KR20200113398A - Heating mat for winter fall prevention using carbon fiber heating wire and manufacturing thereby - Google Patents

Abstract

The present invention relates to a heating mat for preventing falls in winter using a carbon fiber heating wire and a method for manufacturing the same, wherein heating mat is easily settled and constructed in places such as outdoor stairs or trails and the like where the ice is mainly formed due to freezing snow and rain in winter without a separate long-term construction that causes inconvenience to passage of pedestrians to prevent ice formation, thereby being able to easily prevent fall of pedestrians due to the ice, and also being able to reduce the cost required for manufacturing by having a simple structure. Furthermore, the heating mat is stored in a specific place such as a warehouse during seasons other than winter, and is removed from the specific place such as the warehouse again in winter and connects AC power after being installed in a place such as outdoor stairs or trails, so that it is very easy to store and use. In addition, if there are foreign substances such as stone in a place such as outdoor stairs or trails and the like, a form of the heating mat is deformed by foreign substances such as stone, thereby having an excellent durability effect that can be more stably settled in places such as outdoor stairs or trails and the like without lifting phenomenon.

Description

Heating mat for winter fall prevention using carbon fiber heating wire and manufacturing thereby}

The present invention prevents the formation of ice by being easily installed and constructed without a separate long-term construction that causes inconvenience to pedestrians' passage in places such as outdoor stairs or trails where ice sheets are mainly formed due to freezing of snow and rain in winter. It is not only possible to more easily prevent falls of pedestrians due to ice, but also to reduce manufacturing costs due to its simple structure. Furthermore, it is possible to reduce the cost of manufacturing during the winter season while being stored in a specific place such as a warehouse outside the winter season. After being removed from a specific place such as a warehouse and installed in a place such as an outdoor staircase or a promenade, the AC power can be connected, so it is very easy to store and use. In addition, foreign substances such as stones can be found in places such as outdoor stairs or promenade. If present, the heating mat for preventing falls in winter and its manufacturing method using a durable carbon fiber heating wire that can be more stably settled in places such as outdoor stairs or trails without lifting in the state of being deformed by foreign substances such as stones. About.

In general, a lot of places where snow and rain in winter are frozen occurs, and fall accidents occur in winter.In particular, ice sheets are formed on stairs of outdoor facilities, outdoor stairs of buildings, and stairs of overpasses, causing frequent falls.

In order to prevent such an ice fall accident on the stairs in winter, a heating cable is installed on the stairs using the snow melting method, and recently, a heating cable is used to automatically adjust the temperature when freezing due to snow in winter or freezing on the road surface due to temperature difference. A heating cable with improved durability that can prevent safety accidents that may occur due to snow or icing, as an automatic operation system that detects snow and ice making, and is eco-friendly, is easy to maintain, and a snow melting and heating system using the same is registered in Korea. It has been proposed as Gazette Registration No. 10-1446736.

However, the construction of a staircase heating cable using a snow melting technique proposed in the above Korean Patent Registration No. 10-1446736 not only requires a long construction period and a lot of costs, but also causes inconvenience to pedestrians during the construction period. There is a problem.

Korean Patent Publication No. 10-1446736

The present invention was created in order to solve the above-described problems, and it is convenient without a separate long-term construction that causes inconvenience to pedestrians' passage in places such as outdoor stairs or trails where ice sheets are mainly formed due to freezing of snow and rain in winter. Because it prevents the formation of an ice sheet due to the installation process, it is possible to more easily prevent a fall accident of a pedestrian due to the ice sheet, and the simple structure enables the cost of manufacturing to be reduced, and furthermore, in seasons other than winter Storage and usability is very simple as AC power can be connected after being taken out of a specific place such as a warehouse again in winter while being stored in a specific place such as a warehouse and installed at an outdoor staircase or a walking path. Or, if there is a foreign substance such as a stone in a place such as a promenade, a durable carbon fiber heating wire that can be more stably settled in places such as outdoor stairs or promenade without lifting in the state of being deformed by foreign substances such as stones. Its purpose is to provide a heating mat for preventing falls in winter and a method for manufacturing the same.

