WO2015156748A1 - An industrial drying system - Google Patents

Abstract

The present invention relates to an industrial drying system (1 ) which enables to dry organic and/or inorganic materials having different geometrical shapes and dimensions such as food, sand, cement, zeolite, bemonite. coal, brick or concrete and it is characterized by: at least one body (2); at least one division (3) which is positioned on the body (2) and has a tunnel shape; at least one tray (4) which is located inside the division (3.) and where the material desired to be dried is placed; at least one infrared heating member (5) which is located inside the division (3) and enables the material placed onto the tray (4) to be dried inside the division (3); at least one mixing member which is positioned inside the division (3.) and ensures that heat is distributed to the material equally by mixing the material on the tray (4) during the heating process; at least one movable band (6) which is located on the body (2) and can move on the tray (4); at least one drive member (7) which is in contact with the movable band (6) and ensures that the drive necessary for motion of the movable band (6) is provided to the movable band (6); and at least one feeding member (8) which realizes loading of materials to be dried on the tray (4).

Description

DESCRIPTION AN INDUSTRIAL DRYING SYSTEM Technical Field

The present invention relates to an industrial drying system which enables to dry organic and/or inorganic materiais having different geometrical shape and dimensions such as food, sand, cement, zeolite, bentonite, coal, brick or concrete and comprises an infrared heating member.

Background of the Inv ention

It is necessary that materials such as food, sand, cement, zeolite, bentonite, coal, brick or concrete are made free from moisture and thus the materials are storable without losing their characteristics or they are made ready-to-use..

At the present time, there are various drying systems used for drying the said materials.

T hese systems may comprise heaters which are positioned into a division such that they will provide heat on the material and the material can also be made free from moisture upon being subjected to a process such as centrifuge. Heating furnaces being used in existing systems are known as "Rotary Furnace" in the state of the art.

However, materiais may not be dried in an efficient way in the said systems due to the Fact tha heat cannot spread to all parts of the materiais which are subjected to the drying process by means of tor example a heater. The materials which are subjected to the centrifuging process may be powdered and it may lead to formation of residue on the surfaces of the contained where it is subjected to the process. Therefore, it is required to clean the drying system frequently and there is also loss of amount of material due to pulverisation.

The Chinese patent document no. C 103542705, an application in the state of the art, discloses a drying device for drying coal in powdered form. In the said device, coal is loaded onto racks in a feeding unit and fed into a tunnel wherein infrared lamps are used for the purpose of drying. Following the drying process, the dried products are received by means of a collecting unit and thus the drying process is completed. However, no efficient drying can be carried out in the said invention due to the tact that equal heat cannot be spread to each part of coals.

The Chinese patent document no. C 2O2599043, another application in the state of the art, discloses a drying equipment in particular a carbon fiber/ far-infrared solar drying device. In the said device, there is a conveying machine under the drying kiln. There are radiators for spreading heat on the side walls of the said kiln whereas there are infrared plates, which will enable formation of heat for the purpose of drying, on the inner top wall of the kiln. However, in the system disclosed in the said document, a material with desired dryness cannot be obtained due to the fact that sufficient amount of heat cannot be transmitted to particularly materials remaining below when excess material is placed into the kiln.

Summary of the Invention

An objective of the present invention is to realize an efficient, fast industrial drying system with low energy consumption which enables to dry materials such as food, sand, cement, zeolite, bentonite, coal, brick or concrete.

Detailed Description of the Invention "An Industrial Drying System^" realized to fulfill the objective of the present invention is shown in the figures attached, in which: Figure 1 is a iront view of the inventive drying system.

Figure 2 is a lop view of the drying system.

Figure 3 is a detailed view of the '"A" detail shown in the Figure 1.

Figure 4 is a view of the movable band contained by the drying system.

Figure 5 is a perspective view of a heating member contained by the drying system.

Figure 6 is a cross-sectional view of a feeding member contained by the drying system.

Figure 7 is a f ont view of the feeding member shown in the Figure 6.

The components illustrated in the Figures are individually numbered, where the numbers refer to the following: 1. Drying System

2. Body

·^■¾

* . Division

4. Tray

5, 5 a . Heating Member

6. Movable Band

7_, Drive Member

8. Feeding Member

9. V entilating Member

10. Connecting Member

1 1 . Retaining Member

12. Distributing Member

The drying system (1), exemplary views of which are provided in the Figure 1 and 2, for drying organic and/or inorganic materials having different geometrical shapes and dimensions such as food. sand, cement, zeolite, bentonite, coal, brick or concrete comprises: at least one body (2);

at least one division (3) which is positioned on the body (2) and has a tunnel shape;

at least one tray (4) which is located inside the division (3) and where the material desired to be dried is placed;

at least one infrared heating member (5) which is located inside the division (3) and enables the material placed onto the tray (4) to be dried inside the division (3);

at least one mixing member (not shown in the figures) which is positioned inside the division (3) and ensures that heat is distributed to the material equally by mixing the material on the tray (4) during the heating process; at least one movable band (6) which is located on the body (2) and can move on the tray (4);

at least one drive member (7) which is in contact with the movable band (6) and ensures that the drive necessary for motion of the movable band (6) is provided to the movable band (6);

at least one feeding member (8) which realizes loading of materials to be dried on the tray (4 ).

