KR101641219B1 - Height adjusting apparatus of monitor - Google Patents

Abstract

The present invention relates to an apparatus for adjusting the height of a monitor, which includes an upper support part, a lower support part, a biasing part, a location determination part, and a lifting adjusting part. The upper support part is coupled to a display panel of the monitor. The lower support part retractably receives the upper support part through an upper end portion thereof and supports the display panel together with the upper support part. The biasing unit has a lower end portion fixed to the lower support part and generates force in a direction of pushing up the upper support part. The location determination part is detachably coupled to an outside of the lower support part to fix the movement-up location or movement-down location of the upper support part with respect to the lower support part. The lifting adjusting part is provided in the upper support part in a vertically longitudinal direction, supported by an upper end portion of the biasing unit, and engaged with the location determination part. The height of the monitor can be easily adjusted through a more simply configuration and the adjustment of the height can be surely achieved.

Description

[0001] HEIGHT ADJUSTING APPARATUS OF MONITOR [0002]

The present invention relates to a height adjusting device for a monitor, and more particularly, to a monitor height adjusting device for adjusting a height of a monitor with a relatively simple structure and a height adjusting state reliably.

BACKGROUND ART A computer monitor and a television are made very thin by using a liquid crystal display (LCD), so that space utilization can be increased. A lot of techniques are known for a device capable of adjusting the height of a display panel by such a liquid crystal display device.

In the "display device" (hereinafter, referred to as "prior art") of Patent No. 10-0671198, the inner and outer sides of the stand portion supporting the monitor portion can be moved up and down using magnetic force, A slider is provided, and the monitor is supported by the spring supporting the inner slider.

However, in the prior art, since the support of the monitor unit is made by the spring, if the object is struck or shaken on a desk or the like on which the monitor is placed, the vibration is transmitted to the monitor unit through the stand unit.

Particularly, in the prior art, since the height of the monitor unit is determined by the magnetic force between the inner and outer sliders, there is a problem that the maintenance of the accurate positioning state is shifted by the above-described external shock or vibration.

Registration No. 10-0671198

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a monitor height adjusting device which can easily adjust the height of the monitor and can control the height thereof with a relatively simple structure.

According to an aspect of the present invention, there is provided a display device comprising: an upper supporting part connected to a display panel of a monitor; A lower support portion that is received in the upper support portion so as to be removable from the upper end portion and supports the display panel together with the upper support portion; A lower end fixed to the lower support and biasing means for generating an action force in a direction to push up the upper support; A positioning unit detachably coupled from the outside of the lower support unit and fixing a position where the upper support unit is moved up or down with respect to the lower support unit; And a lifting and lowering control unit built in the upper support unit along the vertical direction of the upper support unit and supported by the upper end of the biasing unit and engaged with the positioning unit. .

The upper support portion includes an upper pipe forming an inner space in which the lower surface of the upper pipe is opened to receive the up / down control portion, a lift slot formed by cutting a predetermined length and a predetermined length upward from the lower end edge of the upper pipe, And a plurality of reinforcing frames arranged in the vertical direction of the upper pipe and connecting ends of the upper and lower portions of the upper pipe to each other, wherein the end of the positioning portion engages with the lift control portion through the lift slot .

At this time, the lower supporting part includes: a lower pipe forming an internal space in which an upper surface is opened to receive the upper supporting part; a support block extending from a lower end of the lower pipe and having a predetermined area; And a guide protrusion for guiding the insertion of the end of the positioning part into the insertion hole, wherein a lower end of the biasing device is fixed to an inner bottom surface of the support block.

The positioning unit may include a crystal rod having one end thereof inserted through the outside of the lower support and engaging with the lift control unit, and a handle formed on the other end of the crystal rod so as to be grasped.

The upward / downward control unit may include an adjusting bar having an upper end fixed to the upper supporting unit and extending toward the lower supporting unit, and an upper end of the adjusting bar repeatedly formed in a vertical direction on one surface of the adjusting bar facing the end of the positioning unit, And a supporting piece formed at a lower end portion of the control bar and having a predetermined area and supported by the upper end of the biasing means.

According to the present invention having the above-described configuration, the following effects can be achieved.

First, the present invention is characterized in that a biasing means is supported by an upper support portion received in a lower support portion and connected to a display panel of a monitor, and a height adjustment and a positioning of an upper support portion with respect to the lower support portion are performed by cooperation of the lift control portion and the positioning portion It is possible to reliably adjust the height, maintain the state of adjustment, and accurately determine the position with a relatively simple structure.

