CN212430369U - Display mounting device - Google Patents

Abstract

The application discloses display installation device, display installation device includes firm board, keysets, rotor plate and damping subassembly, the keysets install in firm board, the rotor plate rotatably connects the keysets, the rotor plate is used for the firm display of installation, damping subassembly be equipped with a plurality of inseparable butt in the keysets with damping gasket between the rotor plate, it is a plurality of the damping gasket is relative the axis of rotation symmetry of keysets arranges. The damping gaskets are abutted to the adapter plate and the rotating plate and symmetrically arranged around the rotating shaft of the rotating plate, so that damping force exists in the rotating process of the rotating plate relative to the adapter plate, the damping force is evenly arranged, the rotating plate rotates relative to the adapter plate stably, and the stability of the display mounting device is improved.

Description

Display mounting device

Technical Field

The application relates to the technical field of display installation accessories, in particular to a display installation device.

Background

The current television mounting bracket utilizes a single rotating shaft to adjust the rotation of the electroacoustic horizontal screen or vertical screen. In the process of switching and rotating the transverse screen and the vertical screen of the television, the television is easy to shake, and the experience is poor.

SUMMERY OF THE UTILITY MODEL

The application aims at the defects of the prior art and provides the display mounting device which is stable in structure and convenient to adjust and operate.

The application provides a display installation device, wherein, display installation device includes firm board, keysets, rotor plate and damping subassembly, the keysets install in firm board, the rotor plate rotatably connects the keysets, the rotor plate is used for the firm display of installation, the damping subassembly be equipped with a plurality of inseparable butt in the keysets with damping gasket between the rotor plate, it is a plurality of the damping gasket is relative the axis of rotation symmetry of keysets arranges.

The application discloses display installation device, through the rotor plate can be relative the keysets is rotatory to drive the horizontal screen of display or erect the screen and rotate the switching, it is a plurality of damping gasket butt in the keysets with between the rotor plate, and wind the axis of rotation symmetry of rotor plate is arranged, makes the rotor plate is relative there is damping force in the keysets rotation process, and the damping force is balanced arranges, makes the rotor plate is relative the keysets is steadily rotatory, increases display installation device's steadiness.

Drawings

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

Fig. 1 is a schematic perspective view of a display mounting apparatus provided in the present application;

fig. 2 is an exploded perspective view of the display mounting apparatus provided herein;

FIG. 3 is a side view of a display mounting apparatus provided herein;

FIG. 4 is a side view of another state of the display mounting apparatus provided herein;

FIG. 5 is a front view of a display mounting apparatus provided herein;

FIG. 6 is a front view of the display mounting apparatus provided herein in another state;

FIG. 7 is an exploded view of the display mounting apparatus provided herein in another state;

fig. 8 is another perspective view of the display mounting apparatus provided in the present application.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Some embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1 and 2, the present application provides a display mounting apparatus 100, wherein the display mounting apparatus 100 includes a stabilizing plate 10, an adapter plate 20, a rotating plate 30 and a damping assembly 40. The adapter plate 20 is mounted on the fixing plate 10, the rotating plate 30 is rotatably connected to the adapter plate 20, and the rotating plate 30 is used for mounting a fixing display. The damping assembly 40 is provided with a plurality of damping shims 41 tightly abutted between the adapter plate 20 and the rotating plate 30, and the plurality of damping shims 41 are symmetrically arranged relative to the rotation axis of the adapter plate 20.

It can be understood that the fixing plate 10 can be fixed on the wall surface of the wall body, or on the wall surface of the bearing column, or on the cabinet body of the decorative cabinet, or on the wall surface of the decorative wall board, or on the movable cart, or on the upright column. The display may be fixedly mounted on the rotation plate 30. The display can be an electronic device with a display function, such as a flat-panel television, a liquid crystal display, a tablet computer, a display terminal and the like.

Through the rotor plate 30 can be relative the keysets 20 is rotatory to drive the horizontal screen of display or erect the screen and rotate the switching, it is a plurality of damping gasket 41 butt in the keysets 20 with between the rotor plate 30, and wind the axis of rotation symmetry of rotor plate 30 arranges, makes the rotor plate 30 is relative there is damping force in the keysets 20 rotation process, and the damping force is balanced arranges, makes the rotor plate 30 is relative the keysets 20 steadily rotates, increases display installation device 100's steadiness.

