KR101627252B1 - An Heating Apparatus Having a Strip Heater - Google Patents

Abstract

The present invention relates to a strip heater for heating and, more specifically, relates to the strip heater for heating which reduces power consumption while improving thermal efficiency by fixing a strip type resistance wire to a ceramic type substrate. The strip heater for heating comprises: a strip fixing unit (S) where a border (13) and a number of interconnected insertion extension grooves (11) are formed; a strip heating element (12) extended to form a continuous waveform while having an overall strip shape along an insertion extension groove (11); a dispersion plate (15) to which the border (13) is fixated; and a protection net (14) arranged up on the strip fixing unit (S). The strip fixing unit (S) is formed from a ceramic fiber, and has a density of 200-400 kg/m^3 and a thermal conductivity of 0.05-0.30 W/m·K. Also, a width of the strip heating element (12) is smaller than a height of the insertion extension groove (11).

Description

[0001] DESCRIPTION [0002] An Heating Apparatus Having a Strip Heater [

The present invention relates to a strip heating apparatus for heating, and more particularly, to a heating strip heater apparatus for fixing a strip-shaped resistance wire to a ceramic-based substrate to improve thermal efficiency and reduce power consumption.

BACKGROUND OF THE INVENTION Heating devices or heater devices with various structures for indoor and outdoor heating are known in the art. Generally, electricity or gas is used as means for generating heat in a heating device or a heating device, and a heater having various materials or structures can be applied to a heating device.

Patent Registration No. 10-0792155 discloses a heater for an auxiliary heating apparatus in which heat dissipation fins are joined to and stacked on both side planes of a heating element and electrodes are formed on at least one end of the heating element and the heat dissipation fin in the longitudinal direction. In the prior art, the heating element is a ribbon heating element in which an insulating material is coated on an outer surface of a ribbon-shaped amorphous metal compound, and conductive heat dissipation is applied to the outer surface of the amorphous metal compound so that hot spots due to insufficient heat dissipation are not generated at the ends of the ribbon heating element. The present invention relates to an electrode structure of a ribbon heater for an auxiliary heating device in which an electrode is formed by joining ashes and an insulating material is coated while leaving an end portion where an electrode terminal contacts the electrode.

Patent Publication No. 10-2010-0080656 discloses a heat exchanger comprising a plurality of heat exchanging plates inserted into the outside of a heater rod and provided at predetermined intervals along the longitudinal direction of the heater rod to receive heat from the heater rods, A heat exchanging part formed of a plurality of light transmitting openings formed to be open between each of them and passing radiation heat rays radiated from the heater rods; And a radiant heater provided at one end of the heat exchange part and having a blowing means for providing convection heat by forcibly blowing air to the plurality of heat exchange plates.

The Utility Model Registration No. 20-0411130 discloses a PTC ceramic heater for heating in which several heat-radiating pipes are fixed to a pair of left and right L-shaped brackets with a plurality of heat-radiating fins fixed at regular intervals. It is advantageous that the heating heater is made of a material capable of generating heat in a predetermined direction as well as a heat generating material and a material for causing rapid heating effect. The prior art does not disclose a heater device having such a condition.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 10-0792155 (published by Amosense Co., Ltd., Jan. 04, 2008) Electrode Structure of Ribbon Heater for Auxiliary Heating Device and Manufacturing Method of Electrode Prior Art 2: Patent Publication No. 10-2010-0080656 (Korea Institute of Industrial Technology, published on July 12, 2010) Radiant heater capable of convection heating Prior art 3: Utility model registration number 20-0411130 (Choi, Hongcheon, published on Mar. 10, 2006) Pitty seed ceramic heater for heating machine

SUMMARY OF THE INVENTION An object of the present invention is to provide a heating strip heater device capable of heating in a short time and having a high heating efficiency due to excellent heat reflection performance, thereby reducing power consumption.

According to a preferred embodiment of the present invention, the strip heating apparatus for heating includes a strip fixing unit having a rim and a plurality of mutually connected insertion extension grooves formed therein; A strip heating body extending along the insertion extending groove so as to have a strip shape as a whole and to continuously form a waveform; A dispersion plate on which a rim is fixed; And a protective net disposed above the strip fixing unit, wherein the strip fixing unit is formed from ceramic fibers and has a density of 200 to 400 kg / m < ³ > and a thermal conductivity of 0.05 to 0.30 W / The width of the strip heating element is smaller than the height of the insertion groove.

