KR20210033363A - Heating walkway - Google Patents

Abstract

Disclosed is a heating passage. According to one aspect of the present invention, the heating passage comprises: a platform including a plate part placed on an upper side of a deck to be extended in a horizontal direction; a cover member forming a channel adjacent to a lower side of the plate part; an insulation member placed in the channel; and a heating cable placed on the insulation member to be opposed to the lower side of the plate part. The cover member includes a first sidewall part and a second sidewall part opposed to each other with the channel laid therebetween, wherein the first sidewall part is combined with the plate part to be rotatable and the second sidewall part is combined with the plate part to be separable therefrom. Therefore, the present invention is capable of facilitating maintenance work such as the separation and recombination of the heating cable.

Description

Heating Walkway{HEATING WALKWAY}

The present invention relates to a heat generating passage.

In the case of ships operating in sea areas with low outside temperature, such as in the polar regions, a heating passage is installed so that movement of crew members is not restricted due to the formation of an ice section on the upper deck.

In general, the heating passageway includes a platform providing a moving space through which crew members can pass, and a heating cable disposed under the platform. Here, the heating cable should be in close contact with the lower surface of the platform and should have an insulation structure to minimize heat loss that flows out to the outside.

In the conventional heating passageway, a metal tape was used to fix or adhere the heating cable to the platform, and an insulation block was disposed under the heating cable to surround the heating cable. However, since the insulation cover for arranging the insulation block is fixed to the platform by the fixing bolt and the fixing nut, there is a problem that a lot of time is required for the separation and recombination of the insulation cover during maintenance work of the heating cable. In addition, there is a problem that the installation location of the heating cable is changed every time the heating cable is separated and then recombined.

Republic of Korea Patent Publication No. 10-1074720 (2011.10.19, heating passage for ship deck)

An embodiment of the present invention provides a heating passage for easy maintenance of a heating cable.

According to an aspect of the present invention, a platform including a plate portion disposed to extend in a horizontal direction on an upper side of the deck; A cover member forming a channel in contact with a lower surface of the plate portion; A heat insulating member disposed in the channel; And a heating cable disposed on the heat insulating member so as to face a lower surface of the plate portion, wherein the cover member includes a first side wall portion and a second side wall portion facing each other with the channel interposed therebetween, and the first side wall The portion may be rotatably coupled to the plate portion, and the second sidewall portion may be provided with a heating passage that is detachably coupled to the plate portion.

It may include a permanent magnet coupled to the plate portion to constrain the second sidewall portion by magnetic force.

It may include a latch that is coupled to the plate portion to be rotatable or slidable to restrain the second sidewall portion.

The heat insulating member may include a plurality of elastic tubes stacked in the channel, and an air gap may be formed between the plurality of elastic tubes.

The heat insulating member includes an elastic block inserted into the channel, and the elastic block has a size and shape corresponding to the channel, and may be compressed and pressed by the heating cable in close contact with the lower surface of the plate portion.

A seating groove for identifying a seating position of the heating cable may be formed in the center of the upper surface of the elastic block.

The inner surface of the seating groove may include a plurality of fine protrusions for forming an air gap between the heating cable and the elastic block.

According to an embodiment of the present invention, the first side wall portion of the cover member is rotatably coupled to the plate portion, but the second side wall portion is detachably coupled to the plate portion by a permanent magnet or a clasp, such as separation and recombination of the heating cable. Maintenance work can be facilitated.

In addition, when the heat insulating member is made of an elastic block, the installation position of the heating cable can be easily identified by the seating groove formed in the center of the upper surface of the elastic block.

1 is a cross-sectional view of a heating passage according to an embodiment of the present invention,
FIG. 2 is an enlarged view of part A of FIG. 1,
3 is a modified example of FIG. 2,
Figure 4 is an example of the heat insulating member of Figure 2,
5 is another example of the heat insulating member of FIG. 2.

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

1 is a cross-sectional view of a heating passage according to an embodiment of the present invention, and FIG. 2 is an enlarged view of portion A of FIG. 1.

1 and 2, the heating passage 10 according to an embodiment of the present invention may include a platform 100, a cover member 200, a heating cable 300, and a heat insulating member 400, and , It may further include a controller (not shown).

The platform 100 may be installed on the deck 20, for example, an upper deck of a ship or an offshore structure to provide a moving space through which crew members can pass on the upper side of the platform 100.

The platform 100 may include a plate portion 110.

The plate portion 110 may be disposed to extend in a horizontal direction from the upper side of the deck 20. For example, the plate portion 110 may be disposed to be spaced upwardly from the upper surface of the deck 20.

A plurality of cover members 200 may be coupled to the plate portion 110.

The cover member 200 may form a channel C in contact with the lower surface of the plate portion 110.

To this end, the cover member 200 may include a first side wall part 210, a second side wall part 220, and a lower wall part 230. The channel C may be a space partitioned by the plate part 110, the first side wall part 210, the second side wall part 220, and the lower wall part 230.

The first sidewall part 210 may extend in the Y and Z directions, and the second sidewall part 220 may be spaced apart from the first sidewall part 210 in the X direction and extend in the Y and Z directions. In addition, the lower wall part 230 may extend in the X and Y directions to connect the lower end of the first side wall part 210 and the lower end of the second side wall part 220. Accordingly, the channel C may be formed to extend in the Y direction. The X direction (first direction) may be a horizontal direction, the Y direction (second direction) may be a horizontal direction perpendicular to the X direction, and the Z direction (third direction) is vertically perpendicular to the X and Y directions. It can be a direction.

