CN114856102B - Vertical curtain type adjustable pull rod connected glass stair structure and construction method - Google Patents

Abstract

The invention discloses a vertical curtain type adjustable pull rod connected glass stair structure and a construction method, wherein the stair structure comprises stair sections consisting of a plurality of stair units, and the stair sections are connected in series up and down through pull rods; the upper end and the lower end of the pull rod are respectively connected with the steel rail by adopting an I-shaped connecting piece, and the lower end of the pull rod is provided with an adjusting bolt; the middle of the I-shaped connecting piece is provided with a bolt hole connected with a pull rod, the width of the I-shaped connecting piece is smaller than the width of a steel rail gap, the I-shaped connecting piece penetrates through the steel rail gap to rotate and is connected with the steel rail, and the upper flange is clamped in the steel rail by a mortise and tenon tool and cannot rotate. The structure of the hanging curtain type adjustable pull rod connected glass stair provided by the invention is skillfully arranged, and is stable in up-down integral connection, safe and reliable.

Description

Vertical curtain type adjustable pull rod connected glass stair structure and construction method

Technical Field

The invention relates to the field of building assembly, in particular to a curtain type adjustable pull rod connected glass stair structure and a construction method.

Background

In recent years, with the gradual satisfaction of the physical living needs, people pay more attention to the satisfaction of the mental living needs, and the proportion of cultural consumption in the consumption of people is larger and larger as part of the mental life. However, art museums are developing rapidly in new times as important components of public culture and carriers for consumption of art culture, and are becoming an indispensable part of daily life of the public.

The indoor space design of art library emphasizes the integrity of the background, can not surpass the art exhibits, and the space characteristic is succinct, clear and definite, and the stair in the art library is usually used as hall central point and important traffic, often is the most expressive material in the library, and is also the few elements that can become the focus of vision. The stair in the fine arts museum adopts concrete placement or adopts steel stair at present, adopts concrete placement or adopts steel stair all to have the defect that the process is complicated, the efficiency of construction is low, does not coordinate with fine arts library indoor space design moreover.

A pull rod suspended glass stair structure and a construction method (patent number: ZL 202110327927.6) are single-stair section and half-suspended structure glass stairs, the glass breast boards are required to form an integral structure to keep stable, and multi-stair section glass structure stairs need to be integrally connected up and down, so that the integral stress structures of a single stair section and a multi-stair section are different, and components and installation parts of the single stair section and the multi-stair section are not suitable for the multi-stair section.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a curtain type adjustable pull rod connected glass stair structure and a construction method

In order to achieve the purpose, the technical scheme of the invention is as follows:

a vertical curtain type adjustable pull rod connected glass stair structure comprises a stair section consisting of a plurality of stair units, wherein the stair sections are connected in series up and down through pull rods; the upper end and the lower end of the pull rod are respectively connected with the steel rail by adopting an I-shaped connecting piece, and the lower end of the pull rod is provided with an adjusting bolt; the middle of the I-shaped connecting piece is provided with a bolt hole connected with a pull rod, the width of the I-shaped connecting piece is smaller than the width of a steel rail gap, the I-shaped connecting piece penetrates through the steel rail gap to rotate and is connected with the steel rail, and the upper flange is clamped in the steel rail by a mortise and tenon tool and cannot rotate.

Furthermore, the ladder section is composed of a plurality of stages of glass steps, two ends of each glass step are provided with connecting claws, one end of each glass step is connected with the structural wall, and the other end of each glass step is connected with a pull rod through a pull rod connecting lock;

the refute and connect the claw and include a side board and two claw arms, openly set up the claw arm and connect through refute the mounting hole that connects fastener and glass to mark time.

Furthermore, the glass step is composed of three layers of anti-skid transparent, functional and semitransparent toughened glass interlayers, wherein the upper layer of anti-skid and functional toughened glass interlayer is provided with an LED lamp bead naked crystal ball; rubber pads are arranged between the two end faces of the glass step and the connector fastening pieces, and gravity photoelectric sensing elements are further arranged on the connector fastening pieces.