According to another preferred embodiment of the present invention, the ratio of the average thickness / length of the strip heating element is 0.01 / 200 to 2/200.

According to another preferred embodiment of the present invention, the apparatus further comprises an extension fixing protrusion extending along the insertion extending groove and having a fixing gap formed in a direction perpendicular to the extending direction.

The heating device according to the present invention has a high initial efficiency and a high heating efficiency due to the heat reflecting property of the material to which the heating element is fixed. Further, the heater device according to the present invention improves the durability due to the strip structure while reducing the power consumption while allowing the heating condition to be appropriate.

1A shows an embodiment of a heater device according to the present invention.
1B shows an embodiment of a heater fixing structure of a heater device according to the present invention.
FIG. 2 shows an embodiment in which the heater device according to the present invention is installed.
Fig. 3 shows another embodiment of a heater applied to the heater device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

FIG. 1A shows an embodiment of a heater device 10 according to the present invention.

1A, a heating strip heater apparatus 10 according to the present invention includes a strip fixing unit S having a rim 13 and a plurality of insertion extension grooves 11 connected to each other; A strip heating body 12 extending along the insertion extending groove 11 so as to have a strip shape as a whole and to continuously form a waveform; A dispersion plate 15 to which the rim 13 is fixed; And a protective net (14) disposed above the strip fixing unit (S), wherein the strip fixing unit (S) is formed from ceramic fibers and has a density of 200 to 400 kg / m < ³ & / m · K, and the width of the strip heating element 12 is smaller than the height of the insertion groove 11.

The heater device 10 according to the present invention can be used for indoor or outdoor heating, and can be made in an appropriate size and applied to various heating spaces.

The strip fixing unit S may be made of, for example, a ceramic fiber material, and may include a plurality of insertion extending grooves 11 and a frame 13 surrounding the plurality of insertion extending grooves 11. [ For example, the strip fixing unit S may be formed into a rectangular plate as a whole, and may have, for example, a ceramic fiber board shape. The ceramic fiber board may have a round, oval or polygonal shape. The insertion groove 11 can be formed by forming an extending groove having a predetermined width and height from the surface of the ceramic fiber board. The insertion extension grooves 11 may be formed to be arranged in parallel, and the insertion extension grooves 11 may be formed at regular intervals. As shown in Fig. 1A, the insertion groove 11 may be formed in a channel shape having a rectangular cross section. And a connecting groove may be formed along the edge of the ceramic fiber board to form the rim 13. So that different insertion extension grooves 11 are connected by the connection groove.

The strip fixing unit S may be made of ceramic fiber or ceramic staple fiber, and may be made of a ceramic short fiber foam structure. For example, the strip fixing unit S may comprise 50 to 55 wt% SiO ₂ ; 45 to 50 wt% of Al ₂ O _3; A small amount of Fe ₂ O ₃ : and a small amount of inorganic material, or 50 to 55 wt% of SiO ₂ ; 45 to 50 wt% of graphite; It can be made from a small amount of Fe ₂ O ₃ : and a small amount of minerals. And may have a hardness of 60 to 200R (Rockwell Hardness) made from such a material, but is not limited thereto. For example, the strip fixing unit S according to the present invention can have a hardness of a level at which a bolt, a screw, or a fixing pin can be easily inserted. The strip fixing unit S may also have a density of 200 to 400 kg / m ³ , a thermal conductivity of 0.05 to 0.30 W / m · K, or a loss on ignition (LOI) of 5 to 8 wt%. With such physical characteristics, the heat generated by the strip heating body 12 can be easily discharged into the space to be heated without loss. For example, due to the low density, the total weight is reduced so that the insertion groove 11 can be easily formed. The height of the insertion groove 11 may be larger than the width of the strip heating element 12 described below, and due to the structure, the heat may be induced to be emitted in a predetermined direction.

