KR102114434B1 - Canopy Structure for Subway Building And The constrcution Method thereof - Google Patents

Abstract

The present invention relates to a canopy structure and a construction method thereof, which can be preferably employed in an entrance from the ground to the underground, such as subway stations. The present invention is a canopy construction method of installing a canopy for a subway station where an entrance is installed in the basement, a connection passage connecting the doorway to the ground or a road is provided, and underground beams are installed on both sides of the connection passage. In, the step of installing the lower structure on the upper side of the support beam using a fixing means, the step of installing the upper structure on the upper side of the lower structure using a fastening means, and the upper side of the upper structure using a binding means And including the steps to install the cover. The upper structure is composed of a first lower plate and a pillar and a frame which are integrally coupled, and the upper structure installation step uses the fastening means in a state in which the upper structure is lifted using a crane to use the first lower plate. Characterized in that it is executed through a method of fastening to the upper side of the lower structure.

Description

Canopy structure for subway station and its construction method

The present invention relates to a canopy installed on an entrance of a building or a connection passage to cover an upper side of an entrance, and in particular, a canopy structure and its construction that can be suitably employed at an entrance from underground to underground, such as subway stations, etc. It's about how.

In general, a canopy is a cover that is supported by a column or suspended. Such a canopy is mainly installed to protect a certain space from rain or the like, such as a door or a window, a boundary between the interior and exterior of a building, or a bus stop, a bicycle rack, or a parking space. In particular, in the space part where the entrance is connected from the ground to the basement, such as subway station, inevitably, a canopy that can cover the upper side of the entrance is covered in case of rain.

Republic of Korea registered utility model 20-0469350 (name: canopy for outside entrance to the subway), patent publication No. 10-2011-0115892 (name: subway station canopy) and registered patent 10-0938982 (name: automatic folding canopy device) Disclosed is a canopy structure applicable to history.

As described above, in general, the canopy has a structure in which a cover or a roof is installed on the upper side of the pillar. When constructing a canopy at a subway station's doorway, first install a pillar around the outside of the doorway, assemble and install the frame over the column, and then install a roof or cover made of a transparent or translucent material such as tempered glass on the upper side of the frame. To complete. At this time, the frame is composed of a plurality of frame members, and these frame members are assembled and assembled through fastening means such as bolts and nuts between pillars or each other in the field. In addition, the weights of these frame members and the lids are heavy, usually ranging from several tons to tens of tons. Therefore, in the case of installing the frame on the pillar, the frame members are sequentially lifted with a crane, or in a suspended state, they are constructed by a method of assembling them to the pillar or step by step with a fastening means such as a bolt or nut. do. This construction takes a lot of time and manpower, ranging from days to dozens of days.

In general, subway stations are installed in India facing the road, and especially, there are many vehicles and users moving around the subway stations, so they usually show high congestion. In addition, the construction of the canopy requires a variety of facilities and a large number of people, including cranes. Therefore, when installing the canopy, it is necessary to limit the passage of roads and sidewalks adjacent to subway stations. This restriction of traffic increases the congestion around history, greatly increasing the inconvenience of users.

The present invention has been created in view of the above circumstances, and has a technical purpose to provide a canopy structure for subway stations and a construction method thereof, which greatly simplifies the construction of the canopy and minimizes the construction time.

The canopy structure for subway stations according to the first aspect of the present invention for realizing the above object is provided with an entrance in the basement, and a connection passage is provided between the entrance and the sidewalk or road on the ground, and on both sides of the connection passage. In the canopy structure installed in the subway station where the underground beam is installed, the lower structure fixedly installed on the upper side of the underground beam, the upper structure installed on the upper side of the lower structure through a fastening member, and the binding member through the It comprises a cover that is installed on the upper side of the superstructure. The lower structure is composed of a first lower plate and an upper plate and a supporting member that are integrally coupled, and the first lower plate is provided with a plurality of first fastening holes for fixing the lower structure to the upper side of the support beam. And, the upper plate is provided with a plurality of second fastening holes for coupling with the second lower plate of the upper structure, the upper structure is a second lower plate, a pillar integrally coupled to the upper side of the second lower plate and , It is integrally coupled to the upper side of the pillar and is provided with a frame on which the cover is seated, and the second lower plate is provided with a plurality of third fastening holes corresponding to the second fastening holes of the upper plate. It is characterized by.

