CN1331790A - Supporting devices for finned evaporators installed in domestic - air circulation - refrigeration equipment - Google Patents

Abstract

The invention relates to a radiator for installation in a domestic air-circulation refrigeration appliance (10), comprising at least one pipe (17) shaped like a curved path, arranged in at least two rows and provided with cooling fins (22), and a melting and heating device for a finned evaporator (16). In order to collect the melting water falling down at the time of melting, a dew-water collecting means (37) having a dew-water drain opening (42) is further installed. The dew-water collecting means (37) also serves as a support means for the finned evaporator (16). The device is provided with a plurality of mechanisms with which it can be mounted on a predetermined support structure in the space (12) of the refrigeration appliance (10). A dew-water collecting device with a dew-water discharge opening (42) interacts with a dew-water pipe (12.1) which discharges a space (12) for melting water, so that the device is positioned to the greatest possible extent in the space (12).

Description

Be installed in the supporting arrangement of the heat radiation type evaporimeter in family expenses-air circulation-chilling unit

The present invention relates to a kind of supporting arrangement that is installed in the heat radiation type evaporimeter in family expenses-air circulation-chilling unit, this heat radiation type evaporimeter has a pipeline that fin is housed and one and plays the thawing heater of thawing effect for the fin evaporimeter, and fallen thawing water has also been installed a dew gathering-device with dew scavenge port when melting in order to collect.

The device of this supporting heat radiation type evaporimeter can be learnt by DEOS4311160.The device of wherein representing and describing is made up of considerable part, thereby not only the assembling of device expends, and its manufacturing cost is also quite expensive because part is many.In addition, the difficulty that the shortcoming of being made up of multiple like this part that device brought also has multiple part logistics aspect to overcome, this is in storehouse management on the one hand; Be in view of parts huge the expending that time limit preparation is produced on production line on the other hand.

Task of the present invention is based on current technology status, improves the supporting arrangement of heat radiation type evaporimeter with simple structural measure.

According to the present invention, the method that solves this task is that it has the clamping device of fixing cooling fins formula evaporimeter, has installing mechanism with the supporting arrangement of dew gathering-device as the heat radiation type evaporimeter.Adopt these mechanisms device can be installed on the supporting structure that sets in advance in space of chilling unit, and make dew gathering-device with dew scavenge port and one that the dew pipe that thawing water flows out from the space is concured, thereby device farthest is positioned in the space.

According to solution of the present invention, it no matter is accurate location at the relative dew gathering-device of heat radiation type evaporimeter, thereby drain the thawing water aspect reliably, still expend the aspect with less structure and manufacturing technology, can both will install in the installing space that farthest is accurately positioned in the heat radiation type evaporimeter with the parts of lesser amt.Particularly install in installing space and can abandon spending bigger clamp method, be connected with spring such as the groove that adopts for supporting arrangement etc. for the location of heat radiation type evaporimeter.Insert in the dew pipe by dew scavenge port the dew gathering-device, and needn't add other measure, only adopt existing means just can make the device in the former space that is used for arranging the heat radiation type evaporimeter that a location has in advance been arranged, thereby can allow to adopt corresponding fixation erection unit.Owing to make the number of parts of device minimum, and limited device significantly and be used for arranging that former assembly in the evaporimeter space expends, cost is obviously descended, function is without prejudice.

Embodiment with advantage of the present invention is that the dew gathering-device is collected side at its thawing water towards the heat radiation type evaporimeter a bearing.Be provided with the retainer of using as clamping device in order removably to support the heat radiation type evaporimeter.

By the method for this supporting heat radiation type evaporimeter, not only can especially apace it be bearing on the dew gathering-device not adopting under the additional ancillary method situation, and can also be farthest to its dew capture range location.

Another embodiment preferred according to the present invention, stop mechanism is simple especially, and retainer is made clamp type, and it supports the pipeline of usefulness with the guiding refrigeration filling thereon with shape and/or power type of attachment with the heat radiation type evaporimeter.In addition, this retainer can make the heat radiation type evaporimeter be contained in especially effortlessly on the device that supports it, and the retainer that make clamp type this moment can impose enough chucking powers for the heat radiation type evaporimeter is bearing on the device.