In this embodiment, the fixing plate 10 may be fixed on a wall body through fasteners such as screws, bolts, pins, etc., or fixed on a supporting structure, so that the fixing plate 10 provides a bearing platform for the rotating plate 30. The stabilizing plate 10 is substantially a flat plate structure, which facilitates the rotation of the rotating plate 30 relative to the stabilizing plate 10 and increases the stability of the connection between the wall plate and the wall or the supporting structure. The material of the stabilizing plate 10 is steel. The stable plate 10 is formed by stably connecting a plurality of steel materials.

Specifically, the stabilizing plate 10 includes two cross bars 11 and two vertical bars 12. The cross rods 11 and the vertical rods 12 are both angle steel. The two cross rods 11 are arranged oppositely, and the two vertical rods 12 are arranged oppositely. The cross bar 11 and the vertical bar 12 can be firmly connected through screws or firmly welded. The adapter plate 20 is mounted between the two cross bars 11. A plurality of screw grooves which are arranged at equal intervals are arranged on the cross rod 11 along the length direction. The screw groove allows a screw to pass through, so that the fixing plate 10 can be fixed on a wall or a supporting structure through the screw.

In this embodiment, the adapter plate 20 is provided with a central hole 21, and the central hole 21 is located at the center of the adapter plate 20, that is, the peripheral edge of the adapter plate 20 is symmetrically arranged around the central hole 21. The rotating plate 30 is provided with a central screw hole 31 opposite to the central hole 21. The rotating plate 30 is further provided with a middle screw 32 passing through the central screw hole 31 and the central hole 21 in sequence, and a middle nut 33 locked to the middle screw 32. The intermediate nut 33 and the intermediate screw 32 together apply a locking force to the adapter plate 20 and the rotation plate 30, so that the adapter plate 20 and the rotation plate 30 press the plurality of damping shims 41. The intermediate screw 32 constitutes a rotation axis for rotating the rotation plate 30 with respect to the adapter plate 20. One of the damping washers 41 is sleeved on the middle screw 32, so that a rotational damping force exists between the rotating plate 30 and the adapter plate 20. Other damping shims 41 are symmetrically disposed around the middle screw 32 between the rotating plate 30 and the adapter plate 20, so that the rotating plate 30 and the adapter plate 20 can stably rotate. The material of the adapter plate 20 is steel, so that the adapter plate 20 has a stable structure and strong support. The damping shim 41 is a plastic shim. The damping shim 41 provides a rotation damping force for the rotating plate 30 and the adaptor plate 20, so that the rotating plate 30 can stably rotate relative to the adaptor plate 20.

In the present embodiment, the rotating plate 30 is a square plate. The length dimension of the rotating plate 30 is larger than the length dimension of the adapter plate 20, and the width dimension of the rotating plate 30 is larger than the width dimension of the adapter plate 20, so as to increase the bearing performance of the rotating plate 30. The periphery of the rotating plate 30 is provided with a flange, so that a concave groove can be formed in the middle of the rotating plate 30. The depth of the groove is prepared by the thickness of a screw cap for accommodating the middle screw 32, and the middle screw 32 is prevented from protruding, so that the edge of the rotating plate 30 can be abutted against a display conveniently, and the installation stability of the display and the rotating plate 30 is improved. The rotating plate 30 is made of steel, so that the strength of the rotating plate 30 is increased.

Further, the adapter plate 20 is provided with a first arc groove 22 and a second arc groove 23 which are staggered with each other, the second arc groove 23 is closer to the rotating shaft of the rotating plate 30 than the first arc groove 22, the circle center of the first arc groove 22 and the circle center of the second arc groove 23 are arranged on the rotating shaft, and the damping component 40 is provided with a first screw 42 and a second screw 43 which are fixed with the rotating plate 30 and respectively matched with the first arc groove 22 and the second arc groove 23 in a sliding manner.

