KR101309564B1 - Evacuation ladders of installation structure - Google Patents

Abstract

PURPOSE: A structure for installing a ladder for evacuation is provided to install the ladder regardless of the weight of the ladder, and to quickly and precisely install the ladder with adjusting the height of the ladder. CONSTITUTION: A structure for installing a ladder (1) for evacuation includes a fixing part (10) and a bracket (20). The fixing part has an anchor bolt (11) and a fixing bolt (15). The protrusive anchor bolt is buried in a concrete layer, and the fixing bolt is installed on the ladder. The bracket has at least one fixing groove (21) and adjusting groove (22), and the fixing groove and the adjusting groove respectively mesh with the anchor bolt and the fixing bolt. The adjusting groove is longitudinally formed so that the height of the ladder is adjusted, and has at least one reinforcing piece.

Description

Evacuation ladders of installation structure

The present invention relates to a structure for installing the evacuation ladder in a horizontal state on the concrete layer, more specifically, to form a structure to improve the durability of the bracket to guide the installation of the evacuation ladder on the concrete layer, regardless of the weight of the evacuation ladder The installation structure of the evacuation ladder has the compatibility that can be installed without installing, and in particular, the height can be adjusted so that the evacuation ladder is installed horizontally on the concrete layer having various heights, which enables faster, safer and more precise installation.

The development of industry and the increase of population have led to the emergence of many high-rise buildings in residential culture. If a fire or other emergency situation occurs in such a high-rise building, it is necessary to evacuate through the emergency stairway. This emergency stairway is a passage of flames in case of fire, and thus it is difficult to evacuate, causing many casualties. For this purpose, the law stipulates that mandatory buildings must be provided for escaping in case of disaster.

Conventionally, as a means of emergency escape, a steel bar descending along the outer wall of a building depending on a wire rope is widely used. However, these stumbling blocks are extremely difficult and dangerous for the general public to use, and they are rarely used because of their slow escape speed. Therefore, as a means of escape from a disaster such as a fire in a high-rise apartment or high-rise building, it still depends on a fire ladder or a rescue helicopter. However, the high-rise ladder for firefighting has a limit on the height does not develop more than a certain height, the rescue helicopter had a problem of poor accessibility. Therefore, in order to solve these problems, recently, a floor-mounted (landfill) emergency escape means, that is, a floor-mounted evacuation ladder device, is provided to provide an evacuation route so as to evacuate from the fire floor to the lower floor.

As is well known, floor-mounted evacuation ladder devices are commonly installed on a veranda (balcony), which must be embedded in a concrete layer that forms the floor to install an evacuation ladder device on the floor of this veranda. That is, at the same time as the floor surface construction and the concrete layer perforated to the standard that meets the evacuation ladder device to be installed. At this time, one or more brackets are integrally provided on the side of the evacuation ladder device for ease of construction and installation, and anchor bolts are embedded in the concrete layer so as to be engaged with each other. However, the actual position of the anchor bolt and the bracket is a misaligned state due to a predetermined error is the majority, and for this reason there is a problem that the time and manpower is wasted because the installer has to go through the correction and supplement process. Moreover, since it is impossible to construct the concrete floor completely horizontally, the installation process is difficult due to the imbalance of the evacuation ladder device from the concrete floor, and there is a problem that the safety is reduced even after construction.

For example, according to Korean Patent Laid-Open Publication No. 10-2012-0001447 "Installation method of a floor-embedded evacuation ladder", in installing an evacuation ladder on the floor surface of a multi-story building, (a) an evacuation ladder is installed on the floor Determining a selection position to be desired; (b) seating a mold frame having an opening formed in the selection position and having a stepped outline; (c) reinforcing the reinforcing bar on the bottom surface except for the part on which the mold frame is seated; (d) pouring concrete to the bottom surface to cure, and then removing the mold frame; (d) seating the hatch of the evacuation ladder in the opening formed upon removal of the mold frame; (e) The installation method of the floor-filled evacuation ladder, comprising the step of finishing the mortar in the space of the floor concrete and the evacuation ladder hatch.

