CN108397070B

CN108397070B - Hardware system suitable for pressing sliding door

Info

Publication number: CN108397070B
Application number: CN201710068178.3A
Authority: CN
Inventors: 倪守强; 李文博; 耿浩
Original assignee: Hebei Orient Sundar Windows Co Ltd
Current assignee: Hebei Orient Sundar Windows Co Ltd
Priority date: 2017-02-08
Filing date: 2017-02-08
Publication date: 2024-04-26
Anticipated expiration: 2037-02-08
Also published as: CN108397070A

Abstract

The invention discloses a hardware system suitable for a pressing sliding door.A group of transmission hardware above the hardware system is formed by connecting more than two fan hook locks, a steering angle driver, more than two pulley assemblies, another steering angle driver and a lock above the steering angle driver in series by a transmission slat and then fixing the two fan hook locks, the steering angle driver, the more than two pulley assemblies and the lock above the steering angle driver on a handle driver; the lower group of transmission hardware is formed by connecting more than two pulley assemblies, a third steering angle driver and a lower lock head in series by a transmission slat and then fixing the pulley assemblies on a handle driver; the handle is rotated, two groups of transmission hardware are driven by the transmission slat to move towards the handle direction, the upper sliding rail, the lower sliding rail, the lock hook of the fan hook lock and the lock head move from outside to inside, so that the push-pull fan compresses the sealing rubber strip between the push-pull fan, the fixed fan, the upper frame, the lower frame and the right frame or the left frame contacted with the fixed fan, and the lock hook of the fan hook lock is hooked with the locking block. The pressing sliding door has good sealing effect, greatly increases water tightness and air tightness, and has high locking reliability and long service life; and the greater the wind pressure, the better the sealing effect.

Description

Hardware system suitable for pressing sliding door

Technical Field

The invention belongs to the field of doors and windows, and relates to a hardware system suitable for pressing a sliding door.

Background

As an opening mode, a sliding door is known, and the sliding door has poor watertight performance and airtight performance relative to a vertical hinged door product due to its structure. Mainly because the prior sliding door is provided with the wool tops in the cavity of the sliding sash, the wool tops are contacted with the sliding rail for sealing, and the wool tops are easy to deform under the condition of stress, and the sealing effect cannot be achieved after the wool tops deform; frequent repair and replacement of the tops is required, which in turn results in a shortened service life of the sliding door. The sliding door in the existing market is mainly made of aluminum alloy and plastic steel, and is not easy to change the watertight performance and the airtight performance.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provide a hardware system suitable for pressing a sliding door, and the sliding door using the hardware system can realize sealing by using a sealing rubber strip, and has good sealing effect, and the larger the wind pressure is, the better the sealing effect is.

In order to achieve the above object, the technical solution of the present invention is: a hardware system suitable for pressing a sliding door comprises transmission hardware and fixed hardware; the fixed hardware comprises a groove type upper sliding rail, a convex type lower sliding rail, more than two locking blocks and more than two lock head locking blocks; the transmission hardware comprises more than two upper pulley assemblies and more than two lower pulley assemblies matched with the upper sliding rail and the lower sliding rail, more than two fan hook locks, more than two lock heads, a transmission slat, three steering angle drivers, an inner handle, an outer handle and a handle driver; the fan-shaped hook lock and the locking block form a hook locking component; the lock head and the lock head locking piece form a locking component;

The groove type upper sliding rail is fixed on the outdoor side of the lower end of the upper frame; the protruding lower sliding rail is fixed on the outdoor side of the upper end of the threshold;

The upper pulley assembly comprises a sliding plate I, a sliding piece I, a fixed plate I and a transverse pulley; the upper end face of the sliding plate I is provided with a clamping groove of the sliding piece I, two ends of the sliding plate I are provided with fixing holes A, two sliding holes A are formed in the inner sides of the fixing holes A, and the upper end faces of the two ends are protruded between the fixing holes A and the sliding holes A to form protruding walls of the sliding groove of the sliding plate I in an inward folding manner; the two ends of the sliding piece I are provided with fixing holes B, and arc strip holes inclining from the outside to the inside according to the locking rotation direction are respectively arranged at positions corresponding to the two sliding holes A on the sliding plate I; the fixed plate I is provided with shaft pin holes B at positions corresponding to the two sliding holes A on the sliding plate I respectively; the sliding piece I penetrates through the clamping groove of the sliding plate I, and two ends of the fixed plate I are clamped in the sliding groove of the sliding plate I; the sliding shaft pin penetrates through the sliding hole A and the arc-shaped strip hole and is then fixed in the shaft pin hole B; the upper end face of the fixed plate I is provided with a fixed seat I of a transverse pulley, and the transverse pulley is hinged on the fixed seat I; the upper pulley assembly is fixed in a groove rail A at the upper end of the upper push-pull sash frame through a fixing hole A on a sliding plate I of the upper pulley assembly; the transverse pulley is clamped in the upper sliding rail of the upper frame; two ends of the sliding piece I are fixed on the transmission slat through fixing holes B;

