CN104896594A

CN104896594A - Air duct system with multiple air feed modes

Info

Publication number: CN104896594A
Application number: CN201510306640.XA
Authority: CN
Inventors: 卢海洋; 葛安全; 王伟毅
Original assignee: Shenzhen Ou Yeshi Science And Technology Ltd
Current assignee: Shenzhen Ou Yeshi Science And Technology Ltd
Priority date: 2015-06-05
Filing date: 2015-06-05
Publication date: 2015-09-09

Abstract

The invention discloses an air duct system with multiple air feed modes. The air duct system comprises a box body, the box body is provided with a first pipeline, a second pipeline, a first window and a second window, a fan is arranged in the box body, the air inlet side and the air outlet side of the fan are separated by a first partition in the box body, both the first pipeline and the first window are arranged on the air inlet side of the fan, and a first driving mechanism and a first baffle are arranged on the air inlet side of the fan; the first baffle is arranged at the driving end of the first driving mechanism, the first driving mechanism is used for driving the first baffle to close of the first pipeline and the first window and keep the other one open, the second pipeline and the second window are arranged on the air outlet side of the fan, a second driving mechanism and a second baffle are arranged on the air outlet side of the fan, the second baffle is arranged at the driving end of the second driving mechanism, and the second driving mechanism is used for driving the second baffle to close one of the second pipeline and the second window and keep the other one open. The air duct system has the advantages of simple structure, easy control, space conservation, low cost and the like.

Description

A kind of many air supply patterns ducting system

Technical field

The present invention relates to the ducting system of air cleaning facility, particularly relate to a kind of many air supply patterns ducting system.

Background technology

New-air purifying system generally includes off-premises station and indoor set, off-premises station and indoor set pass through pipeline communication, at least one blower fan is provided with in off-premises station, during blower fan running, indoor-outdoor air flowing can be realized, in actual applications, New-air purifying system need possess Inner eycle usually, the multiple circulation pattern such as outer circulation, and in prior art, for realizing multiple circulation pattern, multiple blower fan is needed to select a running and realize Inner eycle or outer circulation isotype, therefore, existing product arranges multiple air channel and multiple blower fan usually, cause the size of off-premises station larger, complex structure, cost is higher.

Summary of the invention

The technical problem to be solved in the present invention is, for the deficiencies in the prior art, provide a kind of structure simple, be easy to control, save space, many air supply patterns ducting system that cost is low.

For solving the problems of the technologies described above, the present invention adopts following technical scheme.

A kind of many air supply patterns ducting system, it includes casing, described casing is provided with the first pipeline, second pipe, first window and Second Window, blower fan is provided with in described casing, the inlet air side of described blower fan and air side are by being located at the first baffle for separating in casing, wherein: described first pipeline and first window are all located at the inlet air side of blower fan, the inlet air side of described blower fan is also provided with the first driving mechanism and the first baffle plate, described first plate washer is located at the drive end of the first driving mechanism, for driving this first baffle plate, by the closedown of one of the first pipeline and first window, another opens described first driving mechanism, described second pipe and Second Window are all located at the air side of blower fan, the air side of described blower fan is also provided with the second driving mechanism and second baffle, described second plate washer is located at the drive end of the second driving mechanism, and for driving this second baffle, by the closedown of one of second pipe and Second Window, another opens described second driving mechanism.

Preferably, include outer circulation pattern: described first driving mechanism drives the first plate washer close the first pipeline and open first window, described second driving mechanism drives the second plate washer close Second Window and open second pipe, drives air successively along first window, blower fan and the flowing of second pipe direction during described blower fan running.

Preferably, include Inner eycle pattern: described first driving mechanism drives the first plate washer close first window and open the first pipeline, described second driving mechanism drives the second plate washer close Second Window and open second pipe, drives air successively along the first pipeline, blower fan and the flowing of second pipe direction during described blower fan running.

Preferably, include interior forced-ventilated pattern: described first driving mechanism drives the first plate washer close first window and open the first pipeline, described second driving mechanism drives the second plate washer close second pipe and open Second Window, drives air successively along the first pipeline, blower fan and the flowing of Second Window direction during described blower fan running.

