KR20150004141A - Heating device for stairs - Google Patents

Abstract

Provided is a heating device for stairs which prevents safety accidents caused by freezing and slipping on steps of an exposed staircase in polar regions and under cold weather conditions by being installed in a space between floors of a ship or a marine structure; maximizes the heat conduction of the steps by a pipe having a heating cable embedded therewith, attached and installed on the lower surface of the step, and a thermal diffusion member installed in a space between the step and the pipe; and minimizes the heat loss of the lower part of the step by a first insulation by the heating cable embedded in the pipe and a second insulation by an insulation block filled in a case combined to the lower side of the step. According to an embodiment of the present invention, the heating device of stairs comprises a staircase which is installed between the floors of the ship or the marine structure and has a handrail frame connected to upper and lower floors, wherein the handrail frame has a plurality of step members successively installed thereon; a plurality of pipe members which are attached to and installed to the lower surfaces of the step members and have hollow parts formed therein; a heating cable which is continuously arranged along the inside of the step member, and installed to be able to heat by selection; a case member which is combined to the lower side of the step member, has a square box shape having an opened upper part, and has a space, which is closed by being combined to the step member, formed therein; an insulation block which is filled inside the space to be able to be detached from the space; and a control means which is installed on one side of the handrail frame, and controls the heating of the heating cable by being electrically connected to the heating cable.

Description

{HEATING DEVICE FOR STAIRS}

The present invention relates to a heating device of a staircase, and more particularly, it relates to a staircase heating device capable of preventing safety accidents due to freezing and slipping on a road surface of a stair footboard exposed to polar heat or cold conditions, A heat dissipating member is provided between the foot plate and the space between the foot plate and the pipe to maximize heat conduction to the foot plate. The heat generating cable is firstly insulated To a heat generating device for a staircase which can be heat-insulated in a second order by a heat insulating block filled in a case coupled to a lower side of the footing so that heat loss to the lower part of the footing can be minimized.

Generally, stairs installed on ships or offshore structures consist of steel structures in terms of durability. However, in the case of steel stairs installed on ships or marine structures exposed to cold weather such as polar regions, foot plates are easily frozen and exposed to safety accidents.

In order to overcome such a problem, the steel staircase installed on a ship or a marine structure can generate heat in the Korean Patent Registration No. 10-12581780000 (hereinafter referred to as "conventional technology") filed on July 21, 2011 by the same application as the present invention Which can be installed in the existing stairs, which is not only economical but also installed independently for each step member of the stairs, so that the stair heating device can be partly easily maintained. Lt; / RTI >

However, in the case of the above prior art, the heat generating means is not closely attached to the foot member side but is spaced apart by the spacing member, so that effective heat transfer to the foot member is difficult, and even if the heat end means is provided inside the case member, The efficiency can not be exerted, and the efficiency is reduced.

Accordingly, it is an object of the present invention to provide a method of preventing a safety accident caused by freezing and slipping of a surface of a stepped footplate which is installed in a space between a floor of a ship or a marine structure and exposed to polar or cold conditions, A heat dissipating member is provided between the foot plate and the spacing space between the foot plate and the pipe to maximize heat conduction to the foot plate and the case where the heat generating cable is inserted into the pipe and is firstly insulated and coupled to the lower side of the foot plate And a heat generating device for a stairway which can be heat-insulated in a second order by the charged heat insulating block to minimize heat loss to the lower part of the footing.

The object of the present invention is to provide a balustrade frame which is installed between the upper and lower layers of a ship or a marine structure, And a heating cable connected to the inside of the pipe member so as to be continuously arranged along the inside of the pipe member and selectively installed to generate heat; a rectangular housing coupled to a lower side of the foot plate member, And a heat insulating block provided on one side of the railing frame and electrically connected to the heat generating cable, the heat insulating block being electrically connected to the heating cable, And control means for controlling the heat generation of the heating cable. And a step-like heat generating device.

According to a preferred aspect of the present invention, the pipe member may be provided on the front and rear sides spaced apart from the bottom surface of the foot member so that the heat conduction area from the pipe member to the case member upon heating of the heat generating cable can be extended It is assumed that the thermal diffusion member is closely attached.

