CN207865812U - A kind of radiator structure for built-in refrigerator - Google Patents

Abstract

The utility model discloses a kind of radiator structures for built-in refrigerator, it is related to technical field of refrigeration equipment, the babinet and radiator structure of refrigerator are supported by two symmetrical supports for being fixed on bottom of box both sides and are fixed, ducting assembly is set to middle part below babinet, its air inlet is towards the front of babinet, air outlet is connected to the compressor bin of the lower section on rear side of babinet, condenser is set in ducting assembly, and it is fixed by each fixing buckle, fan assembly, which is located at, to be installed at the air outlet of ducting assembly, air intake cover is set to the air inlet of ducting assembly, constitute radiator structure, compressor is installed on inside compressor bin.The utility model radiator structure is integrally set to the bottom of refrigerator body and is fixed by symmetrically arranged support, ducting assembly air inlet and air outlet are respectively facing babinet front and back, and in being correspondingly arranged air port on cabinet, substantially increase the mobility of air-flow, and then radiating efficiency is improved, improve the refrigeration performance of refrigerator.

Description

A kind of radiator structure for built-in refrigerator

Technical field

The utility model is related to technical field of refrigeration equipment, and in particular to a kind of radiator structure for refrigerator.

Background technology

Refrigerator is a kind of refrigeration equipment keeping constant low temperature, be in life common one kind for low-temperature preservation food or The electric appliance of other articles is widely used in life, industrial circle.With the rise of reduced form lifestyle, embedded household electrical appliances are answered It transports and gives birth to.Built-in refrigerator is one kind in refrigerator, mainly by the way that refrigeration structure is installed on cabinet bottom, by refrigeration structure and Cabinet is integrally used as refrigerator.In recent years, built-in refrigerator gradually becomes a kind of trend, is more widely applied.

Currently, integrally insertion is installed on cabinet interior, surrounding heat-dissipating space and radiating mode pole to existing built-in refrigerator To be limited, radiating efficiency is low, and refrigeration performance is not ideal enough.

By patent retrieval, there are following known technical solutions：

Patent 1：

Application number：CN201610281705.4, the applying date：2016.04.28 authorized announcement date：2016.08.31 a kind of Lower sliding door built-in refrigerator or wine cabinet, including shell, liner, door body and the PCB control panels being arranged in door body further include drop-down Formula door hinge, pull-down door hinge include pedestal and flap, and flap coordinates with base rotation；The door body further includes fixing Liner plate；Fixed liner plate bonds together with front glass panel, and windowpane passes through the windowpane on fixed liner plate to pass through hole；Interior lining panel It is fastened with front glass panel, flap is stretched out from the flap rotation hole on interior lining panel；The postnotum of interior lining panel compresses the glass Glass window；First passes through wire casing and second that slot is passed through to constitute threading hole；Threading hole and entrance hole correspond to；The front of flap and babinet Lower end both sides are fixedly connected.PCB control panels are arranged on the top of door body, between control line is through fixing between liner plate and interior lining panel Gap is stretched out from door body bottom, and then passing through on the bottom plate of the shell of babinet has threading hole to enter in babinet, wiring and connection side Just；And change the enabling pattern of traditional refrigerator or wine cabinet.

Patent 2：

Application number：CN201510650349.4, the applying date：2015.09.30 authorized announcement date：2016.01.06, this reality It is disclosed a kind of built-in refrigerator with novel and is included：The front side of babinet, the babinet is equipped with door body, and the rear lower of the babinet is set There is part room；Radiator, the radiator are located at the bottom of the babinet, and air duct, institute are formed in the radiator The air inlet for stating air duct is located at the front end of the radiator, the air outlet in the air duct be located at the rear end of the radiator and Lead in the part room, wherein the air outlet is located at the top of the air inlet；Condenser, the condenser are located at institute It states in radiator；Fan and compressor, the fan and the compressor are each provided in the part room.It is new according to this practicality The built-in refrigerator of type embodiment extends air-flow stream by the way that the air inlet of radiator and air outlet are located at different height Dynamic path, avoids charge air flow and outlet air-flow crossfire or adverse current, ensure that air is fully carried out with condenser and compressor Heat exchange improves the radiating efficiency of built-in refrigerator.

