CN214424336U - Push-and-pull vertical hinged integrated door system - Google Patents

Abstract

The utility model discloses a push-pull vertical hinged integrated door system, which comprises a hinge fixed door, a movable door, a door pocket, a first track and a second track, wherein the first track is arranged on a top door frame close to the hinge side, the second track is arranged on a top door frame far away from the hinge side, and the movable door moves in a push-pull manner along the first track and the second track through a sliding wheel; the door pocket comprises a top door pocket fastening wallboard, a side door pocket fastening wallboard, a top door pocket edge covering and a side door pocket edge covering. The utility model discloses top door pocket in the push-and-pull flat-open integrated door system is detained wallboard and side door pocket and is detained the wallboard and be whole board structure respectively, and every door pocket is detained the wallboard homoenergetic and accomplish not to have the concatenation gap, has better integrality and steadiness, makes the switch door process avoid appearing the card pause, rock through setting up the magnetic stripe at a plurality of corresponding positions, and the switch door realizes the silence and obtains better sealed effect.

Description

Push-and-pull vertical hinged integrated door system

Technical Field

The utility model relates to a push-and-pull vertical hinged door technical field, concretely relates to push-and-pull vertical hinged integrated door system.

Background

There are numerous series of products such as vertical hinged door, push-and-pull door, hang sliding door, folding door under aluminum alloy door and window product, aluminum alloy push-and-pull vertical hinged folding door (PD or PT door) is a flat-open push-and-pull function door that can save space well, it is little to have a swing space, save numerous advantages such as space and easy operation, be applied to fine aesthetic property and nimble mobility occasionally in big house type room, can save the space better when being applied to little house type room, receive extensive good comment. At present, the buckle wallboard of aluminum alloy push-and-pull flat-open folding door (PD or PT door) has the concatenation gap, and big, the door body rocks, takes place to derail easily and block pause at the in-process of opening and closing the door, how to design a push-and-pull flat-open integrated door system in order to overcome above-mentioned shortcoming at present the technological problem that awaits great.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a push-and-pull flat-open integrated door system to there is the concatenation gap in the knot wallboard of solving current push-and-pull flat-open door, the in-process noise of switch door is big, the door body is rocked, takes place the problem that derails and block easily.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model provides a push-pull vertical hinged integrated door system, which comprises a hinge fixed door, a movable door, a door pocket, a first track and a second track, wherein the first track is arranged on a top door frame close to the hinge side, the second track is arranged on a top door frame far away from the hinge side, and the movable door moves in a push-pull manner along the first track and the second track through a sliding wheel; the door pocket comprises a top door pocket fastening wallboard, a side door pocket fastening wallboard, a top door pocket edge covering and a side door pocket edge covering, wherein the top door pocket fastening wallboard and the side door pocket fastening wallboard are of an integral plate structure respectively; the top door pocket is bordured connect in the outside of top door pocket knot wallboard, the side door pocket is bordured connect in the outside of side door pocket knot wallboard, top door pocket knot wallboard connect in the top of side door pocket knot wallboard.

Furthermore, a vertically extending connecting hole is formed in the top of the side door pocket fastening wallboard, and the top door pocket fastening wallboard is connected with the side door pocket fastening wallboard through a screw inserted into the connecting hole; the top door pocket is covered on the edge and is connected with the top door pocket buckle wallboard through a screw, and the side door pocket is covered on the edge and is connected with the side door pocket buckle wallboard through a screw.

Further, the top door pocket edge and the side door pocket edge form a 45-degree splicing seam or a 90-degree splicing seam; the top door pocket edge covering and the side door pocket edge covering are connected through a right-angle connecting piece, the right-angle connecting piece comprises two right-angled connecting pieces, and a plurality of screw holes used for connecting screws are formed in each connecting piece at intervals to connect the top door pocket edge covering and the side door pocket edge covering simultaneously.

Furthermore, the push-pull casement integrated door system further comprises a door frame support, the door frame support comprises a top door frame and a side door frame, and the side door frame comprises a side door frame far away from the hinge and a side door frame close to the hinge; two surfaces of the door frame far away from the side edge of the hinge, which can be attached and connected with the movable door, are respectively provided with magnetic stripes which are mutually attracted, the magnetic stripes are arranged at corresponding positions of the door frame far away from the side edge of the hinge through clamping grooves, and the magnetic stripes are connected at corresponding positions of the movable door in an embedded mode; the two surfaces of the top door frame and the hinge fixing door which can be jointed and connected are respectively provided with magnetic stripes which are mutually attracted, the magnetic stripes are arranged at corresponding positions of the top door frame through clamping grooves, and the magnetic stripes are connected at corresponding positions of the hinge fixing door in an embedded mode; two surfaces of the hinge fixing door and the door frame close to the side edge of the hinge, which can be attached and connected, are respectively provided with magnetic stripes which are mutually attracted, the magnetic stripes are connected to corresponding positions of the hinge fixing door in an embedded mode, and the magnetic stripes are arranged at corresponding positions of the door frame close to the side edge of the hinge through clamping grooves; the two surfaces, which are close to the hinge side edge door frame and can be attached to and connected with the movable door, are respectively provided with magnetic stripes which are mutually attracted, the magnetic stripes are arranged at corresponding positions of the door frame close to the hinge side edge through clamping grooves, and the magnetic stripes are connected to corresponding positions of the movable door in an embedded mode; two surfaces, which are away from one side of the hinge and can be attached to the movable door, of the hinge fixed door are respectively provided with magnetic stripes which attract each other, and the magnetic stripes are connected to corresponding positions of the movable door and the hinge fixed door in an embedded mode; the push-pull vertical hinged integrated door system further comprises a height adjusting piece for adjusting the installation height of the side door frame, and the height adjusting piece is arranged at the position, close to the ground, of the side door frame; the height adjusting piece comprises a U-shaped clamping groove, a supporting box, a limiting spring and a hard wafer, the U-shaped clamping groove is fixedly connected to one side, close to the wall body, of the side door frame, close to the ground, and the top opening of the U-shaped clamping groove faces towards the side door frame; the supporting box is arranged in the U-shaped clamping groove, the top opening of the supporting box faces towards the side door frame, the hard wafer is arranged in the supporting box, a recess which abuts against one end of the limiting spring is formed in the bottom surface of the hard wafer, the other end of the limiting spring abuts against the bottom wall of the supporting box, and a screw hole is formed in the eccentric position of the front surface of the hard wafer.

