KR101454786B1 - Rotary Stand Type of Far-infrared Ray Heater - Google Patents

Abstract

The present invention relates to a rotary stand-type far-infrared heater in which a body part of the far-infrared heater is mounted onto a stand member, and the vertical or horizontal position of the body part is adjusted according to a spatial structure to be heated, to control a radiation angle of the far infrared ray. The far-infrared heater includes a case unit of a rectangular box shape; a far-infrared radiation unit installed in the case unit and having at least one unit radiation portion which radiates the far-infrared ray by application of heat; a control unit for controlling the operation of the far-infrared radiation unit; and a stand unit comprising a stationary frame fixed to the rear surface of the case unit and a movable plate fixed to a lower end of the stationary frame. The stationary frame has an angle control member fixed to the rear surface of the case unit at one end thereof, a bent frame inserted and fixed to the other end of the angle control member, and a vertical frame inserted and fixed to a lower end of the bent frame. The angle control member has a body bar having a -shaped cross section, and a rotation plate of which both surfaces are engaged to the rear surface of the case unit and the body bar. The side of the body bar is formed with a slope control groove of an arc shape, and the rotation plate is formed with a rotation angle control groove of an arc shape.

Description

[0001] The present invention relates to a rotary stand type far-infrared ray heater,

The present invention relates to a rotary stand type far infrared ray heater, and more particularly to a rotary stand type far infrared ray heater, in which a body portion of a far infrared ray heater is mounted on a stand member, its posture is adjusted vertically or horizontally according to a spatial structure of a heating object, A rotary stand type far-infrared radiator.

The far-infrared ray refers to infrared rays having a wavelength of at least 2.5 mu m among infrared rays having a wavelength in the range of 0.76 to 1000 mu m. When irradiated to the human body, the far infrared rays penetrate into the subcutaneous tissue, activate cell tissue and improve blood circulation.

The far-infrared radiator is a radiator that can promote heating and user's health by using far-infrared rays. The basic configuration includes a radiating plate and a heat wire. The heat radiation plate has a coating layer formed of a material such as silicon oxide on the surface thereof, and a heat ray is provided on the rear surface thereof. When the heat is supplied from the hot wire, the coating layer emits far-infrared rays and negative ions, and the heat is radiated through the radiant heat of the far-infrared ray.

The far-infrared heaters in which the heating is performed in the above-described manner can reduce the power consumption by 30% or more as compared with the conventional electric heaters which obtain the radiant heat through the filament coil energization. In particular, there is no harmful electromagnetic waves generated in the human body, There is no problem of dust due to drying and air convection, which is a problem of the ondol type boiler, and the demand is increasing.

The far-infrared radiator can be divided into a fixed type and a movable type according to the installation type. In the fixed type, the far-infrared radiator is fixed to the ceiling or the side wall and the fixed space is heated. , And a moving wheel is provided on the back surface of the stand member for mobility.

Therefore, the installation height or the installation angle of the main body part needs to be adjusted according to the heating space of the mobile infrared radiator.

KR 20-0456902 Y1 2011.11.18.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and a problem to be solved by the present invention is to provide a rotary stand type far-infrared radiator in which an installation height and an installation angle of a radiator main body portion can be arbitrarily adjusted .

In addition, a problem to be solved by the present invention is to provide a rotary stand type far-infrared radiator in which rust is prevented from occurring due to condensation generated after operation of the body of the radiator.

In addition, a problem to be solved by the present invention is to provide a rotary stand type far-infrared heater which is rigidly fixed to the body of the radiator.

According to an aspect of the present invention, there is provided a rotary stand type far-infrared heater, comprising: a case unit having a rectangular box shape; A far infrared ray radiating unit positioned in the case unit and composed of at least one unit radiation unit, and the unit radiation unit emitting far infrared rays when heat is applied; A control unit for controlling the operation of the far-infrared radiation unit; And a fixed frame portion fixed to a back surface of the case unit and a moving plate portion fixed to a lower end of the fixed frame portion, wherein the fixed frame portion includes angle adjusting means having one end fixed to the back surface of the case unit, And a vertical frame inserted into and coupled with the lower end of the bending frame, wherein the angle adjusting means comprises a body bar having a "C" -shaped cross section, and a rotation plate And an arc-shaped inclination angle adjusting groove is formed on a side surface of the body bar, and an arc-shaped angle of rotation adjusting groove is formed on the rotation plate.

