CN216308398U - Multi-channel multi-wind-path circulating device applied to drying room - Google Patents

Abstract

The utility model provides a multi-channel multi-wind-path circulating device applied to a drying room, which comprises air supply areas, circulating air areas, air guide channels and circulating air channels, wherein the circulating air areas are arranged on two sides of an inner cavity of the drying room, a material area is arranged between the two circulating air areas, a plurality of air guide channels are arranged between the circulating air areas and the material area, the air supply areas are arranged above the circulating air areas, the circulating air channels are arranged above the material area, and the circulating air channels are connected with the air supply areas. This scheme can form multiple circulation mode to be convenient for dry the operation to different materials.

Description

Multi-channel multi-wind-path circulating device applied to drying room

Technical Field

The utility model relates to a drying room, in particular to a multi-channel multi-air-path circulating device applied to the drying room.

Background

The drying room generally adopts closed square box structure, and it only is equipped with the air exit, can not carry out the multi-direction multichannel circulation of air, causes local overheat easily, and the air supply mode is single simultaneously, can only blow to one direction, and the result of use is not good.

Disclosure of Invention

The utility model aims to provide a multi-channel circulating air drying room which is reasonable in structure, good in using effect and capable of circulating in multiple directions.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows: the utility model provides a be applied to many wind paths of multichannel circulating device in baking house, it is including air feed district, circulation wind district, wind-guiding passageway, circulation wind channel, and wherein, the baking house inner chamber both sides are located in the circulation wind district, are the material district between two circulation wind districts, are equipped with a plurality of wind-guiding passageways between circulation wind district and the material district, and circulation wind district top is equipped with the air feed district, and the material district top is equipped with circulation wind channel, and circulation wind channel is connected with the air feed district.

And supports are arranged on two sides of the inner side of the drying room, and a circulating air area is reserved between each support and the wall of the inner cavity of the drying room.

The air guide plates are mounted on the support, and gaps are reserved between every two adjacent air guide plates to form air guide channels.

The support frame is installed on support upper portion, is fixed with the baffle on the support frame, and the circulation wind channel distributes in the baffle middle part by preceding to the back, and the vertical deep bead that is fixed with on the support frame of circulation wind channel both sides, installs the fan frame on the support frame of circulation wind channel top, and the fan is installed to fan frame both sides.

The surface of the fan frame is fixedly provided with a wind shielding plate, a connector is reserved between the wind shielding plate and the wind shielding plate, a circulating air channel is reserved between the wind shielding plate and the partition plate, an air supply area is reserved between the fan and the inner cavity wall of the drying room, and the connector is connected with the circulating air channel and the air supply area.

After the scheme is adopted, various circulation modes can be formed, so that drying operation on different materials is facilitated, the using effect is good, and the adaptability is strong.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a side view of the present invention.

FIG. 3 is a schematic view of the position of the fan of the present invention.

FIG. 4 is a schematic view of the wind direction of the first wind supply mode in the embodiment.

Fig. 5 is a schematic view of the wind direction of the second wind supply mode in the embodiment.

Fig. 6 is a schematic view of the wind direction of the third wind supply mode in the embodiment.

Fig. 7 is a schematic view of the wind direction of the fourth wind supply mode in the embodiment.

Detailed Description

The utility model will be further described with reference to the accompanying drawings, in which preferred embodiments of the utility model are: referring to fig. 1 to 3, the multi-channel and multi-wind-path circulating device applied to the drying room in the embodiment includes an air supply area, a circulating air area, air guide channels and a circulating air duct, wherein the circulating air area is disposed on two sides of an inner cavity of the drying room, a material area is disposed between the two circulating air areas, a plurality of air guide channels are disposed between the circulating air area and the material area, the air supply area is disposed above the circulating air area, the circulating air duct is disposed above the material area, and the circulating air duct is connected with the air supply area.

