JPH0349774Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Field of Industrial Application) The present invention relates to a feeder drive mechanism for a press machine.

(Prior Art) An eccentric shaft in a press always moves up and down in accordance with the journal clearance during pressure molding. As shown in FIG. 3, when the gear 22 fixed on the eccentric shaft 21 among the gears 22 and 23 meshing with each other is pressed near the bottom dead center of the slide during rotation, the eccentric shaft 21 moves upward. The backlash will rise up (Figure 3). At this time, the gear 22 also floats up, so the meshing gear 23 is instantaneously driven to reverse rotation.
The constant speed rotation of the gear 23 is disrupted, which adversely affects the operation of the transfer feeder. Also eccentric shaft 2
1, the rotation of the gear 23 due to the upward movement of the gear 22 was irregular.

Also, the outer periphery of the brake 24 and the gear coupling spring 25
In order to avoid interference with the gears 22 and 23, the diameters of the gears 22 and 23 have to be large, which is extremely uneconomical.

Furthermore, it is preferable that the drive shaft system of the transfer feeder has as little play as possible. However, in the above-mentioned conventional system, it was inevitable that there would be backlash between the gears 22 and 23 and the gear coupling 25.

(Problems to be solved by the invention) To solve the above-mentioned problems of the prior art, 1) eliminate the influence on the rotation of the feeder drive shaft due to the vertical movement of the eccentric shaft, and 2) eliminate the play in the feeder drive shaft system. and 3) to simplify the mechanism and reduce costs.

(Solution by invention) A bevel gear attached to one end of an eccentric shaft that also serves as an input shaft, and an output shaft 1 so as to mesh with the bevel gear.
The gear casing 9 housing the bevel gear attached to the shaft 3' is attached to one end of the eccentric shaft, and the gear casing 9 is placed between the guide surfaces 17 of the guides 16 provided facing each other along the loading direction of the press load P. The gist of this invention is a feeder drive mechanism for a press machine, characterized in that an output shaft 13' that is slidably supported and pivotally supported by the gear casing 9 and a transfer feeder are connected via a telescoping shaft mechanism 15. It is something.

(Example) An explanation will be given based on FIGS. 1 and 2. 1 is an eccentric shaft, 2 is a main sleeve, and 3 is a main bush that supports the load and rotation of the eccentric shaft. 4 is a thrust ring provided on the side of the main sleeve, and 5 is a frame.

6 is a bottom knockout cam attached to the eccentric shaft 1. 7 is a brake casing fixed to the frame 5, and 8 is a brake driving disk. A gear casing 9 is held on the eccentric shaft 1 by bearings 10 and 11. 12 is the eccentric shaft 1 which also serves as an input shaft.
A large bevel gear 13 is a small bevel gear that meshes with the large bevel gear 12, and is mounted on an output shaft 13' rotatably supported by the gear casing 9. 1
4 is a universal joint fixed to rotate in the same manner as the small bevel gear 13, and 15 is a spline provided on the shaft of the universal joint 14, which constitutes a telescopic shaft mechanism whose shaft length can be adjusted. There is. It goes without saying that, in addition to the spline 15, this telescopic shaft mechanism may be replaced with a known means capable of transmitting rotation while allowing movement in the axial direction, such as a sliding key or a rectangular shaft, with the same effect. Nor.

Reference numeral 16 denotes a guide fixed to the brake casing 7, which serves as a fixed frame. When the eccentric shaft 1, which is an input shaft that holds the gear casing 9, is rotated by mutually opposing guide surfaces 17, the case part moves up and down. It is possible to do this, but it prevents it from rotating. In addition, in the case of a type in which the brake casing 7 and the driving disk 8 are not provided on the eccentric shaft, the guide 16 is provided on the press frame 5 which is a fixed frame.

(Function) When a load P acts on the eccentric shaft 1 from below, since there is a gap c between the journal portion 1a of the eccentric shaft and the main bush 3, the eccentric shaft rises by the gap c. The behavior at the moment of this lifting depends on the balance between the load P position and the weight of the eccentric shaft system.
The position and inclination of the axis change depending on the position, etc.

However, the gear casing 9 moves up and down together with the eccentric shaft 1, and the change in the up and down movement is absorbed by the spline 15. Therefore, the vertical movement of the eccentric shaft 1 will not cause the meshing of the bevel gears 12 and 13 to shift, resulting in uneven rotation of the feeder drive shaft system.

(Effect) The gear casing 9 attached to one end of the eccentric shaft is slidably supported between the guide surfaces 17 of the guides 16 provided facing each other along the direction of press load, and the gear casing 9 is attached to the shaft. Since the supported output shaft 13' and the transfer feeder are connected via the telescopic shaft mechanism 15, even if the eccentric shaft 1 moves up and down due to the existence of a gap, the gear casing will also move in the direction of the load. Guided to move. Moreover, since the vertical movement can be easily followed, the meshing of the bevel gear does not change, and rotational fluctuations of the feeder drive shaft can be eliminated.

Since the mechanism has an extremely simple configuration, it is also advantageous in terms of cost.

[Brief explanation of the drawing]

FIG. 1 shows a feeder drive mechanism of a press machine according to the present invention. FIG. 2 is a view taken along the arrow in FIG. Third
The figure shows a perspective view of a conventional feeder drive mechanism. In the figure: 1...Eccentric shaft (input shaft),
1a... Journal part, 2... Main sleeve,
3...Main bush, 4...Thrust ring,
5... Press frame, 6... Cam, 7... Brake casing, 8... Brake driving disk, 9... Gear casing, 10... Bearing,
11... Bearing, 12... Large bevel gear, 13... Small bevel gear, 13'... Output shaft, 14... Universal joint, 15... Telescopic shaft mechanism, 16... Guide, 17... Guide surface , 21... eccentric shaft,
22, 23...gear, 24...brake, 25...
...Coupling, 26...Drive shaft.

Claims (1)

[Scope of utility model registration request] A bevel gear attached to one end of an eccentric shaft that also serves as an input shaft and an output shaft 1 that meshes with the bevel gear.
The gear casing 9 housing the bevel gear attached to the shaft 3' is attached to one end of the eccentric shaft, and the gear casing 9 is placed between the guide surfaces 17 of the guides 16 provided facing each other along the loading direction of the press load P. A feeder drive mechanism for a press machine, characterized in that an output shaft 13' slidably supported and pivotally supported by the gear casing 9 and a transfer feeder are connected via a telescoping shaft mechanism 15.