Particularly, since the positioning is made by engaging the positioning part with the elevation control part, it is possible to reliably maintain the state where the height and height are first determined even from external impact or vibration, It will be done.

FIG. 1 is a perspective view showing the overall structure of a height adjusting device for a monitor according to an embodiment of the present invention. FIG.
FIG. 2 is a cross-sectional view showing the internal structure of a height adjusting device for a monitor according to an embodiment of the present invention, as viewed in the directions of arrows A and B in FIG. 1
FIG. 3 is a sectional view showing the internal structure of the height adjuster of the monitor according to the embodiment of the present invention, as viewed from the direction of arrows C and D in FIG. 1

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings.

However, the present invention is not limited to the embodiments described below, but may be embodied in various other forms.

The present embodiments are provided so that the disclosure of the present invention is thoroughly disclosed and that those skilled in the art will fully understand the scope of the present invention.

And the present invention is only defined by the scope of the claims.

Thus, in some embodiments, well known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

In addition, throughout the specification, like reference numerals refer to like elements, and the terms (mentioned) used herein are intended to illustrate the embodiments and not to limit the invention.

In this specification, the singular forms include plural forms unless the context clearly dictates otherwise, and the constituents and acts referred to as " comprising (or having) " do not exclude the presence or addition of one or more other constituents and actions .

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs.

Also, commonly used predefined terms are not ideally or excessively interpreted unless they are defined.

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

FIG. 1 is a perspective view showing a general structure of a height adjusting device for a monitor according to an embodiment of the present invention. FIG. 2 is a view of the monitor according to an embodiment of the present invention, FIG. 3 is a cross-sectional view illustrating the internal structure of the height adjuster of the monitor according to the embodiment of the present invention, as viewed in the direction of arrows C and D in FIG. 1. FIG.

The biasing means 300 supports the upper support 100 received in the lower support 200 and connected to the display panel 410 of the monitor 400 as shown in FIG. It can be understood that the height adjustment and the positioning of the upper support part 100 are made by the lift control part 600 and the positioning part 500. [

The upper support portion 100 is connected to the display panel 410 of the monitor 400 and is accommodated in a lower support portion 200 to be described later and is controlled in height. .

The lower supporting part 200 is received in the upper supporting part 100 in such a manner that the upper supporting part 100 can be taken in and out and supports the display panel 410 together with the upper supporting part 100. The lower supporting part 200 includes a biasing unit 300 and a positioning part 500 are accommodated.

The lower end portion of the biasing means 300 is fixed to the lower support portion 200 and generates an action force in a direction of pushing up the upper support portion 100.

The lower end of the biasing unit 300 may be fixed to the lower support 200 and the upper end of the biasing unit 300 may be a member such as a coil spring that supports the lift control unit 600.

The positioning unit 500 is detachably coupled from the outside of the lower support unit 200 and fixes the position where the upper support unit 100 is raised or lowered relative to the lower support unit 200.

The elevating control part 600 is embedded in the upper supporting part 100 along the vertical direction of the upper supporting part 100 and supported by the upper end of the biasing device 300 to engage with the positioning part 500 .

Therefore, the present invention enables a reliable height adjustment, maintenance of its adjustment state and accurate positioning with a relatively simple configuration.

Particularly, since the positioning is performed by the positioning part 500 being engaged with the elevation control part 600, it is possible to reliably maintain the state in which the height and height positioning are performed for the first time even from external impact or vibration .

It is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention.

The upper support part 100 is connected to the display panel 410 of the monitor 400 and the inclination degree of the display panel 410 can be adjusted as described above and includes an upper pipe 110 and a lift slot 120 And a reinforcing frame 130. [0031] As shown in FIG.

The upper pipe 110 forms an inner space in which the lower surface of the upper pipe 110 is opened to accommodate the lift control part 600 and can be pivotally coupled to the display panel 410.

The elevating slot 120 is formed by cutting a predetermined width and a predetermined length upward from the lower end edge of the upper pipe 110 so that the end of the positioning unit 500 to be described later goes in and out and is engaged with the elevation control unit 600 And also defines the range of the upper pipe 110 to be lifted or lowered.

The reinforcing frame 130 is a plurality of members arranged in the vertical direction of the upper pipe 110 and connecting both sides of the elevation control part 600 and the inner peripheral surface of the upper pipe 110, So that the load and pressure of the upper pipe 110 can be distributed over the entire inner circumferential surface of the upper pipe 110 while maintaining the structural strength of the upper pipe 110.

The end of the positioning unit 500, which will be described later, is engaged with the lift controller 600 through the lift slot 120.