Furthermore, the width of the mortise and tenon tool is consistent with the width of a steel rail seam, the thickness of the middle opening is consistent with that of an I-shaped connecting piece web plate, the thickness of the four supporting legs is consistent with that of the steel rail, the two upper supporting legs are provided with back hooks, and the mortise and tenon tool penetrates through the steel rail seam and is clamped to the upper wing of the I-shaped connecting piece during installation.

Furthermore, be in with that the claw back of refuting that the tool to lock is connected to the pull rod is provided with U-shaped hoof otic placode, U-shaped hoof otic placode is the rectangle form, and middle opening interval is greater than the pull rod diameter, and the bottom both ends are connected with refuting the claw curb plate respectively.

Furthermore, the pull rods are stainless steel pull rods which are spaced to form vertical curtain railings, every three pull rods are connected with one glass step in a group, and the stainless steel pull rods at two ends are solid stress pull rods; the middle part is a hollow pull rod with a hidden photoelectric glass circuit and also serves as a protective pull rod, and the pull rod is connected with a lock and has a plurality of intervals with the U-shaped hoof ear plate.

Furthermore, the vertical curtain railing comprises handrails, and the handrails are fixed on two solid pull rods of two adjacent glass steps through pull rod connecting pieces; the pull rod connecting piece is a double-pull rod hoop, and a middle preformed hole is used for fixing the stainless steel handrail for switching so as to fix the stair handrail.

Furthermore, the pull rod connection lockset consists of a base and a gland, the base and the gland are respectively provided with a semicircle to form a hoop type and are connected with the pull rod, the gland is connected and fastened with the base through a bolt, the back of the base is provided with a bolt hole for connecting a connection claw, and the middle of the base is provided with a vertical goose egg hole reserved for a hollow pull rod photoelectric circuit Kong Zouxian.

Furthermore, the curtain pull rods are connected in series with the glass steps with different heights at the upper layer and the lower layer to form a whole.

Correspondingly, the invention also provides a construction method of the curtain type adjustable pull rod connected glass stair structure, which is applied to the glass stair structure and is characterized by comprising the following steps of

Building a temporary steel pipe stair:

according to the scheme of the steel pipe stairway, a temporary stairway is erected in a stairway by adopting steel pipes, the periphery of the temporary stairway is 300mm away from a wall, the width of a middle stairway is 500mm, the distance between a top steel pipe installation platform and a structural top plate is 1800mm, other erection requirements are in accordance with the requirements of a special examination and approval scheme, and after the erection is finished, the temporary stairway can be used after the organization supervision acceptance is qualified;

positioning and paying off:

the method comprises the steps of firstly determining the elevation and position of each stair platform and the number of glass steps, respectively taking a central control point at two ends of a stair section of a first floor, projecting a vertical control line at the position of the central control point by adopting a laser plumb instrument, calibrating the central control line according to the vertical control line at each floor, emitting the central control line according to the central control point after error does not exist, projecting a central line by putting the laser level instrument at the central control point to determine the installation positions of an upper steel rail and a lower steel rail, determining the installation positions of the steps according to the elevation of each platform, and sequentially marking the control points on a wall.

And (3) installing a wall connecting piece:

punching holes at preset mark points of the structural wall, cleaning all the holes after the punching is finished, and presetting expansion bolts in the holes, wherein the expansion bolts are fixed by wall-penetrating screws if meeting a filler wall; fixing the stainless steel spider on the wall;

installing steel rails:

installing upper and lower steel rails at the central line positions of the first-layer and top-layer structural plates, manufacturing two temporary support frames with the height of 1650mm before installing the upper steel rail, respectively placing the temporary support frames at the two ends of the steel rail, lifting the steel rail onto the supports, filling wedge-shaped wood cushion blocks at the two ends of the steel rail, pressing the steel rail close to the structural plates by adjusting the depth of the wedge-shaped wood cushion blocks, welding the steel rail with an embedded part after compounding the positions, and performing rust prevention treatment; and the lower rail is used for directly welding the steel rail at the mounting position with the embedded part and carrying out rust prevention treatment.