According to a preferred aspect of the present invention, the pipe member is formed in a bar shape, two or more pieces are spaced apart from each other in the longitudinal direction of the case member, the heating cable is continuously arranged in the zigzag direction in the pipe member, A metal tape is adhered to the heat generating cable exposed on the side of the pipe member so that the heat generating cable is tightly fixed to the case member side.

According to a preferred embodiment of the present invention as described above, first, the safety of the stair footboard exposed to the polar bearings or the cold weather conditions by being installed on the floor of the ship or the sea structure by freezing and sliding It has an excellent advantage that an accident can be prevented.

Secondly, a pipe having a heating cable is closely attached to a lower surface of a foot plate, but a heat dissipation member is provided between the foot plate and a space between the foot plate and the pipe to maximize heat conduction to the foot plate. And the heat loss to the lower portion of the footstool can be minimized by being insulated by the heat insulating block filled in the case which is insulated and coupled to the lower side of the footstool.

Brief Description of Drawings Fig. 1 is a view showing a state of use of a step-like heating device according to an embodiment of the present invention; Fig.
2 is an exploded perspective view of a heating device for a staircase according to an embodiment of the present invention;
3 is a cross-sectional view of a heating device for a staircase according to an embodiment of the present invention.

FIG. 1 is a perspective view of a heating device for a staircase according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of a heating device for a staircase according to an embodiment of the present invention. Sectional view of a heating device for a step according to an embodiment.

The heating device 1 for a staircase according to the preferred embodiment of the present invention is installed between the layers of a ship or a marine structure and a balustrade frame 11 is connected between the upper and lower layers, A plurality of pipe members 20 provided in close contact with the lower surface of the foot member 12 and hollow inside thereof; A heating cable (30) continuously arranged along the inside of the foot plate member (12) and selectively installed on the foot plate member (12) A heat insulating block 50 which is detachably mounted in the space portion, a heat insulating block 50 provided on one side of the railing frame and electrically connected to the heating cable 30, Connected And a control means (60) for controlling the heat generation of the heating cable (30).

Hereinafter, the constituent members of the step-by-step heating apparatus 1 according to the preferred embodiment of the present invention and their connection relationship will be described in detail with reference to FIGS. 1 to 3. FIG.

The stairs 10 are connected to the upper and lower layers of a ship or a marine structure to enable movement of the marine structure or to install the components described later. The stairs 10 are installed between the layers of a ship or a marine structure, A parapet frame 11 is connected between the layers and a plurality of foot members 12 are sequentially installed on the parapet frame 11.

In this case, the above-mentioned railing frame 11 can be variously changed according to the inter-layer distance or the angle of installation, and the above-described foot member 12 can be made to be able to transmit heat generated from the heat generating cable 30 to be described later It is made of metal.

A plurality of pipe members 20 are closely attached to the lower surface of the foot member 12 so that the pipe member 20 is accommodated in the heat generating cable 30 to be described later, So as to exert an adiabatic effect and at the same time to transmit heat to the foot member (12).

The pipe member 20 is formed in a rod shape and two or more pieces are spaced apart from each other in the longitudinal direction of the case member 40. The heat generating cable 30 is continuously arranged in the zigzag direction inside the pipe member 20 A metal tape 90 is adhered on the heat generating cable 30 exposed on the side of the pipe member 20 to fix the heat generating cable 30 to the case member 40 side.

That is, the heat generating cable 30 is positioned through the inside of the pipe member 20 where the pipe member 20 is provided and on the side where the pipe member 20 is not provided, on the side of the foot member 12 by the metal tape 90 And is positioned closely.

As shown in the figure, the pipe member 20 may be formed of a circular pipe having a circular cross section, or may be formed of a rectangular pipe having a rectangular cross section And may be formed of a square pipe.

The case member 40 will be described later in the pipe member 20 when the heating cable 30 generates heat when the pipe member 20 is not in contact with the lower surface of the foot member 12, The thermal diffusion member 80 is closely adhered so that the heat conduction area can be expanded. That is, the area where the pipe member 20 and the foot member 12 are in close contact with each other is expanded by the thermal diffusion member 80, so that the heat conduction can be performed more quickly, so that it is possible to cope with climate change quickly.