Further, a touch lamp is arranged on the surface of one side, away from the hinge, of the movable door.

Furthermore, a touch handle door lock is arranged on one side surface of the movable door, which is far away from the hinge, and the position corresponding to the door frame.

Furthermore, the touch handle door lock comprises a lock body structure connected to the movable door and a lock box structure connected to the door frame, the lock body structure comprises a lock body, a touch block, a touch transmission block, a telescopic lock head and a lock closing handle, and the lock box structure is provided with a first lock catch opening and a second lock catch opening which are communicated from bottom to top; the touch block can be connected with the inside and outside of the opening on one side, close to the door frame, of the lock body in a telescopic mode, the touch transmission block is connected with the lock body through a horizontal hinge shaft, so that the touch block retracts inwards, the telescopic lock head is connected in a transmission mode, the telescopic lock head moves outwards to enter the first lock catch opening, and the lock closing handle is connected with the telescopic lock head in a transmission mode, so that the telescopic lock head moves upwards to the second lock catch opening to complete lock closing.

Furthermore, the lock body structure further comprises a propping block and a first movable block, the first movable block is connected to the inner side of the locking handle and is connected with the telescopic lock head, the propping block is arranged below the locking handle so as to prop below the first movable block when the locking handle drives the first movable block to move upwards, and meanwhile, the telescopic lock head enters the second lock catch port to complete locking; the lock body structure still includes switch structure, switch structure includes switch body, shift knob and first spring, the top surface that supports the kicking block is the inclined plane, support the kicking block connect in switch body top, first spring set up in switch body inside and horizontal connection in shift knob with between the switch body inner wall, in order shift knob compresses when receiving inside effort and kick-backs when the effort disappears and makes shift knob outwards move and drive first movable block along supporting kicking block top inclined plane downwardly movement simultaneously flexible tapered end gets into first lock mouth realizes unblanking.

Further, the lock body structure still includes through kick-backing the second spring that the touching driving block lower extreme was in order to with the touching piece rebounds the normal position, second spring horizontal connection in touching driving block lower extreme with between the lock body inner wall, connect the second spring the touching driving block lower extreme is for keeping away from the one end of touching the piece.

Further, the lock body structure further comprises a third spring, a fixing piece and a fixing shaft, wherein the third spring is used for pulling the telescopic lock head back to the original position, one end of the fixing shaft is connected with the fixing piece in the lock body, the other end of the fixing shaft is connected with the telescopic lock head, the third spring is sleeved on the periphery of the fixing shaft, one end of the third spring abuts against the fixing piece, and the other end of the third spring abuts against the inner wall of the lock body.

The utility model has the advantages of as follows:

the utility model discloses top door pocket in the push-and-pull flat-open integrated door system is detained wallboard and side door pocket and is detained the wallboard and be whole board structure respectively, and every door pocket is detained the wallboard homoenergetic and is accomplished not to have the concatenation gap like this, has better integrality and steadiness, detains the wallboard and bordures between connect firm, easy to assemble and dismantle, makes the switch door process avoid appearing the card pause, rock through setting up the magnetic stripe at a plurality of corresponding positions, and the switch door realizes the silence and obtains better sealed effect.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic structural view of a push-pull vertical hinged integrated door system provided in embodiments 1 and 3 of the present invention;

fig. 2 is a schematic structural diagram of a push-pull vertical hinged integrated door system provided in embodiment 2 of the present invention;

fig. 3 is a schematic structural diagram of a push-pull vertical hinged integrated door system provided in embodiment 2 of the present invention;

fig. 4 is a schematic structural diagram of a push-pull vertical hinged integrated door system provided in embodiment 3 of the present invention;

fig. 5 to 7 are schematic structural views of a push-pull vertical hinged integrated door system provided in embodiments 1 and 4 of the present invention;

fig. 8 is a schematic structural diagram of a push-pull vertical hinged integrated door system provided in embodiments 5 and 6 of the present invention;

fig. 9 is a schematic structural diagram of a lock body structure of a touch handle door lock in the push-pull vertical hinged integrated door system provided in embodiments 7 and 8 and embodiments 10 to 12 of the present invention;

fig. 10 is a schematic structural diagram of a lock box structure of a touch handle door lock in a push-pull vertical hinged integrated door system according to embodiments 7 and 8 of the present invention;

fig. 11 is a schematic structural diagram of a lock structure of a touch handle door lock in a push-pull vertical hinged integrated door system according to embodiments 7 to 9 of the present invention;

fig. 12 is a schematic structural view of a gap adjustment component in a push-pull casement integrated door system provided in embodiment 1 of the present invention;

fig. 13 is a schematic structural diagram of a combined state of a height adjuster in a push-pull vertical hinged integrated door system according to embodiment 4 of the present invention;

fig. 14 is a schematic structural diagram of a split state of a height adjusting piece in a push-pull casement integrated door system according to embodiment 4 of the present invention.

