KR100200789B1 - Hemispherical bearing measuring device - Google Patents

Abstract

The present invention relates to a hemispherical bearing measuring device, an object thereof is to a hemispherical bearing measuring device that facilitates the measurement of the clearance required for maintaining the stiffness of the hemisphere bearing to improve the assembly of the hemisphere bearing.

The hemispherical bearing measuring apparatus of the present invention is inserted into the hemisphere groove 4 and the hemisphere groove 4 which are provided in the direction opposite to each other in the bush 2, the inside of the bush 2, and the predetermined predetermined therebetween. In the hemisphere (3) having a clearance, the central axis (5) coupled and fixed inside the hemisphere (3), hemispherical bearing measuring device for measuring between the hemisphere (3) and the hemisphere groove (4), Body 20 for supporting the bush 2, a fixing member 30 for fixing the bush (2) to the body 20, formed in the body 20, the central axis (5) and the The adjusting space 60 is provided so that the hemisphere 3 can move therein, and the adjusting member 40 is provided in the adjusting space 60 to move the central axis 5 and the hemisphere 3. It is a structure which measures before and after moving with the member 40 until it contacts the hemisphere groove 4 which opposes the said hemisphere 3.

Description

Hemisphere Bearing Measuring Device

The present invention relates to a hemispherical bearing measuring device, in particular, to fix the bush, and move the hemisphere and the central axis up and down to give a measurement value therebetween, it is easy to measure the clearance between the hemisphere and the bush necessary for maintaining the stiffness performance of the hemisphere bearing It is a hemispherical bearing measuring device that can improve and improve workability.

In general, hemisphere bearings are one of dynamic pre-bearing bearings in which the eccentrically coupled bush and the support are rotated to generate the maximum pressure in the smallest gap therebetween and are separated from each other. It is provided inside the motor of computer hard disk, laser printer, laser scanner, etc., and it supports both horizontal and vertical axis directions, so it is not necessary to use bearings in each direction, so that the volume can be made small. It is suitable for use in the internal motor of electronic products because it does not need lubricant and thus sealing member.

1 is a view showing the inside of a motor used in the laser scanning unit (LSU). As shown in the figure, the multifaceted mirror 1 is provided on the upper side. The mirror mirror 1 serves to reflect a laser beam scanned by a semiconductor laser (not shown) from a laser printer or a scanner to a photosensitive drum (not shown), and the motor rotates the mirror.

The multi-faceted mirror 1 is connected to the multi-faceted mirror 1a and the multi-faceted mirror 1a is coupled to the lower bush 2 to transmit the rotational force of the bush 2 to the multi-faceted mirror 1.

Inside the bush 2, the hemisphere 3, which acts as an axis, and the central axis 5 are coupled, and the rotor 2b is coupled to the outside of the bush 2; The stator 6 is coupled to the housing 7 outside the rotor 2b.

The hemisphere bearing 10 will be described in detail with reference to FIG. 2 as follows. On the lower side of the multi-faceted mirror 1 and the multi-faceted mirror guard 1a, a bush 2 having a hemispherical hemispherical groove 4 recessed upward and downward is provided, and a communication hole between the hemisphere groove 4 is provided. 2a) is formed to communicate the upper, lower hemisphere groove (4). The hemisphere groove 4 is coupled to the hemisphere 3 to face up and down, and the hemisphere 3 is formed with a coupling hole (not shown) into which the central axis 5 can be inserted. Spiral Groove (8) provided as is formed. Between the hemispheres 3 is provided with a spacer 9 coupled to the central axis 5 to adjust the upper and lower clearances between the hemisphere 3 and the bush 2 when assembled. By adjusting, clearance between the hemisphere 3 is adjusted and the clearance of the hemisphere 3 and the bush 2 is adjusted eventually.