The lower pulley assembly comprises a sliding plate II, a sliding piece II, a fixed plate II, two pulley clamping plates and two vertical pulleys, wherein the sliding plate II is identical to the sliding plate I in structure, and the sliding piece II is identical to the sliding piece I in structure; the upper end face of the sliding plate II is provided with a clamping groove of the sliding piece II, two ends of the sliding plate II are provided with fixing holes A, two sliding holes A are formed in the inner sides of the fixing holes A, and the upper end faces of the two ends are protruded between the fixing holes A and the sliding holes A to form protruding walls of the sliding groove of the sliding plate II by inwards folding the upper end faces; the two ends of the sliding piece II are provided with fixing holes B, and arc strip holes inclining from the outside to the inside according to the locking rotation direction are respectively arranged at positions corresponding to the two sliding holes A on the sliding plate II; the fixed plate II is provided with shaft pin holes B at positions corresponding to the two sliding holes A on the sliding plate II respectively; the sliding piece II penetrates through the clamping groove of the sliding plate II, and two ends of the fixed plate II are clamped in the sliding groove of the sliding plate II; the sliding shaft pin penetrates through the sliding hole A and the arc-shaped strip hole and is then fixed in the shaft pin hole B; the upper end face of the fixed plate II is provided with a fixed seat II of two vertical pulleys, the two vertical pulleys are hinged between two pulley clamping plates through shaft pins, and the two pulley clamping plates are fixed on a fixed shaft which extends out of the front part and the rear part of the fixed seat II on the upper end face of the fixed plate II; the lower pulley assembly is fixed in a groove rail B at the lower end of the lower push-pull sash frame through a fixing hole A on a sliding plate II; the two vertical pulleys are clamped on a lower sliding rail on the threshold; two ends of the sliding piece II are fixed on the transmission slat through fixing holes B;

The fan-hook lock comprises a sliding plate III, a sliding piece III, a fixed plate III and a locking hook, wherein the sliding plate III is identical to the sliding plate I in structure, and the sliding piece III is identical to the sliding piece I in structure; the upper end face of the sliding plate III is provided with a clamping groove of the sliding piece III, two ends of the sliding plate III are provided with fixing holes A, two sliding holes A are formed in the inner sides of the fixing holes A, and the upper end faces of the two ends are protruded between the fixing holes A and the sliding holes A to form protruding walls of the sliding groove of the fixing plate III by inwards folding the upper end faces; the two ends of the sliding piece III are provided with fixing holes B, and arc strip holes inclining from the outside to the inside according to the locking rotation direction are respectively arranged at positions corresponding to the two sliding holes A on the sliding plate III; the fixed plate III is provided with a shaft pin hole B at the position corresponding to the two sliding holes A on the sliding plate III, and the fixed plate III is provided with a fixed hole C; the sliding piece III penetrates through the clamping through groove of the sliding plate III, and two ends of the fixed plate III are clamped in the sliding groove of the sliding plate III; the sliding shaft pin penetrates through the sliding hole A and the arc-shaped strip hole and is then fixed in the shaft pin hole B; the upper end face of the lock hook is provided with a fixing hole D, one side of the lock hook protrudes downwards to form a locking hook, and the locking hook is fixed on the upper end face of the fixing plate III through the fixing hole D and the fixing hole C; the fan hook lock is fixed in a groove rail C at the left end of the left push-pull fan frame or a groove rail D at the right end of the right push-pull fan frame through a fixing hole A on a sliding plate III, and two ends of a sliding piece III are fixed on the transmission slat through fixing holes B; the locking block is U-shaped or is U-shaped at the position tightly matched with the locking hook of the locking hook, and is fixed on the outdoor side of the position corresponding to the locking hook of the right fixed fan frame or the left fixed fan frame at the left end of the left fixed fan frame; after locking, the locking hook of the fan hook lock is hooked and tightly locked with the locking block;