Installation of the I-shaped connecting piece:

firstly, the parallel steel rail gap of the upper flange of the upper rail I-shaped connecting piece is extended into the steel rail gap groove and rotated by 90 degrees, the upper flange is fixed on the steel rail through the fastening bolts of two wings of the lower edge according to the position of the positioning mark in advance, then the mortise and tenon tool is inserted into the steel rail gap, and the upper flange of the I-shaped connecting piece is clamped by the upper supporting leg back hook of the stainless steel mortise and tenon tool, so that the whole connecting component is ensured to be clamped in the special steel rail and cannot move. The lower rail I-shaped connecting piece is embedded and then temporarily fixed, and the lower rail I-shaped connecting piece is fixed after the verticality of the pull rod is adjusted.

Installing a stainless steel pull rod:

the pull rod penetrates through a bolt hole in the middle of the I-shaped connecting piece to be connected with the I-shaped connecting piece and is screwed and fixed by a locknut; the step of the stainless steel pull rod at the lower end is consistent with that of the upper end part, the tightness of the pull rod is adjusted by using a turn buckle after the stainless steel pull rod at the lower end is fixed, the verticality of the pull rod is rechecked before fastening, and the clearance parts of the specially-made steel rails on the floor ground are covered one by using a dustproof cover plate after the stainless steel pull rod is fixed;

step connecting piece installation:

firstly, firmly locking a base and a gland of a pull rod connecting lock on a solid pull rod of a stainless steel pull rod through four hexagon socket head cap screws according to the marked position of the pull rod connecting lock, locking the base and the gland of the pull rod connecting lock on the hollow pull rod after a reserved line on the pull rod penetrates through a vertical goose egg hole of the base, and connecting and fixing a connecting claw side plate and the pull rod connecting lock base by using a stainless steel bolt; the U-shaped hoof clamp penetrates through the hollow pull rod and is fixedly connected with the K-shaped stainless steel spider side plate through the hexagon socket head cap fastening screw;

step connection installation:

before the step installation, the overlap joint is installed in the overlap joint installation holes at the two ends of the tempered laminated glass step respectively, and the installation progress of the overlap joint is synchronous with that of the step;

step installation:

before the step installation, the scaffold is firstly dismantled according to the special scheme of the scaffold; the steps are sequentially installed step by step from bottom to top, the overlap joint of the step with the installed overlap joint is embedded into the overlap joint claw, a fastener is sleeved and temporarily fixed, the levelness of the step is measured by a horizontal guiding rule, the periphery of the step is smooth by adjusting an adjusting nut of a ball head connecting screw rod of the overlap joint, the fastener is fastened, rechecking is carried out once each step is installed, and error accumulation is prevented;

installing handrails:

the handrail pull rod connecting piece is positioned according to the height required by the specification and is fixed on two adjacent solid pull rods of two adjacent steps, then the stainless steel handrail adapter piece is fixed on the connecting piece, the handrail surface pipe is temporarily fixed above the connecting piece, and the hexagon screws in the handrail connecting piece are fastened after unified alignment.

Compared with the prior art, the invention has the beneficial effects that:

the structure of the hanging curtain type adjustable pull rod connected glass stair provided by the invention is skillfully arranged, and is stable in up-down integral connection, safe and reliable.

Drawings

FIG. 1 is a schematic view of the assembly of a drag link and a lower rail in a structure of a vertical-curtain type adjustable drag link coupled glass stair provided by an embodiment of the invention;

FIG. 2 is a schematic view of the assembly of the drag link and the upper steel rail in the structure of the vertical curtain type adjustable drag link connecting glass stairs provided by the embodiment of the invention;

FIG. 3 is a schematic view of the assembly of a glass step in a curtain type adjustable tie rod coupled glass stair structure according to an embodiment of the present invention;

FIG. 4 is an assembly view of the drag link and drag link connecting lock in the structure of the vertical curtain type adjustable drag link connecting glass stairs provided by the embodiment of the invention;

FIG. 5 is a schematic diagram illustrating the effect of the structure of a curtain type adjustable tension rod coupled glass stair provided by the embodiment of the invention;

in the figure: 1. a pull rod; 1a, a solid pull rod; 1b, a hollow pull rod; 2. an I-shaped connecting piece; 3. a steel rail; 3a, feeding a steel rail; 3b, lower steel rails; 4. a basket adjusting bolt; 41. a flower basket adjusting opening; 5. fastening a bolt; 6. a stainless steel mortise and tenon tool; 7. a dust cover; 8. transparent toughened glass; 9. functional glass; 10. semi-transparent tempered glass; 11. LED lamp bead bare crystal ball; 12. a stainless steel spider; 13. a U-shaped hoof stainless steel ear plate; 14. a lapel fastener; 15. a handrail; 16. a tie rod attachment; 17. switching stainless steel handrails; 18. a base; 19. a gland; 20. and a gravity photoelectric sensing element.

