CN112854673B - Glass sliding door positioning, installing and constructing method - Google Patents

Abstract

The invention relates to a glass sliding door positioning installation construction method, which adopts a glass sliding door installation device, wherein the glass sliding door installation device comprises a clamping frame, a clamping plate, a placing seat, a support plate, a homing spring post and a locking mechanism; the construction method for positioning and installing the glass sliding door by adopting the glass sliding door installation device comprises the following steps: s1, preparation before construction; s2, installing a door frame; s3, positioning the glass sliding door; and S4, installing the glass sliding door. The invention can solve the following problems existing in the prior art when the glass sliding door is manually installed: glass moves door and need arrange it in an incline way when installing on last door frame, and glass moves the phenomenon that the easy emergence was dropped of door when arranging in an incline way, and glass moves the door and does not have the protection when the installation for the security when glass moves the door installation is lower, and the power degree of applying when artifical lower extreme that moves the door to glass carries out the lifting is inhomogeneous.

Description

Glass sliding door positioning, installing and constructing method

Technical Field

The invention relates to the technical field of decoration construction, in particular to a glass sliding door positioning, mounting and constructing method.

Background

At present, the use of glass doors is more and more common in families, firstly, the glass doors look more beautiful and elegant, and secondly, the manufacturing technology of the glass doors is improved, so that the strength of the glass doors is not weaker than that of stainless steel doors. The glass sliding door is generally installed in a study room, a living room, a bedroom, a wardrobe and the like.

Glass moves door and at first need install the door frame in the entrance to a cave of predetermineeing when installing, then the manual work moves glass the upper end of door and supports on the slip track of last door frame, then moves glass the lower extreme of door and rotate for glass moves the lower extreme of door and can support on the inserted bar of door frame down, and the problem that exists when current manual work moves the door to glass installs as follows:

glass moves a quality heavier, and the manual work is lifted it and is moved the installation inconvenient, and glass moves a door and need arrange it that inclines when installing on last door frame, and glass moves the phenomenon that takes place to drop easily when the door slope is arranged, and glass moves a door and does not have the protection when the installation for the security when glass moves a door installation is lower, and glass moves a door and does not have spacingly after installing in place, and the artifical power degree of exerting when carrying out the lifting to the lower extreme that glass moved a door inhomogeneous, causes glass to move a door installation unsmooth.

Disclosure of Invention

In order to solve the problems, the invention provides a glass sliding door positioning installation construction method which adopts a glass sliding door installation device, wherein the glass sliding door installation device comprises a clamping frame, clamping plates, a placing seat, a support plate, a returning elastic column and a locking mechanism, the clamping frame is of a U-shaped structure, the clamping plates are symmetrically arranged in the U-shaped structure of the clamping frame, clamping studs are arranged on opposite sides of the clamping plates through bearings, the middle parts of the clamping studs are connected with the side walls of the clamping frame in a threaded fit mode, the clamping columns are distributed at the upper end and the lower end of each clamping stud, the clamping columns are arranged on the clamping plates, the outer ends of the clamping columns penetrate through the clamping frame, guide columns are arranged on the side surfaces of the clamping frame, the guide columns are of a sliding telescopic structure, the placing seat is arranged on the guide columns through support connecting rods, the support plates are arranged on the side surfaces of the placing seat corresponding to the clamping frame, the glass sliding door can be positioned and arranged in a door frame by taking the side door frame as a reference, the angle deviation between the glass sliding door and the door frame is prevented, the locking mechanism can be positioned in a groove at the lower end of the glass sliding door, the glass sliding door can be moved to a proper position by pushing the placing seat to enable the guide post to be matched and stretched, the groove at the upper end of the glass sliding door can be clamped on a sliding track of the upper door frame by pressing the repositioning elastic column downwards, and the glass sliding door can be smoothly moved between the upper door frame and the lower door frame by continuously pushing the placing seat inwards.

