KR20090047870A - Device of adjusting position of axis - Google Patents

Abstract

Disclosed is an axis position adjusting device capable of finely adjusting the height or position of an axis. The shaft position adjusting device includes a bearing mounted at an end of the shaft, a bearing receiving bearing and pivotally mounted in a hole formed in the wall, a bearing container having a center of the bearing and a center of the hole spaced apart from each other, a lever connected to the bearing container, and an end of the lever. And a screw support for adjoining the wall and a screw for adjusting the distance between the screw support and the lever end. The shaft positioner accommodates the bearings and does not interfere with the rotation of the shaft, and the position of the shaft can be easily modified.

Axis, height, position, adjustment

Description

Axis Position Adjuster {DEVICE OF ADJUSTING POSITION OF AXIS}

The present invention relates to an axis position adjusting apparatus, and more particularly, to an axis position adjusting apparatus capable of precisely adjusting the position of the shaft in a device that needs to finely adjust the position of the shaft, such as an automatic teller machine.

Financial automated devices are automated devices that can provide basic financial services, such as deposit or withdrawal, without the need for bank employees, regardless of time and place.

The automated teller machine can be divided into cash dispenser and cash dispenser according to whether or not it is withdrawn.In recent years, the automated teller machine has been used for various purposes such as cash withdrawal, check deposit and withdrawal, bankbook arrangement, payment of giro fees, ticket release. have.

In addition, a paper medium such as cash or check is used for the automated teller machine, and a pickup roller, a feed roller, and a gate roller are generally used to separate and supply the paper medium in units of sheets. Of these, the feed roller and the gate roller can effectively block the passage of two sheets through fine gap adjustment.

Although there are various methods and structures for adjusting the gap between the feed roller and the gate roller, there are limited devices that can adjust the position while allowing the rotation of the roller shaft. Conventionally, although the gap between the feed roller and the gate roller is adjusted using a cam or the like, the rotation of the Kate roller may be prevented by the friction between the cam and the gate roller.

According to one embodiment of the present invention, it provides a shaft position adjusting device that can adjust the position of the shaft while enabling the rotation of the shaft.

According to one embodiment of the present invention, there is provided a shaft position adjusting device that can adjust the height or position of the shaft, such as natural and fine.

According to an embodiment of the present invention for achieving the above objects of the present invention, the shaft position adjusting device according to the present embodiment is pivotally mounted in a hole formed in the wall receiving a bearing, a bearing mounted on the end of the shaft, Bearing centers of the bearing and the center of the hole spaced apart from each other, a lever connected to the bearing container, a screw support formed on the wall adjacent to the end of the lever, and a screw for adjusting the distance between the screw support and the lever end. The shaft positioner accommodates the bearings and does not interfere with the rotation of the shaft, and the position of the shaft can be easily modified.

As a bearing, various types of bearing structures such as rollers, rollers, tapers, throttles, journal bearings, and the like can be used, and the bearing receiver can accommodate the bearings to support the rotation of the shaft, and itself can also rotate about the wall.

As the bearing center and the bearing center are different from each other, the position of the bearing center may change little by little as the bearing receptor rotates. In some cases, the highest and lowest points can be reciprocated. To this end, the centers of the bearing receptors may be formed to be eccentric, and the centers of the bearings and the bearing receptors may be spaced apart from each other.

The lever is a medium capable of rotating the bearing container with respect to the wall, and may be formed on the same side or opposite side as the shaft. The lever is provided on one side of the bearing container, and the user can adjust the height of the shaft interlocking with the bearing container by moving the lever directly or indirectly through a screw or the like.

According to one embodiment of the present invention, since the bearing can be freely rotated in the bearing container, it can be used for fixing the shaft to the wall that needs to be rotated.

According to one embodiment of the present invention, the height of the shaft can be easily adjusted through the rotation of the bearing container by using a different center between the bearing container and the bearing.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, in the present description, the same numbers refer to substantially the same elements, and may be described by quoting the contents described in other drawings under the above rules, and the contents repeated or deemed apparent to those skilled in the art may be omitted.

1 is a partial perspective view illustrating a pickup supply unit according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the pickup supply unit of FIG. 1, and FIG. 3 is a front view of the pickup supply unit of FIG. 1.

1 and 2, the axis position adjusting device 200 according to the present embodiment can be used in the pickup supply unit 100 of the automated teller machine. For reference, the pickup supply unit 100 includes a pickup roller (not shown), a feed roller 110, and a gate roller 120, and the feed roller 110 and the gate roller 120 are mounted facing each other. While the feed roller 110 rotates, the gate roller 120 may be reversely rotated or just stopped, and the paper passing through the feed roller 110 and the gate roller 120 may pass about one sheet. The gap between the roller 110 and the gate roller 120 may be adjusted.

In detail, the feed roller 110 and the gate roller 120 may produce different results depending on the type of paper roll used, the state of the paper money, the printing state of the paper money, and the original paper quality of the paper money. In general, since the feed roller 110 actively rotates, it is difficult to move the rotation axis of the feed roller 110 and the gap between the rollers can be adjusted by adjusting the height of the rotation axis of the gate roller 120. In order to adjust the height of the rotation axis of the gate roller 120, the axis position adjusting device 200 according to the present embodiment can be used.

As shown, the pickup supply unit 100 is mounted between the two walls 140, the wall 140 is provided with holes for mounting and receiving the axial position adjusting device 200 on both sides.

For reference, the present embodiment will be described with respect to the pick-up supply of the automated teller machine, but according to another embodiment of the present invention can be used for other mechanical devices that need to adjust the space between the shaft, the pick-up supply is also provided in the cassette pickup pickup It can also be used for pickup supplies mounted external to the system module.

