JPS6016443Y2 - Transfer feeder stroke variable adjustment device - Google Patents

Description

[Detailed description of the invention] This invention relates to a device that automatically adjusts the lift stroke, clamp stroke, or feed stroke of a transfer feeder in a transfer press. The distance between the input side shaft and the eccentricity can be adjusted by displacement, and even if the eccentricity is changed, if the input side shaft is taken as the origin, this origin will not change, and the stroke origin position will remain constant. It is an object of the present invention to provide a variable stroke adjustment device for a transfer feeder that can be maintained.

Hereinafter, the present invention will be explained with reference to the drawings.

In the drawings, 1 is a lift cam, and 2 is a lift lever.

A rack frame 3 is connected to the lift lever 2 via a link 4, and an input side shaft 6 is connected to the rack 5 of the rack rod 3.
A pinion gear 7 provided at the two is in mesh with each other.

8 in the drawing is a variable stroke adjustment device.

This stroke adjustment device 8 includes a device main body 9,
The shaft body 6 is connected to this device body 9.

The device main body 9 is provided with a locking hydraulic cylinder 10 and a stroke adjusting hydraulic motor 11.

The rod connected to the piston 25 of the locking hydraulic cylinder 10 is a second screw rod 20, and a locking wedge 13 is screwed into this screw rod 20.

A gear 27 is fixed to the screw rod 20.

The output shaft of the stroke adjustment hydraulic motor 11 is a first screw rod 14, and a wedge block 15 is screwed onto this screw rod 14. A gear 28 that meshes with a gear 27 is provided on the screw rod 14. be.

Further, an output side shaft body 16 is attached to the wedge block 15.

Therefore, by operating the variable stroke adjustment device 8, it becomes possible to adjust the distance between the origin A on the axis of the shaft body 6 on the input side and the shaft body 16 on the output side, that is, the amount of eccentricity 1.

17 in the drawing is moved in the left and right direction (direction of arrow B) by the guide 18
This is a lift carrier movably held in the lift carrier 17, and a long hole 19 is formed in the lift carrier 17.
9, a roller 20' provided on the shaft body 16 is inserted.

A lift equalizer 22 is connected to the lift carrier 17 via a link 21.
The rack rod 2 is connected to the rack rod 2 via the bar top surface height automatic adjustment device 23.
4 are connected to each other, and a pinion gear 26 is engaged with the rack 25 of the rack 24, and the pinion gear 26 is connected to the shaft 2.
The other pinion gear 27b of this shaft 27a meshes with the rack 29 of the rack rod 28a, and the rack rod 28a is provided with a lift carrier 30. A transfer bar 32 is provided.

Next, the operation will be explained.

The lift lever 2 swings due to the motion of the lift cam 1, the input side shaft 6 rotates via the rack 5 of the rack rod 3 and the pinion gear 7, and the variable stroke adjustment device 8 rotates 90 degrees.

Due to this rotation, the roller 20' moves within the long hole 19, the lift carrier 17 moves in the direction B, and the lift carrier 30 moves through the lift equalizer 22, rack rod 24, pinion gears 26, 27, and rack rod 28a. The transfer bar 32 moves up and down.

The variable stroke adjustment in the variable stroke adjustment device 8 is performed by introducing pressure oil into the locking hydraulic cylinder 10 and pushing the piston 25' against the spring 33 to release the locking wedge 13 from the wedge block 15. , the stroke adjustment hydraulic motor 11 is driven to cause the wedge block 15 to move forward by the rotation of the screw rod 14, and at the same time, the screw rod 20, which has a reverse thread to the screw rod 14, is rotated via gears 28 and 27. , the locking wedge 13 is screwed forward, the pressure oil in the locking hydraulic cylinder 10 is discharged at a predetermined position, and the locking wedge 13 is pressed against the wedge block 15 by the spring 25.

Also, even if the stroke changes from Sl to S2, the origin height H
can always be kept constant.

That is, even if the eccentricity l is changed, the origin (rotation center) remains a fixed point, the stroke end at which the lift carrier rotates 90 degrees is always the origin, and the height of this origin is constant.

In the above embodiment, the variable stroke adjustment device is used to adjust the lift stroke, but the device is not limited to this and may of course be used to adjust the clamp stroke and feed stroke.

The present invention has been described in detail above, in which the input side shaft 6 is connected to the device main body 9, the first screw rod 14 and the second screw rod 20 are provided in parallel to the device main body 9, and both screws are connected to each other. Rod 14.
20 are connected by gears 28 and 27, and the first screw rod 14
At the same time, screw the wedge block 15 onto the second screw rod 2.
This wedge block 1 is in contact with wedge block 15 at 0.
A first screw rod 14 is connected to the output side of the stroke adjusting hydraulic motor 11, and a second screw rod 20 is connected to the locking hydraulic cylinder 1.
Since the output side shaft 16 parallel to the input side shaft 6 is connected to the wedge block 15, the distance between the input side shaft 6 and the output side shaft 16 is That is, the amount of eccentricity 1 can be adjusted by displacement, and even if the amount of eccentricity 1 is changed, if the shaft body 6 on the input side is taken as the origin, this origin does not change and the origin position of the stroke can be kept constant.

[Brief explanation of the drawing]

Fig. 1 is an explanatory diagram of the configuration of a lift mechanism using the variable stroke adjustment device of the present invention - an embodiment, Fig. 2 is an explanatory diagram of the configuration of an embodiment of the invention, and Fig. 3 is an explanation of stroke changes and origin positions. It is a diagram. 6 is the shaft on the input side, 7 is the device body, 10 is the locking hydraulic cylinder, 13 is the locking wedge, 14.20 is the screw rod, and 15 is the wedge block.

Claims (1)

[Scope of utility model registration request] The input side shaft 6 is connected to the device main body 9, and the first screw rod 14 and the second screw rod 20 are provided in parallel to the device main body 9, and both screw rods 14 and 20 are connected by a gear 28.27. A wedge block 15 is screwed into the first screw rod 14, and a locking wedge 13 is screwed into the second screw rod 20 to contact the wedge block 15 and fix the wedge block 15, and the first screw The rod 14 is connected to the output side of the stroke adjustment hydraulic motor 11, and the second screw rod 20 is connected to the rod of the locking hydraulic cylinder 10, and the wedge block 15 is connected to the output side parallel to the input side shaft 6. shaft body 1
A variable stroke adjustment device for a transfer feeder, characterized in that 6 are connected to each other.