The locking mechanism comprises a locking support plate connected to the bottom of the homing bullet column, both ends of the locking support plate are telescopic adjusting structures, a support plate is symmetrically arranged on the end face of the locking support plate, support clamping blocks are arranged on the opposite side faces of the support plate through rotating shafts, the rotating shafts are connected with the support plate through bearings, the rotating shafts are fixedly connected with the support clamping blocks, the support clamping blocks are of T-shaped structures, one ends of the support clamping blocks, far away from the support plate, are of square rod structures, when the glass sliding door is in specific work, the square grooves at the bottom of the glass sliding door can be clamped on the square rod structures of the support clamping blocks through adjusting the length of the outer ends of the locking support plate, the grooves at the upper end of the glass sliding door are clamped on the sliding tracks of the upper door frame through downwards pressing the locking support plate, at the moment, the homing bullet column can generate upward lifting force on the locking support plate, so that the glass sliding door can stably support the upper door frame, prevent that glass from moving a door and taking place to drop, later promote to the direction of door frame and take place the seat, make glass move the lower extreme of door and remove down on the door frame, the axis of rotation can cooperate the rotation this moment, make glass move the door and can be in vertical state, the bullet post that restores to the throne can move a door to glass and produce ascending lift, so that its smooth and easy removal is down on the inserted bar of door frame, because backup pad symmetrical arrangement, make the bullet post that restores to the throne can drive glass and move the whole lifting that makes progress of door, prevent that glass from moving a lifting power and taking place the deviation and cause its unable card in upper and lower door frame.

The construction method for positioning and installing the glass sliding door by adopting the glass sliding door installation device comprises the following steps:

s1, preparation before construction: firstly, calibrating the size of an opening of a glass sliding door, and positioning elastic lines on the side wall of the opening and the center lines of the upper inner wall and the lower inner wall;

s2, door frame installation: respectively locking the side door frames at the central line positions of the side surfaces of the opening, enabling the middle parts of the side door frames to correspond to the elastic line positions, and then aligning and locking the upper and lower door frames and the side door frames on the upper and lower inner walls of the opening;

s3, positioning the glass sliding door: after the door frame of the opening is locked, the clamping frame is clamped on the side door frame on one side, the clamping plate can be abutted against the outer side face of the side door frame by screwing the clamping stud, then the length of the outer end of the locking support plate is adjusted, so that the square groove at the bottom of the glass sliding door can be clamped on the square rod structure supporting the clamping block, at the moment, the placing seat can be placed on the ground, the stability of the glass sliding door is improved, the locking support plate is pressed downwards, so that the groove at the upper end of the glass sliding door is clamped on the sliding track of the upper door frame, at the moment, the homing elastic column can generate upward lifting force on the locking support plate, so that the glass sliding door can be stably abutted against the upper door frame, and the glass sliding door is prevented from falling;

s4, installing the glass sliding door: the base is placed through the direction promotion to the door frame, make glass move the lower extreme of door and remove down on the door frame, the axis of rotation can cooperate the rotation this moment, make glass move the door and can be in vertical state, the playback bullet post can move the door to glass and produce ascending lift force, so that its smooth and easy removal is down on the inserted bar of door frame, glass moves the door and installs the back, through the length of adjusting the locking extension board, make the support fixture block shift out from the recess of glass move the door lower extreme, later with the locking of clamping frame on the side door frame of opposite side, so that glass moves a installation device and can move the door to another glass and install.

As a preferred technical scheme of the invention, the opposite side surfaces of the clamping plates are uniformly provided with clamping teeth along the vertical direction, the inner side surface of the closed end of the clamping frame is symmetrically provided with dovetail grooves, the dovetail grooves are respectively connected with the aligning plates in a sliding fit manner, aligning support plates are distributed between the aligning plates, the aligning support plates are connected with the aligning plates through aligning springs, the clamping teeth on the inner side surfaces of the clamping plates can increase the stability of the clamping frame, and the aligning plates can be abutted against the inserted rods of the side door frames with a certain force under the action of the aligning springs, so that the initial clamping position of the clamping frame is limited.

As a preferable technical scheme of the invention, the bottom of the placing seat is uniformly provided with the moving rollers along the width direction, and the moving rollers can increase the moving smoothness of the placing seat.

As a preferred technical scheme of the invention, the upper end of the rotating shaft is provided with a protruding plate, the inner side surface of the supporting plate is provided with a blocking block for limiting the protruding plate, and the blocking block can limit the rotating position of the rotating shaft, so that the glass sliding door can only be inclined at a certain angle after being placed on the supporting clamping block, and the glass sliding door is prevented from falling off due to a large inclined angle of the glass sliding door.

