CN112361163A - Display device installation assembly and display device installation device - Google Patents

Abstract

The display equipment mounting assembly comprises a first mounting part, a second mounting part, a first friction part and a second friction part, wherein the first mounting part is rotatably connected with the second mounting part, the first mounting part is used for mounting display equipment, the first friction part is arranged on the first mounting part, the second friction part is arranged on the second mounting part, when the first mounting part is located at a first ideal position relative to the second mounting part, the first friction part is contacted with the second friction part, and when the first mounting part is rotated to a second ideal position from the first ideal position relative to the second mounting part, the first friction part is contacted with the second friction part. Through the arrangement, when the first installation part is located at the first ideal position or the second ideal position relative to the second installation part, the first friction part and the second friction part are in contact with each other and have large friction force, and the first installation part is difficult to rotate relative to the second installation part, so that the display equipment can be stabilized at the current position, and the use experience of a user is well improved.

Description

Display device installation assembly and display device installation device

Technical Field

The invention belongs to the technical field of display equipment installation, and particularly relates to a display equipment installation assembly and a display equipment installation device.

Background

With the development of display technology, display devices are no longer limited to only the living room of users, the conference room of companies, training classrooms, exhibition rooms and other places, and the display devices are often required for display. The display device is generally floor mounted, i.e., the display device is mounted on a stand fixed to the ground or movable with respect to the ground by a mounting assembly, or suspended, i.e., the display device is mounted on a wall by a mounting assembly.

Whether floor-mounted or suspended, the use of display devices in many scenes places certain requirements on the rotation of the display device, which requires the display device to be rotated relative to a stand or a wall to obtain an angle that is better for the viewing experience, such as the commonly used horizontal and vertical displays.

Although the current mounting assembly can realize the rotating function, in many cases, the display device which is rotated to an ideal position is loose, so that the display device is easy to separate from the current position, and the use experience of a user is greatly influenced.

Disclosure of Invention

The invention aims to provide a display equipment mounting assembly and a display equipment mounting device, after a display equipment is rotated to an ideal position, the display equipment is not easy to deviate from the current position, and the use experience of a user can be improved.

In a first aspect, the present invention provides a display device mounting assembly, which includes a first mounting member, a second mounting member, a first friction member and a second friction member, wherein the first mounting member and the second mounting member are rotatably connected, the first mounting member is used for mounting a display device, the first friction member is disposed on the first mounting member, the second friction member is disposed on the second mounting member, the first friction member and the second friction member are in contact when the first mounting member is in a first ideal position relative to the second mounting member, and the first friction member and the second friction member are in contact when the first mounting member is rotated from the first ideal position to a second ideal position relative to the second mounting member.

In one embodiment, the first friction member and the second friction member are disengaged when the first mounting member is rotated relative to the second mounting member from the first ideal position or the second ideal position to a transitional position, wherein the transitional position is between the first ideal position and the second ideal position.

In one embodiment, the first mounting element comprises a first surface opposite the second mounting element, the second mounting element comprises a second surface opposite the first surface, the first friction element projects from the first surface, and/or the second friction element projects from the second surface.

In one embodiment, the second surface has a receiving groove, and the second friction element is received in the receiving groove.

In one embodiment, the display device mounting assembly further comprises an adjustment member connecting the second friction member and the second mounting member, the adjustment member being configured to adjust a separation distance between the second friction member and the second surface.

In one embodiment, the second installed part is provided with a first installation part and a second installation part, the adjusting part comprises an adjusting part and a limiting part, the limiting part is arranged on one side of the first installed part, the second installed part faces towards the first installed part, the limiting part is connected with the second friction part and connected with the first installation part to limit the interval distance between the second friction part and the second surface, and the adjusting part is connected with the second installation part and abutted against the second friction part to adjust the interval distance between the second friction part and the second surface.

In one embodiment, the display device mounting assembly further comprises a clamping member, the second mounting member is provided with a guide portion extending along an arc, and the clamping member is connected with the first mounting member and is connected with the guide portion in a sliding mode.

In one embodiment, the guide part is poroid, joint spare is worn to locate the guide part, display device installation component still includes the fitting piece, the fitting piece is located the guide part dorsad one side of first installed part, and with joint spare cooperation is connected.

