KR100593066B1 - Air cycle control device in industrial heater - Google Patents

Abstract

The present invention relates to an air circulation control apparatus for an industrial heater, and more particularly, a heater member for heating and supplying air supplied from a heater inlet to a heater outlet; A heating space in which a first conduit connected to the heater outlet is connected to an inlet, a second conduit connected to the heater inlet is connected to an outlet, and a waveguide is installed at an upper side thereof to generate a microwave; A first switching member installed in the first conduit connected to the heating space to change a direction of the flow path to an external air mode or an internal air mode; And a second switching member installed in the second pipe line through which the air introduced by the first switching member is discharged so as to change the direction of the flow path to the external air mode or the internal air mode.

According to the present invention as described above, when heating the heating space by the microwave is operated in the outdoor mode, when heating the heating space by the hot air by the heater is operated in the bet mode, thereby improving the thermal efficiency of the heater member Will be improved.

Heating space, heater member, microwave, first switching member, second switching member

Description

Air cycle control device in industrial heater

1 is a view showing the main body of the industrial heater installed air circulation control apparatus according to an embodiment of the present invention.

Figure 2 is a view showing the operating state of the external air mode in the air circulation control apparatus of the industrial heater according to the embodiment of the present invention.

Figure 3 is a view showing the operating state of the bet mode in the air circulation control apparatus of the industrial heater according to the embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: main body 10: heating space

12: upper side 14: waveguide

16: side 20: inlet

22: outlet 24: feed roller

26: motor 30: heater member

32: heater outlet 34: heater inlet

40: first pipe line 42: first blocking member

44: first switching member 50: second pipe

52: second blocking member 54: second switching member

60: pump 70: humidity sensor

80: flame detection sensor

The present invention relates to an air circulation control device for an industrial heater, and more particularly, in heating a heating space with a hot air by a microwave or a heater, when the heating by the microwave is operated in the outside air mode, heating by the heater In one case it relates to a device for controlling the air circulation by operating the bet mode.

In general, an industrial heater is used to heat a plaster mold for rubber or a mold, and such an industrial heater heats an object using only one heat source.

On the other hand, in order to form the outer shape of the tire, a mold is required, and in forming a plaster mold for forming the mold, after forming a plaster mold by kneading water and gypsum powder, it is put into an industrial heater and dried.

Then, the iron mold is embedded in the gypsum mold, the iron pin is fixed to the mold formed by pouring the water on the outside of the gypsum mold is fixed, and the groove is formed on the outer peripheral surface of the tire by the iron pin.

However, when the gypsum mold of the shape as described above is heated only by hot air, there is a problem that the productivity is lowered by increasing the working time for drying the gypsum mold as a whole by drying from the outer surface of the gypsum mold.

In order to solve the above problems, the drying time of the plaster mold is shortened by drying the plaster mold using the hot air of the microwave and the heater.

However, when the heating space is heated using microwaves or hot air, there is no separate device for controlling the circulation of air, so that the circulation path of air becomes the same when the microwave is operated and when the heater is operated.

Therefore, there is a problem that the thermal efficiency is lowered by the air circulation structure discharged to the outside after the hot air generated by the heater passes through the heating space.

SUMMARY OF THE INVENTION An object of the present invention for solving the above-mentioned conventional problems is to provide an air circulation control apparatus for an industrial heater for solving the problem that thermal efficiency is lowered by having a single air circulation structure when using microwaves and hot air. .

The present invention for achieving the above object is a heater member for heating the air supplied from the heater inlet to discharge to the heater outlet; A heating space in which a first conduit connected to the heater outlet is connected to an inlet, a second conduit connected to the heater inlet is connected to an outlet, and a waveguide is installed at an upper side thereof to generate a microwave; A first switching member installed in the first conduit connected to the heating space to change a direction of the flow path to an external air mode or an internal air mode; And a second switching member installed in the second pipe line through which the air introduced by the first switching member is discharged so as to change the direction of the flow path to the external air mode or the internal air mode.

Preferably, a first blocking member is provided between the first switching member and the heater to block the first pipe line by a control signal.

A second blocking member is installed between the second switching member and the heater to block the second pipe by a control signal.

And, when the heating space is heated by the microwave, the first switching member and the second switching member is in the outdoor mode.

When the heating space is heated by a heater, the first switching member and the second switching member are in a betting mode.

And, a flame detection sensor is installed on the side of the heating space.

According to the present invention as described above, when heating the heating space by the microwave is operated in the outdoor mode, when heating the heating space by the hot air by the heater is operated in the bet mode, thereby improving the thermal efficiency of the heater member Will be improved.

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

1 is a view showing a main body of an industrial heater installed air circulation control apparatus according to an embodiment of the present invention, Figure 2 is a view showing the operating state of the external air mode in the air circulation control apparatus of the industrial heater according to the embodiment of the present invention. 3 is a view showing the operating state of the bet mode in the air circulation control apparatus of the industrial heater according to the embodiment of the present invention.

Industrial heater according to the embodiment of the present invention is divided into a heating room 10 for drying the plaster mold by the electric chamber and the microwave and hot air equipped with various electrical components.

The front surface of the heating space 10 is open, the upper surface 12 is provided with a waveguide 14 for generating a microwave.

In addition, the inlet port 20 and the outlet port 22 are formed at the opposite side 16 of the heating space 10, respectively, and thus, the air enters and exits the heating space 10.

The lower side of the heating space 10 is provided with a feed roller 24 for moving the plaster mold, the feed roller 24 is made by the motor 26.

Then, the heater member 30 is installed at the rear side of the main body 1 to heat the air introduced into the heater inlet 34 to be discharged to the heater outlet 32.