As a preferred technical scheme of the invention, one side of the outer side surface of the rotating shaft, which is far away from the stop block, is provided with a positioning slot, the inner side surface of the supporting plate is provided with a positioning support plate, the positioning support plate is connected with a positioning elastic column in a sliding fit manner, the axis of the positioning elastic column and the axis of the rotating shaft are positioned on the same horizontal plane, the positioning elastic column is arranged in parallel with the upper side surface of the locking support plate, one end of the positioning elastic column, which is close to the rotating shaft, is provided with a positioning insertion block, after the glass sliding door is installed on an upper door frame and a lower door frame, the glass sliding door can be in a vertical state, and the positioning insertion block is inserted into the positioning slot under the action of the positioning elastic column, so that the rotating angle of the rotating shaft is locked, and the glass sliding door is prevented from being excessively moved and collided with the installed glass sliding door.

As a preferred technical scheme, the side face of the square rod structure on the supporting clamping block is symmetrically provided with the stable clamping block with the telescopic structure, the stable clamping block is in a trapezoidal structure, and the stable clamping block can be abutted against the inner side wall of the groove at the lower end of the glass sliding door, so that the phenomenon of shaking between the supporting clamping block and the glass sliding door is prevented.

As a preferred technical scheme of the invention, a bearing support is arranged on the side surface of the clamping frame far away from the guide post, the bearing support is of an L-shaped structure, a bearing vertical plate is arranged on one end of the bearing support far away from the clamping frame, a bearing elastic post is connected to the bearing vertical plate in a sliding fit manner, a follower plate is arranged at one end of the bearing elastic post corresponding to the placing seat, a roller plate is mounted on the side surface of the follower plate through a hinge, bearing rollers are uniformly arranged on the roller plate along the vertical direction of the roller plate, when the upper end of the glass sliding door is pressed against the upper door frame, the rear side surface of the glass sliding door can be attached to the bearing rollers on the roller plate, the roller plate can bear and protect the rear side surface of the glass sliding door, the glass sliding door is prevented from potential slipping, and the bearing rollers can automatically roll in the installation process of the glass sliding door.

According to a preferable technical scheme of the invention, the supporting roller is a rubber roller, the lower side surface of the supporting vertical plate and the lower end of the placing seat are in the same horizontal plane, the supporting roller is a rubber roller, the roller can be prevented from damaging the glass sliding door, and the supporting vertical plate and the placing seat are both placed on the ground, so that the stability of the glass sliding door can be improved.

The invention has the beneficial effects that:

the glass sliding door can be supported and positioned and installed between an upper door frame and a lower door frame, upward lifting force can be applied to the glass sliding door in the installation process of the glass sliding door, so that the glass sliding door can smoothly move between the upper door frame and the lower door frame, the door frame can be positioned after being installed at a vertical position, and the inclined downward side of the glass sliding door can be supported and protected in the installation process of the glass sliding door;

the positioning plate on the positioning device can be abutted against the inserted rod of the side door frame with a certain force under the action of the positioning spring, so that the initial clamping position of the clamping frame is limited, and the clamping plate can be abutted against the outer side surface of the side door frame by screwing the clamping stud;

thirdly, the stable clamping block can be abutted against the inner side wall of the groove at the lower end of the glass sliding door, so that the phenomenon of shaking between the supporting clamping block and the glass sliding door is prevented;

the rotating position of the rotating shaft can be limited through the blocking block, the glass sliding door is prevented from falling due to the fact that the inclined angle of the glass sliding door is large, the glass sliding door can be in a vertical state after the glass sliding door is installed on the upper door frame and the lower door frame, and the positioning insertion block is inserted into the positioning insertion groove under the action of the positioning elastic column, so that the rotating angle of the rotating shaft is locked;

the roller plate can support and protect the rear side face of the glass sliding door, the glass sliding door is prevented from falling, and the supporting rollers can automatically roll in the installation process of the glass sliding door.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic view of a first configuration of the present invention;

FIG. 3 is a second schematic structural view of the present invention;

