CN218091876U - Wallboard adjusting mechanism - Google Patents

Abstract

The embodiment of the application discloses a wallboard adjusting mechanism, which comprises a supporting part, a keel and a height adjusting device, wherein the height adjusting device is arranged in a framework cavity of the keel, and comprises a longitudinal lifting part, a rotating part in threaded connection with the longitudinal lifting part and a driving part in meshing transmission with the rotating part; the keel is provided with a first through hole, at least one of the longitudinal lifting component and the supporting component penetrates through the first through hole to be connected with the other one, and the driving component rotates to drive the rotating component to rotate around the longitudinal axis so as to drive the longitudinal lifting component to longitudinally lift, and further drive the supporting component and the wallboard supported on the supporting component to longitudinally lift. The wallboard adjusting mechanism can adjust the height of the wallboard simply, efficiently and laborsavingly, occupies small layout space, can be applied to narrow occasions, and has simple and compact integral structure and few parts.

Description

Wallboard adjusting mechanism

Technical Field

The utility model relates to an architectural decoration technical field, especially a wallboard adjustment mechanism, when carrying out the wallboard installation, wallboard height is adjusted to usable this mechanism portably high-efficiently.

Background

When installing the wall panel, it is usually necessary to repeatedly adjust the height of the wall panel. At present, the adjustment mode is manual adjustment by multiple persons, the adjustment operation is complex, the requirement on constructors is high, the adjustment efficiency is low, and the construction period is long. In addition, when the wallboard is installed in a narrow space, the problems that the operation space is limited, the complex device is not easy to arrange and the like are also faced.

Therefore, how to simply and efficiently realize the height adjustment of the wall panel and the application in narrow occasions is a technical problem to be solved by the technical personnel in the field.

Disclosure of Invention

In order to solve the technical problem, the application provides a wallboard adjustment mechanism, wallboard adjustment mechanism includes supporting component, fossil fragments and increases the device, the supporting component is used for supporting the wallboard, it installs to increase the device the skeleton intracavity of fossil fragments, it includes vertical lifting unit to increase the device, fossil fragments are equipped with first through-hole, vertical lifting unit with at least one of supporting component passes first through-hole is connected with another, vertical lifting unit drives the vertical lift of supporting component.

In one embodiment of the wallboard adjusting mechanism, the height adjusting device comprises a rotating component and a limiting structure; the rotating component is rotatable about a longitudinal axis; the limiting structure limits the longitudinal lifting component to rotate around a longitudinal axis; the longitudinal lifting member is screw-coupled with the rotating member to be longitudinally lifted in accordance with the rotation of the rotating member.

An embodiment of the wall panel adjusting mechanism, the limiting structure comprises a first limiting part arranged on the supporting part and a second limiting part arranged on the longitudinal lifting part, and the first limiting part and the second limiting part are mutually interfered in the circumferential direction around the longitudinal axis to limit the rotation of the longitudinal lifting part around the longitudinal axis.

In one embodiment of the wallboard adjusting mechanism, the height adjusting device further comprises a driving member connected with the rotating member to drive the rotating member to rotate around the longitudinal axis; the keel is provided with a second through hole, and the driving part is provided with an operation part which is used for being matched with the operation part at the position right opposite to the second through hole.

In one embodiment of the wallboard adjustment mechanism, the drive member and the rotating member are intermeshing gears.

Wallboard adjustment mechanism's an embodiment, driver part is rotatory around horizontal axis, driver part's horizontal one end is just right the second through-hole, the wall body was kept away from to the fossil fragments one side is equipped with the curb plate, the curb plate is participated in to enclose to close and is formed the skeleton chamber, the second through-hole is located the curb plate.

