JP2005119850A - Carrying ball unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a carrying ball unit capable of being used upward or downward, easily discharging dust entered inside, and smoothly rotating a main ball. <P>SOLUTION: The carrying ball unit 10 includes a case 12 comprising a receiving member 14 and a cover member 28. A bottom face 16 of a recessed curved surface shape is formed inside the receiving member 14. An annular bottom face 16a with the center of the bottom face 16 as its center is formed in a spherical surface shape with the center of the main ball 20 as its center. Receiving balls 18 are laid in the receiving member 14 on which the main ball 20 is arranged. In the annular bottom face 16a, the receiving ball 18 receives a load from the main ball 20. A plurality of through holes 22 are formed in the vicinity of the center of the bottom face 16, and the dust entered the case 12 is discharged. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a transfer ball unit, and more particularly, to a transfer ball unit that has a main ball that can rotate in any direction, and can produce a conveyor for transferring a transfer object by combining a plurality of balls. .

  FIG. 8 is an illustrative view showing one example of a conventional transfer ball unit. The transfer ball unit 1 includes a receiving member 2 having, for example, a cylindrical outer shape. The bottom surface in the receiving member 2 is formed to be a substantially spherical concave surface. A plurality of receiving balls 3 are spread on the bottom surface of the receiving member 2, and the main ball 4 is disposed thereon. A lid member 5 is attached to the receiving member 2 and is held so that a part of the main ball 4 is exposed at the center of the lid member 5.

  In such a transfer ball unit 1, the main ball 4 can be rotated in any direction by rotating the receiving ball 3. Therefore, if a conveyor is produced by combining a plurality of the ball units 1 for conveyance, it is possible to provide a conveyor that can convey a conveyance object not only in one direction but also in all directions.

  In addition, since the conveying ball unit 1 supports the main ball 4 with the receiving ball 3 near the center of the bottom surface of the receiving member 2, the main ball 4 is used, for example, when used for a caster of a carriage. When used downward, the receiving ball 3 moves to the lid member 5 side, and the receiving ball 3 does not exist near the center of the bottom surface of the receiving member 2, so that the main ball 4 is displaced in the direction of the receiving member 2, The main ball 4 is difficult to rotate. Therefore, as shown in FIG. 9, a conveying ball unit 7 having a ball receiving portion 6 that receives the receiving ball 3 on the bottom surface side of the receiving member 2 is used as a downward conveying ball unit. In the transfer ball unit 7, the receiving ball 3 can move from the periphery of the ball receiving portion 6 to the upper surface side. Then, by the rotation of the main ball 4, the receiving ball 3 moves from the one side end portion of the ball receiving portion 6 to the upper surface side, and the receiving ball 3 is supplied from the upper surface side of the ball receiving portion 6 to the other end portion. In this way, the main ball 4 rotates smoothly as the receiving ball 3 moves.

  In such transfer ball units 1 and 7, if dust or the like enters the receiving member 2, the rotation of the main ball 4 is hindered. Therefore, as shown in FIG. 10, there is a transfer ball unit 1 in which through holes 8 are formed in the center and side portions of the bottom surface of the receiving member 2 to discharge dust and the like that have entered the receiving member 2. By forming such a through-hole 8, dust is not accumulated in the receiving member 2, and smooth rotation of the main ball 4 can be maintained for a long time (see, for example, Patent Document 1).

JP 2001-140873 A

  However, in the transfer ball unit as shown in FIG. 10, since the receiving ball supports the main ball in the vicinity of the center of the bottom surface of the receiving member, the receiving ball is inserted into the through hole formed in the center of the bottom surface of the receiving member. When the ball is inserted and the receiving ball is lowered, the position of the main ball is also lowered. Therefore, the main ball moves up and down as the main ball rotates. Further, when the receiving ball is fitted into the through hole, the rotation of the receiving ball is hindered, so that the main ball is also prevented from rotating. In order to prevent such inconvenience, it is necessary to reduce the diameter of the through hole so that the receiving ball does not fit into the through hole. In this case, the function of discharging the dust that has entered the inside is hindered. It is done. Further, the downward conveying ball unit as shown in FIG. 9 does not have a structure for discharging the dust that has entered the interior, and if the dust accumulates on the upper surface side of the ball receiving portion, the receiving ball moves. This hinders the main ball from rotating.

  Therefore, the main object of the present invention is that it can be used both upward and downward, the dust that has entered inside can be easily discharged, and the main ball can be rotated smoothly. Is to provide a ball unit.

