CN219491832U - Indoor layout with variable space - Google Patents

Abstract

The application discloses space-variable indoor layout relates to building construction's technical field, including wall body and floor, the floor slides and is connected with the locker, and the locker is used for dividing into bedroom and study with the room, and wall body fixedly connected with is used for driving the first driving piece that the locker slided, wall body fixedly connected with controller, and the signal output part of controller is connected with the signal input part of first driving piece. When the study room is used, the controller is opened, the first driving piece drives the storage cabinet to slide, and when the storage cabinet slides to the corresponding position, the first driving piece stops working, the storage cabinet stops sliding, and at the moment, the study room becomes spacious; when the bedroom is used, the first driving piece drives the storage cabinet to slide, when the storage cabinet slides to the corresponding position, the first driving piece stops working, the storage cabinet stops sliding, and at the moment, the bedroom becomes spacious, so that the problem of multiple indoor layout of a smaller space is solved.

Description

Indoor layout with variable space

Technical Field

The present application relates to the technical field of building construction, and in particular to a spatially variable indoor layout.

Background

The wall body is a vertical space partition structure in architecture, is used for enclosing, dividing or protecting a certain area, and is one of the most important elements in building design. In house construction, a house is generally divided into independent spaces such as bedrooms, living rooms, study rooms, kitchens and the like by using walls.

Many large cities now have relatively small residence areas, and therefore, a multiple indoor structure is often desired, either in insufficient space or particularly crowded, and needs to be improved.

Disclosure of Invention

The purpose of the present application is to provide a space-variable indoor layout, which aims to solve the problem of multiple indoor layouts in smaller spaces.

The application provides a space-variable indoor layout which adopts the following technical scheme: including wall body and floor, the floor slides and is connected with the locker, the locker is used for dividing into bedroom and study with the room, wall body fixedly connected with is used for the drive the first driving piece that the locker slided, wall body fixedly connected with controller, the signal output part of controller with the signal input part of first driving piece is connected.

By adopting the technical scheme, when the study is used, the controller is opened, the controller controls the first driving piece to be opened, the first driving piece drives the storage cabinet to slide, when the storage cabinet slides to the corresponding position, the first driving piece stops working, the storage cabinet stops sliding, and at the moment, the study becomes spacious; when the bedroom is used, the controller is opened, the controller controls the first driving piece to open, the first driving piece drives the locker to slide, when the locker slides to the corresponding position, the first driving piece stops working, the locker stops sliding, and at the moment, the bedroom becomes spacious, so that the problem of multiple indoor layout of a smaller space is solved.

Optionally, wall body fixedly connected with limiting plate, locker fixedly connected with slider, the limiting plate is provided with and is used for the slider card is gone into and the first waist hole that slides.

Through adopting above-mentioned technical scheme, when first driving piece drive locker slides, the slider slides along the length direction in first waist type hole, and the slider cooperates the slip of locker with the slip in first waist type hole and plays direction and spacing effect to the locker slides to improve the locker stability of sliding, prevent that the locker from appearing the condition of empting in the in-process of sliding from taking place.

Optionally, wall body fixedly connected with internal gear, the internal gear internal rotation is connected with the dwang, the one end of dwang is connected with the output fixed connection of first driving piece, and the other end rotates and is connected with the rotation gear, the rotation gear with the dwang is connected through the pivot, the rotation gear with the internal gear meshing, the slider is connected with and is used for driving the slider first linkage that slides.

Through adopting above-mentioned technical scheme, the output of first driving piece drives the dwang and rotates round the axial lead of the output of first driving piece, and the rotation gear rotates along the internal gear, plays direction and spacing effect to the rotation of dwang to improve dwang pivoted stability. The rotating rod drives the first linkage mechanism to move, and the first linkage mechanism drives the storage cabinet to slide. The structure can realize the function of bidirectional driving through the unidirectional motor.

Optionally, the first linkage includes fixed connection the connecting plate on the slider, the connecting plate is located the slider with between the internal gear, the pivot rotates and is connected with the guide block, the connecting plate is provided with and is used for the guide block card is gone into and the second waist hole that slides.

Through adopting above-mentioned technical scheme, when the dwang rotates, the guide block slides along the length direction in second waist type hole, and the cooperation of sliding in guide block and second waist type hole plays direction and spacing effect to the sliding of guide block to improve the stability that the guide block slided. The guide block is abutted against the inner wall of the second waist-shaped hole and drives the connecting plate to slide along the length direction of the first waist-shaped hole, namely the sliding block slides along the length direction of the first waist-shaped hole.

Optionally, the locker is fixedly connected with a directional wheel abutting against the floor.

