CN218266777U - Structure for adjusting inclination torque of vesa component and display device - Google Patents

Abstract

The utility model discloses a structure for adjusting the tilting torsion of a vesa component and a display device, wherein the structure comprises the vesa component, a limiting plate, a torsion adjusting device and a connecting plate; and the structure is applied to a display device; the first surface of the limiting plate is fixedly arranged on the first surface of the vesa component; the connecting plate and the torsion adjusting device are mounted on the second surface, far away from the vesa component, of the limiting plate, and the connecting plate is connected with the torsion adjusting device; the torsion adjusting device comprises an adjusting screw. This adjust structure of vesa part slope torsion through setting up torsion adjusting device on the vesa part, can be through direct rotatory adjusting screw, and then adjusts the slope torsion of vesa part, satisfies the slope torsion requirement of the display screen of multiple weight and size.

Description

Structure for adjusting inclination torque of vesa component and display device

Technical Field

The utility model belongs to the supporting structure field, concretely relates to adjust structure and display device of vesa part slope torsion.

Background

In the present display device trade, adopt between display screen and the support part basically and fix the torsional spring both ends on the fitting piece of both sides, after assembling the finished product like this, the slope torsion of vesa (vesa, stores pylon) part is fixed, can only use the display screen of corresponding weight and size, and when wanting to use the display screen of other weights and sizes, just need change the torsional spring of different power values to cause display device's support specification numerous, manufacturing cost rises.

Unpublished patents of the same applicant as the present application: the application number is '2022212224639', the name is 'a quick release support and display device', a vesa component and a support component of the support are connected through a first connecting piece and a second connecting piece, the first connecting piece and the second connecting piece are connected through an elastic key and a limiting hole, and the detachable installation of the vesa component and the support component is realized. But the inclination torsion of the vesa component cannot be adjusted, and the requirements of display screens with various specifications cannot be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adjust structure and display device of vesa part slope torsion can directly adjust the slope torsion of vesa part, satisfies the slope torsion requirement of the display screen of multiple weight and size simultaneously, solves the problem in the background art.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

a structure for adjusting the tilting torsion of a vesa component comprises the vesa component, a limiting plate, a torsion adjusting device and a connecting plate; the first surface of the limiting plate is fixedly arranged on the first surface of the vesa component; the connecting plate and the torsion adjusting device are mounted on the second surface, far away from the vesa component, of the limiting plate, and the connecting plate is connected with the torsion adjusting device; the torsion adjusting device comprises an adjusting screw.

This adjust structure of vesa part slope torsion through setting up torsion adjusting device on the vesa part, can be through direct rotatory adjusting screw, and then adjust the slope torsion of vesa part, satisfies the slope torsion requirement of the display screen of multiple weight and size.

Preferably, the structure for adjusting the tilting torsion of the vesa component further comprises a packaging shell and a bracket component connecting piece; the first end of the packaging shell is fixedly arranged on the first surface of the vesa component, and the limiting plate, the torsion adjusting device and the connecting plate are positioned inside the packaging shell; the side wall of the packaging shell is provided with a through adjusting hole; the positions of the adjusting holes correspond to the positions of the adjusting screws;

the second end of the packaging shell is provided with a first opening; the first end of the bracket part connecting piece is arranged in the packaging shell through the first opening, and the second end of the bracket part connecting piece is provided with a bracket part mounting hole.

Preferably, the torque force adjusting device further comprises a limiting gasket, a limiting sliding block, a first torsion spring, a second torsion spring and a torsion spring mounting rod; the connecting plates comprise a first connecting plate and a second connecting plate; the first end of the torsion spring mounting rod is connected with the first connecting plate, and the second end of the torsion spring mounting rod is connected with the second connecting plate;

the middle section of the torsion spring mounting rod is provided with a first adjusting screw hole; the middle section of the limiting sliding block is provided with a second adjusting screw hole; the first adjusting screw hole, the second adjusting screw hole and the adjusting block are corresponding in position; the adjusting screw penetrates through the second adjusting screw hole and the first adjusting screw hole in sequence and is in threaded connection with the second adjusting screw hole and the first adjusting screw hole;

the first torsion spring is arranged between the first end of the torsion spring mounting rod and the middle section of the torsion spring mounting rod, and the tail end of the first torsion spring props against the first end of the limiting sliding block; a first side hole is formed in the side wall of the first connecting plate; the head end of the first torsion spring is fixedly arranged on the first side hole;

the second torsion spring is arranged between the second end of the torsion spring mounting rod and the middle section of the torsion spring mounting rod, and the tail end of the second torsion spring props against the second end of the limiting sliding block; a second side hole is formed in the side wall of the second connecting plate; and the head end of the second torsion spring is fixedly arranged on the second side hole.

