KR102230541B1 - Wall Heating Panel - Google Patents

Abstract

The present invention relates to a heating wall panel having a housing (1) and a heat sink (2) fixed toward the front by a bracket to the housing, and the heat sink (2) has a plurality of vertically extending elements in the width direction. A heater 22' is disposed in each of the grooves 22, and a plurality of heat receiving grooves 23 having a concave cross-sectional shape are formed between the grooves 22 so that heat is aggregated, and the heat receiving A through hole 23 ′ formed on the rear side of the groove 23 is formed, and a fan 3 is provided on the rear side of the heat sink, so that the airflow generated by the fan passes through the through hole 23 ′. By discharging the heated air in the heat receiving unit into the room, the convection phenomenon in the room is promoted. As a result, a plurality of heat receiving units receiving heat generated from the heater provided in the plurality of grooves are formed, resulting in thermal efficiency. This is improved, and through holes are formed in the heat receiving portions extending in the longitudinal direction, and heat is radiated toward the room by a fan provided on the rear side, so that the indoor heating by convection is effectively performed, so that rapid heating can be achieved. have.

Description

Wall Heating Panel

The present invention relates to a wall panel for heating, in particular, receiving a circular heater disposed in a plurality of grooves, and a plurality of heat receiving portions vertically extending in the width direction to improve heat absorption and heat dissipation characteristics, the heat It relates to a wall panel for heating having an improved structure so that through holes are formed in the upper and lower portions of the receiving portions to improve heat dissipation characteristics by the fan.

In general, indoor heating is performed by radiant heat after heat is transferred through the floor of a building from heaters or heating pipes provided on the floor.

However, in the case of an office building, in particular, in a building where individual heating is performed instead of centralized heating, a heater is not installed on the floor, but a separate heating heater is provided for indoor heating.

On the other hand, a plan for indoor heating by installing a heating panel on the wall of a building has been proposed.

As an example of such a heating panel, in Korean Patent Laid-Open Publication No. 10-2009-0006257 (published on January 15, 2009), the inside of the heat pipe panel is divided into a heating part and a heat transfer part, and the heating part is heated by electricity. Heat pipe panel 30, in which a heat source is installed, and the heat transfer part constitutes a pipe connected thereto or a heat transfer passage spaced at regular intervals, a heat medium is injected into the interior, and a vacuum-sealed heat pipe panel is inserted into the interior of the building. Integral heat pipe for building interiors with a front part with a radiating surface of a durable surface and a guide groove so that a number of pipes that constitute the heat transfer part of the heat pipe can be fixed to a separate heat transfer panel with a plurality of durable surface shapes. The panel is disclosed.

As another example, in Korean Patent Publication No. 10-1434109 (registration date August 19, 2014), a hot water pipe is provided on the top of the concrete layer formed by pouring concrete, and floor heating is performed by the heat radiated from the hot water pipe. In the heat dissipation structure of the heating system, the inlet portion, which is formed in the form of a metal plate so that heat can be conducted, and the hot water pipe is drawn in to the lower side, extends to be curved in one direction or ellipse, so that the heat radiated from the hot water pipe is conducted and radiated. Heat sink; A heating system comprising: a reflector that is located at the lower side of the heat sink and has the same plate shape as the heat sink, and has a receiving portion that receives the lower side of the inlet portion to reflect heat emitted from the hot water pipe to the heat sink. A heat dissipation structure is disclosed.

In a conventional heat sink, heat is conducted through the heat sink and radiated to the room to heat the room, but the heat radiated from the heat sink heats the air in the front of the heat sink and the heated air rises along the heat sink to heat the indoor space. There was a problem that the heating efficiency was lowered due to the time consuming, there was a problem that the heat efficiency was low due to heat loss due to heat radiating to the rear side of the heat sink, and there was a problem that the manufacturing cost was increased due to the complicated structure of the wall panel. .

Korean Patent Application Publication No. 10-2009-0006257 (published on January 15, 2009) Korean Registered Patent Publication No. 10-1434109 (Registration Date August 19, 2014)

An object of the present invention is to solve the problem of the conventional heating panel described above, grooves in which a plurality of heaters spaced apart in the width direction are disposed, and heat receiving portions for receiving conductive heat are formed therebetween, and the heat receiving portion A heat sink formed by extending a number of through-holes in the width direction along with a bulge, and a fan provided on the rear side are provided to dissipate the heating heat received in the heat sink to the front of the room by the fan to quickly and efficiently heat the room. It is to provide an improved heating wall panel.

