CN110118042B

CN110118042B - Multidimensional adjusting positioner for flat-open glass door and installation method thereof

Info

Publication number: CN110118042B
Application number: CN201810114918.7A
Authority: CN
Inventors: 欧阳刚; 熊鑫
Original assignee: Chongqing Vocational College of Public Transportation
Current assignee: Chongqing Vocational College of Public Transportation
Priority date: 2018-02-06
Filing date: 2018-02-06
Publication date: 2023-06-13
Anticipated expiration: 2038-02-06
Also published as: CN110118042A

Abstract

A multidimensional adjusting positioner for a flat-open glass door is characterized in that one end of a main clamping plate is provided with a cavity, and the bottom of the cavity provided with a chute cavity is provided with a bottom surface opening; the inner side of the main clamping plate is also provided with a convex plate, an auxiliary plate positioning threaded hole and a main clamping plate antiskid sheet; the auxiliary clamping plate is provided with a bolt hole, a transverse adjusting hole and a vertical adjusting hole, and the inner side of the auxiliary clamping plate is provided with an auxiliary clamping plate antiskid sheet; the bolts penetrate through the bolt holes and are screwed into the auxiliary plate positioning threaded holes, so that the main clamping plate and the auxiliary clamping plate are fixed together; the structure frame is provided with a sliding cavity, and the bottom of the sliding cavity is provided with a sliding cavity; an upper limit ring and a lower limit ring are arranged in the middle of the structural frame; the bottom of the structural frame is provided with a bottom cavity; the two sides of the structural frame are respectively provided with a guide lug, a transverse adjusting lug and a lug; the lug is provided with a vertical adjusting knob; the lug is provided with a vertical adjusting knob; the square rod is arranged above the magnet head, and the threaded rod is arranged on the square rod. The invention ensures that the stop position of the glass door after closing is more accurate.

Description

Multidimensional adjusting positioner for flat-open glass door and installation method thereof

Technical Field

The invention relates to door and window hardware equipment, in particular to a multidimensional adjusting positioner for a flat-open glass door.

Background

In the entrance and exit of public open space, for the communication of inside and outside vision, glass doors are often installed, and in the larger entrance and exit, side by side glass doors are often installed. Normally, the automatic stopping of the opening and closing of the casement glass door in a predetermined position is achieved by means of a ground spring. After the floor spring is used for a little time, the elasticity of the spring is weakened, and many glass vertical hinged doors cannot be opened or closed in place, so that the floor spring is quite unattractive. Because the door clamp is limited by the elasticity of the floor spring, the door clamp is often made to be large so as to prevent the glass door from being broken by the open type glass door, and meanwhile, the glass vertical hinged door cannot be manufactured by adopting the toughened glass with thinner points.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a multidimensional adjusting positioner for a flat-open glass door.

The technical scheme adopted by the invention is as follows: a multidimensional adjusting positioner for a flat-open glass door comprises a main clamping plate, an auxiliary clamping plate, a structural frame, a magnet head, a transverse adjusting knob, a magneto-philic metal block, an expansion screw, a ground plate and flat-open toughened glass; the novel sliding groove type main clamping plate is characterized in that a cavity is formed in one end of the main clamping plate, and a bottom surface opening is formed in the bottom of the cavity, in which the sliding groove cavity is formed; the inner side of the main clamping plate is also provided with a convex plate, an auxiliary plate positioning threaded hole and a main clamping plate antiskid sheet; the auxiliary clamping plate is provided with a bolt hole, a transverse adjusting hole and a vertical adjusting hole, and an auxiliary clamping plate antiskid sheet is arranged on the inner side of the auxiliary clamping plate; the bolts penetrate through the bolt holes and are screwed into the auxiliary plate positioning threaded holes, so that the main clamping plate and the auxiliary clamping plate are fixed together; the structure frame is provided with a sliding cavity, and the bottom of the sliding cavity is provided with a sliding cavity; an upper limit ring and a lower limit ring are arranged in the middle of the structural frame; the bottom of the structural frame is provided with a bottom cavity; the two sides of the structural frame are respectively provided with a guide lug, a transverse adjusting lug and a lug; the lug is provided with a vertical adjusting knob; a square rod is arranged above the magnet head, and a threaded rod is arranged above the square rod; the rasp bar penetrates out of a round hole above the bottom cavity, a square hole in the middle of the sliding gear and a sliding cavity and is screwed into a threaded hole in the middle of the sliding block; the two ends of the tension spring are respectively fixed with the sliding block and the structural frame by the tension spring positioning block; the anti-collision sleeve is sleeved at the lower end of the magnet head; the limiting block prevents the sliding block from sliding upwards and completely out of the sliding cavity;

