KR101992700B1 - Construction Method of Screw Type Sliding Equipment for Emergency escape - Google Patents

Abstract

The present invention relates to a method for constructing a spiral sliding frame for emergency escape, wherein the spiral sliding frame is constructed at one side surface of a building such that children and the elderly can rapidly and safely escape from a building in case of emergency situations such as a fire or disaster, comprising the steps of: (A) selecting an installation position of the sliding frame; (B) installing a fireproof door on a wall of the building at the installation position; (C) performing excavation for a set area on the ground at the installation position, distributing reinforcement steel and assembling an anchor, and then placing concrete; (D) assembling a main column, having a set length, by fastening a bolt to the anchor assembled by a foundation construction to vertically install the main column on the installation position; (E) coupling and assembling a column fixation band considering an interlayer height and a tilt angle for installing a slide at the main column; (F) coupling and assembling a slide support bracket on each column fixation band wherein the bracket has a seating support groove for supporting and seating the sliding frame; (G) seating and arranging the pipe shaped slide at each seating support groove of the slide support bracket and then performing a welding operation; (H) fixating a floor fixation support with a circular shape on the ground where the slide lands; (I) arranging a side column support pipe, positioned at an outer side of the slide and bent along the slide, at an outer side end of the slide support bracket and performing a welding operation; (J) arranging side columns in a radial structure to be spaced apart along the circular periphery of the floor fixation support; (K) bending and arranging a fall prevention handrail along the slide to be positioned at an upper side in the outer side direction of the slide; and (L) horizontally arranging a start floor plate at an outer side of the fireproof door and fixatedly coupling the start floor plate to the slide.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sliding type slide apparatus for emergency escape,

The present invention realizes an improved construction method in which a main pole is installed on one side of a building exterior and a slide and a fall prevention rail for sliding down are installed around the building. Thus, when an emergency such as a fire or a disaster occurs, The present invention relates to a helical slide construction method for emergency escape which is an evacuation and rescue system that allows a user to escape safely. More specifically, the present invention relates to a helical slide construction method, And to improve the safety of the slide. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a slide-

In general, high-rise buildings such as apartments, hotels, hospitals, schools, etc. are provided with emergency escape apparatuses for emergency escape when it is difficult to use stairs or elevators in case of emergency such as fire or disaster.

Conventional emergency escape apparatus installed in a typical building is typically used for a window or a veranda or the like, which is used when a building can not be evacuated through a normal access passage.

However, since the booster is a method in which a sling is to be attached to the body, a plurality of escapees exist in one space, and an escapee can use the booster after another escapee completes the escape, There is a problem that the escape of the remaining escapees is difficult to escape continuously and quickly.

On the other hand, buildings such as elderly nursing homes and general hospitals and schools are equipped with emergency escape slides to enable elderly people and children to escape safely and quickly in case of fire or disaster.

However, the conventional emergency escape slider has problems in that it is difficult to provide a main column having a certain length and a slope for sliding, and the installation work such as failing to provide a uniform supporting force, .

Prior art related to such a conventional emergency escape slider is disclosed in Korean Patent Laid-Open Publication No. 10-2013-0081613. In order to ensure the safety of an escapee escaping to a slide on a fire, an emergency escape with a helical structure having a fire extinguishing device on the ceiling Korean Patent Laid-Open Publication No. 10-2016-0128817 discloses a slider for preventing elderly people from escaping from a fire by installing a fire retardant plate in a railing without falling over a railing when the elderly person descends on a slide In the Korean Patent Registration No. 10-1863067, a nozzle of the cooling part is formed on the emergency escape space of the emergency escape unit, and the cooling water is sprayed when the person moves, Preventing the temperature of the emergency escape unit caused by fire from rising, It induces smooth sliding proposing and initiating the building emergency escape device so that the number of people to be evacuated in a short time.

Korean Patent Publication No. 10-2013-0081613 Korean Patent Publication No. 10-2016-0128817 Korean Registered Patent No. 10-1863067

The present invention has been made in view of the above problems and it is an object of the present invention to provide an improved method of installing a slider and a fall prevention rail for sliding down a main column on one side of an outside of a building A spiral slide for emergency escape which can be used as a evacuation and rescue system to escape quickly and safely out of buildings in the event of an emergency such as a fire or a disaster can be constructed. The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a helical slide construction method for emergency escape which can provide a durable construction and a safety for a helical slide.