The inner handle and the outer handle are arranged on the inner side and the outer side of the right push-pull sash frame or the left push-pull sash frame; the lock head is a mushroom lock head; the lock head locking piece is a metal block, an arc-shaped sliding groove inclining from the outside to the inside according to a locking motion track is formed in the metal block, the metal block is fixed at a position of the right frame or the left frame corresponding to the lock head, and the lock head can be slidably clamped in the inclined arc-shaped sliding groove of the lock head locking piece in a locking state and an opening initial stage;

The transmission hardware is divided into two groups, one group is from one end far away from the inner handle and the outer handle, and the transmission lath is used for sequentially connecting more than two fan hook locks, more than two pulley assemblies, the other steering angle driver and the upper lock head in series and then fixing the two fan hook locks, the steering angle driver, the more than two pulley assemblies and the other steering angle driver on the handle driver; the lower group is formed by connecting more than two upper and lower pulley assemblies, a third steering angle driver and a lower lock head in series by a transmission slat from one end far away from the inner handle and the outer handle in sequence and then fixing the two pulley assemblies, the third steering angle driver and the lower lock head on the handle driver; the upper group of transmission hardware is arranged in a groove rail C of each communicated left push-pull sash frame, a groove rail A of the upper push-pull sash frame and a groove rail D of the right push-pull sash frame end; the lower group of transmission hardware is arranged in a groove rail B of the lower push-pull sash frame and a groove rail D of the right push-pull sash frame which are communicated with each other; the three steering angle drivers are respectively positioned at the corner of the groove rail C connected with the groove rail A, the corner of the groove rail A connected with the groove rail D and the corner of the groove rail B connected with the groove rail D.

Further preferably, when the groove rail A, the groove rail B, the groove rail C and the groove rail D are provided with C-shaped mounting grooves, the transmission slat is of a U-shaped structure with clamping steps on the section, and is provided with fixing holes connected with other hardware, and the transmission slat is clamped in the C-shaped mounting grooves in the groove rail A, the groove rail B, the groove rail C and the groove rail D and can slide along the groove rail A, the groove rail B, the groove rail C and the groove rail D; the fan hook lock, the steering angle driver, the upper pulley assembly, the lock head and the lower pulley assembly are fixed at two ends of the driving slat. The sliding door is suitable for aluminum alloy sliding doors and wood-clad aluminum sliding doors, and is simple and practical.

Further preferably, when the C-shaped mounting grooves are not arranged in the groove rail A, the groove rail B, the groove rail C and the groove rail D, the transmission slat comprises an outer fixing slat and an inner transmission aluminum; the section of the inner transmission aluminum is of a U-shaped structure with clamping steps; the external fixing slat is a C-shaped groove which is matched with the widths of the groove rail A, the groove rail B, the groove rail C and the groove rail D; the outer walls of the two ends of the bottom of the C-shaped groove are inwards concave to form clamping steps, and the inner walls of the two ends of the upper part of the C-shaped groove are respectively provided with C-shaped clamping grooves matched with the shapes of the two ends of the inner transmission aluminum; the inner transmission aluminum is arranged in the C-shaped clamping groove of the outer fixing slat and slides along the C-shaped clamping groove; the external fixing lath is fixed in the groove rail A, the groove rail B, the groove rail C and the groove rail D, and the fan hook lock, the steering angle driver, the upper pulley assembly, the lock head and the lower pulley assembly are fixed at two ends of the internal transmission aluminum. The structure can transfer and install the internal transmission aluminum in the U-shaped hardware installation groove on the sash wood section bar of the aluminum clad wood or solid wood sliding door, and the groove bottom part is similar to the C-shaped groove, and a containing position of a screw is reserved at the bottom part of the groove, so that the screw for fixing the external fixing slat does not scratch the internal fixing slat and does not influence the transmission of the internal fixing slat; the transmission is flexible and reliable, and the derailment is avoided. The aluminum-clad wood or solid wood sliding door is suitable for aluminum-clad wood or solid wood sliding doors.

Further preferably, the external fixing strip plate of the transmission strip plate is an external fixing strip plate made of aluminum alloy, and the internal transmission strip plate is internal transmission aluminum in the prior art.

Further preferably, the upper end surfaces of the clamping groove of the upper end surfaces of the sliding plate I of the upper pulley assembly, the sliding plate II of the lower pulley assembly and the sliding plate III of the fan hook lock are provided with anti-falling cover plates.

