CN105371323A - Installation method for refrigerating module of smoke exhauster - Google Patents

Abstract

The invention discloses an installation method for a refrigerating module of a smoke exhauster. The installation method includes the following steps that firstly, a first heat exchange system of the refrigerating module is integrated a module shell, and a second heat exchange system of the refrigerating module stretches out of the module shell; and secondly, an integrated part in the first step is detachably installed on the outer surface of a shell of the smoke exhauster. According to the installation method for the refrigerating module of the smoke exhauster, mounting and demounting are convenient, the structure is simple, cost is low, and cleaning and maintaining are easy.

Description

Smoke exhaust ventilator refrigeration module installation method

Technical field

The present invention relates to a kind of installation method of refrigeration module, refer to a kind of smoke exhaust ventilator refrigeration module installation method especially.

Background technology

Be an arduous housework in the culinary art of cooking of kitchen focus edge of table, particularly in summer, originally hot weather adds the heat that kitchen range send, and makes working environment in kitchen very harsh.

In order to solve the too high problem of kitchen temperature, have people provided with fan or air-conditioning in kitchen, but fan blowing refrigeration is general, and gas-cooker can be affected normally works, also there is potential safety hazard.Due to the oil smoke surroundings that kitchen is special, after general fan uses a period of time, fan adheres to a large amount of putties, is difficult to cleaning, also can causes the pollution of kitchen environment.

Install an air-conditioner equipment in kitchen, there is Cost Problems on the one hand, also can there is the problem being difficult to clean on the other hand, after air-condition heat exchanger surface attachment oil smoke, also there is the problem that refrigeration declines.

Summary of the invention

The object of the present invention is to provide a kind of smoke exhaust ventilator refrigeration module installation method, its easy installation and removal, the simple cost of structure is low, and it is easy to clean and maintenance.

To achieve these goals, the invention provides a kind of smoke exhaust ventilator refrigeration module installation method, it comprises the steps:

(1) be integrated in module housing by the first heat-exchange system of refrigeration module, the second heat-exchange system of refrigeration module stretches out module housing;

(2) integration member in step (1) is installed on cooking-fume exhausting hood housing outer surface by removably.

Described refrigeration module adopts thermoelectric refrigerating module or semiconductor refrigerating module.

Being installed at least partially between heat exchange air inlet that module housing upper wall offers and the heat exchange air outlet that antetheca is offered of described first heat-exchange system.

The cold wind 3-10 DEG C lower than environment temperature of described heat exchange air outlet blowout.

Described heat exchange air outlet arranges the wind-guiding grid installation steps of the position adjustments wind direction according to people.

In wind-guiding grid installation process, be provided with environmentally temperature, human body temperature, air outlet temperature carry out air quantity regulating step.

The heat sink of the second heat-exchange system of described refrigeration module is installed on the horizontal shell of cooking-fume exhausting hood housing by the mode of removably connecting.

On the upper wall center position that described heat sink is installed on horizontal shell by the mode of removably connecting or sidewall.

The heat sink of the second heat-exchange system of described refrigeration module is installed on the flue collector shell of cooking-fume exhausting hood housing by the mode of removably connecting.

Described fin is installed on antetheca or the sidewall of flue collector shell by the mode of removably connecting.

After adopting such scheme, the present invention has following beneficial effect:

1, the first heat-exchange system of refrigeration module is integrated in module housing by the present invention, and the second heat-exchange system is then exposed at outside module housing, and utilize the heat sink of the second heat-exchange system to be installed on cooking-fume exhausting hood housing, its structural design is simply compact, and cost is low;

2, the first heat-exchange system of refrigeration module is integrated in module housing by the present invention, and on the horizontal shell being fixedly installed in cooking-fume exhausting hood housing by the heat sink be exposed on the second heat-exchange system outside module housing or on flue collector shell, it does not all take the volume of cooking-fume exhausting hood housing inner chamber, therefore cooking-fume exhausting hood housing internal structure is not affected, and during smoke exhaust ventilator cleaning, only module housing need be taken off from cooking-fume exhausting hood housing, can conveniently clean, therefore it is not only easy to installing/dismounting, and is easy to clean and maintenance.