An embodiment of wallboard adjustment mechanism, the interior week of first through-hole with the interior week of second through-hole all is equipped with first spacing step portion, rotary part with driving part all is equipped with the spacing step portion of second, rotary part with the spacing step portion of second of driving part adorn respectively in first through-hole with the second through-hole to respectively with the first through-hole with the spacing cooperation in the first spacing step portion of second through-hole is along the hole radial with hole axial, in order to realize rotary part with driving part is relative the location installation of fossil fragments.

An embodiment of the wallboard adjusting mechanism is characterized in that a fixing plate is arranged on one side, close to a wall body, of the keel, the fixing plate is located outside the framework cavity, and the fixing plate is provided with a connecting hole used for connecting the wall body.

In one embodiment of the wall panel adjustment mechanism, the keel comprises a top plate connected between the fixed plate and the side plate, the top plate participates in enclosing to form the skeletal cavity, the support member comprises a body portion arranged above the top plate, and an elastic pad is arranged between one side of the body portion close to the fixed plate and the fixed plate.

In one embodiment of the wall board adjusting mechanism, the supporting member further comprises a baffle plate disposed on a side of the body portion away from the wall body, and the baffle plate is used for stopping the wall board.

The application provides a wallboard adjustment mechanism has: the height of the wall board can be simply, efficiently and laborsavingly adjusted; the occupied arrangement space is small, and the device can be applied to narrow occasions; the whole structure is simple and compact, the parts are few, and the assembly is easy.

Drawings

FIG. 1 is a schematic view of one embodiment of a wallboard adjustment mechanism provided herein;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a cross-sectional view of a rotating member;

fig. 4 is a sectional view of the driving part.

The reference numerals are explained below:

01 wallboard and 02 wall body;

100 supporting parts, 101 body parts, 102 baffle plates and D first limiting parts;

the structure comprises a keel 200, a framework cavity 201, a top plate 202, a side plate 203, a fixing plate 204, a bottom plate 205, a first through hole A, a second through hole B and a first limiting step part C;

300, a 300 height adjusting device, 301, a longitudinal lifting component, 302, a rotating component, 303, a driving component, E, a second limiting part, F, G, a second limiting step part;

400 of an elastic pad;

500 self tapping screw.

Detailed Description

The application provides a wallboard adjustment mechanism, this wallboard adjustment mechanism can adjust the wallboard height portably high-efficiently and can be applied in narrow occasion.

In order to make those skilled in the art better understand the technical solution of the present application, the wall plate adjusting mechanism provided in the present application is further described in detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, the wall panel adjustment mechanism includes a support member 100, a keel 200, and an elevation device 300.

The support member 100 serves to support the wall panel 01, and the bottom of the wall panel 01 is supported on the support member 100. The support member 100 may be provided throughout the length direction of the wall panel 01.

The keel 200 is fixedly installed on the outer surface of the wall 02 to play a leveling role. The keel 200 has a skeletal cavity 201. The keel 200 is provided with a first through hole a.

The height-adjustment device 300 is mounted within the skeletal cavity 201 of the keel 200. The height-adjusting means 300 comprises a longitudinal lifting member 301. The longitudinal lifting member 301 and the supporting member 100 are connected to each other, and specifically, at least a portion of the longitudinal lifting member 301 passes through the first through hole a to be connected to the supporting member 100, or at least a portion of the supporting member 100 passes through the first through hole a to be connected to the longitudinal lifting member 301.

The longitudinal lifting component 301 can lift longitudinally, and drives the supporting component 100 and the wallboard 01 supported on the supporting component 100 to lift together when lifting longitudinally, so as to realize the height adjustment of the wallboard 01.

The height-adjusting devices 300 of the wallboard adjusting mechanism can be arranged into a plurality of groups, when the wallboard adjusting mechanism is applied, the height-adjusting devices 300 of each group are sequentially arranged at intervals along the length direction of the wallboard 01, the longitudinal lifting components 301 of the height-adjusting devices 300 of each group are respectively connected with different length positions of the supporting component 100, and the wallboard can be driven to basically keep horizontal lifting by driving the longitudinal lifting components 301 of the height-adjusting devices 300 of each group to lift and descend simultaneously.