When the hemisphere bearing 10 is configured as described above, when the power is applied, the stator 6 and the rotor 2b generate repulsive force to each other so that the rotor 2b, the bush 2 connected thereto, the multi-faceted guard 1a, and the multi-facet mirror (1) is centered on the central axis (5) and the hemisphere (3), the hemisphere (3b) and the hemisphere groove (4b) provided in the lower first contact with each other, the space between the hemisphere 3a and the hemisphere groove (4a) of the upper side Will start to rotate.

At this time, air is introduced between the bush 2 and the hemisphere 3, and the air introduced therein is the minimum pressure formed by the eccentric coupling between the hemisphere 3 and the bush 2. 3) and the bush (2) is spaced apart by a few microns interval to float the bush upwards.

At the same time, air enters the inlet of the groove 8 provided in the hemisphere 3. The air introduced through the inlet makes a maximum pressure distribution at the front end of the groove 8 to help the hemisphere 3 and the bush 2 to be spaced apart.

Meanwhile, the hemisphere (3) and the hemisphere groove (4) is managed as a tolerance of several microns, for this purpose, hemisphere (3) and hemispherical groove (4) is subjected to precise lapping to match the radius and sphericity. In order to measure this, the optical interference device is used to measure the contour lines appearing thereon. In order to measure the clearance in the axial direction, the size of the hemisphere 3 is measured using a measuring instrument such as a micrometer, and the size of the hemisphere groove 4 is again measured, and the clearance value is expressed as the difference value. It became.

However, such a hemispherical bearing is manufactured by rotating the support means in a hemispherical shape to cut and wrap horizontally the upper and lower surfaces of the hemisphere. The cutting surface of does not coincide with the outer diameter, so in order to measure the clearance between the hemisphere and the hemisphere groove, it is necessary to measure the hemisphere and the hemisphere groove directly using a measuring instrument. There is a problem unsuitable for production.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus for measuring hemispherical bearings, which facilitates measurement of clearance required for maintaining the stiffness of hemisphere bearings, thereby improving the assemblability of the hemisphere bearings.

1 is a view showing the inside of a motor in which the hemisphere bearing is embedded.

2 is a view showing the hemisphere bearing of FIG.

Figure 3 is a view showing a state in which the hemisphere bearing is inserted into the hemisphere bearing measuring apparatus according to the present invention.

FIG. 4 is a view showing when the hemisphere and the axis are moved upward in the state of FIG.

Explanation of symbols on the main parts of the drawings

2: bush 3: hemisphere 4: hemisphere groove

5: center axis 10: hemisphere bearing 20: body

21: fastener 22: fastener 30: fixing member

31: fixing member hole 40: adjusting member 41: adjusting shaft

42: Plate 43: screw thread 44: Bolt

50: compression spring 60: control space 61: moving groove

62: adjusting groove 61a, 62a: locking jaw 63: adjusting shaft hole

The hemispherical bearing measuring apparatus of the present invention for achieving the above object, the hemisphere grooves are provided in the direction opposite to each other in the bush, the interior of the bush and communicate, hemispheres inserted into the hemisphere grooves having a predetermined clearance therebetween, the In the hemisphere is coupled and fixed to the central axis, hemispherical bearing measuring device for measuring between the hemisphere and the hemisphere groove, the body for supporting the bush, a fixing member for fixing the bush to the body, the interior of the body The hemisphere groove which is formed in the control space provided to move the central axis and the hemisphere therein, the control space provided in the control space to move the central axis and the hemisphere to the hemisphere opposite the hemisphere by the adjustment member It is characterized by measuring before and after the movement until contact with.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the hemisphere bearing measuring apparatus according to the present invention.

In general, bearings support shafts that rotate or reciprocate and smooth these movements. Among the various types of bearings, dynamic pressure bearings have eccentric rotation of the supporting means and the rotating means, so that the maximum pressure is reduced by the minimum clearance between them. It is a sliding bearing of the type that generates and spaces it apart and supports the shaft by the pressure.

