KR101210809B1 - Warm air circulator for industrial - Google Patents

Abstract

PURPOSE: A hot blast heater for industry is provided to improve thermal efficiency as high temperature heat generated by heaters is directly delivered to a conductor, and retained. CONSTITUTION: A hot blast heater for industry comprises a heat-retaining case(60). Cut portions are obliquely formed, and cross each other from the inlet of the heat-retaining case to the outlet. A heat retaining plate comprises a plurality of hot air holes and heater support holes(72), and is mounted on the cut portion. The hot air holes are formed over the front surface of the heat retaining plate. Inclined labyrinth-shaped passages cross each other toward the center from the inlet of the heat retaining case to the outlet. A heater(80) contacts with the heater support holes, and the heat is delivered to the heat retaining plate.

Description

Warm air circulator for industrial

The present invention relates to an industrial hot air blower, and more particularly, to improve the structure of an industrial hot air blower using electricity as energy, thereby reducing the amount of electric power used to reduce the use of heaters, and retaining high heat generated by the heating of the heater. In addition, the present invention provides an industrial hot air fan that can increase thermal efficiency.

In general, the use and dependence of hot air fans are wide and high in various industrial sites such as plastic houses and factories that require heating in winter, and the heat source mainly uses oil, gas, and electricity.

As described above, the hot air fan is used by various heat sources in various industrial fields. In particular, when the heat source of the hot air fan used for cultivating crops, such as a glass greenhouse or a vinyl house, is oil or gas, the following problems are pointed out.

In other words, hot air blowers using oil or gas are generally classified into two types, one of which supplies the warm air heated by the boiler to the inside of the plastic house through a separate blowing duct.

However, in the above-described method, during the process of burning fuel in a boiler and generating hot air, the hot air causes combustion of oxygen in the plastic house, which hinders the growth of cultivated crops and lowers productivity. There was a problem letting.

The other is to burn the oil or gas in the boiler to heat the water and to supply the heated water through the pipe installed inside the vinyl house to heat the indoor air. Although there is an advantage that does not burn oxygen, there was a problem that can not exclude the economic burden due to high oil prices, as described above.

In order to solve this problem, the hot air fan using electric energy has been widely used in recent years, but the hot air fan that is currently being used is a method of forcibly discharging the heat generated by the electric heater by the wind of the blower fan, but the power consumption is high. There was a problem that the thermal efficiency is lower than.

Therefore, an object of the present invention, that is, an object of the present invention is to provide an industrial hot air fan that can reduce the amount of use of electrical energy by improving the structure of the industrial hot air fan using electricity as energy.

Another object of the present invention is to provide an industrial hot air blower which can reduce power consumption and improve thermal efficiency by preventing the heat from being discharged to the outside in a state in which the heater generates heat and prevents high heat loss while reducing power consumption. There is.

In order to achieve the above object, the present invention, the body of the industrial hot air forcibly blown to the outside by the intake, exhaust force generated by the fan rotates the hot air generated by the heat generating portion heat generated by the power supply; It is installed inside the main body, and a high heat chamber is formed therein for heat exchange and forms a passage through which external air flows between the outer side and the inner side of the main body, and both sides are opened to form heat and inlet. In the industrial hot air fan comprising a case and a heater disposed inside the heat retaining case, the heat retaining case is formed obliquely so as to cross each other from the upper side and the lower side toward the center portion of the exit direction in the traveling direction. The cutout portion is equipped with a heat retaining plate formed with a plurality of hot air passage holes over the entire surface, and has a labyrinth shape of an oblique maze so as to cross each other from the inlet side toward the center portion of the exit direction in the heat retaining case. And a flow path is formed, wherein the heat retaining plate is in surface contact with the heat retaining plate and directly heats the heater. It provides an industrial hot air blower characterized in that the heater support hole is received.

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The present invention having the above-described configuration brings about the following effects.

First, by improving the structure of an industrial hot air fan that uses electricity as energy, it is possible to reduce the number of heaters used to save electrical energy.

