KR101271336B1 - Elevator protector using standing characteristics and construction method using the same - Google Patents

Abstract

PURPOSE: An elevator protection material using standing characteristics and a construction method thereof are provided to improve the efficiency of assembly and disassembly works because the elevator protection material can be bent and stood up. CONSTITUTION: An elevator protection material using standing characteristics comprises a standing material(110) and an attachment material(120). The standing material is made of a metal board or a synthetic resin board. Accordingly, the standing material is bent by external force and is stood up in the bent state when the external force is released. The standing material is arranged on multiple inner surfaces of an elevator and is bent at any positions, thereby being bent at the corners of the elevator. The attachment material is arranged in one side of the standing material and detachably attaches the standing material to the inner surfaces of the elevator. The attachment material is made of an adhesive silicone, an adhesive rubber, or a rubber magnet.

Description

Elevator protector using standing characteristics and construction method using the same}

The present invention relates to an elevator reinforcement material and a construction method using the standing characteristics, and more specifically, it is possible to be bent while maintaining the standing, due to the material properties, it can be easily applied to elevators of various standards, assembly and It relates to an elevator reinforcement material and its construction method using the standing characteristics to increase the efficiency of dismantling work.

In general, an elevator (elevator) is a device for moving a person or cargo up and down by using power, also called an elevator, to move the person or cargo up and down along the guide rail installed inside the vertical passage inside the building.

Such elevators generally have a hexagonal shape and have a flat square or rectangular structure. When an elevator carries a packed object or an object that may be dirty, it may be damaged. In order to protect the inner decoration, a separate reinforcement material is installed on the inner side to protect the inner side.

As a conventional elevator reinforcing material has been disclosed in the "internal protection cover of the elevator" of Korea Patent Publication No. 10-2010-0007438. Referring to Figure 1, the inner protection cover 1 of such an elevator is a rectangular plate protection To connect the pad 2, the connecting piece 4 having a straight body with a coupling recess 3 on both sides to secure the pad 2 to the left and right, and to connect the protective pad 2 at a right angle. Combination grooves (3) at both ends and composed of a corner piece (5) having a body bent at right angles to the protective pad (2) in the form of the inner side of the elevator to the connecting piece (4) and the corner piece (5) Consisting of each connected to each other, and has a finishing piece (9).

However, such a conventional elevator reinforcement material is made of a variety of components, because these components must be assembled in order not only takes a lot of time in construction, but also had a problem requiring skill or talent in assembly.

In addition, since the conventional elevator reinforcing material is manufactured to suit each elevator of different standards, it is difficult to use at all different standards, and when manufacturing to suit each elevator of different standards, there was a problem that a lot of manufacturing cost and difficulty .

In addition, the conventional elevator reinforcing material had a problem that the difficulty in storage and transportation because the components are not flexible.

In particular, when the components are made of a flexible material for the convenience of storage and transportation, it is impossible to stand alone or maintain the shape, thereby reducing the efficiency of assembly and dismantling work by natural deformation, and easily from the inner side of the elevator after installation. It had a problem that it could not be separated and maintained in a stable installation state.

In order to solve the conventional problems as described above, the present invention has the following object.

First, due to the material characteristics, it is possible to bend while maintaining the standing, to increase the efficiency of the assembly and dismantling work, and to maintain the installed state stably.

Second, the simultaneous construction of the surface consisting of a large number of elevators are made so that anyone can assemble quickly and easily.

Third, it is possible to bend at a desired position to facilitate installation even in elevators of different specifications.
Fourth, it is possible to install irrespective of the characteristics of the inner surface material of the elevator, so as to remove the restrictions on the material to be installed.
Fifth, the installation can be bent to correspond to the shape regardless of the size and characteristics of the surface attachment, it can be easily applied to a variety of elevators.

Other objects of the present invention will be readily understood through the following description of the embodiments.

In order to achieve the object as described above, according to an aspect of the present invention, in the elevator reinforcement material, the entire area can be bent by the external force, but the metal plate or synthetic resin plate that can stand by maintaining the bent state when releasing the external force It is formed in a plurality of surfaces of the inner surface of the elevator, and bent at any position of the entire area, so that the inner surface of the elevator to bend corresponding to any corner portion that meets each other, bent at the corner portion A standing material to maintain the state; And a mounting material provided on one surface of the rising material, to allow the rising material to be detachably attached to the inner surface of the elevator, and including an adhesive material made of adhesive silicone, adhesive rubber, or rubber magnet, and corresponding to the inner surface of the elevator. There is provided an elevator reinforcement material that uses a standing property to cover a surface of a combination or all of the adjacent surfaces among the left, right, and rear surfaces.
The other surface of the standing material may further include a surface material provided for protection.