Detailed Description

Example (b):

in the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection, electrical connection and signal connection; they may be connected directly or indirectly through intervening media, so to speak, as communicating between the two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

Referring to fig. 1-5, the embodiment provides a curtain type adjustable pull rod-linked glass stair structure, which comprises a stair section consisting of a plurality of stair units, wherein the plurality of stair sections are connected in series up and down through a pull rod 1; the upper end and the lower end of the pull rod 1 are respectively connected with the steel rail 3 through the I-shaped connecting piece 2, and the lower end of the pull rod is provided with the basket adjusting bolt 4, so that the tightness of the basket adjusting bolt 4 can be adjusted through the basket adjusting hole 41 of the basket adjusting bolt 4, the tensioning force of the pull rod 1 is adjusted, and the safety of the ladder section is guaranteed.

The middle of the I-shaped connecting piece 2 is provided with a bolt hole to be connected with the pull rod 1, the width of the I-shaped connecting piece 2 is 2mm smaller than that of a steel rail 3 seam, the I-shaped connecting piece can penetrate through the steel rail 3 seam and rotate 90 degrees to be connected with the steel rail 3, two wings of the lower edge of the I-shaped connecting piece are provided with fastening bolts 5, and the upper flange is firmly clamped in the steel rail 3 by adopting a stainless steel mortise and tenon tool 6 and cannot rotate; so, can realize that I-shaped connecting piece 2 rapid Assembly is in rail 3 and can guarantee its steadiness. Specifically, the rail 3 is divided into an upper rail 3a and a lower rail 3b, and a fastening type dust cover 7 is arranged on the lower rail to prevent other foreign dust from entering into a rail gap.

In a specific implementation, the ladder section is composed of a plurality of stages of glass steps, each step is composed of three layers of anti-skid transparent, functional and semitransparent toughened glass laminated rubber, namely transparent toughened glass 8, functional glass 9 and semitransparent toughened glass 10 from top to bottom, and a transparent laminated rubber is arranged between every two adjacent layers; the three layers of toughened glass can ensure the safety of the glass; wherein upper antiskid and function toughened glass intermediate layer set up LED lamp pearl naked brilliant ball 11, through being provided with the interest and the artistry that LED lamp pearl naked brilliant ball 11 multiplicable glass marked time.

Specifically, one end of the glass step is connected with a structural wall body through an expansion bolt by adopting a stainless steel spider 12, and the other end of the glass step is connected with the pull rod 1 through a pull rod connecting lock; this stainless steel spider 12 is K type stainless steel spider, including a side board and two claw arms, the side board back sets up U-shaped hoof stainless steel otic placode 13, openly sets up the claw arm and is connected through refuting the mounting hole that joint fastener 14 and glass marked time, through such structure, both can realize that glass marked time assembles fast and can guarantee the safety and stability. The rubber pads are arranged between the end face of the glass step and the connection fastener 14 to prevent the two from rusting in contact, and the gravity photoelectric sensing element 20 is further arranged on the connection fastener 14, so that after a person stands up, the LED lamp bead bare crystal ball 11 is automatically lighted.

Specifically, the pull rods 1 are phi 16 stainless steel pull rods, the vertical curtain railings are formed at intervals of 9-10 mm, every three pull rods 1 are connected with the steps in a group, the stainless steel pull rods at two ends are stressed solid pull rods 1a, the hollow pull rod 1b in the middle is a hollow pull rod which hides a photoelectric glass circuit and is also used as a protective pull rod, and the hollow pull rod 1b is provided with a pull rod connecting lock which is 10mm away from a U-shaped hoof stainless steel ear plate 15, so that the looseness of the upper lock of the stressed pull rod can be found in time, and the protective effect is achieved.