In this embodiment, the first arc groove 22 and the second arc groove 23 both penetrate through two opposite surfaces of the adapter plate 20. The first arc groove 22 extends along an arc curve. The center of the first arc groove 22 is the center of the arc curve. The center of the first arc groove 22 is disposed on the rotation axis of the rotation plate 30, that is, the center of the extending arc curve of the first arc groove 22 is disposed on the central axis of the middle screw 32. The center of the first arc groove 22 is the center of the arc curve. The center of the second arc groove 23 is disposed on the rotation axis of the rotation plate 30, that is, the center of the extending arc curve of the second arc groove 23 is disposed on the central axis of the middle screw 32. The arc radius of the first arc groove 22 is smaller than that of the second arc groove 23. The first arc groove 22 and the second arc groove 23 are staggered, so that the rotation guiding force of the first arc groove 22 to the rotating plate 30 and the rotation guiding force of the second arc groove 23 to the rotating plate 30 are arranged in a non-overlapping manner, and the stability of the rotating plate 30 and the adapter plate 20 is improved. The first screw 42 and the second screw 43 pass through the rotation plate 30, respectively. The first screw 42 and the second screw 43 have substantially the same dimensions as the intermediate screw 32. The first screw 42 and the second screw 43 are respectively slidable in the first arc groove 22 and the second arc groove 23, so as to rotatably guide the rotating plate 30 relative to the adapter plate 20. The two ends of the first arc groove 22 and the two ends of the second arc groove 23 respectively limit the rotation of the rotating plate 30 relative to the adapter plate 20. When the first screw 42 slides from one end of the first arc groove 22 to the other end, the second screw 43 rotates from one end of the second arc groove 23 to the other end, the rotating plate 30 rotates 90 ° relative to the adapter plate 20, and the rotating plate 30 can drive the display to switch from the landscape screen state to the portrait screen state.

Further, the damping assembly 40 further includes a first nut 44 and a second nut 45 respectively and firmly connected to the first screw 42 and the second screw 43, and the two damping washers 41 are respectively sleeved on the first screw 42 and the second screw 43 and are respectively pressed between the adapter plate 20 and the rotating plate 30 by the locking action force of the first nut 44 and the second nut 45.

In this embodiment, the first nut 44 and the second nut 45 are located on a side of the adapter plate 20 facing away from the rotating plate 30. The first nut 44 and the second nut 45 are screwed and locked with the first screw 42 and the second screw 43, respectively, to apply a locking force to the adapter plate 20, so that the adapter plate 20 and the rotation plate 30 clamp the plurality of damping shims 41. The two damping gaskets 41 are respectively sleeved on the first screw 42 and the second screw 43, so that the damping gaskets 41 are clamped between the rotating plate 30 and the adapter plate 20, the damping gaskets 41 are prevented from displacement, and the rotation stability of the rotating plate 30 and the adapter plate 20 is ensured. Optionally, two or more damping washers 41 may be sleeved on the first screw 42 and the second screw 43.

In this embodiment, the adapter plate 20 is provided with two first arc grooves 22 and two second arc grooves 23, and the two first arc grooves 22 are symmetrically arranged around the rotation axis of the rotation plate 30. The two second arc grooves 23 are symmetrically arranged around the rotation axis of the rotation plate 30. The damping assembly 40 is provided with two of the first screws 42 and two of the first nuts 44, and with two of the second screws 43 and two of the second nuts 45. The two first arc grooves 22 and the two second arc grooves 23 are symmetrically arranged around the rotating shaft of the rotating plate 30, so that the rotating connection acting force of the rotating plate 30 and the adapter plate 20 is more evenly distributed, and the rotating plate 30 is prevented from shaking relative to the adapter plate 20. The first arc groove 22 and the second arc groove 23 are completely staggered. Of course, in other embodiments, the adapter plate 20 may be provided with more than two first arc grooves 22 and more than two second arc grooves 23.

Furthermore, two opposite vertical plates 13 are arranged on one side, facing the adapter plate 20, of the stabilizing plate 10, the adapter plate 20 is provided with two inclined adjusting plates 24 which are in sliding fit with the two vertical plates 13 respectively, and the two inclined adjusting plates 24 can drive the adapter plate 20 to incline relative to the stabilizing plate 10 in the vertical direction.

In this embodiment, the two vertical plates 13 are perpendicular to the horizontal rod 11 and parallel to the vertical rod 12. Two of the tilt adjustment plates 24 are located between the two risers 13. The two inclined adjusting plates 24 are bent and extended from two opposite edges of the adapter plate 20. Two of the tilt adjustment plates 24 are adjacent to two of the risers 13, respectively. The two inclination adjusting plates 24 slide obliquely between the two vertical plates 13, so as to drive the adapter plate 20 to incline relative to the stabilizing plate 10, and further drive the rotating plate 30 and the display to incline relative to the stabilizing plate 10, so as to adjust the inclination of the display screen of the display.

