JP4171865B2 - Ball row assembly equipment for double row ball bearings - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a device for assembling by inserting a specified number of balls into the upper groove (the upper ball raceway groove between the inner and outer rings) of the double row ball bearing, in particular, the upper ball support for supporting the upper ball row of the bearing from below. The present invention relates to a ball assembly apparatus for a double row ball bearing that enables a jig to be smoothly removed from the bearing after completion of ball insertion, thereby enabling stable automatic assembly.
[0002]
[Prior art]
Conventionally, as an assembly apparatus for this type of double row ball bearing, for example, an assembly apparatus for a double row ball bearing described in Japanese Patent Publication No. 1-161616 or a composite apparatus described in Japanese Patent Publication No. 7-96176 2. Description of the Related Art An assembly device for a ball bearing and a ball stuffing jig structure are known. Both of these hold a pair of bearing inner and outer rings on a holding stand in a standing state (with their central axis vertical), and place a prescribed number of balls in the ball raceway grooves on the lower row side between the inner and outer rings. After insertion, insert the crescent-shaped ball support connected to the vertical arm from the upper side between the upper and lower grooves between the inner and outer rings, that is, below the upper row raceway groove. The upper ball is inserted along the upper edge of the support portion, and then the inner and outer rings are moved relative to each other in the radial direction so that their centers coincide with each other, and the ball support portion is turned to the unoccupied portion of the upper ball. It is configured to be moved and extracted upward. Here, when the upper ball is inserted, the arc-shaped region between the inner and outer rings occupied by the upper ball is referred to as an occupied portion of the upper ball, and the other portion is referred to as a non-occupied portion. If the number of balls is large and the circumferential length of the crescent-shaped ball support is longer than the non-occupied portion of the ball, the ball support is divided into two symmetrically, and a vertical arm is connected to each end. The pair of ball support portions are individually pivoted to the unoccupied portion and extracted (Japanese Patent Publication No. 7-96176).
[0003]
[Problems to be solved by the invention]
As described above, these double row ball bearing ball assembling devices are aligned from the state in which the inner and outer rings are radially displaced from the state in which the inner and outer rings are radially displaced after the upper ball is packed. The ball support part is swung to the non-occupied part of the ball and extracted, but the ball support part supporting the ball on the upper row side from the bottom is taken up to the space area required to extract upward. When turning, the upper ball may be moved by the ball support portion and enter the unoccupied portion. After the inner and outer rings are aligned, the balls are restrained in the grooves of the inner and outer rings so that they do not come out upward. Therefore, even a small number of the balls move and the ball support portion moves upward. When entering the space area necessary for extraction, the ball support portion interferes with the upper ball and cannot be lifted upward from between the inner and outer rings, and when trying to forcibly remove it, the ball support portion or its connecting arm There are dangers such as breakage and damage to the balls and raceway grooves, and this has been a problem in the automated assembly of this type of double row ball bearings.
[0004]
The present invention solves the problem of ball movement when the ball support portion of the upper ball support jig is swung to the non-occupied portion of the ball, and eliminates the damage of the upper ball support jig and enables stable automated assembly. It is an object of the present invention to provide a ball tray assembly device for a double row ball bearing that enables the above.
[0005]
[Means for Solving the Problems]
According to the present invention, one or a pair of upper ball support jigs that turn and move up and down is inserted between the inner and outer ring positions between the upper and lower ball rows of the double row ball bearing, In a ball assembly apparatus for a double row ball bearing in which the upper ball support jig is removed from the non-occupied portion of the upper ball in a state where the inner and outer rings of the bearing are aligned, There is provided a ball holder assembling apparatus provided with ball movement preventing means for preventing movement of the upper ball to the unoccupied part side accompanying the turning movement to the unoccupied part side in the unoccupied part. As the ball movement prevention means, a receiving member such as a ball movement prevention pin, or a nozzle device that prevents movement of the ball by jet fluid pressure is provided together with the receiving member, and in some cases, the nozzle movement prevention means includes the nozzle Only equipment is provided.