Specifically, the width of the stainless steel mortise and tenon tool 6 is consistent with the width of a steel rail 3 seam, the thickness of a middle opening is consistent with that of a web plate of the I-shaped connecting piece 2, the thickness of four supporting legs is consistent with that of the steel rail, two supporting legs at the upper part are provided with back hooks, the stainless steel mortise and tenon tool 6 penetrates through the steel rail 3 seam and is clamped to an upper wing of the I-shaped connecting piece 2 during installation, and the stainless steel mortise and tenon tool is arranged on an upper rail and a lower rail.

Specifically, the U-shaped stainless steel ear plate 13 is rectangular, the distance between the middle openings is 2mm larger than the diameter of the pull rod, and the two ends of the bottom are respectively provided with an inner hexagonal fastening screw hole to be connected with the side plate of the K-shaped stainless steel connection claw 12.

In one embodiment, the drapery handrail comprises a handrail 15, wherein the handrail 15 is fixed on two solid pull rods 1a of two adjacent steps through pull rod connecting pieces 16; specifically, the pull rod connecting piece 16 is a double-pull rod hoop, and a stainless steel handrail switching piece 17 is fixed in a middle preformed hole, so that the stair handrail 15 is fixed.

Preferably, the pull rod connecting lockset consists of a base 18 and a gland 19, the base 18 and the gland 19 are respectively provided with a semicircle to form a hoop type and connected with the pull rod 1, the gland 19 is provided with four inner hexagonal screw holes and four inner hexagonal screw holes on the front surface of the base 18 and are connected and fastened through inner hexagonal stainless steel screws, the back surface of the base 18 is provided with a bolt hole connected with a K-shaped stainless steel connection claw 12, and the middle of the base 18 is provided with a vertical goose egg hole reserved for a photoelectric circuit Kong Zouxian of the hollow pull rod 1 b. Through the lock is connected to the design pull rod, can realize being connected with the demountable assembly nature of pull rod to do benefit to subsequent maintenance, can guarantee safety simultaneously.

Specifically, the curtain draw bar can be connected with the glass pedals at different heights of the upper and lower layers in series to form a whole.

Correspondingly, the embodiment also provides a construction method of the curtain type adjustable pull rod connected glass stair structure, which comprises the following steps

Building a temporary steel pipe stair:

according to the scheme of examining and approving the temporary steel tube stairway, the temporary stairway is erected in the stairway by adopting a steel tube, the periphery of the temporary stairway is 300mm away from a wall, the width of a middle stairway is 500mm, the distance between a top steel tube mounting platform and a structural top plate is 1800mm, other erection requirements are required to meet the requirements of the special examination and approval scheme, and after the erection is completed, the rear part qualified in the organization supervision acceptance can be used.

Positioning and paying off:

the method comprises the steps of firstly determining the elevation and position of each stair platform and the number of glass steps, respectively taking a central control point at two ends of a stair section of a first floor, projecting a vertical control line at the position of the central control point by adopting a laser plumb instrument, calibrating the central control line according to the vertical control line at each floor, emitting the central control line according to the central control point after error does not exist, projecting a central line by putting the laser level instrument at the central control point to determine the installation positions of an upper steel rail and a lower steel rail, determining the installation positions of the steps according to the elevation of each platform, and sequentially marking the control points on a wall.

And (3) installing a wall connecting piece:

punching holes at preset mark points of the structural wall, cleaning all holes after the punching, and presetting expansion bolts in the holes, wherein the expansion bolts are fixed by wall-penetrating screws if meeting a filler wall; fixing the stainless steel spider on the wall;

installing a special steel rail:

rail about first floor and top layer structural slab central line position installation, before the installation of going up the rail, make two temporary support frames that 1650mm is high earlier, place respectively at rail installation both ends, carry the rail to the support on to at rail both ends pad wedge shape billet, press close to rail and structural slab through the degree of depth of adjusting wedge shape billet, compound position back, with rail and built-in fitting welding, and do rust-resistant treatment. And the lower rail is used for directly welding the rail placing and mounting position with the embedded part and carrying out rust prevention treatment.