Preferably, the tail end of the first end of the torsion spring mounting rod is provided with a first thread, and is matched with a first nut matched with the first thread; a first filling sheet is arranged between the first screw cap and the first connecting plate for filling;

the tail end of the second end of the torsion spring mounting rod is provided with a second thread, and a second nut matched with the second thread is matched with the second thread; and a second filling sheet is arranged between the second screw cap and the second connecting plate for filling.

Preferably, a limit gasket is fixedly mounted on the adjusting screw; the limiting gasket is used for enabling the adjusting screw to rotate only clockwise or anticlockwise.

Preferably, the limiting plate is further provided with a first screw hole, a second screw hole and an adjusting device mounting hole; the first connecting plate is provided with a third screw hole corresponding to the first screw hole; the second connecting plate is provided with a fourth screw hole corresponding to the second screw hole in position; the torsion adjusting device is arranged in the adjusting device mounting hole.

Preferably, a bottom plate is further arranged at the position where the vesa component is installed on the limiting plate; the torsion adjusting device is installed on the bottom plate through the adjusting device installation hole.

Preferably, the structure for adjusting the tilting torsion of the vesa component further comprises a first connecting piece, a second connecting piece and a third connecting piece; the second end of the packaging shell is provided with a first opening; the first end of the first connecting piece is fixedly arranged in the packaging shell through the first opening; a first end of the second connecting piece is provided with a second opening, and a second end of the first connecting piece is fixedly arranged in the second connecting piece through the second opening; the first end of the third connecting piece is provided with a third opening, and the second end of the second connecting piece is detachably arranged in the third connecting piece through the third opening.

Preferably, the bracket member mounting hole is provided at the second end of the third link member.

The utility model also provides a display device, including foretell structure of adjusting vesa part slope torsion.

Preferably, the display device further comprises a display screen, a bracket component and a base; the display screen is connected with the bracket component through the structure for adjusting the tilting torsion of the vesa component; the first end of the bracket component is arranged on the structure for adjusting the tilting torsion of the vesa component, and the second end of the bracket component is arranged on the base.

Has the advantages that:

the utility model discloses an adjust structure of vesa part slope torsion:

1. through setting up torsion adjusting device on the vesa part, torsion adjusting device runs through limit slide and torsional spring installation pole through adjusting screw, and limit slide supports the tail end of torsional spring at torsional spring installation pole both ends torsional spring, and the head end of two torsional springs is fixed mounting respectively in first connecting plate and second connecting plate simultaneously, realizes that rotatory adjusting screw can change the torsion of torsional spring to the connecting plate, further changes the slope torsion of vesa part.

2. Through blocking the adjusting screw with the spacing gasket, make the adjusting screw can not extract, can only control the spacing slider and carry out the up-and-down motion, guaranteed the stability of this structure.

3. The side wall of the packaging shell is provided with an adjusting hole corresponding to the position of the adjusting screw, so that a user can directly use a tool to adjust the adjusting screw outside.

Drawings

FIG. 1 is an exploded view of a structure for adjusting the tilting torque of the vesa component of the present example;

FIG. 2 is a block diagram of the torque adjustment apparatus of FIG. 1;

FIG. 3 is a block diagram of the first and second connector plates of FIG. 1;

FIG. 4 is an overall block diagram of FIG. 1;

FIG. 5 is a top view of FIG. 4;

fig. 6 is a structural view showing a stopper plate of fig. 1.

Reference numerals

10. A vesa component; 20. a base plate; 30. a limiting plate; 31. a limiting hole; 32. a first screw hole; 33. an adjusting device mounting hole; 40. a torque force adjusting device; 41. adjusting screws; 42. a limiting gasket; 43. a limiting slide block; 44. a first torsion spring; 45. the tail end of the first torsion spring; 46. a head end of the first torsion spring; 47. a torsion spring mounting bar; 48. a first nut; 49. a first filling sheet; 51. a first connecting plate; 511. a first mounting hole; 512. a third screw hole; 513. a first side hole; 52. a second connecting plate; 521. a second mounting hole; 522. a fourth screw hole; 60. packaging the shell; 61. an adjustment hole; 71. a first connecting member; 72. a second connecting member; 73. a third connecting member; 74. a bracket member mounting hole; 75. a bracket component connecting piece.

Detailed Description

In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.

The technical solution of the present invention is described in detail with specific embodiments below.