the vertical adjusting knob is rotated, so that the sliding gear can be shifted to adjust the position of the magnet head in the bottom cavity; the structure frame positioning block is fixed in the cavity, the transverse adjusting knob is arranged on the structure frame positioning block, the guide boss is arranged in the chute, the transverse adjusting knob is screwed into the transverse adjusting threaded hole, and the position of the structure frame in the cavity can be adjusted by rotating the transverse adjusting knob; the magneto-philic metal block is fixed in a square hole cut on the floor board by an expansion screw; the lower corner of the side-hung door toughened glass, which is far away from the steering shaft, is provided with a glass opening; the main clamping plate and the auxiliary clamping plate firmly clamp the toughened glass of the vertical hinged door into a whole.

The vertical adjusting knob is rotated, and the magnet head can be adjusted to protrude or retract into the lower opening of the bottom cavity.

The anti-collision sleeve is sleeved at the lower end of the magnet head, and the bottom surface of the anti-collision sleeve ring is lower than the bottom surface of the magnet head; the magnetic metal block is arranged on the moving track of the magnet head of the flat-open glass door positioner, and the top surface of the magnetic metal block is flush with the top surface of the ground plate; the inner sides of the main clamping plate and the auxiliary clamping plate are respectively provided with a main clamping plate anti-slip sheet and an auxiliary clamping plate anti-slip sheet so as to prevent the main clamping plate and the auxiliary clamping plate from being clamped or slid by the flat-open door toughened glass when the flat-open door toughened glass is fixed; the tension spring has an upward tension on the magnet head, which is smaller than the attractive force when the distance between the magnet head and the magnet-philic metal block is smaller than one centimeter.

By adopting the technical scheme of the invention, the method has the following beneficial effects:

1) The invention positions the flat-open glass door by utilizing the performance of the magnet, and can solve the problem that the flat-open glass door cannot return well due to the weakening of the elasticity of the spring after the flat-open glass door is used for a long time;

2) The positioning magnet is arranged on the ground, so that the walking is attractive and is not influenced;

3) The invention reduces the spring force requirement on the floor spring, and can use smaller door clamps, so that the glass door is more beautiful;

4) The invention makes it possible to use thinner glass to make glass door, which can save more energy and reduce construction difficulty;

5) The invention can make the stop position of the double-leaf split glass door more accurate after closing, and can limit the stop position of the glass door leaf after opening, so that the glass door is more beautiful after closing and opening.

Drawings

FIG. 1 is a perspective view of the present invention (the positioner is mounted on two opposite glass door leaves, and the magnet head and the magnet-philic metal block are close to each other and attract each other to position the door leaves);

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

FIG. 3 is a schematic view of the structure of the main plate and the auxiliary plate of the present invention;

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

FIG. 5 is a schematic view of the combined structure of the structural frame and the magnet head of the present invention;

FIG. 6 is a schematic cross-sectional view of the structural frame and magnet head of the present invention;

in the figure: 10-main plate, 11-cavity, 12-chute, 13-bottom opening, 14-convex plate, 15-auxiliary plate positioning screw hole, 16-main plate antiskid sheet, 20-auxiliary plate, 21-bolt hole, 22-transverse adjusting hole, 23-vertical adjusting hole, 24-auxiliary plate antiskid sheet, 25-bolt, 30-structure frame, 31-sliding cavity, 32-sliding cavity, 33-upper limit ring, 34-lower limit ring, 35-bottom cavity, 36-guiding protrusion, 37-transverse adjusting protrusion, 38-lug, 39-vertical adjusting knob, 40-magnet head, 41-square rod, 42-threaded rod, 43-tension spring positioning block, 44-sliding block, 45-tension spring, 46-anti-collision ring, 47-sliding gear, 48-limiting block, 50-transverse adjusting knob, 51-structure frame positioning block, 52-transverse adjusting screw hole, 60-magnet metal block, 61-expansion screw, 62-ground plate, 70-flat door glass, 71-glass opening.