In the figure:

2. the door is fixed by hinges; 3. a movable door; 4. touching the handle door lock; 5. touching the lamp; 11. the top door pocket is buckled with the wallboard; 12. the side door pocket is buckled with the wallboard; 13. the top door pocket is covered with edges; 14. edge covering of the side door pocket; 15. connecting holes; 16. a right angle connector; 17. a magnetic strip; 41. a lock body; 42. a lock box structure; 43. a touch block; 44. touching the transmission block; 45. a second spring; 46. a telescopic lock head; 47. a fixing sheet; 48. a second movable block; 49. a first movable block; 50. a fourth spring; 51. a first lock opening; 52. a second locking opening; 53. a horizontal hinge shaft; 54. closing the lock handle; 55. a propping block; 57. a switch button; 58. a switch body; 59. a first spring; 471. a fixing sheet; 472. a fixed shaft; 101. fixing a screw; 102. fixing the spring; 103 a metal sheet; 104. a U-shaped clamping groove; 105. a support box; 106. a limiting spring; 107. a hard disk; 108 screw holes.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

The embodiment provides a sliding and side-hung integrated door system, as shown in fig. 1 and 5-7, the sliding and side-hung integrated door system comprises a hinge fixed door 2, a movable door 3, a door pocket, a first rail and a second rail, wherein the first rail is arranged on a top door frame close to the hinge side, the second rail is arranged on a top door frame far away from the hinge side, and the movable door performs sliding motion along the first rail and the second rail through a sliding wheel;

the door pocket comprises a top door pocket fastening wall plate 11, a side door pocket fastening wall plate 12, a top door pocket edge 13 and a side door pocket edge 14, wherein the top door pocket fastening wall plate 11 and the side door pocket fastening wall plate 12 are of a whole plate structure respectively; the top door pocket bordures 13 connect in the outside of top door pocket detains wallboard 11, the side door pocket bordures 14 connect in the outside of side door pocket detains wallboard 12, top door pocket detains wallboard 11 connect in the top of side door pocket detains wallboard 12.

The front face and the back face of the door body of the push-pull and side-hung integrated door system are respectively provided with a top door pocket edge covering 13 and a side door pocket edge covering 14, and the side door pocket edge covering 14 keeps about 1 cm staggered to form lines at corresponding positions when being installed to a side door pocket fastening wall plate 12.

The hinge used by the push-pull casement integrated door system can be preferably an anti-falling hinge with a round-head steel column and a meson. The hinge fixing door 2 and the movable door 3 can be respectively composed of a door frame and a decorative plate embedded in the door frame, and the decorative plate can be glass, an aluminum plate and the like.

The width of the top door pocket edge covering 13 and the width of the side door pocket edge covering 14 can be 3.5 centimeters, the top door pocket buckle wallboard 11 and the side door pocket buckle wallboard 12 are respectively of a whole-plate structure, the width of the whole plate can be 8-29cm and the like, and therefore each door pocket buckle wallboard can be free of splicing gaps and has better integrity and stability.

When the push-pull vertical hinged integrated door is installed, the situation that the gap between the second rail and the top door frame is too large sometimes occurs, and as a preferred implementation mode, the push-pull vertical hinged integrated door system is further provided with a gap adjusting component for adjusting the width of the gap between the top of the second rail and the top door frame; as shown in fig. 12, the gap adjusting component includes a set screw 101, a fixed spring 102, and a metal plate 103 (which may be U-shaped), the upper body of the second rail may be provided with an opening for passing through the set screw 101, the top of the second rail may be provided with a groove for exposing the metal plate 103, the set screw 101 upwardly passes through the opening formed in the upper body of the second rail, the fixed spring 102 is sleeved on the screw, the central opening of the metal plate 103 then passes through the set screw 101, the fixed spring 102 is located below the metal plate 103, when the second rail is installed, the metal plate 103 is moved down by rotating the set screw 101 to further move up the second rail, so as to reduce the width of the gap between the second rail and the top doorframe. Specifically, when the fixing screw 101 is screwed down, the fixing spring 102 is extruded, the upper end of the fixing spring 102 provides an upward acting force for the metal sheet 103, the metal sheet 103 moves upwards, the lower end of the fixing spring 102 provides a downward acting force for the upper part of the second rail body to enable the second rail to move downwards, and the width of a gap between the second rail and the top doorframe is increased; on the contrary, when the fixing screw 101 is rotated reversely, the fixing spring 102 is stretched, the upper end of the fixing spring 102 applies a downward force to the metal sheet 103 to move it downward, and meanwhile, the lower end of the fixing spring 102 applies an upward force to the upper part of the second rail body to move the second rail upward, thereby reducing the width of the gap between the second rail and the top doorframe.

Example 2

As shown in fig. 2 and 3, the push-pull casement integrated door system according to embodiment 1 is characterized in that a connecting hole 15 extending vertically is formed at the top of the side door pocket fastening wall plate 12, and the top door pocket fastening wall plate 11 and the side door pocket fastening wall plate 12 are connected by a screw inserted into the connecting hole 15;

the top door pocket edge-covering 13 is connected with the top door pocket fastening wallboard 11 through screws, and the side door pocket edge-covering 14 is connected with the side door pocket fastening wallboard 12 through screws.