Further preferably, the lower pulley assembly further comprises a transverse pulley, the upper end of the fixed seat II is further provided with a fixed end of the transverse pulley, and the transverse pulley is hinged to the upper end of the fixed seat II; a positioning groove of a transverse pulley is arranged on the lower sliding rail on the threshold; the transverse pulley is positioned in the positioning groove of the transverse pulley. The transverse pulley plays a role in positioning and avoids derailment of the vertical pulley.

When the sliding sash is used, as long as the handle is rotated, under the drive of the handle, two groups of transmission hardware are driven by the transmission slat to move towards the handle, the upper sliding rail, the lower sliding rail, the lock hook of the sash hook lock and the lock head move from outside to inside, so that the sliding sash compresses the sealing adhesive tape between the sliding sash, the fixed sash, the upper frame, the lower frame and the right frame or the left frame which are contacted with the sliding sash, and the lock hook of the sash hook lock hooks the locking block; the press fit sliding door can remove the wool tops, is sealed by the sealing rubber strip, has good sealing effect, greatly increases the water tightness and air tightness, and has high locking reliability and long service life; and the greater the wind pressure, the better the sealing effect. The invention is more suitable for aluminum clad aluminum sliding doors, aluminum alloy sliding doors, wood clad aluminum sliding doors, solid wood sliding doors and the like. According to the invention, two ends of the fixed plate I of the upper pulley assembly are respectively clamped in the sliding groove of the sliding plate I, two ends of the fixed plate II of the lower pulley assembly are respectively clamped in the sliding groove of the sliding plate II, and two ends of the fixed plate III of the fan hook lock are respectively clamped in the sliding groove of the sliding plate III, so that the contact area is large, the stability is good, the abrasion is small, and the service life is long.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a first embodiment of a drive flight according to the present invention;

FIG. 3 is a schematic cross-sectional view of a first embodiment of a drive flight according to the present invention;

FIG. 4 is a schematic view of the structure of the upper pulley assembly of the present invention when the push-pull sash is in a closed state;

FIG. 5 is a schematic view of the structure of the upper pulley assembly of the present invention when the push-pull sash is in an open state;

FIG. 6 is an exploded view of the upper pulley assembly of the present invention;

FIG. 7 is a schematic view of the lower pulley assembly of the present invention when the sliding sash is in a closed position;

FIG. 8 is a schematic view of the lower pulley assembly of the present invention in an open position of the push-pull window;

FIG. 9 is an exploded view of the lower pulley assembly of the present invention;

FIG. 10 is a schematic view of the structure of the fan hook lock and the locking block of the present invention when locked together;

FIG. 11 is a schematic view of the structure of the fan hook lock and the locking block of the present invention when opened;

FIG. 12 is a schematic view of an exploded view of a fan hook lock of the present invention;

FIG. 13 is a schematic perspective view of the lock block of the present invention from the front;

FIG. 14 is a schematic view showing a perspective structure of the lock block of the present invention from the rear;

FIG. 15 is a schematic perspective view of a lock block of a lock head according to the present invention;

FIG. 16 is a front view of a lock block of the lock head of the present invention;

FIG. 17 is a schematic perspective view of a lock head according to the present invention;

FIG. 18 is a schematic vertical cross-sectional view of a fixed leaf end of a door incorporating the present invention;

FIG. 19 is a schematic view of a vertical cross-sectional configuration of a push-pull leaf end of a door incorporating the present invention;

FIG. 20 is a schematic view of a vertical cross-sectional structure of a push-pull sash in a door incorporating the present invention;

FIG. 21 is a schematic view of a transverse cross-sectional configuration of a push-pull sash in a door incorporating the present invention;

FIG. 22 is a schematic perspective view of a second embodiment of a drive flight according to the present invention;

FIG. 23 is a schematic cross-sectional view of a second embodiment of a drive flight in accordance with the invention;

FIG. 24 is a schematic cross-sectional view of an external fixation slat of a second embodiment of a drive slat of the present invention;

FIG. 25 is a schematic cross-sectional view of an inner drive aluminum of a second embodiment of a drive flight of the present invention;

Fig. 26 is a schematic view showing a structure of a second embodiment of the driving slat installed in a groove rail D of a fanning wood profile of an aluminum clad wood sliding door according to the present invention.