The strip heating element 12 to be inserted into the insertion groove 11 can be formed into a strip shape, for example, and can be formed into a continuously bent shape. And the strip heating element 12 can be made to have a thin thickness or to have a length sufficiently larger than the width. The strip heating element 12 may be inserted into the insertion groove 11 in the form of a unit strip formed to have a predetermined length or inserted into the insertion groove 11 as a unit. When the strip heating body 12 is inserted into the extension insertion groove 11 in this manner, the strip heating body 12 may be inserted into the inner space of the strip fixing unit S. [

The protection net 14 can be arranged on the open side of the strip fixing unit S and the protection net 14 can be made of various materials such as a metal material or a heat insulating material, 14). The protective net 14 may be made of, for example, a heat reflective heat-insulating material or may be made of a mesh-like material coated with a heat reflective heat-insulating material. And the strip fixing unit S to which the protection net 14 is coupled can be coupled to the dispersion plate 15. [ The protection net 14 can be fixed at the same time as the rim 13 is fixed to the dispersion plate 15 as an alternative. The dispersion plate 15 may be in the form of a plate extending, for example, to slant outwardly from the rim 13. The dispersion plate 15 can be made of various metallic materials or insulating materials. It can be made of various materials of the dispersion plate 15 and the present invention is not limited by the kind of the dispersion plate.

An operating device such as a control unit and an electrical connector for adjusting the operation of the heater may be disposed behind the strip fixing unit S or at another suitable position.

The structure of the strip fixing unit S applied to the heater apparatus 10 according to the present invention will be described in detail below.

1B shows an embodiment of the heater fixing structure of the heater device 10 according to the present invention.

Fig. 1 (b) shows an embodiment of the strip fixing unit S, and Fig. 1 (b) shows an embodiment of the strip heating body 12. Fig.

Referring to FIG. 1 (b), the rim 13 may have a rectangular shape having a predetermined width and may have a rectangular wall structure. And the insertion extension groove 11 may be formed into a shape that is linearly arranged in the inside of the rim 13. Alternatively, the groove forming protrusions 16 may be disposed, so that the insertion groove 11 may be formed between the groove forming protrusions 16. [ For example, groove forming projections 16 in the form of a straight bar are arranged at regular intervals and can be arranged on the bottom surface of the strip fixing unit S by suitable fixing means 161 such as fixing pins. As described above, the strip fixing unit S can be made of a soft ceramic fiber material and can be easily fixed to the bottom surface of the strip fixing unit S by suitable fixing means of a metal material or a heat resistant material. The insertion groove 11 can be connected to each other by allowing the groove-forming projections 16 to be arranged in the frame with a shorter length than the length of the frame wall facing each other. And the strip heating body 12 may be disposed in the connected insertion groove 11.

1B, the strip heating element 12 may be, for example, a nickel-chromium alloy, a tungsten system or other resistance heating element known in the art, and may have a length sufficiently larger than its thickness and width It can be a strip shape. For example, the strip heating element 12 may be made to have a thickness of 0.01 to 2 mm, a width of 1 to 40 mm, and a length of 50 to 200 mm. For example, the ratio of the average thickness / length may be made to be 0.01 / 200 to 2/200. If the thickness is smaller than the suggested value, the width must be larger than necessary to have a proper resistance value. If the thickness is larger than the suggested value, it is difficult to fix the thickness by the property of the strip itself. Also, when the ratio of thickness / length is smaller than the suggested value, the tensile strength becomes weaker. If the ratio is larger than the suggested value, it is difficult to fix and the calorific value becomes difficult to control. The strip heating element 12 can be made to be bent continuously in a predetermined unit length, thereby making it possible to form a structure in which the waveform 121 having a predetermined shape is repeated along the linear shape. For example, It can be a shape.

The strip heating elements 12 may be made of one strip that runs along the insertion extension grooves 11 formed in parallel with each other or may be made of a structure in which a plurality of unit strips are connected by appropriate conductive connectors or switches.

The strip heating body 12 having various structures can be applied to the heater apparatus 10 according to the present invention and the present invention is not limited to the embodiments shown.

An embodiment of a heating apparatus to which a heating apparatus 10 for heating according to the present invention is applied will be described below.

FIG. 2 shows an embodiment in which the heater device 10 according to the present invention is installed.