[0006]
[Action]
A ball assembly assembly apparatus for a double row ball bearing according to the present invention includes a bearing support mechanism for holding a bearing inner and outer rings so that a central axis thereof is vertical and relatively moving the inner and outer rings from a relative eccentric state to a concentric state, and the inner and outer rings. A crescent-shaped lower projection that supports the ball from the lower side in order to incorporate the lower row ball in an eccentric state, and inserted between the inner and outer rings to incorporate the upper row ball, and the ball is inserted into the upper raceway groove. A crescent-shaped upper ball support portion that can be swiveled and moved up and down supported on the lower side, a connecting arm that extends upward from the support portion, and a ball that can be inserted and removed between the inner and outer rings and prevents the movement of the balls on the upper row side , Ball movement preventing means including at least one of a receiving member and a nozzle device, a ball leveling device that prevents the upper row side balls from popping out when the balls are inserted and the inner and outer rings of the bearing are moved relative to each other in a concentric state, and a ball supply unit Because it is configured with Inserting balls into the upper and lower grooves in the eccentric state of the bearing inner and outer rings, and moving the inner and outer rings relative to each other in a concentric state, the non-occupied balls on the opposite side in the circumferential direction are inserted between the upper and lower rows of balls. When the ball is swung to the part, the upper row side ball is prevented from moving by the ball movement preventing means and does not enter the non-occupied portion of the ball, and the ball support portion does not interfere with the upper row side ball. Can be removed.
[0007]
Before Symbol receiving member is adapted to and from between the inner and outer rings in any mechanism. The ball support portion is not limited to an integral type, and may be divided into two.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Next, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a plan view of a state in which upper row balls are supported by a ball support portion of an upper ball support jig using a ball holder assembly device for a double row ball bearing according to one embodiment of the present invention. 2 is a front cross-sectional view of a main part of the ball assembly apparatus in the embodiment shown in FIG. First, referring to FIG. 2, a bearing support mechanism 4 including an inner / outer ring holding base 3 and an outer ring biasing / centering device 6 is provided below the ball supply chute 5. The holding table 3 is placed on a rail of a base (not shown), and the inner ring 2 and the outer ring 1 of the double row ball bearing are held on the upper surface of the holding table 3 in a combined state. In this embodiment, the inner ring 2 is positioned by fitting with a positioning short shaft 3 a formed on the upper surface of the holding table 3, and the outer ring biasing / centering mechanism 6 moves the outer ring 1 to the fixed inner ring 2. It is pushed in the lateral direction and restrained in the radial direction.
[0009]
Further, as will be described later, when the balls 7 and 8 are supplied to the upper and lower grooves 10 and 11, the outer ring 1 is brought to one side with respect to the inner ring 2 by the biasing and centering mechanism 6 of the bearing support mechanism 4. A specified number of balls are charged from the upper ball supply chute 5. As shown in the drawing, a lower ball supporting projection 9 having a crescent-shaped top view that penetrates between the inner and outer rings is provided on the upper surface of the inner / outer ring holding base 3, and the lower ball 8 is supported by the upper ends of the projections 9 It is held at the position of the lower groove 11 between the rings 2 and 1.
[0010]
An actuating member 12 that performs vertical movement and reciprocating rotation around the axis is provided on the substantially coaxial line and above the bearing with respect to the inner ring 2. An upper ball support jig 13 is attached to the lower end of the operating member 12. The upper ball support jig 13 is composed of a crescent-shaped horizontal ball support member 15 as viewed from above and a vertical arm 16 connected to one end of the ball support member 15 and extending upward. It is fixed to the lower end of the actuating member 12. The ball support member 15 is inserted between the inner and outer rings 2 and 1 in the same manner as the lower ball support protrusion 9, but the circumferential length of the ball support member 15 is a specified number in the state of FIGS. 1 and 2. It has a length that can support all the balls 7 on the upper row side and is shorter than the circumferential length of the non-occupied portion of the balls 7 on the upper row side when aligning the inner and outer rings 2, 1 described later. Is done.
[0011]
Adjacent to the upper ball support jig 13, a ball leveling device 17 for preventing the ball 7 supplied between the inner and outer rings 2 and 1 from jumping out is provided in a vertical movement mechanism (not shown) so as to be movable up and down. Similarly, on the lower surface of the ball leveling device 17, a crescent-shaped ball leveling projection 18 is formed which enters between the inner and outer rings 2, 1 after supplying the ball and presses the upper row side ball 7 from above.
