KR102373053B1 - Support Device of the door - Google Patents

Abstract

The present invention relates to a door support used in a nuclear power plant, a thermal power plant, and the like. The door support installed on a door of an auxiliary facility building of a plant comprises: a guide pipe (100) for supporting the inner or outer surface of the door (D) in the vertical direction; a base bracket (300) for supporting the guide pipe (100) from a bottom surface (B); and an upper bracket (400) for supporting the guide pipe (100) from an upper surface (U). According to the present invention, the door support can be installed separately from the door of the auxiliary facility building of the plant.

Description

Door Support {Support Device of the door}

The present invention relates to a door support used in a nuclear power plant, a thermal power plant, and the like. In particular, the facilities and equipment inside the power plant are safely stored from disasters such as fires and explosions, and natural disasters such as typhoons, floods, earthquakes and tsunamis. It relates to a door support for promoting worker safety.

In a nuclear power plant, a steam generator, a cooler, etc. are accommodated inside the reactor containment vessel (CV). In addition, an Enex building for storing and managing various peripheral devices is installed around the reactor containment vessel (CV). As such Enex Balding, various Enex buildings are installed, such as a pump storage room for replenishing the coolant in the CV, a condenser room that converts the steam generated after turning the turbine with the steam generated from the CV into water, and a cooling facility room for storing spent nuclear fuel. do. A similar Enex building will also be installed at the thermal power plant.

Fires and explosions may occur due to internal factors, and external factors such as typhoons and floods may damage the equipment inside the Enex Building, which may lead to major disasters such as the Fukushima nuclear accident. can The object of the present invention is to shield the inside of the Enex building when an accident occurs due to such internal or external factors.

In order to respond to natural disasters occurring in nuclear power plants, or disasters such as fire or explosion, to reinforce the shielding function of the door installed on the wall dividing the space, that is, to prevent the door from being easily opened. Technologies are being applied.

Looking at the conventional technologies for guiding the shielding of the door, in the radiation shielding device for the lower part of the door of Registered Patent Publication No. 10-0334891 (registered on April 18, 2002, Patent Document 1), a housing installed under the shielding door class; a shielding seal for shielding radiation made of lead inserted into the housing; a tension member for closely adhering the shield seal to the inside of the housing when the shield door is opened; Each fulcrum is rotatably fixed to a lever shaft installed across the housing so that the shielding seal can be pushed out from the inside of the housing when the shielding door is closed. with two levers; One end is inserted and installed in the housing so that one end protrudes from one side of the shielding door, and it is connected to a crossbar shaft formed at one end of the lever, so that when the shielding door is opened and closed, the lever is moved around the lever axis within a certain angle range. A crossbar for rotational movement in; technology including a technique is disclosed.

In addition, in the multi-function wind-resistant door equipped with a wind lock and roller of Patent Publication No. 10-1272859 (registered on Jun. 03. 2013, Patent Document 2), a slat wall and a slat wall are installed on both sides of the slat wall, and each cloud A plurality of rollers having a contact portion and a step portion, and a pair of rails guiding the slat wall up and down by allowing rolling motion of the plurality of rollers, wherein each of the pair of rails is an inwardly protruding wind A technology is disclosed that includes a lock portion, wherein the wind lock portion includes a sliding surface slidably contacting the rolling contact portion and a separation preventing surface formed to engage the step portion.

In addition, in the device for preventing thermal deformation of the fire door described in Patent Publication No. 10-1638116 (registered on July 4, 2016, Patent Document 3), it is connected to the door frame in the shape of an empty door so as to be opened and closed by a hinge, and a heat insulating material inside The fire door body filled with the lock body is accommodated inside the housing in a state of compressing the elasticity of the spring, blocks the lock body from protruding with a blocking plate, and the housing is fixed and installed inside the fire door body and, in digging a lock hole in the door frame frame at a position where the lock body protrudes, a handle is fastened to the lock body in a direction perpendicular to the axis, and a guide hole is provided in the housing to a length in which the handle can be operated up and down, and the fire door A technique for drilling a guide hole is disclosed in the body.

