SE533749C2 - Device for drying bulk material - Google Patents

Description

25 30 35 533 749 2 environmental impact due to increased fuel consumption during transport of fl ice to the combustion plant. Restoration of the air intakes means a longer drying time for a certain amount of wood ice. To some extent, this can be solved by letting the ice dry for a longer period of time. To avoid long drying times, holes are cleared in which wood ice has become stuck. However, such cleaning is time consuming and special tools may be needed.

SUMMARY OF THE INVENTION The object of the present invention is achieved in that a device for drying bulk material is provided with a bottom which in use carries the bulk-shaped material and which has a plurality of openings for transporting air through said bottom to the bulk-shaped material, in which device discharge of the bulk material takes place along said bottom in a predetermined discharge direction. The control means are arranged to control said air so that its transport direction when passing through said openings is substantially the same as said discharge direction.

Thus, efficient drying is obtained by maintaining free passage of air through the openings because the air flow helps to keep the openings free from the bulk material. Furthermore, thanks to the design of the guide member, the device has a self-cleaning function. The above bulk material helps to clean the holes when discharging material from the device by the above material entraining the material which lies in the openings and which could otherwise get stuck in and clog them. This is possible because the material, such as the ice, due to the design of the guide means, is oriented in such a way that they are pulled along by the above material when it is discharged from the device.

Preferably, each of said guide means is formed by a vertical depression located downstream of said opening in said bottom in relation to said discharge direction, which enables simple and cost-effective manufacture of the device. Furthermore, the depression prevents ice from passing through the bottom, for example when plowing moist ice material on the bottom and / or when discharging ice from the device. Furthermore, the openings are turned away from the discharge direction so that the bulk material is not pressed into the openings during the discharge.

Said openings together with said guide means preferably form eyelid perforations, each of which consists of a slot perpendicular to said discharge direction and an adjacent downward smoke located in said discharge direction, said in said discharge direction, downstream in said discharge direction. bottom. Thus, an efficient control of the air flowing through the bottom is obtained. Wdare counteracts the depression that ice passes through the bottom, for example when placing moist ice material on the bottom and / or when discharging ice from the device.

Preferably, in said device, starting from said bottom, a first and a second wall portion are arranged, preferably perpendicular to said bottom.

The side sections prevent ice from falling to the side of the bottom.

The device can thus be given a higher capacity because it is possible to dry a larger amount of ice at the same time. Through perpendicularly arranged side portions, a simple and stable attachment of the side portions is obtained, since perpendicular wall portions mean that the attachment is exposed to less load. Furthermore, perpendicular wall sections can contribute to dried chips being discharged in a more efficient manner, which further increases capacity. Preferably, carriers are arranged to be moved along said bottom for discharging said bulk material. When moving the tailgates, ice is moved along the bottom, for example in the direction of a collector, which provides an efficient discharge. Furthermore, the carriers enable continuous drying of fl ice where the carriers' fl speed can be adapted to the amount fl ice to be dried.

The carriers are advantageously arranged so as to extend perpendicular to said discharge direction, preferably over the entire width of said bottom, and at a small distance from said bottom for sweeping away the bulk material, which results in efficient discharge.

Preferably, the carriers are connected to a motor-driven chain, which enables synchronized operation of all carriers to obtain an even discharge of ice along the bottom. Required output speed depends on what and how much to dry. By varying the engine speed, the desired output speed can be obtained. Thus, efficient drying of different types of bulk material is achieved.

Preferably, the device further comprises means for effecting a pressure difference between air above said bottom and air below said bottom. Thus, a higher pressure below the bottom can be achieved. Due to this pressure difference, air flows through the openings and to the ice supported by the bottom, which provides efficient drying of the ice. Preferably, said means is a fl genuine. Preferably, the device has a limited space located vertically below the bottom to which air, preferably preheated air, is supplied with an air supply device. Thus, it is possible to create an overpressure in the space and thus make sure that air is transported through the bottom for efficient drying.

