KR100671198B1 - Display apparatus - Google Patents

Abstract

The present invention relates to a display device provided with a stand unit so that the monitor unit can be firmly supported and various additional functions can be easily implemented.

According to the present invention, the monitor unit 20 is displayed image; A display apparatus comprising a stand portion 30 supporting a monitor portion 30, the stand portion 30 comprising: a support member 40; An inner slider 50 accommodated in the support member 40 so as to be lifted and lowered; An external slider 60 provided to be movable on an outer circumferential surface of the support member 40 by magnetic action with the internal slider 50, and connected to the monitor unit 20; It is configured to include an elastic member 70 provided below the at least one of the inner slider 50 and the outer slider 60 to support the monitor unit 20. Accordingly, not only the operation function of the monitor unit can be easily implemented, but also its structure can be simplified, thereby improving assembly and productivity.

Monitor, support member, slider, elastic member, pivot, swivel

Description

Display device {DISPLAY APPARATUS}             

1 is a partial cross-sectional view showing a stand structure of a conventional display device;

2 is a perspective view of a display device according to a first embodiment of the present invention;

3 is an exploded perspective view showing the structure of the stand unit of the display device according to the first embodiment of the present invention;

4 (a) and 4 (b) are partial cross-sectional views illustrating a stand unit structure according to a monitor unit lifting and lowering operation of the display device according to the first embodiment of the present invention.

5 (a), 5 (b) and 5 (c) are operating state diagrams of the monitor unit of the display device according to the first embodiment of the present invention.

6 is a perspective view of a display device according to a second embodiment of the present invention;

7 is an exploded perspective view showing the structure of the stand portion of the display device according to the second embodiment of the present invention;

8 (a) and 8 (b) are partial cross-sectional views illustrating a stand unit structure according to a monitor unit lifting and lowering operation of a display device according to a second embodiment of the present invention.

9 is a partial cross-sectional view showing the structure of the stand portion of the display device according to the third embodiment of the present invention.

            <Description of Symbols for Main Parts of Drawings>

          20 monitor unit 30 stand unit

          40 support member 42 base part

          44: support part 50: internal slider

          52: inside sliding block 54: inside magnet

          60: external slider 62: external sliding block

          64: external magnet 70: elastic member

          80: rotating bracket 82: tilt bracket

          84: Pivot Bracket

The present invention relates to a display apparatus, and more particularly, to a display apparatus provided with a stand unit so that the monitor unit can be firmly supported and various additional functions can be easily implemented.

In general, a display device is a generic term for various types of devices that visually display data on a display panel surface by using text or graphic formats. In particular, the liquid crystal display (LCD), which is a kind of flat panel display device, is being applied to a computer monitor, a TV, and the like, and its demand is gradually increasing.

Accordingly, research and development of various types of display devices in consideration of functionality and usability have been actively conducted in order to actively respond to various needs of consumers.

Most of such display apparatuses include a monitor unit for displaying an image; It is configured to include a stand portion coupled to the back of the monitor portion. The stand unit has a structure that firmly supports the monitor unit and can perform various additional functions such as lift, swivel, tilt, and pivot.

In particular, as shown in FIG. 1, the lifting unit 7 of the conventional display apparatus has an elevating rail 7 which is lifted up and down by the rotation of the rotary shaft 6 connected to the elevating motor 5. It is provided in the interior, it is possible to automatically adjust the monitor unit 2 to the desired height. Since the display device having such a structure is a known technology (name: stand apparatus of a monitor capable of automatic raising / lowering and rotating, registration number: 20-0250276), a detailed description of the specific configuration and function will be omitted. Shall be.

However, the display device as described above is able to adjust the height of the monitor unit 2 by using the rotational force of the lifting motor (5), but not only takes a lot of components according to the lifting operation, but also because the coupling structure is relatively complicated The workability and assembly are deteriorated, and the economic cost is considerable, resulting in an increase in the product cost of the display device.

In addition, there is a disadvantage that the swivel operation of the monitor unit 2 cannot be implemented, and maintenance in case of failure is difficult.

On the other hand, in addition to the above description, there are various known technologies for the lifting structure of the stand unit of the display device (name: LCD monitor stand, registration number: 20-0251610, etc.), but most of the structures are complicated to assemble and Problems are raised not only in economics but also in design.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a display device having a simple structure of a stand part and capable of efficiently performing various additional functions.