Preferably, be provided with towards the second partition of the first pipeline and the 3rd dividing plate towards first window in described casing, described second partition is provided with the first air port, described 3rd dividing plate is provided with the second air port, described first driving mechanism is located at the corner of second partition and the formation of the 3rd dividing plate, described first driving mechanism drives the first baffle plate to block and when the first air port, closes the first pipeline and open first window, and described first driving mechanism drives the first baffle plate to block and when the second air port, closes first window and open the first pipeline.

Preferably, the 4th dividing plate towards the 3rd pipeline and the 5th dividing plate towards Second Window is provided with in described casing, described 4th dividing plate is provided with the 3rd air port, described 5th dividing plate is provided with the 4th air port, described second driving mechanism is located at the corner of the 4th dividing plate and the formation of the 5th dividing plate, described second driving mechanism drives the second plate washer to block and when the 3rd air port, closes the 3rd pipeline and open Second Window, and described second driving mechanism drives the second plate washer to block and when the 4th air port, closes Second Window and open the 3rd pipeline.

Preferably, described first driving mechanism is stepper motor or the cylinder for driving the first baffle plate turning.

Preferably, described second driving mechanism is stepper motor or the cylinder for driving the second plate washer upset.

In many air supply patterns ducting system disclosed by the invention, first pipeline is communicated in indoor set through body of wall, second pipe is communicated in the interior space through body of wall, blower fan is arranged in the first dividing plate, and the air intake vent of blower fan and air outlet are divided into the first dividing plate both sides, under the effect of the first driving mechanism, the first baffle plate can be driven alternatively in the first pipeline and first window to be closed, another in the two is opened simultaneously, under the effect of the second driving mechanism, second baffle can be driven alternatively in second pipe and Second Window to be closed, another in the two is opened simultaneously, so when blower fan operates, can from one of the first pipeline and first window air intake, from the air-out of one of second pipe and Second Window, and then realize Inner eycle, outer circulation, the multiple air supply pattern such as interior forced-ventilated, the present invention just can realize the conversion of air supply pattern by the duty of conservative control first driving mechanism and the second driving mechanism, not only structure is simple, and be easy to control, without the need to multiple air channel and multiple blower fan, effectively save space, and greatly reduce product cost.

Accompanying drawing explanation

Fig. 1 is the stereogram of the present invention's many air supply patterns ducting system.

Fig. 2 is the box inner structure figure under outer circulation pattern.

Fig. 3 is the box inner structure figure under Inner eycle pattern.

Fig. 4 is the box inner structure figure under outer forced-ventilated pattern.

Fig. 5 is the structure chart at another visual angle of box house.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is described in more detail.

The invention discloses a kind of many air supply patterns ducting system, shown in composition graphs 1 and Fig. 2, it includes casing 1, described casing 1 is provided with the first pipeline 2, second pipe 3, first window 4 and Second Window 5, blower fan 6 is provided with in described casing 1, the inlet air side of described blower fan 6 and air side are separated by the first dividing plate 7 be located in casing 1, wherein:

Described first pipeline 2 and first window 4 are all located at the inlet air side of blower fan 6, the inlet air side of described blower fan 6 is also provided with the first driving mechanism 8 and the first baffle plate 9, described first plate washer 9 is located at the drive end of the first driving mechanism 8, and for driving this first baffle plate 9, by the closedown of one of the first pipeline 2 and first window 4, another opens described first driving mechanism 8;

Described second pipe 3 and Second Window 5 are all located at the air side of blower fan 6, the air side of described blower fan 6 is also provided with the second driving mechanism 10 and second baffle 11, described second plate washer 11 is located at the drive end of the second driving mechanism 10, and for driving this second baffle 11, by the closedown of one of second pipe 3 and Second Window 5, another opens described second driving mechanism 10.

