CN204141658U - Smoke exhaust ventilator alternating temperature module and smoke exhaust ventilator - Google Patents

Abstract

A kind of smoke exhaust ventilator alternating temperature module and smoke exhaust ventilator, this smoke exhaust ventilator alternating temperature module comprises module housing: have cavity and open the first heat exchange air inlet, the first heat exchange air outlet, the second heat exchange air inlet and the second heat exchange air outlet on the different wall of module housing; Semiconductor changing device: comprise the semiconductor chilling plate of being located at module housing inner chamber and first and second alternating temperature hot linked first heat-exchange system in surface and second heat-exchange system with semiconductor chilling plate, first heat-exchange system is arranged between the first heat exchange air inlet and the first heat exchange air outlet at least partially, second heat-exchange system is arranged between the second heat exchange air inlet and the second heat exchange air outlet at least partially, and this alternating temperature module integration forms the utility model smoke exhaust ventilator in cooking-fume exhausting hood housing outer surface.Alternating temperature modular structure of the present utility model is simple, cost is low, and it is integrated on cooking-fume exhausting hood housing and does not take cooking-fume exhausting hood housing cavity volume, does not affect smoke exhaust ventilator internal structure, and is easy to clean and maintenance.

Description

Smoke exhaust ventilator alternating temperature module and smoke exhaust ventilator

Technical field

The utility model relates to a kind of smoke exhaust ventilator, refers to a kind of smoke exhaust ventilator alternating temperature module and smoke exhaust ventilator of semiconductor refrigerating 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.

Utility model content

Main purpose of the present utility model is to provide a kind of smoke exhaust ventilator alternating temperature module, and its structure is simple, cost is low.

Another object of the present utility model is to provide a kind of smoke exhaust ventilator, and its refrigeration module does not take cooking-fume exhausting hood housing cavity volume, does not affect smoke exhaust ventilator internal structure, and is easy to clean and maintenance.

To achieve these goals, the utility model provides a kind of smoke exhaust ventilator alternating temperature module, comprising:

Module housing: there is cavity and open the first heat exchange air inlet, the first heat exchange air outlet, the second heat exchange air inlet and the second heat exchange air outlet on the different wall of module housing;

Semiconductor changing device: comprise the semiconductor chilling plate and, second alternating temperature surface hot linked first heat-exchange system and second heat-exchange system surperficial with the first alternating temperature of semiconductor chilling plate that are arranged at module housing inner chamber, wherein the first heat-exchange system is arranged between the first heat exchange air inlet and the first heat exchange air outlet at least partially, and described second heat-exchange system is arranged between the second heat exchange air inlet and the second heat exchange air outlet at least partially.

Also comprise:

First Air Blast fan: be arranged in the cavity of module housing, it sucks surrounding air from described first heat exchange air inlet, is then blown out towards described first heat exchange air outlet by the air sucked;

Second Air Blast fan: be arranged in the cavity of module housing, it sucks surrounding air from described second heat exchange air inlet, is then blown out towards described second heat exchange air outlet by the air sucked.

Described first Air Blast fan and the second Air Blast fan are axial-flow fan or quiet fan.

Described first heat exchange air inlet is arranged at the upper wall of module housing;

Described first heat exchange air outlet is arranged at the antetheca top of module housing;

Described second heat exchange air inlet is provided with a pair, and is arranged at the left and right wall bottom of module housing;

Described second heat exchange air outlet is arranged at the rear wall bottom of module housing or arranges, is symmetricly set in the left and right wall bottom of module housing in pairs;

Described first heat-exchange system is located between the first Air Blast fan and the first heat exchange air outlet at least partially;

Described second heat-exchange system is located between the second Air Blast fan and the second heat exchange air outlet at least partially;

Described first heat exchange air inlet, the first heat exchange air outlet are corresponding with the air inlet of air-conditioning, air outlet position respectively.

Described first heat-exchange system comprises:

First heat exchange substrate: the cavity being arranged at module housing, and be connected with the first alternating temperature surface heat of semiconductor chilling plate;

Many first heat pipes: be arranged on the first heat exchange substrate, each first heat pipe is the U-tube of 90 degree in inversion all, the lower tubular section of many first heat pipes is that horizontal interval is inserted in the first heat exchange substrate, and the upper tubular section of many first heat pipes is horizontal interval arrangement or is obliquely spaced.

