KR20090085471A

KR20090085471A - Sliding gate

Info

Publication number: KR20090085471A
Application number: KR1020080011383A
Authority: KR
Inventors: 박도진
Original assignee: 박도진
Priority date: 2008-02-04
Filing date: 2008-02-04
Publication date: 2009-08-07

Abstract

The present invention relates to a sliding gate, comprising: a first gate (200) provided with a first guide rod (220); And a second gate (300) provided with a first sliding member (310) having a first through hole (312) through which the first guide rod (220) penetrates, and includes a first gate of the second gate (300). The sliding member 310 relates to a sliding gate which is moved along the first guide rod 220 of the first gate 200.

Description

Sliding Gate

The present invention relates to a sliding gate installed in the front door of a government office or a school.

1 is a perspective view showing a conventional sliding gate.

As shown in FIG. 1, the conventional sliding gate includes a housing 10 and a plurality of gates 20, 30, and 40 positioned in the housing 10 and drawn out of the housing 10 when necessary. It is composed.

The plurality of gates 20, 30, and 40 may include a first gate 20 connected to the housing 10, a second gate 30 connected to the first gate 20, and a second gate 30. ) And a third gate 40 connected thereto.

In the connection structure between the first gate 20 and the second gate 30, a first guide rail is formed on a rear surface of the first gate 20, which is a surface of the first gate 20 that is in contact with the second gate 30. 24 is provided, and a first roller 32 which is moved from the first guide rail 24 is provided at the front of the second gate 30 facing the rear surface of the first gate 20.

In addition, a second guide rail 34 is provided on a rear surface of the second gate 30, and a second roller 42 is provided on a front surface of the third gate 40 facing the rear surface of the second gate 30. Prepared.

Meanwhile, two first lower rollers 52 are provided below the first gate 20, and the first lower rollers 52 are positioned to be spaced apart from each other, and the first gate 20 is located at the first gate 20. Two second lower rollers 54 having the same structure as that of the lower roller 52 are provided, and two third lower rollers 56 are provided in the third gate 40 in the same structure.

The reason why the first lower rollers 52 to the third lower rollers 56 are provided two by two is to allow the first gate 20 to the third gate 40 to be balanced and moved stably. .

In addition, below the first lower rollers 52 to 3 lower rollers 56, which are each two, the first lower rollers 52 to the third lower rollers 56 may be easily moved. Dogs are formed on the ground in parallel.

If necessary, an additional gate connected to the third gate 40 may be provided.

Referring to the operation of the conventional sliding gate configured as described above are as follows.

When the door is closed in a state where the first gate 20 to the third gate 40 are positioned inside the housing 10, the first gate 20 to the third gate 40 may be extended to open the door. In this case, the unfolded first gate 20 to third gate 40 may be led into the housing 10.

When the first gate 20 to the third gate 40 are unfolded, the second roller 42 of the third gate 40 moves along the second guide rail 34 of the second gate 30. The first roller 32 of the second gate 30 is moved along the first guide rail 24 of the first gate 20.

At this time, the first lower roller 52 to the third lower roller 56 is moved along the bottom rail.

However, the conventional sliding gate as described above is connected to the first guide rail 24 in a state where the first roller 32 is simply placed, so that the binding force is very weak. In order to support, two first lower rollers 52 are provided, and two second lower rollers 54 are provided below the second gate 30 to support the second gate 30. Since the same is true for the third gate 40, the third lower roller 56 is also provided in the third gate 40.

In addition, the first lower rollers 52 to the third lower rollers 56 each have two rollers in parallel and should be provided in a horizontal state so that the bottom rail 60 is provided with a flat surface.

Therefore, the conventional sliding gate can not be directly installed where the ground is inclined, and for installation, a lot of construction costs are required because the civil construction must proceed so that the floor on which the lower rail 60 is installed flat There is.

The present invention has been invented to solve the above problems, it is an object of the present invention to provide a sliding gate that can be installed on a slope or a non-horizontal terrain without additional civil engineering.

The present invention includes a first gate 200 is provided with a first guide rod 220; And a second gate (300) provided with a first sliding member (310) having a first through hole (312) through which the first guide rod (220) penetrates, and includes a first gate of the second gate (300). The sliding member 310 provides a sliding gate, which is moved along the first guide rod 220 of the first gate 200.

The lower roller 500 may be provided below only one of the plurality of gates including the first gate 200 and the second gate 300, and the lower roller 500 may be provided in the plurality of gates. It may be provided on the lower side of the last gate of the gate of the.

In addition, each of the first guide rods 220 may be provided at an upper and lower portions of the first gate 200, and a lower rail 60 may be provided below the lower roller 500.

As described above, according to the present invention, the lower roller is provided only at the third gate at the end, and the overall cost of civil works can be reduced by manufacturing and installing a rail-free sliding gate in a site where it is difficult to be inclined or rail work. .

And if the rail is installed without the work is exposed to the road surface because there is no effect of vibration or obstacles when entering and leaving the vehicle.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is a perspective view illustrating a sliding gate of the present invention, and FIG. 3 is a front view of FIG. 2.

As shown in FIG. 2, the sliding gate of the present invention includes a housing 100 and a plurality of gates 200, 300, and 400 positioned in the housing 100 and drawn out of the housing 100 when necessary. do.

The plurality of gates 200, 300, and 400 may include a first gate 200 connected to the housing 100, a second gate 300 and a second gate 300 connected to the first gate 200. ) And a third gate 400 connected thereto. If necessary, an additional gate connected to the third gate 400 may be installed.

In addition, one lower roller 500 is provided at a lower side of the third gate 400 positioned last among the plurality of gates 200, 300, and 400, and the lower roller 500 may include a third gate ( The guide rail 600 is provided at the lower portion of the lower roller 500.