Another embodiment preferred of the present invention is, the dew gathering-device is collected side at its melt water a cover plate of being made by good heat conducting material farthest is installed, and cover plate extends to dew scavenge port place at least, and the heating of available heater.

The dew gathering-device cover plate of making by the metal material of this employing such as aluminium or copper or similar good thermal conductivity, the heating of joining cover plate again, then not only make in the dew gathering-device capture range, but also dew scavenge port place is not frozen, do not hinder thawing water and flow out unobstructedly.

According to another embodiment preferred of the present invention, can make the dew gathering-device save the space especially and be placed in simply in the refrigeration space of chilling unit, the dew gathering-device is arranged in the refrigeration space of chilling unit, and make the dew feeder, it is with the arrangement supporting heat radiation type evaporimeter of vertical type.

According to another embodiment preferred of the present invention, the dew gathering-device is equipped with the supporting member as installing mechanism below itself and bottom land are opposed, so that it is bearing on the mounting plane in refrigeration space.

Pass through supporting member, for example can make and be evenly distributed on following support foot, and make the dew feeder on installed surface, become the supporting of the most definite and tool load-bearing capacity, thereby make act on one for example do not have smear metal, form by dark forging dies, the power on the inside plastic containers of refrigeration or freezing equipment distributes equably along dew feeder size is approximate.In addition, can also be by the design of leg and some unevenness of arranging the compensation supporting plane.Therefore the dew feeder for supporting heat radiation type evaporimeter has played the maximum stable effect of laying on installed surface.

Another embodiment with advantage of the present invention is, in the bottom land edge of dew feeder retaining element has been installed, so that heat-transfer device at least in the scope of its effect, keeps contacting with the heat sink conducts heat of heat radiation type evaporimeter.

Therefore make heat-transfer device force heat conduction to contact in simple mode, thereby make this function can only not depend on the careful degree of manufacturer work with the fin of heat radiation type evaporimeter.

In order to consider under the situation about contacting with the heat sink conducts heat of heat radiation type evaporimeter, also realize the layout that heat-transfer device is especially accurately located, according to another embodiment preferred of the present invention, be that heat-transfer device is made into U type section, its U type shank extends to the height of about heat radiation type evaporimeter at least, and its base portion that links to each other with shank is bearing in the heat radiation type evaporimeter dorsad on the end face of dew feeder.In addition, this heat-transfer device can be especially fast, simply with the synthetic unit of heat radiation type evaporator bank, wherein the span width of U type section shank is moderately adjusted to the external dimensions of fin, made itself and heat-transfer device reach heat conduction forcibly by assembling process and contact.In addition, be bearing on the heat radiation type evaporimeter by base portion, then tell assembler in simple mode, heat-transfer device and heat radiation type evaporimeter are correctly located.

Another embodiment preferred according to the present invention.The heat-transfer device of making the U type has a breach for the ventilation of heat radiation type evaporimeter at least on its base portion, for example adopt a fan to carry out forced ventilation, thereby make the heat radiation type evaporimeter obtain especially effectively ventilating.

Another embodiment preferred according to the present invention, the segment distance place of breach on the U type section base portion before the base portion lateral edge stops, thereby form banded the bridging, in order to heat-transfer device is bearing on the heat radiation type evaporimeter, then the king-sized air mass flow of heat radiation type evaporimeter by being forced to ventilate is not subjected to the influence of heat-transfer device basically.

Another embodiment preferred according to the present invention is stretched out a supporting member that has heat conduction to contact with the heat radiation type evaporimeter in the breach of heat-transfer device, with the supporting thermoreceptor, then temperature sensor be provided with rationally especially, supporting is economical especially simultaneously.

Another embodiment preferred according to the present invention, heat-transfer device is whole to be made by the platinum metals material with good thermal conductivity, but so the heat-transfer device mass production, thereby cost is cheap especially.

