JPH0747150Y2 - Work transfer device in transfer press machine - Google Patents

Description

[Detailed description of the device]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a work transfer device in a transfer press machine, and more particularly to a drive mechanism for a feed part of a feed bar.

[0002]

2. Description of the Related Art Generally, a transfer press machine is provided with a work transfer device for sequentially transferring a work to each pressing step.

Conventionally, as a work transfer device of this type,
There is one disclosed in JP-A-59-81541. That is, this work transfer device is provided with a lift frame that is lifted and lowered by a lift device, a carrier that is arranged above the lift frame and is movable in a work clamping direction by a clamp device, and a vertical direction with respect to the carrier. Is guided by a guide roller having a guide roller attached to the lower end thereof and guided by a lift frame, and a carrier provided at the upper end of the guide rod in the conveying direction and by a feeding device. It consists of a reciprocating feed bar.

In the above feeder, the motor drives the reciprocating pinion via the timing belt.

[0005]

By the way, since the timing belt is used in the drive system of the above-mentioned feeding device, the belt is inevitably stretched, the accurate feeding operation is not performed, and in some cases, the timing belt is used. There was a problem of cutting.

[0006]

In order to solve the above-mentioned problems, a work transfer device in a transfer press of the present invention comprises a support frame arranged at a plurality of front and rear positions below a work transfer path, and an interlocking connection with a clamp device. And a moving body provided on each of the support bases so as to be movable in the left-right direction orthogonal to the work transfer path; And a feed bar which is interlockingly connected to the feeding device and is supported by each of the elevating bodies so as to be movable and guided in the work conveying direction. Installed on the support with
A pair of carriages that are movably provided in the workpiece conveying direction by the guide members and that are connected to the end portions of each feed bar, and these carriages.
Are arranged in the workpiece transport direction and facing each other.
It corresponds to a pair of feed rack shafts and each of the above carriages.
Is rotatably supported on the support side around the vertical axis at
In addition, at the bottom end,
It has a driving side pinion that meshes with it
The transmission shaft body provided with gears and the above-mentioned drive side pinion and
And the driven side pinion meshed with the other feed rack shaft body.
ON and driven by the upper end of the left and right transmission shafts
Rotate each drive-side bevel gear meshed with the side bevel gear
And a feed motor for driving .

[0007]

According to the above construction, since the rack and pinion mechanism is used to reciprocate the feed bar, unlike the conventional one using the timing belt,
The belt is not stretched, so that an accurate feeding operation is performed and the timing belt is not broken.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. First, an overall schematic configuration of a work transfer device in a transfer press will be described with reference to FIG.

That is, this work transfer device is provided with a support base 1 arranged at a plurality of front and rear positions below a work transfer path.
A movable body 3 which is interlockingly connected to the clamp device 2 and is movably provided on each of the support frames 1 through a guide member (shown in FIG. 2) 8 in the left-right direction orthogonal to the work transfer path. An elevating body 5 which is interlockingly connected to the lifting device 4 and is provided to be movable up and down on each of the moving bodies 3, and an elevating body 5 which is interlockingly connected to the feeding device 6 and is connected to each of the left and right elevating bodies 4 in the work conveying direction by a guide roller ( (See Figure 2) 9
It is composed of a pair of left and right feed bars 7 that are movably guided and supported via.

The lift device 4 is, as shown in FIG.
Lifting body 5 guided up and down by a moving body (see FIG. 3) 3
A pair of front and rear lift rack shafts 11A and 11B hung down from the lower surface, a spline shaft 12 provided in the left-right direction on the support base 1 side, and the spline shaft 12
The drive-side pinion 13 that is slidably fitted to the outside and meshed with the tooth portion of the one lift rack shaft body 11A.
A driven pinion 14 that is rotatably supported on the moving body 3 side and meshes with the drive side pinion 13 and the other lifting rack shaft body 11B; and the spline shaft body 1
2 is composed of a rotary drive device 16 for rotating the driven gear 2 through a driven bevel gear 15 attached to the end thereof.

