CN115030633A

CN115030633A - Double-shaft linkage inclination angle special-shaped hidden door

Info

Publication number: CN115030633A
Application number: CN202210774126.9A
Authority: CN
Inventors: 赵中; 张阿俊; 邱天; 刘振永; 郭涛
Original assignee: China Construction Eighth Engineering Division Decoration Engineering Co Ltd
Current assignee: China Construction Eighth Engineering Division Decoration Engineering Co Ltd
Priority date: 2022-07-01
Filing date: 2022-07-01
Publication date: 2022-09-09

Abstract

The invention relates to a double-shaft linkage inclination angle special-shaped blank door, which comprises: a wall panel; the first side is rotatably connected with a casement fan framework on a door opening of the inclined wall surface; the hidden door framework is used for closing the wall panel to a door opening of an inclined wall surface and comprises a fixed frame and a triangular frame, a first frame of the triangular frame is fixed to one side of the fixed frame, a second frame of the triangular frame is rotatably connected with a second side of the casement frame, and the wall panel is fixed to the fixed frame in a covering mode, and the angle between the wall panel and the second frame of the triangular frame is the same as the inclination angle of the inclined wall surface. The invention solves the technical problem that the inclined wall surface can not be provided with the hidden door according to the conventional method, simultaneously avoids the condition that the hidden door of the inclined wall surface collides with the ground when opening the door and can not open the door, realizes that no gap is required to be reserved between the hidden door and the ground, and no gap is reserved between the hidden door and other wall surfaces, so that the hidden door can be more vividly fused in the whole wall body.

Description

Double-shaft linkage inclination angle special-shaped hidden door

Technical Field

The invention relates to the field of building construction, in particular to a double-shaft linkage inclination angle special-shaped hidden door.

Background

The hidden door is a door body which can be opened on the decorative wall surface, and the hidden door can be completely fused with the wall surface in the closed state, namely, the hidden door material, the door gap and the whole wall surface are completely consistent, and the appearance integrity of the wall body can be ensured in the closed state. In the process of interior decoration, constructors enable the hidden door to rotate around the fixed shaft through the pin shaft to open the hidden door, and the hidden door can only be arranged and opened perpendicular to the wall surface in the prior art. The prior art can only realize the hidden door setting of perpendicular wall, and the hidden door is rotatory according to a perpendicular vertical axis, decorates hidden door and wall body and also need keep establishing the gap. If the hidden door is arranged on the inclined wall surface according to the traditional technology, the hidden door collides with the ground when being opened, so that the door cannot be opened.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides the double-shaft linkage inclination angle special-shaped blank door, and solves the technical problem that the inclined wall surface in the prior art cannot be provided with the blank door according to a conventional method.

The invention discloses a double-shaft linkage inclination angle special-shaped blank door, which comprises: a wall panel;

the first side is rotatably connected with a casement fan framework on a door opening of the inclined wall surface;

the hidden door framework is used for closing the wall panel to a door opening of an inclined wall surface and comprises a fixed frame and a triangular frame, a first frame of the triangular frame is fixed to one side of the fixed frame, a second frame of the triangular frame is rotatably connected with a second side of the casement frame, and the wall panel is fixed to the fixed frame in a covering mode, and the angle between the wall panel and the second frame of the triangular frame is the same as the inclination angle of the inclined wall surface.

The double-shaft linkage inclination angle special-shaped blank door is further improved in that the blank door further comprises a roller assembly, the roller assembly comprises a first sleeve fixed at the bottom of the fixing frame, a sliding rod installed in the first sleeve in a sliding mode and a rotating wheel installed on the sliding rod in a rotating mode, a first spring is connected between the top of the sliding rod and the top wall of the first sleeve, and the bottom of the sliding rod penetrates through the first sleeve and is connected with the rotating wheel.

The double-shaft linkage inclination angle special-shaped blank door is further improved in that a positioning rod is fixed on the top wall of the first sleeve, the first spring is wound on the periphery of the positioning rod, the sliding rod is of a hollow structure, and the top of the sliding rod is provided with an opening for the positioning rod to insert.

The special-shaped hidden door with the double-shaft linkage inclination angle is further improved in that an end plate is sealed at the bottom of the first sleeve, an opening for the sliding rod to penetrate through is formed in the end plate, the diameter of the opening is smaller than that of the first sleeve, a convex ring is arranged on the side wall of the middle of the sliding rod, and the diameter of the convex ring is larger than that of the opening.