Further, in the rotary stand type far infrared ray radiator according to the present invention, the unit radiation unit is provided with a far-infrared radiation plate and a heat reflection plate at upper and lower parts, respectively, and the far-infrared radiation plate is made of aluminum alloy, and the heat reflection plate is made of stainless steel do.

In addition, the case unit of the rotary stand type far-infrared heaters of the present invention further includes a channel-shaped fixed frame having a "C" -shaped cross section at the center of its back surface, the fixed frame is fixed to the rotating plate, And a lower end of the rib is fixed to an upper surface of the moving plate portion.

According to the present invention, the installation height and installation angle of the heater main body can be arbitrarily adjusted through the angle adjusting means, the bending frame, and the vertical frame of the fixed frame portion, so that the usability can be improved.

In addition, according to the present invention, since the generation of rust is prevented through the far-infrared radiation plate made of aluminum alloy and the heat reflecting plate made of stainless steel, the occurrence of failure can be reduced and the service life can be improved.

In addition, according to the present invention, stability of the case unit can be improved because the case body is firmly fixed to the body of the radiator through a fixed frame of a 'C' shaped cross section fixed to the center of the rear face and a rib formed at a lower portion of the vertical frame.

1 is a perspective view showing a front surface of a rotary stand type far-infrared heater according to the present invention.
FIG. 2 is a perspective view showing a rear surface of a rotary stand type far-infrared heater according to the present invention. FIG.
3 is a sectional view showing a unit copying unit of a rotary stand type far-infrared radiator according to the present invention.
FIG. 4 is a perspective view illustrating a stand unit of a rotary stand type far-infrared heater according to the present invention. FIG.
FIG. 5 is a perspective view illustrating a combined state of a case unit and a stand unit among the rotary stand type far-infrared heaters according to the present invention. FIG.

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

FIG. 1 is a perspective view showing a front surface of a rotary stand type far-infrared heater according to the present invention, and FIG. 2 is a perspective view showing a rear surface of a rotary stand type far- 1 and 2, the present invention includes a rectangular case unit 10, a far infrared ray radiating unit 20 placed inside the case unit 10, a control unit 30, and a case unit 10 And a stand unit 40 fixed to the back surface of the case unit 10. The stand unit 40 is provided with means for adjusting the rotation angle? And the tilt angle? Of the case unit 10.

The case unit 10 is formed in a box shape having a long rectangular shape and is placed in a state in which the far-infrared ray radiation unit 20 is exposed at one side of the case unit 10 and the cover 16 is covered with the control unit 30 at the other side It is enshrined.

The case unit 10 is provided with a wire hole 11 for allowing an external electric wire to flow into the rear surface thereof and a heat dissipating hole 12 and a safety net 13 on the surface thereof. The heat dissipation hole 12 serves to prevent a temperature rise inside the case unit 10 due to the heating of the heat ray 23 of the far infrared radiation radiation unit 20 to be described later, It plays a role to prevent safety accidents such as fire or burn due to the nature of being placed in a person's activity space.

A bent end 13 'is formed at an end of the safety net 13 so as to be fixed to the main body of the case unit 10 and a bent end 13' A fixing hole 14 is formed. When the cover 16 is fixed to the upper portion of the control unit 30 after the safety net 13 is pushed out while the bent end 13 'is inserted into the net fixing hole 14, The insertion and fixing of the safety net 13 is maintained.

When the stand unit 40 is directly fixed to the back side of the case unit in which the far infrared ray radiating unit with weight and the control unit 30 are incorporated, the back surface can be deformed. Further, the unit radiation portion to be described later is fixed to the case unit by a rivet or the like, but the rivet fixing portion can be loosened. Therefore, the back surface of the case unit and the stand unit 40 are connected and fixed via the fixing frame 15 fixed to the back surface of the case unit 10. [ In this case, it is preferable that the stationary frame 15 is formed in a 'C' shape in order to enhance rigidity.

FIG. 3 is a cross-sectional view illustrating a unit copying unit of a rotary stand type far-infrared radiator according to the present invention. 1 to 3, the far-infrared ray radiating unit 20 is configured to radiate far-infrared rays by receiving electricity through an external wire introduced through the wire hole 11, and includes a unit radiating unit 21 ). In this case, the plurality of unit radiation units 21 may be fixed to the case unit 10 in a state where the unit radiation units 21 are arranged in parallel with each other according to the heating area.