Installing a specially-made I-shaped connecting piece:

the parallel steel rail gap of the upper flange of the upper rail I-shaped connecting piece is extended into the steel rail gap groove and rotated by 90 degrees, the upper flange is fixed on the steel rail through the fastening bolts of two wings of the lower edge according to the position of the positioning mark in advance, then the mortise and tenon tool is inserted into the steel rail gap, the upper flange of the I-shaped connecting piece is clamped by the upper supporting leg return hook of the specially-made stainless steel mortise and tenon tool, and the whole connecting component is ensured to be clamped in the specially-made steel rail and cannot move. The lower rail I-shaped connecting piece is temporarily fixed after being embedded, and is fixed after the verticality of the pull rod is adjusted.

Installing a stainless steel pull rod:

the pull rod penetrates through a bolt hole in the middle of the I-shaped connecting piece to be connected with the I-shaped connecting piece and is screwed and fixed by a locknut; the steps of the stainless steel pull rod at the lower end are consistent with those of the upper end part, the tightness of the pull rod is adjusted by using a turn buckle after the stainless steel pull rod at the lower end is fixed, the verticality of the pull rod is checked before the fastening, and the clearance parts of the specially-made steel rails on the floor ground are covered one by using a dustproof cover plate after the fixing is finished.

Step connecting piece installation:

firstly, a base of a pull rod connecting lock and a gland are firmly locked on a solid pull rod of a stainless steel pull rod through four inner hexagonal screws according to the marked lock position, a reserved line on the pull rod penetrates through a vertical goose egg hole of the base, then the base of the pull rod connecting lock and the gland are locked on a hollow pull rod, and a connecting claw side plate and the pull rod connecting lock base are connected and fixed through a stainless steel bolt; and (3) clamping the U-shaped hoof to penetrate through the hollow pull rod, and connecting and fixing the U-shaped hoof with the side plate of the K-shaped stainless steel spider claw by using an inner hexagonal fastening screw.

Step connection installation:

before the installation of marking time, refute at tempering doubling glass at the both ends and refute the joint mounting hole and will refute the joint installation respectively well, should mark time the installation progress synchronous, avoid causing transport many times, stack unreasonably and cause the damage.

Step installation:

before the step installation, the scaffold is firstly dismantled according to the special scheme of the scaffold. The installation of marking time is installed step by step from supreme order down, and the connector of refuting of the unit of marking time that the connector is good will be installed and refuted and connect and inlay in refuting the claw, embolias the fastener and temporarily fixes, measures the levelness of marking time with the horizontal guiding ruler, adjusts the adjusting nut who refutes joint bulb connecting screw, makes and mark time level all around, fastens the fastener, does once recheck promptly every installation ladder section, prevents that the error from accumulating.

Installing handrails:

the handrail pull rod connecting piece is positioned according to the height required by the specification and is fixed on two adjacent solid pull rods of two adjacent steps, then the stainless steel handrail adapter piece is fixed on the connecting piece, the handrail surface pipe is temporarily fixed above the connecting piece, and the hexagon screws in the handrail connecting piece are fastened after unified alignment.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention accordingly, and not to limit the protection scope of the present invention accordingly. All equivalent changes and modifications made according to the spirit of the present disclosure should be covered within the scope of the present disclosure.

Claims (9)

1. A curtain type adjustable pull rod connected glass stair structure is characterized by comprising stair sections consisting of a plurality of stair units, wherein the stair sections are connected in series up and down through pull rods; the upper end and the lower end of the pull rod are respectively connected with the steel rail by adopting an I-shaped connecting piece, and the lower end of the pull rod is provided with an adjusting bolt; the middle of the I-shaped connecting piece is provided with a bolt hole which is connected with a pull rod, the width of the I-shaped connecting piece is smaller than the width of a steel rail gap, the I-shaped connecting piece penetrates through the steel rail gap to rotate and is connected with the steel rail, and the upper flange is clamped in the steel rail by a mortise and tenon device and cannot rotate; the steel rails are arranged on the first layer structural plate and the top layer structural plate; the adjusting bolt is a basket adjusting bolt, and the tightness of the basket adjusting bolt is adjusted through a basket adjusting buckle;

the tenon fourth of twelve earthly branches utensil width is unanimous with the rail seam width, and middle opening is unanimous with I-shaped connecting piece web thickness, and four landing leg thickness are unanimous with rail thickness, and two landing legs on upper portion set up the back and collude, and the tenon fourth of twelve earthly branches utensil penetrates the card to I-shaped connecting piece upper limb at the rail seam during installation.