The first side wall part 210 may be rotatably coupled to the plate part 110 through, for example, a hinge (H), and the second side wall part 220 is detachable from the plate part 110 Can be combined together.

For example, a bent part 220a extending in a horizontal direction, for example, in the X direction, may be formed on the upper end of the second sidewall part 220, and the bent part 220a by magnetic force in the plate part 110 The permanent magnet 111 may be fixed. The bent portion 220a may include a metal material. However, it is not necessarily limited thereto, and the permanent magnet 111 may be fixed to the bent portion 220a to constrain the plate portion 110 by magnetic force. As another example, the first side wall portion 210 and the second side wall portion 220 may be detachably coupled to the plate portion 110 through a permanent magnet.

The heating cable 300 and the heat insulating member 400 may be disposed in the channel C. In particular, the heating cable 300 may be disposed on the heat insulating member 400 to face the lower surface of the plate portion 110. Accordingly, the heating cable 300 may be supported or pressed by the heat insulating member 400 without using an attachment means such as a metal tape, so that it may be in close contact with the lower surface of the plate portion 110.

The heating cable 300 may include a heating wire that generates heat by its own resistance when energized, and the heat insulating member 400 may be made of an insulating material. Accordingly, most of the heat generated from the heating cable 300 can be transferred to the plate portion 110, and the first side wall portion 210, the second side wall portion 220, and the lower wall portion 230 of the cover member 200 Heat loss that flows out to the outside can be minimized.

The heating cable 300 may be disposed to extend in the Y direction, and power supply to the heating cable 300 may be controlled by a controller disposed outside the platform 100. In addition, the controller may adjust the amount of heat generated by the heating cable 300 according to the outside temperature sensed by a temperature sensor (not shown).

3 is a modified example of FIG. 2.

Referring to FIG. 3, the second sidewall portion 220 may be detachably coupled to the plate portion 110 through a clasp 113.

The clasp 113 may be rotatably coupled to the plate portion 110 through a rotation axis in the Z direction to restrain the bent portion 220a. However, it is not necessarily limited thereto, and the clasp 113 may be slidably coupled in the X direction.

FIG. 4 is an example of the heat insulating member of FIG. 2, and FIG. 5 is another example of the heat insulating member of FIG. 2.

Referring to FIG. 4, the heat insulating member 400 may include a plurality of elastic tubes 410 stacked in the channel C.

The plurality of elastic tubes 410 may be compressed by the heating cable 300, and the heating cable 300 may be in close contact with the lower surface of the plate portion 110 by the elastic force provided by the plurality of elastic tubes 410. have.

An air gap G is formed between the plurality of elastic tubes 410 to improve heat insulation performance.

The elastic tube 410 may be made of silicon, but is not necessarily limited thereto, and may include various elastic insulating materials.

5, the heat insulating member 400 may include an elastic block 420 inserted into the channel (C). The elastic block 420 may have a size and shape corresponding to the channel C.

The elastic block 420 may be compressed by the heating cable 300, and the heating cable 300 may be in close contact with the lower surface of the plate portion 110 by the elastic force provided by the elastic block 420.

A seating groove 420a for identifying a seating position of the heating cable 300 may be formed in the center of the upper surface of the elastic block 420. The seating groove 420a may be formed to extend in the Y direction. In addition, a plurality of fine protrusions 420b may be formed on the inner surface of the seating groove 420a to form an air gap G between the heating cable 300 and the elastic block 420. Therefore, the heat insulation performance can be improved. The elastic block 420 may include an elastic insulating material.

10: heating passage 20: deck
100: platform 110: plate portion
111: permanent magnet 113: clasp
200: cover member 210: first side wall portion
220: second sidewall portion 220a: bent portion
230: lower wall part 300: heating cable
400: heat insulating member 410: elastic tube
420: elastic block 420a: seating groove
420b: fine bumps

Claims (5)

A platform including a plate portion disposed to extend in a horizontal direction on an upper side of the deck;
A cover member forming a channel in contact with a lower surface of the plate portion;
A heat insulating member disposed in the channel; And
Including a heating cable disposed on the heat insulating member to face the lower surface of the plate portion,
The cover member includes a first sidewall portion and a second sidewall portion facing each other with the channel interposed therebetween, and the first sidewall portion is rotatably coupled to the plate portion, and the second sidewall portion is separated from the plate portion. Exothermic passages possibly coupled. The method of claim 1,
A heating passage comprising a permanent magnet coupled to the plate portion to constrain the second side wall portion by magnetic force. The method of claim 1,
A heating passage including a latch that is rotatably or slidably coupled to the plate portion to restrain the second side wall portion. The method of claim 1,
The heat insulating member includes a plurality of elastic tubes stacked in the channel,
A heating passageway in which an air gap is formed between the plurality of elastic tubes. The method of claim 1,
The heat insulating member includes an elastic block inserted into the channel,
The elastic block has a size and shape corresponding to the channel, but is pressed and compressed by the heating cable in close contact with the lower surface of the plate portion.

Images