The present invention for achieving the above object comprises the steps of: a) forming a lower rubber chip layer by filling a rubber chip mixture in which a rubber chip and a binder are mixed in a lower space of the cavity part formed in the lower mold; b) arranging a carbon fiber heating line on the lower rubber chip layer; c) forming an upper rubber chip layer by filling a rubber chip mixture in which a rubber chip and a binder are mixed on a lower rubber chip on which the carbon fiber heating wire is disposed in an upper space of the lower cavity part; d) forming a heat generating mat by pressing the lower mold cavity into an upper mold; providing a method of manufacturing a fall prevention heating mat in winter using a carbon fiber heating wire, comprising:

Here, the step b) is characterized in that the carbon viber heating line is disposed on the lower rubber chip layer, and the position of one side of the AC connector connected to the carbon fiber heating line is fixed so as to contact one side of the cavity part of the lower mold. A method of manufacturing a heating mat for preventing falls in winter using a carbon fiber heating wire.

In addition, in step b), it is preferable to position the AC connector on a fixing pin that is drawn into or out of the cavity on one side of the lower mold.

In addition, in step b), it is preferable to fix the position so that the other side of the auxiliary AC connector connected in parallel with the AC connector is in contact with the other side of the cavity part of the lower mold.

And, in the step b), it is preferable that the auxiliary AC connector is positioned on the auxiliary fixing pin that is drawn into or out of the cavity on the other side of the lower mold.

Further, the step b) is preferably a step of disposing a carbon fiber heating line sheet bonded with the carbon fiber heating line interposed between the upper sheet and the lower sheet in a zigzag shape on the lower rubber chip layer.

Here, it is preferable that the carbon fiber heating line sheet has a plurality of perforations formed in a portion where the carbon fiber heating line is not interposed.

In addition, the present invention provides a heating mat for preventing falls in winter using a carbon fiber heating wire, characterized in that manufactured by the manufacturing method of a heating mat for preventing falls in winter using the carbon fiber heating wire.

The present invention prevents the formation of ice by being easily installed and constructed without a separate long-term construction that causes inconvenience to pedestrians' passage in places such as outdoor stairs or trails where ice sheets are mainly formed due to freezing of snow and rain in winter. It is not only possible to more easily prevent falls of pedestrians due to ice, but also to reduce manufacturing costs due to its simple structure. Furthermore, it is possible to reduce the cost of manufacturing during the winter season while being stored in a specific place such as a warehouse outside the winter season. After being removed from a specific place such as a warehouse and installed in a place such as an outdoor staircase or a promenade, the AC power can be connected, so it is very easy to store and use. In addition, foreign substances such as stones can be found in places such as outdoor stairs or promenade. If there is, the shape is deformed by foreign substances such as stones, and there is an effect of excellent durability that can be more stably seated in places such as outdoor stairs or walking trails without lifting.

1 is a block diagram schematically showing a heating mat for preventing falls in winter using a carbon fiber heating wire and a method of manufacturing the same,
2 is a cross-sectional view sequentially showing a process of forming a lower rubber chip layer in a lower space of a cavity part formed in a lower mold,
3 is a cross-sectional view schematically showing a state in which a carbon fiber heating line sheet to which a carbon fire heating line is bonded is disposed on a lower rubber chip layer,
Figure 4 is a plan view of Figure 3,
5 is an exploded perspective view schematically showing a carbon fiber heating wire sheet,
6 is a combined perspective view of FIG. 5,
7 is a perspective view schematically showing a state in which a plurality of perforations are formed in a carbon fiber heating wire sheet,
8 and 9 are cross-sectional views sequentially showing a process in which a fixing pin introduced into a lower-type cavity portion fixes an AC connector and an auxiliary AC connector,
10 is a cross-sectional view schematically showing a state in which an upper rubber chip layer is formed in an upper space of a cavity part formed in a lower mold,
11 is a cross-sectional view schematically showing a state in which a heating mat is formed by pressing a lower mold cavity portion to an upper mold,
12 is a cross-sectional view schematically showing a state in which the heating mat is demolded from the cavity portion of the lower mold,
13 is a plan view schematically showing an example of a connection state of a heating mat for preventing falls in winter using a carbon fiber heating wire according to the present invention,
14 is a plan view schematically showing another example of a connection state of a heating mat for preventing falls in winter using a carbon fiber heating wire according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those of ordinary skill in the art within the scope not departing from the technical gist of the present invention.

