KR101914907B1 - Reinforced plate for electric heat floor panel - Google Patents

Abstract

The present invention relates to a reinforcing plate for an electric floor heating panel. According to the present invention, a load is supported while distributing a load on an upper part of an electric floor heating panel to an indoor floor to prevent deformation or damage, and a heating wire is protected to improve quality and durability of the electric floor heating panel. Thus, it is possible to save costs and time consumed for maintenance. Also, it is possible to improve convenience of use by preventing movement of an electric floor heating panel and unevenness of a floor surface after construction. The present invention comprises: a reinforcing plate body which is injection-molded with a plastic material to have a length relatively longer than a width; a plurality of supporting protrusions which are formed on the upper surface of the reinforcing plate body, have a height equal to the height of the electric floor heating panel, and disperse and support a load conducted from the upper part of the electric floor heating panel to the reinforcing plate body closely attached to a floor surface; a heating wire passing space which has a heating wire formed to be positioned between supporting protrusions by maintaining an interval between the supporting protrusions to be the same as an interval of heating wires; a confirmation window which is formed in a position of the heating wire passing space and allows a worker to visually confirm a heating wire in a construction process; a connection protrusion and a connection protrusion groove which are formed to connect different reinforcing plates in the longitudinal direction to both longitudinal direction sides of the reinforcing plate body; and a connection protrusion groove which is formed to connect different reinforcing plates in the lateral direction to both sides of a supporting protrusion formed at the middle position of the reinforcing plate body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a reinforced plate for an electric under-

The present invention relates to a reinforced plate for an electric under-floor heating panel, and more particularly, to a reinforced plate for an electric under-floor heating panel, which prevents damage to a heating line by eliminating the deformation or bending due to load and pressure generated in the process of using the electric under- To provide a reinforced plate for an electric under-floor panel.

The electric under-floor heating panel is installed on the floor of the house or on the floor of the house so that the heating can be carried out by using electric power out of the conventional boiler system.

Such an electric under-floor panel is conventionally developed by combining various technologies, and representative examples thereof are as follows.

Reference 1 discloses a frame 102 which is formed by pressing an iron plate material, a heating wire 104 which is staggered on the inner surface of the frame 102 and an Aℓ tape 104 which fixes the heating wire 104 to the inner surface of the frame 102. [ A rubber foaming plate 108 fixed to the frame 102 by foaming rubber on inner and outer surfaces of the Aℓ tape 106 and the frame 102; And a temperature controller 112 for setting a temperature to be heated by the heating wire 104 and for shutting off the power when the temperature of the heating wire 104 is higher than a predetermined temperature, A main switch 114 for interrupting power supplied to the heating wire 104 and a temperature detecting unit 112b for detecting a temperature of the heating wire 104 when the temperature detecting unit 112b does not detect an excessive heating temperature of the heating wire 104 , The heating wire (104) is connected to the heating wire (104) It has a structure having a bimetal 116 connected in series.

According to Document 2, a heating plate 200 is formed of a rectangular steel plate, and a heating wire 210 and a lead wire 220 are tapped and adhered to the bottom surface of the heating plate 200, 200 are integrally joined on a flat-plate-shaped body 300 formed by mixing a rubber chip and an adhesive and compression-molded.

(Document 1) Utility Model Application No. 20 - 1998 - 0003448 (Document 2) Utility Model Registration No. 20 - 0389399 - 0000

Not available.

In general, the above-mentioned general electric under-floor heating panel is formed by bending the four corner edges of the metal plate in a substantially U-shape, arranging the heating lines at a predetermined interval on the bottom surface of the metal plate, So that there is no fear of deformation of the metal plate due to sagging or bending of the metal plate even if a person is located on the upper surface of the metal plate.

Since the foamed urethane foam is filled in the bottom of the metal plate that comes into the near-end, the use amount is reduced in order to reduce the weight and cost, so that the load or impact There occurs a phenomenon in which it is difficult to sufficiently cope with a deformation which is deformed or bent while absorbing the force.

Therefore, when the electric under-floor panel is installed on the floor, it is irrelevant. However, when the load accumulates and accumulates over time, the edge of the electric under-floor panel is bent so as to maintain the rigidity. Direction.

In the case of this kind of deformation, the entire electric under-floor heating panel is deformed into a shape that the central portion is low and both sides are elevated, so that the floor can not be kept flat and becomes rugged, Will also have a bad influence.

