KR200434188Y1 - Near infrared lay heater having upper exhaust structure - Google Patents

Abstract

The near-infrared heater having the upper exhaust structure disclosed in the present invention includes a main body having a front surface partially open and having an air inlet and an outlet; A near infrared lamp installed inside the main body to generate heat; A reflection plate provided to reflect heat on the back side of the near infrared lamp; An exhaust grill formed on an upper side of the exhaust chamber formed on the rear surface of the reflecting plate, and an exhaust portion formed by forming an upward exhaust port on one side thereof; And a blower fan installed in the exhaust port to forcibly exhaust the heat of the exhaust chamber.

In the near-infrared heater having the upper exhaust structure, heat generated by the near-infrared lamp is reflected by the reflecting plate and is discharged, and heat generated on the rear surface of the reflecting plate is moved upward by the convection phenomenon and partially discharged through the exhaust grill. Partial forced circulation discharged by the blower fan increases the heating effect of the room, and has the effect of achieving safety and durability of the device.

Blower fan, exhaust grill, exhaust port, exhaust chamber, near infrared lamp

Description

NIR INFRARED LAY HEATER HAVING UPPER EXHAUST STRUCTURE}

1 is a perspective view showing a near infrared heater having an upper exhaust structure according to the present invention.

2 shows A-A of FIG. 1;

3 is a view B-B of FIG. 1;

<Explanation of symbols for main parts of the drawings>

2: near infrared heater 10: body

11: Air Inlet 12: Outlet

13: light switch 14: control switch

20: near-infrared lamp 30: reflector

31: groove 40: exhaust

41: exhaust chamber 42: exhaust grill

43: exhaust vent 44: suction hole

50: blowing fan

The present invention relates to a near-infrared heater having an upper exhaust structure, and more particularly, heat generated by the near-infrared lamp is reflected by the reflecting plate to be discharged, and heat generated on the rear surface of the reflecting plate is moved upwards by the convection phenomenon. Partial discharge through, and part of the forced exhaust circulated by the blower of the exhaust port to increase the heating effect of the room, and relates to a near-infrared heater having an upper exhaust structure to achieve the safety and durability of the device.

In general, the gas heater is 300 to 400 ℃ heat dissipation, the far infrared heater is 400 to 500 ℃ heat.

In the case of gas heaters, harmful gases are generated when heat is generated, so the air should be ventilated frequently. In the case of far-infrared heaters, no harmful gases are generated, but the air should be ventilated to keep the indoor air fresh.

In addition, gas and far-infrared heaters have a disadvantage in that they are limited to indoor heating because the heat loss is large as the heating is delayed due to the convection phenomenon generated when the air is heated.

On the other hand, in recent years, a heater having both hot air and heating is used. Since a separate heating device for generating hot air is provided, the heater has a complicated structure and a large fuel loss.

Utility No. 20-0309293 "Near-infrared heater" forcibly discharging the high temperature heat generated on the back of the reflector to the blower fan to overcome some of the above problems, but occurs on the back of the reflector through the inlet and exhaust holes of the body The circulation of the hot air is possible, but the structure for overcoming the influence of heat transferred to the upper part of the main body is excluded, there is a concern that damage to the built-in parts, there is a problem that the durability of the device is inferior.

The present invention is proposed to solve the problems of the prior art, the object of the present invention is that the heat generated by the near-infrared lamp is reflected by the reflector and discharged, the heat generated on the back of the reflector is moved upward by the convection phenomenon The present invention provides a near-infrared heater having an upper exhaust structure, which is partially discharged through an exhaust grill, and partly forcedly discharged by a blower fan of the exhaust port, thereby increasing the heating effect of the room and promoting safety and durability of the device.

In order to achieve the above technical problem,

A main body having a front surface partially open and having an air inlet and an outlet;

A near infrared lamp installed inside the main body to generate heat;

A reflection plate provided to reflect heat on the back side of the near infrared lamp;

An exhaust grill formed at an upper portion of the exhaust chamber of the main body formed on the rear surface of the reflector and an upward exhaust port formed at one side thereof;

It provides a near-infrared heater having an upper exhaust structure, characterized in that it is composed of a blowing fan for forcibly discharging the heat of the exhaust chamber in the exhaust port.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention will be described in more detail.

1 is a perspective view illustrating a near-infrared heater having an upper exhaust structure according to the present invention, FIG. 2 is a view showing A-A of FIG. 1, and FIG. 3 is a view showing B-B of FIG. 1.

Referring to the drawings, the near-infrared heater 2 includes a main body 10 having a front surface partially open and having an air inlet hole 11 and an outlet hole 12; A near-infrared lamp 20 installed inside the main body 10 to generate heat; A reflection plate 30 installed to reflect heat on the back side of the near infrared lamp 20; An exhaust grill (42) formed on an upper side of the exhaust chamber (41) of the main body (10) formed on the rear surface of the reflector (30), and an exhaust section (40) formed on one side thereof; The blower fan 50 is installed in the exhaust port 43 so as to forcibly discharge the heat of the exhaust chamber 41.

The main body 10 is provided with a lighting switch 13 for lighting the near infrared lamp 20 on the side. The lighting switch 13 is installed as many as the near-infrared lamp 20.

And the main body 10 is provided with a control switch 14 for adjusting the heat generation degree of the near-infrared lamp 20 around the light switch (13). The control switch 14 is adjusted to adjust the heat generation of the near-infrared lamp 20 so as to be used in a comfortable state.