The present invention relates to a receiving member having a concave curved bottom surface, a plurality of receiving balls disposed on the bottom surface in the receiving member, a main ball disposed on the plurality of receiving balls, A lid member attached to the receiving member to hold the main ball so that a part of the main ball is exposed, and an annular bottom surface portion centering on the central portion of the bottom surface of the receiving member is centered on the central portion of the main ball The receiving ball receives a load from the main ball at the annular bottom surface portion, and a through hole is formed near the center of the bottom surface of the receiving member and at least one of the lid members. The transfer ball unit.
In such a transfer ball unit, a plurality of through holes can be formed in the vicinity of the center of the bottom surface of the receiving member.
Further, a plurality of arc-shaped through holes may be formed in the lid member around the exposed portion of the main ball.

Since the receiving ball receives a load from the main ball at the annular bottom surface portion centered on the center of the bottom surface of the receiving member, it is not necessary for the receiving ball and the main ball to contact in the vicinity of the center of the bottom surface of the case. . Therefore, even if the receiving ball moves up and down or becomes difficult to rotate in the vicinity of the bottom center portion of the receiving member, there is no effect on the operation of the main ball, and there are many in the vicinity of the bottom central portion of the receiving member. A through hole can be formed. Therefore, it is possible to form a plurality of through holes in the vicinity of the center of the bottom surface of the receiving member, to discharge the dust that has entered the receiving member, and to smoothly rotate the main ball.
In addition, since the receiving ball receives a load from the main ball at the annular bottom surface portion centering on the center of the bottom surface of the receiving member, if the receiving ball exists on the annular bottom surface portion, the receiving ball is received near the center of the bottom surface. The ball need not be present. Therefore, even if the receiving ball unit is used downward and the receiving ball moves toward the lid member, the conveying ball unit can be used as long as the receiving ball is on the annular bottom surface portion. At this time, dust that has entered the inside can be discharged by forming a through hole in the lid member. If an arc-shaped through hole is formed in the lid member as such a through hole, the through hole can be made large enough to discharge dust.

  According to the present invention, the receiving ball unit receives the load of the main ball on the annular bottom surface portion centered on the center of the bottom surface of the receiving member, so that the conveying ball unit can be oriented in either the upper or lower direction. Can be used. Moreover, by setting it as such a structure, a some through-hole can be formed in the bottom face center part vicinity of a receiving member, and the dust which entered inside can be discharged | emitted reliably. Further, when the transfer ball unit is used downward, the dust that has entered inside can be discharged by forming the through hole in the lid member.

  The above object, other objects, features, and advantages of the present invention will become more apparent from the following description of the best mode for carrying out the invention with reference to the drawings.

  FIG. 1 is a perspective view showing an example of a transfer ball unit according to the present invention, and FIG. 2 is a sectional view thereof. The transfer ball unit 10 includes a case 12 having, for example, a cylindrical outer diameter. The case 12 includes a receiving member 14, and a bottom surface portion 16 having a substantially spherical concave surface is formed on the inner surface thereof. A plurality of small-diameter receiving balls 18 are spread on the bottom surface portion 16 of the receiving member 14, and a large-diameter main ball 20 is disposed thereon.

  In the bottom surface portion 16 of the receiving member 14, an annular bottom surface portion 16 a centering on the center portion of the bottom surface portion 16 is formed in a spherical shape centering on the center portion of the main ball 20. The diameter of the spherical surface is formed to be the sum of the radius of the main ball 20 and the diameter of the receiving ball 18. The annular bottom surface portion 16a is formed such that an angle at the center portion of the main ball 20 is in a range of, for example, 30 ° to 60 ° with respect to a line connecting the center portion of the main ball 20 and the center portion of the bottom surface portion 16. The With respect to the annular bottom surface portion 16a, the center portion side 16b and the opening portion side 16c of the bottom surface are formed to have a curved surface having a larger curvature than the spherical surface centered on the central portion of the main ball 20. Accordingly, the receiving ball 18 receives a load from the main ball 20 at the annular bottom surface portion 16a, and the receiving ball 18 and the main ball 20 are separated from each other at the center portion side 16b and the opening portion side 16c of the bottom surface. Become.

  A plurality of through holes 22 are formed near the center of the bottom surface portion 16 of the receiving member 14. The diameter of each through hole 22 is formed to be smaller than the diameter of the receiving ball 18. As shown in FIG. 3, for example, a circular recess 24 is formed in the center of the bottom surface on the outer surface side of the receiving member 14, and a through hole 22 is formed toward the recess 24. Further, a step portion 26 is formed on the outer peripheral portion of the bottom surface on the outer surface side of the receiving member 14.