Example one

As shown in fig. 1 to 6, the structure for adjusting the tilting torque of the vesa component of the present embodiment includes a vesa component 10, a limiting plate 30, a torque adjusting device 40, a connecting plate, a package shell 60, an adjusting hole 61, and a bracket component connector 75; the first surface of the limiting plate 30 is fixedly arranged on the first surface of the vesa component 10; a connecting plate and a torsion adjusting device 40 are arranged on the second surface, far away from the vesa component 10, of the limiting plate 30, and the connecting plate is connected with the torsion adjusting device 40; the first end of the enclosure 60 is fixedly mounted on the first surface of the vesa component 10, and the limiting plate 30, the torsion adjusting device 40 and the connecting plate are located inside the enclosure 60; the side wall of the packaging shell 60 is provided with a through adjusting hole 61; the torsion adjusting device 40 includes an adjusting screw 41; the positions of the adjusting screws 41 correspond to the positions of the adjusting holes 61;

the second end of the enclosure 60 is provided with a first opening; the carrier member connector 75 is mounted in the enclosure 60 at a first end thereof through the first opening and at a second end thereof is provided with a carrier member mounting hole 74.

The structure of regulation vesa part slope torsion of this embodiment through setting up torsion adjusting device 40 on vesa part 10, can be externally through the direct rotatory adjusting screw 41 of instrument, and then adjusts the slope torsion of vesa part 10, satisfies the slope torsion requirement of the display screen of multiple weight and size. And the side wall of the package shell 60 is provided with an adjusting hole 61 corresponding to the position of the adjusting screw 41, so that a user can directly use a tool externally to adjust the adjusting screw 41 through the adjusting hole 61.

Preferably, the torque force adjusting device 40 further comprises a limiting gasket 42, a limiting sliding block 43, a first torsion spring 44, a second torsion spring, and a torsion spring mounting rod 47; the connecting plates include a first connecting plate 51 and a second connecting plate 52; the first end of the torsion spring mounting rod 47 is connected with the first connecting plate 51, and the second end is connected with the second connecting plate 52;

the middle section of the torsion spring mounting rod 47 is provided with a first adjusting screw hole; a second adjusting screw hole is formed in the middle section of the limiting sliding block 43; the first adjusting screw hole, the second adjusting screw hole and the adjusting block are corresponding in position; the adjusting screw 41 penetrates through the second adjusting screw hole and the first adjusting screw hole in sequence and is in threaded connection with the second adjusting screw hole and the first adjusting screw hole;

the first torsion spring 44 is arranged between the first end of the torsion spring mounting rod 47 and the middle section thereof, and the tail end of the first torsion spring 44 abuts against the first end of the limit slider 43; the side wall of the first connection plate 51 is provided with a first side hole 513; the head end of the first torsion spring 44 is fixedly arranged in the first side hole 513;

the second torsion spring is arranged between the second end of the torsion spring mounting rod 47 and the middle section thereof, and the tail end of the second torsion spring props against the second end of the limiting slide block 43; the side wall of the second connecting plate 52 is provided with a second side hole; the head end of the second torsion spring is fixedly arranged at the second side hole.

The structure of regulation vesa part slope torsion of this embodiment, through setting up torsion adjusting device 40 on vesa part 10, torsion adjusting device 40 runs through limit slider 43 and torsional spring installation pole 47 through adjusting screw 41, and limit slider 43 supports the tail end of torsional spring installation pole 47 both ends torsional spring, and the head end fixed mounting of both ends torsional spring realizes rotatory adjusting screw 41 can change the torsion of torsional spring to the connecting plate simultaneously, further changes the slope torsion of vesa part 10 in the connecting plate.

Specifically, in the present embodiment, the first end and the second end of the limiting sliding block 43 respectively abut against the tail ends of the first torsion spring 44 and the second torsion spring, and meanwhile, the head end of the first torsion spring 44 is fixedly installed in the first side hole 513, and the head end of the second torsion spring is fixedly installed in the second side hole. In actual operation, when the user uses the screwdriver to enter the adjusting hole 61 and rotate the adjusting screw 41 counterclockwise, the limiting slider 43 moves downward, so that the first torsion spring 44 and the second torsion spring against which the limiting slider 43 abuts are further tightened, and then the torsion force of the first torsion spring 44 to the first connecting plate 51 and the torsion force of the second torsion spring to the second connecting plate 52 are increased, and finally the tilting torsion force of the vesa component 10 is changed.

