KR19990078515A - Fluid heat exchanger - Google Patents

Abstract

The present invention can increase the residence time of the object to be processed, and relates to a fluid heat exchanger that can increase the contact efficiency.

According to the present invention, the blower 2, the blower 2 is connected to the lower side and the air duct 8 is formed on one side and the discharge tank 14 formed at the lower end thereof, and a plurality of fine Aeration hole 20 is formed and connected to a number of perforated plates 22 inclined in a zigzag form inside the treatment tank 4, and the upper side of the treatment tank 4, fertilizer, etc. to the treatment tank (4) It comprises a supply device (6) for supplying a processed product, such as granular products or grains of sand, the processed material supplied by the supply device 6 is raised through the vent hole (20) A floating heat exchanger is provided, which is floated by the air, lowered along the perforated plate 22, dried, heated or cooled, and then discharged through the discharge port 14.

Description

Fluid heat exchanger

The present invention relates to a fluid heat exchanger, and more particularly, to a fluid heat exchanger capable of increasing the residence time of a workpiece and improving contact efficiency.

1 is generally used to cool granular products such as fertilizers, and includes a blower 2 and a treatment tank 4 to which the blower 2 is connected at one lower end.

The treatment tank 4 has a supply device 6 for supplying fertilizer is connected to the upper side, the upper end is formed with an air duct 8 for discharging the air supplied by the blower 2, the inside A horizontal plate 12 having a plurality of through holes 10 is installed, and a discharge port 14 formed at a lower side thereof is provided with a valve 16 so as to discharge fertilizer introduced by the supply device 6. do.

Therefore, when the high temperature fertilizer product produced in the plant is introduced into the treatment tank 4 through the supply device 6 and the blower 2 is operated, the fertilizer introduced into the treatment tank 4 is Cooled down to room temperature by air at room temperature falling down through the through hole 10 of the horizontal plate 12 and supplied by the blower 2 and raised through the through hole 10 of the horizontal plate 12. do. In addition, the fertilizer dropped to the inside of the treatment tank 4 is discharged through the discharge port (14).

At this time, by connecting a separate heater to the blower (2), it is also possible to dry or heat the object to be treated containing moisture, such as grain or sand.

The heat exchanger configured as described above has a simple structure and can cool, dry, or heat a granular product, such as fertilizer, or an object to be processed, such as grain or sand, but is rapidly discharged through the through hole 10 to be discharged. Therefore, since the time to stay in the processing tank 4 is short and it is hard to disperse | distribute with each other, the contact efficiency which contacts with the air supplied by the blower 2 was low. Therefore, there is a problem that sufficient cooling, drying or heating is not made. In addition, there is a problem that the workpiece to be dropped through the through hole 10 is accumulated on the upper surface of the horizontal plate 12.

The present invention is to solve the problems of the conventional fluidized heat exchanger as described above, it only increases the time for the granular products such as fertilizers and the object to be processed, such as grain or sand, to stay inside the treatment tank (4). Rather, by improving the contact efficiency with air, it is to provide a fluid heat exchanger of a new structure that can be sufficiently dried, heated or cooled, and at the same time prevent the accumulation of the workpiece.

1 is a block diagram showing a conventional flow heat exchanger

2 is a block diagram showing a fluid heat exchanger according to the present invention

3 is a reference diagram showing another embodiment according to the present invention;

<Description of the symbols for the main parts of the drawings>

2. blower 4. treatment tank

8. Air duct 6. Supply device

14. Outlet 20. Vent

22. Perforated Plate

According to the present invention, the blower 2, the blower 2 is connected to the lower side and the air duct 8 is formed on one side and the discharge tank 14 formed at the lower end thereof, and a plurality of fine Aeration hole 20 is formed and connected to a number of perforated plates 22 inclined in a zigzag form inside the treatment tank 4, and the upper side of the treatment tank 4, fertilizer, etc. to the treatment tank (4) And a supply device 6 for supplying a to-be-processed object such as granular product or grain sand, wherein the to-be-processed object supplied by the supply device 6 is supplied by the blower 2 to The floating heat exchanger, which is floated by the air rising through the vent hole 20, descends along the perforated plate 22, is dried, heated or cooled, and is discharged through the outlet 14. Is provided.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 shows a fluid heat exchanger according to the present invention, the blower 2 is connected to the treatment tank (4).