In addition, one or more reinforcing beams are installed on the lower side of the underground beam corresponding to the installation position of the lower structure.

In addition, the first lower plate and the upper plate and the support member of the lower structure is characterized in that integrally coupled by welding.

In addition, the second lower plate, the pillar and the frame of the superstructure are characterized in that they are integrally joined by welding.

In the canopy construction method for subway stations according to the second aspect of the present invention, an entrance is installed in the basement, a connection passage is provided between the entrance and a road or a road on the ground, and underground beams are installed on both sides of the connection passage. In a canopy construction method of installing a canopy for subway stations, the step of installing a lower structure on the upper side of the underground beam using a fixing means, and the step of installing a superstructure on the upper side of the lower structure using fastening means And, it comprises a step of installing a cover on the upper side of the upper structure by using a binding means. The upper structure is composed of a first lower plate and a pillar and a frame which are integrally coupled, and the upper structure installation step uses the fastening means in a state in which the upper structure is lifted using a crane to use the first lower plate. Characterized in that it is executed through a method of fastening to the upper side of the lower structure.

In addition, the lower structure has a second lower plate and an upper plate and a support member that are integrally coupled, and the lower structure installation step is performed through a method of fixing the second lower plate to the upper side of the underground beam using fixing means. It is characterized by.

In addition, prior to the canopy construction, it characterized in that it comprises a step of installing one or more reinforcing beams on the lower side of the underground beam corresponding to the position where the substructure is installed.

In addition, after the canopy construction is completed, it characterized in that it further comprises the step of finishing the lower portion of the support beam and the upper structure with a finishing material.

According to the present invention having the above-described configuration, the production of the canopy is made in a separate factory, and the canopy installation is completed only by simple installation work in the field. Therefore, the canopy construction can be executed for a short time within a few hours, and the manpower for canopy construction is minimized.

1 is a cross-sectional view showing the overall cross-sectional structure when the canopy according to the present invention is installed in a subway station,
Figure 2 is a perspective view showing only the canopy structure from Figure 1,
Figure 3 is an exploded perspective view of the canopy structure shown in Figure 2;
4 is an enlarged perspective view showing the external shape of the canopy undercarriage 10.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. However, the embodiments described below exemplarily illustrate one preferred embodiment of the present invention, and the examples of these embodiments are not intended to limit the scope of the present invention. The present invention can be carried out by various modifications within a range not departing from the technical spirit. For example, in the following embodiments, the present invention applies the present invention to an entrance or connection passage connecting an underground space and the ground when the subway station or underground shopping mall is installed in an underground space. This will be described as an example. However, the scope of the present invention is not limited by these special spatial limitations. The present invention can be carried out by applying the same way to an entrance or connection passage connecting an internal space and an external space in a building installed on the ground. In addition, the present invention can be implemented by applying the same method to a place or facility where an upper cover is required, such as a bicycle parking lot or a vehicle parking space.

1 is a cross-sectional view showing the overall cross-sectional structure when the canopy according to the present invention is installed in a subway station, FIG. 2 is a perspective view showing only the canopy structure from FIG. 1, and FIG. 3 is an exploded perspective view of the canopy structure shown in FIG. to be.

In FIG. 1, reference numeral 1 denotes an underground structure installed in an underground space, for example, an entrance to a subway station or an underground shopping mall, and 2 is a stairway connecting the doorway 1 and a sidewalk or road. The staircase 2 is provided as a means of a connecting passageway to the doorway 1. Stair railings 3 are usually installed on both sides of the connecting staircase 2, and an underground beam 5 made of a concrete structure is installed on the upper sides of both side walls 4. And a canopy is installed on the upper side of the jijungbo (5).

As shown in the figure, the canopy structure has a lower structure 10 and a superstructure 20 and a cover 30. The lower structure 10 is fixedly installed on the upper side of the support beam 5, and the upper structure 20 is fastened to the upper side of the lower structure 10 by fastening members such as bolts and nuts. The cover 30 is preferably made of a transparent or translucent material such as tempered glass in consideration of the light effect. The cover 30 is installed on the upper side of the superstructure 20 through a binding member 31 such as a spider. The canopy will have a weight of several tons to tens of tons as a whole. Therefore, in consideration of the overall load of the canopy, the reinforcement beam 40 is selectively installed below the support beam 5 corresponding to the lower structure 10. Although not specifically shown in the drawings, the reinforcing beam 40 is fixedly installed through fixing means such as anchor bolts, for example, between the upper side of the stairs 2 and the lower side of the support beam 5. And when the installation of the canopy is completed, the side wall 4 and the upper structure 20 of the canopy are entirely wrapped, and a finishing material 6 such as marble or tile is installed.