Detailed Description

The invention is further illustrated by the following figures and examples: as shown in fig. 1 to 6, a multidimensional adjusting positioner for a flat-open glass door comprises a main plate 10, an auxiliary plate 20, a structural frame 30, a magnet head 40, a transverse adjusting knob 50, a magneto-philic metal block 60, an expansion screw 61, a ground plate 62 and flat-open tempered glass 70; the novel clamping plate is characterized in that a cavity 11 is formed in one end of the main clamping plate 10, a sliding groove 12 is formed in the cavity 11, and a bottom opening 13 is formed in the bottom of the cavity 11; the inner side of the main plate 10 is also provided with a convex plate 14, an auxiliary plate positioning threaded hole 15 and a main plate antiskid sheet 16; the auxiliary clamping plate 20 is provided with a bolt hole 21, a transverse adjusting hole 22 and a vertical adjusting hole 23, and the inner side of the auxiliary clamping plate 20 is provided with an auxiliary clamping plate anti-slip sheet 24; the bolts 25 are screwed into the auxiliary plate positioning threaded holes 15 through the bolt holes 21 to fix the main clamping plate 10 and the auxiliary clamping plate 20 together; the structure frame 30 is provided with a sliding cavity 31, and the bottom of the sliding cavity 31 is provided with a sliding cavity 32; an upper limit ring 33 and a lower limit ring 34 are arranged in the middle of the structural frame 30; the bottom of the structural frame 30 is provided with a bottom cavity 35; the structure frame 30 is provided with a guide projection 36, a transverse adjusting projection 37 and a lug 38 on both sides thereof; the lug 38 is provided with a vertical adjusting knob 39; a square rod 41 is arranged above the magnet head 40, and a threaded rod 42 is arranged above the square rod 41; the rasp bar 42 penetrates out of the round hole above the bottom cavity 35, the square hole in the middle of the sliding gear 47 and the sliding cavity 32 and is screwed into the threaded hole in the middle of the sliding block 44; the two ends of the tension spring 45 are respectively fixed with the sliding block 44 and the structural frame 30 by the tension spring positioning block 43; the anti-collision ferrule 46 is sleeved at the lower end of the magnet head 40; the limiting block 48 prevents the sliding block 44 from completely sliding out of the sliding cavity 31 upwards;

rotating the vertical adjustment knob 39 can toggle the sliding gear 47 for adjusting the position of the magnet head 40 in the bottom cavity 35; the structure frame positioning block 51 is fixed in the cavity 11, the transverse adjusting knob 50 is arranged on the structure frame positioning block 51, the guide lug 36 is arranged in the chute 12, the transverse adjusting knob 50 is screwed into the transverse adjusting threaded hole 52, and the position of the structure frame 30 in the cavity 11 can be adjusted by rotating the transverse adjusting knob 50; the nucleophilic metal block 60 is fixed in a square hole cut on the floor plate 62 by an expansion screw 61; a glass opening 71 is formed in the lower corner of the side-hung door toughened glass 70, which is far away from the steering shaft; the main plate 10 and the auxiliary plate 20 firmly clamp the flat-open door tempered glass 70 into a whole.

The vertical adjustment knob 39 is rotated to be able to be protruded or retracted by the adjustment magnet head 40 into the lower mouth of the bottom cavity 35.

After the anti-collision ring 46 is sleeved at the lower end of the magnet head 40, the bottom surface of the anti-collision ring 46 is lower than the bottom surface of the magnet head 40; the nucleophilic metal block 60 is arranged on the running track of the magnet head 40 of the flat-open glass door positioner, and the top surface of the nucleophilic metal block 60 is flush with the top surface of the floor board 62; the inner sides of the main plate 10 and the auxiliary plate 20 are respectively provided with a main plate anti-slip sheet 16 and an auxiliary plate anti-slip sheet 24 so as to prevent the main plate 10 and the auxiliary plate 20 from being clamped or slid by the flat-open door toughened glass 70 when the flat-open door toughened glass 70 is fixed; the tension spring 45 pulls the magnet head 40 upwards, which is smaller than the attractive force when the distance between the magnet head 40 and the magneto-philic metal block 60 is smaller than one centimeter.