A first pipe line 40 for connecting the heater outlet 32 and the inlet port 20 is installed, and the first pipe line 40 switches the direction of the air flow path to the outside air mode or the bet mode at the interruption of the first pipe line 40. The switching member 44 is installed.

In addition, a first blocking member 42 is provided in the first pipe line 40 located between the first switching member 44 and the heater to block the first pipe line 40 by a control signal.

A second conduit 50 for connecting the heater inlet 34 and the outlet 22 is also installed in a portion in which the outlet 22 of the heating space 10 is installed. A second switching member 54 for changing the direction of the air flow path in the outdoor air mode or the internal air mode is provided.

In addition, a second blocking member 52 is installed in the second conduit 50 located between the second switching member 54 and the heater to block the second conduit 50 by a control signal.

The pump 60 is installed in the second conduit 50 to force the flow of air passing through the heating space 10.

Humidity sensor 70 is installed in each of the conduits connected from the outlet 22 to measure the humidity in the air, based on this is switched to the microwave heating mode from the hot air heating mode.

And, the flame detection sensor 80 is installed toward the inside of the heating space 10, when the flame is generated in the plaster mold in which the iron pin is inserted in the microwave heating mode, the flame is detected to generate hot air in the microwave heating mode Switch to heating mode or stop the microwave heating mode.

The operation of the air circulation control device of the industrial heater according to the embodiment of the present invention having the above configuration will be described.

When the gypsum mold into which the iron pin is inserted is loaded into the heating space 10 of the industrial heater, the gypsum mold is moved to the inside of the heating space 10 by the feed roller 24 rotated by the motor 26.

When the loading of the plaster frame in the heating space 10 is completed, the door is operated to shield the front surface of the heating space 10.

Then, microwaves are emitted from the waveguide 14 of the heating space 10 to dry the plaster mold inside the heating space 10.

In the microwave heating mode as described above, as shown in FIG. 2, the first switching member 44 and the second switching member 54 are operated in the outdoor air mode.

Therefore, the outside air introduced through the first switch member 44 is supplied to the heating space 10 through the first pipe line 40, and then moves along the second pipe line 50 connected to the outlet 22. Passing through the pump 60 and the second switching member 54 in order to go out.

In addition, the first blocking member 42 and the second blocking member 52 may keep the conduit closed, whereby air through the first conduit 40 or the second conduit 50 may cause the heater member ( 30).

In the microwave heating mode as described above, when the moisture content of the plaster mold loaded inside the heating space 10 is less than the set content based on the humidity in the air detected by the humidity sensor 70, hot air Switching to heating mode is achieved.

In addition, when the moisture content of the plaster mold is lowered in the microwave heating mode, sparks are generated on the iron pin inserted into the plaster mold, which is sensed by the flame detection sensor 80 to end the microwave heating mode and switch to the hot air heating mode. do.

Preferably, the switching from the microwave heating mode to the hot air heating mode is made only by the measurement of the humidity sensor 70, when the failure of the humidity sensor 70 occurs, the flame sensor 80 is The auxiliary operation is performed to switch from the microwave heating mode to the hot air heating mode.

When the hot air heating mode is operated, as shown in FIG. 3, the first switching member 44 and the second switching member 54 are switched to the bet mode, and the first blocking member 42 and the second blocking member are switched to the bet mode. The member 52 opens the first conduit 40 and the second conduit 50.

Therefore, the air supplied to the heater through the heater inlet 34 is heated to move along the first pipe line 40.

The hot air moved along the first pipe line 40 is supplied to the heating space 10 through the first blocking member 42, and is heated with the plaster frame of the heating space 10, and then connected to the outlet 22. The pump 60 and the second blocking member 52 are sequentially passed along the second conduit 50 and moved to the heater inlet 34.

Therefore, when heating the heating space 10 by the hot air generated by the heater member 30, the heat loss is minimized by the relatively high temperature of the air by the air circulation mode is supplied back to the heater member (30). Thereby providing improved thermal efficiency.

The embodiments of the present invention as described above are not intended to limit the scope of the present invention, but are presented by way of example, and various embodiments may be applied within the spirit of the present invention.

As described above, according to the air circulation control apparatus of the industrial heater according to the present invention, the heating mode by the microwave has an outdoor air circulation mode, and the heating mode by the hot air has an air circulation mode, thereby operating in each mode. Efficiency is maximized, and in particular, in the hot air heating mode, relatively high temperature air is supplied back to the heater, thereby minimizing heat loss, thereby improving thermal efficiency.

Claims (6)

A heater member for heating the air supplied from the heater inlet and discharging it to the heater outlet; A heating space in which a first conduit connected to the heater outlet is connected to an inlet, a second conduit connected to the heater inlet is connected to an outlet, and a waveguide is installed at an upper side thereof to generate a microwave; A first switching member installed in the first conduit connected to the heating space to change a direction of the flow path to an external air mode or an internal air mode; Air circulation control of the industrial heater, characterized in that it comprises a second switching member which is installed in the second duct to discharge the air introduced by the first switching member to change the direction of the flow path to the outside air mode or bet mode Device. The apparatus of claim 1, wherein a first blocking member is provided between the first switching member and the heater to block the first pipe line by a control signal. The apparatus of claim 1, wherein a second blocking member is provided between the second switching member and the heater to block the second pipe by a control signal. According to claim 1, When the heating space is heated by a microwave, the air circulation control device of the industrial heater, characterized in that the first switching member and the second switching member is in the outdoor mode. The air circulation control apparatus of claim 1, wherein when the heating space is heated by a heater, the first switching member and the second switching member are in a betting mode. The air circulation control apparatus of claim 1, wherein a flame detection sensor is installed on a side surface of the heating space.

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