The upper tubular section of many described first heat pipes is connected with multiple first heat exchange fin.

Described second heat-exchange system comprises:

Second heat exchange substrate: be arranged in the cavity of module housing, and be connected with the second alternating temperature surface heat of semiconductor chilling plate;

Many second heat pipes: be arranged on the second heat exchange substrate, each second heat pipe is the U-tube of 90 degree in inversion all, the upper tubular section of many second heat pipes is that horizontal interval is inserted in the second heat exchange substrate, and the lower tubular section of many second heat pipes is horizontal interval arrangement or is obliquely spaced.

The lower tubular section of many described second heat pipes is connected with multiple second heat exchange fin.

Described first heat exchange air outlet is provided with wind-guiding grid.

Described first heat exchange air inlet, the second heat exchange air inlet, the second heat exchange air outlet are respectively arranged with air grid.

A kind of smoke exhaust ventilator, comprising:

Described smoke exhaust ventilator alternating temperature module: its module housing is arranged on cooking-fume exhausting hood housing.

After adopting such scheme, the utility model has following beneficial effect:

1, the utility model smoke exhaust ventilator alternating temperature module is by arranging semiconductor chilling plate at module housing inner chamber, and at the first alternating temperature surface of semiconductor chilling plate, the second alternating temperature surperficial hot linked first heat-exchange system, the second heat-exchange system, its structural design is simply compact, and cost is low;

2, the utility model smoke exhaust ventilator passes through smoke exhaust ventilator alternating temperature module installation on the horizontal shell of cooking-fume exhausting hood 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 easy to clean and maintenance.

Accompanying drawing explanation

Fig. 1 is the module housing first embodiment stereogram of the utility model smoke exhaust ventilator alternating temperature module;

Fig. 2 is the internal structure front view of the utility model smoke exhaust ventilator alternating temperature module;

Fig. 3 is the internal structure front view that the utility model smoke exhaust ventilator alternating temperature module removes wind-guiding grid;

Fig. 4 is the internal structure right view of the utility model smoke exhaust ventilator alternating temperature module;

Fig. 5 is the module housing second embodiment stereogram of the utility model smoke exhaust ventilator alternating temperature module;

Fig. 6 is the first embodiment stereogram of the utility model smoke exhaust ventilator;

Fig. 7 is the second embodiment stereogram of the utility model smoke exhaust ventilator.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, and to make those skilled in the art better can understand the utility model being implemented, but illustrated embodiment is not as to restriction of the present utility model.

As shown in Figures 1 to 4, the embodiment of the utility model smoke exhaust ventilator alternating temperature module, generality comprises: module housing 1 and semiconductor changing device.Wherein: module housing 1 is for having the rectangular structure of cavity.

As shown in Figure 1, in this embodiment, the upper wall of module housing 1 is provided with the first heat exchange air inlet 2, and this first heat exchange air inlet 2 can arrange air grid.The antetheca top of this module housing 1 is provided with the first heat exchange air outlet 3, shown in composition graphs 2, this first heat exchange air outlet 3 is provided with wind-guiding grid 4, according to the position adjustments wind-guiding grid 4 people place being detected, can realizes intelligent air supply.The left and right wall bottom of this module housing 1 is symmetrically arranged with a pair second heat exchange air inlets 5, and the rear wall bottom of this module housing 1 is provided with one second heat exchange air outlet 6, and these two the second heat exchange air inlets 5 and the second heat exchange air outlet 6 all can arrange air grid.The position setting of this first heat exchange air inlet 2, first heat exchange air outlet 3, second heat exchange air inlet 5 and the second heat exchange air outlet 6 can adjust according to actual needs, should not limit protection domain of the present utility model with the design orientation of this embodiment.

Semiconductor changing device comprise be arranged at semiconductor chilling plate 7 in the middle part of module housing 1 inner chamber and with the first alternating temperature surface of semiconductor chilling plate 7, the second hot linked first heat-exchange system 8 and the second heat-exchange system 9 in alternating temperature surface, wherein the first heat-exchange system 8 is arranged between the first heat exchange air inlet 2 and the first heat exchange air outlet 3, and be positioned at the cavity top of module housing 1, second heat-exchange system 9 is arranged between the second heat exchange air inlet 5 and the second heat exchange air outlet 6, and is positioned at the cavity bottom of module housing 1.