The installation method of the embodiment is as follows:

the installation is carried out by the method,

1) A glass opening 71 matched with the shape of the convex plate 14 is formed in the lower corner of the side of the flat-open door toughened glass 70, which is far away from the steering shaft;

2) The inner sides of the main clamping plate 10 and the auxiliary clamping plate 20 are respectively provided with a main clamping plate anti-slip sheet 16 and an auxiliary clamping plate anti-slip sheet 24, and bolts 25 penetrate through the bolt holes 21 and are screwed into the auxiliary plate positioning threaded holes 15, so that the main clamping plate 10 and the auxiliary clamping plate 20 are firmly fixed together;

3) Drawing a straight line parallel to the straight line formed between the two upright posts of the door frame at the place passing through the center point of the rotating shaft of the flat-open door toughened glass 70;

4) A hole matched with the shape of the nucleophilic metal block 60 is formed at the position where the running track of the center point of the glass door magnet head 40 provided with the locator is intersected with the ground straight line passing through the center point of the rotating shaft of the flat-open door toughened glass 70;

5) Fixing the nucleophilic metal block 60 on the ground by using an expansion screw 61, and enabling the top surface of the nucleophilic metal block 60 to be flush with the top surface of the ground plate 62;

the method comprises the steps of debugging,

1) Rotating the vertical adjusting knob 39 to make the distance between the magnet head 40 and the ground less than one centimeter and more than three millimeters;

2) Closing the door leaf to enable the magnet head 40 to be adsorbed on the magnet-philic metal block 60; rotating the transverse adjusting knob 50 to make the door leaf parallel to the mark line passing through the center point of the rotating shaft of the flat-open door toughened glass 70;

3) When the door leaf is moved forcefully and the magnet head 40 is separated from the magnet-philic metal block 60, the magnet head 40 automatically retracts, friction with the ground is avoided, and the door leaf is moved to be normal.

The technical scheme of the invention has the following beneficial effects:

the invention positions the flat-open glass door by utilizing the performance of the magnet, and can solve the problem that the flat-open glass door cannot return well due to the weakening of the elasticity of the spring after the flat-open glass door is used for a long time; the positioning magnet is arranged on the ground, so that the walking is attractive and is not influenced; the invention reduces the spring force requirement on the floor spring, and can use smaller door clamps, so that the glass door is more beautiful; the invention makes it possible to use thinner glass to make glass door, which can save more energy and reduce construction difficulty; the invention can make the stop position of the double-leaf split glass door more accurate after closing, and can limit the stop position of the glass door leaf after opening, so that the glass door is more beautiful after closing and opening.

The above examples of the present invention are illustrative of exemplary embodiments of the present invention and are not intended to be limiting of the embodiments of the present invention. Obvious variations that result from the prompts of the embodiments of the invention are still within the scope of the claims of the invention.

