JP2000211307A - Rotary-type caster - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a caster structure permitting depression of an impact noise generated in rotation of a rotary-type caster and stable running. SOLUTION: A rotary type caster 1 comprises a spherical wheel 6 mounted rotatably by way of a horizontal shaft 9 on a yoke 3 suspended rotatably in horizontal on a fixed bearing 2. The spherical wheel 6 comprises a disk base member 7 and a pair of hemispherical wheels 8, 8 provided on both faces of the disk member 7 opposed with each other. Axes of rotation are located on the both end faces of a horizontal line passing through the center of a front face of the disk base member 7 having a slightly smaller radius than that of the hemispherical wheels 8, 8. Furthermore, auxiliary wheels 10, 10 are mounted at the both ends of a vertical line passing through the center of the front face of the disk base member 7. Auxiliary wheel shafts 12, 12 are located crosswise with respect to the axes of rotation so that the circumference of the auxiliary wheel 10 becomes coplanar with the circumference on a flat surface side of the hemispherical wheel 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary caster, and more particularly to a rotary caster in which a sub-wheel rotating in the axial direction of a ball ring is disposed on a disk base material of the ball ring.

[0002]

2. Description of the Related Art Conventionally, a rotary caster has a basic structure, as disclosed in, for example, Japanese Patent Publication No. 7-71882. A ball wheel is rotatably mounted via a horizontal rotating shaft. The ball ring has a hemispherical ring on both sides of a disk base material that is supported by the yoke, and a ball ring shaft disposed at the center of the circle is supported by a bearing of the disk base material. And the hemispherical ring can be rotated.

[0003]

In the conventional rotary caster having the above-described structure, the hemispherical ring rotatably supported by the disk base member is rotated by grounding, so that the diameter of the disk base member is hemispherical. It is set slightly smaller than the diameter of the wheel. As a result, when the ball ring rotates around the horizontal rotation axis of the disk base material, there was a drawback that rattling and impact noise were generated due to the difference in diameter between the disk base material and the semi-spherical ring. . Also, since the ball wheel has a small ground contact surface, the yoke is deflected even by a slight change in force to cause unnecessary turning, and as a result, the bogie laterally shakes and sometimes floats up. . The present invention has been developed for the purpose of providing a rotary caster that does not generate the impact noise and does not generate unnecessary lateral shake.

[0004]

According to the present invention, in order to solve the above-mentioned problems, in the invention according to claim 1, a ball ring is provided via a horizontal rotating shaft to a yoke vertically suspended on a fixed bearing so as to be rotatable horizontally. In a rotatable caster constructed of a pair of hemispherical rings that are rotatably mounted and have a ball ring arranged on both sides of the disk base material in opposition to each other, pass through the front center of the disk base material having a diameter slightly smaller than the radius of the hemisphere ring. While arranging the rotation axis on both ends on the horizontal line,
Secondary wheels are provided at both ends of the perpendicular line passing through the center of the front of the disk base material,
Technical measures are taken such that the auxiliary wheel shaft is positioned orthogonal to the rotation axis, and the peripheral surface of the auxiliary wheel is disposed so as to be flush with the circumferential surface on the flat side of the hemispherical wheel.

According to the second aspect of the present invention, there is provided a technical means in which the rotating shaft is inserted from outside into a bearing of the yoke, and an end of the rotating shaft is screwed into a shaft hole of the disk base material. Have taken.

According to the third aspect of the present invention, the disk base material is formed by penetrating a sub-wheel hole in the sub-wheel disposition portion, and disposing a pair of bearing bodies so as to cover both side surfaces of the sub-wheel hole. In addition, a technical means of erection of the auxiliary wheel shaft between the two bearing bodies is taken.

Further, according to the invention of claim 4, the pair of hemispherical rings each have a ball ring shaft protruding at a center portion on the plane side, and one of the ball ring shafts is fitted and fixed in a bearing inner hole of a disk base material. And the other end of which has an engaging portion, and the other ball wheel shaft has a fitting hole formed on the distal end face, and the fitting hole is configured to be externally fitted to the engaging portion. I'm taking it.

As described above, since the ball ring also rotates a pair of hemispherical rings supported by the disk base material, when the two hemispherical rings rotate, the intermediate disk base material does not touch the ground. , The radius of which is slightly smaller than the radius of the hemispherical ring. Therefore, hitherto, a rattling and impact sound were generated due to a step caused by a difference in radius between the disk base material and the hemispherical ring at the time of rotation, but in the present invention, on a vertical line passing through the center of the disk base material. Since the sub wheels are arranged and the steps are eliminated, impact noise is less likely to occur.