However, according to the preceding document, after the foundation floor of the multi-storey building is installed, the evacuation ladder is mounted, and then the finishing treatment, thereby improving the workability as well as reducing the construction cost. However, there is a problem that it is difficult to practically apply to the site because the existing construction method to exclude the construction method to be constructed with a new construction method. Moreover, since the bottom surface must be constructed in a separate mold frame, there is a problem that these mold frames must be supplied separately. Therefore, it is necessary to install an evacuation ladder that can be installed quickly, safely and precisely while using existing construction methods.

Korean Laid-Open Patent Publication No. 10-2012-0001447 "Installation method of floor-embedded evacuation ladder"

Accordingly, the present invention is to fundamentally solve the conventional problems as described above, it is possible to install regardless of the weight of the evacuation ladder by forming a structure to improve the durability of the bracket to guide the evacuation ladder to be installed in the concrete layer The purpose of the present invention is to provide an installation structure of evacuation ladders that can be installed more quickly, safely and precisely since the height can be adjusted so that the evacuation ladders are installed horizontally on concrete layers having various heights.

In order to achieve the above object, the present invention provides a structure for installing an evacuation ladder in a horizontal state on a concrete layer: having an anchor bolt embedded to protrude to a predetermined length on the concrete layer, and an anchor bolt on the evacuation ladder. A fixing part having a fixing bolt at a position corresponding to the fixing bolt; And a bracket having one or more fixing grooves and adjusting grooves to which anchor bolts and fixing bolts are engaged, respectively, so that the evacuation ladder is installed in the concrete layer.

At this time, the bracket according to the present invention is characterized in that the adjustment groove is formed in the longitudinal direction to adjust the height to install the evacuation ladder in a horizontal state from the concrete layer, characterized in that it further comprises one or more reinforcing pieces to improve durability. .

In addition, the bracket according to the invention is characterized in that it further comprises a buffer plate which is inserted into the slide to absorb the shock while increasing the fixing force of the evacuation ladder from the concrete layer.

It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described in the above configuration and operation, the present invention has a compatibility that can be installed irrespective of the weight of the evacuation ladder by forming a bracket that induces the evacuation ladder in the concrete layer to improve the durability, in particular, various heights The height can be adjusted so that the evacuation ladder can be installed horizontally on the concrete floor with the effect of providing more rapid, safe and precise installation.

1 is a perspective view showing the installation process of the evacuation ladder according to the invention as a whole.
Figure 2 is a block diagram showing the bracket according to the invention from various angles.
3 is an enlarged view showing the main part of the installation process of the evacuation ladder according to the present invention.
Figure 4 is a block diagram showing a bracket according to an embodiment of the present invention.
5 is a cross-sectional view showing an installation state of the evacuation ladder according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a structure for installing the evacuation ladder (1) in the horizontal state in the concrete layer (C), and relates to the installation structure of the evacuation ladder, the main configuration of the fixing portion 10 and the bracket (20). The present invention is to maintain the construction method of the existing construction as it is, the main point is to enable more rapid, safe and precise installation of the evacuation ladder (1) in the concrete layer (C).

The fixing part 10 according to the present invention includes an anchor bolt 11 embedded to protrude to a predetermined length on the concrete layer C, and corresponds to the anchor bolt 11 on the evacuation ladder 1. Fixing bolt 15 is provided at the position. The fixing part 10 is a base member provided to install the evacuation ladder 1 on the concrete layer C as shown in FIG. 1, and includes an anchor bolt 11 and a fixing bolt 15, respectively.

The anchor bolt 11 is embedded integrally when constructing the concrete layer (C), the fixing bolt 15 is integrally welded to the side of the evacuation ladder (1). That is, it is preferable to bury the anchor bolt 11 in the concrete layer (C) so as to correspond to the position and the number of fixing bolts 15 welded to the side of the evacuation ladder (1).

