CN1690610A - Defrosting water radiating device of imbedded refrigerator - Google Patents

Abstract

The invention relates to an embedded refrigerator defrosting-dewatering heat abstractor and especially to an embedded refrigerator defrosting-dewatering heat abstractor with groove, which can hold and evaporate defrosting water generated when evaporators defrosts. The invention comprises body installed at built-in field, main condenser located on certain position of body opposite side, machinery chamber located on the bottom of refrigerator body opposite side, compressor condensing coolant and located at one side of machinery chamber, defrosting water groove located on the top of compressor and holding defrosting water from drain hose, and assistant condenser set in defrosting water groove and proceeding water-cooled heat interchange. Defrosting water groove and said assistant condenser in said assistant condenser are set on the top of compressor in machinery chamber, so the invention can dissipate heat from defrosting water efficiently.

Description

The defrost water heat abstractor of built-in refrigerator

Technical field

The present invention relates to a kind of built-in refrigerator, particularly relate to the defrost water that is produced when evaporator defrost not only can be caught in a kind of Machine Room that is positioned at refrigerator, and the defrost water heat abstractor of the built-in refrigerator that can evaporate effectively (Radiating apparatus for defrost water ofbuilt-in).

Background technology

In general, refrigerator is as the electric equipment that keeps the freshness of food for a long time, generally the main body of the storeroom of its/refrigeration keeping food freezing by possessing and the refrigerating circulatory device that above-mentioned storeroom plays thermolysis formed.

Above-mentioned refrigerator is because possess certain volume is arranged, if therefore be placed on a metope in kitchen or parlor, its shape is similar to from the metope to outer process.Such structure is neither attractive in appearance, has also reduced utilization of space.

In order to address the above problem, industry has been developed can be mounted on and embed the built-in refrigerator 11 that uses on the place 10 or the kitchen range top as shown in Figure 1.Seeing also shown in Figure 1ly, is that existing common built-in refrigerator is mounted on the schematic diagram that embeds the place.The Machine Room that the main body of above-mentioned built-in refrigerator is divided into storeroom and the refrigerant cycle apparatus that is provided with the low-temperature condition that can keep above-mentioned storeroom is installed.When above-mentioned built-in refrigerator is installed, because its Embedded structure, so require it can guarantee to be positioned in that bad its Machine Room of locational refrigerator of circulation of air can carry out heat exchange smoothly and discharge the heat that is produced more effectively is key problem in technology.

Seeing also shown in Figure 2ly, is the schematic configuration schematic diagram that the built-in refrigerator be provided with general exposed type condenser is installed.See also Figure 1 and Figure 2, this existing built-in refrigerator, it comprises: the main body 11 that is mounted on the refrigerator in the embedded place 10; Between ground and refrigerator main body 11 bottoms, stagger mutually the floor 13 that is provided with is installed; And the skirting board 14 that is mounted on main body 11 front lower is formed.

In addition, be provided with Machine Room 15, and install at the back side of main body 11 and to be provided with exposed type condenser 15b in the lower backside of refrigerator main body 11.Symbol 12 is a door-plate among the figure.

See also illustrated in figures 1 and 2ly, existing structure to the built-in refrigerator that possesses exposed type condenser is installed and the course of work is described as follows:

At first, in embedded place 10, be formed with as the space that built-in furniture is installed the space that refrigerator main body 11 is set can be installed, in above-mentioned space, the main body 11 of above-mentioned refrigerator is mounted on the inside of metope 17.

Above-mentionedly install after the refrigerator like this, design feature by built-in refrigerator, therefore the mobile of air is blocked, and in order to give out the heat that the Machine Room 15 that is mounted on refrigerator main body 11 rears and condenser 16 are produced effectively, then make up and be provided with heat dissipation channel 18a, a 18b who is connected to refrigerator main body 11 bottoms and rear.

Here, 15 inside is installed and to be provided with compressor 15a in the Machine Room, and the bonnet 16 that covers Machine Room 15 is in conjunction with being arranged on the main body 11, and forms thereon and be provided with a plurality of passage 16a that air outside is come in and gone out.