Accompanying drawing explanation

Fig. 1 is the first embodiment stereogram that the first heat-exchange system of refrigeration module is integrated in module housing by the present invention;

Fig. 2 is the internal structure front view of Fig. 1;

Fig. 3 is the internal structure front view that Fig. 1 embodiment removes wind-guiding grid;

Fig. 4 is the internal structure right view of Fig. 1;

Fig. 5 is the stereogram that the integration member of Fig. 1 is installed on cooking-fume exhausting hood housing;

Fig. 6 is the second embodiment stereogram that the first heat-exchange system of refrigeration module is integrated in module housing by the present invention;

Fig. 7 is the second embodiment right view that the first heat-exchange system of refrigeration module is integrated in module housing by the present invention;

Fig. 8 is the stereogram that the integration member of Fig. 6 is installed on cooking-fume exhausting hood housing.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described, can better understand the present invention and can be implemented, but illustrated embodiment is not as a limitation of the invention to make those skilled in the art.

As shown in Figure 1, smoke exhaust ventilator refrigeration module installation method of the present invention, it comprises the steps:

(1) be integrated in module housing 2 by the first heat-exchange system 6 of refrigeration module 1, the second heat-exchange system 7 of refrigeration module 1 stretches out module housing 2;

As shown in Figures 1 to 4, module housing 2 is for having the rectangular structure of cavity, and the upper wall of module housing 2 offers heat exchange air inlet 3, and the antetheca of module housing 2 offers heat exchange air outlet 4, refrigeration module 1 adopts semiconductor refrigerating module in the present embodiment, also can adopt thermoelectric refrigerating module.This refrigeration module 1 comprise semiconductor chilling plate 5 and with the refrigeration end (upper end) of semiconductor chilling plate 5, heat the first heat-exchange system 6 and the second heat-exchange system 7 holding (lower end) thermo-contact, shown in composition graphs 2, Fig. 3 and Fig. 4, first heat-exchange system 6 comprises the first heat exchange substrate 9, the refrigeration end thermo-contact of itself and semiconductor chilling plate 5; Many first heat pipes 10: be arranged on the first heat exchange substrate 9, each first heat pipe 10 is the U-tube of 90 degree in inversion all, the lower tubular section of many first heat pipes 10 is that horizontal interval is inserted in the first heat exchange substrate 9, the upper tubular section of many first heat pipes 10 is horizontal interval arrangement or is obliquely spaced, and the upper tubular section of many first heat pipes 10 is equipped with multiple first heat exchange fin 11; Second heat-exchange system 7 comprises the second heat exchange substrate 12, itself and semiconductor chilling plate 5 heat end thermo-contact; Many second heat pipes 13: be arranged on the second heat exchange substrate 12, each second heat pipe 13 is the U-tube of 90 degree in inversion all, the upper tubular section of many second heat pipes 13 is that horizontal interval is inserted in the second heat exchange substrate 12, the lower tubular section of many second heat pipes 13 is that horizontal interval or oblique interval are inserted in heat sink 14, and this heat sink 14 is horizontal positioned and is arranged at the lower end of the second heat pipe 13.

First heat-exchange system 6 of refrigeration module 1 is integrated in the cavity of module housing 2, semiconductor chilling plate 5 is made to be installed on the lower ending opening place of module housing 2, second heat-exchange system 7 stretches out outside module housing 2, and be positioned at the below of module housing 2, and Air Blast fan 8 is installed in the rear end being positioned at the first heat-exchange system 6 in module housing 2, it is axial-flow fan, makes the first heat-exchange system 6 at least partially between Air Blast fan 8 and heat exchange air outlet 4.

Heat exchange air outlet 4 is installed wind-guiding grid 15 installation steps according to position adjustments air quantity people place being detected, realize intelligent air supply, from the cold wind 3-10 DEG C lower than environment temperature that heat exchange air outlet 4 blows out, wind-guiding grid 15 environmentally temperature, human body temperature, air outlet temperature can carry out air quantity adjustment;

(2) integration member (refrigeration module 1 is integrated in module housing 2) in step (1) is installed on cooking-fume exhausting hood housing 16 outer surface by removably.

As shown in Figure 5, the heat sink 14 of the second heat-exchange system 7 of the refrigeration module 1 of integration member is installed on the horizontal shell 17 of cooking-fume exhausting hood housing 16 by modes of removably connecting such as screw connection, magnet adsorption, gluing, vacuum suction.Preferably be installed on the upper wall center position of horizontal shell 17, also can be installed on the sidewall of horizontal shell 17.