This smoke exhaust ventilator alternating temperature module also comprises: the first Air Blast fan 10: it is axial-flow fan, and be arranged at the cavity top of module housing 1, it sucks surrounding air from the first heat exchange air inlet 2, is then blown out towards the first heat exchange air outlet 3 by the air of suction;

Second Air Blast fan 11: it is axial-flow fan, be arranged at the cavity bottom of module housing 1, it sucks surrounding air from two the second heat exchange air inlets 5, then the air of suction is blown out towards the second heat exchange air outlet 6, first Air Blast fan 10 and the second Air Blast fan 11 also can select quiet fan herein, effectively can reduce module and run noise.

First heat-exchange system 8 is located between the first Air Blast fan 10 and the first heat exchange air outlet 3 at least partially; Second heat-exchange system 9 is located between the second Air Blast fan 11 and the second heat exchange air outlet 6 at least partially.First heat exchange air inlet 2, first heat exchange air outlet 3 is corresponding with the air inlet of air-conditioning, air outlet position respectively.After being convenient to the two installation, the wind of refrigeration is to human body.

Shown in composition graphs 2, Fig. 3 and Fig. 4, the first heat-exchange system 8 comprises: the first heat exchange substrate 12, is arranged at the cavity of module housing 1, and is connected with the first alternating temperature surface heat of semiconductor chilling plate 7; Many first heat pipes 13: be arranged on the first heat exchange substrate 12, each first heat pipe 13 is the U-tube of 90 degree in inversion all, the lower tubular section of many first heat pipes 13 is that horizontal interval is inserted in the first heat exchange substrate 12, and the upper tubular section of many first heat pipes 13 is horizontal interval arrangement or is obliquely spaced.The upper tubular section of many first heat pipes 13 is nested with and is fixed with multiple first heat exchange fin 14.

Second heat-exchange system 9 comprises: the second heat exchange substrate 15: be arranged in the cavity of module housing 1, and is connected with the second alternating temperature surface heat of semiconductor chilling plate 7; Many second heat pipes 16: be arranged on the second heat exchange substrate 15, each second heat pipe 16 is the U-tube of 90 degree in inversion all, the upper tubular section of many second heat pipes 16 is that horizontal interval is inserted in the second heat exchange substrate 15, and the lower tubular section of many second heat pipes 16 is horizontal interval arrangement or is obliquely spaced.The lower tubular section of many second heat pipes 16 is nested with and is fixed with multiple second heat exchange fin 17.

The utility model smoke exhaust ventilator alternating temperature module has two kinds of mode of operations: namely for the nice and cool pattern in summer and the warm pattern for winter, and mode of operation can be switched by the DC voltage applying opposed polarity to semiconductor chilling plate.

When for nice and cool pattern, first alternating temperature surface of semiconductor chilling plate 7 is cold junction, second alternating temperature surface is hot junction, first Air Blast fan 10 runs, the air sucked from the first heat exchange air inlet 2 is blowed to the first heat exchange fin 14 and the first heat pipe 13 by the first Air Blast fan 10, heat exchange is there is with the first heat exchange fin 14 and the first heat pipe 13, air is lowered the temperature, along the first heat exchange fin 14 from the first heat exchange air outlet 3 blowing cold air, blow to human body, the air outlet in the air-conditioning dead ahead corresponding with the first heat exchange air outlet 3 position goes out cold wind, and the heat that the first heat exchange fin 14 and the first heat pipe 13 and air heat exchange absorb imports in the first heat exchange substrate 12 by many U-shapeds first heat pipe 13, first heat exchange substrate 12 contacts heat exchange with semiconductor chilling plate 7 generating plane, the heat of absorption is finally reached the cold junction of semiconductor chilling plate 7, and semiconductor chilling plate 7 hot junction produce heat by with the second heat exchange substrate 15, there is heat exchange in semiconductor chilling plate 7 contact, heat is imported in the second heat pipe 16, and dispelled the heat by U-shaped second heat pipe 16 and the second heat exchange fin 17, second Air Blast fan 11 runs, the air sucked from two the second heat exchange air inlets 5 is blowed to the second heat pipe 16 and the second heat exchange fin 17 by the second Air Blast fan 11, with the second heat pipe 16, there is heat exchange in the second heat exchange fin 17, air is blown to the second heat exchange air outlet 6 along the second heat exchange fin 17 direction, and discharge, the heat that semiconductor chilling plate 7 hot junction produces finally falls apart to module housing 1 and is discharged in air.