Specifically, referring to fig. 2, 3 and 4, the inclined adjustment plate 24 is provided with an upper and a lower opposite adjustment sliding grooves 241, and the stabilizing plate 10 is provided with an adjustment screw 14 passing through the vertical plate and slidably fitting the adjustment sliding grooves 241 and an adjustment nut 15 capable of locking the adjustment screw 14. The inclination angle of the adapter plate 20 relative to the stabilizing plate 10 can be adjusted by adjusting the position of the adjusting screw 14 in the adjusting sliding groove 241. The adjusting nut 15 is locked with the adjusting screw 14, so that the adapter plate 20 and the adapter plate 20 can be stabilized, and the adapter plate 20 is kept inclined relative to the book searching adapter plate 20. By adjusting the position of the adjusting screw 14 in the adjusting sliding groove 241, the adapter plate 20 can be inclined by 0 to 15 degrees relative to the stabilizing plate 10. More specifically, when the upper adjusting screw 14 slides in the upper adjusting sliding slot 241 to a position far away from the adaptor plate 30, and the lower adjusting screw 14 slides in the lower adjusting sliding slot 241 to a position near to the adaptor plate 30, the adaptor plate 20 is inclined downward by 15 ° relative to the stabilizing plate 10. When the upper adjusting screw 14 slides in the upper adjusting sliding groove 241 to a position close to one end of the adapter plate 30, and the lower adjusting screw 14 slides in the lower adjusting sliding groove 241 to a position far away from one end of the adapter plate 30, the adapter plate 20 inclines upward by 5 ° relative to the stabilizing plate 10.

Further, referring to fig. 2, 5 and 6, the reinforcing plate 16 is disposed between the two vertical plates of the fixing plate 10, the reinforcing plate 16 is provided with a first threading through hole 161, the rotating plate 30 is provided with a second threading through hole 33, and the first threading through hole 161 and the second threading through hole 33 are sequentially used for a cable of the display to pass through.

In the present embodiment, the reinforcing plate 16 is provided integrally with the two vertical plates 13. The reinforcing plate 16 and the vertical plate 13 can be welded and fixed between the two cross rods 11. The first threading through hole 161 is located in the middle of the reinforcing plate 16. The second threading through hole 33 is adjacent to the lower edge of the rotation plate 30. The second passage hole 33 is offset with respect to the adapter plate 20. When the display is mounted on the rotating plate 30, the cable of the display can pass through the first threading through hole 161 and the second threading through hole 33, and the display can normally rotate along with the rotating plate 30 relative to the fixing plate 10.

Further, referring to fig. 2 and 7, the rotating plate 30 is provided with a mounting edge 34 and a locking edge 35 disposed opposite to the mounting edge 34, the mounting edge 34 is provided with a plurality of mounting grooves 341, the locking edge 35 is provided with a plurality of locking holes 351, the plurality of mounting grooves 341 are used for mounting a hanger of a display, and the locking holes 351 are used for locking the display.

In this embodiment, the mounting groove 341 is a U-shaped groove. The mounting groove 341 can be snapped into a screw fixed on the back of the display. The locking holes 351 are screw holes. The locking hole 351 may be screwed with a screw fixed to the rear surface of the display. In the process of mounting the display on the rotating plate 30, the screws on the back surface of the display are firstly mounted on the mounting grooves 341, and then the screws are locked to the display through the locking holes 351. Specifically, two ends of the mounting edge 34 in the length direction are respectively provided with two mounting grooves 341. Two locking holes 351 are respectively formed at both ends of the locking edge 35 in the length direction.

Further, referring to fig. 2 and 8, the display mounting device 100 further includes a column 50, a base 60 and a roller assembly 70, wherein one end of the column 50 is fixed to the stabilizing plate 10, the base 60 is fixedly connected to one end of the column 50 far away from the stabilizing plate 10, and the roller assembly 70 is mounted at the bottom of the base 60 to drive the base 60 to move. In this embodiment, the upright 50 is a telescopic rod to adjust the height of the fixing plate 10, so as to conveniently adjust the height of the display. The roller assembly 70 is provided with four universal rollers on the base 60, and the four universal rollers can drive the base 60 to move towards any direction, so as to conveniently drive the display to move, so that the display mounting device 100 can be applied to any places, especially places such as meeting rooms or markets.