4 is an enlarged perspective view showing the external shape of the canopy undercarriage 10. The lower structure 10 includes a lower plate 11, an upper plate 12 and a supporting member 13. The lower plate 11 is bent in an'A' shape so as to be in close contact with the upper surface and the side surface of the underground beam 5, as can be understood from FIG. 2, and a plurality of fastening holes 111 are formed. When the lower structure 10 is installed on the underground beam 5, fixing means such as anchor bolts are inserted into the fastening hole 111. The upper plate 12 is fixedly coupled to the upper side of the lower plate 11 through the support member 13. Preferably, the lower plate 11, the upper plate 12 and the support member 13 are integrally formed, for example, by welding. The upper structure 20 is fastened to the upper side of the top plate 12. Preferably, the support member 13 is configured in a lattice shape to sufficiently support the load of the upper structure 20. In addition, a plurality of fastening holes 121 are formed on the upper plate 12 so that the upper structure 20 can be coupled through fastening means such as bolts and nuts.

The upper structure 20 includes a lower plate 21, a pillar 22, and a frame 23. The lower plate 21 is for fastening the present upper structure 20 to the lower structure 10. The lower plate 21 is preferably formed in the same size and shape as the upper plate 12 of the lower structure 10, and provided with a fastening hole 211 at a position corresponding to the fastening hole 121 of the upper plate 12 do. The upper plate 12 of the lower structure 10 and the lower plate 21 of the upper structure are fastened through these fastening holes 121 and 211. In addition, in the present embodiment, the upper plate 12 and the lower plate 21 are configured in a rectangular or square plate shape, but the shape is not limited to a specific one. For example, the upper plate 12 and the lower plate 21 may be formed in a curved shape such as a concave-convex surface in order to increase the bonding area thereof.

The pillar 22 is for supporting the frame 23 above a certain height. In this embodiment, the pillars 22 are shown as being installed two by one, respectively, on the underground beam 5, but the shape, number and location of the pillars 22 are not limited to a specific one. However, if the number or position of the pillars 22 is changed, the number and position of the lower structures 20 will also be changed correspondingly. In addition, the installation position and number of the reinforcing beam 40 will be changed according to the change in the installation position of the lower structure 20.

The frame 23 is for stably supporting the cover 30. The frame 23 is fixedly coupled to the pillar 22 and a reinforcement frame connecting the steps 2, that is, the side frame 231 extending in the longitudinal direction along the connection passage, and the side frame 231. 232) is made of a rectangular shape with an open central portion as a whole. The shape and structure of the frame 23 are not limited to a specific one, and any structure capable of stably supporting the lid 30 can be preferably employed. The lower plate 21 and the pillar 22 and the frame 23 are integrally coupled through a bonding method such as welding. And the cover 30 is installed on the upper side of the frame 23 through the binding member 31 as described above.

Next, a construction method of the canopy having the above structure will be described.

In the conventional method, a series of operations for erecting and installing the pillars 22 on the upper side of the underground beam 5 and assembling and installing the frame 23 on the upper side of the pillars 5 are performed in the field. Therefore, the work time in the field is very long and a lot of manpower is required for the installation work. In the present invention, the manufacturing work for the lower structure 10 and the upper structure 20 and the cover 30 are all performed in a separate factory. And in the subway station where the canopy should be installed, the installation work of the reinforcement beam 40 for the underground beam 5 is performed prior to the installation work of the canopy as needed. Since the installation of the reinforcement beam 40 is made through the inner side wall 4 of the subway stairs 2, it does not significantly affect the roads around the subway station or the passage of sidewalks.

When the reinforcement work for the underground beam 5 is completed, the installation work for the canopy is performed. The canopy installation work is carried out using a crane. First, the operator installs the substructure 10 with respect to the underground beam 6. As described above, the installation of the substructure 10 places the substructure 10 in an appropriate position above the support beam 5, that is, in a position to place the pillar 22 of the superstructure 20, and the substructure ( 10) through the fastening hole 111 formed in the lower plate 11, for example, through the method of fixing the anchor bolt to the support beam (5).