The present invention makes it possible to provide a uniform supporting force for sliding on the side of a slide and to improve the fixability of the parts to be installed and minimize the flow such as shake prevention and the connection of the main column or the slide And it is an object of the present invention to provide a method of constructing a helical slide for emergency escape so as to increase the fixing stability and the coupling force while providing ease of operation.

According to another aspect of the present invention, there is provided a spiral slide construction method for emergency escape, comprising the steps of: (A) grasping a moving line capable of easily escaping from a building in the event of a fire or a disaster, Selecting an installation position of the slide in consideration of the installation position of the slide; (B) installing a fire door on the building wall at the installation location when the installation location of the slide is selected; (C) Basic construction step of constructing reinforced concrete reinforcement and anchor bolts with a certain area on the ground of the installation site and then pouring concrete; (D) vertically installing an anchor bolt assembled by foundation work by fastening and assembling a main column having a predetermined length to an installation position; (E) arranging spacers in the longitudinal direction of the vertically installed main columns by tightening and assembling the column fixing bands in consideration of the inter-layer height and the inclination angle for installing the slide on the main column; (F) tightening a slidable support bracket having a seating support groove for supporting the seat of the slide on each of the column fixing bands; (G) Each seat of the sliding support bracket. The slider of the tube is seated in the supporting groove, welded and fixedly coupled. The sliding member is bent and spirally slid down from the upper side to the lower side. To bring the landing portion of the slide into contact; (H) fixing the floor mount on a ground on which the slide is landed; (I) locating and welding the side post support pipe bending along the slide and the outside of the slide to be supported on the outer end of the slide support bracket; (J) placing the side pillars spaced apart in a radial pattern along the circumference of the floor fixing table, wherein the side pillars having a predetermined length are vertically installed on the floor fixing table and the side column supporting pipe side, (K) slidably disposed on the upper side of the slide so as to be positioned on the upper side of the slide; (L) Installed to receive support by using one of the slide supporting brackets which are installed on the outside of the fire door and fixed on the column fixing band and spaced on the main column. The method comprising the steps of:

Here, in the step (B), when an automatic door switch is interlocked with a fire-fighting receiver when a fire door is installed, the fire door can be opened automatically when a fire occurs so that a quick emergency escape can be realized.

Here, in the step (F), the bracket body having a predetermined length may include a base bracket having a bracket seating groove on an upper side of the edge, and fastening one end of the base bracket to the column fixing band. And a pair of side brackets extending vertically from both side ends of the bottom bracket so as to be inserted into the bracket seating grooves of the base bracket so as to be seated and disposed, To the base bracket side; And a support pipe bracket having a support groove for supporting the side post support pipe on an outer side surface of the support bracket so as to protrude in the outward direction by fastening and fixing to an outer end of the base bracket, And a seat support groove for seating and supporting the slide can be formed on the inner surfaces of the pair of side portions.

Here, in the step (G), a bottom slider for emergency escape sliding is fixedly installed by welding in a state in which the sliding member of the tubular body is seated on the fastening bracket side supporting seat. Fixing the side members by welding them in a state in which the sliding members of the tubular bodies are seated on the seating support grooves of the pair of side portions vertically arranged on the side of the fastening bracket; And a step of fixing the handle by welding a tubular body having a diameter larger than that of the slide to each upper surface of a pair of side portions vertically arranged on the side of the fastening bracket.

In this case, between the steps (G) and (H), when the interval between the slidable support brackets is wide and the support force of the slider against the bottom slider is required, the slidable support bracket And a step of supporting the bottom slider of the slide by fixing the bracket to the slide bracket. The slide bracket for supporting the slide includes a seating support groove for seating and supporting the bottom slider of the slide on an upper surface thereof And a rod-shaped body having a straight-formed structure formed thereon.

In step (L), a fire door is provided for each floor in order to allow escape by using a slide on each floor of the building, and a departure floor plate horizontally arranged for each fire door of each floor is installed And a structure for connecting to the slide so as to be able to enter.

In this case, when the main pillars are connected to each other according to the installation height of the main pillars, a first flange portion and a second flange portion, which match each other, are formed, The position fixing protrusion is formed in the first flange portion in a radial configuration for easy fitting and bolt fastening on the bolt fastening hole side and the position fixing recess portion is inserted and arranged in the second flange portion, So that it can be constructed so as to be firmly installed while enabling simple installation and quick installation work.