Adopt this wallboard adjustment mechanism to adjust the wallboard height, compare many people manual cooperation and carry out wallboard altitude mixture control, efficiency is higher and more laborsaving convenient. In addition, since the height-adjusting device 300 is installed in the framework cavity 201 of the keel 200, no additional arrangement space is occupied, so that the wallboard adjusting mechanism can be applied even in narrow occasions.

In the illustrated embodiment, the keel 200 includes a top plate 202, a side plate 203 attached to a side of the top plate 202 remote from the wall, a bottom plate 205 attached to a bottom side of the side plate 203, and a fastening plate 204 attached to a side of the top plate 202 adjacent to the wall. The bottom surface of the bottom plate 205 may be provided with a non-slip structure. The top plate 202, the bottom plate 205 and the side plates 203 jointly enclose a framework cavity 201, and one side of the framework cavity 201 close to the wall body is an open side. The fixation plate 204 is located outside the skeletal cavity 201. In an application state, the fixing plate 204 is attached to the outer surface of the wall 02, and a connecting hole (not shown) is formed in the fixing plate 204, through which the self-supply screw 500 passes to be connected to the wall 02, so that the keel 200 is fixedly mounted.

In the illustrated embodiment, the support member 100 is disposed above the top plate 202 of the keel 200 to facilitate supporting the wallboard. The first through hole a is provided in the top plate 202 of the keel 200.

In the illustrated embodiment, and with reference to figures 1 and 2, the support member 100 comprises a body portion 101, the bottom of the wall panel 01 being supported on the body portion 101. An elastic pad 400 (for example, a silicone pad, a sponge pad, or the like) is disposed between the fixing plate 204 and the side of the body 101 of the supporting member 100 close to the wall 02, so as to avoid the problems of noise, abrasion, and large adjusting resistance caused by friction of the fixing plate 204 during the lifting process of the supporting member 100. The side of the body 101 of the supporting member 100 away from the wall is provided with a baffle plate 102, and the baffle plate 102 is located outside the outer surface of the wall plate 01 and can stop the wall plate 01 to prevent the wall plate 01 from sliding off the outer edge of the supporting member 100, which is beneficial to improving the safety of the adjusting operation.

Further, the height-adjusting device 300 may further include a rotating component 302 and a limiting structure. The rotating component 302 can rotate around the longitudinal axis, the limiting structure limits the longitudinal lifting component 301 to rotate around the longitudinal axis, and the longitudinal lifting component 301 is in threaded connection with the rotating component 302.

When the rotating component 302 rotates around the longitudinal axis, the longitudinal lifting component 301 cannot rotate around the longitudinal axis under the limiting effect of the limiting structure, so that the screw thread converts the rotating motion of the rotating component 302 into the longitudinal movement of the longitudinal lifting component 301, that is, the rotating component 302 rotates around the longitudinal axis to drive the longitudinal lifting component 301 to lift longitudinally. The screw thread is arranged, so that the adjustment is more labor-saving, and the screw thread has self-locking capability and can be ensured to be stabilized at a target height position.

In the illustrated embodiment, the longitudinal lifting member 301 is a bolt, and the rotating member 302 is a gear, but is not limited thereto, as long as the rotating member 302 rotates around the longitudinal axis to drive the longitudinal lifting member 301 to lift longitudinally.

In the illustrated embodiment, as shown in fig. 2, the limiting structure includes a first limiting portion D disposed on the main body 101 of the supporting member 100 and a second limiting portion E disposed at one end of the longitudinal lifting member 301, and the first limiting portion D and the second limiting portion E are abutted against each other in a circumferential direction around the longitudinal direction for limiting. In the drawing, the first limiting portion D is a limiting hole, the second limiting portion E is a limiting block, the limiting hole and the limiting block can be exchanged, the inner peripheral wall surface of the limiting hole and the outer peripheral wall surface of the limiting block are limited in the circumferential direction around the longitudinal direction, specifically, the inner peripheral wall surface of the limiting hole and the outer peripheral wall surface of the limiting block are both non-circular surfaces, and the limiting structure is simple and compact in structure, few in parts and low in implementation cost. Of course, the position limiting structure is not limited to the illustrated embodiment, and for example, position limiting by a position limiting pin or a position limiting screw may be adopted.

