientation and the semicircle segmental arc 14 of connect with section section 13.Section's section 13 is fixed on the dispenser panel 12 by means of hook 15, described hook and integratedly injection mo(u)lding of dispenser panel 12.Hook 15 has radius of curvature circular-arcly, described radius of curvature in lax state slightly less than the radius of pipe 11, thereby meet with stresses, closely cling on section's section 13 and with section's section 13 and be pressed onto on the dispenser panel 12 when managing 11 hooks 15 when installing as shown in Figure.

Two hooks 15 have been shown in the upper area of Fig. 2, on these two hooks 15, have not also had section's section 13 of mounting pipe 11.Can see groove 16 here, its in the surface of dispenser panel 12, follow pipe 11 setting move towards be shaped.The radius of curvature of circular-arc groove 16 is corresponding to the radius of curvature of pipe section section 13 in cross section, thus the pipe section section 13 that when pipe 11 is installed, is kept by hook 15 on the whole surface of groove 16 by tactile dispenser panel 12.This and manage 11 and dispenser panel 12 between the relatively poor bond layer of heat conduction guaranteed to manage 11 and dispenser panel 12 between the High Efficiency Thermal exchange.

The dispenser panel 12 that can be shaped especially simply when hook 15 is opposite with the opening 17 of plate respectively is as shown in Figure 3.Have two can relative motion the simple mould of the parts dispenser panel 12 that is enough to be shaped comprise hook 15, a parts shaping dispenser panel 12 in the described parts towards the side of inner container wall 7 and by means of the inboard of the projection shaping hook 15 that passes opening 17 another parts shaping dispenser panel 12 towards the side of spacer material layer 6 and the outside of hook 15.

Fig. 4 with a preferred extension of the present invention shown in Fig. 2 and the 3 similar views.Hook 15 is here replaced by the in couples mutual opposed rib 18 that stretches out from dispenser panel 12.Rib 18 extends in the whole length of pipe 11 straight sections 13 respectively in the horizontal direction.Recessed sidewall 19 on the side towards each other of rib 18 closely clings on the pipe 11 and can realize efficient heat exchange more than half of pipe 11 circumference.

In order to cool off equably rear wall 7 on its whole area that is covered by dispenser panel 12, dispenser panel 12 must be than so far better heat conduction of widely used pure plastics in the cooling device structure.In order to ensure the enough capacity of heat transmission of dispenser panel 12, propose according to the present invention: make plate 12 according in the configuration described above any by the plastics of the additive that has applied good heat conductive, especially by the polystyrene of the graphite with interpolation.By adding graphite in polystyrene, can realize 2Wm ^-1K ^-1Thermal conductivity, and excessively do not damage the robustness of material.To realize 0.467Wm in the situation of 1.5mm at plate thickness ^-1K ^-1Thermal conductivity.The graphite additive preferably is the area 100mg of every square centimeter of dispenser panel 12 to this at least, is more preferably at least 200mg graphite/cm ²

Can consider, by adding metal dust---for example aluminium powder is realized required thermal conductivity in the plastics of dispenser panel 12.By using metal dust rather than graphite, the reduction that can avoid or alleviate at least the robustness of made dispenser panel 12.But problem is that metal dust acts on the mould that uses in order to make dispenser panel 12 with grinding.But also can consider mixed metal powder additive and graphite additive.By with to compare the graphite share at the material with identical thermal conductivity that only applies graphite less, robustness loss that can limiting material.Simultaneously, the lubricant effect of graphite alleviates metal dust to the grinding effect of mould.

Fig. 5 three-dimensional view medium dip ground from below freezer chamber interior container according to an expansion scheme of the present invention is shown.The roof 8 of internal container, diapire 9 and sidewall 10 lay the film of graphitiferous, its as described above dispenser panel 12 like that as the

walls

8,9 of internal container, 10 and zigzag shape around the heat distributor layer between described

wall

8,9,10 pipes 20 that twine.The film of graphitiferous can be comprised of pure graphite basically.The thick film of lower-cost 100 μ m is enough to realize 0.47W/m ²The thermal conductivity factor of K.Replace pure graphite film, also can use the film that between two plastic sheetings, embeds graphite linings for the better reason of handlability, perhaps by the plastic material individual layer with high interpolation graphite share make and corresponding softer film.