If the unit radiation unit 21 is fixed to the case unit 10 by a piece or the like, the fixing unit may be loosened due to repeated thermal expansion and contraction of the unit radiation unit 21, It is preferable that fixing is performed by a riveting method.

A U-shaped hollow tube 22 is inserted and fixed in the unit radiation part 21 and a heat ray 23 is fixed inside the hollow tube 22. The upper surface of the unit radiation part 21 is provided with a far infrared ray radiating plate 24 and the rear surface thereof is provided with a heat reflecting plate 25 so that heat radiated from the heat ray 23 is radiated to the far infrared ray radiating plate 24 do.

In order to prevent rust, the far-infrared radiation plate 24 is made of an aluminum alloy, and the heat reflecting plate 25 is made of stainless steel It is preferable that it is made of steel.

On the surface of the far-infrared radiation plate 24, a coating layer formed by mixing silicon oxide and the like is formed. When the coating layer receives heat from the heat ray 23, far infrared ray, anion and silver nano are emitted from the coating layer. In this case, the far-infrared radiation plate 24 may be formed with a wave-shaped portion 24a on the surface thereof so that the far-infrared radiation efficiency is improved by widening the emission area.

The control unit 30 is configured to control the operation and stop of the far infrared ray radiating unit 20, the operation in accordance with the set temperature and the set time, and the stop in the detection of the abnormal operation. The control unit 30 includes an input unit, a display unit 31, A short circuit breaker 33, and a control unit.

The input unit is a member for transmitting a command signal for changing the operation and set temperature of the far infrared ray radiating unit 20 and the set time. The input unit may be provided in the remote controller for convenience of operation, As shown in FIG.

The display unit displays the on / off state of the far-infrared ray radiating unit 20, the set temperature and the set time or the remaining operation time according to the set time, and the power supply unit supplies electric power to the hot line 23 .

The sensor unit measures the temperature of the far infrared ray radiating unit 20 in real time and transmits the measured value to the control unit. When the overcurrent shutoff unit 33 detects that an overvoltage is applied to the internal circuit or an overcurrent flows, And serves to cut off the power supply.

When the control unit receives the operation command signal from the input unit, the control unit transmits a control signal to the power supply unit to supply electricity to the hot line 23, thereby operating the far-infrared radiation unit 20. The control unit compares and analyzes the temperature measurement value of the sensor unit with the set temperature of the display unit so that the electric supply is intermittently performed so that the temperature of the far-infrared radiation unit 20 is maintained at the set temperature, The operation of the far-infrared radiation unit 20 is stopped.

FIG. 4 is a perspective view explaining a stand unit among the rotary stand type far-infrared heaters according to the present invention, and FIG. 5 is a perspective view showing a combined state of the case unit and the stand unit among the rotary stand type far- 4 and 5, the stand unit 40 is configured to adjust and move the angle of the main body 10, 20, 30, and for this purpose, the upper end of the stationary frame 15, And a moving plate portion 47 fixed to the lower end of the fixed frame portion 41. [

The fixed frame part 41 is a member for adjusting the rotation angle? And the tilt angle? Of the case unit 10 and includes an angle adjusting unit 42 having one end fixed to the fixed frame 15, A bending frame 43 inserted into the other end of the adjusting means 42 and a vertical frame 44 inserted into the lower end of the bending frame 43.

The angle adjusting means 42 includes a body bar 42a having a "C" shaped cross section for insertion and insertion into the bending frame 43 and a body bar 42a and a fixed frame 15 And a fixed rotary plate 42b.

An arcuate inclination angle adjusting groove 42a 'is formed on the side surface of the main body bar 42a to adjust the inclination angle Ω of the case unit 10 and a tightening screw 42a' inserted into the inclination angle adjusting groove 42a ' The inclination angle? Of the case unit 10 is adjusted and maintained through the first and second contact portions 42a and 42a.

An arc-shaped rotation angle adjusting groove 42b 'is formed in the rotation plate 42b so that the case unit 10 can rotate freely within a range of 90 °. The rotation angle adjusting groove 42b' The rotation angle &thetas; of the case unit 10 is adjusted and maintained through the first through-hole 42b ".

