KR200203200Y1 - Hinge devices for icd monitor - Google Patents

Abstract

The present invention relates to a hinge device of a liquid crystal monitor, and more particularly, a means of adjusting the monitor body in a desired direction when the monitor body is fixed to the monitor stand, and the elastic force is converted according to the angle of the monitor so that a stable monitor angle can be obtained. A hinge device for a liquid crystal monitor further comprising means for retaining, comprising: a ball 20 to which one end of a fixed rod 21 is fastened;

Hurenji 31 is configured on one side and a circular operation hole 32 having a guide space in the center and the guide hole 33 is formed in all directions integrally with the operation hole 32, the ball cap 30 surrounding the ball and:

Elastic spring 40 to impart an elastic force to the ball 20:

And a ball cap fixture 50 for holding the ball cap 30 to be rotatable and fixing it to the monitor 60.

In order to achieve the above object by providing a hinge device for a liquid crystal monitor consisting of a stopper 39 for bringing the elastic spring 40 in close contact with the ball 20.

Description

Hinge devices for liquid crystal monitors {Hinge devices for ICD monitor}

The present invention relates to a hinge device of a liquid crystal monitor, and more particularly, a means of adjusting the monitor body in a desired direction when the monitor body is fixed to the monitor stand, and the elastic force is converted according to the angle of the monitor so that a stable monitor angle can be obtained. A hinge device for a liquid crystal monitor further comprising means for holding.

Generally, a liquid crystal monitor which has been widely used in computers is shown in FIGS.

Referring to the hinge device with reference to the drawings, it consists of a monitor stand (1) and a monitor (4) consisting of a substrate (2) and a support bar (3), which can operate the monitor (4) up and down The first hinge 5, which is a friction hinge structure of a torsion spring type, and the second hinge 6, which is a structure used to fix the supporting rod 3 to the substrate 2, are coupled to each other.

The first hinge (5) is composed of a housing (7), a rotating shaft (8) and a torsion spring (9) for operating the monitor (4) up and down, the housing (7) is an axial hole (10) And a fixed slot 11 is provided at the bottom thereof.

In addition, the rotation shaft 8 is coupled to the first shaft portion 12 inserted into the axial hole 10 of the housing 7 and the second shaft portion 13 and the second shaft portion 13 connected to the end thereof, It consists of a fixing part 14 extending to the opposite side of the shaft portion 12 and is configured to be coupled to the monitor 4 by the fixing part 14.

The torsion spring 9 is composed of a plurality of clip-shaped leaf springs, which are inserted into the axial hole 10 of the housing 7 together with the rotation shaft while being pressed against the rotation shaft 8 and fixed to the housing.

However, since the monitor 4 rotates about the first hinge 5 having the structure as described above, the monitor 4 can only move up and down, but cannot move left and right. The second hinge is used to move left and right.

In addition, referring to the second hinge, a structure in which the fixing shaft 15 for fixing the support bar 3 to the washer 15 and the nut 16 so as to be rotatable to the substrate 2 is configured as a bearing. Using or using a bushing, etc. is to help to support the rotation of the rod.

Therefore, when the second hinge is used, the support bar 3 is rotatable, and the monitor 4 is rotatable left and right.

The conventional hinge configured as described above is configured to simply rotate the monitor to left, right or up and down, so that when performing the operation such as turning the monitor up and down or left and right as necessary, Rotating the monitor 90 degrees has the potential to make such work inconvenient even though the work is convenient.

In addition, since the force to which the monitor 4 is fixed while the monitor is inclined at a predetermined angle is the pressing force of the torsion spring fixed to the outside of the rotation shaft 8, the changed angle of the monitor 4 is provided only by the torsion spring 9 having the same pressing force. Since it is impossible to give a change in the compressive force due to the change in the load, the force supporting the monitor 4 is weakened as the inclination angle of the monitor 4 increases.

The present invention is designed to solve the above deficiency and to make the support of the monitor more stable by changing the pressing angle for supporting the monitor according to the angle of the monitor while adjusting the angle of the monitor to an arbitrary angle. will be.