2. The curtain type adjustable pull rod linked glass stair structure as claimed in claim 1, wherein the ladder section is composed of several glass steps, both ends of the glass steps are provided with spider claws, one end is connected with the structural wall, and the other end is connected with the pull rod through a pull rod connecting lock;

the connection claw comprises a side panel and two claw arms, and the claw arms arranged on the front side are connected with the mounting holes of the glass steps through connection joint fasteners; and the side panel is provided with a U-shaped hoof lug plate connecting hole.

3. The curtain type adjustable pull rod linked glass stair structure as claimed in claim 2, wherein the glass step is composed of three layers of anti-skid transparent, functional and semitransparent toughened glass interlayers, wherein the upper layer of anti-skid and functional toughened glass interlayers are provided with LED lamp bead bare crystal balls; rubber pads are arranged between the two end faces of the glass step and the connector fastening pieces, and gravity photoelectric sensing elements are further arranged on the connector fastening pieces.

4. The curtain type adjustable draw-bar linked glass stair structure as claimed in claim 2, wherein a U-shaped hoof ear plate is provided on the back of the connecting claw connected to the draw-bar connecting lock, said U-shaped hoof ear plate has a rectangular shape, the interval between the middle openings is larger than the diameter of the draw bar, and the two ends of the bottom are respectively connected to the connecting claw side plates.

5. The curtain type adjustable pull rod-glass stair structure as claimed in claim 4, wherein the pull rods are stainless steel pull rods, which are spaced to form curtain rods, and every three pull rods are connected with a glass step in a group, wherein the stainless steel pull rods at both ends are solid stressed pull rods; the middle part is a hollow pull rod with a hidden photoelectric glass circuit and also serves as a protective pull rod, and the pull rod is arranged in the middle part and connected with a lockset to form a plurality of intervals with the U-shaped hoof ear plate.

6. The drapery-type adjustable draw bar-linked glass stair construction as claimed in claim 5, wherein said drapery railing comprises a handrail secured to two solid draw bars of two adjacent glass steps by a draw bar connection; the pull rod connecting piece is a double-pull rod hoop, and a middle preformed hole is used for fixing the stainless steel handrail for switching so as to fix the stair handrail.

7. The curtain type adjustable pull rod linked glass stair structure as claimed in claim 5, wherein the pull rod linked lock is composed of a base and a pressing cover, the base and the pressing cover are respectively provided with a semi-circle combined hoop type hoop to be connected with the pull rod, the pressing cover is fastened with the base through a bolt connection, the back of the base is provided with a bolt hole connected spider claw, and the middle of the base is provided with a vertical goose egg hole reserved for the hollow pull rod photoelectric circuit Kong Zouxian.

8. The curtain type adjustable draw bar linked glass stair structure as claimed in claim 6, wherein said curtain draw bar is connected in series with glass steps of different heights up and down to form a whole.

9. A construction method of a curtain type adjustable pull rod connected glass stair structure, which is applied to the glass stair structure of any one of claims 1 to 8, and is characterized by comprising the following steps

Building a temporary steel pipe stair:

according to the scheme of the steel pipe stairway, a temporary stairway is erected in a stairway by adopting steel pipes, the periphery of the temporary stairway is 300mm away from a wall, the width of a middle stairway is 500mm, the distance between a top steel pipe installation platform and a structural top plate is 1800mm, other erection requirements are in accordance with the requirements of a special examination and approval scheme, and after the erection is finished, the temporary stairway can be used after the organization supervision acceptance is qualified;

positioning and paying off:

firstly, determining the elevation and position of each stair platform and the number of glass steps, respectively taking a central control point at two ends of a stair section of a first floor, projecting a vertical control line at the central control point by adopting a laser vertical instrument, calibrating the central control line according to the vertical control line at each floor, emitting the central control line according to the central control point after no error, projecting a central line by putting a laser level instrument at the central control point to determine the mounting positions of an upper steel rail and a lower steel rail, determining the mounting positions of the steps according to the elevation of each platform, and sequentially marking the control points on a wall;