[0012]
1 and 2, the ball leveling device 17 is provided with a ball movement prevention pin 19 (ball movement prevention means) as a receiving member bent downward in an L shape. When the ball leveling device 17 is lowered and the ball movement prevention pin 19 is inserted between the inner and outer rings 2 and 1, the lower end of the pin is moved along with the turning of the ball support jig 13 and is not occupied. This position is a position that engages with the upper ball 7 that is about to enter a portion (described later) and, as shown in FIG. 1, near the end of the prescribed number of upper ball rows that are brought to one side. Is located adjacent to the vertical arm 16 of the upper ball support jig 13. Further, the pin diameter and the pin position are determined so that the vertical arm 16 does not interfere with the ball movement preventing pin 19 when the upper ball support jig 13 turns to an unoccupied portion (described later) of the upper ball 7. If these conditions are satisfied, the shape of the receiving member is not limited to that of the present embodiment, and is not necessarily a pin. Further, even if it interferes with the vertical arm 16, it may be a brush-shaped receiving member that deforms itself and does not prevent the vertical arm 16 from turning and prevents the upper ball 7 from moving.
[0013]
The vertical movement mechanism and the rotational drive mechanism of the actuating member 12 and the vertical movement mechanism of the ball leveling device 17 are not particularly limited, and known mechanisms and driving means may be employed. The structures described in Japanese Patent No. 16616 and Japanese Patent Publication No. 7-96176 are preferably used.
[0014]
After a prescribed number of lower balls 8 are inserted into the lower raceway groove 11 between the inner and outer rings 2 and 1, the upper ball support jig 13 is lowered while the outer ring 1 is biased to one side, and the upper balls The support member 15 is adjacent to the upper raceway groove 10 and enters the lower side thereof (the position indicated by the broken line in FIG. 2), and a predetermined number of balls 7 on the upper row side supplied from the ball supply chute 5 are placed on the support member 15. Supported. Then, the ball leveling device 17 descends and presses the upper surface of the upper row side ball 7, and the pin 19 held by the leveling device 17 is inserted between the inner and outer rings 2 and 1. Thereafter, the outer ring 1 is pushed in the radial direction by the outer ring biasing and centering mechanism 6 so that the centers of the inner and outer rings 2 and 1 are matched. In this state, the upper ball support jig 13 turns around the center of the bearing, and the upper ball support member 15 is brought to the unoccupied portion 20 of the upper ball 7 (the state shown in FIG. 3). It is extracted upward from. When the upper ball support member 15 turns to the non-occupied portion 20, the ball 7 is prevented from moving in the turning direction of the upper ball support member 15 by the ball movement prevention pin 19 at the end of the upper ball row, Further, the ball row end on the opposite side is blocked by the vertical arm 16 of the jig 13 so that the ball 7 does not enter the unoccupied portion 20, and the upper ball support member 15 does not interfere with the ball 7 at all. Extracted. Further, since the ball movement preventing pin 19 is provided, the upper ball 7 is reliably prevented from entering the unoccupied portion 20 even if the inner and outer rings 2, 1 are aligned and the vertical arm 16 is turned at the same time. . The ball movement prevention pin 19 is simultaneously extracted from the inside of the bearing when the upper ball support member 15 is extracted from the inside of the bearing and then the ball leveling device 17 is retracted upward.
[0015]
In the conventional ball assembling apparatus as shown in FIG. 4, since there is no means for regulating the upper row side balls 7 loaded with a specified number in the circumferential direction, the upper ball support member 15 is arranged in the direction of the arrow in FIG. When turning and moving to the unoccupied portion 20 of the ball 7, the upper ball 7 may move along with the support member 15 and enter the unoccupied portion 20, and in this state, the raceway groove between the inner and outer rings 2,1 The support member 15 cannot be pulled upward due to interference with the balls 7 of the unoccupied portion 20 constrained by the above, but according to the present invention, such a situation does not occur.