In order to achieve the above object, the combination of the monitor and the support rod provides a hinge consisting of a ball and a ball cap and an elastic spring and a ball cap fixture.

In addition, the ball is composed of a spherical shape or a cam shape is configured to be coupled to the fixed rod of the support rod and is configured to be supported by an elastic spring.

In addition, the ball cap for fixing the ball is composed of a working hole formed with a flow space to which the fixed rod can move and a + -shaped guide hole integrally with the operating hole, so that the fixing rod can be freely moved up, down, left and right by a wide space. The elastic force of the elastic spring can be adjusted in accordance with the angle of the monitor while being able to flow in any part of the 360-degree direction so as to stably support the monitor, thereby achieving the above object.

Figure 1 is a side view showing the configuration of a conventional hinge device.

Figure 2 is a partial cutaway perspective view showing the configuration of a conventional hinge device.

Figure 3 is a cross-sectional view showing the configuration of the present invention.

Figure 4 is a cross-sectional view showing the configuration of another example of the present invention.

Figure 5 is a cross-sectional view showing the configuration of another example of the present invention.

6 is a cross-sectional view taken along the line A-A of FIG.

*** Description of the symbols for the main parts of the drawings ***

20: ball 20a: round ball

20b: cam-shaped ball 21: fixed rod

30: ball cap 31: Hurenji

32: operator 33: guide

34: protrusion 35: spring washer

39: stopper 40: elastic spring

50: ball cap fixture 51: through hole

60: monitor 61: support

62: elastic plate

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention is the ball 20 and the ball cap 30 for fixing the ball and the hinge 100 consisting of an elastic spring 40 and the ball cap fixture 50 and the ball cap fixture 50 of the hinge 100 is It is composed of a support 60 to which the monitor 60 to be fixed and the hinge 100 are fixed.

The ball 20 may be composed of a circular ball 20a as shown in FIG. 3 or a cam-shaped ball 20b as shown in FIG. 5.

The different shape of the ball 20 as described above is configured to allow the elastic force of the elastic spring 40 applied to the ball 20a to be equally applied to the ball 20a when the ball 20a is configured. If you have the same elastic force for the load that is changed by the tilt angle control of the monitor 60, but will have the advantage that is very suitable for converting the monitor to the desired angle.

The ball 20 is configured in the form of a cam-shaped ball 20b having a smaller radius from the center point of the fixed rod 21 and the horizontal direction and a longer length of the radius toward the fixed rod 21 in the vertical direction. When the monitor 60 can be moved to a desired position as well as the force transmitted to the elastic spring 40 is changed according to the load change which is changed every time the angle of the monitor 60 is changed. ) Has the effect of being able to firmly support the elasticity more than the circular ball (20a).

The ball cap 30 has a flange 31 on one side is fixed to the ball cap fixture 50, and the other side has a circular working hole 32 having a guide space in the center and integral with the working hole 32 in all directions The guide hole 33 is formed.

The elastic spring 40 is composed of a support 42 and the contact 43, the contact 43 is in contact with the ball 20 is configured to be supported by the support 42.

In addition, in fixing the ball cap fixture 50 and the ball cap 30 can be fixed as shown in Figure 3 or can be configured as shown in Figure 5 in the case of Figure 3 the flange 31 of the ball cap 30 ball cap fixture 50 ) Is fixed to the outside of the ball cap 30, the lower portion of the ball cap 30 has a protrusion 34 is inserted into the through hole 51 of the ball cap fixture 50, the spring washer 35 and the plate having a larger diameter than the through hole 51 After inserting the washer 36 of the projection 34 in order to bend the projection 34 to the outside to constitute a separation prevention portion 37 to prevent the separation of the spring washer 35 and the washer 36 of the plate or 5, the flange 31 of the ball cap 30 may be fixed to be caught by the through hole 51 by making the diameter larger than the through hole 51 of the ball cap fixture 50.

However, regardless of how the ball cap 30 is configured, both configurations are not fixed by fastening the ball cap 30 and the ball cap fixture 50 to each other, but the ball cap 30 and the ball cap fixture 50 are formed by elastic force. They are configured to be in close contact with each other so that they can be rotated by applying only a force to overcome the elastic force.