and (3) installing a wall connecting piece:

punching holes at preset mark points of the structural wall, cleaning all the holes after the punching is finished, and presetting expansion bolts in the holes, wherein the expansion bolts are fixed by wall-penetrating screws if meeting a filler wall; fixing the stainless steel spider on the wall;

installing steel rails:

installing upper and lower steel rails at the central line positions of the first layer and the top layer structural plates, manufacturing two temporary support frames with the height of 1650mm before installing the upper steel rail, respectively placing the temporary support frames at the two ends of the steel rail installation, lifting the steel rail onto the supports, padding wedge-shaped wood cushion blocks at the two ends of the steel rail, attaching the steel rail to the structural plates by adjusting the depth of the wedge-shaped wood cushion blocks, welding the steel rail and the embedded parts after compounding the positions, and performing rust prevention treatment; the lower rail is used for directly welding the steel rail placing and mounting position with the embedded part and carrying out rust prevention treatment;

installation of the I-shaped connecting piece:

firstly, the upper flange of the upper rail I-shaped connecting piece is inserted into a rail gap slot in parallel and rotates 90 degrees, the upper flange is fixed on a rail through fastening bolts of two wings of the lower edge according to the position of a pre-positioning mark, then a mortise and tenon tool is inserted into the rail gap, and the upper flange of the I-shaped connecting piece is clamped by the upper leg of a stainless mortise and tenon tool, so that the whole connecting component is ensured to be clamped in a special rail and cannot move; the lower rail I-shaped connecting piece is embedded and then temporarily fixed, and the lower rail I-shaped connecting piece is fixed after the verticality of the pull rod is adjusted;

installing a stainless steel pull rod:

the pull rod penetrates through a bolt hole in the middle of the I-shaped connecting piece to be connected with the I-shaped connecting piece and is screwed and fixed by a locknut; the step of the stainless steel pull rod at the lower end is consistent with that of the upper end part, the tightness of the pull rod is adjusted by using a turn buckle after the stainless steel pull rod at the lower end is fixed, the verticality of the pull rod is rechecked before fastening, and the clearance parts of the specially-made steel rails on the floor ground are covered one by using a dustproof cover plate after the stainless steel pull rod is fixed;

step connecting piece installation:

firstly, firmly locking a base and a gland of a pull rod connecting lock on a solid pull rod of a stainless steel pull rod through four hexagon socket head cap screws according to the marked position of the pull rod connecting lock, locking the base and the gland of the pull rod connecting lock on the hollow pull rod after a reserved line on the pull rod penetrates through a vertical goose egg hole of the base, and connecting and fixing a connecting claw side plate and the pull rod connecting lock base by using a stainless steel bolt; the U-shaped hoof clamp penetrates through the hollow pull rod and is fixedly connected with the K-shaped stainless steel spider side plate through the hexagon socket head cap fastening screw;

step connection installation:

before the step installation, the overlap joint is installed in the overlap joint installation holes at the two ends of the toughened laminated glass step respectively, and the installation progress of the overlap joint is synchronous with that of the step;

step installation:

before the step installation, the scaffold is firstly dismantled according to the special scheme of the scaffold; the step installation is sequentially installed step by step from bottom to top, the step joints with the installed step joints are embedded in the overlap connection claws, fasteners are sleeved and temporarily fixed, the levelness of the step is measured by a horizontal guiding rule, the ball heads of the overlap connection claws are adjusted to be connected with an adjusting nut of a screw rod, the periphery of the step is smooth, the fasteners are fastened, and rechecking is performed once each step section is installed, so that error accumulation is prevented;

installing handrails:

the handrail pull rod connecting piece is positioned according to the height required by the specification and is fixed on two adjacent solid pull rods of two adjacent steps, then the stainless steel handrail adapter piece is fixed on the connecting piece, the handrail surface pipe is temporarily fixed above the connecting piece, and the hexagon screws in the handrail connecting piece are fastened after unified alignment.

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