KR20150085148A - Heating partition - Google Patents

Abstract

The present invention relates to a partition for partitioning a space, and more particularly, to a partition for partitioning a space, a planar heating element provided on front and rear surfaces of the partition main body, And a power connection unit coupled to the socket unit and supplying power to the planar heating element, wherein the finishing unit includes: a socket unit electrically connected to the socket unit; a finishing unit coupled to the socket unit and electrically connecting the planar heating unit to each other; The surface-mounted heat generating element provided on one surface of the main body, the finishing portion, and the other surface of the main body, which are connected to the sockets of either one of the main body and the main body, The surface heating element and the power connection part are sequentially electrically connected to each other. It is achieved. Accordingly, the partition and the partition can be electrically connected easily, and the position to be connected to the power source can be freely arranged.

Description

Heating partition {Heating partition}

The present invention relates to a partition for partitioning a space, and more particularly to a heating partition having a heating function.

Generally, a heating heater is for indoor heating. Various types of heating heater have been proposed. Examples of the heating heater include various kinds of heating electric heaters, oil heaters, and steam heaters.

However, the above-mentioned various conventional heating heaters have a separately formed heating heater structure, and therefore, when the seasons are changed, they are separately packaged and stored for a predetermined period. In addition, the electric heater and the oil heater have a drawback There is a problem that it also involves the risk of fire.

In order to solve such a problem, a partition using a planar heating element has been developed, but it is difficult to supply power because the partition and the partition can not be connected to each other. Particularly, the position of the power supply can not be freely arranged, so that it is difficult to arrange the partitions.

Korean Registered Utility Model No. 20-0454656 (2011. 07.12)

It is an object of the present invention to provide a heating partition in which a partition and a partition can be electrically connected easily and a position to be connected to a power source can be freely arranged.

In order to achieve the above object,

A socket body which is provided at both ends of the main body and which is electrically connected to the surface heating element; And a power connection part connected to the socket part and supplying power to the surface heating element, wherein the finishing part is coupled with one of the socket parts, and the power connection part is connected to the other side And the power connection unit is sequentially electrically connected to the power connection unit, the planar heating unit mounted on one surface of the main body, the finishing unit, the surface heating unit mounted on the other surface of the main unit, and the power connection unit. Lt; / RTI >

The apparatus may further include at least one partition connection unit electrically coupled to the socket unit to connect the plurality of the main units.

The apparatus may further include at least one heat dissipating unit that is in close contact with the planar heating element to receive and discharge heat from the planar heating element.

The socket portion includes a socket body having a pair of guide grooves formed in a longitudinal direction on one surface thereof and a terminal inserted in the guide groove and connected to the surface heating element,

The partition connection part may include a terminal corresponding to the guide groove at one end and the other end and electrically connecting one end and the other end inside.

In addition,

A power connection body in which two pairs of guide grooves are formed in a circumferential direction, a terminal connection portion in which a pair of facing guide grooves of the guide grooves are electrically connected, an input portion in which power is inputted into the remaining guide grooves, Each of the output sections to be output can be inserted.

According to the present invention, the partition and the partition can be electrically connected easily, and power is supplied to the entire partition when power is connected to a part of the connected partition.

In addition, a position to be connected to the power source can be freely arranged, so that the power source can be easily connected according to the indoor space.

1 is a front view schematically illustrating a heating partition according to an embodiment of the present invention;
2 is a sectional view taken along the line II-II in Fig.
3 is an enlarged view of the portion "A" in Fig. 2. Fig.
Fig. 4 is an enlarged view of a portion "B" in Fig. 2;

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for the sake of brevity.

1 to 4, a heating partition according to an embodiment of the present invention includes a partition body 1, an area heating element 2, a socket portion 3, a finishing portion 5, and a power connection portion 4 ). Here, a partition connecting portion 6, a heat radiating portion 7, a fiber portion 8 and a lid 9 are further included.

The partition main body 1 is formed in a substantially rectangular parallelepiped shape and has a front surface and a rear surface. In addition, the partition body 1 may be provided with a support (not shown) at the lower end so as to stand on the floor. Thus, the space can be defined by arranging the partition main body 1 standing on the floor.

The planar heating element 2 is provided in a substantially rectangular parallelepiped film form on the front and rear surfaces of the partition main body 1 and receives power to generate heat. As a result, the area heat can be heated by receiving the power from the area heating element 2 and generating heat.