Further, as shown in fig. 2, the height-adjusting device 300 may further include a driving member 303. The keel 200 is further provided with a second through hole B, and as shown in fig. 4, the driving member 303 is provided with an operating portion F at a position facing the second through hole B. When the height of the wall board needs to be adjusted, the operating part penetrates through the second through hole B to be matched with the operating part F, the driving part 303 is driven to move by driving the operating part, and then the rotating part 302 is driven to rotate around the longitudinal axis.

Specifically, as shown in fig. 2, the inner circumferences of the first through hole a and the second through hole B may be provided with a first limit stepped portion C. The rotating member 302 and the driving member 303 may be provided with a second stopping step portion G. The second limiting step G of the rotating component 302 is installed inside the first through hole a, and the second limiting step G of the rotating component 302 is in limiting fit with the first limiting step C of the first through hole a along the axial direction and the radial direction of the hole (but does not affect the rotation of the rotating component 302), so that the positioning and installation of the rotating component 302 relative to the keel 200 are realized. The second limiting step portion G of the driving component 303 is installed inside the second through hole B, and the second limiting step portion G of the driving component 303 is in limiting fit with the first limiting step portion C of the second through hole B along the axial direction and the radial direction of the hole (but the rotation of the driving component 303 is not affected), so that the driving component 303 is positioned and installed relative to the keel 200. By the arrangement, the rotating part 302 and the driving part 303 can be positioned and installed relative to the keel 200 without additional positioning parts, so that the whole adjusting mechanism is simple and compact in structure and few in parts.

In the illustrated embodiment, drive member 303 and rotating member 302 are gears that mesh with each other, and rotation of drive member 303 rotates rotating member 302 about a longitudinal axis. The gear structure has high transmission efficiency, so that the adjusting operation is labor-saving and efficient. Of course, the driving member 303 and the rotating member 302 are not limited to the gear structure, and for example, the driving member 303 and the rotating member 302 may be a rack and pinion structure.

In the illustrated embodiment, as shown in fig. 4, the operation portion F of the driving member 303 is a screwdriver slot, and the operation member is a screwdriver. When the height of the wallboard needs to be adjusted, the screwdriver penetrates through the second through hole B to be matched with the operation part F, the driving part 303 is driven to rotate by rotating the screwdriver, and then the rotating part 302 is driven to rotate around the longitudinal axis.

In the illustrated embodiment, both the driving member 303 and the rotating member 302 are bevel gears, and the driving member 303 rotates about a transverse axis, i.e., the rotational axis of the driving member 303 is at a 90 degree angle to the rotational axis of the rotating member 302. The structure has small integral volume and is easier to install in the framework cavity 201, and the second through holes B can be arranged on the side plates 203 of the keel 200, so that the screwdriver can be inserted in the transverse direction and is easier to operate than the screwdriver inserted in the longitudinal direction.

To sum up, the wallboard adjustment mechanism that this application provided has: the height of the wall board can be simply, efficiently and laborsavingly adjusted; the occupied arrangement space is small, and the device can be applied to narrow occasions; the whole structure is simple and compact, the parts are few, and the assembly is easy.

The foregoing has been a description of the principles and implementations of the present application using specific examples, which are provided solely to aid in understanding the methods and their core concepts of the present application. It should be noted that, for those skilled in the art, without departing from the principle of the present application, the present application can also make several improvements and modifications, and those improvements and modifications also fall into the protection scope of the claims of the present application.