By adopting the technical scheme, the directional wheels are convenient for the movement of the storage cabinet, and the movement stability of the storage cabinet is improved.

Optionally, the locker fixedly connected with fixed axle, the fixed axle rotates and is connected with first baffle, first baffle rotates and is connected with the second baffle, first baffle with the second baffle passes through the axis of rotation and rotates to be connected, the locker is connected with and is used for the drive the second driving piece that the second baffle removed, the locker is connected with and is used for driving the second link gear that the second baffle removed, the signal output part of controller with the signal input part of second driving piece is connected.

Through adopting above-mentioned technical scheme, when needs place article in the locker, open the controller, controller control second driving piece opens, controller control second linkage removes, second linkage drives the second baffle and removes round the axial lead of axis, the second baffle drives first baffle and rotates round the axial lead of fixed axle, at this moment, the longest distance of first baffle and second baffle to the locker is the distance of baffle one side of keeping away from the fixed axle to the fixed axle, thereby save space, also can open first baffle and second baffle in narrow scope.

Optionally, the second linkage includes the rotation and connects the connecting gear of locker, the second baffle articulates there is the connecting rod, the connecting rod with connecting gear passes through connecting axle fixed connection, the output fixedly connected with rack of second driving piece, the rack with connecting gear engagement.

Through adopting above-mentioned technical scheme, when first baffle and second baffle need rotate, the controller control second driving piece is opened, and second driving piece drive rack removes to the rack drives connecting gear and rotates, and connecting gear drives and connects and rotate, thereby is convenient for rotate first baffle and second baffle.

Optionally, the locker rotates and is connected with the direction chimb, the rack is provided with and is used for the direction chimb card goes into and slides the slide.

Through adopting above-mentioned technical scheme, when the second driving piece drive rack moved, the direction flange was slided along the length direction of slide, and the cooperation of sliding of direction chimb and slide plays direction and spacing effect to the sliding of rack, has improved the stability that the rack slided.

Optionally, the wall body is provided with the storing chamber, the floor slides and is connected with the bed that is used for covering the storing chamber.

By adopting the technical scheme, the articles with low use frequency are placed in the storage cavity, and when the articles need to be placed, the articles are moved to be exposed in the storage cavity; when the object placement is completed, the bed is moved such that the bed covers the storage cavity.

Optionally, the wall body fixedly connected with deflector, the bed is offered and is used for the deflector card is gone into and the smooth chamber that slides.

Through adopting above-mentioned technical scheme, when the bed removes, the deflector slides along the length direction in smooth chamber, and the cooperation of sliding in deflector and smooth chamber plays direction and spacing effect to the sliding of bed to improve the stability that the bed slided, make the effect that the bed covered the storing chamber better.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the first driving piece drives the locker to slide, the slider slides along the length direction of the first waist type hole, and the slider and the sliding cooperation of the first waist type hole play a role in guiding and limiting the sliding of the locker, so that the sliding stability of the locker is improved, and the occurrence of the toppling of the locker in the sliding process is prevented.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is an overall cross-sectional view of an embodiment of the present application.

Fig. 3 is an enlarged view of region a of fig. 2.

FIG. 4 is one of the partial cross-sectional views of the embodiments of the present application, showing the mounting slot.

Fig. 5 is one of partial schematic structural views of the embodiment of the present application, showing the first linkage mechanism.

FIG. 6 is a second partial cross-sectional view of an embodiment of the present application, showing a cavity.

FIG. 7 is a second schematic view of a portion of an embodiment of the present application, showing a second linkage.

Reference numerals illustrate: 1. a wall body; 11. a storage cavity; 12. a guide plate; 121. a limit groove; 13. a mounting cavity; 14. a receiving chamber; 15. a limiting plate; 151. a first waist-shaped hole; 2. a floor; 3. a bed; 31. a sliding cavity; 32. a limit convex edge; 4. a storage cabinet; 41. a directional wheel; 42. a slide block; 43. a fixed shaft; 44. a first baffle; 45. a second baffle; 46. a rotating shaft; 47. a cavity; 48. a guide flange; 5. a first driving member; 51. a rotating lever; 52. rotating the gear; 53. a rotating shaft; 6. an internal gear; 7. a first linkage mechanism; 71. a guide block; 72. a connecting plate; 721. a second waist-shaped hole; 8. a second driving member; 9. a second linkage mechanism; 91. a rack; 911. a slideway; 92. a connecting gear; 93. a connecting rod; 94. and a connecting shaft.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-7.

The embodiment of the application discloses a space-variable indoor layout.