FIG. 4 is a schematic structural view of the positioning frame and the positioning plate of the present invention;

FIG. 5 is a schematic structural view of the present invention between the seat, the support plate, the homing pin and the locking mechanism;

FIG. 6 is a schematic structural view of the locking mechanism of the present invention;

fig. 7 is a schematic structural view of the glass sliding door positioned by the invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 2-7, a glass sliding door positioning installation construction method adopts a glass sliding door installation device, the glass sliding door installation device comprises a clamping frame 1, clamping plates 2, a placing seat 3, a support plate 4, a returning elastic column 5 and a locking mechanism 6, the clamping frame 1 is a U-shaped structure, the clamping plates 2 are symmetrically arranged in the U-shaped structure of the clamping frame 1, clamping studs 21 are respectively installed on the opposite sides of the clamping plates 2 through bearings, the middle parts of the clamping studs 21 are connected with the side walls of the clamping frame 1 in a threaded fit manner, a clamping column 22 is respectively distributed at the upper end and the lower end of the clamping studs 21, the clamping column 22 is installed on the clamping plate 2, the outer end of the clamping column 22 penetrates through the clamping frame 1, a guide column 11 is installed on the side surface of the clamping frame 1, the guide column 11 is a sliding telescopic structure, the guide column 11 is provided with the placing seat 3 through a support connecting rod 31, the invention can position and install the glass sliding door on the door frame in the way that the glass sliding door is positioned and installed on the door frame, firstly, the placing seat 3 is placed on the ground, then the clamping frame 1 is locked on the side door frame, so that the invention can position and place the glass sliding door by taking the side door frame as the reference, prevent the angle deviation between the glass sliding door and the door frame, the locking mechanism 6 can be positioned in the groove at the lower end of the glass sliding door, the guide post 11 is matched and stretched by pushing the placing seat 3, so that the glass sliding door can move to a proper position, the groove at the upper end of the glass sliding door can be clamped on the sliding track of the upper door frame by pressing the homing elastic post 5 downwards, and the placing seat 3 is pushed inwards continuously, so that the glass sliding door can smoothly move between the upper door frame and the lower door frame.

The opposite side of screens board 2 on evenly be provided with the latch along its vertical direction, the symmetry is provided with dovetail 12 on the medial surface of the blind end of screens frame 1, be connected with counterpoint board 13 respectively through sliding fit's mode in dovetail 12, it has counterpoint extension board 14 to distribute between counterpoint board 13, counterpoint extension board 14 is connected through counterpoint spring 15 with counterpoint board 13 between, the latch of 2 medial surfaces of screens board can increase the stability of screens frame 1, counterpoint board 13 can have supporting of certain dynamics under counterpoint spring 15's effect on the inserted bar of side door frame, thereby it is spacing to the initial card position of putting of screens frame 1.

The bottom of putting seat 3 on evenly be provided with along its width direction and remove the gyro wheel, remove the gyro wheel and can increase and put the smooth and easy degree that seat 3 removed.

The locking mechanism 6 comprises a locking support plate 61 connected to the bottom of the homing bullet column 5, both ends of the locking support plate 61 are of telescopic adjusting structures, support plates 62 are symmetrically installed on the end face of the locking support plate 61, support fixture blocks 64 are installed on the opposite side faces of the support plates 62 through rotating shafts 63, the rotating shafts 63 are connected with the support plates 62 through bearings, the rotating shafts 63 are fixedly connected with the support fixture blocks 64, the support fixture blocks 64 are of T-shaped structures, one ends, far away from the support plates 62, of the support fixture blocks 64 are of square rod structures, in specific work, the square grooves at the bottom of the glass sliding door can be clamped on the square rod structures of the support fixture blocks 64 by adjusting the length of the outer ends of the locking support plate 61, the groove at the upper end of the glass sliding door is clamped on a sliding track of an upper door frame by downwards pressing the locking support plate 61, and at the moment, the homing bullet column 5 can generate upwards lifting force on the locking support plate 61, make glass move the door can be stable support on last door frame, prevent that glass from moving the door and take place to drop, later promote to the direction of door frame and put seat 3, make glass move the lower extreme of door and move down on the door frame, axis of rotation 63 can cooperate the rotation this moment, make glass move the door and be in vertical state, return bullet post 5 can move the door to glass and produce ascending lift, so that its smooth and easy removal is to the inserted bar of door frame down, because backup pad 62 symmetrical arrangement, make return bullet post 5 can drive glass and move the whole ascending lifting of door, prevent that glass from moving a lifting power and take place the deviation and cause it can't block in upper and lower door frame.