In this case, the evacuation ladder (1) may be integrally welded to the side of the nut in addition to the fixing bolt (15) and may simply form only a hole on the frame. That is, since the fixing bolt 15 is integrally welded while manufacturing the evacuation ladder (1), there is a problem that can be bent or broken by an external impact in the process of transport. Nuts and holes, on the other hand, have little or no protruding length and therefore are unlikely to transmit an impact from the outside. However, since the nut and the hole must be provided with both bolts or ball nuts for connection with the bracket 20 to be described later, there is a problem in that the installation is difficult. In any case, those skilled in the art will adopt and form the most efficient configuration in consideration of manufacturability, transportability and installation.

In addition, the bracket 20 according to the present invention is adjusted with one or more fixing grooves 21 to which the anchor bolt 11 and the fixing bolt 15 are engaged with each other so as to install the evacuation ladder 1 as the concrete layer C. The groove 22 is provided. Bracket 20 is to guide the evacuation ladder (1) to be installed in the concrete layer (C), the fixing groove 21 and the adjusting groove in a position corresponding to the anchor bolt 11 and the fixing bolt 15 as shown in FIG. (22) is provided.

Bracket 20 is bent in a 'b' shape as shown in Figure 2, one side is mounted on the concrete layer (C) and the other side is mounted on the evacuation ladder (1). That is, one surface of the bracket 20 is provided with a fixing groove 21 to be engaged with the anchor bolt 11 embedded in the concrete layer (C), the other side is fixed bolt 15 welded to the evacuation ladder (1) It is provided with an adjusting groove 22 to be engaged with.

At this time, the bracket 20 according to the present invention is formed in the longitudinal direction to adjust the height so that the adjustment groove 22 is installed in the horizontal state of the evacuation ladder (1) from the concrete layer (C), to improve durability One or more reinforcing pieces 25 are further provided. Bracket 20 is to guide the evacuation ladder (1) to be installed in the concrete layer (C), as shown in Figure 2 has a reinforcing piece 25 on one side while forming the adjusting groove 22 in the longitudinal direction.

The adjusting groove 22 is fixed to the fixing bolt 15 welded to the evacuation ladder 1 to fix the evacuation ladder 1 horizontally from the concrete layer C so that the up and down flow is possible in the longitudinal direction. Form. In this case, the concrete layer (C) is impossible to be constructed in a substantially complete planar state, so the evacuation ladder 1 is unbalanced in up, down, left and right heights on a plane basis.

For example, when the evacuation ladder 1 is imbalanced from the concrete layer C, the aesthetic appearance deteriorates after completion of the construction, and the risk of accident is increased because the evacuation ladder 1 is not properly functioned at the time of evacuation. Therefore, the installer installs the evacuation ladder (1) to the horizontal level from the concrete layer (C) by using a separate piece of wood (processing) to fill the space in the concrete layer (C) and evacuation ladder (1) to maintain the level Had to go through.

As such, when the adjusting grooves 22 engaged with the fixing bolts 15 of the evacuation ladders 1 are formed in the longitudinal direction, as shown in FIG. 5, even if the heights of the upper and lower sides or the left and right sides of the concrete layer C are different from the adjusting grooves 22. The height and height of the evacuation ladder (1) can be adjusted freely, so that it is possible to install the horizontal state more quickly, safely and precisely without using a separate tree.

And the reinforcing piece 25 is to improve the durability to support and fix the evacuation ladder (1) from the concrete layer (C) as shown in Figure 2, one or more integrally provided in the bracket (20). In other words, although there is a comprehensive regulation on the function of the evacuation ladder (1) (the horizontal, the vertical, the height) and the ladder (wire type, folding type, chain type) which the person goes up and down, There is no provision for unfolding into structures. Therefore, the evacuation ladder (1) must have a variety of structures, so the weight is also bound to vary.