The combined drawing is shown in fig. 1 and 2, and comprises a wall body 1 and a floor board 2, wherein a storage cavity 11 for placing articles is formed in one side of the wall body 1, the floor board 2 is connected with a bed 3 for covering the storage cavity 11 in a sliding manner, and one side of the bed 3 is attached to the wall body 1 on one side where the storage cavity 11 is formed.

As shown in fig. 2 and 3, a guide plate 12 is formed by protruding one side of the wall body 1, which is attached to the bed 3, in a direction close to the bed 3, and a sliding cavity 31 for the guide plate 12 to be clamped in and slide is formed by recessing one side of the bed 3, which is close to the guide plate 12, in a direction away from the guide plate 12. The opposite inner walls of the sliding cavity 31 are convexly provided with limiting convex edges 32, and the guide plate 12 is provided with limiting grooves 121 for the limiting convex edges 32 to be clamped in and slide, so that the bed 3 is prevented from being separated from the guide plate 12 in the moving process.

As shown in fig. 4 and 5, the floor 2 is slidingly connected with the storage cabinet 4, the storage cabinet 4 is fixedly connected with four directional wheels 41 which are abutted to the floor 2, one side of the storage cabinet 4 is attached to one side of the wall body 1, and along with the movement of the storage cabinet 4, rooms can be divided into bedrooms and study rooms with different areas. One side fixedly connected with that locker 4 and wall body 1 laminate is used for driving locker 4 first driving piece 5 that slides, and first driving piece 5 is the auto-lock motor, and installation cavity 13 that supplies first driving piece 5 card to go into is offered to this wall body 1, and wall body 1 fixedly connected with controller (not shown in the figure), the signal output part of controller is connected with the signal input part of first driving piece 5. The wall body 1 is fixedly connected with the internal gear 6, the wall body 1 is provided with a containing cavity 14 for clamping the internal gear 6, the containing cavity 14 is communicated with the mounting cavity 13, and the first driving piece 5 and the internal gear 6 are mounted in the wall body 1, so that the occupied indoor space is reduced. The rotating rod 51 is connected to the inner gear 6 in a rotating manner, one end, close to the axial line of the inner gear 6, of the rotating rod 51 is fixedly connected with the output end of the first driving piece 5, one end, far away from the first driving piece 5, of the rotating rod 51 is connected with the rotating gear 52 in a rotating manner, the rotating gear 52 is connected with the rotating rod 51 through the rotating shaft 53, and the rotating gear 52 is meshed with the inner gear 6. One side of the storage cabinet 4, which is close to the wall body 1, is provided with a sliding block 42 in a protruding mode towards the direction, which is close to the wall body 1, one side of the wall body 1, which is close to the storage cabinet 4, is fixedly connected with a limiting plate 15, and the limiting plate 15 is provided with a first waist-shaped hole 151 for the sliding block 42 to clamp in and slide. The rotating gear 52 is connected with the first linkage mechanism 7, the first linkage mechanism 7 comprises a guide block 71 which is rotationally connected to one end of the rotating shaft 53, which is close to the storage cabinet 4, a connecting plate 72 is fixedly connected to one side of the sliding block 42, which is close to the guide block 71, the connecting plate 72 is located between the inner gear 6 and the limiting plate 15, a second waist-shaped hole 721 for the guide block 71 to clamp in and slide is formed in the connecting plate 72, and the first waist-shaped hole 151 and the second waist-shaped hole 721 are vertically distributed.

Referring to fig. 6 and 7, the locker 4 is fixedly connected with a fixing shaft 43, the fixing shaft 43 is rotatably connected with a first baffle 44, one end of the first baffle 44 away from the fixing shaft 43 is rotatably connected with a second baffle 45, and the first baffle 44 and the second baffle 45 are rotatably connected through a rotating shaft 46. The locker 4 is fixedly connected with a second driving piece 8 for driving the first baffle plate 44 to move, the second driving piece 8 is a self-locking cylinder, a signal output end of the controller is connected with a signal input end of the second driving piece 8, a cavity 47 for placing the second driving piece 8 is formed in the locker 4, and the second driving piece 8 is connected with a second linkage mechanism 9 for driving the second baffle plate 45 to move. The second linkage mechanism 9 comprises a rack 91 fixedly connected to the output end of the second driving member 8, the storage cabinet 4 is rotatably connected with a connecting gear 92, a connecting rod 93 is hinged to one side of the second baffle 45, which is close to the storage cabinet 4, and the connecting rod 93 is connected with the connecting gear 92 through a connecting shaft 94. The inner wall of one side of the cavity 47 is convexly formed with a guiding convex edge 48 towards the direction close to the rack 91, and one side of the rack 91 close to the guiding convex edge 48 is provided with a slideway 911 for the guiding convex edge 48 to be clamped in and slide.