The double-shaft linkage inclination angle special-shaped blank door is further improved in that the blank door further comprises a guide rail assembly, the guide rail assembly comprises an arc-shaped rail groove for the roller assembly to roll, a rail cover plate capable of sliding in the rail groove up and down, and a plurality of second springs connected between the rail cover plate and the bottom surface of the rail groove, the second springs are arranged in the rail groove at intervals, the width of the rail groove is matched with the width of the rotating wheel, the rotating wheel slides out of the rail groove, and the rail cover plate rises to be flush with the notch of the rail groove under the elastic force of the second springs.

The special-shaped hidden door with the double-shaft linkage inclination angle is further improved in that a track slope plate is hinged between one end, close to the door opening, of the track groove and the track cover plate, and one end, back to the hinged end, of the track slope plate is erected at one end, close to the door opening, of the track cover plate.

The special-shaped hidden door with the double-shaft linkage inclination angle is further improved in that a plurality of limiting rods are vertically fixed on the bottom surface of the track groove, a plurality of second sleeves for the limiting rods to be installed in a sliding mode are fixed on the bottom surface of the track cover plate, the second sleeves correspond to the limiting rods one by one, and a plurality of second springs are arranged on the periphery of the second sleeves in a winding mode one by one.

The special-shaped hidden door with the double-shaft linkage inclination angle is further improved in that two side edges of the track cover plate are respectively provided with an L-shaped baffle, and two side walls of the top of the track groove are respectively and oppositely provided with a flange for blocking the baffle.

The double-shaft linkage inclination angle special-shaped hidden door is further improved in that the casement fan framework is rectangular and is vertically arranged at the door opening, the first side of the casement fan framework is rotatably connected to the door opening of an inclined wall surface through a first bearing pin shaft, and the second side of the casement fan framework is connected with the second frame of the triangular frame through a second bearing pin shaft.

The double-shaft linkage inclination angle special-shaped hidden door is further improved in that the double-shaft linkage inclination angle special-shaped hidden door also comprises an electric door opening machine for controlling the opening and closing of the casement framework.

Compared with the prior art, the invention has positive and obvious effect. The hidden door framework is connected to the casement framework and is linked to rotate together in the door opening process, so that the technical problem that the hidden door cannot be arranged on an inclined wall surface according to a conventional method in the prior art is solved, and the condition that the hidden door of the inclined wall surface collides with the ground and cannot be opened when the hidden door is opened is avoided.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural view of the double-shaft linkage inclination angle special-shaped blank door of the invention.

FIG. 2 is a perspective view of the dual-axis linked tilt angle special-shaped blank door of the present invention.

FIG. 3 is a plan view of the guide rail of the double-shaft linked inclined angle special-shaped blank door of the invention.

Fig. 4 is a cross-sectional view taken along line a-a of fig. 3.

Fig. 5 is a first cross-sectional view taken along line B-B of fig. 3.

Fig. 6 is a second cross-sectional view taken along line B-B of fig. 3.

FIG. 7 is a front perspective view of the roller assembly of the double-shaft linked inclined angle special-shaped hidden door of the invention.

FIG. 8 is a side perspective view of the roller assembly of the double-shaft linked inclined angle special-shaped blank door of the invention.

In the figure: 1 electric door opener, 2 flat-open leaf skeleton, 3 hidden door skeleton, 4 first bearing pin axles, 5 guide rail subassemblies, 6 roller components, 7 wall body panels, 8 rubber limit door stops, 9 track apron, 10 second sleeves, 11 gag lever posts, 12 second springs, 13 track grooves, 14 track ramp plates, 15 hinges, 16 rolling bearings, 17 rolling wheels, 18 slide bars, 19 locating levers, 20 first sleeves, 21 first springs, 31 first frame, 32 second frame, 33 third frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, the present invention provides a double-shaft linked tilt angle special-shaped blank door, comprising: a wall panel 7; the first side is rotatably connected with a casement frame 2 on a door opening of an inclined wall surface; the hidden door framework 3 is used for closing the wall panel 7 to a door opening of an inclined wall surface, the hidden door framework 3 comprises a fixed frame and a triangular frame, a first frame 31 of the triangular frame is fixed with one side of the fixed frame, a second frame 32 of the triangular frame is rotatably connected with a second side of the casement framework 2, and the wall panel 7 is fixed on the fixed frame and is the same as the inclined angle of the inclined wall surface with the angle between the wall panel and the second frame 32 of the triangular frame. In this embodiment, the wall panel 7 is rectangular, so the fixing frame is also rectangular, and the size of the fixing frame should be slightly smaller than the size of the wall panel 7, so as to give enough support to the wall panel 7 and prevent the wall panel 7 from shifting. The tripod is a right angle tripod with a second 32 and third 33 frame perpendicular. This flat-open fan skeleton 2 is fixed on the wall basic unit skeleton of door opening, and this electronic door operator 1 also fixes on wall basic unit skeleton and is connected in the top of flat-open fan skeleton 2 to the operation of the switch door of drive flat-open fan skeleton 2.