In smoke exhaust ventilator refrigeration module installation method step (1) of the present invention, refrigeration module 1 can also have another embodiment, see shown in Fig. 6 and Fig. 7, most of structure of this refrigeration module 1 is identical with the refrigeration module structure in earlier figures 1, difference is: the heat sink 14 ' of the second heat-exchange system 7 of this refrigeration module 1 is vertically to placement, and be positioned at the rear end of module housing 2 and the second heat pipe 13, in this embodiment, to be integrated in the position of module housing 2 identical with position integrated in aforementioned first embodiment for the first heat-exchange system 6 of refrigeration module 1, repeat no more herein.

As shown in Figure 8, the modes of removably connecting such as the heat sink 14 of the second heat-exchange system 7 of the refrigeration module 1 of the integration member in Fig. 6 with Fig. 7 is connected by screw, magnet adsorption, gluing, vacuum suction are installed on the flue collector shell 18 of cooking-fume exhausting hood housing 16, preferred installation site is the antetheca being installed on flue collector shell 18, also can be installed on the sidewall of flue collector shell 18.

First heat-exchange system 6 of refrigeration module 1 is integrated in module housing 2 by the present invention, second heat-exchange system 7 is then exposed at the below of module housing 2, utilize the heat sink 14 of the second heat-exchange system 7 lower end to be installed on cooking-fume exhausting hood housing 16, its structural design is simply compact, and cost is low; First heat-exchange system 6 of refrigeration module 1 is integrated in module housing 2, and on the horizontal shell 17 being fixedly installed in cooking-fume exhausting hood housing 16 by the heat sink 14 be exposed on the second heat-exchange system 7 below module housing 2 or on flue collector shell 18, it does not all take the volume of cooking-fume exhausting hood housing 16 inner chamber, therefore cooking-fume exhausting hood housing 16 internal structure is not affected, and during smoke exhaust ventilator cleaning, only module housing 2 need be taken off from cooking-fume exhausting hood housing 16, can conveniently clean, therefore it is not only easy to installing/dismounting, and is easy to clean and maintenance.

The above embodiment is only that protection scope of the present invention is not limited thereto in order to absolutely prove the preferred embodiment that the present invention lifts.The equivalent alternative or conversion that those skilled in the art do on basis of the present invention, all within protection scope of the present invention.Protection scope of the present invention is as the criterion with claims.

Claims (10)

1. a smoke exhaust ventilator refrigeration module installation method, is characterized in that: comprise the steps:

(1) be integrated in module housing by the first heat-exchange system of refrigeration module, the second heat-exchange system of refrigeration module stretches out module housing;

(2) integration member in step (1) is installed on cooking-fume exhausting hood housing outer surface by removably.

2. smoke exhaust ventilator refrigeration module installation method according to claim 1, is characterized in that: described refrigeration module adopts thermoelectric refrigerating module or semiconductor refrigerating module.

3. smoke exhaust ventilator refrigeration module installation method according to claim 2, is characterized in that: being installed at least partially between heat exchange air inlet that module housing upper wall offers and the heat exchange air outlet that antetheca is offered of described first heat-exchange system.

4. smoke exhaust ventilator refrigeration module installation method according to claim 3, is characterized in that: the cold wind 3-10 DEG C lower than environment temperature of described heat exchange air outlet blowout.

5. smoke exhaust ventilator refrigeration module installation method according to claim 1, is characterized in that: the wind-guiding grid installation steps arranging the position adjustments wind direction according to people on described heat exchange air outlet.

6. smoke exhaust ventilator refrigeration module installation method according to claim 5, is characterized in that: in wind-guiding grid installation process, be provided with environmentally temperature, human body temperature, air outlet temperature carry out air quantity regulating step.

7. smoke exhaust ventilator refrigeration module installation method according to claim 1, is characterized in that: the heat sink of the second heat-exchange system of described refrigeration module is installed on the horizontal shell of cooking-fume exhausting hood housing by the mode of removably connecting.

8. smoke exhaust ventilator refrigeration module installation method according to claim 7, is characterized in that: on the upper wall center position that described heat sink is installed on horizontal shell by the mode of removably connecting or sidewall.

9. smoke exhaust ventilator refrigeration module installation method according to claim 1, is characterized in that: the heat sink of the second heat-exchange system of described refrigeration module is installed on the flue collector shell of cooking-fume exhausting hood housing by the mode of removably connecting.

10. smoke exhaust ventilator refrigeration module installation method according to claim 9, is characterized in that: described fin is installed on antetheca or the sidewall of flue collector shell by the mode of removably connecting.