In addition, in the device for preventing thermal deformation of the fire door described in Korean Patent Publication No. 10-2121020 (registered on June 3, 2020, Patent Document 4), a body elongated in the longitudinal direction and a coupling part having a fixing hole formed on one side of the body Thermal deformation preventing member comprising; a thermal deformation member that is thermally deformed by heat generated during a fire; and the thermal deformation preventing member is inserted into the fixing hole to fix the thermal deformation preventing member to the outside of the upper end of the door frame of the fire door, and tightly tightening the thermal deformation preventing member in a state where the thermal deformation preventing member is interposed between the upper outer surface of the door frame and the coupling part and a fixing member fixed to the outside of the upper end of the door frame in a state of being fixed, wherein the thermal deformation preventing member is fixed and installed in a horizontal direction long outside the upper end of the door frame so that the body is spaced apart from the upper end of the door leaf of the fire door by a predetermined distance, and the thermal deformation When the heat-deformable member is thermally deformed during a fire and the tight state is released, the other side of the body rotates downward by its own weight to prevent the door leaf from protruding to the outside of the door frame. A technique for preventing deformation is disclosed.

: Registered Patent Publication No. 10-0334891 (Registered on April 18, 2002) : Registered Patent Publication No. 10-1272859 (2013. 06. 03. Registered) : Registered Patent Publication No. 10-1638116 (2016. 07. 04. Registered) : Registered Patent Publication No. 10-2121020 (Registered on 06.03.2020)

The prior arts as described above have a problem in that the support is installed inside the door or together with the door, and the installation and release of the door support cannot be easily made. In addition, there is a problem in that it is difficult to respond to a strong impact such as a strong explosion inside a building, a fire, or a typhoon or tsunami outside the building.

An object of the present invention is to solve the above problems and provide a door support that can be installed separately from the door of an auxiliary facility building of a power plant.

In addition, an object of the present invention is to strengthen the supporting capacity of the door by providing a door support for supporting the door inside and outside the door of an auxiliary facility building of a power plant.

In addition, the present invention allows the operator to easily open the door of the auxiliary facility building of the power plant in normal times and to enter and exit. An object of the present invention is to strengthen the supporting ability of the door by installing the door support on the door.

In addition, an object of the present invention is to enable the upper bracket to be applied according to the structure of the site, and to be installed regardless of the installation environment of the building in which the door is installed.

In addition, an object of the present invention is to install the door support in a short time by installing the upper bracket in advance and installing the door support in advance by installing the base bracket fixedly coupled to the guide pipe on the floor surface.

The present invention is intended to solve the above problems, and has the following configuration.

[1] In the door support installed on the door of the auxiliary equipment building of the power plant, the guide pipe 100 for supporting the inner surface or the outer surface of the door (D) up and down; a base bracket 300 for supporting the guide pipe 100 from the bottom surface (B); It relates to a door support, characterized in that it includes; an upper bracket 400 for supporting the guide pipe 100 from the upper surface (U).

[2] The door support according to [1], wherein a pipe guide 200 fixedly coupled to the guide pipe 100 is installed between the guide pipe 100 and the door D. will be.

[3] The base bracket 300 according to [2], wherein the base bracket 300 is fixedly coupled to the bottom end surface of the guide pipe 100 and has a flat shape in close contact with the bottom surface B , to the door support.

[4] In the above [2], the upper surface (U) is the upper wall surface (US) of the door (D), and the upper bracket 400 is made of an L-shaped wall surface fixing bracket 410, and the One side of the wall fixing bracket 410 forms a wall fastening hole 4111 as a wall fixing part 411, and the other side forms a guide pipe fastening hole 4121 as a wall pipe supporting part 412, A wall fastening member (4112, not shown) is inserted into the wall fastening hole 4111 to fix the wall fixing bracket 410 to the wall, and a guide wall fastening member (4112, not shown) is inserted into the guide pipe fastening hole 4121. is inserted so that the guide wall fastening member 4112 (not shown) communicates with the upper bracket fastening hole 150 of the guide pipe 100 to fix the guide pipe 100 to the wall fixing bracket 410. It relates to a door support.