In above-mentioned many air supply patterns ducting system, first pipeline 2 is communicated in indoor set through body of wall, second pipe 3 is communicated in the interior space through body of wall, blower fan 6 is arranged in the first dividing plate 7, and the air intake vent of blower fan 6 and air outlet are divided into the first dividing plate 7 both sides, under the effect of the first driving mechanism 8, the first baffle plate 9 can be driven alternatively by a closedown in the first pipeline 2 and first window 4, another in the two is opened simultaneously, under the effect of the second driving mechanism 10, second baffle 11 can be driven alternatively by a closedown in second pipe 3 and Second Window 5, another in the two is opened simultaneously, so when blower fan 6 operates, can from one of the first pipeline 2 and first window 4 air intake, from the air-out of one of second pipe 3 and Second Window 5, and then realize Inner eycle, outer circulation, the multiple air supply pattern such as interior forced-ventilated, the present invention just can realize the conversion of air supply pattern by the duty of conservative control first driving mechanism 8 and the second driving mechanism 10, not only structure is simple, and be easy to control, without the need to multiple air channel and multiple blower fan, effectively save space, and greatly reduce product cost.

Air supply pattern in the present invention can with reference to following embodiment:

Embodiment one

Outside under circulation pattern, as shown in Figure 2, described first driving mechanism 8 drives the first plate washer 9 close the first pipeline 2 and open first window 4, described second driving mechanism 10 drives the second plate washer 11 close Second Window 5 and open second pipe 3, air is driven successively along first window 4, blower fan 6 and the flowing of second pipe 3 direction when described blower fan 6 operates, make outdoor air enter casing 1 via first window 4, then enter the purification further of indoor set do by second pipe 3.

Embodiment two

Under Inner eycle pattern, as shown in Figure 3, described first driving mechanism 8 drives the first plate washer 9 close first window 4 and open the first pipeline 2, described second driving mechanism 10 drives the second plate washer 11 close Second Window 5 and open second pipe 3, air is driven successively along the first pipeline 2, blower fan 6 and the flowing of second pipe 3 direction when described blower fan 6 operates, make room air enter casing 1 via the first pipeline 2, then enter the purification further of indoor set do by second pipe 3.

Embodiment three

Under interior forced-ventilated pattern, as shown in Figure 4, described first driving mechanism 8 drives the first plate washer 9 close first window 4 and open the first pipeline 2, described second driving mechanism 10 drives the second plate washer 11 close second pipe 3 and open Second Window 5, air is driven successively along the first pipeline 2, blower fan 6 and the flowing of Second Window 5 direction when described blower fan 6 operates, make room air enter casing 1 via the first pipeline 2, then flow to outdoor by Second Window 5, and then get rid of foul atmosphere.

In order to realize above-mentioned three kinds of air supply patterns better, composition graphs 1, shown in Fig. 2 and Fig. 5, the second partition 12 towards the first pipeline 2 and the 3rd dividing plate 14 towards first window 4 is provided with in described casing 1, described second partition 12 is provided with the first air port 13, described 3rd dividing plate 14 is provided with the second air port 15, described first driving mechanism 8 is located at the corner of second partition 12 and the formation of the 3rd dividing plate 14, described first driving mechanism 8 drives the first baffle plate 9 to block and when the first air port 13, closes the first pipeline 2 and open first window 4, described first driving mechanism 8 drives the first baffle plate 9 to block and when the second air port 15, closes first window 4 and open the first pipeline 2, said structure contributes to the first plate washer 9 and closes or open first window 4 and the first pipeline 2 better.Further, described first driving mechanism 8 is stepper motor or the cylinders for driving the first baffle plate 9 upset.

Composition graphs 1, shown in Fig. 2 and Fig. 5, the 4th dividing plate 16 towards the 3rd pipeline 3 and the 5th dividing plate 18 towards Second Window 5 is provided with in described casing 1, described 4th dividing plate 16 is provided with the 3rd air port 17, described 5th dividing plate 18 is provided with the 4th air port 19, described second driving mechanism 10 is located at the corner of the 4th dividing plate 16 and the formation of the 5th dividing plate 18, described second driving mechanism 10 drives the second plate washer 11 to block and when the 3rd air port 17, closes the 3rd pipeline 3 and open Second Window 5, described second driving mechanism 10 drives the second plate washer 11 to block and when the 4th air port 19, closes Second Window 5 and open the 3rd pipeline 3, said structure contributes to the second plate washer 11 and closes or open Second Window 5 and the 3rd pipeline 3 better.Further, described second driving mechanism 10 is stepper motor or the cylinders for driving the second plate washer 11 upset.