If a load is applied to the upper part of the electric under-floor heating panel, if there is a sharp foreign substance such as a knife or a knife on the bottom surface during the sideways of the center part downward, it penetrates the foamed urethane foam by the load and attaches to the bottom of the electric under-floor panel And the heating line is severed in case of severe heating, so that it becomes impossible to perform the heating function due to the defective energization in the end.

There is a risk of occurrence of fire due to the ignition of the foamed urethane foam at the same time as the occurrence of electrical spark when the heating wire is damaged such as cutting of the heating wire and there is a disadvantage of periodically replacing the electric flooring panel due to the non- There is a problem in that it is not free from various problems such as cost and time consuming to maintenance.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a reinforcing plate body 101 which is injection molded with a relatively long plastic material.

A reinforcing plate body 101 having a height H equal to the height of the electric on-off-hole panel 102 on the upper surface of the reinforcing plate body 101, A plurality of support protrusions 105 formed to be dispersible and supportable with respect to the support protrusions 101;

The interval B2 between the support protrusions 105 and the support protrusions 105 is set to be equal to the interval B1 between the support protrusions 105 and the heating protrusions 105, A heating wire passage space 106 formed so as to be able to be positioned;

A confirmation window 107 for enabling the operator to visually confirm the heating line 103 in the heating / heating line passage space 106 during the forming process;

A coupling protrusion 110 and a coupling protrusion groove 111 formed on both sides of the reinforcing plate body 101 in the longitudinal direction so as to connect other reinforcing plates 100 in the longitudinal direction;

And a connection protrusion groove 112 formed at both sides of the support protrusion 105 formed at an intermediate position of the reinforcement plate body 101 so as to connect another reinforcement plate 100 in the width direction;

It is possible to reduce the cost and time for maintenance by increasing the quality and durability of the electric under-floor panel by preventing the deformation or damage by supporting the load while supporting the load on the floor of the electric under-floor heating panel. And it is possible to prevent the flow of the electric underfloor panel after the construction and to prevent the unevenness of the bottom surface, thereby increasing the usability.

According to the present invention, the electric under-floor panel is freely changed in position in the bottom surface of the electric under-floor panel regardless of its longitudinal or lateral direction, and is connected to each other to withstand the load transferred from the upper part of the electric under- It is possible to increase the life while lengthening the life of the apparatus, and to reduce the incidental cost required for maintenance.

In addition, it is attached to the bottom surface of the electric under-floor heating panel to prevent sagging, deformation and damage while eliminating the interference with the heating line that is wired on the bottom of the electric under-floor panel and preventing the heating line from being damaged by foreign substances remaining on the floor. It is possible to eliminate the concern of safety incidents such as heating failure or fire in the process.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a front face of a reinforced plate for an electric under-floor oven panel to which the technique of the present invention is applied; Fig.
2 is a rear perspective view of a reinforcing plate for an electric under-floor oven panel to which the technique of the present invention is applied.
Fig. 3 is a perspective view showing an A portion of the reinforcing plate for the electric under-floor heating panel shown in Fig. 1; Fig.
Fig. 4 is a perspective view showing the B region of the reinforcing plate for the electric under-floor heating panel shown in Fig. 2; Fig.
Fig. 5 is a sectional view of a reinforcing plate for an electric under-floor oven panel to which the technique of the present invention is applied; Fig.
Fig. 6 is an example of the construction of a reinforcing plate to which the technique of the present invention is applied, on the back side of an electric underfloor panel; Fig.
7 is a view showing two examples in which a reinforcing plate to which the technique of the present invention is applied is applied to the back surface of an electric under-floor panel.
8 is a view showing three examples in which a reinforcing plate to which the technique of the present invention is applied is applied to the back surface of an electric under-floor panel.
9 is an exemplary sectional view showing a state in which a reinforcing plate to which the technique of the present invention is applied is applied to an electric under-floor panel.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a front surface state of a reinforcing plate for an electric under-floor oven panel to which the technique of the present invention is applied, Fig. 4 is a perspective view showing a portion B of a reinforcing plate for an electric under-floor glazing panel shown in Fig. 2, and Fig. 5 is a perspective view showing a portion of the reinforcing plate for an electric under-floor glazing panel shown in Fig. Sectional view showing a reinforced plate for an electric under-floor oven panel to which the technology of the present invention is applied, Fig. 6 is an example of a construction of a reinforced plate to which the technique of the present invention is applied, FIG. 8 is a view showing three examples in which a reinforced plate to which the technique of the present invention is applied is applied to the back surface of an electric under-floor panel; FIG. 9 is a cross- The plate is installed on the electric under-floor panel. Sectional views of the present invention.