In one embodiment, the first friction member comprises a first friction part and a second friction part which are oppositely arranged, and the second friction member comprises a third friction part and a fourth friction part which are oppositely arranged;

when the first mounting piece is in the first ideal position relative to the second mounting piece, the first friction part is in contact with a third friction part, and the second friction part is in contact with a fourth friction part;

when the first mounting piece is in the second ideal position relative to the second mounting piece, the first friction part is in contact with the fourth friction part, and the second friction part is in contact with the third friction part.

In a second aspect, the present invention further provides a display device mounting apparatus, where the display device mounting apparatus includes a bearing member, a fastener, and the display device mounting apparatus according to any one of the embodiments of the first aspect, the display device mounting apparatus is provided with a barb structure and a fixing portion, the barb structure is clamped on one side of the bearing member, and the fastener is connected with the fixing portion in a matching manner and is abutted against the other side of the bearing member.

Through setting up first friction spare and second friction spare, first installed part is located to first friction spare, and the second installed part is located to the second friction spare, and when first installed part was in first ideal position or second ideal position relative to the second installed part, first friction spare and second friction spare contact and have great frictional force, and first installed part is difficult to rotate relative to the second installed part for display device can be stabilized in the current position, has better improved user's use experience.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is an exploded view of a display device mounting assembly according to the present embodiment;

FIG. 2a is a front view of the first mounting member in a first desired position relative to the second mounting member;

FIG. 2b is a front view of the first mounting member in a transitional position relative to the second mounting member;

FIG. 2c is a front view of the first mounting member in a second desired position relative to the second mounting member;

FIG. 3 is an enlarged schematic structural view of the left side of the display device mounting assembly of FIG. 1;

FIG. 4 is an enlarged schematic view of the right side of the display device mounting assembly of FIG. 1;

fig. 5 is a schematic perspective view of a display device mounting apparatus according to an embodiment;

fig. 6 is a front view schematically illustrating the display device mounting apparatus of fig. 5;

fig. 7 is a schematic view showing the installation of a display device installation apparatus according to another embodiment;

FIG. 8 is a further schematic view of the display device mounting apparatus of FIG. 7;

fig. 9 is a front view of the display device mounting apparatus of fig. 7 and 8 after mounting.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

Referring to fig. 1, 2a and 2c, an embodiment of the present invention provides a display device mounting assembly 100, where the display device mounting assembly 100 is used to mount a display device on a bearing member such as a wall surface, a ceiling, a movable bracket movable relative to the ground, or a fixed bracket fixed relative to the ground, and the display device may be selected from a conference panel, a television, a display screen, and the like. The display device mounting assembly 100 includes a first mounting member 10, a second mounting member 20, a first friction member 30, and a second friction member 40. Each of the first and second mounting members 10 and 20 is preferably made of a metal such as steel, aluminum alloy, or copper. The first installation part 10 and the second installation part 20 are rotatably connected, the first installation part 10 is used for installing the display device, and the second installation part 20 is arranged on the bearing piece. The first friction member 30 is provided to the first mounting member 10, and the second friction member 40 is provided to the second mounting member 20.

When the first mounting part 10 is at a first desired position relative to the second mounting part 20, the first friction member 30 and the second friction member 40 are in contact. When the first mounting member 10 is rotated relative to the second mounting member 20 from the first desired position to the second desired position, the first friction member 30 and the second friction member 40 are in contact.

In this embodiment, the rotation angle from the first ideal position to the second ideal position is 90 °, and the first ideal position and the second ideal position correspond to a horizontal display position and a vertical display position, respectively, which are commonly used for a display device. In other embodiments, the rotation angle from the first ideal position to the second ideal position may also be 45 °, 80 °, 120 °, 180 °, and the like, and the specific positions of the first ideal position and the second ideal position are not limited in the present invention. It can be understood that, when display device is in horizontal display position or vertical display position among the prior art, because there is not the structure of relevant stable position, display device topples over easily under the effect of less external force (if the user has collided one time carelessly when walking, the wind blows, the carrier rocks, the carrier removes etc.), and can not maintain original position, can not be completely horizontal or completely vertical, has greatly influenced user's use experience.