In order to achieve the above object, in the heating wall panel according to the present invention, in the heating wall panel having a housing and a heat dissipating plate fixed toward the front by a bracket to the housing,

Heaters are disposed in each of the plurality of vertically extending grooves 22 on the heat sink,

A plurality of heat-receiving grooves having a concave cross-sectional shape are formed between the recessed portions, and through holes formed on the rear side of the heat-receiving groove are formed,

A fan is provided on the rear side of the heat sink, and the airflow generated by the fan discharges heated air in the heat receiving unit into the room through the through hole, thereby promoting a convection phenomenon in the room.

A plurality of through-holes are formed between the plurality of protrusions in the flat surface around the heat receiving grooves and the recessed part for the heater, and the surface of the heat dissipating plate by the protrusions and the heat receiving grooves so that the amount of radiation through the front surface of the heat dissipating plate is increased. It is preferable to be configured in this uneven shape.

Both ends of the heat sink are fixed to a reflecting plate composed of an installation plate for installing the heat sink by brackets inserted into a "c"-shaped groove, and both ends of the reflecting plate are fixed to the housing, and the reflective plate is attached to a fan. The opposite part is opened so that the airflow by the fan is smoothly directed to the heat sink.

The through holes formed in the heat receiving grooves formed in the heat sink and a plurality of through holes on the flat surface may be formed to extend in the vertical direction of the heat sink or may be formed in the form of individual holes.

The heat dissipation plate may be formed of a plurality of unit panels assembled in the vertical direction of the wall on which the wall panel is installed.

According to the present invention, a plurality of heat receiving portions for receiving heat generated from the heater provided in the plurality of grooves formed in the width direction are formed to improve thermal efficiency, and through holes are formed in the heat receiving portions extending in the length direction. Heat is radiated toward the room by a fan provided on the rear side, so that indoor heating by convection is effectively performed, thereby enabling rapid heating.

1 is a schematic perspective view of a wall panel for heating according to the present invention.
Figure 2 is an exploded perspective view of the heating wall panel of Figure 1;
Figure 3 is a cross-sectional view showing the heat sink structure of Figure 2;
Figure 4 is a perspective view of a modified example of the heat sink of Figure 3;
Figure 5 is a schematic use state diagram showing that the indoor heating is made by the heating wall panel according to the present invention.
6 is a perspective view of a heat sink of a modified example in which a through hole is formed in a long hole shape

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

1 to 3, the wall panel for heating according to the present invention includes a housing 1, a heat sink 2 fixed to the front with a bracket on the housing, and a fan 3 provided on the rear side of the heat sink.

The heat dissipation plate 2 is fixed to the reflector 26 by brackets 21 whose both ends are inserted into a "c"-shaped groove, and both ends of the reflecting plate are fixed to the housing 1. The reflector 26 not only functions as an installation plate for installing the heat sink 2 on the housing 1, but also reflects heat radiated to the rear side of the heat sink to the front to minimize heat loss. The reflector 26 has a portion facing the fan open so that the airflow by the fan 3 is smoothly directed to the heat sink, thereby improving the radiation efficiency of heat generated from the heater and negative ions.

A heater 22', for example, a far-infrared heater is disposed in each of the heat sink 2 in a plurality of widthwise directions and three vertically extending grooves 22 in the embodiment shown in the drawing, and accommodates the heater. A plurality of heat receiving grooves 23 having a concave cross-sectional shape are formed between the concave grooves 22 for. As a result, heat generated by the heater 22 ′ is conducted along the heat sink 2 in the width direction and the length direction, and heat is radiated into the room through the front surface of the heat sink.

Among the heaters, the central one is formed by a far-infrared heater, and the heaters on both sides may be a sheath rod heater coated with ceramic, and it is preferable to maximize the radiation of negative ions emitted from the ceramic and far-infrared heat emitted from the far-infrared heater. The heaters are assembled in a form of forcibly fitting into the concave groove 22, but are combined in a crank form in a single-film form to accommodate torsional deformation due to heat to prevent damage to the heater.

The heat receiving grooves 23 are formed concave and generated from the heater 22 ′ provided in the adjacent concave groove 22 so that the conducted heat heats the air in the heat receiving groove 23 with radiant heat to aggregate the heat. The heated air in the heat receiving groove 23 is discharged to the front of the heat sink by wind blown by the fan through the through hole 23 ′ formed on the rear side thereof to radiate heat to the indoor space. It further promotes the convection phenomenon in the room and improves the thermal efficiency.

In addition, a plurality of through-holes 24 are also formed on the flat surfaces around the heat receiving grooves 23 and the recessed grooves 22 for heaters, so that heat generated by the heater is conducted from the heat sink to inside the heat receiving grooves. It heats the air in the space. The through holes 24 are formed between the plurality of protrusions 27. It is preferable that a groove 25 is formed on the front surface of the through hole 24. The protrusions 27 and the heat receiving grooves 23 and 25 make the surface of the heat sink in an uneven shape, so that the amount of radiation through the front surface of the heat sink is increased, thereby improving heating efficiency.