The implementation principle of the indoor layout with the variable space in the embodiment of the application is as follows:

when the storage cabinet 4 needs to be moved, the controller is opened, the controller controls the first driving piece 5 to be opened, the first driving piece 5 drives the rotating rod 51 to rotate around the axis of the output end of the first driving piece 5, the rotating rod 51 drives the rotating gear 52 to rotate around the inner gear 6, the inner gear 6 drives the guide block 71 to slide along the length direction of the second waist-shaped hole 721, the guide block 71 drives the connecting plate 72 to slide along the length direction of the first waist-shaped hole 151, namely, the storage cabinet 4 is driven to slide, and when the storage cabinet 4 moves to a corresponding position, the first driving piece 5 stops working.

When the article is required to be placed in the locker 4, the controller is opened, the controller controls the second driving piece 8 to be opened, the second driving piece 8 drives the rack 91 to slide, the rack 91 drives the connecting gear 92 to rotate, and the connecting gear 92 drives the connecting rod 93 to rotate, so that the connecting rod 93 drives the second baffle 45 and the first baffle 44 to move, and the article is placed in the locker 4 in a narrow space conveniently.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The utility model provides a space-variable indoor layout, includes wall body (1) and floor (2), its characterized in that: the floor (2) is connected with a storage cabinet (4) in a sliding mode, the storage cabinet (4) is used for dividing a room into a bedroom and a study, a first driving piece (5) used for driving the storage cabinet (4) to slide is fixedly connected with a wall body (1), a controller is fixedly connected with the wall body (1), and a signal output end of the controller is connected with a signal input end of the first driving piece (5).

2. The spatially-variable indoor layout of claim 1, wherein: the wall body (1) fixedly connected with limiting plate (15), locker (4) fixedly connected with slider (42), limiting plate (15) are provided with be used for slider (42) card is gone into and first waist hole (151) that slides.

3. The spatially-variable indoor layout of claim 2, wherein: the wall body (1) fixedly connected with internal gear (6), internal gear (6) rotation is connected with dwang (51), the one end and the output fixed connection of first driving piece (5) of dwang (51), the other end rotation is connected with rotation gear (52), rotation gear (52) with dwang (51) are connected through pivot (53), rotation gear (52) with internal gear (6) meshing, slider (42) are connected with and are used for driving first link (7) that slider (42) slided.

4. A spatially-variable indoor layout according to claim 3, wherein: the first linkage mechanism (7) comprises a connecting plate (72) fixedly connected to the sliding block (42), the connecting plate (72) is located between the sliding block (42) and the inner gear (6), the rotating shaft (53) is rotationally connected with a guide block (71), and the connecting plate (72) is provided with a second waist-shaped hole (721) for the guide block (71) to be clamped in and slide.

5. The spatially-variable indoor layout of claim 1, wherein: the storage cabinet (4) is fixedly connected with a directional wheel (41) which is abutted with the floor (2).

6. The spatially-variable indoor layout of claim 1, wherein: the utility model discloses a cabinet, including cabinet (4), fixed axle (43) rotate and are connected with first baffle (44), first baffle (44) rotate and are connected with second baffle (45), first baffle (44) with second baffle (45) are rotated through axis of rotation (46) and are connected, cabinet (4) are connected with and are used for the drive second driving piece (8) that second baffle (45) removed, cabinet (4) are connected with and are used for driving second linkage (9) that second baffle (45) removed, the signal output part of controller with the signal input part of second driving piece (8) is connected.

7. The spatially-variable indoor layout of claim 6, wherein: the second linkage mechanism (9) comprises a connecting gear (92) which is rotationally connected with the storage cabinet (4), the second baffle (45) is hinged with a connecting rod (93), the connecting rod (93) is fixedly connected with the connecting gear (92) through a connecting shaft (94), the output end of the second driving piece (8) is fixedly connected with a rack (91), and the rack (91) is meshed with the connecting gear (92).

8. The spatially-variable indoor layout of claim 7, wherein: the storage cabinet (4) is rotationally connected with a guide convex edge (48), and the rack (91) is provided with a slide way (911) used for clamping and sliding the guide convex edge (48).

9. The spatially-variable indoor layout of claim 1, wherein: the wall body (1) is provided with a storage cavity (11), and the floor (2) is connected with a bed (3) for covering the storage cavity (11) in a sliding manner.

10. The spatially-variable indoor layout of claim 9, wherein: the wall body (1) is fixedly connected with a guide plate (12), and the bed (3) is provided with a sliding cavity (31) for clamping and sliding the guide plate (12).