Patent 3：

Application number：CN201010290657.8, the applying date：2010.09.20 authorized announcement date：2011.03.02, this reality A kind of embedded fridge device is disclosed with novel, including：Cabinet, the cabinet define accommodation space；Refrigerator, the refrigerator It is arranged in accommodation space；With lower ornamental strip, the lower ornamental strip is equipped with ornamental strip card muscle, and the ornamental strip card muscle cooperation is in institute It states in vertical card slot.Wherein, refrigerator includes babinet；Chamber door；Lower hinge seat, the lower hinge seat are located at front side below the babinet To support the babinet, vertical card slot is formed on the lower hinge seat；With lower hinge axis, the lower hinge axis is mounted on described It is connected on lower hinge seat and with the chamber door rotatable to be opened and closed the babinet relative to lower hinge seat so as to chamber door.According to this reality With novel embedded fridge device, lower hinge seat can play the role of locating refrigerator, and cover babinet bottom by lower ornamental strip Gap between portion and cabinet increases aesthetics and can reduce dust and fall into and be conducive to the air outside babinet and follows Ring.

Through the above search, it has been found that above technical scheme does not influence the novelty of the utility model；And it is above special Creativeness of the intercombination of sharp file without destruction the utility model.

Utility model content

The utility model provides a kind of for being embedded in precisely in order to avoid above-mentioned existing deficiencies in the technology The radiator structure of formula refrigerator.

The utility model is to solve technical problem to adopt the following technical scheme that：A kind of heat dissipation knot for built-in refrigerator Structure, the babinet of the refrigerator and the radiator structure are solid by two support for being symmetrically fixed on bottom of box both sides supports Determine, ducting assembly is set to middle part below the babinet, and air inlet is towards the front of the babinet, air outlet and set on the case The compressor bin connection of lower section on rear side of body, condenser is set in the ducting assembly, and is fixed by each fixing buckle, fan assembly At the air outlet for being installed on the ducting assembly, air intake cover is set to the air inlet of the ducting assembly, constitutes described dissipate Heat structure, compressor are installed on inside the compressor bin；

The babinet, the radiator structure and the equal installation by adhering of the compressor are in right on cabinet interior, the cabinet Answer air inlet and the air outlet position setting air port of the ducting assembly.

Further, the serpentine-like structure of main condenser pipe, each heat-transfer pipe are arranged in parallel, and hang down in plane with the main condenser pipe Integral bending U-shaped structure after straight welding, constitutes the condenser.

Further, each ventilation hole is equidistantly set on the air intake cover.

Further, the ventilation hole is in lattice structure.

The utility model provides a kind of radiator structure for built-in refrigerator, has the advantages that：

1, radiator structure is integrally set to the bottom of refrigerator body and is fixed by symmetrically arranged support, ducting assembly Air inlet and air outlet are respectively facing babinet front and back, and in being correspondingly arranged air port on cabinet, substantially increase air-flow Mobility, and then radiating efficiency is improved, improve the refrigeration performance of refrigerator；

2, condenser uses the main condenser pipe of serpentine configuration, and in welding multiple heat-transfer pipes on main condenser pipe, entirety is bent U-shaped structure considerably increases the heat dissipation area of condenser, further increases its radiating efficiency；

3, radiator structure occupies little space, and saves installation space, improves refrigerator plot ratio.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the schematic cross-sectional view of the utility model A-A；

Fig. 3 is the structural schematic diagram of the utility model support；

Fig. 4 is the structural schematic diagram of the utility model air intake cover；

Fig. 5 is the structural schematic diagram of the utility model condenser.

In figure：

1, babinet；2, it supports；3, air intake cover, 31, ventilation hole；4, condenser, 41, main condenser pipe, 42, heat-transfer pipe, 43, solid Fixed button；5, ducting assembly；6, fan assembly；7, compressor.

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described implementation Example is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, this field The every other embodiment that those of ordinary skill is obtained without creative efforts, belongs to the utility model The range of protection.