Like this, top door pocket detains wallboard 11 with between the wallboard 12 is detained to the side door pocket the top door pocket bordure 13 with between the wallboard 11 is detained to the top door pocket and the side door pocket bordure 14 with all can stabilize and connect sealedly between the wallboard 12 is detained to the side door pocket, and easy to assemble and dismantlement.

Example 3

As shown in fig. 1 and 4, the top door pocket flange 13 and the side door pocket flange 14 form a 45 ° splice seam or a 90 ° splice seam, respectively, in the push-pull casement integrated door system according to embodiment 2;

the top door pocket edge covering 13 and the side door pocket edge covering 14 which form a 45-degree splicing seam are connected through a right-angle connecting piece 16, the right-angle connecting piece 16 comprises two right-angled connecting pieces, and a plurality of screw holes used for connecting screws are formed in each connecting piece at intervals so as to be connected with the top door pocket edge covering 13 and the side door pocket edge covering 14 at the same time.

The 45-degree splicing seam or the 90-degree splicing seam can be freely selected, and when the top door pocket edge 13 and the side door pocket edge 14 form the 45-degree splicing seam, the top door pocket edge 13 and the side door pocket edge 14 can be well positioned by arranging the right-angle connecting piece 16, so that the top door pocket edge 13 and the side door pocket edge 14 are connected perpendicularly to each other.

Example 4

As shown in fig. 5 to 7, the push-pull casement integrated door system according to embodiment 3 further includes a door frame support, the door frame support includes a top door frame and a side door frame, and the side door frame includes a side door frame away from the hinge and a side door frame close to the hinge;

as shown in fig. 5, two surfaces of the door frame far from the hinge side and the movable door 3, which can be attached and connected, are respectively provided with magnetic stripes 17 which are mutually attracted, the magnetic stripes 17 are arranged at corresponding positions of the door frame far from the hinge side through clamping grooves, and the magnetic stripes 17 are connected at corresponding positions of the movable door 3 in an embedded manner;

as shown in fig. 5, two surfaces of the top doorframe and the hinge-fixed door 2, which can be attached to each other, are respectively provided with magnetic stripes 17 which are mutually attracted, the magnetic stripes 17 are arranged at corresponding positions of the top doorframe through clamping grooves, and the magnetic stripes 17 are connected at corresponding positions of the hinge-fixed door 2 in an embedded manner;

as shown in fig. 7, two surfaces of the hinge-fixed door 2 and the door frame close to the side edge of the hinge, which can be attached to each other, are respectively provided with magnetic stripes 17 which are mutually attracted, the magnetic stripes 17 are connected to corresponding positions of the hinge-fixed door 2 in an embedded manner, and the magnetic stripes 17 are arranged at corresponding positions of the door frame close to the side edge of the hinge through clamping grooves;

as shown in fig. 6, two surfaces of the door frame close to the side edge of the hinge, which can be attached to and connected with the movable door 3, are respectively provided with magnetic stripes 17 which are mutually attracted, the magnetic stripes 17 are arranged at corresponding positions of the door frame close to the side edge of the hinge through clamping grooves, and the magnetic stripes 17 are connected at corresponding positions of the movable door 3 in an embedded manner;

as shown in fig. 6, two surfaces of the hinge-fixed door 2 away from the hinge and capable of being attached to the movable door 3 are respectively provided with magnetic stripes 17 which attract each other, and the magnetic stripes are connected to corresponding positions of the movable door 3 and the hinge-fixed door 2 in an embedded manner;

as shown in fig. 13 and 14, the push-pull vertical hinged integrated door system further includes a height adjusting member for adjusting the installation height of the side door frame, and the height adjusting member is disposed at a position of the side door frame close to the ground; the height adjusting piece comprises a U-shaped clamping groove 104, a supporting box 105, a limiting spring 106 and a hard wafer 107, the U-shaped clamping groove 104 is fixedly connected to one side, close to the wall, of the side doorframe close to the ground, and the top opening of the U-shaped clamping groove 104 faces the side doorframe; the supporting box 105 is arranged in the U-shaped clamping groove 104, the top opening faces the side door frame, the hard wafer 107 is arranged in the supporting box 105, a recess which abuts against one end of the limiting spring 106 is formed in the bottom surface of the hard wafer 107, the other end of the limiting spring 106 abuts against the bottom wall of the supporting box 105, and a screw hole 108 (which can be a cross hole or a straight hole) is formed in the eccentric position of the front surface of the hard wafer 107.

The height adjuster is first attached to the inside of the side frame prior to installation of the side frame and is tapped into the side frame at a location corresponding to the screw hole 108 to expose the screw hole 108.

As shown in fig. 13, when the screw hole 108 is rotated clockwise, the hard disc 107 rotates clockwise, because the screw hole 108 is located at an eccentric position of the hard disc 107, the hard disc 107 drives the support box 105 to move downward during the clockwise rotation, the lower wall of the support box 105 contacts the ground and gives a downward acting force to the ground, and at this time, the side doorframe moves upward correspondingly; through the arrangement of the U-shaped clamping groove 104, the left and right groove walls of the U-shaped clamping groove 104 can play a limiting role, so that the support box 105 is prevented from deviating when moving up and down, and the upper and lower groove walls of the support box 105 can interact with the hard wafer 107 to enable the support box 105 to move up or down.