In this case, when the main pillars are connected to each other according to the installation height of the main pillars, a first flange portion and a second flange portion that match each other are formed on the mutually connecting ends of the main pillars arranged in the vertical direction A bolt fastening hole is formed at a position corresponding to each other and a protrusion is formed in the inner diameter of the first flange portion so as to be inserted and fixed in the inner diameter groove portion of the fourth flange portion.

In this case, in the case where a sliding pipe is used in connection with the installation height according to a building, a connecting pipe having an intermediate flange portion is inserted into the connecting end portion, and the connecting end portions of the intermediate flange portion and the sliding bar Welded to each other so as to have durability by the supporting force of the connecting pipe with respect to the connecting end of the slide.

Here, the slidable support bracket may be inclined upward toward the outer side in order to smoothly slide due to the centrifugal force action during emergency escape by the spiral installation of the slide.

Here, the base bracket of the slide support bracket, which is fastened to the column fastening band side, has a configuration in which the lower end portion is bent outward to form a bent protrusion of an angle structure, so that the slide fastening bracket is prevented from being shaken can do.

According to the present invention, it is possible to provide an evacuation and rescue system capable of quickly and safely escaping out of a building in the event of an emergency such as a fire or a disaster. In particular, It is possible to provide a useful effect for enhancing the safety of the slip-fitting system by providing more rigid installation and durability.

The present invention can provide a uniform supporting force on the sliding side for sliding, and can improve the fixability to the mounting parts, minimizing the flow such as swinging, and facilitating the connection work of the main column or the slide having the tubular structure But it is also possible to achieve the usefulness of increasing the connection fixability and bonding force.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a process flow diagram illustrating a method of constructing a helical slide for emergency escape according to the present invention.
FIG. 2 is a detailed process drawing showing a step of assembling a slide support bracket in a method of constructing a helical slide for emergency escape according to the present invention.
FIG. 3 is a detailed process drawing showing a step of installing a slide in a spiral slide construction method for emergency escape according to the present invention.
FIG. 4 is a schematic structural view for explaining a basic construction step in a helical slide construction method for emergency escape according to the present invention.
FIG. 5 is an installation view showing an emergency escape spiral slide constructed by a helical slide construction method for emergency escape according to the present invention.
6A is an exemplary view illustrating a connection structure to a main column in a method of constructing an emergency escape slide according to the present invention.
FIG. 6B is another exemplary view illustrating a connection structure to a main column in a method of constructing an emergency escape slide according to the present invention.
7 is a view for explaining a connection structure for a slide in a method of constructing an emergency escape slide according to the present invention.
FIG. 8 is a schematic view showing the construction of a slide structure for illustrating the installation and support structure of the slide in the emergency escape slide method according to the present invention.
FIG. 9 is a view showing a slide support bracket for installing and supporting the slide in the emergency escape slide method according to the present invention.
FIG. 10 is an exploded view showing the installation of the slide and the slide support bracket for supporting the slide in the method of constructing the slide for emergency escape according to the present invention.
11 is a view for explaining the installation of the slide and the slide auxiliary bracket for supporting the slide in the method of constructing the slide for emergency escape according to the present invention.
FIG. 12 is a plan view for explaining a starting true bottom plate in a method of constructing an emergency escape slide according to the present invention.
13 is a schematic structural view for explaining the installation structure of the starting true bottom plate in the emergency escape slide construction method according to the present invention.

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

The terms used in the present invention are defined in consideration of the functions of the present invention and may vary depending on the intention or custom of the user or the operator. Therefore, the definitions of these terms are meant to be in accordance with the technical aspects of the present invention As well as the other.