In the drying system ( 1 ) developed by the present invention, the material desired to be dried is loaded to the tray (4) by means of the feeding member (8). Afterwards, the tray (4) proceeds into the division (3) by means of the movable band (6) and the material loaded to the tray (4) is dried via the heating member (5) located here. During heating, the material located inside the tray (4) is mixed by the mixing member located in the division (3) (the moist material remaining below is enabled to rise to the upper side) and thus it is ensured that the whole material is dried equally.

The feeding member (8) included in the inventive drying system ( 1 ) comprises at least one movable cap (not shown in the figures) which enables to place the material desired to be dried onto the tray (4) in a controlled w ay. In one embodiment of the invention, in the division (3) there is at least one sensor (not shown in the figures) which enables t measure the amount of moisture and/or heat inside the division (3). Depending on the temperature and the moisture value measured by the sensor, the heating member (5) determines the heating intensity automatically. In addition, there is at least one ventilating member (9) which enables to remove the moisture occurring in the division (3) outside the division (3) inside the division (3).

In a preferred embodiment of the invention, a plurality of heating members ( 5) are connected to one another such that they will form a three-phase circuit (delta connection). Thus, a drying system ( 3 ) with low energ consumption is obtained.

In one embodiment of the invention, the division (3) comprises at least one connecting member ( 10) which enables the heating member (5) to be positioned inside the division (3) in a fixed and safe way. The heating member (5) is connected onto the connecting member ( 10) by means of at least one retaining member (1 1 ). In a preferred embodimen of the invention, the said retaining member (1 1 has a curv ed structure.

In an alternative embodiment of the invention, the feeding member (8) comprises at least one another heating member (5a) (Figure 6). The said heating member (5a) heats the materials before the heating process carried out inside the division

(3) and thus a faster drying process is realized. in another embodiment of the invention, the feeding member (8) comprises at least one distributing member (12) which enables the materials loaded to the tray

(4) to be distributed to the tray (4) homogeneously ( figure 6). By means of the said distributing member (12), an equal amount of material is distributed onto the tray (4) and thus it s ensured that the material is heated homogeneously. In another embodiment of the invention, there is at least one pipe system (not shown in the figures) through which hot air or oil flows inside the division (3). By means of the said pipe system, a drying system (1 ) wherein heat be homogeneously spread is obtained instead of a single-sided drying system.

Due to the fact that the heating member (5) contained by the drying system ( ! ) realized by the present invention is infrared, an efficient and effective drying system (T) is realized and also it is ensured that drying process is completed in a fast way by carrying out a pre-heating in the feeding member (8). A low cost system (1 ) is formed owing to the fact that the heating member (5) operates depending on the amount on moisture and/or the temperature in the environment. In addition, a non-interrupting and continuous drying system ( 1 ) is obtained because the said system (1 ) does not require any cleaning. Within these basic concepts, it is possible to develop a great variety of embodiments of the inventive industrial drying system (1 ); it cannot be limited to the examples disclosed herein and it is essentially according to the claims.

Claims

A drying system (! ) for drying organic and/or inorganic materials having different geometrical shapes and dimensions such as food, sand, cement, zeolite, benionite, coal, brick or concrete; comprising:

at least one body (2);

at least one division (3) which is positioned on the body (2) and has a tunnel shape;

at least one tray (4) which is located inside the division (3 ) and where the material desired to be dried is placed;

at least one infrared heating member (5) which is located inside the division (3) and enables the material placed onto the tray (4) to be dried inside the division (3);

at least one movable band (6) which is located on the body

(2) and can move on the tray (4);

at least one drive member (7) which is in contact with the movable band (6) and ensures that the drive necessary for motion of the movable band (6) is provided to the movable band (6);

and characterized by

at least one mixing member (not shown in the figures) which is positioned inside the division (3) and ensures that heat is distributed to the material equally by mixing the material on the tray (4) during the heating process: and

at least one feeding member (8) which realizes loading of materials to be dried on the tray (4).

A drying system ( 1 ) according to Claim 1. characterized by at least one movable cap which is located in the feeding member (8) and enables to load the material desired to be dried onto the tray (4) in a controlled way.

3. A drying system ( i ) according to any of the preceding claims, characterized by at least one ventilating member (9) which is located in the division (3) and enables to remove the moisture inside the division (3).

4. A drying system ( I ) according to any of the preceding claims, characterized by at least one sensor which is located in the division (3) and senses the amount of moisture and/or heat in the environment.

5. A drying system (1 ) according to any of the preceding claims, characterized by at least one heating member (5a) which is contained by the feeding member (8).

6. A drying system ( 1 ) according to any of die preceding claims, characterized by at least one distributing member (12) which is located in the feeding member (8) and enables the material loaded into the tray (4) to be distributed equally.

7. A drying system ( 1 ) according to any of the preceding claims, characterized by at least one pipe system which is located in the division (3) and through which hot air or oil flows.

8. A drying system ( 3 ) according to any of the preceding claims, characterized by at least one connecting member ( 10) which is located in the division (3) and enables the heating member (5) to be positioned inside the division (3) in a fixed and safe way,

9. A drying system ( 1 ) according to any of the preceding claims, characterized by at least one retaining member ( 1 1 ) which is located in the division (3) and enables the heating member (5) to be fixed onto the connecting member ( 10).

10. A drying system { { ) according Claim 9, characterized by the retaining member ( 1 1 ) which has a curved structure.

1 1. A drying system (1 ) according to any of the preceding claims, characterized by a plurality of heating members (5) which are connected to one another inside the division (3) such that they will form a three- phase circuit.