Further, the rotary drive device 16 includes a transmission shaft body 18 which is arranged in the vertical direction on the support base 1 and has a drive-side bevel gear 17 meshed with the driven-side bevel gear 15 at its upper end. , A transmission rack body 20 having rack teeth 20a meshing with a gear 19 provided at the lower end of the transmission shaft body 18, and the transmission rack body 20 meshing with the interlocking rack body 21 and the rack teeth 21a. It is composed of a lift servomotor 23 that moves back and forth via the pinion group 22.

An urging device 25 for constantly urging the elevating body 5 upward to cancel the weight on the side of the feed bar 7.
Is provided. That is, an intermediate gear 26 is provided in the middle of the transmission shaft body 18, a biasing rack shaft body 27 is meshed with the intermediate gear 26, and a cylinder device ( For example, an air cylinder) 28 is connected.

Therefore, the lift servomotor 2
3 is operated, each rack body 20, 21, the transmission shaft body 1
8, both pinions 13, 14 through the spline shaft body 12
Because the rack is rotated, the lift rack shafts 11A, 11B
That is, the lifting / lowering body 5 is lifted / lowered as indicated by an arrow A.

As shown in FIG. 1, the lifting and lowering body 5 is arranged for each of the support bases 1 and on the left and right sides, and operates in synchronization with each of the left and right sides, that is, without any synchronization deviation. It is designed to work.

That is, at each of the left and right positions,
The transmission rack shaft body 20 and the interlocking rack shaft body 21 corresponding to the respective lifting bodies 5 are connected to each other via the synchronization shaft body 29.

Next, the clamp device 2 will be described with reference to FIGS. 1 and 2. The clamp device 2 includes a connecting member 31 provided on the moving body 3, a clamp rack shaft body 32 attached to the connecting member 31 in the left-right direction, and rotatable around a horizontal axis on the support base 1 side. A transmission shaft that is supported and that has at one end a pinion 33 that meshes with rack teeth 32a formed at one end of the clamping rack shaft body 32 and that has a driven side bevel gear 34 provided at the other end. The body 35 and a clamping servomotor (rotating device) 37 that rotates a drive-side bevel gear 36 that meshes with the driven-side bevel gear 34 are configured.

In this clamping operation as well, a synchronization deviation preventing device 41 is provided so that the synchronization deviation of the movement of each moving body 3 does not occur at each of the left and right positions. That is, the synchronization deviation preventing device 41 is arranged in the workpiece transport direction over each support pedestal 1 and has a connecting shaft body 42 having rack teeth 42a formed in the middle thereof, and a vertical direction in each support pedestal 1. And a gear 43 that is rotatably supported by the lower end and meshes with the rack teeth 42a at the lower end.
Connects the transmission shaft body 45, which has a gear 44 that meshes with the rack teeth 32a formed at the other end of the clamp rack shaft body 32 at the upper end, and the coupling shaft bodies 42 at the front and rear positions. It is composed of a synchronizing shaft body 46.

Therefore, when the clamping servomotor 37 is driven, the moving body 3 moves in the left-right direction via the transmission shaft body 35 and the clamping rack shaft body 32 as indicated by an arrow B, and the feed bar 7 is moved. The work is clamped and unclamped while approaching and separating from each other.

Next, the feeding device 6 will be described with reference to FIGS. 1 and 3. That is, the feeding device 6 includes two pairs of left and right guide rails 52 attached to the inner side surfaces of the three support bodies 51 arranged at the end positions of the work transfer path, and guides for each pair. A guide roller (not shown) is provided on the rail 52 in the work transfer direction as indicated by arrow C.
A pair of left and right carriages 53, which are movably guided through the left and right feed bars 7, respectively.
And a pair of feed rack shafts 5 arranged on each of the carriages 53 in the workpiece transport direction and facing each other.
4A and 54B, and a drive-side pinion that is rotatably supported on the support body 51 side around the vertical axis at a position corresponding to each carriage 53, and that engages with one of the feeding rack shaft bodies 54A at the lower end portion. 55, and a transmission shaft 57 having an upper end on which a driven bevel gear 56 is provided, the drive side pinions 55, and the other feeding rack shaft 54B.
The feed-side servomotor ( feed motor) for rotating the driven-side pinion 58 meshed with the ) 60.