The reinforced plate 100 for an electric under-floor heating panel to which the technique of the present invention is applied is provided with a reinforcing plate body 101 which is injection-molded from a plastic material and is in the form of a rectangular parallelepiped and a plate having a relatively long length.

The width B of the reinforcing plate body 101 is kept narrower than the interval B1 of the heating lines 103 arranged on the bottom of the electric ondollar panel 102 so that the space B between the heating line 103 and the heating line 103 The length L of the reinforcing plate body 101 is made shorter than the width of the electric on-off-hole panel 102 so that the reinforcing plate body 101 can be arranged on the electric under-floor panel 102 So that it can be freely arranged in the longitudinal direction and the width direction.

The front surface of the reinforcing plate body 101 is provided with a height H equal to the height of the electric ondollar panel 102 to receive the load transferred from the upper portion of the electric ondollar panel 102, A plurality of support protrusions 105 are integrally formed so as to be dispersed and supported by the plate body 101.

The interval B2 between the support protrusions 105 and the support protrusions 105 is maintained at the same interval as the interval B1 of the heating wires 103 so that the heating wires 103 are separated from the support protrusions 105 and the support protrusions 105, So that the interference can be eliminated.

At the position of the heating line passage space 106, an operator can visually confirm the heating line 103 during the construction of the reinforcing plate 100 to form a check window 107 so that the normal construction can be confirmed.

The hollow portion 108 and the rib 109 are integrally formed on the back surface (bottom surface) of the position where the support protrusion 105 is formed so as to secure rigidity while reducing the material. The reinforcing plate body 101, The connecting protrusions 110 and the connecting protrusions 111 are formed on both sides of the longitudinal direction of the reinforcing plate 100 so that the reinforcing plate 100 can be connected in the longitudinal direction.

A connecting protrusion groove 112 is formed at both sides of the supporting protrusion 105 formed in the intermediate position of the reinforcing plate body 101 so as to connect the other reinforcing plate 100 in the width direction do.

와 같은 형상을 도시하고 있으나, 서로 결합된 상태에서 길이방향과 폭방향으로 당겨서 이탈되지 않는 형상이면 어떠한 형상으로도 가능할 것이므로 본 발명의 도면에 예시한 것에 국한 하는 것은 아니다.The shapes of the coupling protrusions 110 and the coupling protrusions 111 and 112 are not limited to those shown in the drawings of the present invention

But it is not limited to the shapes shown in the drawings of the present invention as long as they are in a shape that is not pulled apart in the longitudinal direction and the width direction in the state of being coupled to each other.

A pair or more than one pair of reinforcing ribs 115 may be formed between the upper surface positioning protrusions 101 of the reinforcing plate body 101 and the support protrusions 105 so as to prevent the bending of the reinforcing plate body 101 Increase durability.

The height H1 of the reinforcing rib 115 is set such that the heating line 103 is sufficiently located between the distance L1 from the upper surface 116 of the supporting protrusion 105 to the upper surface 117 of the reinforcing rib 115 So that the heating wire 103 is not damaged even if there is a deformation of the reinforcing plate 100 due to the load being transferred from the upper part of the electric under-floor heating panel 102. At the same time, It is possible to secure the fluidity of the fluid.

The state of use of the reinforcing plate 100 for an electric under-floor O-ring panel to which the technique of the present invention is applied will be described below.

The heaters may be arranged in a row or in a multi-row state so as to have a straight line in the longitudinal direction or the width direction of the electric under-floor panel 102 on the bottom surface of the electric under-floor heating panel 102 in which the heating lines 103 are arranged, And it can be variously performed by arranging the electric under-floor panel 102 in such a manner that it is a matter that the user (constructor) should consider selectively considering the position to be installed or the condition of the site, But is not limited to.

For example, there may be a configuration in which multiple rows are arranged in the width direction at the central portion of the electric under-floor oven panel 102, a row is arranged in a zigzag shape in the width direction, a row is arranged in the center in the longitudinal direction, It is possible to connect the at least one reinforcing plate body 101 to each other and arrange them in a single row, a multi-row state, a cross shape, or a sperm shape.

When the reinforcing plate bodies 101 are to be connected to each other, the connecting protrusions 110 may be connected to the connecting protrusions 111 and 112 formed in the other reinforcing plate body 101, and after the connection is completed, Pressure flame foam is injected into the bottom of the electric ondollar panel 102, and then the barrier plate is removed.

When the reinforcing plate body 101 is disposed on the bottom surface of the electric ondollar panel 102, the support protrusion 105 protruding from the upper surface of the reinforcing plate body 101 is brought into close contact with the bottom surface of the electric ondollar panel 102. And the heating wire 103 is positioned in the heating wire passage space 106 formed between the support protrusions 105 and the support protrusions 105.

