CN201700381U

CN201700381U - Wind path structure of cooler

Info

Publication number: CN201700381U
Application number: CN2010202072463U
Authority: CN
Inventors: 闾宏
Original assignee: Jiangsu Muyang Group Co Ltd
Current assignee: Jiangsu Muyang Group Co Ltd
Priority date: 2010-05-28
Filing date: 2010-05-28
Publication date: 2011-01-12
Anticipated expiration: 2020-05-28

Abstract

The utility model discloses a wind path structure of a cooler, which belongs to the technical field of food and feed and aims to solve the nonuniform cabin internal air current problem for the traditional air cooler. The wind path structure of the cooler comprises a cabin body and an induced-draught wind channel which is arranged at the top part of the cabin body. The cabin external induced-draught port of the induced-draught wind channel is arranged at the side of the cabin body and a cabin internal induced-draught port is arranged at the lower end plane of the induced-draught wind channel and aims at the center of the cabin body. An air distributer is arranged under the cabin internal induced-draught port and is parallel to the cabin internal induced-draught port. The preferred cabin internal induced-draught port and the air distributer are round and share a central line with the cabin body. The outer diameter of the air distributer is more than the diameter of the cabin internal induced-draught port. The preferred outer diameter of the air distributer is 1.2 to 1.5 times more than the diameter of the cabin internal induced-draught port. After the air distributer is arranged under the cabin internal induced-draught port, air volume passing through a material layer at the cabin center and the peripheral area is balanced.

Description

The wind path structure of cooler

Technical field

The utility model relates to the cooler of a kind of grain, field of fodder, particularly a kind of wind path structure of cooler.

Background technology

Grain, field of fodder adopt cooler that granule materials is cooled off usually, and wherein counter-current cooler is because performance is good, efficient is high the most common, and for reducing height dimension and being convenient to pipe arrangement, the warehouse top-side is provided with inlet scoop outside the storehouse.Air-flow in the such wind path structure, warehouse is extremely inhomogeneous, and is near the position wind speed height of inlet scoop, low away from the position wind speed of inlet scoop in the warehouse, distribution gradient, and the material cooling effect that causes being positioned at the material of warehouse periphery and being positioned at the warehouse center differs greatly.

The utility model content

The technical problems to be solved in the utility model provides a kind of wind path structure of cooler, makes the air-flow in the warehouse even.

For solving above technical problem, the wind path structure of a kind of cooler provided by the utility model, comprise warehouse, the top-side of described warehouse is provided with inlet scoop outside the storehouse, top in the described warehouse is provided with the air draught air channel, described air draught air channel is stretched out outside the warehouse and with inlet scoop outside the described storehouse and is connected, and the lower surface in described air draught air channel is provided with inlet scoop in the storehouse, and the center of described warehouse is aimed in the inlet scoop in the described storehouse.

With respect to prior art, the utility model has been obtained following beneficial effect: air draught air channel in the warehouse is set, and the center of warehouse is aimed in the inlet scoop in the storehouse in, compares with inlet scoop outside the storehouse that is positioned at the warehouse side, the interior air-flow of grey body is even a lot.

As preferred version of the present utility model, in the described storehouse inlet scoop under homogenating plate is installed, described homogenating plate is parallel with inlet scoop in the described storehouse.Because the warehouse center is aimed in the inlet scoop in the storehouse, the windage in warehouse centre is littler than warehouse periphery, after homogenating plate is installed in the below, inlet scoop in the storehouse, when outside the storehouse during air draught of inlet scoop, air-flow enters in the warehouse from the cooler bottom, pass material bed, from air distribution plate around enter inlet scoop in the storehouse, make the air quantity of warehouse center and warehouse periphery more tend to balance.

As preferred version of the present utility model, inlet scoop and described homogenating plate are circle in the described storehouse, and inlet scoop, homogenating plate all have a center line with described warehouse in the storehouse.

As the further preferred version of the utility model, the external diameter of described homogenating plate is greater than the diameter of inlet scoop in the described storehouse.

As the further preferred version of the utility model, the external diameter of described homogenating plate is 1.2～1.5 times of inlet scoop diameter in the described storehouse.The homogenating plate external diameter is under the situation of 1.2～1.5 times of inlet scoop diameters in the storehouse, and not only tend to balance with the air quantity of periphery in the warehouse center, and overall windage is less.

Description of drawings

Fig. 1 is the schematic diagram of the wind path structure of the utility model cooler.

Fig. 2 is along the upward view of A-A among Fig. 1.

Among the figure: in 1 material bed, 2 warehouses, 3 air draught air channels, 4 storehouses inlet scoop outside inlet scoop, 5 homogenating plates, 6 air-flows, 7 storehouses.

The specific embodiment

As shown in Figures 1 and 2, the wind path structure of the utility model cooler, comprise warehouse 2 and air draught air channel 3, air draught air channel 3 is positioned at the top of warehouse 2, inlet scoop 7 is arranged on the warehouse side outside the storehouse in air draught air channel 3, and inlet scoop 4 is located on the lower surface in air draught air channel 3 in the storehouse, aims at the warehouse center, 4 belows, inlet scoop are equipped with homogenating plate 5 in the storehouse, and homogenating plate 5 is parallel with inlet scoop 4 in the storehouse.Inlet scoop 4 preferably is circle with homogenating plate 5 in the storehouse, and has a center line with warehouse 2.The external diameter of homogenating plate 5 is greater than the diameter of inlet scoop in the storehouse 4, and preferably the external diameter of homogenating plate 5 is 1.2～1.5 times of inlet scoop 4 diameters in the storehouse.After homogenating plate 5 is installed in 4 belows, inlet scoop in the storehouse, make warehouse center and neighboring area pass material bed 1 air quantity and tend to balance.

In addition to the implementation, the utility model can also have other embodiments.All employings are equal to the technical scheme of replacement or equivalent transformation formation, all fall into the protection domain of the utility model requirement.

Claims

1. the wind path structure of a cooler, comprise warehouse, the top-side of described warehouse is provided with inlet scoop outside the storehouse, it is characterized in that, top in the described warehouse is provided with the air draught air channel, described air draught air channel is stretched out outside the warehouse and with inlet scoop outside the described storehouse and is connected, and the lower surface in described air draught air channel is provided with inlet scoop in the storehouse, and the center of described warehouse is aimed in the inlet scoop in the described storehouse.

2. the wind path structure of cooler according to claim 1 is characterized in that, in the described storehouse inlet scoop under homogenating plate is installed, described homogenating plate is parallel with inlet scoop in the described storehouse.

3. the wind path structure of cooler according to claim 2 is characterized in that, inlet scoop and described homogenating plate are circle in the described storehouse, and inlet scoop, homogenating plate all have a center line with described warehouse in the storehouse.

4. the wind path structure of cooler according to claim 3 is characterized in that, the external diameter of described homogenating plate is greater than the diameter of inlet scoop in the described storehouse.

5. the wind path structure of cooler according to claim 4 is characterized in that, the external diameter of described homogenating plate is 1.2～1.5 times of inlet scoop diameter in the described storehouse.