[5] In [2], the upper surface U is the upper ceiling surface UC of the door D, and the upper bracket 400 is made of an L-shaped ceiling surface fixing bracket 420, , One side of the ceiling surface fixing bracket 420 forms a ceiling surface fastening hole 4211 as a ceiling surface fixing part 421 , and the other side is a guide pipe fastening hole 4221 with a ceiling surface pipe support part 422 . ) is formed, and a ceiling surface fastening member 4212 (not shown) is inserted into the ceiling surface fastening hole 4211 to fix the ceiling surface fixing bracket 420 to the ceiling surface, and the guide pipe fastening hole 4221 has The guide ceiling surface fastening member 4222 (not shown) is inserted so that the guide ceiling surface fastening member 4222 (not shown) communicates with the upper bracket fastening hole 150 of the guide pipe 100, so that the guide pipe 100. It relates to a door support, characterized in that it is fixed to the ceiling surface fixing bracket (420).

[6] The base bracket 300 according to [3], wherein a base fastening hole 301 is installed, and a base fastening member 302 (not shown) is inserted into the base fastening hole 301, and the base It relates to a door support, characterized in that the bracket 300 is fastened to the bottom surface (B).

[7] In the door support installed on the inside and outside of the door (D) of the auxiliary facility building of the power plant, the guide pipe 100 for supporting one side of the left door (L-D) of the door (D) up and down; a base bracket 300 for supporting the guide pipe 100 from the bottom surface (B); and a left door support (L-D-1) including an upper bracket (400) supporting the guide pipe (100) from the upper side (U); a guide pipe 100 for supporting one side of the right door (R-D) of the door (D) up and down; a base bracket 300 for supporting the guide pipe 100 from the bottom surface (B); and a right door support (R-D-1) including an upper bracket 400 supporting the guide pipe 100 from the upper surface (U).

The present invention is configured as described above, and can provide a door support that can be installed separately from the door of an auxiliary facility building of a power plant.

In addition, the present invention can strengthen the door support capacity by providing a door support for supporting the door inside and outside the door of the auxiliary facility building of the power plant.

In addition, the present invention allows the operator to easily open the door of the auxiliary facility building of the power plant in normal times and to enter and exit. By installing the door support on the door, the supporting ability of the door can be strengthened.

In addition, the present invention enables the upper bracket to be applied according to the structure of the site, and can be installed regardless of the installation environment of the building in which the door is installed.

In addition, according to the present invention, the door support can be installed within a short time by installing the upper bracket in advance and installing the door support in advance by installing the base bracket fixedly coupled to the guide pipe on the floor surface.

1 is a conceptual view showing a state in which the left door and the right door are opened 90 degrees in a state in which the door support of the present invention is not installed;
2 is a conceptual view showing a state in which the left door and the right door are closed in a state in which the door support of the present invention is not installed;
3 is a conceptual view showing a state in which the door support of the present invention is installed in a state in which the left door and the right door are closed;
4 is a conceptual view showing a state in which the left door and the right door are fully opened in a state in which the door support of the present invention is not installed;
Fig. 5(a) is a front view of the first embodiment, Fig. 5(b) is a side view of the first embodiment, and Fig. 5(c) is a top view of the first embodiment.
Fig. 6(a) is a side view of the second embodiment, Fig. 5(b) is a front view of the second embodiment, and Fig. 5(c) is a top view of the second embodiment.
5 is a side view (a), a front view (b), and a top view (c) showing the first embodiment of the door support of the present invention;
6 is a side view (a), a front view (b), and a top view (c) showing a second embodiment of the door support of the present invention;

The door support 1 of the present invention includes: a guide pipe 100 for supporting the inner surface or the outer surface of the door D up and down; a base bracket 300 for supporting the guide pipe 100 from the bottom surface (B); A pipe guide 200 having an upper bracket 400 supporting the guide pipe 100 from the upper surface U, and being fixedly coupled to the guide pipe 100 between the guide pipe 100 and the door D. ) will be installed.

In addition, as shown in FIGS. 1 to 4 , the door support 1 of the present invention is a left door supporting the inner surface of the left door LD of the door D with respect to the auxiliary facility building of the power plant. It consists of a support LD-1 and a right door support RD-1 that supports the outer surface of the right door RD, and the left door LD and the right door RD are connected to the door D by an external force. In order not to open in the opposite direction to the opening direction, the configuration of the present invention will be described below in detail while looking at the drawings.

