JPH07121641B2 - Spoke alignment device in the assembly of bicycle wheels - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Use and Outline of the Invention) Automatic assembly of a bicycle wheel includes a step of radially aligning a group of spokes attached to a hub and a crossing of the pair of spokes in a predetermined combination. The present invention comprises a step and a rim mounting step in which the hub-and-spoke assembly after this cross-cutting step is installed in the rim and the spoke nipples are screwed to the respective spokes. The present invention is the first of these steps. The present invention relates to a process of aligning spoke groups.

The spoke aligning device of the present invention moves and aligns the spokes in a radial alignment state by rotating the hub while pressing the connecting portions of the spokes of the spoke group and the spoke mounting plates with elastic rubber rings. The finished spokes are held on the spoke attachment plates in the radially aligned state to prepare for the next crossing step, and the rotating device for making the radial aligned state is downsized.

(Prior art and its problems) As a spoke aligning device of this type, Japanese Patent Publication No.
-11744 publication.

This device is constructed by rotating an assembly (hereinafter referred to as a temporary assembly (D)) of a hub (4) and a spoke attached to a spoke attachment plate of the hub at a rotation speed at which a predetermined centrifugal force acts. , Align the spokes radially, while
The holding body (E) (see FIG. 4) provided concentrically with the temporary assembly (D) is rotated at the same speed and in the same direction as the temporary assembly (D) to be positioned at the tip of the spoke. The holding portion holds the spokes in the aligned state.

For this reason, the holding body (E) is held in accordance with the four types of spokes (four types of spokes extending from the front and back sides of one spoke attachment plate of the hub (4) and four types of spokes extending from the front and back sides of the other spoke attachment plate). Fitting groove (F) as a part,
The annular body provided with (F), the temporary assembly (D) of the hub (4) and the spokes are always rotated in the same direction at the same speed.

Therefore, in this conventional device, in order to align the spokes, the holding body (E) having substantially the same size as the wheel has to be rotated together with the hub (4), and the rotating device becomes large.

(Technical problem) The present invention provides a device for rotating the assembly of the hub (4) and the spokes attached to the spoke attachment plates of the hub to radially align the spoke groups. SUMMARY OF THE INVENTION It is a technical problem to provide a device that enables a spoke group to be held in an aligned state by a hub holding portion so that the rotating device can be downsized.

(Technical Means) The technical means of the present invention taken to solve the above technical problem is a lower vertical first rotary shaft having a hub shaft fitting portion in the upper end portion of the shaft, and the first rotary shaft. An upper vertical second rotary shaft, which is disposed above the rotary shaft and is separated from the rotary shaft and has a hub shaft fitting portion in the lower end portion of the shaft, has the same diameter as the outer diameter of the spoke mounting plate of the hub. A rubber ring having an outer diameter is arranged in contact with the shaft ends of the first rotating shaft and the second rotating shaft and the spoke connecting portions of the spoke mounting plate, and the first rotating shaft has the first rotating shaft. A spoke aligning device for assembling a bicycle wheel, in which a first drive device for rotationally driving a shaft is attached, and a second rotary shaft is rotatably connected to an elevating shaft provided above. Between the shaft and the second vertical rotary shaft above, the hub shaft is vertical and the spoke attachment plate of the hub is horizontal, and the hub and the hub The spoke ring is attached to the spoke mounting plate of, and the rubber ring is attached to the first rotary shaft and the second rotary shaft.
Spoke attachment by interposing between each shaft end of the rotating shaft and the spoke mounting plate, and connecting the spoke mounting plate and the base end of the spoke with the shaft end of the first rotating shaft and the shaft end of the second rotating shaft. From the initial posture when the spokes are attached to the plate to the radial alignment posture due to the increase in centrifugal force, press the rubber ring onto the spoke attachment plate with sufficient strength to move the spoke against the elasticity of the rubber ring. A device for transmitting a rotational force of a strength that imparts a centrifugal force that radially aligns the spokes from one rotation shaft to the hub.

(Operation) The technical means of the present invention operates as follows.