  A lid member 28 constituting the case 12 is attached on the receiving member 14. In the lid member 28, a wall portion 28 a is formed along the outer peripheral surface of the receiving member 14, and an annular top surface portion 28 b is formed from the wall portion 28 a toward the main ball 20. A part of the main ball 20 is exposed from the opening inside the top surface part 28b, and the main ball 20 is held so that a part projects on the top surface part 28b. A step portion 28 c is formed on the inner surface of the wall portion 28 a, and this step portion 28 c is placed on the upper end portion of the receiving member 14.

  Furthermore, a groove 30 is formed so as to go around the inner peripheral surface of the lid member 28 at a position corresponding to the stepped portion 26 of the receiving member 14. Further, an annular flange portion 32 is formed on the lower end portion of the wall portion 28a of the lid member 28 toward the outside. A plurality of holes 34 for passing bolts and the like are formed in the flange portion 32. The lid member 28 is placed on the receiving member 14, and the stepped portion 28 c is placed on the upper end portion of the receiving member 14. Accordingly, the groove 30 of the lid member 28 is disposed at the position of the step portion 26 of the receiving member 14. In this state, by fitting the snap ring 36 into the groove 30, the receiving member 14 and the lid member 28 are integrated, and the case 12 is formed.

  The transfer ball unit 10 is used for a conveyor, for example. In this case, a plurality of transfer ball units 10 are arranged side by side. And a conveyed product is mounted on the main ball | bowl 20 of the some ball unit 10 for conveyance. In this state, by pushing the conveyed product in either direction, the main ball 20 rotates and the conveyed product can be conveyed with a small force. At this time, when the receiving ball 18 rotates, the main ball 20 rotates smoothly. As the main ball 20 rotates, the receiving ball 18 moves in the direction of rotation of the main ball 20 as shown in FIG. Thereby, on one side of the main ball 20, the receiving ball 18 rises toward the top surface portion 28b side, and on the other side, the receiving ball 18 falls toward the through hole 22 side. Then, the receiving ball 18 rising on one side of the main ball 20 passes between the wall portion 28 a and the main ball 20 and moves to the other side of the main ball 20. In this way, the receiving ball 18 circulates in a constant flow by the rotation of the main ball 20 and works so as to keep the rotation of the main ball 20.

  In general, when the transfer ball unit is used in a place where there is a lot of dust, the dust enters the case 12 and hinders the movement of the receiving ball 18 so that the main ball 20 is difficult to rotate. However, in this transfer ball unit 10, the through hole 22 is formed at the center of the bottom surface of the receiving member 14, so that dust that has entered the case 12 is discharged to the outside through the through hole 22. In particular, in the transfer ball unit 10, the main ball 20 is supported by the receiving ball 18 at the annular bottom surface portion 16 a, so that the main ball 20 is separated from the receiving ball 18 at the center side 16 b of the bottom surface portion. It is in the state. Therefore, even if the receiving ball 18 is displaced downward in the through-hole 22 portion and becomes difficult to rotate, the rotation of the main ball 20 is not affected. Therefore, a plurality of through holes 22 can be formed in the receiving member 14, and the dust that has entered the case 12 can be effectively discharged.

  Further, in this transfer ball unit 10, since the receiving ball 18 supports the main ball 20 at the annular bottom surface portion 16a of the receiving member 14, the conventional transfer in which the receiving ball supports the main ball at the center of the bottom surface. As compared with the ball unit for the ball, the load borne by each receiving ball 18 is reduced, and the main ball 20 can be smoothly rotated. Therefore, the conveyed product placed on the conveying ball unit 10 can be moved with a small force.

  Further, the transfer ball unit 10 can be used as, for example, a cart caster with the main ball 20 facing downward. In this case, the conveying ball unit 10 may be attached to a carriage or the like through a bolt through the hole 34 formed in the flange portion 32, but as shown in FIG. A male screw portion 40 may be formed. As shown in FIG. 6, in the transfer ball unit 10, no through hole is formed in the receiving member 14. Further, no step portion is formed at the outer peripheral side end portion of the receiving member 14.

  In this transfer ball unit 10, a stepped portion 42 is formed on the outer peripheral surface of the receiving member 14, and the outer diameter on the opening side of the receiving member 14 is reduced. A groove 44 is formed on the outer peripheral surface of the receiving member 14 on the opening side of the receiving member 14. The structure of the annular bottom surface portion 16a, the center portion side 16b of the bottom surface portion, and the opening portion side 16c in the receiving member 14 is the same as that of the transfer ball unit 10 shown in FIG.