The socket section 3 is provided with a pair of substantially parallelepiped bar shapes and a pair of cutaway cylindrical guide grooves 31 are formed on one surface of the socket section 3. The terminals T corresponding to the guide grooves 31 Are fitted into the guide grooves 31, respectively.

In addition, the socket portion 3 is installed such that the other side surface of the socket portion 3 is in close contact with both side surfaces of the partition body 1. At this time, the terminal T inserted into the socket portion 3 is electrically connected to the surface heat emission element 2, respectively.

The finishing section 5 has a substantially rectangular parallelepiped bar shape in which one surface of the finishing section 5 is protruded and formed so as to correspond to the guide groove 31 of the socket section 3, The terminal T is inserted into the finishing portion 5 so as to be electrically connected. The terminals T of the socket portion 3 are electrically connected to each other through the finishing portion 5 so that the surface heat emission elements 5 provided on the partition body 1 are electrically connected to each other, (2) are electrically connected to each other. Therefore, when power is supplied to one of the planar heating elements 2, power is supplied to the other planar heating element 2 through the finishing portion 5 to operate.

The power connection portion 4 has a columnar shape with a substantially rectangular cross section, and a pair of guide grooves is formed on one surface and the other surface. Here, the guide grooves formed in the power connection portion 4 correspond to the guide grooves 31 of the socket portion 3 described above, and a detailed description thereof will be omitted.

The terminal connecting portion T3 is inserted into the power connection portion 4 so that the pair of guide grooves facing each other in the guide groove are electrically connected to each other in the power connection portion 4, And an input unit T1 and an output unit T2 to which the input power is outputted are provided, respectively.

The power connection unit 4 may further include a power plug 41 connected to the input unit T1 and the output unit T2. A description thereof will be described later.

The partition connecting portion 6 connects the partition main body 1 and the partition main body 1 so that one end and the other end face correspond to the above-described guide groove 31, respectively, and one end and the other end are electrically connected The terminal T is inserted into the partition connecting portion 6 as much as possible.

For example, in order to connect the two partition bodies 1 in a state in which the socket unit 3 is mounted on the partition body 1, the socket unit 3 provided in one partition body 1 and the other The socket portions 3 provided on the partition main body 1 are brought into close contact with each other. One end of the partition connecting portion 6 is connected to the guide groove 31 of one socket portion 3 while the other end of the partition connecting portion 6 is connected to another socket portion 3 in the state where the socket portion 3 is in close contact with each other, The socket portion 3 and the socket portion 3 are connected to each other by the partition connection portion 6. [ At this time, the guide grooves 31 facing each other by the partition connecting portion 6 are electrically connected to each other. Therefore, the partition connecting portion 6 can physically and electrically connect the partition main body 1 and the partition main body 1 to each other. A description thereof will be described later.

The heat dissipating units 7 are provided in pairs in a substantially rectangular plate shape and correspond to the sizes of the surface heat emission elements 2 described above. The surface heat emission elements 2 are provided in the partition body 1, And are installed in the partition main body 1. Thus, when heat is generated in the surface heat emission element 2, the heat is transferred to the heat radiation portion 7, and the transmitted heat is discharged through the heat radiation portion 7, thereby protecting the surface heat emission element 2.

Here, the heat dissipating unit 7 may be formed with a plurality of heat dissipating fins (not shown) in order to rapidly discharge heat.

Since the heat dissipating unit 7 uses well-known products and techniques, detailed description thereof will be omitted.

The fibrous part 8 is formed of a substantially incombustible fiber material and is attached to the partition main body 1 in close contact with the heat dissipating part 7 in a state where the heat dissipating part 7 is provided on the partition main body 1. Accordingly, when heat is radiated from the heat dissipating unit 7, the heat is released through the air gap of the fiber unit 8, and the skin is prevented from directly coming into close contact with the heat dissipating unit 7,

The lid 9 is provided in the upper part of the partition body 1 in the form of a substantially rectangular parallelepiped bar. Accordingly, it is possible to prevent foreign matter from flowing into the socket unit 3, the finishing unit 5, and the power connection unit 4. [

The partition main body 1, the socket portion 3, the power connection portion 4, the finishing portion 5, the partition connecting portion 6 and the lid 9 are made of an insulating material and a nonflammable or flame retardant material, And the detailed description thereof will be omitted.