The assembly (that is, the temporary assembly (D)) including the hub (4) and the spoke group attached to the spoke attachment plate of the hub is a fitting of the vertical first rotating shaft (11) whose one end of the hub shaft is downward. The hub shaft is fitted between the first rotating shaft (11) and the vertically upper second rotating shaft (22) which is fitted above the first rotating shaft (11) and is separated from the first rotating shaft (11). Vertically and on the hub spoke mounting plate (4
0) is placed horizontally. In this hub arrangement state, the tip of the spoke whose base end is attached to the spoke attachment plate (40) is lowered. In particular, the head portion (45) on the base end side is on the spoke mounting plate (40), and the tip of the spoke on the right side in FIG. 1 is greatly lowered, but this does not cause any trouble. Next, when the second rotary shaft (22) is lowered from above and the upper hub shaft is fitted into the fitting portion (14) of the second rotary shaft (22), the outer diameter of the spoke mounting plate (40) becomes the same. Since the rubber ring (15) having the outer diameter is provided at the shaft ends of both rotary shafts (11) and (22), both rotary shafts (11) and (22) have a rubber ring (15). ), And clamp the spoke mounting plate (40). Due to this clamping force, for example, in the upper spoke attachment plate (40), the spokes inserted from the top to the bottom of the spoke attachment plate (40) will have their lower surface around the base of the head (45) on the proximal end side. The spokes that are evenly pressed by the rubber ring (15) on the surface of the spoke mounting plate (40) and that are inserted into the spoke mounting plate (40) from bottom to top have the bent portion (46) and the shaft on the base end side. The spokes are pressed and held by the rubber rings (15) on the surfaces of the spoke attachment plates (40), and the spokes are lifted and held substantially horizontally.

By the way, since the rubber ring (15) is elastic, when a lateral force is applied to the spokes sandwiched between the rubber ring (15) and the spoke mounting plate (40), the rubber ring (15) is pushed up and the spokes are separated. It can move laterally on the spoke mounting plate (40). The strength of pushing the rubber ring (15) by the rotating shaft is the initial posture when the spokes are horizontally extended from the hub (4) at the position when the spokes are attached in the state where the spokes are clamped before the hub is rotated. However, when the hub is rotated and centrifugal force is applied to the spoke attachment plate (40), the spokes are placed in a radial posture on the spoke attachment plate (40) against the elasticity of the rubber ring (15). The spokes try to rotate as they are due to inertia when they can move laterally, and then the rotation speed is gradually reduced, but the clamping pressure of the rubber ring blocks the movement due to inertia and the spoke mounting plate ( It is strong enough to stop in synchronism with 40) and hold the spokes aligned in a radial posture.

Therefore, as the rotational force is gradually increased from the first drive device (12) to the hub (4) by the first rotary shaft (11) and the rotational speed is gradually increased, each spoke is moved from the rubber ring (15) by the centrifugal force. The elastic member is laterally moved and aligned from the initial posture to a radial posture centered on the hub against the pinching force of the elastic member. However, when the rotation speed is gradually reduced and the rotation is stopped thereafter, the spokes are stopped in a state of being aligned in a radial posture due to the sandwiching force between the rubber ring (15) and the spoke attachment plate (40).

(Embodiment) An embodiment of the apparatus of the present invention will be described below with reference to FIGS.

The device of this embodiment relates to a device implemented by means (A) in the overall explanatory view of the temporary wheel assembly device shown in FIG. 2, and in particular, the temporary assembly (D) in which the spoke group is attached to the hub (4). Is a so-called spoke aligning device in the so-called spoke aligning and traversing device, which aligns these spoke groups and then traverses each spoke in a preset crossing state.

The spokes aligned by the device of the present invention are traversed by the separate means (A), and the traversed temporary assembly (D) is transferred to the temporary fixing means (C) by the subsequent transfer means (B). Then the spokes are temporarily fixed to the rim.

The device of this embodiment includes a first rotary shaft (11) which is projected from the central upper surface of the first base (10) of the means (A) and is driven by a first drive device (12), and the first rotary shaft (11). Movement of moving means (B) located above the rotary shaft (11) and transferring the temporary assembly (D) traversed by the means (A) to the temporary fixing means (C) as shown in FIG. It has a second rotating shaft (22) rotatably connected to the lifting shaft (21) of the main body (20). The first and second rotary shafts (11) and (22) are provided with a fitting portion (14) into which the shaft portion of the hub (4) is fitted, and further, both rotary shafts (11) and (22). A rubber ring (1) that is in contact with a spoke attachment plate (40) provided on the hub (4) at the tip of the rubber ring and has an outer diameter equal to the outer diameter of the spoke attachment plate (40).
5) is installed. The second rotating shaft (22) is held by the elevating shaft (21) of the transfer means (B) so as to be vertically movable and rotatable.