Preferably, the first connection plate 51 is provided with a first mounting hole 511; a first end of the torsion spring mounting rod 47 is connected to the first connection plate 51 through the first mounting hole 511;

the second connecting plate 52 is provided with a second mounting hole 521; the second end of the torsion spring mounting rod 47 is connected with the second connecting plate 52 through the second mounting hole 521;

the tail end of the first end of the torsion spring mounting rod 47 is provided with a first thread, and is matched with a first nut 48 matched with the first thread; the space between the first screw cap 48 and the first connecting plate 51 is filled by arranging a first filling sheet 49;

the tail end of the second end of the torsion spring mounting rod 47 is provided with a second thread, and a second nut matched with the second thread is matched with the second thread; the space between the second nut and the second connecting plate 52 is filled by arranging a second filling piece.

Preferably, a limiting gasket 42 is fixedly mounted on the adjusting screw 41; the limiting washer 42 is used to make the adjusting screw 41 rotate only clockwise or counterclockwise.

Specifically, the position limiting plate 30 is provided with a position limiting hole 31, and the position limiting hole 31 corresponds to the position of the adjusting screw 41.

The structure for adjusting the tilting torsion of the vesa component in the embodiment clamps the adjusting screw 41 by the limiting gasket 42, so that the adjusting screw 41 cannot be pulled out, and only the limiting slide block 43 can be controlled to move up and down, thereby ensuring the stability of the structure.

Preferably, the limiting plate 30 is further provided with a first screw hole 32, a second screw hole, and an adjusting device mounting hole 33; the first connecting plate 51 is provided with a third screw hole 512 corresponding to the first screw hole 32; the second connecting plate 52 is provided with a fourth screw hole 522 corresponding to the second screw hole; the torsion adjusting device 40 is disposed in the adjusting device mounting hole 33.

Preferably, the bottom plate 20 is further arranged at the position where the vesa component 10 is installed on the limit plate 30; the torsion adjusting device 40 is mounted to the base plate 20 through the adjusting device mounting hole 33.

Preferably, the structure for adjusting the tilting torsion of the vesa component 10 further comprises a first connecting piece 71, a second connecting piece 72 and a third connecting piece 73; the second end of the enclosure 60 is provided with a first opening; a first end of the first connector 71 is fixedly mounted in the package casing 60 through the first opening; a first end of the second connecting piece 72 is provided with a second opening, and a second end of the first connecting piece 71 is fixedly arranged in the second connecting piece 72 through the second opening; a first end of the third link 73 is provided with a third opening through which a second end of the second link 72 is detachably mounted in the third link 73.

Preferably, the bracket member mounting hole 74 is provided at the second end of the third link 73.

Example two

A display device of this embodiment includes the structure for adjusting the tilting torque of the vesa component of the first embodiment.

Preferably, the display device further comprises a display screen, a bracket component and a base; the display screen is connected with the support component through a structure for adjusting the tilting torsion of the vesa component; the bracket member has a first end mounted to the bracket member mounting hole 74 and a second end mounted to the base.

In actual operation, the vesa component 10 and the display screen are connected, and since the connecting plate is fixedly mounted on the vesa component 10, when the user rotates the adjusting screw 41 to change the torsion of the connecting plate by the first torsion spring 44 and the second torsion spring, the tilting torsion of the vesa component 10 to the display screen will also change accordingly, so that the vesa component 10 can adapt to display screens with various weights and sizes.

It is above to the structure and display device's of the utility model provides an adjust vesa part slope torsion's embodiment elaborated. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the core concepts of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can also make several improvements and modifications, and these improvements and modifications also fall into the protection scope of the claims of the present invention.

Claims (10)

1. A structure for adjusting the tilting torsion of a vesa component is characterized by comprising a vesa component (10), a limiting plate (30), a torsion adjusting device (40) and a connecting plate; the first surface of the limiting plate (30) is fixedly arranged on the first surface of the vesa component (10); the connecting plate and the torsion adjusting device (40) are mounted on the second surface, away from the vesa component (10), of the limiting plate (30), and the connecting plate is connected with the torsion adjusting device (40); the torsion adjusting device (40) comprises an adjusting screw (41).

2. The structure for adjusting the tilting torque of a vesa component as claimed in claim 1, further comprising a package housing (60) and a bracket component connector (75); the first end of the packaging shell (60) is fixedly arranged on the first surface of the vesa component (10), and the limiting plate (30), the torsion adjusting device (40) and the connecting plate are positioned inside the packaging shell (60); the side wall of the packaging shell (60) is provided with a through adjusting hole (61); the positions of the adjusting holes (61) correspond to the positions of the adjusting screws (41);

the second end of the packaging shell (60) is provided with a first opening; the bracket member connection member (75) has a first end mounted in the enclosure (60) through the first opening and a second end provided with a bracket member mounting hole (74).