[0016]
FIG. 5 is a plan view of the same portion as FIG. 1 showing another embodiment of the present invention. In this embodiment, in addition to the ball movement prevention pin 19 that moves up and down together with the ball leveling device 17 (FIG. 2), a fluid ejection nozzle device 21 (ball movement prevention means) is provided in the vicinity of the pin 19 and the upper ball When the support member 15 pivots to the ball non-occupied portion 20, air is jetted from the nozzle device 21 toward the end of the ball row of the upper ball 7, and the ball 7 is not occupied by the jet fluid pressure at this time. Moving to the part 20 is prevented. Also in this case, the nozzle device 21 is arranged so as not to interfere with the vertical arm 16 when the upper ball support member 15 is swung, and the upper device so as not to interfere with the transfer of the ball-packed bearing to the next process. You may make it approach and retract | save with respect to the said bearing interlock | cooperating with a ball | bowl support jig | tool.
[0017]
By using the ball movement prevention pin 19 and the nozzle device 21 together as in the embodiment of FIG. 5, the movement of the ball 7 to the unoccupied portion 20 is further reliably prevented. In some cases, if the movement of the ball can be prevented only by the fluid ejected from the nozzle, the ball movement prevention pin 19 may be omitted, and the movement of the ball 7 may be prevented only by the nozzle device 21. Further, although air is used as the fluid, a gas other than air or a liquid such as oil may be used.
[0018]
FIG. 6 shows a beading device according to still another embodiment of the present invention, and is a plan view of the same portion as FIG. FIG. 7 is a perspective view showing an example of an upper ball support jig applied to the embodiment of FIG. In the embodiment of FIG. 1, when the circumferential length of the unoccupied portion after the ball is inserted into the upper groove is longer than the prescribed number of balls, the upper ball support member 15 is placed between the bearing inner and outer rings 2 and 1. The upper ball support member 15 interferes with both end portions of the ball row and moves upward with respect to the bearing whose circumferential length of the unoccupied portion 20 of the ball 7 is shorter than the prescribed number of balls. I can't pull out. In such a case, as shown in FIG. 7, the upper ball support jig 22 divided into two bodies symmetrically is used. Each of the ball support members 23 and 24 is formed in a crescent shape, and the vertical arms 25 and 26 extend upward from one end of each of the ball support members 23 and 24, and are individually connected to an operation member that moves up and down and rotates. In the state where the ends 23a, 24a of the crescent-shaped ball support members 23, 24 on the opposite side to the positions of the arms 25, 26 are in contact with each other, the upper edges of the ball support members 23, 24 have the prescribed number of balls. Although it is a length that can be covered, the ball support member 23 or 24 on one side alone is positioned so as not to interfere with the ball row in each non-occupied portion of the ball.
[0019]
Therefore, when such split-type ball support members 23, 24 are extracted, after one of the ball support members 23 is first removed from the non-occupied portion of the ball, the other ball support member 24 is moved to the non-occupied portion of the ball. The method of turning and extracting is taken. The turning directions of the ball support members 23 and 24 on both sides are opposite to each other.
[0020]
6 and 7, in order to correspond to the crescent-shaped ball support members 23 and 24 connected to the two vertical arms 25 and 26 that swing and move up and down, the ball movement prevention pins 19 and 27 are respectively balls. The support members 23 and 24 are inserted into the upper raceway grooves in the vicinity of the vertical arms 25 and 26. When these pins 19 and 27 individually turn the ball support members 23 and 24 (in opposite directions), the balls engage with the balls 7 at the end portions of the corresponding ball rows and the balls move to the non-occupied portions. The ball support members 23 and 24 can be safely extracted upward from the unoccupied portion.
[0021]
In this embodiment, the pins 19 and 27 are inserted in the vicinity of the boundary between the occupied part and the non-occupied part of the upper ball 7, but after turning the vertical arms 25 and 26, the ball support members 23 and 24 are rotated. As long as it can be extracted upward, the insertion positions of the pins 19 and 27 may be other positions in the unoccupied portion as long as this condition is satisfied.
[0022]
In the embodiment of FIG. 6 as well, the nozzle device described in FIG. 5 can be made to face the vicinity of both ends in the circumferential direction of the ball non-occupied portion in combination with the pair of ball movement preventing pins 19 and 27. Alternatively, only the nozzle device may be provided, and the movement of the ball may be prevented by the fluid ejection. In any of the embodiments, the receiving member (in the embodiment, the ball movement preventing pins 19 and 27) is not limited to the form connected to the ball leveling device, and is supported by another independent reciprocating mechanism to be a bearing. You may make it go in and out of the inner and outer rings. In this case as well, the receiving member may be configured to operate in conjunction with the turning and up / down movement of the ball support member.