In order to achieve the above object, the present invention includes a monitor unit for displaying an image; A display apparatus comprising a stand portion for supporting the monitor, wherein the stand portion comprises a support member; An internal slider accommodated in an elevation of the support member; An outer slider provided to be movable on an outer circumferential surface of the support member by magnetic action with the inner slider, the outer slider being connected to the monitor part; It is characterized by including an elastic member provided below the at least one of the inner slider and the outer slider, the elastic member for supporting the monitor.

At least one of the inner slider and the outer slider preferably includes a magnet.

The inner slider includes an inner sliding block which is accommodated to be liftable inside the support member; It is preferable to include an inner magnet connected to the inner sliding block and in contact with the inner circumferential surface of the support member.

At least one magnet receiving groove is formed outside the inner sliding block, and the inner magnet is accommodated in the magnet receiving groove of the inner sliding block.

The inner slider has an upper support; A lower support coupled to the upper support; It is preferable to include an internal magnet installed between the upper support and the lower support.

It is preferable to further include a spacer interposed between the inner magnet.

The outer slider and the outer sliding block coupled to the outer peripheral surface of the support member; It is preferable to include an external magnet accommodated in the outer sliding block and supported on an outer circumferential surface of the support member by magnetic action with the inner magnet.

At least one magnet accommodating groove is formed inside the outer sliding block, and the external magnet is accommodated in the magnet accommodating groove of the external sliding block.

The outer slider and the outer sliding block coupled to the outer peripheral surface of the support member; An external magnet accommodated in the external sliding block and supported on an outer circumferential surface of the support member by magnetic action with the internal magnet; It is preferable to include a separation preventing member coupled to the upper and lower portions of the outer sliding block, respectively, to prevent the separation of the external magnet.

It is preferable to further include a spacer interposed between the outer magnet.

The elastic member is preferably a compression spring.

The support member preferably has a cylindrical structure to allow the external slider to move up and down.

The outer slider preferably has a ring structure.

It is preferable to further include a rotation bracket connected to the external slider and the monitor, to enable the monitor to rotate.

In order to achieve the above object, the present invention provides a display unit for displaying an image; A display apparatus comprising a stand portion for supporting the monitor, wherein the stand portion comprises a support member; It is characterized in that it is provided to be movable on the outer circumferential surface of the support member by a magnetic action with the support member, comprising an external slider connected to the monitor unit.

It is preferable to further include an elastic member provided below the outer slider and supporting the monitor.

At least one of the support member and the outer slider preferably includes a magnet.

The support member preferably has a cylindrical structure to allow the external slider to move up and down.

The outer slider preferably has a ring structure.

It is preferable to further include a rotation bracket connected to the external slider and the monitor, to enable the monitor to rotate.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 is a perspective view of a display device according to a first embodiment of the present invention, Figure 3 is an exploded perspective view showing the structure of the stand portion of the display device according to the first embodiment of the present invention, Figure 4 (a), (b) is a partial cross-sectional view showing the structure of the stand portion according to the lifting operation of the monitor portion of the display device according to the first embodiment of the present invention.

As shown in the figure, the display device according to the present invention includes a monitor unit 20; It is configured to include a stand portion 30 coupled to the back of the monitor unit 20 to support the monitor unit 20.

The monitor unit 20 serves to display an image on the surface of the display panel, and is firmly coupled to the stand unit 30 by various coupling means such as a screw.

The stand portion 30 includes a support member 40; An inner slider 50 which is accommodated to move up and down inside the support member 40; An external slider 60 provided to be movable on an outer circumferential surface of the support member 40 by magnetic action with the internal slider 50, and connected to the monitor unit 20; It is configured to include an elastic member 70 provided below the at least one of the inner slider 50 and the outer slider 60 to elastically support the monitor unit 20.

The support member 40 includes a base portion 42 mounted on the bottom surface of the place where the display device is to be installed; It is installed in the base portion 42, and includes a support portion 44, the inner space is formed. The base portion 42 is divided into a plate-shaped upper body and a lower body, and the support portion 44 is preferably made of a nonmagnetic material having excellent durability such as aluminum to facilitate the lifting operation.

The size and shape of the base part 42 and the support part 44 can be variously changed as needed.

In addition, the upper end of the support 44 of the support member 40 is open to accommodate the inner slider 50 and the elastic member 70, the opening is prevented from leaving to prevent the separation of the inner slider (50) Cap 46 is coupled.