In addition, the left door support LD-1 supporting the inner surface of the left door LD of the present invention and the right door support RD-1 supporting the outer surface of the right door RD have substantially the same structure. Since it has a, below, it will be described with the same reference numerals without distinction. However, since the shape of the inner and outer upper surface (U) on which the door (D) is installed may vary depending on the location of the door (D) of the auxiliary facility building of the power plant, for the structure of the upper bracket 400, the upper surface ( According to the structure of U), a case where it is installed on the upper wall surface US and a case where it is installed on the upper ceiling surface UC will be described.

The door support 1 of the present invention is for supporting the inner or outer surface of the door D up and down, as shown in FIG. 3 . In addition, although FIG. 3 shows that the door support 1 is installed in the opposite direction to the opening direction of the door D, it may be installed in both the opening direction and the opposite direction to the opening direction, or may be installed only in the opening direction.

In addition, 1st Embodiment (FIG. 5) of this invention is about the left door support LD-1 shown in FIG. 3, 2nd Embodiment (FIG. 6) is the right door support RD shown in FIG. -1) is about.

[Guide Pipe (100)]

The guide pipe 100 of the present invention has a rectangular pipe shape as shown in FIGS. 5 and 6 . However, it is not necessarily limited to a rectangular pipe shape, and it may be a circular pipe or a pipe of various other shapes. As shown in FIGS. 5 and 6 , the rectangular pipe shape is to facilitate fixed coupling with the pipe guide 200 , the base bracket 300 , and the upper bracket 400 to be described below. .

The length of the guide pipe 100, as shown in FIGS. 3, 5 and 6, is longer than the height of the door D, and is shorter than the length from the bottom surface B to the upper surface U. make it as That is, even when the length of the guide pipe 100 is shorter than the distance from the bottom surface B to the upper surface U, the guide pipe 100 is connected to the upper wall surface using the upper bracket 400 described below. (US) or the upper ceiling surface (UC) can be fixed. Hereinafter, the upper wall surface (U-S) and the upper ceiling surface (U-C) are referred to as the upper side surface (U).

In addition, in order to fasten the upper bracket 400 described below to the upper left and right sides of the guide pipe 100, as shown in FIGS. A ball 150 is formed. Forming the upper bracket fastening hole 150 in the long hole shape is to easily adjust the coupling position of the upper bracket 400 with the guide pipe fastening holes 4121 and 4221 to be described below up and down.

That is, when the upper bracket fastening hole 150 is formed in a simple circular ball shape instead of a long hole shape, the coupling position with the guide pipe fastening holes 4121 and 4221 of the upper bracket 400 is limited, so the guide pipe ( The effort of the operator is required for the fixed coupling of 100 ) and the upper bracket 400 , and there may be a situation in which the guide pipe 100 cannot be accurately fixed to the upper bracket 400 .

[Pipe guide (200)]

As shown in FIGS. 5 and 6 , the pipe guide 200 of the present invention is fixedly coupled to the guide pipe 100 and has a shape protruding toward the door (D).

The fixed coupling consists of welding the pipe guide 200 to the guide pipe 100 . However, it is not necessarily limited to welding, and an equivalent range of means such as riveting and bolting may be used.

In addition, in FIG. 5 , the pipe guide 200 is fixedly coupled to the lower side of the guide pipe 100 at one place, and in FIG. 6 , the pipe guide 200 is installed at two places above and below the guide pipe 100 . It is fixedly coupled, but is not necessarily limited to one or two places, and may be fixedly coupled by dividing into three or more places.

In addition, in a state in which the pipe guide 200 is fixedly coupled to the guide pipe 100 , the distance between the surface of the door D and the surface of the pipe guide 200 has a gap of several millimeters to several tens of millimeters. It is preferable to make it If the gap is too large, the functions of the guide pipe 100 and the pipe guide 200 supporting the door D may be lost. If the gap is too small, the work in installing the door support 1 may be Because it can get complicated.

In addition, as shown in FIGS. 5 and 6 , the width of the pipe guide 200 is not particularly limited, but is preferably equal to or smaller than the width of the guide pipe 100 .

[Base Bracket (300)]

As shown in FIGS. 5 and 6 , the base bracket 300 of the present invention is fixedly coupled to the bottom end surface of the guide pipe 100 and has a planar shape in close contact with the bottom surface (B). . However, it is not necessarily limited to a flat shape, and may vary depending on the shape of the bottom surface (B). However, in the case of an auxiliary facility building of a power plant, since the floor surface on which the door D is installed is usually made of a flat surface, it is preferable that the base bracket 300 also have a flat shape.