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On the inner side of the elevator may be provided to cover the upper and lower, respectively based on the handrail.

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According to another aspect of the present invention, in the elevator reinforcement construction method, the entire area is bent by the external force on the upper and lower sides with the handrail horizontally installed on the inner surface of the elevator when the external force is released It is made of a metal plate or a synthetic resin plate that can stand in a bent state, so that the standing material that can be bent at any position of the entire area to be bent corresponding to any corner portion where the inner surface of the elevator meet each other, The standing material is maintained in a bent state at the corner portion, and the standing material is attached by an attachment material made of adhesive silicone or adhesive rubber or rubber magnet, so that the front, left and right sides, Adjacent faces of the back There is provided a method for constructing an elevator reinforcement material using the standing characteristics including the step of covering all or all of the surfaces.

The handrail may further include a step of wrapping the protective cover of the hollow shape in the longitudinal direction while being capable of bending.

The step of attaching the standing material by the attachment material may be provided with a surface material for protection on the outer surface of the standing material.

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According to the elevator reinforcement material and the construction method using the standing characteristics according to the present invention, it is possible to be bent while maintaining the standing due to the material properties, to increase the efficiency of the assembly and dismantling work, and stable installation state To keep it.

In addition, according to the elevator reinforcement material and the construction method using the standing characteristics according to the present invention, so that the simultaneous construction on the surface consisting of a plurality of elevators can be made so that anyone can assemble quickly and easily.

In addition, according to the elevator reinforcement material and the construction method using the standing characteristics according to the present invention, it is possible to bend at a desired position to facilitate installation of elevators of different standards.
In addition, according to the elevator reinforcement material and the construction method using the standing characteristics according to the present invention, it is possible to install irrespective of the characteristics of the inner surface material of the elevator, thereby eliminating the restrictions on the material to be installed.
In addition, according to the elevator reinforcement material and the construction method using the standing characteristics according to the present invention, regardless of the size and characteristics of the surface of the attachment can be installed bent to correspond to the shape, it can be easily applied to various elevators.

1 is a perspective view showing an elevator reinforcement material according to the prior art.
2 is a perspective view showing the elevator reinforcement material using the standing characteristics according to the first embodiment of the present invention.
3 is a perspective view showing a state of storage or transportation of elevator reinforcement material using the standing characteristics according to the first embodiment of the present invention.
4 is a perspective view showing the elevator reinforcement material using the standing characteristics according to the second embodiment of the present invention.
5 to 9 are views for explaining the construction method of the elevator rehabilitation material using the standing characteristics according to the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

2 is a perspective view showing the elevator reinforcement material using the standing characteristics according to the first embodiment of the present invention.

Referring to FIG. 2, the elevator reinforcement material 100 using the standing characteristics according to the first embodiment of the present invention may largely include a standing material 110 and an attachment material 120.

The standing member 110 may be bent by an external force, but may stand by maintaining a bent state when the external force is released, and the standing member 110 may be positioned on a plurality of surfaces among the inner surfaces of the elevator. In addition, the standing member 110 may be made of a material having the characteristics of bending and maintaining the whole area, as shown in Figure 3, for example, a metal plate made of a ductile metal or metal alloy, such as aluminum, copper, etc. It may be made of a synthetic resin plate made of polyester or the like, and can be bent at any position of the entire area, so that the inner surface of the elevator may be bent to correspond to any corner portions that meet each other, thereby maintaining a bent state at the corner portions. Make sure As such, when the standing member 110 is bent in a cylindrical shape, a square shape, or a b-shaped shape by bending due to the characteristics of the material that can stand, the direction of the force is directed up and down so as to stand up on the installation surface without falling down. It will have a fixed characteristic.

Attachment material 120 is provided on one surface of the standing material 110, for example, the surface is attached to the inside of the elevator from the standing material 110, so that the standing material 110 is detachably attached to the inner surface of the elevator, the attachment It may be provided over one surface of the ash 120, or may be provided continuously or discontinuously over a portion of one surface of the attachment member 120.