Secondly, a small number of heaters generate heat and directly transfer the generated high heat to the conductors installed surrounding the heater, retain the transferred high heat, and discharge it to the outside, thereby improving thermal efficiency.

1 is a side view showing an example of the industrial hot air according to the present invention
Figure 2 is a perspective view showing the interior of the industrial hot air according to the invention
Figure 3 is an exploded perspective view of the main portion of the industrial hot air according to the invention
Figure 4 is a cross-sectional view showing the main portion of the operating state of the industrial hot air according to the invention
Figure 5 is an exploded perspective view showing another example of the industrial hot air according to the present invention
6 is a cross-sectional view showing an operating state of another example of the industrial hot air according to the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention for effectively implementing the above object will be described in detail.

Figure 1 is a side view showing an example of the industrial hot air according to the present invention, Figures 2 to 3 are respectively shown a perspective view showing the inside and main parts of the industrial hot air according to the present invention, Figure 4 The cross-sectional view showing the air flow state of the industrial hot air according to it is shown.

As shown in the drawing, the main body 10 of the industrial hot air blower according to the present invention is provided with an electronic part 20 in which various electric and electronic components are mounted by dividing a space set at one side or a lower side thereof.

In addition, the inside of the main body 10 adjacent to the electric part 20 is provided with a heat generating portion 30 made of a component such as a heater to generate heat by receiving power.

In addition, one side of the heat generating unit 30 is provided with a heat supply unit 40 for supplying heat generated by the heat generating unit 30 to the outside by the rotational force of the fan motor, these are the front of the main body 10 or The operation is controlled by the controller 50 provided on the side.

On the other hand, the above-described configuration is largely classified by function, but the configuration having such a function is similar to the configuration of a general industrial hot air blower or hot air blower.

Here, the dominant feature of the present invention is that the heat generating portion 30 is provided with a heat holding case 60 opened toward the heat generating portion 30 and the heat supply portion 40 and the heat holding case 60. ) Is equipped with a plurality of heat retaining plates 70 into which a plurality of heaters 80 are fitted, and the heat retaining plates 70 delay the residence time of air passing through the heat retaining case 60. This is to form a flow path of up and down alternately or zigzag shape.

The heat retaining case 60 for this purpose is formed with a plurality of fixing portions 61 facing each other on the side and arranged in the height direction of the heat retaining case 60 at the corresponding position.

The fixing part 61 may be formed by inserting the heat retaining plate 70 by forming a notch on an opposite side of the heat retaining case 60, but after forming the notch so as to be reinforced and stably supported. It is also possible to mount the frame guide rails 62 on the lower and upper surfaces thereof, and to slide the heat retaining plate 70 to the guide rails 62.
As described above, the heat retaining plate 70 is partitioned inside the heat retaining case 60, and one side and the other are repeatedly opened to each other, and a flow path is formed. Delay the time of stay when passing.

Of course, after the heat retaining plate 70 is coupled, it is effective to fix the heat retaining plate 70 so as not to be detached by attaching a separate locking portion 63 to the side of the heat retaining case 60.

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The locking portion 63 for this purpose is made of a coupling member such as a fixing plate and bolts and nuts to support the side of the heat retaining plate from the outside.

On the other hand, the above-mentioned fixing portion 61 or the heat retaining plate 70 to be fitted to the guide rail 62 is formed to have a predetermined width and thickness, and a plurality of heater support holes (the heater 80 is fitted) on the side ( 72 may be formed, but as shown in another embodiment of FIG. 5, a plurality of heater support holes 72 are arranged in a state in which a plurality of hot air passage holes 71 penetrate through the front surface and the heater 80 is fitted to a side thereof. ) May be formed.

The heater 80 for this purpose is effectively provided as a rod heater, each heater is electrically connected to the respective wires drawn out from the electric part 20.

In the space formed between the guide rails 62 and the heat retaining plate 70, a second heat retaining plate 73 having a plurality of holes or meshes may be installed. It doesn't matter.