Through the rotor plate 30 can be relative the keysets 20 is rotatory to drive the horizontal screen of display or erect the screen and rotate the switching, it is a plurality of damping gasket 41 butt in the keysets 20 with between the rotor plate 30, and wind the axis of rotation symmetry of rotor plate 30 arranges, makes the rotor plate 30 is relative there is damping force in the keysets 20 rotation process, and the damping force is balanced arranges, makes the rotor plate 30 is relative the keysets 20 steadily rotates, increases display installation device 100's steadiness.

The above detailed description is only a preferred embodiment of the present application, and the present application shall not be limited to the scope of the present application, and all equivalent changes and modifications shall be included in the scope of the present application.

Claims (10)

1. The utility model provides a display installation device, its characterized in that, display installation device includes steadying board, keysets, rotor plate and damping subassembly, the keysets install in steadying the board, the rotor plate rotatably connects the keysets, the rotor plate is used for the installation firm display, the damping subassembly be equipped with a plurality of inseparable butt in the keysets with the damping gasket between the rotor plate, it is a plurality of the damping gasket is relative the axis of rotation symmetry of keysets arranges.

2. The display mounting apparatus as claimed in claim 1, wherein the adapter plate has a first arc groove and a second arc groove which are staggered with each other, the second arc groove is closer to the rotation axis of the rotation plate than the first arc groove, the center of the first arc groove and the center of the second arc groove are disposed on the rotation axis, and the damping member has a first screw and a second screw which are fixed to the rotation plate and slidably engaged with the first arc groove and the second arc groove, respectively.

3. The display mounting apparatus of claim 2, wherein the damping assembly further comprises a first nut and a second nut respectively and firmly connected to the first screw and the second screw, and the two damping washers are respectively sleeved on the first screw and the second screw and respectively pressed between the adapter plate and the rotating plate by the locking forces of the first nut and the second nut.

4. The display mounting apparatus of claim 2, wherein the first screw slides from one end of the first arc slot to the other end and the second screw rotates from one end of the second arc slot to the other end, the rotating plate rotating 90 ° relative to the adapter plate.

5. The display mounting apparatus as claimed in claim 2, wherein the adapter plate is provided with a plurality of first circular arc grooves and a plurality of second circular arc grooves, and the plurality of first circular arc grooves and the plurality of second circular arc grooves are symmetrically arranged with respect to the rotation axis of the rotation plate.

6. The display mounting apparatus as claimed in any one of claims 1 to 5, wherein the stabilizing plate has two opposite vertical plates on a side thereof facing the adapter plate, the adapter plate has two inclined adjustment plates slidably engaged with the two vertical plates, and the two inclined adjustment plates drive the adapter plate to incline in a vertical direction with respect to the stabilizing plate.

7. The display mounting apparatus as claimed in claim 6, wherein the inclined adjustment plate is provided with an upper and a lower opposite adjustment sliding grooves, and the stabilizing plate is provided with an adjustment screw passing through the vertical plate and slidably fitting the adjustment sliding grooves and an adjustment nut capable of locking the adjustment screw.

8. The display mounting device of claim 6, wherein the securing plate is configured to provide a reinforcing plate between the two vertical plates, the reinforcing plate is configured with a first through hole, the rotating plate is configured with a second through hole, and the first through hole and the second through hole are configured to sequentially pass through cables of the display.

9. The display mounting apparatus according to any one of claims 1 to 5, wherein the rotating plate is provided with a mounting edge and a locking edge opposite to the mounting edge, the mounting edge is provided with a plurality of mounting grooves, the locking edge is provided with a plurality of locking holes, the plurality of mounting grooves are used for mounting a hanging piece of the display, and the locking holes are used for locking the display.

10. The display mounting device according to any one of claims 1 to 5, further comprising a column, a base, and a roller assembly, wherein one end of the column is fixed to the fixing plate, the base is fixedly connected to one end of the column away from the fixing plate, and the roller assembly is mounted at the bottom of the base to drive the base to move.

Images