KR20210086148A - Hot air distribution structure device - Google Patents

Abstract

The present invention relates to a hot air distribution structure of a wood chip drying apparatus, comprising: a hot air inlet through which hot air generated by a heat exchanger is inputted into a drying unit; a hot air distribution passage which is configured to distribute the hot air inputted through the hot air inlet (13) configured on a bottom surface of the drying unit; a hot air separation plate configured to divide the hot air distribution passage (10) into six parts; one or more hot air passage pipes configured on the hot air separation plate (12); and a louver perforated separation plate material configured on an upper side of the hot air distribution passage for spreading the hot air filling the hot air distribution passage (10) to the drying unit. The present invention is able to configure the drying unit in a simplified structure, provide great durability to the apparatus, and allow a user to easily maintain the apparatus.

Description

Hot air distribution structure device

The present invention relates to a device having a hot air distribution structure, and more particularly, to an apparatus having an efficient hot air distribution structure suitable for drying wood chips.

In general, the heat treatment method can be divided into a surface hardening heat treatment method in which only the surface of the object to be treated is hardened to obtain abrasion resistance, fatigue resistance, corrosion resistance, etc., and a general heat treatment method in which the entire object to be heat treated is heat treated.

This heat treatment process is carried out by putting the object to be heat treated made of a metal material, for example, an aluminum alloy, into the heat treatment furnace, and then performing three steps of temperature increase, heat treatment, and cooling. It is a process of heating the material, and by maintaining it at a constant heat treatment temperature for a certain period of time, the object to be heat treated is given the desired characteristics.

As such, in the heat treatment furnace in which the conventional heat treatment process is performed, a storage space isolated from the outside is formed, a furnace body into which a high-temperature gas for heat treatment flows, and a plurality of mounting shelves on which an object to be heat treated built in the storage space is mounted. formed, and circulates the high-temperature gas inside the upper side of the storage space.

With this structure, the high-temperature gas passes through the mounting shelf, and in this process, the heat-treated object mounted on the mounting shelf is heat-treated. However, in such a heat treatment furnace, since the high-temperature gas circulated by the circulation fan passes through the upper shelf through the lower shelf, the temperature increase rate of the object to be treated is different from the lower shelf and the upper shelf. Therefore, there is a problem that the heat treatment quality is not constant.

In addition, the conventional hot air blower as described above is difficult to use as a mobile type because it is made to be movable, and the device has a complicated configuration, so that the unit cost of producing hot air is high.

And another conventional hot air distribution structure device is provided with a drive motor, a circulation fan, and a burner so that the heat flows toward the circulation fan, so that the heat generated by the burner is converted into hot air, and the inside is sealed with the outside through an air guide duct Since the hot air is sprayed through the injection duct and nozzle made of a hot air, the hot air is produced through a separate burner, so the cost of generating hot air is added separately, which is uneconomical.

Republic of Korea Patent Registration No. 10-1324200 (2013.10.25) Republic of Korea Patent Registration No. 10-1401103 (2014.05.22.) Republic of Korea Patent Registration No. 10-0613898 (2006.08.10)

The present invention was devised in view of the above problems, and a simplified hot air distribution passage located at the bottom of the drying unit by converting high-temperature hot water into hot air through a heat conversion unit, and a metal configured on the top of the hot air distribution passage. An object of the present invention is to provide a device for evenly distributing hot air into the drying unit through a plurality of louvered perforated plates.

In the wood chip drying apparatus of the present invention for achieving the above object, the hot air inputted from the hot air inlet 13 through which the hot air generated by the heat exchanger is input to the drying unit and the hot air inlet 13 configured on the bottom surface of the drying unit is provided. A hot air distribution passage 10 configured to be distributed, a hot air separation plate 12 configured to divide the hot air distribution passage 10 into six, and one or more hot air passage pipes 12- 1) and, characterized in that it is composed of a louvered plate material 21 configured on the top of the hot air distribution passage so that the hot air filled in the hot air distribution passage 10 can spread to the drying unit.

And the hot air filled in the hot air passage 10 is filled in the order of ①②③, ④⑤, ⑥, and the louver perforated separating plate 21 is 1020mm wide and 2000mm long, and is composed of 2000-2300 louver perforations 22. It is characterized in that it consists of a combination of the louver perforated plate 22 made of.

The hot air distribution structure device for drying wood chips according to an embodiment of the present invention has a very simplified structure with a hot air distribution passage configured on the bottom of the drying unit for hot air supplied from the heat exchange unit and a four-divided louvered perforated plate. It has an easy effect on durability and maintenance of the device.

1 is an exemplary view of the hot air distribution passage of the bottom of the drying unit of the present invention,
Figure 2 is a block diagram of the hot air distribution separator of the present invention,
Figure 3 is a top view of the hot air distribution plate divided into four of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings.

In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, preferred embodiments of the present invention will be described below, but the technical spirit of the present invention is not limited thereto or may be variously implemented by those skilled in the art without being limited thereto.

1 is an exemplary view of the hot air distribution passage of the bottom of the drying unit of the present invention, FIG. 2 is a configuration diagram of the hot air distribution separator, and FIG. 3 is a top view of the hot air distribution separator divided into four.