The fixed coupling consists of welding the base bracket 300 to the bottom end surface of the guide pipe 100 . However, it is not necessarily limited to welding, and an equivalent range of means such as riveting and bolting can be used.

In addition, in FIGS. 5 and 6 , two base fastening holes 301 are installed in the base bracket 300 , and a base fastening member 302 (not shown) is inserted into the base fastening hole 301 , and the base bracket (300) is shown to be fastened to the bottom surface (B). However, if the means for fixing the base bracket 300 to the bottom surface B is not limited to only the two base fastening holes 301 as described above, it is possible to substitute means equivalent to the means.

In this case, the base fastening member 302 (not shown) is preferably installed and removable so that the door support 1 can be easily installed or released on the inner or outer surface of the door D.

[Upper bracket (400)]

The upper bracket 400 of the present invention may be installed on the upper wall surface US of the door D as shown in FIG. 5 (first embodiment), and as shown in FIG. 6 , the door D ) may be installed on the upper ceiling surface UC (second embodiment).

As shown in FIG. 5 , the upper bracket 400 installed on the upper wall surface US of the door D functions to fix the guide pipe 100 while supporting the upper wall surface US side. , two L-shaped wall fixing brackets 410 fixed to the upper wall surface US are used.

One side of the two L-shaped wall fixing brackets 410 is a surface fixed to the upper wall surface US, and as shown in FIG. 5 , is a wall surface fixing part 411, and the wall fixing part 411 ), the upper and lower two wall fastening holes 4111 are formed. However, if the wall fastening hole 4111 is a means for fixing to the upper wall surface U-S, it is not limited to only the two wall fastening holes 4111 as described above, and it is possible to substitute means equivalent to the means. In addition, a wall fastening member 4112 (not shown) is sandwiched in the wall fastening hole 4111 to fix the wall fixing bracket 410 to the upper wall surface U-S.

The guide pipe fastening hole 4121 is for supporting and fixing the guide pipe 100 to the wall fixing bracket 410 fixed to the upper wall surface US, and the long hole-shaped upper bracket fastening hole 150 described above. After aligning the holes of the guide pipe fastening hole 4121 to correspond to It is supported and fixed to the wall fixing bracket 410 . In this case, it is preferable that the guide pipe fastening member 460 (not shown) be disassembled and assembled such as bolts and nuts.

In addition, as shown in FIG. 6 , the upper bracket 400 installed on the upper ceiling surface UC of the door D supports and fixes the upper ceiling surface UC side of the guide pipe 100 . By doing so, two L-shaped ceiling surface fixing brackets 420 fixed to the upper ceiling surface UC are used.

One side of the two L-shaped ceiling surface fixing brackets 420 is a surface fixed to the upper ceiling surface UC, and as shown in FIG. 6 , is a ceiling surface fixing part 421, and the ceiling surface In the fixing part 421, two ceiling surface fastening holes 4211 are formed in the longitudinal direction. However, if the ceiling surface fastening hole 4211 is a means for fixing to the upper ceiling surface (UC), it is not limited to only the two ceiling surface fastening holes 4211 as described above. possible. In addition, the ceiling surface fastening member 4212 (not shown) is inserted into the ceiling surface fastening hole 4211 to fix the ceiling surface fixing bracket 420 to the upper ceiling surface U-C.

In addition, the other side of the two ceiling surface fixing brackets 420 of the L-shape is a surface for supporting and fixing the guide pipe 100, and, as shown in FIG. 6, a ceiling surface pipe support part 422, A guide pipe fastening hole 4221 is formed to correspond to the upper bracket fastening hole 150 described above.

The guide pipe fastening hole 4221 is for supporting and fixing the guide pipe 100 to the ceiling surface fixing bracket 420 fixed to the upper ceiling surface UC, and the above-described long hole-shaped upper bracket fastening hole ( After aligning the holes of the guide pipe fastening hole 4221 to correspond to 150), the guide pipe 100 is fastened to the ceiling surface fixing bracket 420 with a guide pipe fastening member 460 (not shown), and the guide pipe ( 100) is supported and fixed to the ceiling surface fixing bracket 420 . At this time, it is preferable that the guide pipe fastening member 460 is capable of disassembly and assembly such as bolts and nuts.