The top door frame, keep away from hinge side edge door frame and be close to hinge side edge door frame preferred 2.6 centimetres width, realized the narrow limit, let door sight more, can open the space bigger.

The positions corresponding to the door pocket and the door frame support can be provided with a seam blocking edge and a pinch plate groove, the seam blocking edge can be a flat edge and a bevel edge, and the top and the bottom of the movable door can be respectively provided with a positioning wheel; through setting up the buckle groove, when installing top door pocket buckle wallboard 11, side door pocket buckle wallboard 12 to the door frame, in case appear with the wall body between the actual thickness when having the error conveniently debug.

The magnetic strips 17 are correspondingly arranged at the positions respectively, so that the sound of the opening and closing processes of the movable door and the hinge fixing door is smaller, the door is opened and closed silently, the movable door can be prevented from being separated from the corresponding track, the clamping and shaking are avoided, the door can be prevented from being sent loosely, and a better sealing effect is achieved.

Example 5

As shown in fig. 8, in the sliding and vertical hinged integrated door system according to embodiment 4, a touch lamp 5 is provided on a side surface of the movable door 3 away from the hinge.

The touch lamp 5 can be provided with the pilot lamp respectively at the door inside and outside face of dodge gate 3, the dodge gate 3 door body in case receives effort such as touching, the touch lamp 5 will keep bright certain time, for example 5 seconds-1 minute, specifically can be 10 seconds, 30 seconds etc., for example, the integrative door of push-and-pull flat-open sets up to the lavatory door, if someone just pushed the door and gets into the lavatory, the people outdoors observes touch lamp 5 and is being bright and is obtaining to know someone in the lavatory, do not need to try again to open the door, can have fine schematic effect through setting up touch lamp 5.

Example 6

As shown in fig. 8, in the sliding and vertical hinged integrated door system according to embodiment 4, a touch-pull door lock 4 is provided on a surface of the movable door 3 on a side away from the hinge and at a position corresponding to a door frame. Firstly, the movable door 3 is pulled to close the movable door to a corresponding doorframe, and then the door can be quickly, conveniently and silently locked and unlocked by touching the handle door lock 4.

Example 7

The sliding and casement integrated door system according to embodiment 6 is shown in fig. 9 to 11, and the touch handle door lock includes a lock body structure connected to the movable door and a lock box structure 42 connected to the door frame, where the lock body structure includes a lock body 41, a touch block 43, a touch transmission block 44, a telescopic lock head 46 and a lock closing handle 54, and the lock box structure 42 is provided with a first lock catch opening 51 and a second lock catch opening 52 which are communicated with each other from bottom to top; the touch block 43 is telescopically connected to the opening of the lock body 41 close to the door frame in an inner and outer manner, the touch transmission block 44 is connected to the lock body 41 through a horizontal hinge shaft 53 so as to be in transmission connection with the telescopic lock head 46 when the touch block 43 retracts inwards, so that the telescopic lock head 46 moves outwards to enter the first lock opening 51, and the locking handle 54 is in transmission connection with the telescopic lock head 46 so that the telescopic lock head 46 moves upwards to the second lock opening 52 to complete locking.

The touch handle door lock is suitable for being applied to a push-pull vertical hinged integrated door, the push-pull vertical hinged integrated door comprises a hinge fixed door and a movable door, the hinge fixed door is opened and closed through a hinge vertical hinged door, and the movable door can be opened and closed along a sliding rail in a push-pull mode; the movable door slides to the door frame along the direction far away from the hinge fixed door to be locked, and then the door locking process of the sliding vertical hinged door is completed. The lock body structure of this embodiment is attached to the side of the moveable door adjacent the door frame and the lock box structure 42 is attached to the door frame that is integrated with the moveable door.

When the door is closed, when the movable door slides to the door frame, as shown in fig. 9, firstly, the door frame contacts the left side of the touch block 43, the touch block 43 retracts rightwards under the squeezing action of the door frame, during the process that the touch block 43 retracts rightwards, the right side of the touch block 43 gives a rightwards acting force to the lower end of the touch transmission block 44, at this time, the touch transmission block 44 rotates around the horizontal hinge shaft 53, the upper end of the touch transmission block 44 rotates leftwards, the upper end of the touch transmission block 44 rotating leftwards gives a leftwards acting force to the retractable lock head 46 to make the retractable lock head 46 move leftwards into the first lock catch port 51 of the lock box structure 42 connected to the door frame, then, the hand lifts the closing lock handle 54 upwards, the closing lock handle 54 drives the retractable lock head 46 to move upwards into the second lock catch port 52 through some transmission parts, at this time, the retractable lock head 46 keeps stably located in the second lock catch port 52, so that the lock body structure and the lock box structure 42 are in a stable locked state.

According to the touch handle door lock, the touch block 43 is touched through the door frame to enable the touch block to enter the first lock opening 51, the lock closing handle 54 is pulled upwards to complete the door locking process, almost no sound is generated in the whole door locking process of the touch handle door lock, and the door locking noise is effectively reduced; and the touch block 43 can be preferably set to be in various smooth shapes, such as a thin disk shape (correspondingly, the first lock catch opening 51 can be circular, and the second lock catch opening 52 can be elongated), so as to avoid the lock body from hooking clothes, and have better convenience and applicability for touching the handle door lock.