FIG. 1 is a process flow diagram illustrating a method of constructing a helical slide for emergency escape according to the present invention. FIG. 2 is a perspective view of a slidable support bracket assembly FIG. 3 is a detailed process diagram showing a slid installation step in a spiral slide construction method for emergency escape according to the present invention, and FIG. 4 is a detailed process diagram showing a slid installation step in an emergency escape spiral slide construction method according to the present invention. FIG. 5 is an installation state view showing a spiral slide for emergency escape constructed by the spiral slide construction method for emergency escape according to the present invention, and FIG. 6A is a view showing an installation state of the slide escape construction for emergency escape according to the present invention In order to illustrate the connection structure for the main column in the method FIG. 6B is another exemplary view for explaining a connection structure to a main column in the emergency escape slide method according to the present invention, and FIG. 7 is a view for explaining a method for constructing an emergency escape slide according to the present invention FIG. 8 is a schematic view showing the construction of the slider installation and support structure in the emergency escape slide method according to the present invention, and FIG. 9 is a cross- FIG. 10 is a perspective view showing a slider support bracket for installing and supporting a slide in an emergency escape slide method according to an embodiment of the present invention. FIG. 11 is an exploded perspective view showing a supporting bracket, Fig. 12 is a plan view for explaining a starting true bottom plate in a method of constructing an emergency escape slide according to the present invention, and Fig. And 13 is a schematic structural view for explaining the installation structure of the starting true bottom plate in the emergency escape slide construction method according to the present invention.

1 to 13, a method of constructing a helical slide for emergency escape according to an embodiment of the present invention will be described in detail.

The spiral slide 100 for emergency escape which is constructed by the construction method according to the present invention is installed in a building such as an elderly nursing hospital or a general hospital or a school so that the elderly people or children can escape quickly and safely in the event of a fire or a disaster, And structural systems.

As shown in FIG. 1, the method for constructing a spiral slide for emergency escape according to the present invention includes a step S10 for setting an installation location, a step S20 for installing a fire door, a step S30 for installing a fire door, a step S40 for installing a main column, The slidable support bracket assembling step S60, the slid installation step S70, the bottom fixing step fixing placement step S80, the side post support pipe installation step S90, the side post installation step S100, A fall prevention rail installation step S110, and a departure true floor installation step S120.

The installing position selection step S10 is a step of selecting a mounting position of the slide in consideration of the movement of a rescue vehicle on the landing site side of the slide and grasping a moving line that can easily escape from the building during a fire or a disaster.

In the step S20 of installing the fire door, when the installation position of the slide is selected, the step of installing a fire door is installed on the building wall of the installation location.

At this time, it is preferable that the fire door is provided with an automatic switch connected to a fire-fighting receiver so as to be able to open the fire door automatically in case of a fire, thereby enabling a quick emergency exit.

As shown in FIG. 4, the foundation construction step S30 is a step in which the reinforcing bars 10 are laid on the ground surface of the installation site at a predetermined area, the anchor bolts 20 are assembled and then the concrete 30 is laid Step, which is a foundation step for installing the main column 110.

At this time, an anchor bolt may be provided without a tear-off.

The main column mounting step (S40) is a step of vertically mounting the main column 110 having a predetermined length on the mounting position by engaging and an assembling the anchor bolts assembled by the foundation work.

6A, when the main columns are connected to each other, the main columns 110 are matched to each other at the connection ends of the main columns arranged in the vertical direction, The first flange portion 111 and the second flange portion 112 are formed on the first flange portion 111 and the second flange portion 112 so that the first flange portion 111 and the second flange portion 112 are spaced along the circumference, The position fixing protrusion 111a is inserted into the bolt fastening hole 112b so that the position fixing protrusion 111a is inserted into the bolt fastening hole 111b and the second fixing flange 112 is inserted into the bolt fastening hole 112b The position fixing grooves 112a can be formed correspondingly in a radial manner.

When the main column 110 is vertically connected to the main column 110, the main column 110 has a position fixing protrusion 111a formed on the first flange 111 and the second flange 112, The bolt fastening holes 111b and 112b located at the upper and lower positions can be easily fitted by the matching structure of the bolt holes 112a so that the mounting operation can be performed quickly, have.

6B, a third flange portion 113 and a fourth flange portion 114, which are matched with each other, are formed at mutually-connected ends of the main columns arranged in the vertical direction, and bolts And the third flange portion 113 is provided with a protrusion 113b on the inner diameter and is formed to correspond to the inner diameter groove portion 114b of the fourth flange portion 114 You can have it.

The column fixing band assembling step S50 is performed by assembling the column fixing band 120 in consideration of the inter-layer height and the inclination angle for installing the sliding block 140 as a pipe in the main column 110, (110) in the longitudinal direction.

The step of assembling the slidable support bracket S60 is a step of fastening the slidable support bracket 130 having the mounting support grooves for supporting the slide 140 to the respective column fixing bands 120.