The above circulation system is realized by the following structure,

the two sides of the inner side of the drying room are provided with supports 1, and a circulating air area is reserved between the supports 1 and the wall of the inner cavity of the drying room. The support 1 is provided with air deflectors 6, and a gap is reserved between adjacent air deflectors 6 and is an air guide channel. Support frame 2 is installed on 1 upper portion of support, is fixed with baffle 5 on support frame 2, and the circulation wind channel is by preceding to back distribution at baffle 5 middle part, and the vertical deep bead that is fixed with on the support frame 2 of circulation wind channel both sides, and installation fan frame 4 on the support 1 of circulation wind channel top, fan 3 is installed to fan frame 4 both sides. The surface of the fan frame 4 is fixed with a wind shielding plate 7, a connector is reserved between the wind shielding plate 7 and a wind shield, a circulating air channel is reserved between the wind shielding plate 7 and the partition plate 5, an air supply area is reserved between the fan 3 and the inner cavity wall of the drying room, and the connector is connected with the circulating air channel and the air supply area.

The first air supply mode of the present embodiment (see fig. 4): the equal air feed (blow) of fan of both sides, wind-force passes through the air feed district and gets into the circulation wind district downwards, the wind in circulation wind district passes the material contact in wind-guiding passageway and material district, upwards get into the circulation wind channel under the effect of both sides wind force after the contact is accomplished, pass the connector by both sides under the direction in circulation wind channel and continue to get into the air feed district (the wind that has the waste heat), thereby form forward dual cycle, adopt a plurality of wind-guiding passageway cooperations, it is more even to make wind disperse, can not cause the local overheated condition to take place, therefore, also can greatly reduced energy consumption.

The second air supply mode of the present embodiment (see fig. 5): the fans on the two sides all suck air, the air passes through the air guide channel from the material area to the two sides to enter the circulating air area, the air in the circulating air area upwards enters the air supply area under the suction force of the fans, and the air in the air supply area passes through the connecting port to enter the circulating air channel and then downwards enters the material area, so that reverse double circulation is formed.

The third air supply mode of the present embodiment (see fig. 6): one of the fans blows air, the other fan sucks air, blown wind power downwards enters the circulating air area through the air supply area, the wind in the circulating air area passes through the air guide channel to be in contact with materials in the material area, the wind (residual hot air) after being in contact with the materials can enter the circulating air area on the other side under the action of suction of the fan on the other side, the wind (residual hot air) entering the circulating air area upwards enters the air supply area, the wind in the air supply area passes through the connecting port to enter the circulating air duct, and the wind in the other air area passes through the circulating air duct to enter the previous air supply area under the blowing action of the other air group to form unidirectional positive circulation.

The air supply mode of the present embodiment is four (see fig. 7): and a unidirectional reverse circulation is formed in a way opposite to the air supply mode III.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a be applied to many wind paths of multichannel circulating device in baking house which characterized in that: the drying room comprises an air supply area, a circulating air area, air guide channels and circulating air channels, wherein the circulating air area is arranged on two sides of an inner cavity of the drying room, a material area is arranged between the two circulating air areas, the air guide channels are arranged between the circulating air area and the material area, the air supply area is arranged above the circulating air area, the circulating air channels are arranged above the material area, and the circulating air channels are connected with the air supply area.

2. The multi-channel multi-air-path circulating device applied to the drying room of claim 1, wherein: the two sides of the inner side of the drying room are provided with supports (1), and a circulating air area is reserved between the supports (1) and the wall of the inner cavity of the drying room.

3. The multi-channel multi-air-path circulating device applied to the drying room of claim 2, wherein: the support (1) is provided with air deflectors (6), and a gap is reserved between every two adjacent air deflectors (6) to form an air guide channel.

4. The multi-channel multi-air-path circulating device applied to the drying room of claim 2, wherein: support frame (2) are installed on support (1) upper portion, are fixed with baffle (5) on support frame (2), and circulation wind channel distributes in baffle (5) middle part to the back by preceding, and the support frame (2) of circulation wind channel both sides is gone up the vertical deep bead that is fixed with, installs fan frame (4) on support (1) of circulation wind channel top, and fan (3) are installed to fan frame (4) both sides.

5. The multi-channel multi-air-path circulating device applied to the drying room of claim 4, wherein: the surface of the fan frame (4) is fixed with a wind shielding plate (7), a connector is reserved between the wind shielding plate (7) and a wind shielding plate, a circulating air channel is reserved between the wind shielding plate (7) and the partition plate (5), an air supply area is reserved between the fan (3) and the inner cavity wall of the drying room, and the connector is connected with the circulating air channel and the air supply area.

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