In addition, 15 upside is installed and is provided with exposed type condenser 15b in the Machine Room.At this moment, the compressor 15a compressed refrigerant that links to each other with evaporimeter in the refrigerator, and the device that is fixed is fixed on the above-mentioned compressed cold-producing medium of exposed type condenser 16 condensations at refrigerator main body 11 rears.At this moment, compressor 15a and condenser 15b will produce heat when carrying out work, and the heat that is produced dispels the heat by the free convection phenomenon, and cooling compressor 15a and condenser 16.

For this reason, be mounted on the bottom of the main body 11 of this refrigerator as the suction passage 18a of heat dissipation channel, and extrude the rear that passage 18b is mounted on refrigerator main body 11.

In order to support refrigerator main body 11, above-mentioned suction passage 18a is formed between the floor 13 and ground that is installed in 10 bottoms, embedded place, in addition, sucks extraneous air by being formed at the passage 14a that is installed in skirting board 14.In addition, extruding passage 18b is the space that is formed between refrigerator main body 11 and the metope 17, and is connected with above-mentioned suction passage 18a.Here, skirting board 14 is with preventing the inflow of foul setting to be installed for the attractive in appearance of bottom in embedded place 10.

The above-mentioned built-in refrigerator that possesses exposed type condenser is when the temperature of Machine Room 15 and condenser 16 rises, because the temperature of its ambient air also can rise thereupon, therefore because buoyancy function will form the phenomenon of free convection.

In other words, if the temperature of exposed type condenser 16 rises, passage 14a air outside by above-mentioned skirting board 14 flows into into, and leaked-in air moves up at the passage 18b that is formed between the refrigerator back side and the back wall by lower passage, thereby carries out heat exchange with Machine Room 15 and condenser 16.Above-mentioned mobile driving force is a buoyancy.

That is, along with the rising of the temperature of exposing type condenser 16, its ambient air temperature also rises thereupon, because buoyant effect, the air that is heated will move up, and the relative colder air in this space will move down.Compared with the forced convertion that utilizes heat emission fan, its heat exchanger effectiveness of heat exchange method that the above-mentioned heat of utilizing free convection is transmitted is obviously bad.

Therefore, compared to utilizing forced convertion to carry out the condenser of heat exchange, the size of above-mentioned condenser that possesses identical heat dissipation capacity is much bigger.In addition, if refrigerator the closer to the back wall of refrigerator, the thermic load in the refrigerator of exposed type condenser 16 just increases, therefore, need with wall at intervals.

Seeing also shown in Figure 3ly, is the structural representation of the defrost water access slot of existing built-in refrigerator.As shown in Figure 3, the structure of above-mentioned built-in refrigerator be by: the Machine Room 25 be arranged at above-mentioned refrigerator main body 21 lower backside is installed; Installation is arranged at the condenser 26 at above-mentioned refrigerator main body 21 back sides; Installation is arranged at the evaporimeter 31 of above-mentioned refrigerator inside; The defrost water that is produced during with evaporimeter 31 defrostings is drawn out to the scupper hose 32 of the Machine Room 25 that is mounted on refrigerator main body 21 lower backside; Be mounted on the compressor 25a of Machine Room 25 inner sides; And installation and the defrost water access slot 29 that collects the defrost water of drawing from scupper hose 32 are formed above above-mentioned compressor 25a.

The defrost water that produces in the above-mentioned blowing fan 30 and the heat exchanging process of evaporimeter 31 is drawn out to Machine Room 25 by scupper hose 32, and is stored in the defrost water access slot of installing above the compressor 25a that is arranged in the Machine Room 29 from the defrost water that scupper hose 25 is drawn.The defrost water that is accumulated in defrost water access slot 29 is in compressor 25a work, and the heat that passes through to be produced evaporates.

But, because defrost water access slot 29 is for to be positioned at the concentrically ringed shape of the groove that is definite shape above the compressor 25a, and be to evaporate by the heat that compressor 25a is produced, therefore can not evaporate a large amount of defrost water.That is, if evaporimeter produces a large amount of defrost water, because can not evaporate immediately, so defrost water can be overflowed and got ground wet.