Detailed Description

The invention is further described below with reference to the drawings and specific embodiments.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 17, fig. 18, fig. 19, fig. 20 and fig. 21, the embodiment is applicable to aluminum alloy sliding doors and wood-clad aluminum sliding doors, and comprises transmission hardware and fixing hardware. The fixed hardware comprises a groove type upper sliding rail 81, a convex type lower sliding rail 82, two locking blocks 4 and two lock head locking blocks 5. The transmission hardware comprises two upper pulley assemblies 1 and two lower pulley assemblies 3 matched with the upper and lower sliding rails 81 and 82, two fan hook locks 2, two lock heads 7, a transmission slat 50, three steering angle drivers 6, an inner handle 9 and an outer handle driver 8. The fan-shaped hook lock 2 and the locking block 4 form a hook locking member; the lock 7 and the lock block 5 constitute a locking member.

The groove type upper sliding rail 81 is fixed on the outdoor side of the lower end of the upper frame; the protruding lower rail 82 is fixed to the outdoor side of the upper end of the rocker 83.

The upper pulley assembly 1 comprises a sliding plate I111, a sliding piece I101, a fixed plate I12 and a transverse pulley 24. The upper end face of the sliding plate I111 is provided with a clamping groove 13 of the sliding piece I101, two ends are provided with fixing holes A14, two sliding holes A15 are formed in the inner sides of the fixing holes A14 at two ends, and the upper end face of the two ends is protruded between the fixing holes A14 and the sliding holes A15 to form a protruding wall 16 of the sliding groove 21 of the fixed plate I. Fixing holes B17 are formed at two ends of the sliding piece I101, and arc-shaped strip holes 18 which incline from outside to inside according to the locking rotation direction are formed at positions corresponding to the two sliding holes A15 on the sliding plate I111. The fixed plate i 12 is provided with shaft pin holes B20 at positions corresponding to the two slide holes a 15 of the slide plate i 111, respectively. The sliding piece I101 penetrates through the clamping connection groove 13 of the sliding plate I111, and two ends of the fixed plate I12 are clamped in the sliding groove 21 of the sliding plate I111. The slide shaft pin 25 passes through the slide hole a 15 and the arc-shaped elongated hole 18 and is then fixed in the shaft pin hole B20. The upper end face of the fixed plate I12 is provided with a fixed seat I22 of a transverse pulley 24, and the transverse pulley 24 is hinged on the fixed seat I22 by a pin 23. The upper pulley assembly 1 is fixed in the groove rail A61 at the upper end of the upper push-pull sash frame through the fixing hole A14 on the sliding plate I111. The transverse pulley 24 is clamped in the upper sliding rail 81 of the upper frame. The two ends of the sliding piece I101 are riveted and fixed on the transmission slat 50 through the fixing holes B17. Further preferably, the upper end surface of the clamping groove 13 of the upper end surface of the sliding plate I111 of the upper pulley assembly 1 is provided with an anti-falling cover plate 26.

The lower pulley assembly 3 comprises a sliding plate II 112, a sliding piece II 102, a fixed plate II 28, two pulley clamping plates 29 and two vertical pulleys 30, wherein the sliding plate II 112 is identical to the sliding plate I111 in structure, the sliding piece II 102 is identical to the sliding piece I101 in structure. The upper end face of the sliding plate II 112 is provided with a clamping groove 13 of the sliding piece II 102, two ends are provided with fixing holes A14, two end parts are provided with two sliding holes A15 at the inner sides of the fixing holes A14, and the upper end face of the two end parts is protruded between the fixing holes A14 and the sliding holes A15 to form a protruded wall 16 of the sliding groove 21 of the sliding plate II. The two ends of the sliding piece II 102 are provided with fixing holes B17, and the positions corresponding to the two sliding holes A15 on the sliding plate II 112 are respectively provided with arc-shaped strip holes 18 which incline from the outside to the inside according to the locking rotation direction. The fixed plate ii 28 is provided with shaft pin holes B20 at positions corresponding to the two slide holes a 15 on the slide plate ii 112, respectively. The sliding piece II 102 penetrates through the clamping groove 13 of the sliding plate II 112, and two ends of the fixing plate II 28 are clamped in the sliding groove 21 of the sliding plate II 112. The slide shaft pin 25 passes through the slide hole a 15 and the arc-shaped elongated hole 18 and is then fixed in the shaft pin hole B20. The upper end face of the fixed plate II 28 is provided with a fixed seat II 33 of two vertical pulleys 30, the two vertical pulleys 30 are hinged between two pulley clamping plates 29 through shaft pins 31, and the two pulley clamping plates 29 are fixed on a fixed shaft 32 which extends forwards and backwards of the fixed seat II 33 on the upper end face of the fixed plate II 28. The lower pulley assembly 3 is fixed in the groove rail B62 at the lower end of the lower push-pull sash frame through the fixing hole A14 on the sliding plate II 112. The two vertical pulleys 30 are clamped on the lower slide rail 82 on the threshold 83. The two ends of the sliding piece II 102 are riveted and fixed on the transmission slat 50 through the fixing holes B17. Further preferably, the upper end surface of the clamping groove 13 of the upper end surface of the sliding plate ii 112 of the lower pulley assembly 3 is provided with an anti-falling cover plate 26. Further preferably, the lower pulley assembly 3 further comprises a transverse pulley 24, the upper end of the fixed seat ii 28 is further provided with a fixed end of the transverse pulley 24, and the transverse pulley 24 is hinged to the upper end of the fixed seat ii 28 by a pin 23. The threshold 83 is also provided with a positioning groove of the transverse pulley 24; the transverse pulley 24 is located in a positioning groove of the transverse pulley. The transverse pulley 24 serves as a positioning function to avoid derailment of the vertical pulley 30.