3. The structure for adjusting the tilting torsion of a vesa component according to claim 1, wherein the torsion adjusting device (40) further comprises a limit washer (42), a limit slider (43), a first torsion spring (44), a second torsion spring, a torsion spring mounting rod (47); the connecting plates comprise a first connecting plate (51) and a second connecting plate (52); the first end of the torsion spring mounting rod (47) is connected with the first connecting plate (51), and the second end of the torsion spring mounting rod is connected with the second connecting plate (52);

the middle section of the torsion spring mounting rod (47) is provided with a first adjusting screw hole; the middle section of the limiting sliding block (43) is provided with a second adjusting screw hole; the first adjusting screw hole, the second adjusting screw hole and the adjusting block are corresponding in position; the adjusting screw (41) penetrates through the second adjusting screw hole and the first adjusting screw hole in sequence and is in threaded connection with the second adjusting screw hole and the first adjusting screw hole;

the first torsion spring (44) is arranged from the first end of the torsion spring mounting rod (47) to the middle section of the torsion spring mounting rod, and the tail end of the first torsion spring (44) abuts against the first end of the limiting slide block (43); the side wall of the first connecting plate (51) is provided with a first side hole (513); the head end of the first torsion spring (44) is fixedly arranged in the first side hole (513);

the second torsion spring is arranged from the second end of the torsion spring mounting rod (47) to the middle section of the torsion spring mounting rod, and the tail end of the second torsion spring props against the second end of the limiting sliding block (43); the side wall of the second connecting plate (52) is provided with a second side hole; and the head end of the second torsion spring is fixedly arranged on the second side hole.

4. A structure for adjusting a tilting torsion of a vesa member according to claim 3, wherein the first connection plate (51) is provided with a first mounting hole (511); the first end of the torsion spring mounting rod (47) is connected with the first connecting plate (51) through the first mounting hole (511);

the second connecting plate (52) is provided with a second mounting hole (521); the second end of the torsion spring mounting rod (47) is connected with the second connecting plate (52) through the second mounting hole (521);

the tail end of the first end of the torsion spring mounting rod (47) is provided with a first thread, and a first nut (48) matched with the first thread is matched with the torsion spring mounting rod; a first filling sheet (49) is arranged between the first screw cap (48) and the first connecting plate (51) for filling;

the tail end of the second end of the torsion spring mounting rod (47) is provided with second threads, and a second nut matched with the second threads is matched with the second threads; the space between the second screw cap and the second connecting plate (52) is filled by arranging a second filling sheet.

5. The structure for adjusting the tilting torque of the vesa component according to claim 4, wherein a limiting gasket (42) is fixedly mounted on the adjusting screw (41); the limiting gasket (42) is used for enabling the adjusting screw (41) to rotate only clockwise or anticlockwise.

6. The structure for adjusting the tilting torque of a vesa component as claimed in claim 5, wherein the limiting plate (30) is further provided with a first screw hole (32), a second screw hole, an adjusting device mounting hole (33); the first connecting plate (51) is provided with a third screw hole (512) corresponding to the first screw hole (32); the second connecting plate (52) is provided with a fourth screw hole (522) corresponding to the second screw hole in position; the torsion adjusting device (40) is arranged in the adjusting device mounting hole (33).

7. The structure for adjusting the tilting torque of the vesa component according to claim 6, wherein a bottom plate (20) is further arranged at the position where the vesa component (10) is installed on the limiting plate (30); the torsion adjusting device (40) is installed on the bottom plate (20) through the adjusting device installation hole (33).

8. The structure for adjusting the tilting torsion of the vesa component according to claim 2, wherein the structure for adjusting the tilting torsion of the vesa component further comprises a first connecting piece (71), a second connecting piece (72) and a third connecting piece (73); the second end of the packaging shell (60) is provided with a first opening; a first end of the first connector (71) is fixedly arranged in the packaging shell (60) through the first opening; a second opening is formed in the first end of the second connecting piece (72), and the second end of the first connecting piece (71) is fixedly installed in the second connecting piece (72) through the second opening; the first end of the third connecting piece (73) is provided with a third opening, and the second end of the second connecting piece (72) is detachably arranged in the third connecting piece (73) through the third opening.

9. The structure for adjusting the tilting torsion of a vesa component as claimed in claim 8, wherein the bracket component mounting hole (74) is provided at the second end of the third connecting member (73).

10. A display device comprising a structure for adjusting a tilting torsion of a vesa member according to any one of claims 1 to 9; the display device also comprises a display screen, a bracket component and a base; the display screen is connected with the bracket component through the structure for adjusting the tilting torsion of the vesa component; the first end of the bracket component is arranged on the structure for adjusting the tilting torsion of the vesa component, and the second end of the bracket component is arranged on the base.

Images