Preferably, as shown in fig. 7 and 8, the double-shaft linkage inclination angle special-shaped blank door further comprises a roller assembly, the roller assembly 6 comprises a first sleeve 20 fixed at the bottom of the fixed frame, a sliding rod 18 slidably mounted in the first sleeve 20, and a rotating wheel 17 rotatably mounted on the sliding rod 18, a first spring 21 is connected between the top of the sliding rod 18 and the top wall of the first sleeve 20, and the bottom of the sliding rod 18 penetrates through the first sleeve 20 and is connected with the rotating wheel 17. In this embodiment, the rotating wheel 17 is a universal wheel, and the universal wheel is connected with the bottom of the sliding rod 18 by a rotating bearing 16, so as to ensure the normal rotation of the universal wheel. The distance between the rotating wheel 17 and the bottom of the fixed frame can be adjusted at any time through the first spring 21, so that the situation that the distance between the fixed frame and the ground is gradually reduced in the opening process of the wall panel 7 is avoided.

Preferably, a positioning rod 19 is fixed on the top wall of the first sleeve 20, the first spring 21 is wound around the periphery of the positioning rod 19, the sliding rod 18 is of a hollow structure, and an opening for inserting the positioning rod 19 is formed in the top of the sliding rod 18. In this embodiment, the length of the positioning rod 19 is greater than the distance from the top of the sliding rod 18 to the top wall of the sleeve when the sliding rod 18 slides to the lowest part, and the length of the positioning rod 19 is less than the distance from the angle part of the sliding rod 18 to the top wall of the sleeve when the sliding rod 18 slides to the lowest part, so that the bottom end of the positioning rod 19 is always located inside the sliding rod 18. The sliding rod 18 is limited by the positioning rod 19 in a sliding manner, so that the sliding direction of the sliding rod 18 is fixed, and the overall stability of the fixing frame is ensured.

Preferably, the bottom of the first sleeve 20 is sealed and blocked by an end plate, the end plate is provided with an opening through which the sliding rod 18 passes, the diameter of the opening is smaller than that of the first sleeve 20, and a convex ring is arranged on the side wall of the middle part of the sliding rod 18, and the diameter of the convex ring is larger than that of the opening. The protruding ring can limit the maximum downward sliding distance of the sliding rod 18, and the situation that the sliding rod 18 cannot reset by itself is avoided.

Preferably, as shown in fig. 3 to 6, the track assembly 5 further includes a track assembly 5, the track assembly 5 includes a track groove 13 which is arc-shaped and is used for the roller assembly 6 to roll, a track cover plate 9 which slides up and down in the track groove 13, and a plurality of second springs 12 connected between the track cover plate 9 and the bottom surface of the track groove 13, the plurality of second springs 12 are arranged in the track groove 13 at intervals, the width of the track groove 13 is adapted to the width of the rotating wheel 17, the rotating wheel slides out of the track groove, and the track cover plate rises to be flush with the notch of the track groove under the elastic force of the second spring. The guide rail assembly 5 provides an invisible guide rail for the rolling of the rotating wheel 17, and the position and radian of the guide rail are provided with a rolling rail groove 13 according to the opening track of the wall panel 7, so that the wall panel 7 is ensured to be opened according to the set track. When the rotating wheel 17 rolls on the track cover plate 9, the track cover plate 9 slides downwards, so that the rotating wheel 17 slides in the track groove 13, and when the rotating wheel 17 leaves the track groove 13, the track cover plate 9 rebounds to the height which is flush with the ground under the action of the second spring 12, so that the invisibility of the guide track groove is realized.