Through setting up first friction piece 30 and second friction piece 40, first friction piece 30 is located first installed part 10, and second friction piece 40 is located second installed part 20, and when first installed part 10 was in first ideal position (horizontal display) or second ideal position (vertical display) relative to second installed part 20, first friction piece 30 and second friction piece 40 contact and have great frictional force, and first installed part 10 is difficult to rotate relative to second installed part 20 for display device can be stabilized in the present position, has better improved user experience.

In one embodiment, referring to fig. 1 and 2b, when the first mounting member 10 is rotated relative to the second mounting member 20 from the first desired position or the second desired position to the transitional position, the first friction member 30 and the second friction member 40 are separated. Wherein the transition position is located between the first ideal position and the second ideal position. When the first installation part 10 is arranged at the transition position relative to the second installation part 20, the first friction part 30 and the second friction part 40 are separated, so that the friction force of the first installation part 10 and the second installation part 20 is small, the relative rotation is facilitated, and the efficiency of adjusting the display mode is improved.

Specifically, the angle range of the first ideal position is 5-30 degrees, the angle range of the transition position is 80-30 degrees, and the angle range of the second ideal position is 5-30 degrees. The preferred scheme is as follows: the angle of the first ideal position is 27 deg., the angle of the transition position is 36 deg., and the angle of the second ideal position is 27 deg.. Taking a preferred embodiment as an example, in a rotation angle of 90 ° from the first ideal position to the second ideal position, 0 ° is horizontally displayed, and 0 ° to 27 ° is the first ideal position, in this range, the first friction member 30 and the second friction member 40 are in contact, and the first mounting member 10 and the second mounting member 20 have a large friction force therebetween and are difficult to rotate relative to each other; at 27 °, the first friction member 30 and the second friction member 40 are separated, and the friction force between the first mounting member 10 and the second mounting member 20 is reduced; 27-63 degrees is a transition position, in the range, the first friction member 30 is not contacted with the second friction member 40, and the friction force between the first mounting part 10 and the second mounting part 20 is small, so that relative rotation is facilitated; at 63 °, the first friction member 30 and the second friction member 40 are contacted again, and the friction force between the first mounting part 10 and the second mounting part 20 is increased suddenly; 63 to 90 is a second ideal position in which the first and second friction members 30 and 40 are in contact, the first and second mounting members 10 and 20 have a large friction force, and 90 is shown vertically.

In other embodiments, a third ideal position and a second transitional position may be provided for other display modes of the display device, the second transitional position being disposed between the third ideal position and the second ideal position to facilitate rotation of the first mount 10 relative to the second mount 20 from the second ideal position to the third ideal position.

In one embodiment, referring to fig. 1, the first mounting element 10 includes a first surface 101 opposite the second mounting element 20, and the second mounting element 20 includes a second surface 201 opposite the first surface 101. The first friction member 30 protrudes from the first surface 101, and/or the second friction member 40 protrudes from the second surface 201. With this arrangement, when the first friction member 30 and the second friction member 40 are in contact with each other, the first friction member 30 and the second friction member 40 have a large pressure, thereby facilitating an increase in friction force.

In one embodiment, referring to fig. 1 and fig. 3, the second surface 201 is provided with a receiving groove (not shown), and the second friction element 40 is received in the receiving groove. Specifically, the second friction member 40 may be made of plastic, rubber, sand paper, or other material with a relatively high friction coefficient. Preferably, the second friction element 40 is received in and protrudes from the receiving groove, i.e. from the second surface 201. Through setting up the holding tank, second friction piece 40 holding in the holding tank for second friction piece 40 is difficult to the skew, is favorable to improving the motion reliability of first installed part 10 and second installed part 20.

In this embodiment, the second friction member 40 and the second mounting member 20 are separate structures, and the second friction member 40 is fixed on the second mounting member 20 through the receiving groove. The first friction member 30 is an integral structure with the first mounting member 10, and the first friction member 30 is a raised point raised on the first surface 101. In other embodiments, the second friction member 40 may be a unitary structure with the second mounting member 20, i.e. the second friction member 40 is a raised point on the second mounting member 20, and the first friction member 30 may be a separate structure and fixed by being received in the slot.