When for warm pattern, first alternating temperature surface of semiconductor chilling plate 7 is hot junction, second alternating temperature surface is cold junction, the heat that the hot junction of semiconductor chilling plate 7 produces by with the first heat exchange substrate 12, there is heat exchange in semiconductor chilling plate 7 contact, heat is imported in the first heat pipe 13, and dispelled the heat by U-shaped first heat pipe 13 and the first heat exchange fin 14, first Air Blast fan 10 runs, the air sucked from the first heat exchange air inlet 2 is blowed to the first heat pipe 13 and the first heat exchange fin 14 by the first Air Blast fan 10, with the first heat pipe 13, there is heat exchange in the first heat exchange fin 14, air is blown to the first heat exchange air outlet 3 along the first heat exchange fin 14 direction, first heat exchange air outlet 3 is hot blast, the air outlet in the air-conditioning dead ahead of its correspondence goes out hot blast, and discharged to human body, second Air Blast fan 11 runs simultaneously, the air sucked from two the second heat exchange air inlets 5 is blowed to the second heat exchange fin 17 and the second heat pipe 16 by the second Air Blast fan 11, heat exchange is there is with the second heat exchange fin 17 and the second heat pipe 16, air is lowered the temperature, along the second heat exchange fin 17 from the second heat exchange air outlet 6 blowing cold air, and the heat that the second heat exchange fin 17 and the second heat pipe 16 and air heat exchange absorb imports in the second heat exchange substrate 15 by many U-shapeds second heat pipe 16, second heat exchange substrate 15 contacts heat exchange with semiconductor chilling plate 7 generating plane, the heat of absorption is finally reached the cold junction of semiconductor chilling plate 7.

As shown in Figure 5, for the module housing second embodiment stereogram of the utility model smoke exhaust ventilator alternating temperature module, it is identical with the module housing structure major part of the refrigeration module in Fig. 1, difference is: the forward position, left and right wall bottom of this module housing 1 is symmetrically arranged with two the second heat exchange air inlets 5 ', the left and right wall bottom rear positions of this module housing 1 is symmetrically arranged with the dead ahead that two the second heat exchange air outlets, 6 ', two the second heat exchange air inlets 5 ' are positioned at two the second heat exchange air outlets 6 '.

As shown in Figure 6, for the first embodiment stereogram of the utility model smoke exhaust ventilator, this smoke exhaust ventilator comprises cooking-fume exhausting hood housing 18, cooking-fume exhausting hood housing 18 comprises horizontal shell 19 and flue collector shell 20, horizontal shell 19 is in rectangular shape, flue collector shell 20 is fixed on the upper surface of horizontal shell 19, the upper surface of this horizontal shell 19 is provided with smoke exhaust ventilator alternating temperature module, the module housing 1 of this alternating temperature module is integrated in the upper surface of horizontal shell 19 by the mode of removably connecting, be preferentially integrated in horizontal shell 19 upper surface center position.This module housing 1 is positioned at the front of flue collector shell 20.Be provided with smoke exhaust ventilator master control panel 21 before this horizontal shell, this smoke exhaust ventilator master control panel 21 sends automatically controlled instruction for giving semiconductor alternating temperature module, manipulates it with nice and cool work pattern or with warm work pattern.

As shown in Figure 7, for the second embodiment stereogram of the utility model smoke exhaust ventilator, its most of structure is identical with the first embodiment (Fig. 6), difference is: smoke exhaust ventilator alternating temperature module is installed on flue collector shell 20, the module housing 1 of smoke exhaust ventilator alternating temperature module is fixed on before flue collector shell 20 by the mode of removably connecting, and the structure of this module housing 1 adopts the stereogram of module housing second embodiment as shown in Figure 5 in addition.

The above embodiment is only for absolutely proving the preferred embodiment that the utility model is lifted, and protection domain of the present utility model is not limited thereto.The equivalent alternative or conversion that those skilled in the art do on the utility model basis, all within protection domain of the present utility model.Protection domain of the present utility model is as the criterion with claims.