1 is a block diagram schematically showing a heating mat for preventing falls in winter using a carbon fiber heating wire and a method of manufacturing the same.

As shown in FIG. 1, a heating mat for preventing falls in winter using a carbon fiber heating wire according to an embodiment of the present invention and a method of manufacturing the same are largely described as a) a lower rubber chip layer forming step (hereinafter referred to as'a) step'), b. ) Heating wire arrangement step (hereinafter referred to as'b) step'), c) upper high chip layer forming step (hereinafter referred to as'c) step') and d) heating mat forming step (hereinafter referred to as'd) step' ').

2 is a cross-sectional view sequentially showing a process of forming a lower rubber chip layer in a lower space of a cavity part formed in a lower mold.

First, the step a) is to form a lower rubber chip layer 10 by filling a rubber chip mixture in which a rubber chip and a binder are mixed in the lower space of the cavity part 31 formed in the lower mold 3 as shown in FIG. Step.

The lower mold 3 may be manufactured in various shapes such as a rectangular box with an open top.

The rubber chips of the lower rubber chip layer 10 may be of various types, for example, a waste tire rubber chip that has good texture, touch, and heat retention and can minimize recoil and vibration, or a feeling of lightness when walking to reduce fatigue. In addition, it can be made of urethane rubber chips with excellent stability because there is little risk of injury to the human body.

The binder of the lower rubber chip layer 10 may also be made of various types, and for example, may be made of a polyurethane-based adhesive having excellent adhesion and high durability.

3 is a cross-sectional view schematically showing a state in which a carbon fiber heating line sheet to which a carbon fire heating line is bonded is disposed on a lower rubber chip layer.

Next, step b) is a step of seating and disposing the carbon fiber heating wire on the upper part of the lower rubber chip layer 10 as shown in FIG. 3.

4 is a plan view of FIG. 3.

As shown in FIGS. 3 and 4, one side of the waterproofed AC connector 240 connected to one side of the carbon fiber heating line 230 is in contact with the inner surface of one side of the cavity part 31 of the lower mold 3 Position can be fixed.

On the other side of the carbon fiber heating line 230, the other side of the waterproof auxiliary AC connector 250 connected in parallel with the AC connector 240 is in contact with the inner surface of the other side of the cavity part 31 of the lower mold 3 Can be fixed in position.

5 is an exploded perspective view schematically showing a carbon fiber heating line sheet, and FIG. 6 is a combined perspective view of FIG. 5.

As an example, a carbon fire heating line sheet 20 may be mounted and disposed on the lower rubber chip layer 10, and the carbon fire heating line sheet 20 is large, as shown in FIGS. 5 and 6, and the upper sheet 210 ) And the lower sheet 220 and the carbon fiber heating wire 230 may be included.

The upper sheet 210 and the lower sheet 220 may be made of various materials such as synthetic resin material.

With the carbon fiber heating wire 230 interposed between the upper sheet 210 and the lower sheet 220 in a zigzag shape, the upper sheet 210 and the lower sheet 220 can be joined in various ways such as fusion bonding. I can.

7 is a perspective view schematically showing a state in which a plurality of perforations are formed in the carbon fiber heating wire sheet.

Next, in order to greatly improve the bonding property of the lower rubber chip layer 10, the carbon fiber heating line sheet 20, and the upper rubber chip layer 30 to be described later, which can be adhesively bonded to each other, as shown in FIG. Likewise, the front and rear widths (W ₁ ) and the left and right widths (W ₂ ) of the upper sheet 210 and the lower sheet 220 of the carbon fiber heating line sheet 20 are the lower rubber chip layer 10 and the upper rubber chip layer 30 It may be formed narrower than the front and rear width (W ₃ ) and the left and right width (W ₄ ).