At least one of the inner slider 50 and the outer slider 60 includes a magnet to interoperate with each other through magnetic action. That is, any one of the inner slider 50 and the outer slider 60 is provided with a permanent magnet for generating a magnetic force, and the other is made of a magnetic material magnetized by the magnetic force generated from the permanent magnet, or the internal slider 50 And the outer slider 60 are both made of permanent magnets that generate magnetic force. In the first embodiment of the present invention, the case where both the inner slider 50 and the outer slider 60 are made of permanent magnets will be applied.

The inner slider 50 includes an inner sliding block 52 accommodated to be lifted and lowered in the support 44 of the support member 40; It is connected to the inner sliding block 52, and includes an inner magnet 54 in contact with the inner peripheral surface of the support portion 44 of the support member 40 to generate a magnetic force. The inner sliding block 52 has a locking jaw formed to be supported by the elastic member 70, and the number of installation of the inner magnet 54 can be appropriately adjusted as necessary.

In addition, the internal slider 50 may be variously changed within a range capable of causing a magnetic action with the external slider 60, such as forming the permanent magnet itself, except for the internal magnet 54.

At least one magnet accommodating groove 53 is formed outside the inner sliding block 52, and the inner magnet 54 is accommodated in the magnet accommodating groove 53 of the inner sliding block 52. The inner magnet 54 has a ring shape, and the corresponding inner magnet groove 53 has a shape that matches the inner magnet 54.

The outer slider 60 includes an outer sliding block 62 in which a hollow part is formed to be coupled to an outer circumferential surface of the support part 44 of the support member 40; An external magnet 64 is accommodated in the external sliding block 62 and supported on the outer circumferential surface of the support 44 of the support member 40 by magnetic action with the internal magnet 54 of the internal slider 50. do. The outer magnet 64 moves the sliding block by magnetic action with the inner magnet 54, the number of installation can be appropriately adjusted as necessary.

Like the inner slider 50, the outer slider 60 is formed in a permanent magnet except for the outer magnet 64, and the structure of the outer slider 60 is variable within the range that can cause magnetic action with the inner slider 50. You can change it.

At least one magnet accommodating groove 63 is formed inside the external sliding block 62, and the external magnet 64 is accommodated in the magnet accommodating groove 63 of the inner sliding block 62. The external magnet 64 has a ring shape, and the corresponding magnet accommodating groove 63 has a shape corresponding to the external magnet 64.

On the other hand, the inner magnet 54 and the outer magnet 64 which are attached to each other with the support 44 of the support member 40 therebetween by magnetic action and interlocked according to the operation of the monitor 20 have different polarities. Of course, it is supported in close contact with the inner peripheral surface and the outer peripheral surface of the support portion 44 of the support member 40 in a state of having a magnetic strength enough to overcome the restoring force generated during compression of the elastic member 70.

It is preferable that the elastic member 70 is located at the lower portion of the inner slider 50 in consideration of its appearance so as not to be exposed to the outside, but may be located at the lower portion of the outer slider 60 as necessary. In addition, the elastic member 70 may selectively use various kinds of known ones having elastic strength enough to sufficiently support the weight of the monitor unit 20, but the compression spring having a relatively simple structure and excellent function Preference is given to using.

The support 44 of the support member 40 preferably has a cylindrical structure so that the monitor 20 can simultaneously lift and swivel through lifting and rotating of the outer slider 60. When only the lifting and lowering of 20 is possible, the support 44 having a polygonal structure may be applied. In addition, the shapes of the inner slider 50 and the outer slider 60 also vary according to the structure of the support 44.

The outer slider 60 is preferably combined in an annular structure that can wrap the outer peripheral surface of the support 44 of the support member 40 in consideration of various conditions such as magnetic force and stability.

Unexplained reference numerals 82 and 84 illustrate a tilting bracket and a pivot bracket, which will be described in detail with reference to FIGS. 5A, 5B, and 5C.

The operation of the stand unit of the display device described above will be briefly described as follows.

First, when the user applies a predetermined external force to lower the monitor 20, the outer slider 60 connected to the monitor 20 slides down along the outer circumferential surface of the support 44 of the support member 40. Done. Accordingly, the inner slider 50 installed to interlock by magnetic action with the outer slider 60 simultaneously slides along the inner circumferential surface of the support 44 of the support member 40 while compressing the elastic member 70 provided thereunder. Will descend.

At this time, the elastic member 70 is responsible for preventing the stepless fall of the inner slider 50 and the outer slider 60 by the weight of the monitor unit 20.