Furthermore, if it is possible to prevent the receiving member from interfering with not only the swivel arm 16 but also the ball support jig 13, for example, the receiving member is erected on the lower ball support jig 9 or the upper surface of the holding table 3. You may make it the structure which can enter / exit.
[0023]
【The invention's effect】
As described above, according to the present invention, a ball movement preventing receiving member (for example, a pin member) or a fluid jet nozzle device provided in the vicinity of the end of the non-occupied portion of the ball, or a structure in which these are combined The ball movement prevention means prevents the ball support portion of the ball support jig from retreating upward from between the inner and outer rings, that is, prevents the upper ball from entering the non-occupied portion of the ball and damages the ball support jig. Therefore, it is possible to safely and reliably remove the bearing from the inside without increasing the reliability of automated assembly in this type of double-row ball bearing.
[Brief description of the drawings]
FIG. 1 is a plan view of a state in which upper row balls are supported by a ball support portion of an upper ball support jig using a ball holder assembly device for a double row ball bearing according to one embodiment of the present invention.
FIG. 2 is a front cross-sectional view of a main part of the ball case assembling apparatus in the embodiment shown in FIG. 1;
3 is a plan view showing a positional relationship between a ball non-occupied portion and a ball support member when the ball support member is extracted in the embodiment shown in FIG. 1; FIG.
FIG. 4 is a plan view showing a state in which a ball enters a ball support member in a non-occupied portion of the ball with a conventional ball holder.
FIG. 5 is a plan view of the same portion as FIG. 1 showing another embodiment of the present invention.
6 is a plan view of the same portion as FIG. 1 showing an embodiment of the present invention using a split ball support jig. FIG.
7 is a perspective view of a split ball support jig in the embodiment of FIG. 6. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Outer ring 2 Inner ring 4 Bearing support mechanism 5 Ball supply chute 9 Lower ball support protrusion 12 Actuating members 13, 22 Upper ball support jigs 15, 23, 24 Ball support members 16, 25, 26 Vertical arm 17 Ball leveling device 19, 27 Ball movement prevention pin 20 Ball non-occupied portion 21 Nozzle device

Claims (3)

Insert a single body or a pair of upper ball support jigs that turn and move up and down at the position between the inner and outer rings between the upper and lower ball rows of the double row ball bearing, and after loading the prescribed number of upper balls, In a ball assembly apparatus for a double row ball bearing in which the upper ball support jig is extracted from the non-occupied portion of the upper ball in a state where the inner and outer rings of the bearing are aligned, to the non-occupied portion side of the ball support jig. A ball movement preventing means for preventing the upper balls from being moved toward the unoccupied portion accompanying the turning movement of the upper ball is provided in the unoccupied portion. A ball holder assembly apparatus for a double row ball bearing, comprising a receiving member provided in a position between the occupied portion and the non-occupied portion and detachable . The ball movement preventing means includes a nozzle device that ejects fluid toward a terminal portion of the upper ball row at a position between an occupied portion and an unoccupied portion of the upper ball row when the upper ball is loaded. 2. A ball assembly apparatus for a double row ball bearing according to claim 1. Insert a single body or a pair of upper ball support jigs that turn and move up and down at the position between the inner and outer rings between the upper and lower ball rows of the double row ball bearing, and after loading the prescribed number of upper balls, In a ball assembly apparatus for a double row ball bearing in which the upper ball support jig is extracted from the non-occupied portion of the upper ball in a state where the inner and outer rings of the bearing are aligned, to the non-occupied portion side of the ball support jig. A ball movement preventing means for preventing the upper balls from being moved toward the unoccupied portion accompanying the turning movement of the upper ball is provided in the unoccupied portion. A device for assembling a ball bearing assembly for a double row ball bearing, comprising a nozzle device that injects fluid toward the end portion of the upper ball row at a position between the occupied portion and the unoccupied portion of the upper ball row.

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