The upper end of axis of rotation 63 be provided with protruding board 65, be provided with on the medial surface of backup pad 62 and be used for carrying out spacing stopper 66 to protruding board 65, can carry out spacing to the turned position of axis of rotation 63 through stopper 66 for glass moves the door and places and only can incline certain angle after supporting fixture block 64, prevents that glass from moving the great glass that causes of door inclination and moves the door and take place to drop.

One side of the outer side face of the rotating shaft 63, which is far away from the blocking block 66, is provided with a positioning slot 67, the inner side face of the supporting plate 62 is provided with a positioning support plate 68, the positioning support plate 68 is connected with a positioning elastic column 69 in a sliding fit mode, the axis of the positioning elastic column 69 and the axis of the rotating shaft 63 are located on the same horizontal plane, the positioning elastic column 69 is arranged in parallel with the upper side face of the locking support plate 61, one end, which is close to the rotating shaft 63, of the positioning elastic column 69 is provided with a positioning insertion block, after the glass sliding door is installed on an upper door frame and a lower door frame, the glass sliding door can be in a vertical state, at the moment, the positioning insertion block is inserted into the positioning slot 67 under the action of the positioning elastic column 69, so that the rotating angle of the rotating shaft 63 is locked, and the glass sliding door is prevented from excessively colliding with the installed glass sliding door.

The side of the square rod structure on the supporting fixture block 64 is symmetrically provided with a stable fixture block 641 with a telescopic structure, the stable fixture block 641 has a trapezoidal structure, and the stable fixture block 641 can be supported on the inner side wall of the groove at the lower end of the glass sliding door, so that the phenomenon of shaking between the supporting fixture block 64 and the glass sliding door is prevented.

Clamping frame 1 keep away from and be provided with bearing support 16 on the side of guide post 11, bearing support 16 is L type structure, bearing support 16 keeps away from one of clamping frame 1 and serves and be provided with bearing riser 17, be connected with bearing bullet post 18 through sliding fit's mode on the bearing riser 17, bearing bullet post 18 corresponds to one of putting seat 3 and serves and be provided with follow-up plate 19, there is roller board 110 through the hinge mounting on follow-up plate 19's the side, roller board 110 evenly is provided with bearing gyro wheel 111 along its vertical direction, when glass moved the upper end of door and supports on last door frame, its trailing flank can laminate on bearing gyro wheel 111 on roller board 110, roller board 110 can carry out the bearing protection to the trailing flank that glass moved the door, prevent that glass from moving the door and have the hidden danger of landing, glass moves the door and carries out the installation, bearing gyro wheel 111 can take place the roll automatically.

The supporting roller 111 is a rubber roller, the lower side surface of the supporting vertical plate 17 and the lower end of the placing seat 3 are in the same horizontal plane, the supporting roller 111 is a rubber roller and can prevent the roller from damaging the glass sliding door, and the supporting vertical plate 17 and the placing seat 3 are both placed on the ground, so that the stability of the glass sliding door can be improved.

As shown in fig. 1, the construction method for positioning and installing the glass sliding door by using the glass sliding door installation device comprises the following steps:

s1, preparation before construction: firstly, calibrating the size of an opening of a glass sliding door, and positioning elastic lines on the side wall of the opening and the center lines of the upper inner wall and the lower inner wall;

s2, door frame installation: respectively locking the side door frames at the central line positions of the side surfaces of the opening, enabling the middle parts of the side door frames to correspond to the elastic line positions, and then aligning and locking the upper and lower door frames and the side door frames on the upper and lower inner walls of the opening;