2, one end of the reinforcement frame 130 is coupled to one side of both sides of the elevation control part 600 and the other end of the reinforcement frame 130 is coupled to the inner circumference of the upper pipe 110, And a plurality of first reinforcing bars 131 arranged in parallel in the vertical direction.

The plurality of reinforcing frames 130 may be formed by a plurality of reinforcing frames 130 each having one end connected to the other side surface of the elevation control portion 600 and the other end connected to the inner surface of the upper pipe 110, 2 reinforcement bars 132. [

Here, it can be understood that the upper end of the lifting slot 120, which is caught in the positioning part 500 along with the lowering of the upper pipe 110, is the lowering lower limit of the upper supporting part 100.

That is, the distance from the upper end to the lower end of the lifting slot 120 is the maximum range in which the display panel 410 is movable up and down.

The lower support part 200 includes a lower pipe 210 and a support block 210 to accommodate the upper support part 100 so as to be able to move in and out as described above and to provide a space through which the positioning part 500 is inserted, It can be understood that the guide protrusion 220 and the guide protrusion 230 are included.

The support pipe 220 extends from the lower end of the lower pipe 210 and has a predetermined area and is connected to the upper surface of the display panel 410 And disperses impact and pressure due to the elevation of the display panel 410. In addition,

The guide protrusion 230 protrudes from the outer circumferential surface of the lower pipe 210 and guides the insertion of the end of the positioning unit 500.

At this time, the lower end of the biasing means 300 is fixed to the inner bottom surface of the base block 220, though not specifically shown.

The biasing means 300 is provided for the purpose of preventing the upper pipe 110 from suddenly falling down with respect to the lower pipe 210.

The lower support part 200 extends from the center of the outer end face of the guide protrusion 230 to the inner peripheral face of the lower pipe 210 and the positioning part 500 to be described later is screw- (240).

The positioning unit 500 includes a crystal rod 510 having one end inserted through the outer side of the lower support 200 to engage with the lift control unit 600, It can be understood that the structure includes the handle 520 formed at the end portion.

Here, the positioning unit 500 includes a positioning rod 500 and a positioning rod 500. The positioning rod 500 is fixed to the lower supporting part 200 by a screw (not shown) And may include adjustable threading 540 formed along the outer circumferential surface of the crystal rod 510 to engage with the removable adjustable arm thread 240.

The positioning unit 500 includes a crystal pin 510 extending from an end of the crystal rod 510 and having a polygonal cross section having a width and an area smaller than or equal to the diameter of the crystal rod 510 530).

Therefore, the end portion of the crystal pin 530 is fixed to the lift controller 600 as shown in FIG. 3, whereby the height position can be reliably determined and maintained.

The lift controller 600 may include the adjusting bar 610 and the engaging portion 620 and the receiving piece 630 for reliable height determination through cooperation with the positioning portion 500 described above.

The upper end of the adjusting bar 610 is fixed to the upper pipe 110 of the upper supporting part 100 and extends toward the lower supporting part 200. The engaging part 620 is in contact with the end of the positioning part 500, And the end portion of the positioning portion 500 is engaged with the one side of the bar 610 repeatedly formed in the vertical direction.

The supporting piece 630 is formed at a lower end of the adjusting bar 610 so as to have a predetermined area where the upper end of the biasing unit 300 supports and supports.

1 and 3, the engaging portion 620 includes an inclined surface 621 formed on a side surface of the control bar 610 so as to be inclined downwardly in the vertical direction, and an inclined surface 621 inclined downwardly from the lower end of the inclined surface 621 And a latching surface 622 formed parallel to the direction in which the part 500 is inserted includes a ratchet 620r having a repeated pattern.

Here, the retaining surface 622 is supported by the end of the positioning unit 500, that is, the upper surface of the crystal pin 530, so that the reliable positioning state is maintained and the upper pipe 110 is also lowered .

The lifting and lowering control unit 600 includes a supporting member 630 extending from the bottom of the receiving piece 630 to the lower side and inserted from the upper side of the biasing unit 300, The upper end of the biasing means 300 can be prevented from being displaced from the center position of the receiving piece 630.

The user adjusts the height of the upper pipe 110 so that the upper pipe 110 is positioned at a predetermined height with respect to the lower pipe 210 and then inserts the crystal rod 510 of the positioning unit 500 into the guide protrusions 230 of the engaging portion 620 and engaging with the ratchet 620r of the engaging portion 620 at the end of the engaging pin 530 while rotating or rotating in the normal direction The height position determination is completed.