In order to control the heat generation temperature of the planar heating element, a control unit (not shown) may be installed on a part of the power connection unit to adjust the heating temperature of the planar heating element. Here, the control unit will be apparent to those skilled in the art, so that the illustration and the detailed description thereof will be omitted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an operation of a heating partition according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Select the location of the power plug (41) before connecting the partition and partition. That is, when the position of the power plug 41 is disposed at the end of the partition, that is, at the left end, the power connection portion 4 is brought into close contact with the leftmost end of the partition, And the guide groove 31 of the socket portion 3 to be connected to each other.

Then, the finishing portion 5 is inserted on the opposite side to which the power connection portion 4 is connected.

When the installation of the power connection unit 4 is completed, the partition and the partition are brought into close contact with each other, and the partition connection unit 6 is connected to the socket unit 3, respectively.

When the partitions and the partitions are connected to each other, put the finishing part (5) in the socket part (3) installed at the right end of the right partition.

When the installation of the present invention is completed, the power plug 41 is inserted into an outlet (not shown) through which electricity flows.

When power is supplied to the power plug 41, power is supplied to the front surface heating element 2 through the input part T1 and the partition connection part 6, and through the finishing part 5 disposed on the right side, (2). The power supplied to the rear surface heat emission element 2 is output through the output portion T2 through the power connection portion 4 and the finish portion 5 disposed on the left side.

That is, the partitions and the partitions are electrically connected to each other through the partition connection part 6, and the planar heating element 2 disposed at the front side and the planar heating element 2 disposed at the rear side are electrically connected by the finishing part 5, When power is supplied from either side, power is supplied to all the surface heating elements (2).

When the power plug 41 is disposed between the partition and the partition, the power connection unit 4 is disposed between the partition and the partition. Then, the power connection unit 4 and the partition are connected to each other through the partition connection unit 6 do. It is also possible to install the end portions 5 on both sides of the partition.

Therefore, the present invention can easily connect the partitions and the partitions, and in particular, the power connection part 4 can be freely arranged, so that power connection is easy. In addition, the heat can be rapidly radiated through the heat dissipating unit 7, so that the room temperature can be raised quickly, and there is no risk associated with the image.

In describing the present invention described above, the same reference numerals are used for the same configurations even if the embodiments are different, and the description thereof may be omitted if necessary.

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. Shall not be construed as being understood. Therefore, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. The present invention is not limited thereto.

One; Partition body
2; Plane heating element
3; Socket portion
31; Guide groove
4; Power connection
41; Power plug
T1; Input
T2; Output portion
T3; Terminal connection portion
5; Closing
6; Partition connection
7; The heat-
8; Fiber portion
9; cover
T; Terminals

Claims (5)

A partition body partitioning the space;
A planar heating element mounted on front and rear surfaces of the partition body;
A socket unit installed at both ends of the main body and electrically connected to the surface heating elements;
A finishing unit coupled to the socket unit and electrically connecting the planar heating elements to each other; And
And a power connection unit coupled to the socket unit and supplying power to the planar heating element,
Wherein the finishing portion is engaged with one of the socket portions and the power connection portion is engaged with the other partition connection portion to thereby connect the power connection portion and the planar heating element provided on one side of the main body, And the power connection part is electrically connected in sequence to the heating part.
The method according to claim 1,
Further comprising: at least one partition connection part electrically coupled to the socket part to connect the main body to a plurality of the main part.
The method according to claim 1,
And at least one heat radiating part which is in close contact with the planar heat generating element to receive and discharge heat from the planar heat generating element.
3. The method of claim 2,
The socket unit includes:
A socket body having a pair of guide grooves formed in a longitudinal direction on one surface thereof and a terminal inserted in the guide groove and connected to the surface heating element,
The partition connection unit,
And one end and the other end corresponding to the guide groove and including a terminal electrically connecting one end and the other end to the inside.
5. The method of claim 4,
The power connection unit includes:
A power connection body in which two pairs of guide grooves are formed in a circumferential direction, a terminal connection portion in which a pair of facing guide grooves of the guide grooves are electrically connected, an input portion in which power is inputted into the remaining guide grooves, And the outputting unit is inserted into the outputting unit.

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