In order to save the manufacturing cost of the die, the structures of the fixing plate I12 and the fixing seat I22 of the upper pulley assembly 1 can be made to be identical to the structures of the fixing plate II 28 and the fixing seat II 33 of the lower pulley assembly 3.

The fan hook lock 2 comprises a sliding plate III 113, a sliding piece III 103, a fixing plate III 34 and a locking hook 35, wherein the sliding plate III 113 is identical to the sliding plate I111 in structure, and the sliding piece III 103 is identical to the sliding piece I101 in structure. The upper end face of the sliding plate III 113 (not shown in FIG. 12) is provided with a clamping groove 13 of the sliding piece III 103, two ends are provided with fixing holes A14, two ends are provided with two sliding holes A15 at the inner sides of the fixing holes A14, and the upper end face of the two ends is protruded between the fixing holes A14 and the sliding holes A15 to form a protruding wall 16 of a sliding groove 21 of the fixing plate III 34. The sliding member III 103 is provided with fixing holes B17 at both ends, and arc-shaped long holes 18 inclined from the outside to the inside in the locking rotation direction are respectively provided at positions corresponding to the two sliding holes A15 on the sliding plate III 113. The fixed plate iii 34 is provided with a shaft pin hole B20 at a position corresponding to the two sliding holes a15 on the sliding plate iii 113, and the fixed plate iii 34 is provided with a fixed hole C36. The sliding piece III 103 penetrates through the clamping through groove 13 of the sliding plate III 113, and two ends of the fixed plate III 34 are clamped in the sliding groove 21 of the sliding plate III 113. The slide shaft pin 25 passes through the slide hole a15 and the arc-shaped elongated hole 18 and is then fixed in the shaft pin hole B20. The upper end face of the lock hook 35 is provided with a fixing hole D38, one side of the lock hook protrudes downwards to form a locking hook 19, and the locking hook is fixed on the upper end face of the fixing plate III 34 through the fixing hole D38 and the fixing hole C36. The fan hook lock 2 is fixed in the groove rail C63 at the left end of the left push-pull fan frame through the fixing hole A14 on the sliding plate III 113, and the two ends of the sliding piece III 103 are riveted and fixed on the transmission slat 50 through the fixing hole B17 by the pin 27. The locking block 4 is in a U shape at the tightly matched position 41 of the locking hook 19 of the locking hook 35, a fixing hole E40 is formed in a position which is not in the U shape, and the locking block is fixed on the outdoor side of the right end of the right fixed fan frame, which corresponds to the fan hook lock 2, through the fixing hole E40; after locking, the locking hook 35 of the fan-shaped hook lock 2 hooks the locking block 4. Further preferably, the upper end face of the clamping groove 13 of the upper end face of the sliding plate III 113 of the fan-shaped hook lock 2 is provided with an anti-falling cover plate 26.