  The lid member 28 is formed so as to cover the outer surface side of the receiving member 14, and an end portion thereof is attached to the stepped portion 42. In this state, a groove 46 is formed on the inner peripheral surface of the lid member 28 at a position corresponding to the groove 44 formed in the receiving member 14. By fitting the fixing ring 48 between the grooves 44 and 46, the receiving member 14 and the lid member 28 are fixed, and the case 12 is formed. In the downward conveying ball unit 10, a through hole 50 is formed in the lid member 28. As shown in FIG. 7, the through holes 50 are formed in an arc shape at a plurality of locations on the top surface portion 28 b around the main ball 20.

  In this transfer ball unit 10, when used downward, the receiving ball 18 moves to the lid member 28 side, and the receiving ball 18 does not exist on the center side 16 b of the bottom surface. However, since the main ball 20 is supported by the receiving ball 18 at the annular bottom surface portion 16a, it can be used in the same manner as when it is used upward. The conveying ball unit 10 used downward is often used in a dusty place such as a floor, but the dust that has entered the case 12 is discharged from a through hole 50 formed in the lid member 28. . Therefore, the main ball 20 can be smoothly rotated without the rotation of the main ball 20 being hindered by the dust that has entered the case 12.

  5 is formed with a male screw portion 40 for use downward, but the transfer ball unit 10 having the flange portion 32 as shown in FIG. It can be used as a transfer ball unit. In the transfer ball unit 10 shown in FIG. 1, the through hole 50 is not formed in the lid member 28, but when used for downward use, the through hole 50 is formed in the lid member 28.

  In addition, if the through-hole 22 is formed in the receiving member 14 and the through-hole 50 is formed in the cover member 28, it can be set as the conveyance ball unit which can be used for both upward and downward. However, as a structure in which dust does not easily enter, it is preferable that the upward conveying ball unit 10 and the downward conveying ball unit 10 individually form through holes.

  Thus, by supporting the main ball 20 with the receiving ball 18 on the annular bottom surface portion 16a of the receiving member 14, the transfer ball unit 10 can be used both upward and downward. Further, by supporting the main ball 20 with the receiving ball 18 at the annular bottom surface portion 16a of the receiving member 14, a plurality of through holes 22 can be formed in the vicinity of the center portion of the bottom surface, effectively discharging dust. can do. Further, when the transfer ball unit 10 is used downward, dust can be discharged by forming the through hole 50 in the lid member 28. At this time, dust can be effectively discharged by forming a large arc-shaped through-hole 50 in the lid member 28.

It is a perspective view which shows an example of the ball unit for conveyance of this invention. FIG. 2 is an illustrative sectional view of the transfer ball unit shown in FIG. 1. It is the top view seen from the receiving member side of the ball unit for conveyance shown in FIG. It is an illustration figure for demonstrating a motion of a receiving ball when using the ball unit for conveyance shown in FIG. It is a top view which shows the other example of the ball unit for conveyance of this invention. It is an illustration figure which shows the inside of the ball unit for conveyance shown in FIG. It is the top view which looked at the ball unit for conveyance shown in FIG. 5 from the cover member side. It is an illustration figure which shows an example of the conventional conveyance ball unit. It is an illustration figure which shows an example of the conventional downward conveying ball unit. It is an illustration figure which shows the conventional ball unit for conveyance in which the through-hole for discharging dust was formed.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Transfer ball unit 12 Case 14 Receiving member 16 Bottom face part 16a Toroidal bottom face part 18 Receiving ball 20 Main ball 28 Cover member 22 Through hole 50 Through hole

Claims (3)

A receiving member having a concave curved bottom surface,
A plurality of receiving balls disposed on the bottom surface in the receiving member;
A main ball disposed on the plurality of receiving balls, and a lid member attached to the receiving member to hold the main ball such that a part of the main ball is exposed,
The annular bottom surface portion centered on the bottom center portion of the receiving member is formed to be a spherical surface centered on the center portion of the main ball, whereby the receiving ball is formed on the annular bottom surface portion. To receive the load from the main ball,
A transfer ball unit in which a through hole is formed in the vicinity of the center of the bottom surface of the receiving member and at least one of the lid member.   The transfer ball unit according to claim 1, wherein a plurality of the through holes are formed in the vicinity of the center of the bottom surface of the receiving member.   The transfer ball unit according to claim 1, wherein a plurality of arc-shaped through holes are formed in the lid member around an exposed portion of the main ball.

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