2, a plurality of heater devices 10 may be fixed to the heater fixing frame 21, and the heater device 10 may be connected to the fixing frame 21 by suitable fixing means, As shown in FIG. And the heater fixing frame 21 may be fixed by an installation member 22 fixed to the base 23. [ One or more heater devices 10 may be fixed to the heater fixing frame 21, and each heater device 10 may have the same structure or have a different structure. Various devices for operating or supplying electric power to the heater device 10 can be disposed in the heater fixing frame 21 or the mounting member 22. [ And the heating device in which the one or more heater fittings 10 are disposed can be installed in an appropriate heating space.

Hereinafter, another embodiment of the heater according to the present invention will be described.

Fig. 3 shows another embodiment of a heater applied to the heater device 10 according to the present invention.

Referring to FIG. 3 (a), the strip heating element may be a strip group composed of a plurality of unit strips 31a to 33b. Each strip group may consist of, for example, two unit strips 31a, 31b; 32a, 32b; or 33a, 33b. The number of unit strips 31a to 33b belonging to one strip group is not limited, and for example, two unit strips 31a to 33b can form one strip group. As shown in FIG. 3 (a), a plurality of strip groups may be disposed in one heater apparatus, and a plurality of strip groups disposed in one heater apparatus may be connected to each other to minimize power consumption. For example, the input wiring (L1) and the output wiring (L2) for power supply can be made to flow in opposite directions in one group of strips, so that the value of the capacitance or reactance can be minimized have. The wiring between the different strip groups may be formed such that the unit strips 31a to 33b disposed inside the strip group have different current directions. The number of the strip groups disposed in one heater device or the unit strips 31a to 33b disposed in the strip group can be appropriately selected according to the structure of the heater fixing unit and the present invention is not limited to the illustrated embodiment.

FIG. 3 (B) illustrates a planar shape of one insertion extension groove 11 formed between the two groove formation protrusions 16a and 16b.

Each of the groove-forming projections 16a, 16b may have the same or similar structure and may be arranged in parallel. The insertion spot groove 11 disposed between the groove forming protrusions 16a and 16b may be formed with an extending fixing protrusion 34 having a relatively thin width while being extended in parallel with the groove forming protrusions 16a and 16b have. The extension fixing projections 34 may have a smaller height than the groove forming projections 16a and 16b and may have a fixing gap 341 for inserting and fixing the strip heating elements at regular intervals. The fixing gap 341 may be formed perpendicular to the extending direction of the extending protrusion 34 and may have a gap size corresponding to the thickness of the heating element strip. The extending protrusions 34 may be formed by disposing a plurality of units. For example, a part of the strip heating element disposed in the insertion extending groove may be fixed by the unit forming the extending fixing protrusion 34. The elongated fixing protrusion 34 may be fixed to the insertion elongated groove by, for example, a fixing pin, an adhesive or other suitable fixing means, and the present invention is not limited to the illustrated embodiments.

The strip heating element can be fixed to the insertion groove by various fixing means, and the present invention is not limited to the embodiments shown.

The heating device according to the present invention has a high initial efficiency and a high heating efficiency due to the heat reflecting property of the material to which the heating element is fixed. Further, the heater device according to the present invention improves the durability due to the strip structure while reducing the power consumption while allowing the heating condition to be appropriate.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: heater device 11: insertion extension groove
12: strip heating element 13: rim
14: Protection net 15: Dispersion plate
16a, 16b: groove forming projection 21: heater fixing frame
22: mounting member 23: base
34: extension fixing projections 31a, 31b to 33a, 33b:
121: Waveform 161: Fixing means
341: Fixed gap L1: Inlet wiring
L2: outflow wiring S: strip fixing unit

Claims (3)

A strip fixing unit (S) formed with a rim (13) and a plurality of insertion extension grooves (11) connected to each other;
A strip heating body 12 extending along the insertion extending groove 11 so as to form a strip 121 as a whole and continuously forming a waveform 121;
A dispersion plate 15 to which the rim 13 is fixed; And
And a protection net (14) disposed above the strip fixing unit (S)
The strip fixing unit S is formed from ceramic fibers and has a density of 200 to 400 kg / m ³ and a thermal conductivity of 0.05 to 0.30 W / m · K, 11,
Further comprising an extension fixing protrusion (34) having a fixing gap (341) formed along the insertion extension groove (11) and perpendicular to the extension direction. The heating strip heater according to claim 1, wherein the ratio of the average thickness / length of the strip heating element (12) is 0.01 / 200 to 2/200. delete

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