Since the sub-wheel rotates in the direction along the disk surface of the disk substrate, when both hemisphere wheels rotate along the disk substrate, the sub-wheel also rotates. Further, when an oblique force is applied to the rotation direction of the sub wheel, the rotation of the ball wheel stops because the peripheral surface of the sub wheel is not spherical, so that unnecessary turning is caused. Lateral blur is prevented. When a further force is applied, the yoke eccentrically rotates about the fixed shaft, and the bogie easily moves in a direction where the force is applied.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a rotary caster according to the present invention will be described below with reference to the drawings.
The rotary caster 1 shown in FIGS. 1 and 2 has a fixed bearing 2 fixed to a bogie (not shown),
The yoke 3 which is vertically supported is disposed rotatably in the horizontal direction.

Reference numeral 2A denotes a bearing, 2B denotes a bearing pressing plate, and 2C denotes a screw hole. The yoke 3 has fitting portions 3C, 3C formed on side surfaces of hanging portions 3B, 3B vertically provided at both ends of the horizontal base portion 3A, and bearings 5, 5 are fitted to the fitting portions 3C, 3C. Has been established. Reference numeral 5A is a bearing, and 5B is a bearing cover plate. A ball wheel 6 is rotatably mounted on the two bearings 5.5 by rotating shafts 9 and 9. The rotating shafts 9, 9 are disposed eccentrically rearward from the rotation center line of the yoke 3.

The ball ring 6 is, as shown in FIG.
A substantially hemispherical hemispherical ring 8, 8 is formed on both front and rear surfaces of the disk base member 7 so as to form a spherical shape by connecting the flat sides 8A, 8A thereof in opposition. In the front surface shown in FIG. 2, the disk base member 7 has a bearing portion 7A formed of a bearing at a center portion thereof, and has shaft holes 7B and 7B at right and left end surfaces on a horizontal line passing through the center of the front surface.
7B is formed in a screw hole shape deeper toward the center.

At the upper and lower edges of a vertical line passing through the center of the front surface, substantially circular sub-wheel holes 7C, 7C are formed penetrating front and rear, and the sub-wheels 10, 10 are formed in the sub-wheel holes 7C, 7C. Is arranged,
The sub wheels 10, 10 are rotatably supported by the front and rear bearings 11, 11 via the sub wheel shaft 12, with the front and rear bearings 11, 11 covering the sub wheel holes 7C, 7C. The radius of the disk base 7 is formed, for example, about 1 mm smaller than the radius of the hemispherical rings 8, 8, and the sub-wheels 10, 10 protrude from the peripheral surface of the disk base 7, and the peripheral surface is a hemispherical ring. 8, 8 are set flush with the peripheral surface on the plane side 8A.

Each of the hemispheric rings 8, 8 is set to have a size obtained by dividing a sphere into half and removing each half of the thickness of the disk base material 7 from the plane side of the hemisphere. The plane side 8A is hollowed out in a bowl shape, and ball ring shafts 13, 13 are formed in the center portion so as to protrude in the ball center direction. One ball wheel axis 13 is the plane side 8A
A portion ahead of the end face portion is internally fitted and fixed in a bearing inner hole of the bearing portion 7A of the disk base material 7, and the tip portion is formed as an engagement portion 13A protruding outside the bearing.

The other ball wheel shaft 13 has its front end face on the flat side 8.
A end face is formed flush with the end face,
A fitting hole 13B capable of fitting 3A is formed. A key groove 13C is formed in the fitting hole 13B,
On the peripheral surface of the engagement portion 13A, a key protrusion 13D is formed so as to be engaged with the key groove 13C. Thus, the engaging portion 1
3A is fitted in the fitting hole 13B, and the key projection 13D is engaged with the key groove 13C to be fixed and integrally formed.

The ball ring 6 constructed as described above is disposed between the bearings 5 and 5 of the yoke 3, and the rotating shafts 9 and 5 are inserted from the outside of the bearings 5 and 5 into the bearing 5A and the inner hole of the bearing 5A. The ball ring 6 is rotatably supported by screwing the male screw portion 9 at the shaft holes 7B, 7B of the disk base material 7.

The above-mentioned rotary caster 1 has the following operation when it is arranged below a cart such as a shopping cart in the same manner as a normal caster. In FIG. 1, when the bogie moves to the right, the rotating shafts 9, 9 of the ball ring 6 move behind the axis of the fixed shaft 4 of the yoke 3, and move. The spherical ring 6 rotating about the center 9 has a step between the surfaces of the hemispherical rings 8 and 8 and the peripheral surface of the disk base material 7 because the peripheral surface of the auxiliary wheels 10 and 10 compensates for the step. Unlike the conventional product, no rattling noise is generated during movement of the bogie.