Although the heat retaining plate 70 may be effectively used as a metal material, a material having high thermal conductivity may be selectively used, or a ceramic coating may be applied over the entire surface of the heat retaining plate 70.

An operation of the present invention configured as described above will be described in detail with reference to FIGS. 4 and 6.

That is, when power is supplied to the main body 10 of the industrial heat blower according to the present invention by the control operation of the control unit 50, each heater 80 generates heat by the supplied electric power and simultaneously or selectively the heat supply unit 40. ) Fan motor is running.

Therefore, the heat supply unit 40 made of a fan motor is forcibly blown high heat generated by the heater 80 to the outside, and the operation and the technical principle are similar to the operation and technical principle of a general hot air blower.

However, the feature of the present invention is that when the heater 80 generates heat as described above, the high heat causes the heat retaining plate 70 to be heated through the heater support hole 72 in which the heater 80 is inserted.

That is, each heater 80 generates heat by the structure in which the heaters 80 are arranged at regular intervals in the heat retaining plate 70, and the generated high heat is directly conducted to the heat retaining plate 70 to retain heat. The plate 70 is heated to a high temperature as a whole.

Eventually, the heater 80 installed on the heat retaining plate 70 is sparsely installed at regular intervals, but the heat retaining plate 70 directly conducting the heat is heated to a high temperature as the entire area functions as a heater. .

Therefore, when the heat supply unit 40 is driven and generates a suction force, the high heat passes through the flow paths formed by the heat retaining plates 70 in a zigzag form, and the residence time is delayed. As shown in FIG. 6, a part of the high heat may pass directly through the hot air passage hole 71, and the rest of the high heat may pass through the flow paths formed by the plurality of heat retaining plates 70 in a zigzag shape in order to broaden the heat transfer area. do.

As a result, the heat passing through the hot air passage hole 71 and the flow path of the heat retaining plate 70 at the position farthest from the position where the heat supply 40 is installed is adjacent to the heat retaining plate 40 closest to the heat supply 40. When passing through the hot air passage hole 71 and the flow path formed in the (70) is to pass in a state of being heated at a considerably high temperature.

As a result, the present invention operating as described above reduces the number of installations of the heaters with the highest power consumption, while the heat retaining plate directly receiving the heat of the heater functions as a heater over the entire surface. With use, the power consumption can be reduced while the heat generation area can be increased to increase energy efficiency.

Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the above-described technical configuration of the present invention may be embodied by those skilled in the art to which the present invention pertains without changing the technical spirit or essential features of the present invention. It will be appreciated that the present invention may be practiced as.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10; A body 20; Battlefield
30; Heat generating portion 40; Heat supply
50; Control unit 60; Thermal retention case
61; Fixing part 62; Guide rail
63; Fixing part 70; Thermal holding plate
71; Hot air passage hole 72; Heater support hole
73; Second heat retaining plate 80; heater

Claims (4)

A main body of an industrial hot air blower that is forcedly blown to the outside by the intake and exhaust power generated by a fan rotating the hot air generated while the heat generating part generates power by receiving power;
It is installed inside the main body, and a high heat chamber is formed therein for heat exchange and forms a passage through which external air flows between the outer side and the inner side of the main body, and both sides are opened to form heat and inlet. With the case,
In the industrial hot air fan comprising a heater disposed inside the heat holding case,
The heat retaining case has a cutout formed obliquely so as to cross each other from the upper side and the lower side toward the center portion in the exit-side traveling direction from the inlet side,
The cutout portion is equipped with a heat retaining plate having a plurality of hot air passage holes formed over its entire surface, and has a labyrinth-shaped flow path that intersects with each other from the upper side and the lower side toward the center portion of the exit direction from the inlet side to the inside of the heat retaining case. Further formed;
The heat holding plate is characterized in that the heater is in contact with the heater and the heater support hole is formed to directly conduct the heat of the heater. delete delete delete

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