Preferably, as shown in fig. 4, a track slope plate 14 is hinged between one end of the track groove 13 close to the door opening and the track cover plate 9, a hinge 15 is arranged at a starting end of the track groove 13, a first end of the track slope plate 14 is connected with the hinge 15, and one end of the track slope plate 14, which is back to the hinge end, is overlapped at one end of the track cover plate 9 close to the door opening. The track ramp 14 extends towards the end remote from the door opening and rests on the upper surface of the track cover 9, so that the track ramp 14 will slide on the track cover 9 when the track cover 9 is moved up and down. The position of the chain installation should be on the inner side wall of the track groove 13 close to the top surface, so as to avoid being higher than the top of the track groove 13, and the thickness of the track slope plate 14 should be thinner, so that after the track cover plate 9 is reset, the track slope plate 14 is preferably not higher than the top surface of the track groove 13. The track ramp 14 facilitates the transition of the rolling wheel 17 to slide into or out of the track groove 13 to ensure the stability of the rolling process of the rolling wheel 17.

Preferably, as shown in fig. 5 and 6, a plurality of limiting rods 11 are vertically fixed on the bottom surface of the track groove 13, a plurality of second sleeves 10 for slidably mounting the limiting rods 11 are fixed on the bottom surface of the track cover plate 9, the plurality of second sleeves 10 correspond to the plurality of limiting rods 11 one to one, and the plurality of second springs 12 are wound around the outer periphery of the second sleeves 10 one to one. All the limiting rods 11 and the second sleeves 10 are located on the middle line of the track groove 13 to ensure the balance of the track cover plate 9, and further, the limiting rods 11 and the second sleeves 10 can be correspondingly arranged into two rows, so that the balance of the track cover plate 9 in a vertical sliding state is further improved. In this embodiment, the length of the second sleeve 10 is half of the height of the track groove 13, and the length of the limiting rod 11 is greater than the length of the second sleeve 10 and less than the height of the track groove 13, so as to ensure that the track cover plate 9 slides in the track groove 13.

Preferably, two side edges of the rail cover plate 9 are both provided with an L-shaped baffle plate, and two side walls of the top of the rail groove 13 are both provided with a flange for blocking the baffle plate. The cooperation of the baffle plate and the flange ensures that the track cover plate 9 does not protrude out of the track groove 13 when resetting, thereby avoiding the separation of the second sleeve 10 and the limiting rod 11 and improving the invisible degree of the track groove 13.

Preferably, as shown in fig. 1 and fig. 2, this flat-open fan skeleton 2 is rectangle and vertically locates this door opening department, and the first side of this flat-open fan skeleton 2 rotates through first bearing pin axle 4 and connects on the door opening of slope wall, and the second side of this flat-open fan skeleton 2 is connected with the second frame 32 of this tripod through second bearing pin axle. The top and the bottom of this flat-open fan skeleton 2's first side all are equipped with this first bearing pin axle 4, and the top and the bottom of this flat-open fan skeleton 2's second side all are equipped with this second bearing pin axle, and first bearing pin axle 4 and second bearing pin axle can link and guarantee that the hidden door is opened smoothly, and two skeletons can form arbitrary angle around bearing pin axle.

Further, this biax linkage inclination dysmorphism hidden door still includes the electronic door operator 1 of this flat-open fan skeleton switch of control, and this electronic door operator 1 can electrically open wall panel 7, therefore need not to set up the handle in addition on wall panel 7 to guarantee that wall panel 7 can fuse in the wall more vividly.

Preferably, a rubber limit door stop 8 is fixed on the back of the casement frame 2. The rubber limit door stop 8 can prevent the hidden door from being opened to cause impact on the side wall, and protect the side wall and the casement frame 2.

The working principle is as follows: start electronic 1 switch of door operator, make flat-open fan skeleton 2 rotatory around first bearing pin shaft 4 under the 1 thrust effect of electronic door operator, flat-open fan skeleton 2 is rotatory to be driven hidden door skeleton 3 and removes, and hidden door skeleton 3 is connected for whole with roller assembly 6, and roller assembly 6 rolls to guide rail subassembly 5 and presses track ramp 14, and it is like fig. 6 to impress track apron 9 and form the orbit of specified wheel recess in the track groove 13 the fixed pulley rolls in the track subassembly and realizes that the hidden door is opened under 1 exogenic action of electronic door operator. The electric door opener 1 opens and closes the button similarly to the blind door, and when the fixed wheel rolls off the track slope plate 14, the track cover plate 9 is restored to the position shown in fig. 5 under the action of the track spring force.