Further, the connecting portion between each carriage 53 and each feed bar 7 is structured so as not to come off even if the feed bar 7 moves in the vertical and horizontal directions. That is, a moving member 62 that is movable in the left-right direction via the guide rail 61 is provided in the lower portion of the carriage 53, and a guide cylinder 64 is provided on a guide rod 63 that is hung from the moving member 62. The guide bar 64 is slidably fitted to the outside, and the end of the feed bar 7 is connected to the guide cylinder 64 by a pin 65.

The left and right feeding servomotors 60 are provided.
Are, of course, electrically controlled to rotate in synchronization with each other. Therefore, in the above configuration, when the feed servomotor 60 is driven, the drive side pinion 55 rotates via the transmission shaft body 57, and the feed rack shaft body 54.
A and 54B move, that is, the left and right carriages 53 move in synchronism with each other to feed the work.

As described above, since the rack and pinion mechanism is used as the drive system of the feeding device 6, unlike the conventional one using the timing belt, the belt is not stretched, and therefore the accurate feeding is not performed. When the operation is performed, the timing belt is not disconnected. Also, drive corresponding to each feed bar 7.
Since the system is provided separately, when the press becomes large,
For example, trying to drive both feedbars with one drive system
Drive servomotors and other drive equipment,
It is necessary to improve the ability to
You can

By the way, in the above embodiment, the servomotor is used to rotate the spline shaft body 12. However, the spline shaft body 12 can be rotated by using, for example, a cylinder device.

[0024]

As described above, according to the structure of the present invention, since the rack and pinion mechanism is used to reciprocate the feed bar, unlike the conventional one using the timing belt, the belt stretches. Does not occur, and therefore an accurate feeding operation is performed, and the problem of the timing belt being cut does not occur. Also, each
Corresponding to the drive bar,
Since a carriage for feeding and a motor for feeding are installed,
Can be easily applied even if the size of the press becomes large
It

[Brief description of drawings]

FIG. 1 is a partially cutaway perspective view showing a main part of a feeding device of a work transfer device according to an embodiment of the present invention.

FIG. 2 is a schematic overall perspective view of a work transfer device according to an embodiment of the present invention.

FIG. 3 is a partially cutaway perspective view showing essential parts of a lift device and a clamp device of a work transfer device according to an embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Support stand 2 Clamping device 3 Moving body 4 Lifting device 5 Lifting body 6 Feeding device 7 Feed bar 11A, 11B Lifting rack shaft body 12 Spline shaft body 13 Drive side pinion 14 Driven side pinion 16 Rotation drive device 20 Transmission rack shaft Body 21 Interlocking rack shaft body 23 Lifting servo motor 32 Clamping rack shaft body 33 Driven side pinion 35 Transmission shaft body 37 Clamping servo motor 51 Support body 53 Carriage 54A, 54B Feeding rack shaft body 55 Drive side pinion 57 Transmission Shaft 58 Driven side pinion 60 Servo motor for feeding

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP 62-161436 (JP, A) JP 61-99530 (JP, A) JP 62-227534 (JP, A) Sankaihei 2- 11628 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. Support pedestals arranged at a plurality of front and rear positions below a work transfer path, and are interlockingly connected with a clamp device, and are provided on each of the support pedestals so as to be movable in a left-right direction orthogonal to the work transfer path. And a movable body, which is linked to a lift device and is vertically movable to each of the movable bodies, and linked to a feed device, and is guided to each of the movable bodies in a work transfer direction. A work transfer device comprising a supported feed bar,
Support the above feeding device at one end side position of each feed bar.
A pair of carriages, each of which is movably provided in the workpiece conveying direction by a guide member provided at the end thereof, is connected to the end of each feed bar, and each of these carriages.
Are arranged in the workpiece transfer direction and opposite to each other.
Paired feed rack shafts and the above carriages
Rotatably supported on the support side around the vertical axis at the corresponding position
And one of the above-mentioned feed rack shafts at the lower end
It has a driving side pinion that meshes with the body and a driven side on the upper end
The transmission shaft body provided with a bevel gear and the above-mentioned drive side pinio
And the driven side meshed with the other feed rack shaft
The pinion and the left and right transmission shafts are provided at the upper end of the shaft.
Drive-side bevel gears meshed with driven-side bevel gears
A work transfer device in a transfer press machine, comprising a rotating feed motor .