Thereby, heat generated by the heater 22' is conducted from the heat sink to heat the air inside the heat receiving groove 23, and the heated air received in the heat receiving groove is transferred by a fan provided on the rear side of the heat sink. The air flow through the through hole 23' is discharged to the indoor space in front of the heat sink, and as the air flow by the fan flows toward the center of the room, it promotes the convection phenomenon in the room so that the room temperature rises more quickly. .

In addition, the heat receiving grooves 23 formed in the width direction of the heat sink, the through holes 23 ′ formed therein, and the adjacent through holes 24 are formed to extend in the entire vertical direction of the heat sink. The concave portion 22 in which the heater 22' is provided is also formed to extend in the vertical direction of the heat sink, that is, in the vertical direction.

In addition, the heat receiving grooves 23 of the concave cross-sectional shape formed in the heat sink, the grooves 25 and the protrusions 27 are formed on the front surface of the through holes 24 to form grooves 25 to the rear side of the heat sink. The airflow by the fan provided in the heat sink is more smoothly diffused in front of the heat sink, so that indoor heating by convection in the room can be quickly performed.

The modified example shown in FIG. 4 is formed by dividing the heat sink 2 of FIGS. 1 to 3 into a plurality of heat sink members 2 ′ in the vertical direction, and the heat sink member 2 ′ is formed by dividing the heat sink 2 of FIGS. 1 to 3 into a plurality of heat sink members 2 ′. The heater 22 for the groove (22'), the heat receiving groove (23), the configuration of the through hole (24) is formed in the same manner.

By dividing the heat sink 2 into a plurality of heat sink members 2'as described above, it is easy to insert the heat sink 2 into a "C"-shaped groove of the bracket 21 provided at both ends of the heat sink 2, so that the assembly of the heat sink is easy. .

The wall panel for heating of the present invention can be installed sideways on the inside of at least one wall of the building, as shown in FIG. 5, and at this time, heat generated from the heater is radiated from the surface of the heat sink and is conducted to the entire heat sink. , Air in the inner space of the heat receiving grooves 23 formed to be spaced apart in the width direction on the heat sink is heated, and at this time, formed adjacent to the through hole 23' of the heat receiving groove 23 by a fan provided at the rear of the heat sink. By discharging the heated airflow to the center of the room through the plurality of through holes 24, the convection phenomenon is promoted, so that indoor heating is achieved quickly, and thermal efficiency is improved.

In addition, as shown in FIG. 6, the heat sink may be formed in a long hole shape instead of the through holes 23 ′ and 24 being formed in the entire length of the heat sink.

The present invention can be used for a wall panel for heating installed on a wall of a building.

1: housing 2: heat sink
3: fan 21: bracket
22: concave portion 22': heater
23: heat receiving groove 23': through hole
24: through hole 26: reflector
27: protrusion

Claims (5)

A housing (1) and a heat sink (2) fixed to the front with a bracket to the housing, and the heat sink (2) is formed of a plurality of unit panels that are assembled in the vertical direction of the wall on which the wall panel is installed. In the heat sink 2, in the heating wall panel in which a heater 22' is disposed in each of the plurality of vertically extending grooves 22 formed in the width direction,
A plurality of heat receiving grooves 23 having a concave cross-sectional shape are formed between the concave grooves 22 and a through hole 23 ′ formed on the rear side of the heat receiving groove 23 Is formed,
A fan 3 is provided on the rear side of the heat sink, so that the airflow generated by the fan discharges heated air in the heat receiving unit into the room through the through hole 23', thereby promoting the convection phenomenon in the room. ,
A plurality of through-holes 24 are formed between the plurality of protrusions 27 in the flat surface around the heat receiving grooves 23 and the heater grooves 22, and the radiation amount through the front surface of the heat sink is increased. The surface of the heat sink is formed in an uneven shape by the protrusions 27 and the heat receiving grooves 23, and a through hole 23 ′ formed in the heat receiving grooves 23 and a plurality of through holes in the flat surface ( 24) are formed extending in the vertical direction of the heat sink,
Both ends of the heat sink 2 are fixed to a reflecting plate 26 configured as an installation plate for installing the heat sink by a bracket 21 inserted into a groove in a "c" shape, and both ends of the reflecting plate are a housing A wall panel for heating, characterized in that fixed to (1), the reflective plate (26) has a portion facing the fan (3) open so that the airflow by the fan (3) is smoothly directed to the heat sink.
















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