The slidable support bracket assembling step S60 is a step of assembling the base bracket 131, the fastening bracket 132, and the support pipe bracket 133 separated from each other to the slide supporting bracket 130 as shown in Figs. 8 to 10 (S61), a fastening bracket fastening fastening step (S62), and a supporting pipe bracket fastening fastening step (S63), as shown in FIG. 2, have.

The base bracket fastening and fixing step S61 includes a bracket body having a predetermined length and having a base bracket 131 having a bracket seating groove 131a on an upper side thereof to fasten one end thereof to the column fixing band 120 to be.

At this time, the base bracket 131 is configured to bend the lower end of the base bracket outwardly to form a bending protrusion 131b having an angle structure, so that the slide bracket 130 is not shaken by the engagement of the column fixing band 120 Do.

The step of fastening and fastening the fastening brackets S62 includes a bottom part 132a which is inserted into the bracket seating groove 131a of the base bracket 131 so as to be seated and placed, And a lower end of the side of the pair of side portions 132b is fastened to the base bracket 110 by fastening the fastening bracket 132 with the pair of side portions 132b.

At this time, the pair of side portions 132b may be inclined so as to extend outwardly from the lower side toward the upper side. On the upper surface of the bottom portion 132a and the inner surfaces of the pair of side portions 132b, And a seat support groove for seating and supporting the slide 140 are respectively formed and arranged.

That is, the fastening bracket 132 is provided to seat and support a bottom slider for sliding and a side member disposed on the side of the slide member 140, which is a tube.

The support pipe fastening and fixing step S63 includes a support pipe bracket 133 having a support groove for supporting the side post support pipe 170 on the outer side thereof and fastening and fixing the support pipe bracket 133 to the outer end of the base bracket 131 In the outward direction.

The slidable support bracket 130 is provided with a spiral shape so that the slidable support bracket 130 may be inclined upwardly toward the outer side for smooth sliding due to centrifugal force when it is lowered by emergency escape .

According to the present invention, as described above, since the base bracket 131, the fastening bracket 132, and the support pipe bracket 133 are separated from the slidable support bracket 130, the material cost can be reduced, It is possible to provide an advantage that the slider 100 can be firmly installed and durable.

In addition, in the present invention, when the interval between the slidable support brackets 130 is widened to reinforce the supporting force of the slider 140 with respect to the floor slider, the interval between the slidable support brackets 130 And further comprising a step of supporting the bottom slider of the slide member 140 by supporting the auxiliary slider support bracket 134 in a fixed manner.

The auxiliary bracket 134 for supporting the slider may be a bar-shaped body having a flat structure formed by arranging a plurality of seating support grooves for seating and supporting the bottom slider of the slide.

The slid installation step S70 is performed by fitting and locating the tubular slide 140 on each of the seating support grooves of the slidable support bracket 130 so as to fix the tubular slide 140 in a fixed manner while bending the slide base 140, So that the ground of the slide is brought into contact with the ground of the installation and installation position with the spiral structure.

In this case, as shown in FIG. 3, the slid installation step S70 can be sequentially performed by dividing the bottom slider fixing step S71, the side member fixing mounting step S72, and the fixing handle mounting step S73.

The bottom slider fixing step S71 is performed by placing the slider 140 of the tubular body in a state of being placed on the seating support groove of the bottom 132a of the fastening bracket 132 so as to mount the bottom slider for emergency escape sliding This is a step for fixing.

The side member fixing and mounting step S72 may be performed by welding the tubular slide member 140 in a state in which the tubular slide member 140 is seated on the mounting support grooves of the pair of side portions 132b vertically disposed on the fastening bracket 132 side, As shown in FIG.

The handle fixing and mounting step S73 is a step of fixing the handle by welding a tubular body having a larger diameter than the sliding member 140 to the upper surfaces of the pair of side portions 132b vertically arranged on the fastening bracket 132 side.

The slider 140 may be provided with a bottom surface for sliding during emergency escape by placing and welding a plurality of floor sliders on the bottom portion 132a of the fastening bracket 132, A plurality of side members may be seated and welded to the side portion 132b to provide side portions.

7, when the slide unit 140 is connected to the slide unit 140, an intermediate flange portion 142a is formed at a connection end of the slide units 140a and 140b, The intermediate flange portion and the connecting end portion of the slide can be welded to each other to be stably connected.