The Xiang Guan metal material with good thermal conductivity also has aluminium, copper or similar metal therewith.In addition, the heat-transfer device of this integral body can also be quick especially, thereby can lump together with the heat radiation type evaporator bank on cost saving ground.

Another embodiment preferred of the present invention is, at the breach of the heat-transfer device retaining element of having put on the shelf, it is removably mounted on the heat radiation type evaporimeter, and draw-in groove is arranged, and the edge section that limits the breach leg side inserts wherein.

The shank that makes the U type heat-transfer device that is used as heat transfer platinum by these fixtures not only supports firmly and is fixed on the basal plane of U profile in the mode that does not influence the type by heat radiation type evaporator air flow basically, and also reaches heat conduction with the fin of heat radiation type evaporimeter simultaneously and contact.In addition, fixture also plays a part heat-transfer device is bearing on the heat radiation type evaporimeter simultaneously.The heat radiation type evaporimeter still adopts the chocking construction of clamp-shaped, couple together with the dew gathering-device that is arranged in the refrigeration space, thereby only obtain by the minority part combine very compact can pre-assembled parts.

Another embodiment preferred of the present invention is, fixed body has the supporting section of the clamp-shaped of being similar to, and the entrance end of pipeline removably is fixed therein.

Fix by such pipe end, pre-packed parts can be installed in the intermediate support with saving the space.In addition, by this fixing location, end that can make pipe end obtain correct position forcibly.

Another embodiment preferred according to the present invention, the shank of heat-transfer device extends in the bottom land of dew feeder with its free end, and the water guide limit that thawing water is housed, the thawing water that the heat radiation type evaporimeter is obtained in melting process flows in the dew feeder according to special requirement.

The present invention is described as follows with the embodiment of accompanying drawing reduced representation, and it is:

Fig. 1 expresses the partially cut-away side view of family expenses-air circulation-refrigeration plant in its cooling fan scope, is furnished with a heat radiation type evaporimeter that heat-transfer device is housed and is supported by the dew feeder on its rear wall.

Fig. 2 is the front view of Fig. 1 refrigeration plant.

Fig. 3 is a heat radiation type evaporimeter exploded view, and it has with retaining element supports heat-transfer device and dew feeder on it.

Fig. 4 is that the heat radiation type evaporimeter with heat-transfer device and dew feeder has the front view that part is analysed and observe.

Fig. 5 is the V-V cutaway view with heat radiation type evaporimeter of heat-transfer device and dew feeder.

Fig. 1 expresses a part diagrammatic cross-sectional view with family expenses-air circulation-refrigeration and freezing combination 10 of heat insulation shell 11.A refrigerating box that does not show and separated heat insulation household freezer 12 are arranged in housing.A dew excretory duct 12.1 is housed near the household freezer base plate household freezer 12 rear walls, and an air-deflector 13 that is provided with along its width is basically arranged in its rear wall scope, in its adjacent freeze box top scope, an air intake 14 is arranged.A fan 15 that is installed on the household freezer rear wall is arranged at its rear, it sucks the cold air in the household freezer 12 by air intake 14, and, transport to again by the heat radiation type evaporimeter 16 on household freezer 12 limits of its cover cap by an air-deflector that is installed on the household freezer rear wall.It is to carry pipeline 17 that refrigeration filling is used, that be arranged to two row, the crooked route trend that evaporimeter has one, this pipeline has the duct end pipeline section of two level of approximation trends in the scope below fan, wherein duct end pipeline section 18 is equipped with a throttle pipe 19 of carrying refrigeration filling at its free end, and other duct end pipeline section 20 then links to each other with suction line 21.