The lower roller 500 is a roller made of a material containing high synthetic resin or urethane, and if necessary, the lower roller 500 is moved without installing a guide rail 600 separately under the moving path of the lower roller 500. It can be manufactured in a structure to make.

In the meantime, when the first gate 200 and the second gate 300 are connected to each other, first and second rear surfaces of the first gate 200, which is a surface of the first gate 200 that is in contact with the second gate 300, may be formed. Each of the first guide rods 220 is provided horizontally, and the first guide rods 220 penetrate the upper and lower portions of the front and rear surfaces of the second gate 300 facing the rear surface of the first gate 200. One first sliding member 310 including a through hole 312 is provided.

In addition, one second guide rod 320 is provided on the upper and lower rear surfaces of the second gate 300, respectively, and the second upper and lower portions of the third gate 400 facing the rear surface of the second gate 300 are disposed on the second guide rod 320. One second sliding member 410 including a second through hole 412 through which the guide rod 320 penetrates is provided.

In addition, both ends of the first guide rod 220 are attached to the upper and lower rear surfaces of the first gate 200 by the first attachment portion 230, and both ends of the second guide rod 320 are attached to the second attachment portion ( 330 is attached to upper and lower rear surfaces of the second gate 300.

On the other hand, in the connection structure of the housing 100 and the first gate 200, the third guide rods 520 are respectively formed on the upper and lower inner surfaces of the housing 100 in contact with the first gate 200. Each of the third sliding members 510 is horizontally provided, and each of the third sliding members 510 through which the third guide rod 520 penetrates is provided in the upper and lower portions of the first gate 200.

Both ends of the third guide rod 520 are attached to upper and lower inner front surfaces of the housing 100 by the third attachment portion 530.

The number or installation positions of the first guide rod 220 to the third guide rod 520 and the first sliding member 310 to the third sliding member 510 may be adjusted as necessary.

Referring to the operation of the present invention having the configuration as described above are as follows.

First, referring to an operation relationship between the first gate 200 and the second gate 300, when the first sliding member 310 is moved along the first guide rod 220, the second gate 300 is The first gate 200 is moved to overlap or move in an unfolding direction in an overlapping state.

Through this operating relationship, the plurality of gates are overlapped or unfolded while sliding.

For example, when the door is closed, the first gate 200 to the third gate 400 positioned inside the housing 100 are moved out of the housing 100.

At this time, the first sliding member 310 of the second gate 300 is moved along the first guide rod 220 of the first gate 200 and the second sliding member 410 of the third gate 400. Moves along the second guide rod 320 of the second gate 300, and the third sliding member 510 of the first gate 200 moves along the third guide rod 520 of the housing 100. do.

Since the first sliding member 310 surrounds the first guide rod 220 by the first through hole 312, the coupling between the first guide rod 220 and the first sliding member 310 is performed. The same is true of the coupling between the second guide rod 320 and the second sliding member 410 and the third guide rod 520 and the third sliding member 510.

Therefore, even if the lower roller 500 is provided only below the third gate 400 and the rollers are not provided below the first gate 200 and the second gate 300, the first sliding member 310 may be provided. The first gate 200 to the third by a coupling structure between the third sliding member 510 and the first guide rods 220 and the third guide rod 520 and the mounting structure of the lower roller 500. The gate 400 is stably moved while maintaining a firmly coupled state.

In particular, the first gate 200 to the third gate 400 is formed to include an aluminum material capable of minimizing the weight of the gate, so that the first gate 200 to the third gate 400 are firmly coupled. Helps to move stably while maintaining state.

On the other hand, since the lower roller 500 provided below the third gate 400 is made of a high synthetic resin or urethane roller, the lower roller 500 is strong and wear-resistant, and if necessary, the lower roller 500 may be disposed below the moving path of the lower roller 500. It is also possible to manufacture a structure to move the lower roller 500 without installing the guide rail 600 separately.

When the guide rail 600 is not installed as described above, the construction period is shortened, and even when the guide rail 600 is installed, only one guide rail 600 is installed so that the guide rail 600 is perpendicular to the longitudinal direction of the guide rail 600. Even when the direction surface is not horizontal, the guide rail 600 can be installed if the ground in the same direction as the longitudinal direction of the guide rail 600 is horizontal.

Therefore, the guide rail 600 can be installed without any civil works, so the door can be installed even when the ground is inclined in the vertical direction with the door.

As described above, according to the present invention, since the lower roller is provided and moved only at the third gate at the end, it is possible to reduce the overall cost of civil engineering work by manufacturing and installing a railless sliding gate in a site where it is difficult to incline or rail work. have.

And if the rail is not working, there is no part exposed to the road surface because there is no effect of vibration or obstacles when entering and leaving the vehicle.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a perspective view showing a conventional sliding gate.

Figure 2 is a perspective view showing a sliding gate of the present invention.

3 is a plan view of FIG.

100: housing 200: first gate

300: second gate 400: third gate

500: lower roller 600: guide rail

Claims

A first gate 200 provided with a first guide rod 220;

A second gate 300 provided with a first sliding member 310 having a first through hole 312 through which the first guide rod 220 passes;

Including,

When the first sliding member 310 is moved along the first guide rod 220, the second gate 300 is moved so as to overlap with the first gate (200).

The method according to claim 1,

A sliding gate, characterized in that the lower roller (500) is provided only at any one of the plurality of gates including the first gate (200) and the second gate (300).

The method according to claim 2,

The lower roller 500 is a sliding gate, characterized in that provided on the lower side of the gate 400 is located last among the plurality of gates.

The method according to any one of claims 1 to 3,

The first guide rods 220 are sliding gates, characterized in that each one is provided in the upper and lower portions of the first gate (200).