The inner handle and the outer handle 9 are arranged on the inner side and the outer side of the right push-pull sash frame. The lock 7 is a mushroom lock. The lock head locking piece 5 is a metal block, an arc-shaped sliding groove 39 inclining from the outside to the inside according to a locking movement track is formed in the metal block, the metal block is fixed at a position of the right frame C corresponding to the lock head 7, and the lock head 7 can be slidably clamped in the inclined arc-shaped sliding groove 39 of the lock head locking piece 5 in a locking state and an opening initial stage.

The transmission hardware is divided into two groups, one group is from the one end far away from the inner handle 9 and the outer handle 9, and the two fan-hook locks 2, the steering angle driver 6, the two upper sliding rail assemblies 1, the other steering angle driver 6 and the upper lock head 7 are connected in series by the transmission lath 50 in sequence and then fixedly connected to the inner handle shaft and the outer handle shaft. The lower group is formed by connecting two lower pulley assemblies 3, a third steering angle driver 6 and a lower lock head in series by a transmission slat from one end far away from the inner handle 9 and then fixedly connecting the lower pulley assemblies with the inner handle shaft and the outer handle shaft on the handle driver 8. The upper group of transmission hardware is arranged in a groove rail C63 of the left push-pull sash frame, a groove rail A61 of the upper push-pull sash frame and a groove rail D64 at the end of the right push-pull sash frame which are communicated with each other. The lower group of transmission hardware is arranged in a groove rail B62 of the lower push-pull sash frame and a groove rail D64 of the right push-pull sash frame which are communicated with each other. The three steering angle actuators 6 are located at the corners of the groove rail C63 and the groove rail a 61, the corners of the groove rail a 61 and the groove rail D64, and the corners of the groove rail B62 and the groove rail D64, respectively. The handle driver 8 is arranged in the right push-pull sash frame where the inner handle 9 and the outer handle 9 are positioned, and controls the rotation stroke of the inner handle 9 and the outer handle 9. Because the groove rail A61, the groove rail B62, the groove rail C63 and the groove rail D64 are internally provided with C-shaped mounting grooves, the transmission slat is of a U-shaped structure with clamping steps in section, and is provided with fixing holes connected with other hardware, and the transmission slat is clamped in the C-shaped mounting grooves in the groove rail A61, the groove rail B62, the groove rail C63 and the groove rail D64 and can slide along the groove rail A61, the groove rail B62, the groove rail C63 and the groove rail D64; the fan hook lock, the steering angle driver, the upper pulley assembly, the lock head and the lower pulley assembly are fixed at two ends of the driving slat.

When the embodiment is used on the aluminum-clad wood and solid wood sliding doors, the C-shaped mounting grooves are difficult to be formed in the groove rail A, the groove rail B, the groove rail C and the groove rail D of the aluminum-clad wood and solid wood sliding doors, so that the U-shaped mounting groove is only one, and the door transmission slat needs to be matched with the following technical scheme. Taking an aluminum clad wood sliding door as an example, as shown in fig. 22, 23, 24, 25 and 26, a door driving slat includes an outer fixing slat 43 and an inner driving aluminum 42. The inner transmission aluminum 42 has a U-like structure with a clamping step 45. The external fixation lath 43 is shaped like a C-shaped groove matching the width of the groove rail D (but also groove rail a, groove rail B and groove rail C). The outer walls of the two ends of the bottom of the C-shaped groove are concave inwards to form clamping steps 47, and the inner walls of the two ends of the upper part of the C-shaped groove are respectively provided with C-shaped clamping grooves 46 which are matched with the shapes of the two ends of the inner transmission aluminum 42. The inner transmission aluminum 42 is arranged in the C-shaped clamping groove 46 of the outer fixing slat 43 and slides along the C-shaped clamping groove 46; the external fixing strip plate 43 is fixed in the groove rail D (or the groove rail A, the groove rail B and the groove rail C) by the screw 51, and the fan hook lock, the steering angle driver, the upper pulley assembly, the lock head and the lower pulley assembly are fixed at two ends of the internal transmission aluminum. Further preferably, the external fixation lath 2 is an external fixation lath made of an aluminum alloy. The connecting and fixing holes 44 are formed on the inner transmission aluminum 42 and connected with other transmission hardware, and the nail wires 48 are formed on the outer fixing lath 43.

The above embodiments are only preferred and exemplary, and those skilled in the art can make modifications to the equivalent techniques described in this patent, such as adjusting the upper pulley assembly, lower pulley assembly, locking block, fanning hook lock, locking head locking block and locking head to other numbers, such as three, four, etc., according to the fanning width and fanning height, which are all within the scope of this patent.