As shown in Figure 3 and Figure 4, the crooked route pipeline 17 by straight line pipeline section and coupled bridge piece are formed all is equipped with fin 22 near the scope bridge piece, so that heat radiation type evaporimeter 16 has big as far as possible heat transfer area.Have to be coated with on two large rectangle faces of heat radiation type evaporimeter 16 of rectangular parallelepiped moulding and belong to the thermal conductive surface 24 heat-transfer device 23, that its shank forms of making the U type basically, this thermal conductive surface contacts with the limit heat conduction towards it of fin 22, and the drippage hypotenuse 25 of water is installed on its free-ended leg limit.Two thermal conductive surfaces 24 are opposite to water droplet at it and fall on end face hypotenuse 25, that constitute U type base portion, are connected with the breach 26 that free arrowband shape on being arranged on lateral edges is put up a bridge between 27.The base portion of U type is formed jointly by bridging 27 and breach 26, all stretches out one on each thermal conductive surface 24 in the breach and does the flanging 28 that backstop is used.In addition, also stretch out a supporting member 29 in breach 26, it is supporting a temperature sensor 30, and keeps the heat conduction contact to be supported, when heat-transfer device 23 was set on the heat radiation type evaporimeter 16, it kept heat conduction to contact with the free edge of fin 22 towards it.When being in the state that is enclosed within on the heat radiation type evaporimeter 16, putting up a bridge 27 is bearing on the pipeline section of the pipeline 17 that protrudes from fin 22 sides, join each other with bridge piece with heat-transfer device 23 correct end positions.For heat-transfer device 23 is supported and is fixed on the heat radiation type evaporimeter 16, the fixture 31 of integral plastics die casting is installed at the breach end, it stretches in the breach 26, clamping draw-in groove 32 is equipped with and, under fixture 31 is installed in state on the heat radiation type evaporimeter 16, the free edge that is provided with the thermal conductive surface 24 of flanging 28 insert and fixing wherein.For supporting holder 31, thereby heat-transfer device 23 is bearing on the heat radiation type evaporimeter 16, between clamping draw-in groove 32, be provided with clamping element 33, for assembling position clear and definite, and with it with respect to clamping draw-in groove 32 asymmetric arrangement, and have and make the draw-in groove 34 that is similar to clamp, whereby, the elasticity of the pincerlike openend of condensing tube tongs is removably mounted on fixture 31 on pipeline 17 pipeline section side by side.Except that clamping element 33, fixture 31 also has other clamping element 35 on itself and the clamping element 33 opposed other ends, and it has the draw-in groove 36 of the clamp-shaped made, but in order to the pipe end pipeline section 18 and 20 of demolition ground supporting heat radiation type evaporimeter 16.

Shown in Fig. 3 to 5, dew feeder 37 is as the dew gathering-device, and again as evaporimeter 16 vertically installed bearing and supporting arrangements, it is equipped with supporting member 39 for direct bearing heat radiation type evaporimeter 16 in its bottom land 38.Supporting member 39 stands in the narrow avris of rectangle of dew feeder 37 in pairs abreast, dew feeder 37 sees to be rectangle basically from above, the distance between the supporting member 39 of wherein two pairs of installations opposite each other should be able to be held the groups of fins of the heat radiation type evaporimeter of being made up of each fin 22 16.Supporting member 39 has the holding element 40 of clamp-shaped at its free end that deviates from bottom land 37.With respect to the groups of fins side of heat radiation type evaporimeter 16 protruding, the end pipeline section of the pipeline 17 that is connected with each other by bend pipe inserts and is fixed therein, so as with heat radiation type evaporimeter 16 removably support on the dew feeder 37.