This shows that the defrost water radiator structure of above-mentioned existing built-in refrigerator still has many defectives, and demands urgently further being improved.For the defective of the defrost water radiator structure that solves existing built-in refrigerator, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but does not see always that for a long time suitable design finished by development, and this obviously is the problem that the anxious desire of relevant dealer solves.

Because the defective that the defrost water radiator structure of above-mentioned existing built-in refrigerator exists, the inventor is based on being engaged in this type of product design manufacturing abundant for many years practical experience and professional knowledge, actively studied innovation, defrost water heat abstractor in the hope of the built-in refrigerator of founding a kind of new structure, can improve the defrost water radiator structure of existing built-in refrigerator, make it have more practicality.Through constantly research, design, and after studying sample and improvement repeatedly, create the present invention who has practical value finally.

Summary of the invention

The objective of the invention is to, overcome the defective of the defrost water radiator structure existence of existing built-in refrigerator, and provide a kind of defrost water heat abstractor of built-in refrigerator of new structure, technical problem to be solved is to install in the lower backside of built-in refrigerator the Machine Room is set, on the compressor of inside, Machine Room, install and be provided with in the defrost water access slot, be provided with auxiliary condenser by on above-mentioned defrost water access slot, installing, and can provide the heat dissipation capacity that increases defrost water in water-cooled mode, thereby be suitable for practicality more.

The object of the invention to solve the technical problems realizes by the following technical solutions.The defrost water heat abstractor of a kind of built-in refrigerator that proposes according to the present invention, it comprises: the refrigerator main body that is mounted on embedded place; Be positioned at the main condenser in precalculated position, the refrigerator main body back side; Be positioned at the Machine Room of above-mentioned refrigerator main body lower backside; Be positioned at above-mentioned Machine Room one side, and cold-producing medium is carried out compressor for compressing; Be mounted on above the above-mentioned compressor, and collect the defrost water access slot of the defrost water of drawing from the scupper hose that is connected to evaporimeter; And be mounted within the above-mentioned defrost water access slot and the auxiliary condenser that carries out the water-cooled heat exchange by above-mentioned defrost water.

The object of the invention to solve the technical problems also can be applied to the following technical measures to achieve further.

The defrost water heat abstractor of aforesaid built-in refrigerator, wherein said main condenser is advisable for expose mounting structure at the refrigerator main body back side, and above-mentioned auxiliary condenser is connected between evaporimeter and the main condenser.

The present invention compared with prior art has tangible advantage and beneficial effect.By above technical scheme as can be known, in order to reach aforementioned goal of the invention, the invention provides a kind of defrost water heat abstractor of built-in refrigerator, it relates to the built-in refrigerator structure, particularly relates to the defrost water access slot heat abstractor of defrost water that is produced when evaporator defrost can not only be caught in the Machine Room that is positioned at refrigerator and the built-in refrigerator that can evaporate effectively.The defrost water heat abstractor of built-in refrigerator of the present invention, it comprises: be mounted on the main body that embeds the place; Be positioned at the main condenser on the certain position at the refrigerator main body back side; Be positioned at the Machine Room of the lower backside of above-mentioned refrigerator main body; Be positioned at above-mentioned Machine Room one side and compressor that can compressed refrigerant; Be mounted on above the above-mentioned compressor and catch the defrost water access slot of the defrost water of drawing from scupper hose; And be mounted in the above-mentioned defrost water access slot and utilize above-mentioned defrost water to carry out the auxiliary condenser of water-cooled heat exchange.

By technique scheme, the defrost water heat abstractor of built-in refrigerator of the present invention has following advantage at least: above the compressor of the present invention in the Machine Room of the lower backside of built-in refrigerator, install simultaneously and be provided with the auxiliary condenser of defrost water access slot and above-mentioned defrost water access slot inside, thereby can dispel the heat effectively the defrost water that evaporimeter produced.