When the monitor 20 is lowered to a desired position by the user and stopped, the stationary state is maintained by the support force of the elastic member 70 and the magnetic force of the inner and outer sliders 50 and 60. At this time, the inner slider 50 and the outer slider 60 are designed so that the adhesion force to the inner and outer peripheral surfaces of the support portion 44 can prevent the elastic force of the elastic member 70, so that a predetermined external force is applied to the monitor portion 20. Unless otherwise applied, the inner slider 50 and the outer slider 60 can always maintain their stationary state.

On the other hand, the outer slider 60 is installed to be rotatable along the outer circumferential surface of the support 44 of the support member 40 having a cylindrical structure, when the user swivel the monitor unit 20, the outer slider 60 is a support member It is possible to rotate 360 degrees along the outer peripheral surface of the support 44 of 40.

5A, 5B, and 5C are diagrams illustrating operating states of a monitor unit of a display apparatus according to a first exemplary embodiment of the present invention.

As shown in the figure, the display device according to the present invention can freely control the lifting and swivel operation of the monitor unit 20 according to the flow of the external slider 60, the external slider 60 and the monitor unit 20 The rotating bracket 80 may be additionally connected to enable the monitor unit 20 to rotate.

The rotating bracket 80 is installed on the outer side of the outer slider 60, the tilt bracket 82 for enabling the monitor unit 20 to tilt; Is connected to one side of the tilt bracket 82 is coupled to the monitor unit 20, and comprises a pivot bracket 84 to enable the monitor unit 20 to pivot.

The tilt bracket 82 and the pivot bracket 84 can be selectively installed according to the use purpose and use of the display device, and the structure thereof can be variously applied in a known form.

6 is a perspective view of a display device according to a second embodiment of the present invention, Figure 7 is an exploded perspective view showing the structure of the stand portion of the display device according to a second embodiment of the present invention, Figure 8 (a), (b) is a partial cross-sectional view showing the structure of the stand portion according to the lifting operation of the monitor portion of the display device according to the second embodiment of the present invention.

As shown in the figure, the display device according to the present invention includes a monitor unit 20; It is configured to include a stand portion 30 coupled to the back of the monitor unit 20 to support the monitor unit 20.

The stand portion 30 includes a support member 40 consisting of a base portion 42 and a support portion 44; An inner slider 50 accommodated in the support member 40 so as to be lifted and lowered; An external slider 60 provided to be movable on an outer circumferential surface of the support member 40 by magnetic action with the internal slider 50, and connected to the monitor unit 20; It is configured to include an elastic member 70 provided below the at least one of the inner slider 50 and the outer slider 60 to support the monitor unit 20. The second embodiment according to the present invention has the same operation principle and comprehensive configuration as that of the first embodiment, and thus the description of the same configuration will be omitted and only the portions having structural differences will be described.

The inner slider 50 includes an upper support 52a; A lower support 52b coupled to the upper support 52a; At least one inner magnet 54 is installed between the upper support (52a) and the lower support (52b). It is preferable that the spacer 55 is interposed between the inner magnets 54.

The upper support body 52a and the lower support body 52b are screw-coupled, and flange portions 56a and 56b for preventing separation of the inner magnet 54 are provided in each of them. In particular, the flange portion 56b of the lower support 52b simultaneously serves to support the elastic member 70.

The outer slider 60 includes an outer sliding block 62 in which a hollow part is formed to be coupled to an outer circumferential surface of the support part 44 of the support member 40; One or more external magnets 64 accommodated in the hollow portion of the outer sliding block 62 and tightly supported on the outer circumferential surface of the support portion 44 of the support member 40 by magnetic action with the inner magnet 54; It is coupled to the upper and lower portions of the outer sliding block 62, and includes a separation preventing member (61a, 61b) for preventing the separation of the external magnet (64). It is preferable that a spacer 65 is interposed between the external magnets 64.

The separation preventing members 61a and 61b are coupled through the coupling means 69 such as the outer sliding block 62 and the screw, and the coupling means 69 may be variously applied in a known form as necessary. And the top of the separation prevention member 61 is coupled to the separation prevention cap 46 for preventing the separation of the outer slider 60 from the support 44 of the support member 40.

On the other hand, the outer sliding block 62 is equipped with a rotating bracket 80 for rotating the monitor unit 20. The rotating bracket 80 is installed on the outer side of the outer slider 60, the tilt bracket 82 for enabling the monitor unit 20 to tilt; It is connected to one side of the tilt bracket 82 is coupled to the monitor unit 20, and comprises a pivot bracket 84 for pivoting the monitor unit 20.

