CN206037528U - A heat radiation structure for ice machine - Google Patents

Abstract

The utility model discloses a heat radiation structure for ice machine, it is including the base, be equipped with the casing on the base, be equipped with system ice cavity in the casing, be equipped with the evaporimeter in the system ice cavity, system ice cavity below is equipped with the compressor, the adjacent department of compressor is equipped with the condenser, the air outlet window mouth has been seted up to the dorsal part of casing, one side that the condenser is close to the air outlet window mouth is equipped with the fan, during operation of a compressor, the heat that produces on the condenser is blown the dorsal part to the casing by the fan, the base is including the bottom plate, the air inlet window has been seted up on the bottom plate, the compressor below is located to the air inlet window, works as during the lower extreme of air flow to the compressor of air inlet window department, provide the heat for the lower extreme of compressor to the coolant liquid that makes the not complete gasification that the evaporimeter returned can gasify. The utility model discloses can avoid hot -blast and blow to human, can prevent that the compressor is impaired, can improve the operation of a compressor performance.

Description

A kind of radiator structure for ice machine

Technical field

This utility model is related to ice machine, more particularly to a kind of radiator structure for ice machine.

Background technology

Ice machine is the refrigeration plant that compressor, condenser, vaporizer combine, and wherein, vaporizer is used for freezing into ice, And condenser then needs to distribute heat in time, being generally equipped with fan carries out air draft.In existing ice machine, typically by condenser Located at the left and right sides of housing, this results in, on the operating board in house kitchen, The hot blast of ice machine sidepiece can cause discomfort to human body, it is seen that the interior layout of product is not reasonable.

For domestic ice maker, its generally have miniaturization the characteristics of, cause vaporizer, condenser all smaller, Particularly vaporizer, which is lowered the temperature to water during coolant evaporation so that water-setting forms this, but in compressor Under effect, some not evaporating completely coolant can also with gasification coolant together be back to compressor, cause have liquid The coolant of state is back to compressor, and concentrates on the lower end of compressor, and Jing touching tests understand, the temperature of compressor lower end compared with It is low, the behavior in service of compressor can be affected after these liquid, gaseous coolant mixing so that compressor is damaged, and has a strong impact on system Cold efficiency.

Utility model content

The technical problems to be solved in the utility model is, for the deficiencies in the prior art, there is provided a kind of to be used for ice machine, And it is avoided that hot blast blows to human body, can prevent the radiator structure that compressor is impaired, can improve compressor operation performance.

For solving above-mentioned technical problem, this utility model is adopted the following technical scheme that.

A kind of radiator structure for ice machine, which includes base, and the base is provided with housing, sets in the housing There is ice making chamber, the ice making within the chamber is provided with vaporizer, is provided with compressor, the phase of the compressor below the ice making chamber Adjacent place is provided with condenser, and the vaporizer and condenser are communicated in compressor respectively by pipeline, and the dorsal part of the housing is opened Air-out window is provided with, the condenser is located between compressor and the air-out window, and the condenser is near air-out window Side is provided with fan, and the air side of the fan, is produced on the condenser during compressor operation towards air-out window Heat is blowed to the dorsal part of housing by fan, and the base includes base plate, offers air intake window on the base plate, it is described enter Air regulator mouth below the compressor, during the lower end of the air flow to compressor at the air intake window, is under compressor End provides heat, is gasified with the coolant not being gasified totally for making vaporizer return.

Preferably, the condenser includes two standpipes, is provided with multiple capillary tubies being parallel to each other between two standpipes, One of multiple fin, two standpipes are fixed between two neighboring capillary tube is provided with coolant inlet and cooling liquid outlet, institute State standpipe and form the capillary pipeline for being bent by serpentine repeatedly with capillary tube, coolant inlet and cooling liquid outlet are divided into capillary Pipeline two ends, the coolant inlet and cooling liquid outlet are communicated in compressor respectively by pipeline.

Preferably, two neighboring fin is in that positive " V " shape or inverted " v " are arranged.

In the disclosed radiator structure for ice machine of this utility model, as condenser and air-out window are arranged at system Hot blast so when the fan is operating, can be sent by the dorsal part of ice maker from the dorsal part of housing, it is to avoid hot blast blows to human body.Together When, in the presence of fan, air-flow is entered from the lower section of compressor, when air contact is to compressor, inside compressor Temperature is less than room temperature so that the liquid coolant for being back to compression motor spindle occurs second gasification, and then reduces compressor Load, it is to avoid compressor is damaged, and improves refrigerating efficiency, meanwhile, after compressor, the temperature of air-flow can drop air-flow significantly Low, this colder air-flow is acted on through condenser by fan, serves preferable cooling effect to condenser, it can be seen that, The present embodiment substantially increases heat exchange effect so that ice machine has more reliability and stability.

Description of the drawings

Axonometric charts of the Fig. 1 for ice machine.

Axonometric charts of the Fig. 2 for ice machine dorsal part visual angle.

Fig. 3 removes the structure chart after top cover for ice machine.