Hereinafter, a process of installing the door support 1 having the above configuration on the inner or outer surface of the door D of the auxiliary facility building of the power plant will be described while looking at the drawings.

First, the guide pipe 100 is prepared. 5 and 6, the guide pipe 100 has a length longer than the height of the door (D) and shorter than the length from the floor surface (B) where the door is installed to the upper ceiling surface (UC). prepare something In addition, a long hole-shaped upper bracket fastening hole 150 is formed in the upper left and right sides of the upper one side of the guide pipe 100 .

In addition, the pipe guide 200 is prepared. 5 and 6, the pipe guide 200 is fixedly coupled to the guide pipe 100, and the width of the pipe guide 200 is not particularly limited, but the guide pipe 100 It is preferable to make it equal to or smaller than the width of . In addition, the depth of the pipe guide 200, when the pipe guide 200 is fixed to the guide pipe 100, the gap between the surface of the door (D) and the pipe guide 200 to maintain several mm ~ tens of mm Prepare the pipe guide 200 so as to have a distance that can be.

In addition, the base bracket 300 is prepared. As shown in FIGS. 5 and 6 , the base bracket 300 is to be fixedly coupled to the bottom end surface of the guide pipe 100 , and has a planar shape, and a base fastening hole 301 is formed. do.

In addition, the upper bracket 400 is prepared. 5 and 6, the L-shaped wall fixing bracket 410 installed on the upper wall surface US of the door D or the L-shaped shape installed on the upper ceiling surface UC of the door D of the ceiling surface fixing bracket 420 is prepared. The wall fixing bracket 410 is, as shown in FIG. 5 , the wall support part 411 has upper and lower wall surface fastening holes 4111 , and the wall guide support part 412 has a guide pipe fastening hole 4121 . to form In addition, the ceiling surface fixing bracket 420, as shown in FIG. 6, the ceiling surface support part 421, the ceiling surface fastening hole 4211 is formed in the longitudinal direction, the ceiling surface guide support part 422 has a guide pipe A fastening hole 4221 is formed.

As described above, in the state in which the guide pipe 100 , the pipe guide 200 , the base bracket 300 and the upper bracket 400 are prepared, the present invention is applied to the inner or outer surface of the door of the auxiliary facility building of the power plant. The process of installing the door support 1 is as follows.

First, the pipe guide 200 and the base bracket 300 are welded and fixed to the guide pipe 100 .

In addition, the upper bracket 400 is fixedly fastened to the upper wall surface (U-S) or the upper ceiling surface (U-C). At this time, when the upper bracket 400 is used as the wall fixing bracket 410 , it is fixedly installed by fastening the wall fastening member 4112 (not shown) to the wall fastening hole 4111 . In addition, when the upper bracket 400 is used as the ceiling surface fixing bracket 420 , it is fixedly installed by fastening the ceiling surface fastening member 4212 (not shown) to the ceiling surface fastening hole 4211 .

Next, the guide pipe 100 to which the pipe guide 200 and the base bracket 300 are welded and fixed is moved to a required position on the inner surface or the outer surface of the door (D) of the auxiliary facility building of the power plant, and the guide pipe Insert the upper side of (100) to be supported by the upper bracket (400).

Next, by fastening the base fastening member 302 (not shown) to the base fastening hole 301 of the base bracket 300 , the base bracket 300 is fastened and fixed to the bottom surface (B).

When the guide pipe 100 to which the base bracket 300 and the pipe guide 200 are welded is fastened and fixed to the bottom surface B with a base fastening member 302 (not shown), the upper side of the guide pipe 100 is It is sandwiched between the two upper brackets 400 .

Next, when the upper side of the guide pipe 100 is fitted between the two upper brackets 400 , the fixing bracket 400 is inserted into the upper bracket fastening hole 150 having a long hole shape in the guide pipe 100 . By fastening the fixing bracket 400 and the guide pipe 100 with the guide pipe fastening member 460 (not shown) in a state where the guide pipe fastening holes 4121 and 4221 formed in the corresponding state, the door support 1 is connected to the door. It is installed on one side of (D).