Bottom land 38 has an excretory duct joint 42 as the dew scavenge port on its base plate 41, base plate 41 is made to this skewed.In order to prevent to freeze, be equipped with one on it such as the heat-conducting plate of making by aluminium or copper or similar material 43, it has a path 44 as scavenge port, and the path free end inserts in the excretory duct joint 42, so that heat-conducting plate 43 is located on trough floor 41.Clip 45 is arranged on the side of heat-conducting plate 43, be used for fixing the tank heater of making by resistive heating device 46 that is installed in the heat conduction protection tube,, be in heat-conducting plate 43 heat conduction and contact by the clip 45 that crooked stationary state is installed.High-order lug 47 is housed on the narrow right-angle side of heat-conducting plate, and latch hook 48 integrally formed on it and the bottom land 38 concurs, and makes heat-conducting plate 43 and is contained in that the paths 44 for its heating usefulness link to each other in the excretory duct joint 42, locatees on trough floor 41 and fixes.Trough floor 41 is limited by sidewall 49 on its long limit, and it constitutes bottom land 38 with trough floor 41, and at its free end retaining element 50 is housed, and it is with dew feeder 37 monolithic moldings of plastics die casting.Dew feeder 37 has supporting member 51 on itself and the trough floor 41 opposed back sides, it extends on the whole width of trough floor 41 as installation foot, being equipped with at dew feeder 37 on each end face of latch hook 48 all has a supporting member 51, and remaining supporting member 51 is even distributed support dew feeder 37 betwixt.

To shown in Figure 5, dew feeder 37 is furnished with heat-conducting plate 43 and tank heater 46 on its trough floor 41, removably link to each other with heat radiation type evaporimeter 16 as Fig. 3.Adopt supporting member 39 free ends to be similar to the clamping element of clamp-shaped for this reason, the end straightway of dew feeder 37 with the pipeline 17 that protrudes with respect to fin 22 sides is fixed together, basically be its free end of heat-transfer device 23 usefulness of U-shaped then, cover from the place ahead on the fin 22 of heat radiation type evaporimeter 16 as the shank of thermal conductive surface 24.The location, end of heat-transfer device 23 is by its 27 signs of putting up a bridge, and bridging 27 leans against on the high-order straight line end pipeline section of the pipeline 17 that protrudes relative fin 22 sides under the location, correct end of heat-transfer device 23.On this position, the free end of thermal conductive surface 24 is fixed element 50 in its lateral surface guiding of fin 22 dorsad.Thereby make at the bottom of the insertion groove 38 thermal conductive surface 24 free end clampings and be fixed on the dew feeder 37.For heat-transfer device 23 is bearing on the heat radiation type evaporimeter 16, and the retaining element 31 (referring to Fig. 4 and Fig. 5) that adopts two spaces to arrange, they are contained on the side of breach 26 with its clamping draw-in groove 32, and removably fixing and be clamped on the pipeline section of the pipeline 17 that extends between the fin 22 with the clamp-shaped draw-in groove 34 on its clamping element 33.In addition, as previously mentioned, the draw-in groove 36 that fixture 31 is used on its clamping element 35 is removably fixed pipe end pipeline section 18 and 20.The parts that assemble so in advance are installed in the rear wall near zone of household freezer 12, as depicted in figs. 1 and 2.Supporting member on the dew feeder 37 51 is placed on the formed mounting plane in household freezer 12 bottom surfaces for this reason, in the process of placing, the free end that excretory duct pipe joint 42 protrudes with respect to supporting member 51 inserts on household freezer 12 base plates and is used as in the pipe joint 12.1 of excretory duct, thereby the assembly that is pre-assembled is is farthest installed and fixed in the position of household freezer 12 inside.For further fixing by heat radiation type evaporimeter 16, assembly together with heat-transfer device 23 and dew feeder 37 compositions, and adopt the flexible fastening body of forming by foaming flexible fastening element 52, the assembly that assembles in advance is stretched on the sidewall with respect to the bend pipe of the pipeline 17 of fin 22 sides protrusion and household freezer 12.After this assembly work finishes, the assembly that is pre-assembled is linked to each other with air-deflector 13, this device while is again as the case of this assembly.

For dew feeder 37 is installed, except as the supporting member 51 of installation foot, what be suitable for also has such as at the positioning bar on the sidewall 49 or similarly can play the supporting rib of supporting role in household freezer 12.