First, the hot air distribution passage of the lower surface of the drying unit of FIG. 1 will be described in more detail. The hot air distribution structure device for drying wood chips of the present invention distributes the hot air input from the hot air inlet 13 through which the hot air generated by the heat exchanger is input to the drying unit, and the hot air inlet 13 configured on the bottom surface of the drying unit. A hot air distribution passage (10) configured to be such that the hot air distribution passage (10) is divided into six pieces, a hot air separation plate (12), and one or more hot air passage tubes (12) in the hot air separation plate (12) -1), and a louver-perforated separating plate 21 configured on the top of the hot air distribution passage so that the hot air filled in the hot air distribution passage 10 can spread to the drying unit.

The air at room temperature is converted into hot air through the heat exchanger (not shown), and the converted hot air flows into the drying unit 20 through the hot air inlet 13 to dry the wood chips loaded in the drying unit.

The drying unit for drying the wood chips as described above will be described in more detail with reference to FIGS. 1 to 3 as an example. First, the hot air discharged through the heat exchange unit (not shown) is introduced into the hot air inlet 13 located at the lower side of the drying unit 20 .

The hot air introduced into the hot air inlet 21 is gradually filled in the space of the hot air distribution passage 10, and the hot air is preferentially filled in the spaces of ①, ②, and ③ in each passage divided into six spaces. do. And the hot air flows into the passages adjacent to each other through the hot air passage pipe 12-1 composed of one or more hot air separation plates 12 in the spaces of ①, ②, and ③ to fill the space.

And the hot air fills the spaces of ④ and ⑤, which are passages adjacent to the spaces of ①, ②, and ③, and flows into the passages adjacent to each other through the hot air passage pipe 12-1 to fill the space of the hot air passage, and finally, the space of the ⑥ will fill the space.

The hot air passes through the louvered separation plate 21 configured to cover the hot air distribution passage 10 by natural pressure (about 2 bar) generated while moving through the hot air distribution passage 10. is brought in

As such, the hot air is spread inside the drying unit 20 through the louvered powder plate 21. The hot air at this time is not limited to the location of the object to be dried compared to the conventional method using reflected heat, and heat is applied evenly to all surfaces. It is possible to heat in a suitable atmosphere, so it has the effect of maximizing the heat source utilization efficiency.

The hot air in the hot air distribution passage 10 is dispersed to the object to be dried at regular intervals to constitute the louver perforated separating plate 21 having a function to increase the efficiency of using hot air, and the louvered perforated separating plate 21 configured at this time is It is made of a metal material and is composed of four louver perforated plates 22 having a size of 1020 mm in width and 2000 mm in length and 2000 to 2300 louvers.

As described above and on the lower side of the drying unit 20, the reason why the four louver perforated plates 22 are combined between the hot air distribution passage 10 and the wood chips as the drying object is in the upper part of the louver perforated separating plate 21. This is to make it possible to easily remove wood chips from the stacked wood chips from being accumulated in the hot air distribution passage 10 under the drying unit 20 .

In addition, since the numerous louver perforations constituted in the louver perforated plate 22 have a diameter smaller than that of wood chips and are so large that the wood chips cannot enter through the louver perforated gap, the wood chips are freely loaded on the louver perforated plate 22. Since the hot air from the hot air distribution passage is distributed and discharged in two directions through the louver hole, it is possible to increase the hot air distribution efficiency and dry the wood chips more efficiently.

And the upper part of the drying unit 20 is basically configured in an open state, but in some cases, a cover is formed on the upper part to freely adjust the degree of opening and closing.

For example, wood chips are loaded on the upper part of the louver perforated separating plate 21 of the drying unit 20 and hot air is supplied to the hot air inlet 13 to gradually moisten the wood chips through the perforation of the louvered separating plate 21 . will remove In this case, a plurality of wood needle moisture content measuring holes 24 configured on one side of the left or right side of the drying unit 20, and a temperature and humidity sensor are configured in the wood chip moisture content measuring hole 24 .

As described above, the generation of hot air may be controlled by comparing the data measured by the temperature and humidity sensor with the reference data, and the degree of opening/closing of the cover (not shown) of the drying unit 20 may be adjusted.

The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions are possible within the range that does not depart from the essential characteristics of the present invention by those of ordinary skill in the art to which the present invention pertains. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are intended to explain, not to limit the technical spirit of the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments and the accompanying drawings.

The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10: hot air distribution passage 11: hot air distribution plate
12: hot product separator 12-1: hot air passage pipe
13: hot air inlet ①∼⑥: hot air passage
20: drying unit 21: louver perforated plate
22: louver hole 23: wood chip moisture content measurement hole

Claims (4)

A wood chip drying apparatus comprising: a hot air inlet 13 through which hot air generated by a heat exchanger is introduced into a drying unit;
a hot air distribution passage 10 configured to distribute the hot air input from the hot air inlet 13 configured on the underside of the drying unit;
a hot air separation plate 12 configured to divide the hot air distribution passage 10 into six;
One or more hot air passage tubes (12-1) configured in the hot air separation plate (12);
The hot air distribution structure device, characterized in that it is composed of a louver-perforated separating plate (21) configured on the top of the hot air distribution passage so that the hot air filled in the hot air distribution passage (10) can spread to the drying unit.
The method of claim 1,
The hot air distribution structure device, characterized in that the hot air filled in the hot air passage (10) is filled in the order of ①②③, ④⑤, ⑥.
The method of claim 1,
The louver perforated separation plate 21 is a hot air distribution structure device, characterized in that it is composed of a combination of four louver perforated plates 22 composed of 2000-2300 louver perforated 22 with a width of 1020 mm and a length of 2000 mm.
4. The method of claim 3,
The louver perforated plate member 21 is a hot air distribution structure device, characterized in that it is composed of a metal material.

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