As described above, by using the connection pipe 142 with respect to the connection end of the slide 140, the connection pipe 142 can be rigidly connected to the connection pipe 142 and durability to the sliding member can be achieved.

Here, it is possible to provide a structure including water supply means for supplying water to the slide 140 side during emergency escape using the slide 140 described above. When the slide 140 is lowered on the slide, So that it is possible to prevent damage to the body of the emergency evacuator due to friction with clothing, especially skin, etc., and to smoothly descend and quickly escape.

In addition, since water is supplied to the slide 140 to block smoke or flames when a fire occurs, it is possible to provide an advantage that an emergency escapee can escape safely on a slipper.

The step of fixing and fixing the bottom fixing table S80 is a step of fixing and fixing the bottom fixing table 160 having a circular structure on the floor where the slide 140 is landed, with reference to FIG.

5, the side post support pipe installation step S90 is a step of mounting the side post support pipe 170 bending along the slider and outside the slideway 140 to the outer end of the slideway support bracket 130 In a supported state, welded and fixedly coupled.

Here, the bottom fixing table 160 and the side post support pipe 170 function as a support for more firmly mounting and supporting the side posts 180.

5, the side column mounting step S100 is spaced apart in the radial direction along the circumference of the floor fixing table 150, and the side supporting post pipe 170 and the side column supporting pipe 170 have a predetermined length The side posts 180 are vertically installed, welded, and fixedly coupled.

Referring to FIG. 5, the anti-fall handrail installation step S110 is performed by bending along the slide 140 to vertically arrange the fall-prevention railing 150 in the upper side of the slide, And then welded and fixedly coupled with each other in an inner-surface-supporting state of the inner tube 180.

At this time, the fall preventing railing 150 can be installed correspondingly to the installation of the slide 140, and can be arranged vertically above the handle of the slide 140.

12, the starting true bottom plate 190 is fixedly coupled to the horizontal placement and sliding portion 140 side, and the column fixing band 120 (120) The main pillar 110 and the main pillar 110. In this step, the slidable support bracket 130 is installed on the main pillar 110 so as to be supported.

A fire door is provided for each floor so as to enable escape by using a slide on each floor in the building, and as shown in Fig. 13, a starting floor plate 190 horizontally arranged for each fire door of each floor is provided It is preferable to connect them to each other so as to be able to enter the installation and slide unit 140, respectively.

In this case, the slope 140 at the point where the departure end floor plate 190 is connected may be formed with a gentle angle of inclination for ease of entry at the time of emergency escape.

Accordingly, the spiral slide construction method for emergency escape according to the present invention can improve the safety of the spiral slide, and can prevent escape from the building quickly and safely in the event of an emergency such as fire or disaster And a rescue system can be constructed. Especially, a spiral slide for emergency escape can be constructed, which can reduce the material while easily performing the installation work, and moreover, it has a sturdy installation and durability.

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 or scope of the present invention. Various modifications and variations will be possible without departing from the spirit of the invention. Therefore, the scope of the present invention should be construed as being covered by the scope of the appended claims, and technical scope within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

S10: Steps to select installation location
S20: Fire door installation steps
S30: Basic construction stage
S40: Main column installation steps
S50: Column fastening band assembly step
S60: Step of assembling the slide support bracket
S70: Slide installation step
S80: Fixing step of floor fixture
S90: Side column support pipe installation steps
S100: Side column installation steps
S110: Fall prevention rail installation step
S120: Installation stage of the floor installation

Claims (11)