In particular, in order to greatly improve the bonding property of the lower rubber chip layer 10, the carbon fiber heating wire sheet 20, and the upper rubber chip layer 30 to be described later, the carbon fiber heating wire 230 as shown in FIG. A plurality of perforations 260 through which some rubber chip mixtures may be introduced may be formed in the areas of the upper sheet 210 and the lower sheet 220 around the carbon fiber heating line 230 without intervening ). have.

8 and 9 are cross-sectional views sequentially illustrating a process in which a fixing pin introduced into a lower-type cavity portion fixes an AC connector and an auxiliary AC connector.

Next, the flow of the AC connector 250 and the auxiliary AC connector 250 during adhesive bonding of the lower rubber chip layer 10, the carbon fiber heating wire sheet 20, and the upper rubber chip layer 30 In order to prevent this, as shown in FIG. 8, a fixing hole 32 may be formed on one side and the other side of the cavity part 31 formed in the lower mold 3, respectively, as shown in FIG. The hole 32 may be provided with a fixing pin 5 leading in and out of the cavity part 31.

The fixing pin 5 is inserted into the cavity part 31 through the fixing hole 32 and inserted into the AC connector 240 and the auxiliary AC connector 250, respectively, and the AC connector The position 240 and the auxiliary AC connector 250 can be fixed.

10 is a cross-sectional view schematically showing a state in which an upper rubber chip layer is formed in an upper space of a cavity part formed in a lower mold.

Next, in step c), as shown in FIG. 10, the carbon fiber heating wire 230 is filled with a rubber chip mixture in which a rubber chip and a binder are mixed in the upper space of the cavity part 31 of the lower mold 3 In this step, the upper rubber chip layer 30 is formed on the disposed lower rubber chip 10.

The rubber chips of the upper rubber chip layer 30 may be formed of various types, for example, waste tire rubber chips or urethane rubber chips.

The binder of the upper high-end chip layer 30 may also be made of various types, and for example, may be made of a polyurethane-based adhesive.

11 is a cross-sectional view schematically showing a state in which a heating mat is formed by pressing a lower mold cavity portion to an upper mold.

Next, the step d) is the lower mold (3) so that the lower rubber chip layer 10, the carbon fiber heating wire sheet 20, and the upper rubber chip layer 30 are adhesively bonded to each other as shown in FIG. The lower rubber chip layer 10, the carbon fiber heating wire sheet 20, and the upper rubber chip layer 30 provided in the cavity part 31 of the lower mold 3 are moved to the upper mold 7 for a certain period of time. It is a step of forming the heating mat (1) by pressing during the process.

The upper mold 7 includes, for example, a pressing plate 71 mounted horizontally on the upper rubber chip layer 30; It may be configured to include; a lifting member 72 such as a cylinder for lifting the pressure plate 71 in the vertical direction.

12 is a cross-sectional view schematically showing a state in which the heating mat is demolded from the cavity portion of the lower mold.

After a certain period of time has elapsed and the molding of the heating mat 1 is completed, the pressure plate 71 of the upper mold 7 rises in the upper direction of the lower mold 3 and is separated from the lower mold 3 as shown in FIG. Can be.

In this state, after the fixing pin 5 is pulled out from the fixing hole 32 of the lower mold 3 to the outside of the lower mold 3 by an operator, the heating mat 1 is molded from the lower mold 3 ) Can be demolded.

The lower mold 3 may be made of various materials. In particular, in order to allow the heating mat 1 to be more easily demolded from the lower mold 3, the lower mold 3 is a soft rubber, soft rubber. It can be made of various kinds of soft materials such as silicone and soft synthetic resin.

13 is a plan view schematically showing an example of a connection state of a heating mat for preventing falls in winter using a carbon fiber heating wire according to the present invention, and FIG. 14 is a schematic view showing another example of a connection state of a heating mat for preventing falls in winter using a carbon fiber heating wire according to the present invention. It is a plan view shown by.

A connecting member 6 may be provided between the AC connector 240 of one heating mat 1 and the auxiliary AC connector 240 of the other heating mat 1.