 The attachment member 120 may be, for example, adhesive silicone having adhesiveness to be attached to the inner side of the elevator, or adhesive rubber. Alternatively, the attachment member 120 may be attached to one surface of the standing member 110 to be attached to the inner side of the elevator capable of magnetic attachment. It can be made of a rubber magnet. Here, the rubber magnet may be installed on the standing member 110 using an adhesive member such as an adhesive or a double-sided tape. In addition, the attachment member 120 may be made of a deformable material together with the standing member 110, such as adhesive silicone, adhesive rubber, or rubber magnet, but is not limited thereto, and the standing member 110 is wound in a roll form. If it is installed in a position that does not cause interference when bent or bent, for example, the width of the standing material 110 may be made of a material that is not bent.

The surface member 130 may be provided on the other surface of the standing member 110, for example, an outer surface of the standing member 110 attached to the inner surface of the elevator. Here, the surface material 130 is to protect the standing material 110 and the inner surface of the elevator, may provide a decorative surface to the standing material 110, for example, by bending of the standing material 110 It may be made of a lightweight material such as synthetic resin, fiber, paper to be deformed together, and may serve to protect the inner side of the elevator independently or together with the standing material 110, the thickness suitable for such protection Can have

Elevator reinforcement material 100 using the standing characteristics according to the first embodiment of the present invention may cover the surface of the combination or all of the adjacent surfaces of the front, left, right, rear surface corresponding to the inner surface of the elevator, When the occupant is on the basis of the position as it is boarded through the doorway of the elevator, the front cover portion 140, the left side surface so as to cover the front, left side, right side, and back side corresponding to the inner side of the elevator, respectively, successively The cover unit 150, the right side cover unit 160, and the rear cover unit 170 may be continuously provided, and the cover unit 150 is not limited thereto, and covers various numbers and shapes to cover neighboring surfaces among the inner surfaces of the elevator. May have wealth. Here, the rear cover part 170 may cover the right rear surface at the entrance and exit of the elevator, for example, and may cover the left rear surface, without being limited thereto, and may cover both the right rear surface and the left rear surface in a pair. .

In addition, the elevator reinforcement material 100 using the standing characteristics according to the first embodiment of the present invention, in order to cover the upper and lower, respectively, based on the handrail (handrail) horizontally installed on the inner side of the elevator, for example, It can consist of two.

2, the elevator reinforcement material 100 using the standing characteristics according to the first embodiment of the present invention is wound and rolled due to the deformation of the standing material 110 and the surface material 130, such as storage and transport Easy to stand, and can stand in a bent state corresponding to a corner portion where a plurality of surfaces meet in the inner side of the elevator due to the standing material 110 itself to maintain a bent state during installation, It is not easy to fall down to facilitate construction. Since the bending of the standing member 110 is free at any position, it can be easily installed corresponding to each of the inner surfaces of elevators of different standards.

Referring to FIG. 3, the elevator reinforcement material 200 using the standing characteristics according to the second embodiment of the present invention includes a standing material 210 and an attaching material 220 as described above, and further, the surface material 230. It may further include a), which indicates that it can be installed continuously on two surfaces of the inner surface of the elevator as in the present embodiment, as described above may be a variety of surfaces installed in the inner surface of the elevator.

4 to 8 is a view for explaining the construction method of the elevator rehabilitation material using the standing characteristics according to the present invention.

In the construction method of the elevator reinforcement material using the standing characteristics according to the present invention, for the construction of the reinforcement material 100 on the inner surface of the elevator 10, first, referring to Figures 4 to 7, the inside of the elevator 10 On the upper and lower sides of the handrail 14 installed horizontally on the side, as shown in Figure 3, the entire area can be bent by the external force, but can also stand by maintaining the bent state when the external force is released. The rising member 110, which can be bent at any position in the entire region, is bent to correspond to any corner portion where the inner surface of the elevator meets each other, so that the rising member 110 maintains the bent state at the corner portion. The ash 110 is attached by the attachment member 120, and thus, among the front, left, right, and rear surfaces corresponding to the inner side of the elevator. And to cover the surface of a combination or all of the contact surface.

At this time, as shown in Figures 4 and 5, as shown in the present embodiment, the reinforcement material 100 is first installed on the upper side of the hand rail 14 of the inner surface of the elevator 10, shown in Figures 6 and 7 As shown, other reinforcement material 100 is shown installed on the upper side of the headrail 14 of the inner surface of the elevator 10, but this is just one example, in reverse order, the reinforcement material 100 to the elevator 10 Among the inner surfaces of the), first installed on the lower side of the hand rail 14, another reinforcement material 100 can be installed on the upper side of the hand rail (14). Therefore, the construction method of the elevator reinforcement material using the standing characteristics according to the present invention is not limited due to the construction order for each of the upper and lower sides of the hand rail (14).