Example 8

The door lock with a touch handle according to embodiment 7 is shown in fig. 11, the lock body structure further includes an abutting block 55 and a first movable block 49, the first movable block 49 is connected to the inner side of the locking handle 54 and connected to the retractable lock head 46, the abutting block 55 is disposed below the locking handle 54 to abut against the lower side of the first movable block 49 when the locking handle 54 drives the first movable block 49 to move upward, and the retractable lock head 46 enters the second locking opening 52 to complete locking.

The right part of the locking handle 54 can be exposed outside the lock body 41 to facilitate the manual lifting to lock the door or pull down to unlock the door, other parts of the lock body structure can be arranged inside the lock body 41, and few parts of the whole touch handle door lock are exposed outside and have a good hiding function.

As shown in fig. 9-11, under the driving action of the touch block 43 and the touch driving block 44, the telescopic lock head 46 first moves leftwards into the first locking opening 51 of the lock box structure 42 connected to the door frame; then the hand pulls the locking handle 54 upwards, the locking handle 54 drives the first movable block 49 to move upwards, meanwhile, the first movable block 49 drives the telescopic lock head 46 to move upwards together to make the telescopic lock head 46 enter the second locking mouth 52, at this time, the abutting block 55 abuts against the lower part of the first movable block 49 to make the first movable block 49 unable to move downwards, so that the telescopic lock head 46 cannot move downwards to leave the second locking mouth 52, and the lock body structure and the lock box structure 42 are locked together firmly. The locking process is quickly accomplished by pulling the locking handle 54 upward.

Example 9

The door lock with a touch handle according to embodiment 8, as shown in fig. 11, the lock body structure further includes a switch structure, the switch structure includes a switch body 58, a switch button 57, and a first spring 59, the top surface of the abutting block 55 is an inclined surface, the abutting block 55 is connected to the top of the switch body 58, the first spring 59 is disposed inside the switch body 58 and horizontally connected between the switch button 57 and the inner wall of the switch body 58, so as to compress when the switch button 57 is subjected to an inward acting force and rebound when the acting force disappears, the abutting block 55 moves together when the switch button 57 is subjected to the inward acting force, and the first movable block 49 moves downward along the inclined surface of the top of the abutting block 55 and drives the retractable locking head 46 into the first locking opening 51 to unlock.

As shown in fig. 11, in a locked state, when the lock needs to be unlocked, first pressing the switch button 57 to the left, the switch button 57 and the abutting block 55 will move together to the left under the action of the force, and rapidly, at the same time, the first movable block 49 will move downward along the top slope of the abutting block 55 and drive the retractable lock head 46 to enter the first lock opening 51 to realize unlocking, and the switch button 57 and the abutting block 55 will partially rebound to the original position under the action of the elastic force of the first spring 59 and abut against the left side of the fallen first movable block 49; when the door needs to be locked again, the locking handle 54 is pulled upwards, the locking handle 54 and the first movable block 49 move upwards together, the bottom side of the first movable block 49 can move to the position above the top side of the abutting block 55, and in the process that the locking handle 54 and the first movable block 49 move upwards together, the switch button 57 and the abutting block 55 completely rebound to the original position under the elastic force of the first spring 59 and just abut against the bottom end of the first movable block 49, so that the first movable block 49, the locking handle 54 and the telescopic lock head 46 cannot move downwards, and the locking process is achieved again. The whole switch is ingenious in structural design, has safe and stable locking effects, and is basically noiseless in the locking process.

Example 10

The touch handle door lock according to embodiment 9, as shown in fig. 9, the lock body structure further includes a second spring 45 for rebounding the lower end of the touch actuator 44 to rebound the touch actuator 43 to the original position, the second spring 45 is horizontally connected between the lower end of the touch actuator 44 and the inner wall of the lock body 41, and the lower end of the touch actuator 44 connected to the second spring 45 is an end away from the touch actuator 43.

When the door is closed, the touch block 43 is pressed by the door frame to move rightwards, so that a rightwards acting force is applied to the lower end of the touch transmission block 44, and the second spring 45 is compressed; when opening the door, touch piece 43 leaves the door frame, no longer receives the squeezing action of door frame, and second spring 45 kick-backs rapidly for former length, makes the lower extreme of touching driving block 44 remove left simultaneously, and touching piece 43 effort left is given to touching driving block 44 lower extreme, makes touching piece 43 can return to the throne fast. The touch-type door lock of the present embodiment is preferably configured such that the second spring 45 is provided to quickly return the touch piece 43 to the original position when the door is opened.

Example 11

As shown in fig. 9, the lock body structure of the touch handle door lock of embodiment 10 further includes a third spring 47, a fixing plate 471 and a fixing shaft 472, wherein the third spring 47 is used for pulling the retractable lock 46 back to the original position, one end of the fixing shaft 472 is connected to the fixing plate 471 located in the lock body 41, the other end of the fixing shaft 472 is connected to the retractable lock 46, the third spring 47 is sleeved on the periphery of the fixing shaft 472, and one end of the third spring abuts against the fixing plate 471, and the other end of the third spring abuts against the inner wall of the lock body 41.

In the touch handle door lock of the embodiment, when the door is closed, the touch block 43 drives the lower end of the touch transmission block 44 to move rightwards together, meanwhile, the upper end of the touch transmission block 44 rotates leftwards to provide a leftward acting force for the fixing plate 471, the fixed shaft 472 and the telescopic lock head 46 move leftwards together, so that the telescopic lock head 46 enters the corresponding mechanism of the lock box structure 42 to be locked, and at this time, the third spring 47 keeps a compressed state and is positioned between the fixing plate 471 and the inner wall of the lock body 41; when the door is opened, the second spring 45 provides the resilience acting force for the lower end of the touch transmission block 44 to the left, the lower end of the touch transmission block 44 enables the touch block 43 to rebound to the original position, the upper end of the touch transmission block 44 returns to the original position to the right, the fixing plate 471 and the third spring 47 are no longer subjected to the leftwards acting force on the upper end of the touch transmission block 44, and the third spring 47 rebounds rapidly to enable the fixing plate 471, the fixing shaft 472 and the telescopic lock head 46 to return to the original position to the right more rapidly.