In this case, the reinforcing plate 100 is installed in the lateral direction of the electric ondol classified panel 102. When the reinforcing plate 100 is installed in the longitudinal direction of the electric ondollar panel 102, (103) and the heating line (103).

In the process of installing the reinforcing plate 100 in the lateral direction of the electric ondol classified panel 102, the user (operator) visually confirms the heating line 103 through the check window 107 formed in the heating line passage space 106 It becomes possible to confirm a normal construction state.

After completion of the placement of the reinforcing plate 100 on the bottom surface of the electric under-floor heating panel 102, the blocking plate is brought into close contact with the bottom surface of the electric under-floor panel 102 and pressed at a high pressure. When the foamed foam is injected, the foamed foam is transferred to the electric temperature panel 102 through the heating wire passage space 106 between the support protrusions 105 and the support protrusions 105 So that it is not disturbed to spread to the entire space of the bottom surface.

Even if the reinforcing ribs 115 are formed between the supporting protrusions 105 and the supporting protrusions 105 for the purpose of reinforcing strength (deformation or warping), the upper surface 117 of the reinforcing ribs 115, A space is formed at the distance L1 between the upper surface 116 of the heat generating member 105 and the space where the heating wire 103 passes through the space.

When the electric under-floor panel 102 with the reinforcing plate 100 disposed thereon is installed on the floor of the room, the central portion of the electric under-floor panel 102 is supported and supported rather than the edge of the electric on- The reinforcing plate 100 receives the force and disperses the force on the floor even when the load is transferred from the upper portion of the on-floor panel 102, so that the deformation and damage of the electric under-floor panel 102 can be prevented.

In addition, even if the floor panel is installed with a sharp foreign object, the reinforcing plate 100 functions to block the foreign matter. Therefore, it is possible to prevent the heating line 103 from being damaged, It is possible to solve the problem.

As described above, the present invention prevents the deformation or damage due to the support of the load while dispersing the load on the upper part of the electric under-floor heating panel to the floor of the room, enhances the quality and durability of the electric under- And it is possible to prevent the flow of the electric underfloor panel after the construction and to prevent the unevenness of the bottom surface and to improve the usability.

100; Reinforced plate for electric Ondol panel
101; Reinforced plate body
105; Support projection
106; Heating space passage space
107; Confirmation window
110; Connecting projection
111, 112; Connecting protrusion groove
115; Reinforcing rib

Claims (3)

A reinforcing plate body 101 formed by injection molding with a plastic material having a relatively longer length than the width of the reinforcing plate body 101;
A reinforcing plate body 101 having a height H equal to the height of the electric on-off-hole panel 102 on the upper surface of the reinforcing plate body 101, A plurality of support protrusions 105 formed to be dispersible and supportable with respect to the support protrusions 101;
The interval B2 between the support protrusions 105 and the support protrusions 105 is set to be equal to the interval B1 between the support protrusions 105 and the heating protrusions 105, And a heating wire passage space 106 formed therein so as to be positioned;
A confirmation window 107 formed at a position of the heating line passage space 106 and allowing an operator to visually check the heating line 103 during a construction process;
A coupling protrusion 110 and a coupling protrusion groove 111 formed on both sides of the reinforcing plate body 101 in the longitudinal direction so as to connect other reinforcing plates 100 in the longitudinal direction;
A connection protrusion groove 112 formed at both sides of the support protrusion 105 formed at an intermediate position of the reinforcement plate body 101 so as to connect another reinforcement plate 100 in the width direction;
Further comprising a pair of reinforcing ribs (115) in the longitudinal direction between the upper surface locating projection (101) of the reinforcing plate body (101) and the support projection (105)
The width B of the reinforcing plate body 101 is set to be smaller than the interval B1 between the heating lines 103 arranged on the bottom of the electric ondollar panel 102 between the heating line 103 and the heating line 103 To be arranged in parallel with the heating line (103) in the space;
The length L of the reinforcing plate body 101 is made shorter than the width of the electric ondollar panel 102 so that the reinforcing plate body 101 can be freely arranged in the length and width direction of the electric on- ;
The height H1 of the reinforcing rib 115 can be set such that the heating line 103 can be positioned between the distance L1 from the upper surface 116 of the supporting protrusion 105 to the upper surface 117 of the reinforcing rib 115 So that fluidity of the foamed foam can be ensured when the foamed foam is injected without damaging the heating line (103) even if a load is transferred from the upper part of the electric ondollar panel (102). delete delete

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