1 to 3, the shaft position adjusting device 200 is mounted at the shaft end of the gate roller 120. The shaft position adjusting device 200 includes a bearing 210 accommodating an end of the shaft 130 of the gate roller 120, a bearing container 220 rotatably mounting the bearing 210 to the wall 140, and a bearing container. It includes a lever 230 formed at the end of.

At the end of the shaft 130, a general bearing 210 such as a ball bearing, a roller bearing, a tapered bearing, and the like may be mounted. In general, the bearing 210 includes an inner ring and an outer ring, and a bearing element such as a ball, a roller, a tapered roller, or the like may be further inserted between the inner ring and the outer ring. In addition, the end portion of the shaft 130 may pass through the bearing 210 and may be fixed by the C-ring 215. In addition, various methods of fixing the bearing and the shaft may be used.

The wall 140 is generally formed using stainless steel and the like, and the wall 140 may be formed with a hole 145 having a larger diameter than the bearing 210. The hole 145 is formed to a size that can be approximately in contact with the outer surface of the bearing container 220, the bearing container 220 in the hole 145 can perform a normal rotation. However, the bearing container 220 may provide a hole or a groove for accommodating the bearing 210, wherein the bearings 210 of the bearing container 220 maintain an eccentric relationship. That is, the center of the bearing container 220 and the center of the bearing 210 are spaced apart from each other, and as the bearing container 220 rotates in the hole 145, the center of the bearing 210 may move left and right or up and down. have.

Referring to FIG. 3, a screw support 240 may be formed on a wall adjacent to an end of the lever 230, and a screw 245 may be interposed between the screw support 240 and the lever 230, thereby providing a gap therebetween. Can be adjusted. In this embodiment, the screw 245 is passed through the screw support 240, it is to adjust the height of the protrusion of the screw 245 by screwing. Accordingly, the manager or the user may turn the screw 245 to adjust the gap between the lever 230 and the screw support 240. In other words, by turning the screw 245 can adjust the protruding height of the screw 245, by adjusting the protruding height of the screw 245, the rotation angle of the bearing container 220 and the vertical height of the shaft 130 Can be adjusted.

According to this and other embodiments, the screw and the lever end may be coupled by screwing, and the end of the screw may be formed to support the screw support, and the structure of the various ways in which the lever can be turned against the wall and Means can be used.

In addition, in this embodiment, the lever 230 is formed integrally with the bearing container 220 and plastic, etc., it is possible to easily adjust the rotation angle of the bearing container 220 through the rotation of the lever (230). In the present embodiment, the lever 230 and the shaft 130 may be formed on the same surface with respect to the wall, but in another embodiment the lever and the shaft may be formed on the opposite surface with respect to the wall. According to another embodiment of the present invention, the lever may be formed separately from the bearing container and may extend in the axial direction in addition to extending perpendicular to the shape or axis thereof.

Referring again to FIGS. 1 to 3, the hole 145 is basically formed in a circular shape, the bearing container 220 is formed in a cylindrical shape corresponding to the hole 145, and the bearing 210 in the bearing container 220. May be provided with a groove or hole 145 to receive.

A spring 250 may be mounted at the end of the lever 230. The spring 250 provides an elastic force in the direction in which the screw support 240 and the lever 230 approach each other, it is possible to adjust the gap through adjusting the height of the protrusion of the screw 245. For reference, in the present embodiment, the shaft position adjusting device is mounted on the shaft of the gate roller 120, and basically the spring roller 250 is applied to the gate roller 120 to apply a force in a direction approaching the feed roller 110. It is desirable to determine the location and orientation. To this end, the center of the bearing 210 and the center of the bearing container 220 are spaced apart from each other by a predetermined distance (d), and the center of the bearing 210, that is, the center of the shaft 130 by the spring 250 is It is set to face left.

According to the present embodiment, the bearing 210 may include a one-way bearing. Therefore, after the feed roller 110 rotates forward and discharges bills to the outside, the gate roller 120 which can be interlocked directly or indirectly when the reverse rotation is also reverse can also be reversed. However, the gate roller 120 normally maintains the stopped state, and can be reversed only when the feed roller 110 reverses. This uses the feed roller 110 and the gate roller 120 with no power, it is possible to effectively prevent the two sheets are discharged by using the height adjustment of the gate roller 120 well.

As described above, although described with reference to the preferred embodiment of the present invention, those skilled in the art various modifications and variations of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

1 is a partial perspective view illustrating a pickup supply unit according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view of the pickup supply unit of FIG. 1. FIG.

3 is a front view of the pickup supply unit of FIG. 1.

<Explanation of symbols for the main parts of the drawings>

200: shaft position adjusting device 210: bearing

220: bearing container 230: lever

240: Screw support 245: Screw

250 ： Spring

Claims (4)

In the device for adjusting the position of the shaft mounted on the wall, A bearing mounted at the end of the shaft; A bearing container accommodating the bearing and pivotally mounted in a hole formed in the wall, the bearing container having a center of the bearing and a center of the hole spaced apart from each other; A lever connected to the bearing container; A screw support formed on the wall adjacent the end of the lever; And A screw for adjusting a distance between the screw support and the lever end; Shaft position adjustment device having a. The method of claim 1, And a spring connecting the end of the lever to the wall and rotating the lever toward the screw support. The method of claim 1, The screw is coupled to the screw support and screw engagement, the end of the screw shaft position adjustment device, characterized in that for supporting the lever end. The method according to any one of claims 1 to 3, The hole is formed in a circular shape, the bearing container is formed in a cylindrical shape corresponding to the hole, the center of the groove or hole for receiving the bearing in the bearing container is characterized in that it does not coincide with the center of the bearing container Shaft Positioning Device.

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