As described above, according to the present invention, it is possible to easily adjust the height of the monitor with a relatively simple structure, and to provide a height adjusting device for a monitor which can surely control the height of the monitor.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

100 ... upper support
110 ... upper pipe
120 ... lifting slot
130 ... reinforcement frame
131 ... first reinforcing bar
132 ... 2nd reinforcement bar
200 ... lower support
210 ... lower pipe
220 ... base block
230 ... guide protrusion
240 ... Adjustable arm thread
300 ... biasing means
400 ... monitor
410 ... display panel
500 ... positioning portion
510 ... crystal rods
520 ... handle
530 ... crystal pin
540 ... adjustable thread
600 ... lift control portion
610 ... control bar
620 ... engaging portion
620r ... ratchet
621 ... slope
622 ... engaging surface
630 ... pedestal
640 ... support guide rod

Claims (5)

An upper support connected to the display panel of the monitor;
A lower support portion that is received in the upper support portion so as to be removable from the upper end portion and supports the display panel together with the upper support portion;
A lower end fixed to the lower support and biasing means for generating an action force in a direction to push up the upper support;
A positioning unit detachably coupled from the outside of the lower support unit and fixing a position where the upper support unit is moved up or down with respect to the lower support unit; And
And a lift control unit built in the upper support unit along the vertical direction of the upper support unit and supported by the upper end of the biasing unit and engaged with the positioning unit,
The elevating /
The upper end portion of which is fixed to the upper support portion and extends toward the lower support portion,
An engaging portion formed on one side of the control bar facing the end portion of the positioning portion, the engaging portion being repeatedly formed in the up-and-down direction to engage the end portion of the positioning portion,
And a support piece formed at a lower end portion of the control bar and having a predetermined area to support the upper end of the biasing means,
The upper support portion
An upper pipe forming an inner space in which the lower surface is opened to receive the lift control part,
A lifting slot formed by cutting the upper pipe at a predetermined width and a predetermined length upward from a lower end edge of the upper pipe;
The upper and lower ends of the upper pipe are connected to both sides of the plate-shaped control bar and the inner circumferential surface of the upper pipe constituting the lifting and lowering control unit so as to maintain the structural strength against external vibration and impact, And a plurality of reinforcing frames arranged in the vertical direction of the upper pipe so as to be dispersed throughout the inner peripheral surface,
Wherein an end of the positioning portion engages with a plate-shaped adjusting bar constituting the lift adjusting portion through the lift slot,
Wherein the plurality of reinforcing frames
And one end of each of the opposite sides of the control bar is coupled at one end thereof and the other end thereof is coupled to the inner circumferential face of the upper pipe at a predetermined interval between the upper and lower sides, A first reinforcing bar of the first member; And
One end of the opposite side of the control bar is coupled to the other side corresponding to the position where the first reinforcing bar is coupled and the other end is coupled to the inner circumferential surface of the upper pipe to be vertically arranged parallel to each other And a plurality of second reinforcing bars having a predetermined diameter larger than the thickness of the bars,
The upper end of the lifting slot engaged with the positioning portion along with the lowering of the upper pipe is the lowering lower limit of the upper supporting portion,
The lower support portion
A lower pipe having an upper surface opened to form an inner space in which the upper support portion is received,
A support block extending from a lower end of the lower pipe and having a predetermined area,
And a guide protrusion protruding from an outer circumferential surface of the lower pipe and guiding the insertion of the end of the positioning unit,
The lower end of the biasing means is fixed to the inner bottom surface of the base block,
Wherein the positioning unit comprises:
A crystal rod penetratingly inserted through the outside of the lower support,
An adjusting screw thread formed along an outer peripheral surface of the crystal rod,
A crystal pin extending from an end of the crystal rod and having a polygonal cross section with a width and an area smaller than the diameter of the crystal rod and engaging with a plate-shaped control bar constituting the lift control part;
And a handle formed on the other end of the crystal rod so as to be grasped,
The engaging portion
A ratchet having a slope formed on one side surface of the control bar and slanted downwardly in the vertical direction and a latching surface formed in a direction parallel to the direction in which the crystal pin of the positioning part is inserted from the lower end of the slanted surface,
The engaging surface is supported by a flat upper surface of a crystal pin formed in a polygonal column shape to maintain the positioning state and prevent the upper pipe from descending,
Wherein the left and right widths of the elevating slots are formed to a degree corresponding to the left and right widths of the handle larger in diameter than the crystal rods so that the crystal rods constituting the positioning portions are not caught by the elevating slots and can be moved in and out. .
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