Claims (11)

1. a smoke exhaust ventilator alternating temperature module, is characterized in that: comprising:

Module housing: there is cavity and open the first heat exchange air inlet, the first heat exchange air outlet, the second heat exchange air inlet and the second heat exchange air outlet on the different wall of module housing;

Semiconductor changing device: comprise the semiconductor chilling plate and, second alternating temperature surface hot linked first heat-exchange system and second heat-exchange system surperficial with the first alternating temperature of semiconductor chilling plate that are arranged at module housing inner chamber, wherein the first heat-exchange system is arranged between the first heat exchange air inlet and the first heat exchange air outlet at least partially, and described second heat-exchange system is arranged between the second heat exchange air inlet and the second heat exchange air outlet at least partially.

2. smoke exhaust ventilator alternating temperature module according to claim 1, is characterized in that:

Also comprise:

First Air Blast fan: be arranged in the cavity of module housing, it sucks surrounding air from described first heat exchange air inlet, is then blown out towards described first heat exchange air outlet by the air sucked;

Second Air Blast fan: be arranged in the cavity of module housing, it sucks surrounding air from described second heat exchange air inlet, is then blown out towards described second heat exchange air outlet by the air sucked.

3. smoke exhaust ventilator alternating temperature module according to claim 2, is characterized in that: described first Air Blast fan and the second Air Blast fan are axial-flow fan or quiet fan.

4. smoke exhaust ventilator alternating temperature module according to claim 1, is characterized in that:

Described first heat exchange air inlet is arranged at the upper wall of module housing;

Described first heat exchange air outlet is arranged at the antetheca top of module housing;

Described second heat exchange air inlet is provided with a pair, and is arranged at the left and right wall bottom of module housing;

Described second heat exchange air outlet is arranged at the rear wall bottom of module housing or arranges, is symmetricly set in the left and right wall bottom of module housing in pairs;

Described first heat-exchange system is located between the first Air Blast fan and the first heat exchange air outlet at least partially;

Described second heat-exchange system is located between the second Air Blast fan and the second heat exchange air outlet at least partially;

Described first heat exchange air inlet, the first heat exchange air outlet are corresponding with the air inlet of air-conditioning, air outlet position respectively.

5. smoke exhaust ventilator alternating temperature module according to claim 1, is characterized in that: described first heat-exchange system comprises:

First heat exchange substrate: the cavity being arranged at module housing, and be connected with the first alternating temperature surface heat of semiconductor chilling plate;

Many first heat pipes: be arranged on the first heat exchange substrate, each first heat pipe is the U-tube of 90 degree in inversion all, the lower tubular section of many first heat pipes is that horizontal interval is inserted in the first heat exchange substrate, and the upper tubular section of many first heat pipes is horizontal interval arrangement or is obliquely spaced.

6. smoke exhaust ventilator alternating temperature module according to claim 5, is characterized in that: the upper tubular section of many described first heat pipes is connected with multiple first heat exchange fin.

7. smoke exhaust ventilator alternating temperature module according to claim 1, is characterized in that: described second heat-exchange system comprises:

Second heat exchange substrate: be arranged in the cavity of module housing, and be connected with the second alternating temperature surface heat of semiconductor chilling plate;

Many second heat pipes: be arranged on the second heat exchange substrate, each second heat pipe is the U-tube of 90 degree in inversion all, the upper tubular section of many second heat pipes is that horizontal interval is inserted in the second heat exchange substrate, and the lower tubular section of many second heat pipes is horizontal interval arrangement or is obliquely spaced.

8. smoke exhaust ventilator alternating temperature module according to claim 7, is characterized in that: the lower tubular section of many described second heat pipes is connected with multiple second heat exchange fin.

9. smoke exhaust ventilator alternating temperature module according to claim 1, is characterized in that: described first heat exchange air outlet is provided with wind-guiding grid.

10. smoke exhaust ventilator alternating temperature module according to claim 9, is characterized in that: described first heat exchange air inlet, the second heat exchange air inlet, the second heat exchange air outlet are respectively arranged with air grid.

11. 1 kinds of smoke exhaust ventilators, is characterized in that: comprising:

The smoke exhaust ventilator alternating temperature module that one of claim 1-10 is described: its module housing is arranged on cooking-fume exhausting hood housing.