The hemispherical bearing to be measured of the present invention is the same as the hemisphere bearing described in Figs. Referring to this briefly using the same name and the same reference numerals as follows.

On the lower side of the multi-faceted mirror 1 and the multi-faceted mirror guard 1a, a bush 2 having a hemispherical hemispherical groove 4 recessed upward and downward is provided, and a communication hole between the hemisphere groove 4 is provided. 2a) is formed to communicate the upper, lower hemisphere groove (4). The hemisphere groove 4 is eccentrically coupled to the upper and lower hemispheres 3, the hemisphere 3 is formed with a coupling hole (not shown) for inserting the central axis 5 therein, the outside The spiral groove (Spiral Groove, 8) provided in a spiral is formed. Between the hemispheres 3 is provided with a spacer 9 coupled to the central axis 5 to adjust the upper and lower clearances between the hemisphere 3 and the bush 2 when assembled. By adjusting, clearance between the hemisphere 3 is adjusted and the clearance of the hemisphere 3 and the bush 2 is adjusted eventually. When the hemisphere bearing 10 is configured as described above, when the power is applied, the stator 6 and the rotor 2b generate repulsive force to each other so that the rotor 2b, the bush 2 connected thereto, the multi-faceted guard 1a, and the multi-facet mirror (1) is centered on the central axis (5) and the hemisphere (3), the hemisphere (3a) initially provided on the lower side and the hemisphere groove (4a) is in contact with the space between the hemisphere (3a) and the hemisphere groove (4a) of the upper side Will start to rotate. At this time, air is introduced between the bush 2 and the hemisphere 3, and the air introduced therein is the minimum pressure formed by the eccentric coupling between the hemisphere 3 and the bush 2. 3) and the bush (2) is spaced apart by a few microns interval to float the bush upwards.

3 is a view of a state in which the hemisphere bearing is inserted into the hemisphere bearing measuring apparatus according to the present invention. As shown in the figure, the hemisphere bearing 10 has a hemisphere groove 4 provided with a face up and down of the body 20. It is provided on the upper side, the body 20 is provided with a control space 60 is inserted into the control member 40 therein, the fastening hole 21 is fastened to the fixing member 30 is formed on the upper side. The body 20 is provided with a control space 60 for embedding the adjusting member 40 and inserting the hemisphere 3 and the central axis (5). The adjusting space 60 is configured as two grooves 61 and 62 having inlets to the upper and lower sides of the body 20 and one hole 63 communicating therewith. The central shaft 5 and the hemisphere 3 of the hemispherical bearing 10 formed in the upper side of the groove can be inserted therein and are smaller than the diameter of the bush 2 to support the bush 2 with its upper side. It is formed as a moving groove 61, the adjustment groove 62 is formed in the lower side and the opening is opened to the outside and the control shaft hole 63 is provided with a smaller diameter than the moving groove 61 and the adjustment groove 62 to communicate therebetween. do. As the adjusting shaft hole 63 is provided, locking jaws 61a and 62a are formed at both sides of the moving groove 61 and the adjusting groove 62.

The adjusting member 40 is inserted into the control space 60 provided as described above, and the central shaft 5 and the hemisphere 3 of the hemisphere bearing 10 are inserted into the entrance of the movable groove 61. The lower side of the central axis 5 and the hemisphere 3 is provided with an adjusting member 40 for moving it upward.

The adjusting member 40 is inserted into the adjusting shaft hole 63 and is provided at the upper end of the adjusting shaft 40 and the adjusting shaft 40 to move up and down, and the central shaft 5 and the bush 2 in the moving groove 61. It is configured as a bolt 44 that is coupled to the threaded portion 43 of the control shaft 40 extending to the plate 42 and the adjustment groove 62 to push the) (42) . A compression spring 50 is provided between the valve plate 42 and the locking step 61a formed on the moving groove 61 side. When the compression spring 50 is in a compressed state and the lower bolt 44 is released, the compression spring 50 pushes the upper plate 42 outward.