Claims (10)

1. Wallboard adjustment mechanism, characterized in that wallboard adjustment mechanism includes supporting component (100), fossil fragments (200) and heightening device (300), supporting component (100) are used for supporting wallboard (01), heightening device (300) is installed in skeleton chamber (201) of fossil fragments (200), heightening device (300) is including vertical lifting unit (301), fossil fragments (200) are equipped with first through-hole (A), vertical lifting unit (301) with at least one of supporting component (100) passes first through-hole (A) is connected with another, vertical lifting unit (301) drive supporting component (100) vertically goes up and down.

2. The wallboard adjustment mechanism of claim 1, wherein the height adjustment device (300) comprises a rotation member (302) and a stop structure; the rotating component (302) is rotatable about a longitudinal axis; the limiting structure limits the longitudinal lifting component (301) to rotate around a longitudinal axis; the longitudinal lifting member (301) is screw-coupled with the rotating member (302) to be lifted longitudinally with the rotation of the rotating member (302).

3. The wall panel adjustment mechanism of claim 2, wherein the limiting structure comprises a first limiting portion (D) provided on the support member (100) and a second limiting portion (E) provided on the longitudinal lifting member (301), the first limiting portion (D) and the second limiting portion (E) interfering with each other in a circumferential direction around the longitudinal axis to limit the rotation of the longitudinal lifting member (301) around the longitudinal axis.

4. The wallboard adjustment mechanism of claim 2, wherein the height adjustment apparatus (300) further comprises a drive member (303), the drive member (303) being coupled to the rotating member (302) to rotate the rotating member (302) about a longitudinal axis; fossil fragments (200) are equipped with second through-hole (B), driver part (303) just are equipped with in the position of second through-hole (B) and are used for with operating parts complex operating part (F).

5. The wallboard adjustment mechanism of claim 4, wherein the drive member (303) and the rotation member (302) are intermeshing gears.

6. The wallboard adjusting mechanism of claim 5, wherein the driving member (303) rotates around a transverse axis, one transverse end of the driving member (303) faces the second through hole (B), a side plate (203) is arranged on one side of the keel (200) far away from the wall (02), the side plate (203) participates in enclosing to form the framework cavity (201), and the second through hole (B) is arranged on the side plate (203).

7. The wall plate adjusting mechanism according to claim 4, wherein the inner periphery of the first through hole (A) and the inner periphery of the second through hole (B) are both provided with a first limiting step part (C), the rotating member (302) and the driving member (303) are both provided with a second limiting step part (G), and the second limiting step parts (G) of the rotating member (302) and the driving member (303) are respectively installed in the first through hole (A) and the second through hole (B) and respectively and limitedly matched with the first limiting step parts (C) of the first through hole (A) and the second through hole (B) along a hole radial direction and a hole axial direction, so as to realize the positioning installation of the rotating member (302) and the driving member (303) relative to the keel (200).

8. Wallboard adjusting mechanism according to any one of claims 1-7, characterized in that a fixing plate (204) is provided on one side of the keel (200) close to the wall (02), the fixing plate (204) is located outside the framework cavity (201), and the fixing plate (204) is provided with a connecting hole for connecting the wall (02).

9. Wallboard adjusting mechanism according to claim 8, characterized in that the side of the keel (200) facing away from the wall (02) is provided with a side plate (203), the keel (200) comprises a top plate (202) connected between the fixing plate (204) and the side plate (203), the top plate (202) participates in enclosing the skeleton cavity (201), the support member (100) comprises a body portion (101), the body portion (101) is arranged above the top plate (202), and an elastic pad (400) is provided between the fixing plate (204) and the side of the body portion (101) close to the fixing plate (204).

10. A wallboard adjustment mechanism according to claim 9, characterized in that the support member (100) further comprises a baffle (102), the baffle (102) being arranged at a side of the body portion (101) remote from the wall (02), the baffle (102) being adapted to stop a wallboard (01).

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