Claims

1.A hardware system suitable for pressing a sliding door comprises transmission hardware and fixed hardware; the method is characterized in that: the fixed hardware comprises a groove type upper sliding rail, a convex type lower sliding rail, more than two locking blocks and more than two lock head locking blocks; the transmission hardware comprises more than two upper pulley assemblies and more than two lower pulley assemblies matched with the upper sliding rail and the lower sliding rail, more than two fan hook locks, more than two lock heads, a transmission slat, three steering angle drivers, an inner handle, an outer handle and a handle driver; the fan-shaped hook lock and the locking block form a hook locking component; the lock head and the lock head locking piece form a locking component;

The transmission hardware is divided into two groups, one group is from one end far away from the inner handle and the outer handle, and the transmission lath is used for sequentially connecting more than two fan hook locks, more than two pulley assemblies, the other steering angle driver and the upper lock head in series and then fixing the two fan hook locks, the steering angle driver, the more than two pulley assemblies and the other steering angle driver on the handle driver; the lower group is formed by connecting more than two upper and lower pulley assemblies, a third steering angle driver and a lower lock head in series by a transmission slat from one end far away from the inner handle and the outer handle in sequence and then fixing the two pulley assemblies, the third steering angle driver and the lower lock head on the handle driver; the upper group of transmission hardware is arranged in a groove rail C of each communicated left push-pull sash frame, a groove rail A of the upper push-pull sash frame and a groove rail D of the right push-pull sash frame end; the lower group of transmission hardware is arranged in a groove rail B of the lower push-pull sash frame and a groove rail D of the right push-pull sash frame which are communicated with each other; the three steering angle drivers are respectively positioned at the corner of the groove rail C connected with the groove rail A, the corner of the groove rail A connected with the groove rail D and the corner of the groove rail B connected with the groove rail D; the upper end surfaces of the clamping grooves of the upper end surfaces of the sliding plate I of the upper pulley assembly, the sliding plate II of the lower pulley assembly and the sliding plate III of the fan hook lock are provided with anti-falling cover plates.

2. The hardware system for a compression sliding door of claim 1, wherein: when the C-shaped mounting grooves are formed in the groove rail A, the groove rail B, the groove rail C and the groove rail D, the transmission slat is of a U-shaped structure with clamping steps in section, fixing holes connected with other hardware are formed in the transmission slat, and the transmission slat is clamped in the C-shaped mounting grooves in the groove rail A, the groove rail B, the groove rail C and the groove rail D and can slide along the groove rail A, the groove rail B, the groove rail C and the groove rail D; the fan hook lock, the steering angle driver, the upper pulley assembly, the lock head and the lower pulley assembly are fixed at two ends of the driving slat.

3. The hardware system for pressing sliding door according to claim 1, wherein when the groove rail a, the groove rail B, the groove rail C and the groove rail D are only one U-shaped installation groove, the driving slat comprises an outer fixing slat and an inner driving aluminum; the section of the inner transmission aluminum is of a U-shaped structure with clamping steps; the external fixing slat is a C-shaped groove which is matched with the widths of the groove rail A, the groove rail B, the groove rail C and the groove rail D; the outer walls of the two ends of the bottom of the C-shaped groove are inwards concave to form clamping steps, and the inner walls of the two ends of the upper part of the C-shaped groove are respectively provided with C-shaped clamping grooves matched with the shapes of the two ends of the inner transmission aluminum; the inner transmission aluminum is arranged in the C-shaped clamping groove of the outer fixing slat and slides along the C-shaped clamping groove; the external fixing lath is fixed in the groove rail A, the groove rail B, the groove rail C and the groove rail D, and the fan hook lock, the steering angle driver, the upper pulley assembly, the lock head and the lower pulley assembly are fixed at two ends of the internal transmission aluminum.

4. A hardware system for a press fit sliding door as claimed in claim 3, wherein the outer fixed strips of the driving strips are outer fixed strips made of aluminum alloy, and the inner driving strips are inner driving aluminum.

5. The hardware system suitable for pressing the sliding door according to claim 1, 2, 3 or 4, wherein the lower pulley assembly further comprises a transverse pulley, the upper end of the fixing seat II is further provided with a fixed end of the transverse pulley, and the transverse pulley is hinged to the upper end of the fixing seat II; a positioning groove of a transverse pulley is arranged on the lower sliding rail on the threshold; the transverse pulley is positioned in the positioning groove of the transverse pulley.