CN203687564U

CN203687564U - Efficient energy-saving drying system

Info

Publication number: CN203687564U
Application number: CN201420000266.1U
Authority: CN
Inventors: 郎东辉; 刘志刚; 安曼; 王笑; 王大华
Original assignee: BAODING BANGTAI POLYMERIC NEW-MATERIALS Co Ltd
Current assignee: BAODING BANGTAI POLYMERIC NEW-MATERIALS Co Ltd
Priority date: 2014-01-02
Filing date: 2014-01-02
Publication date: 2014-07-02
Anticipated expiration: 2024-01-02

Abstract

The utility model discloses an efficient energy-saving drying system which comprises a drying material barrel. An air distributor is arranged in the drying material barrel in an inclined mode, a material filter screen is arranged above the air distributor in an inclined mode, a porous electric infrared heating plate is arranged below the air distributor, and an air inlet in the bottom of the drying material barrel is connected with a drying bed, a draught fan and an air outlet in the top of the drying material barrel. The efficient energy-saving drying system is even and efficient in drying and capable of saving energy and protecting the environment.

Description

A kind of energy-efficient drying system

Technical field

The utility model relates to chemical field, in particular to the energy-efficient drying system of one.

Background technology

Drier is moisture and the gasification of other volatile compositions promoting by heating in material, to reduce the plant equipment of material moisture and other volatile impurity content.Common drying equipment is to realize dry materials by vacuum condition or by dry overfire air stream.But the vacuum dryer dry run time is long and vacuum equipment manufacturing cost is high, and conventional heated-air drying equipment is inhomogeneous to dry materials in barrel, needs to stir in dry run, and heated air stream thermal losses is simultaneously large, is unfavorable for energy-conserving and environment-protective.

Utility model content

The purpose of this utility model is to provide a kind of energy-efficient drying system, and this drying system uniform drying is efficient, and energy-conserving and environment-protective.

For achieving the above object, the utility model is taked following technical scheme:

A kind of energy-efficient drying system, comprise dry barrel, it is characterized in that, the dry tilted air sparger that is provided with of barrel, air sparger top is tiltedly installed with material filter screen, air sparger below is provided with poroid electric infrared hot plate, and dry barrel bottom air inlet mouth is connected with drying bed, blower fan and dry barrel top exhaust outlet by the road.

Described air sparger parallels with described material filter screen, and all from the horizontal by 5 ~ 50 degree angles.

Further, described air sparger and described material filter screen are from the horizontal by 15 ~ 30 degree angles.

Air cleaner is also installed on described pipeline.

In technique scheme, material filter screen is obliquely installed the smooth discharge that is conducive to material, add air sparger can make air-flow be evenly distributed, drying effect is good, poroid electric infrared hot plate is arranged on to air sparger bottom, can effectively heat air-flow, native system does not need to stir, energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described further:

As shown in Figure 1, there is charging aperture 7 dry barrel 1 top, and bottom is provided with discharging opening 8, and air sparger 5 is ready-made device, can redistribute as required the air of blowing over.Air sparger 5 tilts to be arranged on dry barrel.Above air sparger 5, what parallel with air sparger 5 is provided with material filter screen 6, and the aperture of material filter screen 6 is less than the particle diameter of material.Air sparger 5 is 5 ~ 50 degree with material filter screen 6 and horizontal direction angulation scope, preferably 15 ~ 30 degree.The lower end of material filter screen 6 is positioned at discharging opening 8 belows, so that material can be discharged discharging opening 8 smoothly.

Poroid electric infrared hot plate 11 is installed in the dry barrel 1 below air sparger 5, after poroid electric infrared hot plate 11 energisings, can generate heat, be provided with air-vent above, the bottom of dry barrel 1 is air inlet 9, after adding by poroid electric infrared hot plate 11 after gas is entered by air inlet 9, pass through air sparger 5 and material filter screen 6, material on material filter screen 6 is heated, then discharged by the exhaust outlet 10 of dry barrel 1 top.Air inlet 9 12 is connected with drying bed 2, air cleaner 4, blower fan 3 by the road, and is connected to form gas return path with exhaust outlet 10.

The present embodiment is an explanation to the utility model design and realization just, is not limited, and under the utility model design, the technical scheme converting without essence is still in protection domain.

Claims

1. an energy-efficient drying system, comprise dry barrel, it is characterized in that, the dry tilted air sparger that is provided with of barrel, air sparger top is tiltedly installed with material filter screen, air sparger below is provided with poroid electric infrared hot plate, and dry barrel bottom air inlet mouth is connected with drying bed, blower fan and dry barrel top exhaust outlet by the road.

2. energy-efficient drying system as claimed in claim 1, is characterized in that, described air sparger parallels with described material filter screen, and all from the horizontal by 5 ~ 50 degree angles.

3. energy-efficient drying system as claimed in claim 2, is characterized in that, described air sparger and described material filter screen are from the horizontal by 15 ~ 30 degree angles.

4. the energy-efficient drying system as described in claim 1,2 or 3, is characterized in that, air cleaner is also installed on described pipeline.