s3, positioning the glass sliding door: after the door frame of the opening is locked, the clamping frame 1 is clamped on the side door frame on one side, the clamping plate 2 can be abutted on the outer side surface of the side door frame by screwing the clamping stud 21, then the length of the outer end of the locking support plate 61 is adjusted, so that the square groove at the bottom of the glass sliding door can be clamped on the square rod structure supporting the clamping block 64, the stop block 66 can limit the rotating position of the rotating shaft 63, the glass sliding door is prevented from falling due to the fact that the glass sliding door is large in inclination angle, the placing seat 3 can be placed on the ground at the moment, the stability of the glass sliding door is improved, the groove at the upper end of the glass sliding door is clamped on the sliding track of the upper door frame by pressing the locking support plate 61 downwards, the homing elastic column 5 can generate upward lifting force on the locking support plate 61 at the moment, so that the glass sliding door can be stably abutted on the upper door frame, and the glass sliding door is prevented from falling, when the upper end of the glass sliding door is abutted to the upper door frame, the rear side surface of the glass sliding door can be attached to the supporting roller 111 on the roller plate 110, and the roller plate 110 can support and protect the rear side surface of the glass sliding door, so that the glass sliding door is prevented from potential sliding;

s4, installing the glass sliding door: the base 3 is placed through pushing towards the direction of the door frame, so that the lower end of the glass sliding door moves to the lower door frame, the rotating shaft 63 can rotate in a matched mode, the glass sliding door can be in a vertical state, the positioning insertion block is inserted into the positioning insertion groove 67 under the action of the positioning elastic column 69 at the moment, the rotating angle of the rotating shaft 63 is locked, the glass sliding door is prevented from excessively colliding with the installed glass sliding door, the restoring elastic column 5 can generate upward lifting force for the glass sliding door, so that the glass sliding door smoothly moves to the insertion rod of the lower door frame, after the glass sliding door is installed, the supporting fixture block 64 is moved out of the groove in the lower end of the glass sliding door through adjusting the length of the locking support plate 61, then the clamping frame 1 is locked on the side door frame on the other side, and the glass sliding door installation device can install another glass sliding door.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A glass sliding door positioning installation construction method adopts a glass sliding door installation device which comprises a clamping frame (1), clamping plates (2), a placing seat (3), a supporting plate (4), a homing elastic column (5) and a locking mechanism (6), and is characterized in that the clamping frame (1) is of a U-shaped structure, the clamping plates (2) are symmetrically arranged in the U-shaped structure of the clamping frame (1), clamping studs (21) are arranged on the opposite side surfaces of the clamping plates (2) through bearings, the middle parts of the clamping studs (21) are connected with the side wall of the clamping frame (1) in a threaded fit mode, the clamping columns (22) are distributed at the upper end and the lower end of each clamping stud (21), the clamping columns (22) are installed on the clamping plates (2), the outer ends of the clamping columns (22) penetrate through the clamping frame (1), a guide post (11) is mounted on the side face of the clamping frame (1), the guide post (11) is of a sliding telescopic structure, a placing seat (3) is mounted on the guide post (11) through a supporting connecting rod (31), a supporting plate (4) is mounted on the side face, corresponding to the clamping frame (1), of the placing seat (3), the supporting plate (4) is connected with a homing bullet post (5) in a sliding fit mode, and a locking mechanism (6) is mounted on the bottom of the homing bullet post (5); wherein:

the locking mechanism (6) comprises a locking support plate (61) connected to the bottom of the homing bullet column (5), two ends of the locking support plate (61) are both of a telescopic structure, support plates (62) are symmetrically arranged on the end face of the locking support plate (61), support clamping blocks (64) are arranged on opposite side faces of each support plate (62) through rotating shafts (63), the rotating shafts (63) are connected with the support plates (62) through bearings, and the rotating shafts (63) are fixedly connected with the support clamping blocks (64);

the supporting fixture block (64) is of a T-shaped structure, and one end, far away from the supporting plate (62), of the supporting fixture block (64) is of a square rod structure;

the construction method for positioning and installing the glass sliding door by adopting the glass sliding door installation device comprises the following steps:

s1, preparation before construction: firstly, calibrating the size of an opening of a glass sliding door, and positioning elastic lines on the side wall of the opening and the center lines of the upper inner wall and the lower inner wall;

s2, door frame installation: respectively locking the side door frames at the central line positions of the side surfaces of the opening, enabling the middle parts of the side door frames to correspond to the elastic line positions, and then aligning and locking the upper and lower door frames and the side door frames on the upper and lower inner walls of the opening;