Example 12

The touch handle door lock according to embodiment 11, as shown in fig. 9, the lock body structure further includes a second movable block 48, and the second movable block 48 is connected to the first movable block 49;

the lock body structure further comprises a fourth spring 50 for rebounding the second movable block 48 to the original position, and the fourth spring 50 is vertically connected between the second movable block 48 and the inner wall of the lock body 41.

The fourth spring 50 is provided in the touch handle door lock of the present embodiment, so that the second movable block 48 and the first movable block 49 can be returned to the original position more quickly when the lock handle 54 is pulled downward during unlocking, and labor can be saved when the lock handle 54 is pulled during unlocking.

In the touch handle door lock in embodiments 7 to 12, when the door is locked, the hinge-fixed door is first closed by the hinge, the movable door is pulled to slide to the door frame, and the flexible lock head 46 enters the first lock opening 51 under the transmission action of the touch block 43 and the touch transmission block 44; then the locking handle 54 is pulled upwards, the locking handle 54 drives the first movable block 49, the second movable block 48 and the telescopic lock head 46 to move upwards together, so that the telescopic lock head 46 enters the second lock catch opening 52, and at the moment, the abutting block 55 abuts against the lower end of the first movable block 49, so that the telescopic lock head 46 stays in the second lock catch opening 52 stably, and the locking state is maintained.

When the lock is unlocked, the switch button 57 is pressed leftwards, the switch button 57 and the abutting block 55 move leftwards together to compress the first spring 59, the first movable block 49 drives the lock closing handle 54 and the telescopic lock head 46 to move downwards, and the telescopic lock head 46 enters the first lock catch opening 51 from the second lock catch opening 52, so that the unlocking process is completed. At this time, the movable door can be pulled to the direction of the hinge fixed door to be opened, when the door is opened, the touch block 43 and the lower end of the touch transmission block 44 quickly return to the original position leftwards, the upper end of the touch transmission block 44 return to the original position rightwards, the telescopic lock head 46 is driven by the fixing plate 471 and the fixing shaft 472 to move rightwards, leaves the first lock opening 51 and returns to the original position, and the door opening process is completed.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. The push-pull vertical hinged integrated door system is characterized by comprising a hinge fixed door (2), a movable door (3), a door pocket, a first rail and a second rail, wherein the first rail is arranged on a top door frame close to the hinge side, the second rail is arranged on a top door frame far away from the hinge side, and the movable door is in push-pull motion along the first rail and the second rail through a sliding wheel;

the door pocket comprises a top door pocket fastening wall plate (11), a side door pocket fastening wall plate (12), a top door pocket edge covering (13) and a side door pocket edge covering (14), wherein the top door pocket fastening wall plate (11) and the side door pocket fastening wall plate (12) are of an integral plate structure respectively; top door pocket bordures (13) connect in the outside of top door pocket detains wallboard (11), side door pocket bordures (14) connect in the outside of side door pocket detains wallboard (12), top door pocket detains wallboard (11) connect in the top of side door pocket detains wallboard (12).

2. The push-pull casement integrated door system according to claim 1, wherein the top of the side jamb panels (12) are formed with vertically extending attachment holes (15), and the top jamb panels (11) are attached to the side jamb panels (12) by screws inserted into the attachment holes (15);

the top door pocket edge covering (13) is connected with the top door pocket buckle wallboard (11) through screws, and the side door pocket edge covering (14) is connected with the side door pocket buckle wallboard (12) through screws.

3. The push-pull vertical hinged integrated door system according to claim 2, wherein the top door pocket jamb (13) forms a 45 ° splice seam or a 90 ° splice seam with the side door pocket jamb (14);

the top door pocket edge covering (13) and the side door pocket edge covering (14) which form a 45-degree splicing seam are connected through a right-angle connecting piece (16), the right-angle connecting piece (16) comprises two right-angle connecting pieces, and a plurality of screw holes used for connecting screws are formed in each connecting piece at intervals so as to be connected with the top door pocket edge covering (13) and the side door pocket edge covering (14) at the same time.

4. The push-pull vertical hinged integrated door system of claim 3, further comprising a door frame bracket, wherein the door frame bracket comprises a top door frame and a side door frame, and wherein the side door frame comprises a side door frame away from the hinge and a side door frame close to the hinge;

two surfaces of the door frame far away from the side edge of the hinge and the movable door (3) which can be attached and connected are respectively provided with magnetic stripes (17) which are mutually attracted, the magnetic stripes (17) are arranged at corresponding positions of the door frame far away from the side edge of the hinge through clamping grooves, and the magnetic stripes (17) are connected at corresponding positions of the movable door (3) in an embedded mode;

two surfaces of the top door frame and the hinge fixing door (2) which can be attached and connected are respectively provided with magnetic stripes (17) which are mutually attracted, the magnetic stripes (17) are arranged at corresponding positions of the top door frame through clamping grooves, and the magnetic stripes (17) are connected at corresponding positions of the hinge fixing door (2) in an embedded mode;