As shown in fig. 1~fig. 5, structural relation is：The babinet 1 and radiator structure of refrigerator are symmetrically fixed on case by two The support of support 2 of 1 two bottom sides of body is fixed, and ducting assembly 5 is set to the lower section of babinet 1 middle part, and air inlet is towards before babinet 1 Side, air outlet are connected to the compressor bin set on 1 rear side lower section of babinet, and condenser 4 is set in ducting assembly 5, and by each solid Surely button 43 is fixed, and fan assembly 6, which is located at, to be installed at the air outlet of ducting assembly 5, and air intake cover 3 is set to the air inlet of ducting assembly 5 At mouthful, radiator structure is constituted, compressor 7 is installed on inside compressor bin；

Babinet 1, radiator structure and 7 equal installation by adhering of compressor in corresponded on cabinet interior, cabinet ducting assembly 5 into Air port is arranged in air port and air outlet position.

Preferably, 41 serpentine-like structure of main condenser pipe, each heat-transfer pipe 42 are arranged in parallel, and hang down in plane with main condenser pipe 41 Integral bending U-shaped structure after straight welding, constitutes condenser 4.

Preferably, each ventilation hole 31 is equidistantly set on air intake cover 3.

Preferably, ventilation hole 31 is in lattice structure.

When specifically used, fan assembly 5 works, and so that air is generated flowing, forms air-flow as shown byf.Air is by air duct The air inlet of component 5 enters air duct, and heat exchange occurs with condenser 4 when flowing through condenser 4, take away heat and to condenser 4 into After row is cooling, flowed out by the compressed cabin of the air outlet of ducting assembly 5.When the compressed cabin of air stream, compressor 7 can be also taken away The heat on surface cools down compressor 7, reduces the temperature on 7 surface of compressor.

The air inlet and air outlet of ducting assembly 5 are respectively facing the front and back of refrigerator body 1, it is ensured that temperature is higher Air is flowed out by 1 rear of babinet, and the lower air of temperature is flowed by air inlet, and heat exchange efficiency is high, good refrigeration effect.

It should be noted that herein, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also include other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

Above example is only to illustrate the technical solution of the utility model, rather than its limitations；Although with reference to aforementioned reality Example is applied the utility model is described in detail, it will be understood by those of ordinary skill in the art that：It still can be to preceding The technical solution recorded in each embodiment is stated to modify or equivalent replacement of some of the technical features；And these Modification or replacement, the spirit and model of various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution It encloses.

Claims (4)

1. a kind of radiator structure for built-in refrigerator, the babinet (1) of the refrigerator and the radiator structure are right by two Support (2) support for being fixed on the babinet (1) two bottom sides is claimed to fix, it is characterised in that：Ducting assembly (5) is set to the case Middle part below body (1), air inlet is towards the front of the babinet (1), air outlet and the lower section on rear side of the babinet (1) Compressor bin is connected to, and condenser (4) is set in the ducting assembly (5), and fixed by each fixing buckle (43), fan assembly (6) it is located at and is installed at the air outlet of the ducting assembly (5), air intake cover (3) is set to the air inlet of the ducting assembly (5) Place, constitutes the radiator structure, compressor (7) is installed on inside the compressor bin；

The babinet (1), the radiator structure and the compressor (7) installation by adhering are on cabinet interior, the cabinet Air port is arranged in the air inlet and air outlet position of the corresponding ducting assembly (5).

2. a kind of radiator structure for built-in refrigerator according to claim 1, it is characterised in that：Main condenser pipe (41) Serpentine-like structure, each heat-transfer pipe (42) are arranged in parallel, and with main condenser pipe (41) Integral bending after plane vertical welding U-shaped structure constitutes the condenser (4).

3. a kind of radiator structure for built-in refrigerator according to claim 1, it is characterised in that：The air intake cover (3) each ventilation hole (31) is equidistantly set on.

4. a kind of radiator structure for built-in refrigerator according to claim 3, it is characterised in that：The ventilation hole (31) it is in lattice structure.