As such, when the reinforcing piece 25 is integrally formed to improve the overall durability of the bracket 20 supporting and fixing the evacuation ladder 1 from the concrete layer C, installation can be performed regardless of the weight due to various structures. It can be compatible. Although the bracket 20 is not separately indicated and referred to as shown in FIG. 2, if the overall bracket 20 is formed as a bent surface rather than a flat surface as shown in FIG. 2, the bracket 20 may have improved durability.

In addition, the bracket 20 according to the present invention further includes a buffer plate 30 that is inserted into the slide to absorb the impact while increasing the fixing force of the evacuation ladder (1) from the concrete layer (C). Bracket 20 is to guide the evacuation ladder (1) to be installed in the concrete layer (C), as shown in Figure 4 has a buffer plate 30 is inserted into each of the one and the other side.

The buffer plate 30 is formed of a resin material and has a slide groove to be inserted into the bracket 20. The buffer plate 30 prevents the one surface and the other surface of the bracket 20 from being exposed to the outside, and also absorbs the shock and vibration of the concrete layer C to prevent it from being transferred to the evacuation ladder 1. In addition, the buffer plate 30 also prevents loosening of the nut fastened to the anchor bolt 11 and the fixing bolt 15.

In the method for installing an evacuation ladder using FIGS. 1 and 5, first, a builder who constructs a building places a concrete layer C on the evacuation ladder 1 to be installed. Here, the anchor bolt 11 is buried at a position corresponding to the fixing bolt 15 provided on the side of the evacuation ladder 1 at the same time. When the construction of the concrete layer (C) of the building is completed, the installer first loosely tightens the nut with the fixing bolt 15 provided on the evacuation ladder 1 and the adjusting groove 22 of the bracket 20. Tighten. Subsequently, the fixing groove 21 and the concrete layer C of the bracket 20 are completely engaged with the nut in the state in which the anchor bolt 11 is engaged with the secondary bolt. Then, the installer checks whether the evacuation ladder (1) is in a horizontal state by using a horizontal ruler or a dimension ruler, and then tightens the nut, which is loosely fastened to the fixing bolt 15 and the adjusting groove 22, to completely tighten it. At this time, if the evacuation ladder (1) is in an unbalanced state from the concrete layer (C), the evacuation ladder (1) flows up and down to adjust the horizontal, and then tightly tighten the nut in the third installation is completed.

As described above, the present invention has a compatibility that can be installed irrespective of the weight of the evacuation ladder by forming a bracket that induces the evacuation ladder to be installed in the concrete layer to improve durability, in particular, evacuation to the concrete layer having various heights The height can be adjusted so that the ladder is installed in a horizontal state, so that the effect can be more quickly, safely and precisely installed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

1: Evacuation ladder 10: Fixed part
11: anchor bolt 15: fixed bolt
20: Bracket 21: Fixing groove
22: adjusting groove 25: reinforcing piece
30: buffer plate C: concrete layer

Claims (3)

In the structure of installing the evacuation ladder (1) in the horizontal state in the concrete layer (C):
An anchor bolt 11 is formed on the concrete layer C to protrude to a predetermined length, and a fixing bolt 15 is provided at a position corresponding to the anchor bolt 11 on the evacuation ladder 1. Fixing portion 10; And
Bracket 20 having one or more fixing grooves 21 and adjusting grooves 22 to which the anchor bolts 11 and the fixing bolts 15 are engaged with each other so as to install the evacuation ladder 1 as the concrete layer C. The installation structure of the evacuation ladder characterized by including; The method of claim 1,
The bracket 20 is formed in the longitudinal direction to adjust the height of the adjustment groove 22 to be installed in the horizontal position evacuation ladder (1) from the concrete layer (C), at least one reinforcing piece (25) An installation structure of an evacuation ladder, characterized by further comprising). The method of claim 1,
The bracket 20 is an installation structure of the evacuation ladder, characterized in that it further comprises a buffer plate 30 is inserted into the slide to absorb the shock while increasing the fixing force of the evacuation ladder (1) from the concrete layer (C).

Images