However, the difference between the two is that hex nut groove, or rotary knob for fastening using a tool after forming the thread 38 on the inner surface of the ball cap 30 to closely contact the elastic spring 40 to the ball 20. 5 is fixed by fastening the stopper 39, Figure 5 is formed on the inner surface of the ball cap fixture 50, there is a difference in fastening the stopper 39, but the elastic spring 40 ball (20) ) And is fixed to the elastic spring 40 with a stopper 39 is the same in that the elastic spring 40 is fixed to the ball 20 with elasticity.

At this time, depending on how much the stopper 39 is rotated, the elastic force of the elastic spring 40 becomes stronger or weaker to adjust the elastic force supporting the monitor 60.

The fixing rod 21 is fastened to the ball 20, and the fixing rod 21 is configured to be fastened by the elastic plate 62 and the fastening nut 63 to the support 61.

The present invention constituted as described above, when the ball cap fixture 50 is fixed to the monitor 60, the ball 20 is a ball cap 30 by the elastic spring 40 is fixed by a stopper 39 Close to.

In such a state, when the monitor 60 is rotated up and down or when the monitor 60 is grabbed and moved, the monitor 20 is rotatable to a desired position by the ball 20.

However, this state is a movement within the flow space range of the operation hole 32 of the ball cap 30 and if you want to give more angle than this fixed rod (in the guide hole 33 configured integrally with the operation hole 32 ( If the position of the monitor 21 is to be able to move the angle of the monitor 60 greatly, and in this state to rotate the monitor 60 clockwise or counterclockwise in the same state with the ball 20 ball cap ( 30 is rotated so that the monitor 60 can be moved to a desired position.

Hereinafter, the effect when the shape of the ball 20 is comprised by the cam-shaped ball 20b is demonstrated.

When the angle of the monitor 60 is rotated clockwise or counterclockwise, the weight load of the monitor 60 does not change, and in this state, the elastic force of the supporting elastic spring 40 is operated in the same manner. .

However, when the monitor 60 is inclined as shown in the phantom line of FIG. 4, the load is changed, and a large load is applied to the ball 20b closely attached to the ball cap 30.

Therefore, when using the ball 20b having the same diameter as the ball 20b as shown in Fig. 3, the elastic force of the elastic spring 40 is strengthened to withstand the load when the monitor 60 is inclined. ) In the vertical state, the contact force that comes in close contact with the ball 20a becomes strong, and requires a lot of force during rotation of the monitor 60. When the cam-shaped ball 20b is configured, the monitor 60 is inclined. Since the compressive force of the ball 20b in contact with the leaf spring 40 is converted when the angle is converted, the ball 20b receives as much elastic force as the inclined, so that even when the monitor 60 is vertical or in an inclined state. Since the bearing force of the monitor 60 is the same, the angle of the monitor 60 can be converted using the same force.

The present invention, which is configured as described above, rotates the monitor 90 degrees in the case where the monitor can be converted to the desired angle according to the user's convenience and the operation is performed by bending the text 90 degrees, such as by rotating during the operation of the computer. Working by making it work, the operator who sees the monitor can have the effect of making it easy to recognize the letters.

Claims (3)

A ball 20 to which one end of the fixing rod 21 is fastened; Hurenji 31 is configured on one side and a circular operation hole 32 having a guide space in the center and the guide hole 33 is formed in all directions integrally with the operation hole 32, the ball cap 30 surrounding the ball and: Elastic spring 40 to impart an elastic force to the ball 20: And a ball cap fixture 50 for holding the ball cap 30 to be rotatable and fixing it to the monitor 60. The hinge device for a liquid crystal monitor, characterized in that the stopper 39 is fastened to closely contact the elastic spring 40 to the ball 20. The hinge device for a liquid crystal monitor according to claim 1, wherein the ball (20) is composed of a circular ball (20a). The method of claim 1. The ball 20 is composed of a cam-shaped ball (20b) of the fixed rod 21 and the horizontal direction has the smallest length of the radius from the center point and the longer the length of the radius in the vertical direction with the fixed rod (21) The hinge device for a liquid crystal monitor, characterized in that.