The reinforcement material 100 is the front cover portion 140 to cover all of the front 11, the left side 12, the right side 13, the right rear side 17 among the inner side of the elevator 10 in the present embodiment. ), The left side cover part 150, the right side cover part 160, and the rear cover part 170 are continuously formed, but are not necessarily limited thereto. It can be continuously covered as described above. In addition, the outer surface of the standing material 110 may be provided with a surface material 130 for protection, the standing material 110 may be made of a metal plate or a synthetic resin plate, etc., the adhesive 120 is adhesive silicon or It can be made of an adhesive rubber or a rubber magnet is as described in the elevator reinforcement material (100,200) using the standing characteristics according to the embodiments of the present invention described above. In addition, the nursing material 100 may cover not only the right rear surface 17 of the entrance 15, but also the left rear surface 16.

Referring to FIG. 8, after installation of the nursing material 100, the handrail 14 may be bent and wrapped with a hollow protective cover 310 cut in the longitudinal direction. Here, the protective cover 310 may be made of polyfoam as an example, and is not limited thereto, but may be made of a pipe cover or the like wrapped to protect the outer surface of the pipe, and a foam member for absorbing shock is provided inside. It can be, and one side is cut in the longitudinal direction so that it can be easily mounted through the incision to the pipe-shaped handrail (14).

According to the elevator reinforcement material and construction method thereof using the standing characteristics according to the present invention, it is possible to be bent while maintaining the standing due to the material properties, to increase the efficiency of the assembly and dismantling work, and also installed state Keep it stable. In addition, simultaneous construction of the surface consisting of a large number of elevators to be made so that anyone can quickly and easily assemble, bend at a desired position to facilitate the installation of elevators of different specifications.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the following claims.

10: elevator 11: front
12: left side 13: right side
14: handrail 15: doorway
16: left back 17: right back
110: standing material 120: adhesive material
130: surface material 140: front cover
150: left side cover portion 160: right side cover portion
170: rear cover

Claims (11)

In elevator reclaimed materials,
The entire area is made of a metal plate or a synthetic resin plate that can be bent by the external force, but can be raised by maintaining the bent state when releasing the external force, located on a plurality of sides of the inner surface of the elevator, at any position of the entire area A standing material that can be bent to correspond to any corner portion where the inner surfaces of the elevator meet each other, thereby maintaining a bent state at the corner portion; And
It is provided on one side of the rising material, the rising material is detachably attached to the inner surface of the elevator, and includes an adhesive material made of adhesive silicone or adhesive rubber or rubber magnet,
Elevator reinforcement material using the standing characteristics characterized in that the cover of the combination or all of the adjacent surfaces of the front, left, right, rear surface corresponding to the inner surface of the elevator. The elevator reinforcement using the standing characteristics of claim 1, further comprising a surface material provided for protection on the other side of the standing material. delete According to claim 1 or claim 2, Elevator reinforcement using the standing characteristics characterized in that provided on the inner surface of the elevator to cover the upper and lower, respectively based on the handrail. delete delete In the rehabilitation construction method of the elevator,
The upper and lower sides of the handrail installed horizontally on the inner side of the elevator, the upper and lower, respectively, the entire area is made of a metal plate or synthetic resin plate that can be bent by maintaining the bent state when the external force is released. Thus, the standing material which can be bent at any position of the entire area is bent corresponding to any corner portion where the inner surface of the elevator meets each other, so that the standing material is maintained in a bent state at the corner portion. Attaching by means of an adhesive made of adhesive silicone or an adhesive rubber or a rubber magnet to cover the combination or all of the surfaces of the front, left, right, and rear surfaces corresponding to the inner side of the elevator. Characterized by including Method of construction the elevator boyangjae with the standing properties. 8. The method of claim 7, further comprising the step of wrapping the handrail with a protective cover of the hollow shape in the longitudinal direction, while being able to bend. The method of claim 7, wherein the step of attaching the standing material by the attachment material,
An elevator reinforcement construction method using the standing characteristics, characterized in that the surface material is provided on the outer surface of the standing material for protection. delete delete

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