Meanwhile, the fixing member 30 is coupled to the fastening hole 21 provided on the upper side of the body 20 through the fastener 22. The fixing member 30 is to fix the other end of the hemisphere bearing 10 bush (2), one end of which is supported on the upper side of the body 20 from the upper side, the lower side is open to the inside and the hemisphere bearing 10 is The fixing member hole 31 is inserted and fixed to the other end of the bush 2 and the hemisphere 3 and the central shaft 5 can move outward.

The hemispherical bearing measuring device as described above places the hemisphere bearing 10 on the upper side of the body 20 and couples the fixing member 30 to the body 20 to connect the bush 2 to the body 20 and the fixing member 30. ) In between. 3 is a state in which the plate 42 is moved downward. At this time, the central axis 5 and the hemisphere 3 are moved downward by their own weight so that the hemisphere 3 on the upper side is in the upper hemisphere groove 4. Contact. In this state, the upper height of the central axis 5 is measured using a micrometer or the like.

FIG. 4 is a view showing the plate 42 when the hemisphere 3 and the central axis 5 are moved upward. As shown therein, the compression spring 50 is adjusted by adjusting the bolt 44 of the adjusting device. An elastic restoring force acts on the plate 42 to move the plate 42 upward. At this time, the lower hemisphere 3 moves to a state in contact with the lower hemisphere groove 4, and in this state, the upper height of the central axis 5 is measured. After measuring the height before and after moving the hemisphere 3 and the central axis 5, the clearance of the hemisphere 3 and the hemisphere groove 4 is reduced by subtracting the height before the movement from the height after the movement. Is to be measured. In addition, each clearance of the hemisphere 3 and the hemisphere groove 4 is half of this measured value.

As described in detail above, the measuring device for hemispherical bearings according to the present invention is a device that can facilitate the measurement of the clearance required for maintaining the stiffness of the hemisphere bearings. The cost and time required for the measurement can be reduced, thereby improving the assembly performance of the hemisphere bearings, improving the performance of the hemisphere bearings, and increasing the mass productivity.

Claims (3)

Bush, hemispherical grooves provided in communication with each other in a direction opposite to each other inside the bush, hemispheres inserted into the hemisphere grooves having a predetermined clearance therebetween, a central axis coupled to and fixed in the hemispheres, the hemispheres and the hemispheres In the hemispherical bearing measuring device for measuring between the grooves, Body 20 for supporting the bush (2), a fixing member 30 for fixing the bush (2) to the body 20, formed in the body 20 and the central axis (5) and The hemisphere 3 is provided with an adjusting space 60 provided to move therein, and an adjusting member 40 provided in the adjusting space 60 to move the central axis 5 and the hemisphere 3. Hemispherical bearing measuring device characterized in that the before and after measuring by moving until the contact with the hemisphere groove (4) facing the hemisphere (3) of the adjustment member (40). The method of claim 1, The adjusting space 60 is a moving groove 61 into which the central axis 5 and the hemisphere 3 are inserted, and an adjusting groove 62 provided to be opposed thereto, and the locking jaws 61a and 62a communicate with each other. It consists of a control shaft hole 63 to form a, the control member 40 is the control shaft 40 is inserted into the control shaft hole (63) A compression spring provided at one end of the adjustment shaft 40 and inserted into the adjustment groove 62 and provided between the moving plate 42 and the locking jaw 61a of the moving groove 61. 50), a screw thread 43 provided at the other end of the adjusting shaft 40, and a bolt 44 coupled to the screw thread 43 and supported by the locking jaw 62a of the adjusting groove 62. Hemispherical bearing measuring device, characterized in that. The method of claim 1, The fixing member 30 is inserted into the bush (2) therein and extends to the outside to engage with the body 20, the surface opposite to the hemisphere (3) and the central axis (5) is provided to be opened Hemispherical bearing measuring device characterized in that.