Alternatively, a fl is arranged to form a negative pressure above the bottom by evacuating air, whereby an air flow through the bottom to the ice supported by the bottom is obtained.

Preferably, the bulk material is of the type which has a long narrow extension.

The bulk material consists, for example, of ice, for example hewn wood ice.

Brief description of the drawings The invention will now be described in more detail with reference to the following drawings. The drawings are to be viewed for illustrative purposes only and have no limiting effect. In the drawings, Fig. 1 shows in side view a device for drying bulk material according to the present invention, Fig. 2 shows in plan view the device in Fig. 1, Fig. 2b shows a plan view of a selected part of the device in Fig. 1, Figs. Fig. 3 shows the device in section along the line AA in Fig. 2b, Fig. 4 shows the device in section along the line BB in Fig. 2b.

Detailed description of a preferred embodiment is given. 1 shows a device 1 for drying bulk material, for example chopped wood ice, according to an embodiment of the present invention.

The device 1 has a flat bottom 2, which consists of a rectangular plate, which is provided with a number of openings 3 and guide means 4. The openings 3 and the guide means 4 are described in more detail below. The rectangular bottom 2 is oriented so that its longer sides 17 are parallel to the direction indicated by the arrow A in fi g 1, in which fl ice is transported along the bottom 2 when discharging fl ice from the device 1, and its shorter sides 18 are perpendicular to the discharge direction. A. Discharge of ice is possible by carriers 5, which extend perpendicular to the direction of transport over the entire width of the bottom, which are connected to a chain 6 which is driven via a gear wheel 7 by a speed-controlled motor 8. The chain 6, to which the carriers 5 are connected, further runs around a number of auxiliary wheels 9. Alternatively, the device has two or fl your, in this case two, chain-driven sets of parallel carriers 5, see fi g.2.

The carriers 5 are arranged for displacement along the bottom 2, and thereby for displacement of ice, in the direction of that of the shorter side 18 of the bottom which is located downstream in relation to the discharge direction A. In order to obtain efficient discharge, i.e. sweeping of ice, the carriers 5 are arranged close to the bottom 2. Preferably, a collecting container (not shown) adapted for dried ice is placed downstream of the bottom 2 calculated in the discharge direction. The movement of the carriers 5 thus results in fl ice being transported in the discharge direction A.

Starting from and perpendicular to the bottom 2 of the device, side portions 10 are arranged at its two longer sides 17, which in this case consist of a number of joined plates 11. The bottom 2 is provided with a number of openings 3 and guide means 4. Below the bottom 2 are a number sheet metal parts 12 arranged so that they together with the bottom 2 form a space 19. In one of the side portions 13 of the space 19 there are a number of air intakes 14 through which air is transported to the space 19 by means of a suitable air supply device, for example a fan, (not shown) for to form an overpressure in the space 19 below the bottom 2. As a result of the overpressure formed in the space 19 below the bottom 2, air flows through the openings 3 in the bottom and to the chip supported on the bottom 2, which is indicated by the arrow B in fi g. 3. Due to the design of the guide means 4, the direction of the air flow passing through the openings 3 will substantially coincide with the transport direction A of the ice. The air supply device is thus connected to the air inlets 14 in such a way an overpressure occurs in the space 19 and consequently air flows through the openings 3 and to the ice supported by the bottom 2. Preferably, used air is supplied to achieve efficient drying. Alternatively, an air flow through the openings 3 in the direction B can be effected by, for example, a fl spruce being arranged to evacuate air above the bottom 2 in such a way that a negative pressure arises above the bottom 2. 533 'P43 6 With reference to fi g. 2b-5 «_4_ will in the nearest guide means 4, which in this case together with the openings 3 form eyelid perforations 20, be described in more detail. Fig. 2 shows the device in fi g. 2 in a plan view and Fig. 2b shows a portion of the bottom 2. The eyelid perforations 20 are arranged in rows perpendicular to the discharge direction A. Each eyelid perforation 20 consists of a depression 15 perpendicular to the direction of discharge A and a depression 16 formed in connection with the slot 15 downstream, calculated in the direction of transport A.