9 is a partial cross-sectional view showing the structure of the stand portion of the display device according to the third embodiment of the present invention.

As shown in the figure, the display device according to the present invention includes a monitor unit 20; It is configured to include a stand portion 30 coupled to the back of the monitor unit 20 to support the monitor unit 20.

In particular, the stand portion 30 includes a support member 40; It is attached to the outer circumferential surface of the support member 40 by magnetic action with the support member 40, and comprises an external slider 60 connected to the monitor unit 20.

The support member 40 includes a base portion 42; It includes a support portion 44 standing up on the base portion (42).

One of the support 44 and the outer slider 60 of the support member 40 is made of a permanent magnet for generating a magnetic force, the other is made of a magnetic material magnetized by a magnetic force generated from the permanent magnet.

The outer slider 60 includes an outer sliding block 62 coupled to an outer circumferential surface of the support 44 of the support member 40; The external sliding block 62 includes an external magnet 64 accommodated in the outer circumferential surface of the support 44 of the support member 40.

The outer slider 60 may be variously changed in a structure within which it can cause magnetic action with the inner slider 50 such as forming itself as a permanent magnet.

At least one magnet accommodating groove 63 is formed at an outer side of the external sliding block 62, and the external magnet 64 is accommodated in the magnet accommodating groove 63 of the external sliding block 62. The outer magnet 64 has a ring shape, and the magnet accommodating groove 63 has a shape that matches the outer magnet 64.

In addition, the external slider 60 generates a magnetic force that can be elevated along the support 44 of the support member 40 in a state in which the monitor 20 is firmly supported, but the magnetic force of the external slider 60 as necessary. When it is difficult to sufficiently support the monitor unit 20 by providing an elastic member 70, such as a compression spring, separately in the lower part of the outer slider 60, the outer slider 60 according to the lifting and lowering of the monitor unit 20 It is possible to maintain the stopped state.

The elastic member 70 is provided inside the case 72 which can be stretched by the elastic force of the elastic member 70 in consideration of its appearance.

The support part 40 of the support member 40 may be lifted and rotated by the external slider 60 so that the monitor part 20 may have a cylindrical structure to simultaneously implement lift and swivel operations. When only the lifting and lowering of the monitor unit 20 is possible, the support unit 44 having a polygonal structure may be applied.

The outer slider 60 is preferably combined in an annular structure that can cover the outer peripheral surface of the support 44 of the support member 40 in consideration of various conditions such as magnetic force and stability.

Meanwhile, a tilt bracket 82 and a pivot bracket 84 are provided between the monitor 20 and the external slider 60 to implement tilt and pivot operations of the monitor 20.

As described above, according to the present invention, the height and swivel operation of the monitor unit can be easily and easily implemented through the stand unit structure using magnetic force.

In addition, as the structure of the stand part is simplified, assembly and productivity may be improved, operation problems may be minimized, and the cost thereof may be reduced, which is advantageous in terms of economy.

Claims (20)

A monitor unit displaying an image; In the display device including a stand for supporting the monitor, The stand unit, A support member; An external slider provided to be movable on an outer circumferential surface of the support member by magnetic action with the support member, and connected to the monitor unit; An elastic member provided below the external slider to support the monitor; A case installed outside of the elastic member and provided to be stretchable according to the movement of the external slider; A tilt bracket coupled to an outer side of the outer slider to enable tilting of the monitor and a pivot bracket coupled to one side of the tilt bracket and coupled to the monitor to pivot about a transverse direction of the stand axis; Display device comprising a rotating bracket having The method of claim 1, At least one of the support member and the external slider includes a magnet. The method of claim 1, The support member is a display device, characterized in that having a cylindrical structure to enable the lifting and rotation of the external slider. The method of claim 3, The external slider has a ring structure. delete delete delete delete delete delete delete delete The method of claim 1, The outer slider and the outer sliding block coupled to the outer peripheral surface of the support member; And an external magnet accommodated in the external sliding block and supported on an outer circumferential surface of the support member by magnetic action with the internal magnet. The method of claim 13, At least one magnet receiving groove is formed inside the external sliding block, and the external magnet is accommodated in the magnet receiving groove of the external sliding block. delete delete The method of claim 1, The elastic member is a display device, characterized in that the compression spring. delete delete delete

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