Cut-away views one of the Fig. 4 for ice machine.

Cut-away views two of the Fig. 5 for ice machine.

Structural representations of the Fig. 6 for condenser.

Specific embodiment

With reference to the accompanying drawings and examples this utility model is described in more detail.

The utility model discloses a kind of radiator structure for ice machine, with reference to shown in Fig. 1 to Fig. 6, which includes bottom Seat 1, the base 1 are provided with housing 10, be provided with ice making chamber 13, be provided with evaporation in the ice making chamber 13 in the housing 10 Device 20, is provided with compressor 30 below the ice making chamber 13, the adjacent of the compressor 30 is provided with condenser 40, the evaporation Device 20 and condenser 40 are communicated in compressor 30 respectively by pipeline, and the dorsal part of the housing 10 offers air-out window 100, The condenser 40 is located between compressor 30 and the air-out window 100, the condenser 40 near air-out window 100 Side is provided with fan 400, and the air side of the fan 400 is towards air-out window 100, when the compressor 30 operates, the condensation The heat produced on device 40 blows to the dorsal part of housing 10 by fan 400, and the base 1 includes base plate 104, the base plate Air intake window 105 is offered on 104, and the air intake window 105 is located at below compressor 30, at the air intake window 105 During the lower end of air flow to compressor 30, the lower end for compressor 30 provides heat, incomplete with make vaporizer 20 return The coolant of gasification is gasified.

In the above-mentioned radiator structure for ice machine, as condenser 40 and air-out window 100 are arranged at ice machine Dorsal part, so when fan 400 operates, can send hot blast from the dorsal part of housing 10, it is to avoid hot blast blows to human body.Together When, in the presence of fan, air-flow is entered from the lower section of compressor 30, when air contact is to compressor 30, due to compressor Internal temperature is less than room temperature so that the liquid coolant for being back to compression motor spindle occurs second gasification, and then reduces compression The load of machine, it is to avoid compressor is damaged, and improves refrigerating efficiency, meanwhile, after compressor, the temperature of air-flow can be big for air-flow Big to reduce, this colder air-flow is acted on through condenser 40 by fan, serves preferable cooling effect to condenser 40, by This is visible, and the present embodiment substantially increases heat exchange effect so that ice machine has more reliability and stability.

In the present embodiment, the condenser 40 includes two standpipes 401, is provided with multiple mutual between two standpipes 401 Parallel capillary tube 402, is fixed with one of multiple fin 403, two standpipes 401 and is provided between two neighboring capillary tube 402 Coolant inlet 404 and cooling liquid outlet 405, the standpipe 401 form the capillary for being bent by serpentine repeatedly with capillary tube 402 Pipeline, coolant inlet 404 and cooling liquid outlet 405 are divided into capillary pipeline two ends, the coolant inlet 404 and coolant Outlet 405 is communicated in compressor 30 respectively by pipeline.

Wherein, with regard to the concrete structure of condenser 40, which employs serpentine capillary pipeline and coordinate multiple fin 403 Mode, not only saves coolant, and is easy to radiate condenser 40, so as to ensure that condenser 40 being capable of steady operation.

In order to further improve radiating effect, two neighboring fin 403 is in that positive " V " shape or inverted " v " are arranged.

The above is this utility model preferred embodiment, is not limited to this utility model, all in this practicality Modification, equivalent or improvement made in new technical scope etc., should be included in the model protected by this utility model In enclosing.

Claims (3)

1. a kind of radiator structure for ice machine, it is characterised in that include base, the base is provided with housing, described Ice making chamber is provided with housing, and the ice making within the chamber is provided with vaporizer, is provided with compressor, the pressure below the ice making chamber The adjacent of contracting machine is provided with condenser, and the vaporizer and condenser are communicated in compressor, the housing respectively by pipeline Dorsal part offer air-out window, the condenser is located between compressor and the air-out window, and the condenser is near going out The side of air regulator mouth is provided with fan, the air side of the fan towards air-out window, during the compressor operation, the condenser The heat of upper generation is blowed to the dorsal part of housing by fan, and the base includes base plate, offers air-inlet window on the base plate Mouthful, the air intake window below the compressor, during the lower end of the air flow to compressor at the air intake window, is pressure The lower end of contracting machine provides heat, is gasified with the coolant not being gasified totally for making vaporizer return.

2. the radiator structure of ice machine is used for as claimed in claim 1, it is characterised in that the condenser includes two and stands Pipe, is provided with multiple capillary tubies being parallel to each other between two standpipes, be fixed with multiple fin between two neighboring capillary tube, and two One of individual standpipe is provided with coolant inlet and cooling liquid outlet, and the standpipe forms the hair for being bent by serpentine repeatedly with capillary tube Tubule road, coolant inlet and cooling liquid outlet are divided into capillary pipeline two ends, the coolant inlet and cooling liquid outlet point Compressor is not communicated in by pipeline.

3. the radiator structure of ice machine is used for as claimed in claim 2, it is characterised in that two neighboring fin is in just " V " Shape or inverted " v " are arranged.