Explaining the operation method of the above device, in the above device, the second rotary shaft (22) is raised to the raised position (initial position), and the lower end of the shaft of the hub (4) is below the first rotary shaft (11). Of the hub (4) as shown in FIG. 1 and then the second rotary shaft (22) is lowered to engage the hub (4) with the first and second rotary shafts (11), (22). ) Sandwich between. In this state, the rubber ring (15) is in pressure contact with the spoke mounting plate (40), and the head (45) on the proximal end side of each spoke or the bent portion (46) following this is the spoke mounting plate. It is pinched between the plate (40) and the rubber ring (15).

In this state, when the first drive device (12) is driven, the upper second rotary shaft (22) is also rotatably held by the lifting shaft (21) provided on the moving subject (20), The hub (4) is rotated. Therefore, the rotational speed is gradually increased to increase the centrifugal force applied to the spokes. Then, finally, due to the centrifugal force, the respective spokes are radially aligned against the clamping pressure.

When the spokes are aligned radially, gradually move to the hub (4)
Reduce the rotation speed of. However, since the spokes are pressed against the spoke mounting plate (40) by the rubber ring (15) that rotates in synchronization with the hub (4), the spokes are prevented from rotating due to inertia, and the radial alignment state is maintained. Then, it becomes a temporary assembly in the spoke aligned state shown in FIG.

After that, the spoke is subjected to a traverse process and a subsequent process to complete the wheel assembly.

(Effect) As described above, in the device of the present invention, the spoke mounting plates are pressed against each other by the rubber ring having the same outer diameter as the outer diameter of the spoke mounting plates in order to radially align the spokes. And because this rubber ring is an elastic body, when the centrifugal force is increased by the rotation of the hub due to the pressure contact force from the shaft end of the rotating shaft, the spokes attached to the spoke mounting plate move laterally and are aligned radially and radially. After that, even if the rotation is stopped and the centrifugal force is removed, the spokes can maintain the radial alignment state, and the device of the present invention is different from the device in which the spokes are rotated by a large-diameter holder as in the related art. Since the rotating device can be downsized and the device can be reduced in weight accordingly, the load on the rotating portion is reduced, and the durability of the device is improved. Further, since only a rubber ring, which is a very simple device, is used for press contact, the cost of the device can be reduced.

[Brief description of drawings]

FIG. 1 is an explanatory view of an essential part of the device of the present invention, FIG. 2 is an overall explanatory view of an essential part of the device of the present invention and a temporary wheel assembly device in combination with the device of FIG. 1, and FIG. 3 is a spoke. FIG. 4 is a plan view of the temporary assembly (D) in the aligned state, and FIG. 4 is an explanatory view of a conventional holding body. In the figure, (4) ... Hub, (10) ... First base (11) ... … 1st rotary shaft, (12) …… 1st drive device (14) …… fitting part, (15) …… rubber ring (20) …… moving body of moving means B, (21) …… lifting shaft (22) …… Second rotary shaft, (40) …… Spoke mounting plate (41) …… First spoke, (42) …… Second spoke (43) …… Third spoke, (44) …… Second 4-spokes (45) ... heads of spokes on the base end side, (46) ... bent parts

Claims (1)

[Claims] 1. A device for rotating an assembly of a hub and a spoke group attached to a spoke mounting plate of the hub around a hub shaft to radially align the spoke group, wherein a hub shaft fitting portion is provided in an upper end portion of the shaft. A lower vertical first axis of rotation having
An upper vertical second rotary shaft, which is disposed above the first rotary shaft and is spaced apart from the first rotary shaft and has a hub shaft fitting portion in the lower end portion of the shaft, is arranged to have an outer diameter of a spoke mounting plate of the hub. A rubber ring having the same outer diameter is placed by making contact between the shaft ends of the first rotating shaft and the second rotating shaft and the spoke connecting portions of the spoke mounting plate. A spoke aligning device for assembling a bicycle wheel, wherein a first drive device for rotationally driving a first rotating shaft is attached, and a second rotating shaft is rotatably connected to an elevating shaft provided above.