Claims (15)

1. be installed in the supporting arrangement of the heat radiation type evaporimeter in the family expenses-air circulation-chilling unit, this heat radiation type evaporimeter has at least one pipeline and a thawing heater that plays the thawing effect for the heat radiation type evaporimeter that fin is housed, fallen thawing water when melting in order to collect, this thawing heater is provided with a dew gathering-device with dew scavenge port, it is characterized in that, dew gathering-device (37) is as the supporting arrangement of heat radiation type evaporimeter (16), it is provided with the clamping device that heat radiation type evaporimeter (16) is installed and it can be installed in installing mechanism on supporting member chilling unit (10) space in, and dew gathering-device (37) is with its dew excretory duct pipe joint (40) with make thawing water from the dew pipe (12.1) of space (12) outflow device farthest be located in space (12).

2. according to the device of claim 1, it is characterized in that, dew gathering-device (37) is collected side at its thawing water towards heat radiation type evaporimeter (16) supporting member (39) is housed, and the stop mechanism (40) as clamping device is arranged, so that removably support heat radiation type evaporimeter (16) on it.

3. according to the device of claim 2, it is characterized in that stop mechanism (40) is made clamp-shaped, it is bearing on its pipeline (17) for guiding refrigeration filling usefulness heat radiation type evaporimeter (16) shape and/or power with connecting.

4. according to one device in the claim 1 to 3, it is characterized in that, dew gathering-device (37) is collected side at its thawing water a panel of being made by good thermal conductive material (43) farthest is installed, this panel extends to dew scavenge port (42) at least, and an available heater (46) heating.

5. according to one device in the claim 1 to 4, it is characterized in that dew gathering-device (37) is positioned in the refrigeration space (12) of chilling unit (10), and make dew feeder (37) form that vertical type has supported heat radiation type evaporimeter (16).

6. according to the device of claim 5, it is characterized in that dew feeder (37) is equipped with the supporting member (51) as installing mechanism below itself and bottom land (38) are opposed, so that it is placed on the mounting plane in the refrigeration space (12).

7. according to the device of claim 5 or 6, it is characterized in that, dew feeder (37) is provided with retaining element (50) in the edge of its bottom land (38), it makes heat-transfer device (23), it is kept in the effective scope contact with fin (22) heat conduction of heat radiation type evaporimeter (16) at it at least.

8. according to the device of claim 7, it is characterized in that, heat-transfer device (23) is made a U type type, its shank (24) extends to the height of about heat radiation type evaporimeter (16) at least, and its base portion that links to each other with side (24) is bearing in heat radiation type evaporimeter (16) dorsad on the end face of dew feeder (37).

9. device according to Claim 8 is characterized in that, makes the heat-transfer device (23) of U type, has a breach (26) for heat radiation type evaporimeter (16) ventilation at least at its base portion place.

10. according to the device of claim 9, it is characterized in that the segment distance place of the breach (26) of U type base portion before distance base portion side stops, thereby formed the bridging (27) of long band shape, be bearing on the heat radiation type evaporimeter (16) by its heat-transfer device (23).

11. the device according to claim 9 or 10 is characterized in that, stretches out one section supporting member (29) that contacts with heat radiation type evaporimeter (16) heat conduction in the breach (26) of heat-transfer device (23), with supporting temperature sensor (30).

12. one device in 11 is characterized in that according to Claim 8, heat-transfer device (23) is made by the platinum metals material (platinenartig) of good thermal conductivity is whole.

13. according to one device in the claim 9 to 11, it is characterized in that, breach (26) on the heat-transfer device (23) retaining element (31) of having put on the shelf, it is removably mounted on the heat radiation type evaporimeter (16), and having draw-in groove (32), shank limits shank (24) edge section of breach (26) and inserts wherein.

14. the device according to claim 13 is characterized in that, fixture (31) has the clamping section (36) that is similar to the class pincer, and the inflow and the outflow end of pipeline (17) removably are fixed in wherein.

15. one device in 13 is characterized in that according to Claim 8, the shank (24) of heat-transfer device (23) is stretched bottom land (38) toward dew feeder (37) with its free end, and the hypotenuse (25) that shape is suitable for dripping thawing water is housed.

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