s3, positioning the glass sliding door: after the door frame of the opening is locked, the clamping frame (1) is clamped on the side door frame on one side, the clamping stud (21) is screwed to enable the clamping plate (2) to be abutted against the outer side face of the side door frame, then the length of the outer end of the locking support plate (61) is adjusted, a square groove at the bottom of the glass sliding door can be clamped on a square rod structure supporting the clamping block (64), at the moment, the placing seat (3) can be placed on the ground, so that the stability of the glass sliding door is improved, and the groove at the upper end of the glass sliding door is clamped on a sliding track of the upper door frame by pressing the locking support plate (61) downwards;

s4, installing the glass sliding door: seat (3) are put through the direction promotion to the door frame for glass moves on the lower extreme of door moves the lower door frame, axis of rotation (63) can cooperate the rotation this moment, make glass move the door and can be in vertical state, playback bullet post (5) can move the door to glass and produce ascending lift force, so that its smooth and easy removal is on the inserted bar of lower door frame, glass moves the door and finishes the back, through the length of adjusting locking extension board (61), make support fixture block (64) shift out in the recess that glass moved the door lower extreme, later with on the side door frame of screens frame (1) locking of card, so that glass moves a door installation device and can move the door to another glass and install.

2. The glass sliding door positioning, mounting and constructing method according to claim 1, characterized in that: the utility model discloses a position alignment device, including screens board (2), clamping frame (1), counterpoint board (13), counterpoint board (14) distribute between counterpoint board (13), counterpoint board (14) and counterpoint board (13) be connected through counterpoint spring (15) between be connected through sliding fit's mode respectively, the inboard of blind end of screens board (2) on evenly be provided with the latch along its vertical direction, the symmetry is provided with dovetail (12) on the medial surface of blind end, in dovetail (12).

3. The glass sliding door positioning, mounting and constructing method according to claim 1, characterized in that: the bottom of the placing seat (3) is uniformly provided with moving rollers along the width direction.

4. The glass sliding door positioning, mounting and constructing method according to claim 1, characterized in that: the upper end of the rotating shaft (63) is provided with a protruding plate (65), and the inner side surface of the supporting plate (62) is provided with a blocking block (66) used for limiting the protruding plate (65).

5. The glass sliding door positioning, mounting and constructing method according to claim 4, characterized in that: one side of the outer side surface of the rotating shaft (63) far away from the blocking block (66) is provided with a positioning slot (67), the inner side surface of the supporting plate (62) is provided with a positioning support plate (68), the positioning support plate (68) is connected with a positioning elastic column (69) in a sliding fit mode, the axis of the positioning elastic column (69) and the axis of the rotating shaft (63) are located on the same horizontal plane, the positioning elastic column (69) is arranged in parallel to the upper side surface of the locking support plate (61), and one end, close to the rotating shaft (63), of the positioning elastic column (69) is provided with a positioning insertion block.

6. The glass sliding door positioning, mounting and constructing method according to claim 1, characterized in that: the side surface of the square rod structure on the supporting clamping block (64) is symmetrically provided with a stabilizing clamping block (641) with a telescopic structure, and the stabilizing clamping block (641) has a trapezoidal structure.

7. The glass sliding door positioning, mounting and constructing method according to claim 1, characterized in that: the clamping frame (1) keep away from and be provided with bearing support (16) on the side of guide post (11), bearing support (16) are L type structure, bearing support (16) keep away from one of clamping frame (1) and serve and be provided with bearing riser (17), be connected with bearing bullet post (18) through sliding fit's mode on bearing riser (17), bearing bullet post (18) correspond to take one of putting seat (3) and serve and be provided with follower plate (19), there is gyro wheel board (110) through the hinge mounting on the side of follower plate (19), gyro wheel board (110) evenly are provided with bearing gyro wheel (111) along its vertical direction.

8. The glass sliding door positioning, mounting and constructing method according to claim 7, characterized in that: the supporting roller (111) is a rubber roller, and the lower side surface of the supporting vertical plate (17) and the lower end of the placing seat (3) are in the same horizontal plane.

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