The hidden door framework is connected to the casement framework and is linked to rotate together in the door opening process, so that the technical problem that the hidden door cannot be arranged on an inclined wall surface according to a conventional method in the prior art is solved, and the condition that the hidden door of the inclined wall surface collides with the ground and cannot be opened when the hidden door is opened is avoided.

The parts not involved in the present invention are the same as or can be implemented by the prior art. Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a biax linkage inclination dysmorphism hidden door which characterized in that includes:

a wall panel;

the hidden door framework comprises a fixing frame and a triangular frame, a first frame of the triangular frame is fixed to one side of the fixing frame, a second frame of the triangular frame is connected with a second side of the casement frame in a rotating mode, and the wall panel covers and is fixed to the fixing frame and the angle between the second frames of the triangular frame is the same as the inclination angle of the inclined wall surface.

2. The special-shaped hidden door with the double-shaft linkage inclination angle as claimed in claim 1, further comprising a roller assembly, wherein the roller assembly comprises a first sleeve fixed at the bottom of the fixing frame, a sliding rod slidably mounted in the first sleeve, and a rotating wheel rotatably mounted on the sliding rod, a first spring is connected between the top of the sliding rod and the top wall of the first sleeve, and the bottom of the sliding rod penetrates through the first sleeve and is connected with the rotating wheel.

3. The special-shaped blank door with the double-shaft linkage inclination angle as claimed in claim 2, wherein a positioning rod is fixed on the top wall of the first sleeve, the first spring is wound around the periphery of the positioning rod, the sliding rod is of a hollow structure, and an opening for inserting the positioning rod is formed in the top of the sliding rod.

4. The double-shaft linkage inclination angle special-shaped blank door according to claim 2, wherein an end plate is sealed at the bottom of the first sleeve, an opening for the sliding rod to penetrate through is formed in the end plate, the diameter of the opening is smaller than that of the first sleeve, a convex ring is arranged on the side wall of the middle part of the sliding rod, and the diameter of the convex ring is larger than that of the opening.

5. The special-shaped hidden door with the double-shaft linkage inclination angle as claimed in claim 2, further comprising a guide rail assembly, wherein the guide rail assembly comprises a rail groove which is arc-shaped and is used for rolling the roller assembly, a rail cover plate which slides up and down in the rail groove, and a plurality of second springs connected between the rail cover plate and the bottom surface of the rail groove, the second springs are arranged in the rail groove at intervals, the width of the rail groove is matched with the width of the rotating wheel, the wall panel is covered and arranged in the door opening, the rotating wheel slides out of the rail groove and the rail cover plate rises to be flush with the notch of the rail groove under the elastic force of the second springs.

6. The special-shaped hidden door with the double-shaft linkage inclination angle as claimed in claim 5, wherein a track slope plate is hinged between one end of the track groove close to the door opening and the track cover plate, and one end of the track slope plate, which is back to the hinged end, is erected at one end of the track cover plate close to the door opening.

7. The special-shaped hidden door with the double-shaft linkage inclination angle as claimed in claim 5, wherein a plurality of limiting rods are vertically fixed on the bottom surface of the track groove, a plurality of second sleeves for the sliding installation of the limiting rods are fixed on the bottom surface of the track cover plate, the plurality of second sleeves correspond to the plurality of limiting rods one by one, and a plurality of second springs are wound on the periphery of the second sleeves one by one.

8. The special-shaped hidden door with the double-shaft linkage inclination angle as claimed in claim 5, wherein two side edges of the track cover plate are respectively provided with an L-shaped baffle, and two side walls of the top of the track groove are respectively and oppositely provided with a flange for blocking the baffle.

9. The double-shaft linkage inclination angle special-shaped blank door according to claim 1, wherein the casement frame is rectangular and vertically arranged at the door opening, a first side of the casement frame is rotatably connected to the door opening of the inclined wall surface through a first bearing pin shaft, and a second side of the casement frame is connected with a second frame of the tripod through a second bearing pin shaft.

10. The dual-axis linked inclination angle special-shaped blank door according to claim 1, further comprising an electric door opener for controlling the opening and closing of the casement frame.