When moving to the left or right in the state shown in FIG. 2, the hemispherical wheels 8, 8 rotate around the rotating shafts 9, 9, and the sub-wheel which is in contact with the ground. 10 rotates around the auxiliary wheel shaft 12.

In the state shown in FIG. 2, when an oblique force is applied to the rotation direction of the auxiliary wheel, the peripheral surface of the auxiliary wheel is not spherical.
The rotation is stopped, and unnecessary turning and lateral displacement of the bogie resulting from the turning can be prevented.

The present invention is not limited to the above embodiment, and the design can be changed as appropriate according to the application. For example, the bearing 2A of the fixed bearing 2 in FIG.
A rubber dust cap can be fitted on top.
A dust cover may be attached to the entire yoke 3. Further, the molding material of the ball ring 6 is arbitrary such as metal and synthetic resin. The rotating shaft and the auxiliary wheel shaft can be formed of ceramic. For connection of the ball wheel axle, an appropriate means such as adhesion and press fitting can be used.

[0021]

The present invention constructed as described above has the following excellent effects. In the ball ring, the sub-wheels are arranged at the upper and lower edges on a perpendicular passing through the center of the small-diameter disk base material, and its peripheral surface is set flush with the plane-side peripheral surface of the hemispherical ring. The step between the disk base material and the hemispherical ring is eliminated on the contact surface of the ball ring that rotates about the rotation axis, and it is difficult to generate an impact sound. Since the auxiliary wheel has the auxiliary wheel axis arranged in parallel with the ball wheel axis of the hemispherical wheel, the rotation of the hemispherical wheel also causes the rotation of the auxiliary wheel and does not hinder the rotation of the entire ball wheel. Further, even if a force is applied obliquely to the rotation direction of the sub wheel, the rotation of the ball wheel stops because the peripheral surface of the sub wheel is not spherical. For this reason, unnecessary rotation of the yoke and the accompanying lateral shake of the bogie are eliminated. The auxiliary wheel can be easily attached to the existing disk base material, and the performance of the existing caster can be improved. Further, the auxiliary wheel is a small molded product, which is advantageous in that the cost burden is small compared to the performance improvement.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional side view of an embodiment of a rotary caster according to the present invention.

FIG. 2 is a vertical sectional front view of the rotary caster.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Rotary caster 2 Fixed bearing 2A bearing 2B Bearing press plate 2C Screw hole 3 Yoke 3A Base 3B Vertical part 3C Fitting part 4 Fixed shaft 5 Bearing 6 Ball ring 7 Disk base material 7A Bearing part 7B Shaft hole 7C Secondary wheel hole 8 Hemispherical ring 8A Flat surface side 9 Rotating shaft 10 Secondary wheel 11 Bearing body 12 Secondary wheel shaft 13 Ball wheel shaft 13A Engaging portion 13B Fitting hole

Claims (4)

[Claims] 1. A ball ring is rotatably mounted via a horizontal rotation shaft on a yoke vertically suspended on a fixed bearing so as to be rotatable horizontally.
In a rotating caster composed of a pair of hemispherical rings in which a ball ring is arranged opposite to both sides of a disk base material, the two ends of a horizontal line passing through the center of the front of the disk base material slightly smaller than the radius of the hemisphere ring Along with the rotation axis, sub wheels are provided at both ends on a vertical line passing through the center of the front of the disk base material.
A rotary caster, wherein the auxiliary wheel shaft is positioned orthogonal to the rotation axis, and the peripheral surface of the auxiliary wheel is disposed so as to be flush with the circumferential surface on the flat side of the hemispherical wheel. 2. The rotating shaft according to claim 1, wherein the rotating shaft is inserted from outside into a bearing of the yoke, and an end of the rotating shaft is screwed into a shaft hole of the disk base material. Rotary caster. 3. The disk base material has a pair of bearings formed so as to penetrate a sub-ring hole in a sub-ring disposing portion, and covers a pair of bearings so as to cover both side surfaces of the sub-ring hole. The rotary caster according to claim 1, wherein a sub-wheel axle is provided between the casters. 4. A pair of hemispherical rings, each of which has a ball ring shaft protruding at a center portion on a plane side, and one of the ball ring shafts is internally fitted and fixed in a bearing bearing inner hole of a disk base material, and a tip end portion thereof is engaged. The other ball wheel shaft is formed so that a fitting hole is formed in the tip end surface, and the fitting hole is externally fitted and fixed to the engaging portion. The rotary caster described in.