When the installation of the lower structure 10 is completed, the upper structure 20 is lifted using a crane, and then the lower plate 21 of the upper structure 20 is lowered by using fastening means such as bolts and nuts. The installation of the superstructure 20 on the underground beam 5 is completed only by a simple operation of fastening to the top plate 12 of (10).

And finally, by installing the cover 30 on the upper side of the frame 23 of the superstructure 20 and executing the operation of fixing the cover 30 to the frame 23 with the binding member 31, the canopy for the subway entrance is installed. Will complete.

The embodiments of the present invention have been described above. In the present invention, the production of the canopy is made in a separate factory, and in the field, the canopy installation is completed only by a simple installation construction. Therefore, the canopy construction can be executed for a short time within a few hours, and the manpower for canopy construction is minimized.

In addition, in the conventional canopy, since the structure and construction method, all canopy assembly work is performed in the field, the fastening of the pillars and the frame is performed through fastening means such as bolts. Therefore, there is a problem that the safety of the canopy structure is lowered depending on the fastening strength of the fastening means. However, in the present invention, since most of the canopy manufacturing process is performed in a separate factory, the manufacturing precision of the canopy can be increased, and a more stable manufacturing method such as welding can be employed.

In addition, the present invention is able to execute the canopy manufacturing process through a variety of methods in a stable place, thereby improving the aesthetics of the external shape of the canopy.

5: underground beam, 10: substructure,
20: superstructure, 30: cover,
49: Reinforcement beam.

Claims (8)

In the canopy structure for the subway station is installed in the basement, and is installed in a connecting passage connecting the doorway and the roadway or road,
Side walls are installed on both sides of the connection passage, and underground beams made of a concrete structure are installed on the upper sides of the side walls,
A lower structure fixedly installed on the upper side of the support beam through a fixing member,
A second lower plate, a pillar provided on an upper side of the second lower plate, and a frame provided on an upper side of the pillar and seated on the upper side thereof, wherein the second lower plate, the pillar and the frame are integrally combined. In addition, the upper structure is installed on the upper side of the lower structure through a fastening member in a state that the second lower plate and the pillar and the frame are integrally coupled, and
It comprises a cover installed on the upper side of the upper structure through the binding member,
The lower structure is composed of a first lower plate and an upper plate and a supporting member formed integrally,
The first lower plate is provided with a plurality of first fastening holes for fixing the lower structure to the upper side of the support beam using a fixing member,
The upper plate has a plurality of second fastening holes for coupling with the second lower plate of the upper structure,
A plurality of third fastening holes are installed in the second lower plate corresponding to the second fastening holes of the upper plate, so that a canopy structure for subway stations is provided. According to claim 1,
The canopy structure for subway stations, characterized in that at least one reinforcing beam is installed in correspondence to the installation position of the lower structure on the lower side of the underground beam. According to claim 1,
The canopy structure for subway stations, characterized in that the first lower plate, the upper plate, and the supporting member of the lower structure are integrally joined by welding. According to claim 1,
The second lower plate, the pillar and the frame of the superstructure are integrally formed by welding, a canopy structure for subway stations. Pillars for subway stations where underground entrances are installed, connection passages connecting the entrances to the ground or roads are provided, and sidewalls are installed on both sides of the connection passages, and underground beams are installed on the upper side of the sidewalls. In the canopy construction method of installing a canopy comprising a cover and,
The step of installing one or more reinforcing beams on the lower side of the underground beam corresponding to the position where the substructure is installed,
Forming a superstructure by integrally combining the first lower plate and the pillar and the cover,
Installing a lower structure for fastening the upper structure to the upper side of the support beam using a fixing means;
Installing an upper structure on the upper side of the lower structure using a fastening means, and
It comprises a step of installing a cover on the upper side of the upper structure using a binding means,
The step of installing the upper structure is carried out through a method of fastening the first lower plate to the upper side of the lower structure using a fastening means in a state where the upper structure is lifted using a crane. The method of claim 5,
The lower structure is provided with a second lower plate and an upper plate and a support member integrally formed, and the lower structure installation step is performed through a method of fixing the second lower plate to the upper side of the underground beam using fixing means. A method of constructing a canopy for subway stations characterized by its characteristics. delete The method of claim 5,
After the canopy construction is completed, the construction method of the subway station canopy, characterized in that it further comprises the step of finishing the lower portion of the upper structure and the upper structure with a finishing material.

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