In one embodiment, referring to fig. 3, the display device mounting assembly 100 further includes an adjusting member 50. The adjusting member 50 connects the second friction member 40 and the second mounting member 20, and the adjusting member 50 is used for adjusting the distance between the second friction member 40 and the second surface 201. It will be appreciated that the greater the distance separating the second friction member 40 from the second surface 201, the closer the second friction member 40 is to the first surface 101, so that the greater the pressure to which the first friction member 30 and the second friction member 40 are subjected when in contact, and therefore the greater the friction force generated. The smaller the distance between the second friction member 40 and the second surface 201, the farther the second friction member 40 is from the first surface 101, so that the pressure applied to the first friction member 30 and the second friction member 40 when they are in contact is smaller, and the friction force generated is smaller. For large-screen display equipment with large mass such as 55 inches, 75 inches and 86 inches, the inertia is large, and large friction force is needed to limit the rotation of the large-screen display equipment; for small-screen display devices with smaller mass, such as 24 inches, 27 inches and 32 inches, the inertia is not large, and the rotation can be limited by small friction force. By providing the adjusting member 50, the adjusting member 50 adjusts the distance between the second friction member 40 and the second surface 201, so as to adjust the friction force generated when the first friction member 30 and the second friction member 40 are in contact, which is beneficial to adapting to display devices with different sizes.

In one embodiment, referring to fig. 3, the second mounting member 20 is provided with a first mounting portion 203 and a second mounting portion 204. The adjusting member 50 includes an adjusting portion 51 and a limiting portion 52, and the limiting portion 52 is disposed on a side of the second mounting member 20 facing the first mounting member 10. The limiting portion 52 is connected to the second friction member 40 and connected to the first mounting portion 203 to limit the distance between the second friction member 40 and the second surface 201. The adjusting portion 51 is connected to the second mounting portion 204 and abuts against the second friction member 40 to adjust a distance between the second friction member 40 and the second surface 201. Specifically, the first mounting portion 203 and the second mounting portion 204 are both threaded holes, and the adjusting portion 51 and the limiting portion 52 are both screws. One end of the adjusting portion 51 is screwed with the first mounting portion 203, and the other end abuts against the surface of the second friction member 40 facing the second surface 201. One end of the limiting portion 52 abuts against (at the head position of the screw) the surface of the second friction member 40, which faces away from the second surface 201, and the other end is in threaded connection with the second mounting portion 204. The adjusting portion 51 adjusts a spaced distance of the second friction member 40 from the second surface 201 by screw-coupling with the first mounting portion 203. Because one end of the limiting part 52 abuts against the surface of the second friction member 40, which faces away from the second surface 201, the limiting part 52 can better limit the second friction member 40 from leaving the second surface 201, so that the second friction member 40 can be fixed relative to the second mounting part 20. So set up, the structure is comparatively simple and can adjust the frictional force between first friction member 30 and the second friction member 40 better, is favorable to improving the adaptability of product.

The first mounting portion 203 and the second mounting portion 204 are threaded holes, and the adjustment portion 51 and the stopper portion 52 are screws, which is only one embodiment of the present invention, and the present invention is not limited to the specific configurations of the first mounting portion 203, the second mounting portion 204, the adjustment portion 51, and the stopper portion 52.

In one embodiment, referring to fig. 3, the second friction member 40 is made of plastic with a suitable friction coefficient and a low cost, but since the second friction member 40 made of plastic is easily deformed under the extrusion of the first friction member 30 and the adjusting member 50, especially at a position where the force-bearing area is smaller and contacts with the adjusting member 50, a metal sheet 43 is disposed between the adjusting member 50 and the second friction member 40, and the metal sheet 43 can well resist the deformation, so that the pressure distribution of the second friction member 40 is uniform, and thus the second friction member 40 is not easily deformed.

In one embodiment, referring to fig. 1, 3 and 4, the display device mounting assembly 100 further includes a clip 61. The second installation part 20 is provided with a guide part 21 extending along an arc shape, and the clamping piece 61 is connected with the first installation part 10 and is connected with the guide part 21 in a sliding way. It will be appreciated that when the first mounting member 10 is in a first desired position relative to the second mounting member 20, the display device is displayed horizontally with the snap-fit member 61 at one end of the guide 21. When the second mounting member 20 is located at a second desired position relative to the second mounting member 20, the display device displays vertically, and the snap-in member 61 is located at the other end of the guide portion 21. The arrangement is convenient for finding the optimal angle for horizontal display or vertical display. Meanwhile, the engaging member 61 and the guide portion 21 can provide a supporting force to support the display device.