The heating cable 30 is continuously arranged inside the pipe member 20. The heating cable 30 selectively generates heat according to whether the power supply is supplied to the pipe member 20 to heat the pipe member 20 and the heat- (80) to the foot member (12) to prevent the foot member (12) from freezing. Since the heating cable 30 is the same as the heating cable 30 according to the conventional nose, the detailed description will be omitted for simplification of the description.

A case member 40 is coupled to the lower side of the foot member 12. The heat generating cable 30 is formed in a rectangular box shape having an open top and is connected to the foot plate member 12, So that the pipe member 20 and the heating cable 30 are protected and the insulating block 50 to be described later can be charged.

The case member 40 is fixedly coupled to the foot member 12 by detachable bolts / nuts. The inside of the case member 40 is connected to the adjacent case member 40 by a hollow connecting member 70 The connecting member 70 allows the heat generating cables 30 to be continuously arranged without interruption.

In the meantime, the heat insulating block 50 is detachably packed in the space described above. The heat insulating block 50 serves to prevent the heat of the heat generating cable 30 from being radiated downward. The heat insulating block 50 may be made of various types of heat insulating materials, but it is made of a rubber foam insulation material foamed in a panel form of a material such as EDPM (Ethylene Propylene Terpolymers) or NBR (Nitrile-Butadiene Rubber) . At this time, the heat insulating block 50 described above allows the case member 40 to be detached from the foot member 12, and the heat generating cable 30 can be maintained as it is detachably charged in the space portion.

The control unit 60 controls the heat generated by the heating cable 30. The heating cable 30 is electrically connected to the heating cable 30. [ . Although the control means 60 is not shown, a circuit board connected to the heating cable 30 is provided inside the control means 60, and an external power cable is connected to the outside of the control means 60, A power source necessary for heat generation of the battery can be supplied. Such manipulation of the controller may be performed manually by an operator or automatically by a temperature sensor.

Therefore, the heat generating device 1 for a step according to the present invention can prevent a safety accident caused by freezing and slipping on the road surface of a step 10, which is installed between the layers of a ship or an offshore structure, have. In addition, a pipe having the heating cable 30 is closely installed on the lower surface of the foot plate, but a heat dissipating member 80 is provided between the foot plate and the space between the foot plate and the pipe to maximize heat conduction to the foot plate. ) Is embedded in the pipe, the heat loss to the lower portion of the footrest can be minimized by being insulated by the heat insulating block 50 filled in the case that is primarily insulated and coupled to the lower side of the footrest.

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. It is not limited.

1: Heating device for stairs
10: Stairs
11: Railing frame
12: foot member
20: pipe member
30: Heating cable
40: Case member
50: Insulation block
60: control means
70:
80: thermal diffusion member
90: Metal tape

Claims (3)

A staircase which is installed between the layers of the ship or the marine structure and in which a balustrade frame is connected between the upper and lower layers and a plurality of footsteps are sequentially installed on the balustrade frame;
A plurality of pipe members closely attached to the lower surface of the foot member and hollow inside;
A heat generating cable continuously arranged along the inside of the pipe member and selectively installed in a heat generating manner;
A case member formed on the lower side of the foot plate member and formed in a rectangular housing shape having an open top and provided with a closed space portion inside the foot plate member when engaged with the foot plate member;
A heat insulating block removably installed in the space portion; And
And a control unit installed at one side of the balustrade frame and electrically connected to the heating cable to control the heating of the heating cable. The method according to claim 1,
And a heat dissipating member is closely attached to the pipe member so that the heat conduction area from the pipe member to the case member can be expanded at the time of heat generation of the heating cable at the front and rear sides where the pipe member is not in contact with the lower surface of the foot member, Which is installed on the ship's deck. The method according to claim 1 or 2,
Wherein the pipe member is formed in a bar shape, two or more pieces are spaced apart from each other in the longitudinal direction of the case member, the heating cable is continuously arranged in the zigzag direction in the pipe member, And a metal tape is adhered on the heating cable to closely fix the heating cable to the case member side.

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