the hinge fixing door (2) and the door frame close to the side edge of the hinge are respectively provided with magnetic stripes (17) which are mutually attracted, the magnetic stripes (17) are connected to the corresponding positions of the hinge fixing door (2) in an embedded mode, and the magnetic stripes (17) are arranged at the corresponding positions of the door frame close to the side edge of the hinge through clamping grooves;

two surfaces, close to the hinge side edge door frame, of the movable door (3) and capable of being attached and connected with each other are respectively provided with magnetic stripes (17) which are mutually attracted, the magnetic stripes (17) are arranged at corresponding positions of the door frames close to the hinge side edge through clamping grooves, and the magnetic stripes (17) are connected to corresponding positions of the movable door (3) in an embedded mode;

two surfaces, which are close to one side of the hinge fixed door (2) away from the hinge and can be attached to the movable door (3), of the hinge fixed door are respectively provided with magnetic stripes (17) which attract each other, and the magnetic stripes are connected to corresponding positions of the movable door (3) and the hinge fixed door (2) in an embedded mode;

the push-pull vertical hinged integrated door system further comprises a height adjusting piece for adjusting the installation height of the side door frame, and the height adjusting piece is arranged at the position, close to the ground, of the side door frame; the height adjusting piece comprises a U-shaped clamping groove (104), a supporting box (105), a limiting spring (106) and a hard circular sheet (107), the U-shaped clamping groove (104) is fixedly connected to one side, close to the wall, of the side door frame, close to the ground, and the top opening of the U-shaped clamping groove (104) faces towards the side door frame; the supporting box (105) is arranged in the U-shaped clamping groove (104), the top opening faces towards the side door frame, the hard wafer (107) is arranged in the supporting box (105), a recess which abuts against one end of the limiting spring (106) is formed in the bottom surface of the hard wafer (107), the other end of the limiting spring (106) abuts against the bottom wall of the supporting box (105), and a screw hole (108) is formed in the eccentric position of the front surface of the hard wafer (107).

5. Push-pull casement integrated door system according to claim 4, wherein the surface of the side of the movable door (3) facing away from the hinge is provided with a touch light (5).

6. Push-pull vertical hinged integrated door system according to claim 4 characterized in that the side surface of the movable door (3) away from the hinge and corresponding to the door frame is provided with a touch handle door lock (4).

7. The push-pull casement integrated door system according to claim 6, wherein the touch handle door lock (4) comprises a lock body structure connected to the movable door (3) and a lock box structure (42) connected to the door frame, the lock body structure comprises a lock body (41), a touch block (43), a touch transmission block (44), a telescopic lock head (46) and a lock closing handle (54), and the lock box structure (42) is provided with a first lock catch opening (51) and a second lock catch opening (52) which are communicated with each other from bottom to top; the lock comprises a lock body (41), a touch block (43), a horizontal hinged shaft (53), a horizontal hinged shaft (44), a horizontal hinged shaft (54), a horizontal hinged shaft (43), a horizontal hinged shaft (54), a horizontal hinged shaft (43), a horizontal hinged shaft (54), a horizontal hinged shaft (52), a horizontal hinged shaft (43), a horizontal hinged shaft (horizontal shaft), a horizontal hinged shaft (horizontal shaft), a horizontal shaft (horizontal shaft) and a horizontal shaft (horizontal shaft) and horizontal shaft (horizontal shaft) are sequentially.

8. The sliding and casement integrated door system according to claim 7, wherein the lock body structure further comprises an abutting block (55) and a first movable block (49), the first movable block (49) is connected to the inside of the locking handle (54) and is connected with the retractable lock head (46), the abutting block (55) is arranged below the locking handle (54) to abut against the lower side of the first movable block (49) when the locking handle (54) drives the first movable block (49) to move upwards, and the retractable lock head (46) enters the second locking opening (52) to complete locking;

the lock body structure further comprises a switch structure, the switch structure comprises a switch body (58), a switch button (57) and a first spring (59), the top surface of the abutting block (55) is an inclined surface, the abutting block (55) is connected to the top of the switch body (58), the first spring (59) is arranged inside the switch body (58) and is horizontally connected between the switch button (57) and the inner wall of the switch body (58), so that when the switch button (57) is subjected to inward acting force, the inward acting force is compressed, and when the acting force disappears, the spring back enables the switch button (57) to move outwards, and meanwhile, the first movable block (49) moves downwards along the inclined surface at the top of the abutting block (55) and drives the telescopic lock head (46) to enter the first lock opening (51) to achieve unlocking.

9. The sliding and vertical hinged integrated door system according to claim 8, wherein said lock body structure further comprises a second spring (45) for rebounding said touch transmission block (43) to a normal position by rebounding a lower end of said touch transmission block (44), said second spring (45) being horizontally connected between a lower end of said touch transmission block (44) and an inner wall of said lock body (41), said lower end of said touch transmission block (44) connected to said second spring (45) being an end far from said touch block (43).

10. The push-pull and casement integrated door system according to claim 9, wherein the lock body structure further comprises a third spring (47), a fixing plate (471) and a fixing shaft (472) for pulling the retractable lock head (46) back to the original position, one end of the fixing shaft (472) is connected with the fixing plate (471) in the lock body (41), the other end of the fixing shaft is connected with the retractable lock head (46), the third spring (47) is sleeved on the periphery of the fixing shaft (472), one end of the third spring abuts against the fixing plate (471), and the other end of the third spring abuts against the inner wall of the lock body (41).

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