In one embodiment, referring to fig. 1, 3 and 4, the guiding portion 21 is in a hole shape, and the engaging member 61 is inserted into the guiding portion 21. The display device mounting assembly 100 further comprises a fitting piece 62, wherein the fitting piece 62 is located on one side of the guide portion 21, which faces away from the first mounting piece 10, and is connected with the clamping piece 61 in a matching manner. Specifically, the clamping member 61 is a screw, and the mating member 62 is a nut. One end (screw head position) of the clamping member 61 is clamped on the third surface 102 of the first mounting part 10 facing away from the first surface 101, the other end passes through the guide part 21 and is in threaded connection with the matching member 62, and the matching member 62 abuts on the fourth surface 202 of the second mounting part 20 facing away from the second surface 201. In this embodiment, in order to simplify the structure and reduce the cost, the rotating shaft 70 is replaced with a bolt, so that the first mounting member 10 and the second mounting member 20 can be rotatably connected. The center of the arc-shaped hole-shaped guide portion 21 coincides with the rotation shaft 70. In addition, a gasket can be arranged between the fitting piece 62 and the second mounting part 20 to avoid crushing the first mounting part 10, and similarly, a gasket can be arranged between the clamping piece 61 and the first mounting part 10. By providing the fitting 62, the distance between the first mount 10 and the second mount 20 can be adjusted by means of the fitting 62, which facilitates on the one hand the assembly of the product and on the other hand the friction between the first mount 10 and the second mount 20 can be further adjusted.

In one embodiment, referring to fig. 1, the number of the guiding portions 21 and the number of the locking members 61 are all multiple and the same. Preferably, the number of the clamping pieces 61 and the number of the guide parts 21 are 4, and the arc lengths of the 4 guide parts 21 are pi/2 and are arranged in central symmetry. In particular, the first friction members 30 are disposed on opposite sides of the engaging member 61, so as to save space.

In one embodiment, referring to fig. 1 and 4, the first friction member 30 includes a first friction portion 31 and a second friction portion 32 disposed opposite to each other, and the second friction member 40 includes a third friction portion 41 and a fourth friction portion 42 disposed opposite to each other. Specifically, the first friction portion 31 and the second friction portion 32 are preferably symmetrically disposed, and the third friction portion 41 and the fourth friction portion 42 are preferably symmetrically disposed.

When the first mounting element 10 is in the first desired position relative to the second mounting element 20, the first friction portion 31 is in contact with the third friction portion 41, and the second friction portion 32 is in contact with the fourth friction portion 42;

when the first mounting element 10 is in the second desired position relative to the second mounting element 20, the first friction portion 31 is in contact with the fourth friction portion 42, and the second friction portion 32 is in contact with the third friction portion 41.

When the first mounting part 10 is in the transitional position relative to the second mounting part 20, viewed from the side of the second mounting part 20 facing away from the first mounting part 10, the third friction portion 41, the first friction portion 31, the fourth friction portion 42 and the second friction portion 32 are arranged in this order clockwise. By arranging the first friction part 31, the second friction part 32, the third friction part 41 and the fourth friction part 42, friction force with proper size and even distribution is formed between the first mounting part 10 and the second mounting part 20.

Referring to fig. 1, fig. 3, fig. 5 and fig. 6, an embodiment of the present invention further provides a display device mounting apparatus 1000, where the display device mounting apparatus 1000 includes a supporting member 200, a fastening member 23 and the display device mounting apparatus 1000 provided by the present invention, the display device mounting apparatus 1000 is provided with a barb structure 22 and a fixing portion 24, the barb structure is clamped on one side of the supporting member 200, and the fastening member 23 is connected to the fixing portion 24 in a matching manner and is abutted against the other side of the supporting member 200. Specifically, the fixing portion 24 is preferably a through hole, and the fastening member 23 is preferably a screw connector such as a screw or a bolt. The mounting process of the display apparatus mounting assembly 100 and the carrier 200 is as follows: the barb structure of the display device mounting assembly 100 with the display device mounted thereon is first snapped onto the top side of the carrier 200, then the display device mounting assembly 100 is pushed toward the carrier 200 such that the fixing portions 24 are aligned with the bottom side of the carrier 200, and then the fastener 23 is passed through the fixing portions 24 to be fittingly coupled with the carrier 200. The display device mounting assembly 100 in this embodiment is slidable relative to the carrier 200. The carrier 200 is a mobile stand that is movable relative to the ground.