In sum, the defrost water heat abstractor of the built-in refrigerator of special construction of the present invention, mainly be to install in the lower backside of built-in refrigerator the Machine Room is set, on the compressor of inside, Machine Room, install and be provided with in the defrost water access slot, be provided with auxiliary condenser by on above-mentioned defrost water access slot, installing, and the heat dissipation capacity that increases defrost water in water-cooled mode can be provided.It has above-mentioned many advantages and practical value, and in like product, do not see have similar structural design to publish or use and really genus innovation, no matter it all has bigger improvement on the structure of product or function, have large improvement technically, and produced handy and practical effect, and the defrost water radiator structure of more existing built-in refrigerator has the multinomial effect of enhancement, thereby be suitable for practicality more, and have the extensive value of industry, really be a new and innovative, progressive, practical new design.

Above-mentioned explanation only is the general introduction of technical solution of the present invention, for can clearer understanding technological means of the present invention, and can be implemented according to the content of specification, below with preferred embodiment of the present invention and conjunction with figs. describe in detail as after.

The specific embodiment of the present invention is provided in detail by following examples and accompanying drawing thereof.

Description of drawings

Fig. 1 is that existing common built-in refrigerator is mounted on the schematic diagram that embeds the place.

Fig. 2 is the structure cutaway view of " A-A " section among Fig. 1.

Fig. 3 is the structural representation of the defrost water access slot of existing built-in refrigerator.

Fig. 4 is the structural representation of defrost water heat abstractor of the built-in refrigerator of one embodiment of the invention.

Fig. 5 is the detailed structure schematic diagram that is mounted on the defrost water access slot of compressor shown in Figure 4.

10: embed place 11: main body

12: door-plate 13: floor

14: skirting board 14a: passage

15: Machine Room 15a: compressor

15b: condenser 16: condenser

16a: passage 17: metope

18a, 18b: heat dissipation channel 18a: suction passage

18b: extrude passage 21: main body

25: Machine Room 25a: compressor

26: condenser 29: the defrost water access slot

31: evaporimeter 32: scupper hose

41: refrigerator main body 45: Machine Room

45a: compressor 46: main condenser

49: defrost water access slot 49a: auxiliary condenser

50: blowing fan 51: evaporimeter

52: scupper hose

The specific embodiment

Below in conjunction with accompanying drawing and preferred embodiment, the defrost water heat abstractor of the built-in refrigerator that foundation the present invention is proposed, its concrete structure, feature and effect thereof, describe in detail as after.

See also Fig. 4, shown in Figure 5, the defrost water heat abstractor of the built-in refrigerator of preferred embodiment of the present invention, it mainly comprises:

Be mounted on the refrigerator main body in embedded place; Setting is positioned at the above-mentioned main condenser of refrigerator main body back side assigned position; Setting is positioned at the Machine Room of above-mentioned refrigerator main body lower backside; Setting is positioned at above-mentioned Machine Room one side and cold-producing medium is carried out compressor for compressing; Be mounted on above the above-mentioned compressor and collect the defrost water access slot of the defrost water of drawing from the scupper hose that is connected to evaporimeter; And be mounted within the above-mentioned defrost water access slot and the auxiliary condenser that carries out the water-cooled heat exchange by above-mentioned defrost water.

Above-mentioned main condenser is exposed at the refrigerator main body back side to be installed as suitablely, and above-mentioned auxiliary condenser is connected between above-mentioned main condenser and the evaporimeter with the form of fin-pipe and is advisable.

To consult appended accompanying drawing below and carry out detailed structure explanation.

See also Fig. 4, shown in Figure 5, Fig. 4 is the structural representation of defrost water heat abstractor of the built-in refrigerator of one embodiment of the present of invention, and Fig. 5 is the detailed structure schematic diagram that is mounted on the defrost water access slot of compressor shown in Figure 4.

As Fig. 4, shown in Figure 5, the defrost water heat abstractor of built-in refrigerator of the present invention, it comprises: the refrigerator main body 41 that is mounted on embedded place; Be mounted on the Machine Room 45 of the lower backside of above-mentioned refrigerator main body 41; Exposed installation is arranged at the back side of above-mentioned refrigerator main body 41 and the main condenser 46 that compressed cold-producing medium is carried out condensation; Evaporimeter 51 in the refrigerator; The defrost water that evaporimeter 51 is produced is drawn out to the scupper hose 52 of Machine Room 45; Be mounted on the side in the Machine Room 45 and the compressor 45a of compressed refrigerant; Be mounted on above the compressor and store the defrost water access slot 49 of defrost water; Be mounted in the above-mentioned defrost water access slot 49 and evaporate defrost water in the defrost water access slot 49, and the auxiliary condenser 49a that is connected between above-mentioned main condenser 46 and the evaporimeter 51 forms.