The treatment tank 4 is connected to a supply device 6 for supplying granular products, such as fertilizer, to one side of the upper side, and a hopper (20) to collect fertilizer supplied by the supply device 6 below. 18 is formed, the outlet 14 is formed at the bottom of the hopper (18). The blower 2 is connected to one side of the hopper 18, an air duct 8 through which the air supplied by the blower 2 is discharged is formed at the upper end of the treatment tank 4, and the discharge port ( 14 is equipped with a valve 16 to prevent the air supplied by the blower 2 from being discharged to the outlet 14. In this case, when the valve 16 is configured as a rotary valve, the air supplied to the blower 2 may be prevented from being discharged to the discharge port 14 and the fertilizer supplied to the supply device may be discharged.

In addition, a plurality of perforated plates 22 are mounted in the treatment tank 4 in a zigzag shape in the vertical direction. The perforated plate 22 is formed with a plurality of minute ventilation holes 20 so that the fertilizer can not pass, it is mounted inclined so as to lower toward the tip. Therefore, the fertilizer supplied to the perforated plate 22 by the supply device 6 is moved along the inclined surface of the perforated plate 22, and sequentially falls from the tip of the perforated plate 22 to the next perforated plate 22, and the hopper After being collected at 18, it is discharged through the outlet 14. In this case, since the air supplied by the blower 2 is raised through the vent hole 20 of the perforated plate 22, the fertilizer moved along the perforated plate 22 is caused by the air being raised through the vent hole 20. It floats on the perforated plate 22 and moves smoothly. Therefore, the accumulation of fertilizer on the perforated plate 22 can be prevented.

The treatment tank 4 is equipped with a plurality of air nozzles 24 for injecting air in the inclined direction of the perforated plate 22. The air nozzle 24 is connected to the blower 2 by a connecting pipe (not shown), and blows the fertilizer falling from the tip of the perforated plate 22 in the inclined direction of the perforated plate 22, so that the perforated plate 22 It can prevent the fertilizer build up.

When the heat exchanger configured as described above operates the feeder 6 and the blower 2, the fertilizer supplied into the treatment tank 4 by the feeder 6 is widely distributed along the perforated plate 22. While being cooled by the air at room temperature supplied by the blower 2, not only can the fertilizer stay in the treatment tank 4 as long as possible, but also increase the contact efficiency with air, thereby cooling There is an advantage that is made enough. In addition, the fertilizer is not only slightly floated in the perforated plate 22 by the air supplied by the blower 2, but also forcedly moved by the air injected by the air nozzle 24, so that the perforated plate 22 There is an advantage to prevent the accumulation of fertilizers.

If a separate heater is connected to the blower 2, it is also possible to dry or heat the to-be-processed object such as grain or sand.

FIG. 3 shows another embodiment according to the invention, in which the air duct 8 of the first heat exchanger 26 constructed as described above is installed in parallel with the first heat exchanger 26. And a separate exhaust port 30 in the second heat exchanger 28. In this case, it is preferable to install a net or the like in the exhaust port 30 to prevent the granular products such as fertilizers, grains, sand, etc. supplied by the supply device 6 from being discharged through the exhaust port 30. .

And, in the present embodiment, the air duct 8 is connected to the upper side of the second heat exchanger 28, but according to the manufacturer's intention, the air duct 8 to the lower side of the second heat exchanger 28 It is also possible to connect the exhaust port 30 to the upper side of the second heat exchanger (28).

The fluid heat exchanger configured in this way can increase the processing capacity of the fluid heat exchanger without increasing the height of the fluid heat exchanger by dividing one fluid heat exchanger. There is an advantage to install a heat exchanger.

As described above, according to the present invention, by installing a perforated plate formed with a plurality of vent holes in the processing tank of the flow-type heat exchanger connected to the blower, to be treated such as granular products such as fertilizers, and processed materials such as grain, sand, etc. In addition to increasing the residence time in the air and increasing the contact efficiency with air, the new type of fluid heat exchanger is designed to allow sufficient cooling, drying, or heating to be prevented, and to prevent the accumulation of the object. Groups can be provided.

Claims (1)

Blower (2), the blower (2) is connected to the lower side and the air duct (8) is formed on one side, the discharge vessel 14 formed at the lower end of the four and a plurality of fine vent holes (20) And a plurality of perforated plates 22 which are inclined in a zigzag form in the interior of the treatment tank 4, and are connected to the upper side of the treatment tank 4, and granular products such as fertilizer or the like in the treatment tank 4. It comprises a supply device 6 for supplying the object to be processed, such as grain sand, the object to be supplied by the supply device 6 is supplied by the blower (2) to the vent hole 20 Floating heat exchanger, characterized in that by rising through the air, descending along the perforated plate 22, dried, heated or cooled, and then discharged through the outlet (14).