The connection member 6 includes, for example, a connection line 61 which may be formed of an electric wire or the like; It may include a waterproof connection connector 62 provided on one side and the other side of the connection line 61 and connected to the AC connector 240 and the auxiliary AC connector 240, respectively.

Through the connection member 6, the plurality of heating mats 1 are connected to each other and are disposed at regular intervals in the front and rear direction as shown in FIG. 13 to be mounted and constructed on an outdoor staircase.

Alternatively, a plurality of the heating mats 1 through the connection member 6 may be disposed at regular intervals in the left and right directions as shown in FIG. 14 while being connected to each other to be installed and constructed on the trail.

The plurality of heating mats 1 may be installed in various places, such as being able to be installed and installed on a road on which a vehicle travels in addition to outdoor stairs and trails.

The present invention configured as described above is easily settled and constructed in places such as outdoor stairs or trails where ice sheets are mainly formed due to freezing of snow and rain in winter without a separate long-term construction that causes inconvenience to pedestrians' passage to form ice sheets. Because it prevents the fall of pedestrians due to ice, it is possible to more easily prevent the fall of pedestrians due to the ice, and the structure is simple so that the cost required for manufacturing can be reduced. In the state of storage, it is taken out from a specific place such as a warehouse again in winter and installed in a place such as an outdoor staircase or a promenade, and then AC power can be connected, so it is very easy to store and use. When there is a foreign substance such as stone, the shape is deformed by the foreign substance such as stone, and there is an advantage of excellent durability that can be more stably settled in a place such as an outdoor staircase or a walking path without lifting phenomenon.

10; Lower rubber chip layer, 20; Carbon fiber heating wire sheet,
30; Upper high-end chip layer.

Claims (8)

a) forming a lower rubber chip layer by filling a rubber chip mixture in which a rubber chip and a binder are mixed in a lower space of the cavity part formed in the lower mold;
b) arranging a carbon fiber heating line on the lower rubber chip layer;
c) forming an upper rubber chip layer by filling a rubber chip mixture in which a rubber chip and a binder are mixed on a lower rubber chip on which the carbon fiber heating wire is disposed in an upper space of the lower cavity part;
d) forming a heat generating mat by pressing the lower mold cavity into an upper mold; a method for manufacturing a fall prevention heating mat in winter using a carbon fiber heating wire, comprising: a.
The method of claim 1,
In the step b), a carbon fiber heating line is disposed on the lower rubber chip layer, and a position of one side of the AC connector connected to the carbon fiber heating line is fixed in contact with one side of the cavity part of the lower mold. A method of manufacturing a heating mat for preventing falls in winter using a heating wire.
The method of claim 2,
The step b) is a method of manufacturing a heating mat for preventing falls in winter using a carbon fiber heating wire, characterized in that the AC connector is positioned on a fixing pin introduced or drawn out of the cavity on one side of the lower mold.
The method of claim 2,
The step b) is a method of manufacturing a fall prevention heating mat in winter using a carbon fiber heating wire, characterized in that the other side of the auxiliary AC connector connected in parallel with the AC connector is fixed in contact with the other side of the cavity part of the lower type. .
The method of claim 4,
The step b) is a method of manufacturing a heating mat for preventing falls in winter using a carbon fiber heating wire, characterized in that the auxiliary AC connector is positioned on an auxiliary fixing pin that is drawn into or out of the cavity on the other side of the lower mold.
The method of claim 1,
The step b) is a step of disposing a carbon fiber heating line sheet bonded with the carbon fiber heating line interposed between the upper sheet and the lower sheet in a zigzag form on the lower rubber chip layer. A method of manufacturing a heating mat for preventing falls in winter.
The method of claim 6,
The carbon fiber heating wire sheet is a method of manufacturing a fall prevention heating mat in winter using a carbon fiber heating wire, characterized in that a plurality of perforations are formed in a portion where the carbon fiber heating wire is not interposed.
A heating mat for preventing falls in winter using a carbon fiber heating wire, characterized in that it is manufactured by a method of manufacturing a heating mat for preventing falls in winter using the carbon fiber heating wire of any one of claims 1 to 7.

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