The depression 16 is made from the top of the bottom 2. The depression 16 has a substantially parabolic outer contour and in a direction perpendicular to the depth 15 decreasing from the slot 15, see fi g. 3. The cross-sectional shape of the depression 16 parallel to the slot 15 is arcuate, see fi g. 4.

It will be appreciated that the above-described embodiment of the invention may be modified and varied by those skilled in the art without departing from the concept of invention set forth in the claims. In the embodiment shown, chips are discharged continuously from the device 1 by means of chain-driven carriers 5. Alternatively, discharge can be provided by the bottom 2 being tiltably arranged. In this case, the chain-driven carriers 5 are not needed. of the ice carried by the bottom 2 along the bottom 2 in the transport direction A. An advantage of a tiltably arranged bottom is that few components and few moving parts are needed to effect the discharge.

Furthermore, the device 1 in the embodiment shown is stationary.

Alternatively, the device can be placed on, or integrated in, a truck bed or a wagon axle, which makes it possible to transport the device in a simple manner. Discharge can in this case be advantageously achieved by the truck bed being tiltably arranged as above. Such a mobile drying device has the advantage that it can be easily transported to and used where icing and ice formation has taken place, which facilitates the handling of the ice because dry ice has a lower density than moist chips. Furthermore, the risk of mold formation is lower in dry ice.

Claims (10)

10 15 20 25 30 35 533 71-19 8 PATENT REQUIREMENTS Device (1) for drying bulk material provided with a bottom (2) which in use carries said bulk material and which has a number of openings (3) for transporting air through said bottom (2) to said bulk material, in which device (1) discharging the bulk material takes place along said bottom (2) in a predetermined direction of discharge by means of carriers (5) which are too superficial along said bottom for discharging said bulk material, characterized by guide means (4) which are arranged to directing said air so that its direction of transport when passing through said openings (3) is substantially the same as said discharge direction, each of said guide means (4) being formed by a downstream of said opening (3) in relation to said discharge direction. located vertical depression (16) in said bottom (2). Device (1) according to claim 1, wherein said openings (3) together with said guide means (4) form eyelid perforations (20), each of which consists of a slot (15) perpendicular to said discharge direction and a connection adjacent to said outlet. slit, calculated in said discharge direction, downstream vertical depression (16) in said bottom (2). Device (1) according to claim 1 or 2, wherein, starting from said bottom (2), a first and a second wall portion (10) are arranged, preferably perpendicular to said bottom (2). Device (1) according to any one of claims 1 - 3, wherein said carriers (5) are arranged so as to extend perpendicular to said discharge direction, preferably over the entire width of said bottom (2), and at a small distance from said bottom ( 2) for sweeping off the bulk material. Device (1) according to any one of claims 1 - 4, wherein said carrier (5) is connected to a motor-driven chain (7). 10 15 20 25 30 35 533 'F49 An apparatus according to any one of claims 1-5, further comprising means for effecting a pressure difference between air above said bottom 2 and air below said bottom 2. Device (1) according to any one of claims 1-6, wherein said device (1) has a limited space (19) located vertically below the bottom (2) to which air, preferably preheated air, is supplied with an air supply device. Device (1) according to any one of claims 1-7, wherein a fl spike is arranged to form a negative pressure above said bottom (2) by evacuating air, an air flow through said bottom (2) to said bottom (2). ) supported fl ice is obtained. Device (1) according to any one of claims 1-8, wherein said bulk material has an elongate extent. Device (1) according to any one of claims 1-9, wherein said bulk-shaped material is fl ice, preferably wood chips.