The bending frame 43 is composed of a horizontal bar 43a and a vertical bar 43b which are coupled to each other at right angles and the end of the horizontal bar 43a is inserted into the body bar 42a, And the lower portion of the vertical bar 43b is inserted into the vertical frame 44 and the tightening screw 44 'provided on the vertical frame 44 is inserted into the vertical frame 44 The height of the body portions 10, 20 and 30 is adjusted by controlling the insertion depth of the body portions 10, 20 and 30. The horizontal portion 43a and the vertical portion 43b are connected to each other, Since a bending load is applied by a load, a reinforcing rib 43c may be provided at an inner boundary portion to enhance rigidity.

The lower portion of the vertical frame 44 is fixed to the moving plate portion 47. Since a bending load is applied by the loads of the body portions 10, 20 and 30, .

The moving plate portion 47 is a member for moving according to the present invention. For this purpose, a base plate 48 made of a rectangular plate and a moving wheel (not shown) fixed to a rear portion of the base plate 48 49).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10: Case unit
11: wire hole 12: heat dissipation hole
15: Fixed frame
20: far-infrared radiation unit
21: unit copying unit 22: hollow tube
23: heat line 24: far-infrared ray plate
25: heat reflector
30: control unit
31: Display portion 33:
40: Stand unit
41: fixed frame part 42: angle adjusting means
43: bending frame 44: vertical frame
47: moving plate portion 48: base plate
49: Moving wheel

Claims (4)

Infrared radiation radiating unit 20 is exposed on one side of the inside and the control unit 30 is placed on the cover on the other side so that the surface of the far infrared radiation radiating unit 20 is covered with heat dissipation A case unit 10 having a hole 12 and a safety net 13 for preventing a fire or an accident including an image and having a wire hole 11 for allowing an external electric wire to flow into the backside;
And a unit radiating unit (21) placed in the case unit (10) and having at least one unit radiating unit (21), wherein the unit radiating unit (21) comprises a far infrared ray radiating unit (20) radiating far infrared rays when heat is applied thereto;
A control unit (30) for controlling the operation and stop of the far-infrared radiation unit (20), the operation according to the set temperature and the set time, and the stop during abnormal operation; And
A fixed frame part 41 fixed to the back surface of the case unit 10 and a moving plate part 47 fixed to the lower end of the fixed frame part 41, A bending frame 43 inserted into and coupled to the other end of the angle adjusting means 42 and a vertical frame 42 inserted and coupled to the lower end of the bending frame 43, And the angle adjusting means 42 includes a body bar 42a having a curved section and a body 42a and a rotating plate 42b which is coupled to both sides of the case unit 10 An arc-shaped inclination angle adjusting groove 42a 'is formed on a side surface of the body bar 42a. An arc-shaped angle-of-rotation adjusting groove 42b' is formed in the rotary plate 42b, ', And a rotation angle is adjusted through a tightening screw 42b' inserted into the rotation angle adjusting groove 42b ' And a stand unit 40 that is adjusted and held,
The bending frame 43 is composed of a horizontal bar 43a and a vertical bar 43b which are coupled to each other at right angles and the end of the horizontal bar 43a is inserted into the body bar 42a, And the lower portion of the vertical bar 43b is inserted into the vertical frame 44 and the tightening screw 44 'provided in the vertical frame 44 is inserted into the vertical frame 44. [ The insertion depth is adjusted through the insertion hole,
A bent end 13 'is formed at an end of the safety net 13 so as to be fixed to the main body of the case unit 10 and the bent end 13' is inserted into the main body of the case unit 10. A net fixing hole 14 is formed,
The unit copying unit (21)
Infrared radiation plate 24 and a thermal reflector 25 are respectively provided on the upper and lower portions and the far infrared ray radiating plate 24 is made of an aluminum alloy to prevent rusting due to cooling, ) Is made of stainless steel,
The case unit (10)
Shaped stationary frame 15 having a "C" -shaped cross section at the center of the back surface, the stationary frame 15 is fixed to the rotary plate 42b,
The vertical frame (44)
And a lower end of the rib 44a is fixed to the upper surface of the moving plate portion 47,
The control unit 30 includes an input unit, a display unit, a power supply unit, a sensor unit, an earth leakage cutoff unit, and a control unit. When the control unit 30 receives the operation command signal from the input unit, Infrared radiation radiating unit 20 so that the temperature of the far-infrared radiation radiating unit 20 can be maintained at a set temperature by comparing and analyzing the temperature value measured by the sensor unit and the temperature set on the display unit Wherein the rotary stand type far-infrared radiator is characterized in that:
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