In the embodiment of the present invention, it is shown that the door support 1 is installed one by one in the direction opposite to the direction in which the door D is opened, but the door support 1 may be installed only in the direction in which the door D is opened. , regardless of the opening direction of the door (D) may be installed on both sides.

As described above, the present invention has been described with reference to specific examples and drawings, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above-described embodiments, and it is common in the field to which the present invention pertains. Various modifications and variations are possible from these descriptions by those with the knowledge of

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims to be described later, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

1: door support
D: door
LD : Left door
LD-1 : Left door support
RD : right door
RD-1 : Right door support
100: guide pipe
150: upper bracket fastening hole
200: pipe guide
300: base bracket
B: bottom
301: base fastening hole
302: base fastening member (not shown)
400: upper bracket
U: upper side
US : upper wall
410: wall fixing bracket
411: wall support
4111: wall fastener
4112: wall fastening member (not shown)
412: wall guide support
4121: guide pipe fastener
UC : upper ceiling
420: ceiling surface fixing bracket
421: ceiling surface support
4211: ceiling surface fastener
4212: ceiling surface fastening member (not shown)
422: ceiling surface guide support
4221: guide pipe fastener
460: guide pipe fastening member (not shown)

Claims (7)

In the door support installed inside and outside the door (D) of the auxiliary facility building of the power plant,
a guide pipe 100 for supporting the inner surface of the door D in the opposite direction to the opening direction of the left door LD up and down; a base bracket 300 supporting the guide pipe 100 on the floor surface (B) of the building; and a left door support (LD-1) comprising an upper bracket (400) supporting the guide pipe (100) on the upper side (U) of the building;
a guide pipe 100 for vertically supporting the outer surface of the door D in the opposite direction to the opening direction of the right door RD; a base bracket 300 supporting the guide pipe 100 on the floor surface (B) of the building; and a right door support (RD-1) comprising an upper bracket (400) supporting the guide pipe (100) on the upper side (U) of the building,
A door support, characterized in that a pipe guide 200 fixedly coupled to the guide pipe 100 is installed between the guide pipe 100 and the door (D).
delete According to claim 1,
The base bracket 300,
It is fixedly coupled to the bottom end surface of the guide pipe 100,
A door support, characterized in that it has a flat shape in close contact with the bottom surface (B).
According to claim 1,
The upper side surface (U) is the upper wall surface (US) of the door (D),
The upper bracket 400 is made of an L-shaped wall fixing bracket 410,
One side of the wall fixing bracket 410 forms a wall fastening hole 4111 as a wall fixing part 411, and the other side forms a guide pipe fastening hole 4121 as a wall pipe supporting part 412,
A wall fastening member (4112, not shown) is inserted into the wall fastening hole 4111 to fix the wall fixing bracket 410 to the wall,
A guide wall fastening member 4112 (not shown) is inserted into the guide pipe fastening hole 4121 so that the guide wall fastening member 4112 (not shown) communicates with the upper bracket fastening hole 150 of the guide pipe 100 . to fix the pipe pipe 100 to the wall fixing bracket 410, the door support.
According to claim 1,
The upper surface (U) is the upper ceiling surface (UC) of the door (D),
The upper bracket 400 is made of an L-shaped ceiling surface fixing bracket 420,
One side of the ceiling surface fixing bracket 420 forms a ceiling surface fastening hole 4211 as a ceiling surface fixing part 421, and the other side of the ceiling surface fixing bracket 420 forms a guide pipe fastening hole 4221 with a ceiling surface pipe support part 422. to form,
A ceiling surface fastening member (4212, not shown) is inserted into the ceiling surface fastening hole 4211 to fix the ceiling surface fixing bracket 420 to the ceiling surface,
A guide ceiling surface fastening member 4222 (not shown) is inserted into the guide pipe fastening hole 4221 so that the guide ceiling face fastening member 4222 (not shown) is connected to the upper bracket fastening hole 150 of the guide pipe 100 and Door support, characterized in that the pipe pipe 100 is fixed to the ceiling surface fixing bracket 420 so as to communicate.
4. The method of claim 3,
The base bracket 300,
The base fastening hole 301 is installed,
A door support, characterized in that by inserting a base fastening member 302 (not shown) into the base fastening hole 301 to fasten and fix the base bracket 300 to the bottom surface (B).
delete

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