Many air supply patterns ducting system disclosed by the invention, the conversion of the air supply patterns such as Inner eycle, outer circulation, interior forced-ventilated just can be realized by the duty of conservative control first driving mechanism 8 and the second driving mechanism 10, not only structure is simple, and be easy to control, without the need to multiple air channel and multiple blower fan, effectively save space, and greatly reduce product cost.

The above is preferred embodiment of the present invention, is not limited to the present invention, all make in technical scope of the present invention amendment, equivalent to replace or improvement etc., all should be included in scope that the present invention protects.

Claims

1. the ducting system of air supply pattern more than, is characterized in that, include casing, described casing is provided with the first pipeline, second pipe, first window and Second Window, be provided with blower fan in described casing, the inlet air side of described blower fan and air side by being located at the first baffle for separating in casing, wherein:

Described first pipeline and first window are all located at the inlet air side of blower fan, the inlet air side of described blower fan is also provided with the first driving mechanism and the first baffle plate, described first plate washer is located at the drive end of the first driving mechanism, and for driving this first baffle plate, by the closedown of one of the first pipeline and first window, another opens described first driving mechanism;

Described second pipe and Second Window are all located at the air side of blower fan, the air side of described blower fan is also provided with the second driving mechanism and second baffle, described second plate washer is located at the drive end of the second driving mechanism, and for driving this second baffle, by the closedown of one of second pipe and Second Window, another opens described second driving mechanism.

2. many air supply patterns ducting system as claimed in claim 1, it is characterized in that, include outer circulation pattern: described first driving mechanism drives the first plate washer close the first pipeline and open first window, described second driving mechanism drives the second plate washer close Second Window and open second pipe, drives air successively along first window, blower fan and the flowing of second pipe direction during described blower fan running.

3. many air supply patterns ducting system as claimed in claim 1, it is characterized in that, include Inner eycle pattern: described first driving mechanism drives the first plate washer close first window and open the first pipeline, described second driving mechanism drives the second plate washer close Second Window and open second pipe, drives air successively along the first pipeline, blower fan and the flowing of second pipe direction during described blower fan running.

4. many air supply patterns ducting system as claimed in claim 1, it is characterized in that, include interior forced-ventilated pattern: described first driving mechanism drives the first plate washer close first window and open the first pipeline, described second driving mechanism drives the second plate washer close second pipe and open Second Window, drives air successively along the first pipeline, blower fan and the flowing of Second Window direction during described blower fan running.

5. many air supply patterns ducting system as claimed in claim 1, it is characterized in that, be provided with towards the second partition of the first pipeline and the 3rd dividing plate towards first window in described casing, described second partition is provided with the first air port, described 3rd dividing plate is provided with the second air port, described first driving mechanism is located at the corner of second partition and the formation of the 3rd dividing plate, described first driving mechanism drives the first baffle plate to block and when the first air port, closes the first pipeline and open first window, described first driving mechanism drives the first baffle plate to block and when the second air port, closes first window and open the first pipeline.

6. many air supply patterns ducting system as claimed in claim 1, it is characterized in that, the 4th dividing plate towards the 3rd pipeline and the 5th dividing plate towards Second Window is provided with in described casing, described 4th dividing plate is provided with the 3rd air port, described 5th dividing plate is provided with the 4th air port, described second driving mechanism is located at the corner of the 4th dividing plate and the formation of the 5th dividing plate, described second driving mechanism drives the second plate washer to block and when the 3rd air port, closes the 3rd pipeline and open Second Window, described second driving mechanism drives the second plate washer to block and when the 4th air port, closes Second Window and open the 3rd pipeline.

7. many air supply patterns ducting system as claimed in claim 1, is characterized in that, described first driving mechanism is stepper motor or cylinder for driving the first baffle plate turning.

8. many air supply patterns ducting system as claimed in claim 1, is characterized in that, described second driving mechanism is stepper motor or cylinder for driving the second plate washer upset.