Pipe 11 is fixed on the rear wall 7 of internal container by means of the dispenser panel 12 of having described.Can cool off simultaneously the freezer chamber from five sides like this, heat only can be invaded by its front side of opening wide.Enter and realize in the freezer chamber as far as possible uniformly Temperature Distribution in order to compensate heat on the unlimited front side, expectation be in the front area of bottom 9 at least, to increase the density of laying pipe.Yet by the pipes 20 that zigzag

shape surrounding wall

8,9,10 twines can't realize on the unique wall such raising lay density.For the density of laying in the front area that can increase diapire 9, apply the second plate 21 of being made by the plastics of graphitiferous here.It can paste on the film of graphitiferous, and perhaps film exposes in the area that is occupied by plate 21.Section's section 22 of surrounding

wall

8,9,10 pipes 20 that twine is vertically extended at it on dispenser panel 21.Both sides in described pipe section section 22 form the right of rib 18, and it is clamped between the

pipe section section

23,24 parallel with pipe section section 22.Described

pipe section section

23,24 each other and the end of the pipe 20 that twines with the zigzag shape surrounding wall be connected by segmental arc 25,26.Along being connected of the seamed edge 27 between diapire 9 and the sidewall 10 pipeline section 28 foundation of extending and the pipe 11 that extends at rear wall 7.

Claims

1. be used for the evaporimeter of refrigeration plant, have the pipe (11 of guiding cold-producing medium; 23,24), at least one carrier board (7; 9) and be arranged on described pipe (11; 23,24) and described carrier board (7; 9) the heat distributor plate (12 between; 21), described pipe (11; 23,24) be fixed on described at least one carrier board, it is characterized in that, described heat distributor plate (12; 21) support some and clamp described pipe (11; 23,24) projection (15; 18).

2. evaporimeter according to claim 1 is characterized in that, described projection (15; 18) with described dispenser panel (12; 21) construct integratedly.

3. evaporimeter according to claim 1 and 2 is characterized in that, described heat distributor plate (12; 21) have shape and cling in locking manner described pipe (11; 23,24) concave surface on (16).

4. according to each described evaporimeter in the above claim, it is characterized in that described projection (18) has and is in over the ground opposed recessed sidewall (19).

5. according to each described evaporimeter in the above claim, it is characterized in that described projection (18) is configured to along described pipe (11; 23,24) rib that extends.

6. according to each described evaporimeter in the above claim, it is characterized in that described dispenser panel (12; 21) has at least 0.4Wm ^-2K ^-1Thermal conductivity factor.

7. according to each described evaporimeter in the above claim, it is characterized in that described dispenser panel (12; 21) consisted of by the plastics that are applied with heat-conductive additives.

8. evaporimeter according to claim 7 is characterized in that, the thermal conductivity that is applied with the plastics of described additive is 1.5Wm at least ^-1K ^-1

9. according to claim 7 or 8 described evaporimeters, it is characterized in that described additive comprises graphite.

10. evaporimeter according to claim 9 is characterized in that, described dispenser panel (12; 21) graphite share is the 100mg/cm of plate area at least ², be the 200mg/cm of plate area at least preferably ²

11. each described evaporimeter in 9 is characterized in that described additive comprises metal dust according to claim 6.

12. refrigeration plant, especially domestic refrigerating appts have according to each described evaporimeter in the above claim, it is characterized in that described carrier board (7,9) is the wall of the internal container of described refrigeration plant.

13. refrigeration plant according to claim 12 is characterized in that, described wall (7) is the rear wall of described internal container.

14. refrigeration plant according to claim 12, it is characterized in that, a section (20) zigzag shape of described pipe is around diapire, roof and the sidewall (8 of described internal container, 9,10) twine, and described dispenser panel (21) clamps at least one section (23,24) of described pipe, and it extends between section's section (22) adjacent one another are of the section (20) of described zigzag shape ground winding.

15. have according to claim 1 the refrigeration plant of each described evaporimeter in 11, it is characterized in that described carrier board freely is arranged in the inner space of described refrigeration plant.