Claims

1. The multidimensional adjusting positioner for the flat-open glass door comprises a main clamping plate (10), an auxiliary clamping plate (20), a structural frame (30), a magnet head (40), a transverse adjusting knob (50), a magneto-philic metal block (60), expansion screws (61), a ground plate (62) and flat-open tempered glass (70); the novel clamping device is characterized in that a cavity (11) is formed in one end of the main clamping plate (10), a sliding groove (12) is formed in the cavity (11), and a bottom opening (13) is formed in the bottom of the cavity (11); the inner side of the main clamping plate (10) is also provided with a convex plate (14), an auxiliary plate positioning threaded hole (15) and a main clamping plate antiskid sheet (16); the auxiliary clamping plate (20) is provided with a bolt hole (21), a transverse adjusting hole (22) and a vertical adjusting hole (23), and the inner side of the auxiliary clamping plate (20) is provided with an auxiliary clamping plate anti-slip sheet (24); the bolts (25) penetrate through the bolt holes (21) and are screwed into the auxiliary plate positioning threaded holes (15) to fix the main clamping plate (10) and the auxiliary clamping plate (20) together; a sliding cavity (31) is arranged on the structure frame (30), and a sliding cavity (32) is arranged at the bottom of the sliding cavity (31); an upper limit ring (33) and a lower limit ring (34) are arranged in the middle of the structure frame (30); the bottom of the structure frame (30) is provided with a bottom cavity (35); the two sides of the structural frame (30) are respectively provided with a guide convex (36), a transverse adjusting convex (37) and a lug (38); the lug (38) is provided with a vertical adjusting knob (39); a square rod (41) is arranged above the magnet head (40), and a threaded rod (42) is arranged above the square rod (41); the rasp bar (42) penetrates out of a round hole above the bottom cavity (35), a square hole in the middle of the sliding gear (47) and the sliding cavity (32) and is screwed into a threaded hole in the middle of the sliding block (44); the two ends of the tension spring (45) are respectively fixed with the sliding block (44) and the structural frame (30) by the tension spring positioning block (43); the anti-collision ferrule (46) is sleeved at the lower end of the magnet head (40); the limiting block (48) prevents the sliding block (44) from completely sliding out of the sliding cavity (31) upwards; the vertical adjusting knob (39) is rotated, the sliding gear (47) can be shifted, and the position of the magnet head (40) in the bottom cavity (35) is adjusted; the structure frame positioning block (51) is fixed in the cavity (11), the transverse adjusting knob (50) is arranged on the structure frame positioning block (51), the guide lug (36) is arranged in the sliding groove (12), the transverse adjusting knob (50) is screwed into the transverse adjusting threaded hole (52), and the position of the structure frame (30) in the cavity (11) can be adjusted by rotating the transverse adjusting knob (50); the magneto-philic metal block (60) is fixed in a square hole cut on the floor plate (62) by an expansion screw (61); a glass opening (71) is formed in the lower corner of the side of the flat-open door toughened glass (70) far away from the steering shaft; the main clamping plate (10) and the auxiliary clamping plate (20) firmly clamp the flat-open door toughened glass (70) into a whole; the vertical adjusting knob (39) is rotated, and the adjusting magnet head (40) can be protruded or retracted into the lower opening of the bottom cavity (35); after the anti-collision ferrule (46) is sleeved at the lower end of the magnet head (40), the bottom surface of the anti-collision ferrule (46) is lower than the bottom surface of the magnet head (40); the magnetic metal block (60) is arranged on a track of the movement of the magnet head (40) of the flat-open glass door positioner, and the top surface of the magnetic metal block (60) is flush with the top surface of the ground plate (62); the inside of the main plate (10) and the inside of the auxiliary plate (20) are respectively provided with a main plate anti-slip sheet (16) and an auxiliary plate anti-slip sheet (24) so as to prevent the main plate (10) and the auxiliary plate (20) from being clamped or slid by the flat-open door toughened glass (70) when the flat-open door toughened glass (70) is fixed; the upward tension of the tension spring (45) on the magnet head (40) is smaller than the attractive force when the distance between the magnet head (40) and the magneto-philic metal block (60) is smaller than one centimeter.

2. A method of installing a multi-dimensional adjusting positioner for a flat-open glass door as claimed in claim 1, comprising the steps of:

the installation is carried out by the method,

a glass opening (71) matched with the shape of the convex plate (14) is formed in the lower corner of the side of the flat-open door toughened glass (70) far away from the steering shaft;

the inner sides of the main clamping plate (10) and the auxiliary clamping plate (20) are respectively provided with a main clamping plate anti-slip sheet (16) and an auxiliary clamping plate anti-slip sheet (24), bolts (25) penetrate through bolt holes (21) and are screwed into auxiliary plate positioning threaded holes (15), and the main clamping plate (10) and the auxiliary clamping plate (20) are firmly fixed together;

drawing a straight line parallel to a straight line formed between two upright post frames of the door frame at a place passing through the center point of a rotating shaft of the flat-open door toughened glass (70);

a hole matched with the shape of the nucleophilic metal block (60) is formed at the position where the running track of the center point of the glass door magnet head (40) provided with the locator is intersected with the ground straight line passing through the center point of the rotating shaft of the flat-open door toughened glass (70);

fixing the magnetic metal block (60) on the ground by using an expansion screw (61), and enabling the top surface of the magnetic metal block (60) to be flush with the top surface of the ground plate (62);

the method comprises the steps of debugging,

rotating the vertical adjusting knob (39) to enable the distance between the magnet head (40) and the ground to be less than one centimeter and more than three millimeters;

closing the door leaf to enable the magnet head (40) to be adsorbed on the magnet-philic metal block (60); rotating the transverse adjusting knob (50) to enable the door leaf to be parallel to a mark line passing through the center point of the rotating shaft of the flat-open door toughened glass (70);

when the door leaf is moved forcefully and the magnet head (40) is separated from the magnet-philic metal block (60), the magnet head (40) automatically retracts, friction with the ground is avoided, and the door leaf is moved to be normal.