(A) selecting the installation location of the slide by taking into account the movement of the emergency vehicle on the landing site side of the slide and grasping the line where people can easily escape from the building in the event of a fire or a disaster;
(B) installing a fire door on the building wall at the installation location when the installation location of the slide is selected;
(C) Basic construction step of constructing reinforced concrete reinforcement and anchor bolts with a certain area on the ground of the installation site and then pouring concrete;
(D) vertically installing an anchor bolt assembled by foundation work by fastening and assembling a main column having a predetermined length to an installation position;
(E) arranging spacers in the longitudinal direction of the vertically installed main columns by tightening and assembling the column fixing bands in consideration of the inter-layer height and the inclination angle for installing the slide on the main column;
(F) tightening a slidable support bracket having a seating support groove for supporting the seat of the slide on each of the column fixing bands;
(G) slidable support bracket, a bottom slider and a side member are fixedly coupled to each other by welding, and the slider is bent so as to slide down from the upper side to the lower side, And establishing a landing portion by bringing the end of the bottom slider of the slide into contact with the ground of the installation position;
(H) fixing the floor mount on a ground on which the slide is landed;
(I) locating and welding the side post support pipe bending along the slide and the outside of the slide to be supported on the outer end of the slide support bracket;
(J) placing the side pillars spaced apart in a radial pattern along the circumference of the floor fixing table, wherein the side pillars having a predetermined length are vertically installed on the floor fixing table and the side column supporting pipe side,
(K) slidably disposed on the upper side of the slide so as to be positioned on the upper side of the slide;
(L) Installed to receive support by using one of the slide supporting brackets which are installed on the outside of the fire door and fixed on the column fixing band and spaced on the main column. ; Lt; / RTI >
In the step (F)
A bracket body having a predetermined length and having a base bracket having a bracket mounting groove on an upper surface side of the bracket to fasten one end of the base bracket to the column fixing band;
And a pair of side brackets extending vertically from both side ends of the bottom bracket so as to be inserted into the bracket seating grooves of the base bracket so as to be seated and disposed, To the base bracket side;
And a support pipe bracket having a support groove for supporting a side post support pipe on an outer side surface thereof and projecting outwardly by fastening and fixing to an outer end of the base bracket; , ≪ / RTI &
Wherein the bottom surface side upper surface and the pair of side surface side inner surfaces are each formed with a seating support groove for seating and supporting the slide.
The method according to claim 1,
In the step (B)
Wherein a fire door is automatically opened when a fire door is connected to an automatic switch connected to a fire alarm receiver so as to allow a quick emergency escape.
delete The method according to claim 1,
In the step (G)
Fixing the bottom slider for emergency escape sliding by fitting the slider of the tubular body in a state of being placed on the bottom bracket seating groove of the fastening bracket;
Fixing the side members by welding them in a state in which the sliding members of the tubular bodies are seated on the seating support grooves of the pair of side portions vertically arranged on the side of the fastening bracket;
A pair of side portions vertically arranged on the side of the fastening bracket; welding a tubular body having a diameter larger than that of the slide to each upper surface to fix the handle; Wherein the slider is mounted on the slider.
The method according to claim 1,
When the interval between the step (G) and step (H) is large, it is necessary to fix the slide brace for supporting the slide bracket between the slide brace brackets when it is required to reinforce the supporting force of the slide bracket with respect to the bottom slider And arranging the bottom slider to support the bottom slider of the slide by disposition,
Wherein the slidable support auxiliary bracket comprises a rod-shaped body having a flat support structure formed on a top surface thereof for supporting and supporting a bottom slider of the slider.
The method according to claim 1,
In the step (L)
Each floor of the building is provided with a fire door for each floor so that it can escape by using a slide, and the starting floor plate horizontally arranged for each fire door of each floor is connected to the installation and slide so as to be able to enter the slide Wherein said slider is disposed on said slide.
The method according to claim 1,
The main pole
When the main pillars are connected to each other according to the installation height of the building, the first flange portion and the second flange portion that match each other are formed on the connecting end portions, respectively, and the bolt fastening hole- The position fixing protrusion is formed in the first flange portion in a radial structure for fastening the bolt and the position fixing protrusion is inserted in the second flange portion so that the position fixing groove portion is formed in a radial structure, Wherein the fastening means is structured so as to be firmly installed while allowing work to be performed.
The method according to claim 1,
The main pole
When the main pillars are connected to each other according to the installation height according to the building, a third flange portion and a fourth flange portion matching each other are formed at mutual connection ends of the main pillars arranged vertically, And the third flange portion is formed so as to have a protruding portion in an inner diameter and to be inserted and fixed in an inner diameter groove portion of a fourth flange portion.
The method according to claim 1,
The slide-
When a connecting pipe having an intermediate flange portion is inserted into the connecting end portion and the connecting end portions of the intermediate flange portion and the sliding portion are welded to each other, Is connected with a supporting pipe of the connecting pipe so as to have durability.
The method according to claim 1,
The slide support bracket includes:
Characterized in that, when the emergency escape by the spiral installation of the slide is made, the slider is inclined upward toward the outer side in order to smoothly slide due to centrifugal force action.
delete

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