In another embodiment, referring to fig. 7 to 9, the carrier 200 is a hanger fixed on a wall, and the display device mounting assembly 100 can mount the display device on the wall through the carrier 200. The mounting process of the display device mounting assembly 100 and the carrier 200 of the present embodiment can refer to the previous embodiment.

Through adding the display device installation component 100 that this embodiment provided in display device installation apparatus 1000, display device installation apparatus 1000 is not only with lower costs, and has better firm ability to display device, and display device is difficult to take place to empty when the ideal position shows, is favorable to improving user experience.

While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Claims (10)

1. A display device mounting assembly comprises a first mounting part, a second mounting part, a first friction part and a second friction part, wherein the first mounting part is rotatably connected with the second mounting part, the first mounting part is used for mounting a display device, the first friction part is arranged on the first mounting part, the second friction part is arranged on the second mounting part, when the first mounting part is located at a first ideal position relative to the second mounting part, the first friction part is contacted with the second friction part, and when the first mounting part is rotated to a second ideal position relative to the second mounting part from the first ideal position, the first friction part is contacted with the second friction part.

2. The display device mounting assembly of claim 1, wherein the first friction member and the second friction member are disengaged when the first mounting member is rotated relative to the second mounting member from the first ideal position or the second ideal position to a transitional position, wherein the transitional position is between the first ideal position and the second ideal position.

3. The display device mounting assembly of claim 1, wherein the first mounting member includes a first surface opposite the second mounting member, the second mounting member includes a second surface opposite the first surface, the first friction member protrudes from the first surface, and/or the second friction member protrudes from the second surface.

4. The display device mounting assembly of claim 3, wherein the second surface defines a receiving groove, and the second friction member is received in the receiving groove.

5. The display device mounting assembly of claim 3, further comprising an adjustment member connecting the second friction member and the second mounting member, the adjustment member for adjusting a separation distance between the second friction member and the second surface.

6. The display device mounting assembly of claim 5, wherein the second mounting member has a first mounting portion and a second mounting portion, the adjusting member includes an adjusting portion and a limiting portion, the limiting portion is disposed on a side of the second mounting member facing the first mounting member, the limiting portion is connected to the second friction member and connected to the first mounting portion to limit a distance between the second friction member and the second surface, and the adjusting portion is connected to the second mounting portion and abutted against the second friction member to adjust a distance between the second friction member and the second surface.

7. The display device mounting assembly of claim 1, wherein the first friction member comprises a first friction portion and a second friction portion that are oppositely disposed, and the second friction member comprises a third friction portion and a fourth friction portion that are oppositely disposed;

when the first mounting piece is in the first ideal position relative to the second mounting piece, the first friction part is in contact with a third friction part, and the second friction part is in contact with a fourth friction part;

when the first mounting piece is in the second ideal position relative to the second mounting piece, the first friction part is in contact with the fourth friction part, and the second friction part is in contact with the third friction part.

8. The display device mounting assembly of any one of claims 1-7, further comprising a snap member, the second mounting member having a guide portion extending along an arc, the snap member being coupled to the first mounting member and slidably coupled to the guide portion.

9. The display device mounting assembly of claim 8, wherein the guide portion is in a hole shape, the clamping member is inserted into the guide portion, and the display device mounting assembly further comprises a fitting member, the fitting member is located on a side of the guide portion opposite to the first mounting member and is in fit connection with the clamping member.

10. A display device mounting apparatus, comprising a bearing member, a fastening member and the display device mounting apparatus according to any one of claims 1 to 9, wherein the display device mounting apparatus is provided with a barb structure and a fixing portion, the barb structure is clamped on one side of the bearing member, and the fastening member is connected with the fixing portion in a matching manner and is abutted against the other side of the bearing member.

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