The main body 10 is provided with a discharge hole 12 and an air inlet hole 11 above and below the front surface, thereby facilitating convection of indoor air, thereby achieving rapid heating.

The reflecting plate 30 is installed inside the main body 10, the groove 31 is formed with a predetermined curvature, which is intended to improve the linearity of heat reflection. The groove 31 is formed of a plurality of substantially "C" shape.

Therefore, the area of the near-infrared lamp 20 is formed to have a large area reflected by the reflector 30. The groove 31 can maximize the heating efficiency because the heat of the near-infrared lamp 20 is transmitted up to 90%.

The near-infrared lamp 20 is installed on the front surface of the reflector 30 and generates heat by the ON operation of the lighting switch 13. And a plurality of near infrared lamps 20 are installed according to the design, the lighting switch 13 is also installed in the same number as the number of installation of the near infrared lamp 30.

For reference, the near-infrared lamp 20 generates heat inside the heating element by electricity. According to the temperature of the heating element, it is classified into near-infrared, mid-infrared, and far-infrared. As the near-infrared lamp 20, a near-infrared halogen lamp (special metal coating) is used.

The exhaust unit 40 includes an exhaust chamber 41 formed on the rear surface of the reflector 30, an exhaust grill 42 formed on the exhaust chamber 41, and an exhaust port 43 formed on one side thereof. . The exhaust grill 42 communicates with the exhaust chamber 41 and discharges heat generated on the rear surface of the reflector 30.

The heat in the exhaust chamber 41 is naturally discharged into the room through the exhaust grill 42.

And the exhaust port 43 is installed so that the heat is discharged to the front upward. Therefore, a plurality of suction holes 44 are formed in the lower portion of the exhaust port 43 to suck the heat.

The blower fan 50 is installed below the exhaust port 43 and sucks the heat in the exhaust chamber 41 through the suction hole 44. And the blower fan 50 is forced to blow the heat sucked through the exhaust port 43 into the room.

The blowing fan 50 is installed to operate when the near-infrared lamp 20 is turned on with the lighting switch 13. When the near-infrared lamp 20 is turned off by the lighting switch 13, the operation of the blower fan 50 is stopped.

In addition, the blower fan 50 may be installed to be turned on / off by a user.

Referring to the operation and effect of the near-infrared heater 2 of the present invention made as described above, if power is supplied to the near-infrared heater 2, it is ready for use.

Accordingly, when the lighting switch 13 is turned on, the near-infrared lamp 20 is turned on to generate heat, and the blowing fan 50 is also operated. Then, the number of turning on the lighting switch 13 may be adjusted according to the room temperature.

On the other hand, a part of the heat emitted from the near-infrared lamp 20 is directly transmitted to the front surface, and part of the heat is reflected by the reflecting plate 30 is transmitted. And the heat generated from the back of the reflector 30 is moved to the upper portion of the exhaust chamber 41 is discharged into the room through the exhaust grill (42).

In addition to the heat discharged through the exhaust grill 42, some of the heat is forced through the suction hole 44 of the exhaust port 43 by the driving of the blower fan 50.

As described above, forced air is blown by the blower fan 50 around the near-infrared heater 2, and indoor air is also introduced through the inlet hole 11 of the main body 10 by convection. Through 12, the warming air is circulated to form a flow to heat the room.

The near-infrared heater (2) is a natural heat circulating through the exhaust grill 42, the rear heat generated from the reflecting plate 30, and by forcibly blowing by the blower fan 50 to convection of indoor air The heating efficiency is accelerated to maximize the heating efficiency.

The present invention has the effect that the heat generated by the near infrared lamp is reflected by the reflecting plate, the heat generated on the back of the reflecting plate is naturally discharged through the exhaust grill formed on the exhaust chamber by the convection phenomenon.

In addition, a part of the heat formed in the exhaust chamber by the blower fan of the exhaust port is forced to circulate, thereby increasing the heating effect of the room.

As the exhaust structure is formed on the near-infrared heater, the convection circulation of the heat becomes natural.

By discharging the heat transferred to the near infrared heater, safety and durability are achieved.

It is possible to maximize the heating efficiency by forcibly discharging the heat of the exhaust chamber by the blower fan installed in the exhaust port.

Claims (4)

A main body having a front surface partially open and having an air inlet and an outlet; A near infrared lamp installed inside the main body to generate heat; A reflection plate provided to reflect heat on the back side of the near infrared lamp; An exhaust grill provided at an upper portion of an exhaust chamber of the main body formed on the rear surface of the reflector, and an exhaust portion formed by forming an upward exhaust port at one side thereof; A near-infrared heater having an upper exhaust structure, characterized in that it comprises a blower fan installed in the exhaust port so that the heat of the exhaust chamber is forcedly discharged. The method according to claim 1, The exhaust part has an upper exhaust structure, characterized in that the exhaust grill is formed to be discharged to the upper side of the exhaust chamber on the back of the reflector plate, and the exhaust hole is provided on one side of the exhaust grill and the suction hole is formed in the lower portion so that the heat of the exhaust chamber is discharged Near Infrared Heater. The method according to claim 1, The blower fan is a near-infrared heater having an upper exhaust structure, characterized in that installed in the lower portion of the exhaust port so that the heat inside the exhaust chamber forced through the exhaust port. The method according to claim 1 or 2, And an exhaust grill and an exhaust port, wherein the exhaust portion is formed on an upper portion of the main body, the near-infrared heater having an upper exhaust structure.

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