Refer now to appended accompanying drawing, specify as follows the defrost water heat abstractor of the refrigerator of one embodiment of the present of invention of possessing said structure.

See also Fig. 4 and shown in Figure 5, the main body of the refrigerator of present embodiment embeds and is mounted in the embedded place; Lower backside installation at refrigerator main body is provided with Machine Room 45; And exposed the installation is provided with main condenser 46 at the main body back side.

45 install parts such as being provided with compressor 45a in above-mentioned Machine Room, and the above-mentioned compressor 45 also cold-producing medium of compressed liquid state that links to each other with evaporimeter 51 in being mounted on refrigerator.At this moment, along with the compression process of cold-producing medium, compressor 45a and condenser 46 will produce heat.

In addition, be mounted on the evaporimeter 51 in the refrigerator, when defrosting, will produce defrost water, and the defrost water that is produced is drawn by the scupper hose 52 that connects refrigerator inside and Machine Room.Above-mentioned defrost water of drawing by scupper hose 52 is stored in the defrost water access slot 49 that is provided with above the compressor 45a of a side in being mounted on the Machine Room.

Here, above-mentioned defrost water access slot 49, be to be the structure that portion within it forms certain memory space, said structure can be installed to be provided with to be fixed on above the compressor 45a or with other supporting construction and fix, in addition, select to be installed on the position that to catch the defrost water of dripping from scupper hose 52.

In addition, the water of defrost water access slot 49 that is compressed a side of the heat that machine 45a produced evaporates, and meanwhile, the auxiliary condenser 49a that is mounted on above-mentioned defrost water access slot 49 inside dispels the heat to above-mentioned defrost water.Auxiliary condenser 49a in the present embodiment is the condenser of fin-tube construction form, and with the bottom surface of defrost water access slot 49 be close to be installed as suitable.In addition, can install in the side of auxiliary condenser 49a main condenser is set, opposite side is then installed evaporimeter is set.

Here, auxiliary condenser 49a carries out the water-cooled heat exchange, and evaporation defrost water of drawing from scupper hose 52 and the defrost water the defrost water access slot 49, thereby can increase heat dissipation capacity.

Therefore, even produce a large amount of defrost water on evaporimeter 51, because auxiliary condenser 49a can utilize the heat of 45 inside, Machine Room and the thermal evaporation defrost water of compressor 45a, therefore the phenomenon that defrost water access slot 49 overflows can not take place, thereby be suitable for practicality more.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, though the present invention discloses as above with preferred embodiment, yet be not in order to limit the present invention, any those skilled in the art, in not breaking away from the technical solution of the present invention scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solution of the present invention, according to technical spirit of the present invention to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solution of the present invention.

Claims (2)

1, a kind of defrost water heat abstractor of built-in refrigerator is characterized in that it comprises:

Be mounted on the refrigerator main body in embedded place;

Be positioned at the main condenser in precalculated position, the refrigerator main body back side;

Be positioned at the Machine Room of above-mentioned refrigerator main body lower backside;

Be positioned at above-mentioned Machine Room one side, and cold-producing medium is carried out compressor for compressing;

Be mounted on above the above-mentioned compressor, and collect the defrost water access slot of the defrost water of drawing from the scupper hose that is connected to evaporimeter; And

Be mounted within the above-mentioned defrost water access slot and the auxiliary condenser that carries out the water-cooled heat exchange by above-mentioned defrost water.

2, the defrost water heat abstractor of built-in refrigerator according to claim 1 it is characterized in that wherein said main condenser is that exposed mounting structure is advisable at the refrigerator main body back side, and above-mentioned auxiliary condenser is connected between evaporimeter and the main condenser.

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