JPS6054237A - Clamping machine - Google Patents

Abstract

PURPOSE:To switch a rotating direction of a seaming chuck and a lifter, and to execute clamping from the direction in which there is no clamping failure, by making an idle gear insertable and detachable between a spline shaft and a can feed turret, and also constituting a titled machine so that the spline shaft can rotate in reverse. CONSTITUTION:A can feed turret gear 5 is not engaged directly with a gear 1' of a spline shaft 1 but driven through an idle gear 15. Therefore, the can feed turret gear 5 rotates in the same direction and the spline shaft 1. However, the can feed turret 5 and a feed-out turret 9 must rotate in the same direction, therefore, by reversing a rotation of a motor 2, the rotating direction of a seaming chuck 12 and a lifter 14 becomes reverse.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a zero-sealing device for canned goods, and particularly to a seaming device that can change the direction of the seaming.

It is known that for cans with side seams formed by contacting the can, complaints of poor sealing can be reduced by tightening the can body wall from the outside to the inside when viewed from the outside. There is.

However, in the case of seaming with a 1tij structure, the seaming direction is opposite between the bottom and the top of the can, so the seaming must be done in an unfavorable direction υ, for example on the top or bottom. In addition, there are two types of rolls used in Japan: the American can type and the Continental, can type, and the winding direction is opposite to each other. There is. For this reason, it has not always been possible to narrow the winding in the above-mentioned υ advantageous direction V).

This invention makes it possible to easily change the narrowing direction as needed, so that even if the can is empty or a real can is left sideways, tightening can be performed from the above-mentioned advantageous direction. A detailed explanation is given by referring to the drawings that show the details of the machine.

As is well known, seaming can be tightened/reduced by moving the spline shaft at its center.When the can feed turret rotates, the seaming roll, seaming chuck, and lifter move around the spline shaft. At the same time, the can lid feed turret and the can delivery turret for seamed cans are WJsht via this and gears. On the other hand, the lister and spindle shafts extending at the center of the spline shaft are driven synchronously with the spline shaft through gears, giving rotation to the sea mink chuck and the seventer.

The objective of this invention, to freely change the seaming direction, is to achieve the rotation of the seaming chuck, the seaming chuck, and the lifter with respect to the revolution direction of the seaming roll, seaming chuck, and lifter around the spline shaft. This means that the direction can be changed relatively.

For simplicity, the figure shows the drive system O+.

The spline shaft 1 is driven by the motor 2 through the gear train 3.3 and the gear train 4, which moves the gear 5 of the can feeder and the spindle gear 7 of the seaming head and lifter 6 which meet this KQIT. . 8 is a can lid feed turret, and 9 is a delivery turret. On the other hand, a lifter extending to the center of the spline shaft 1 and a spin true shaft 1oVi
, driven synchronously with the shaft 1, seaming through the gear 11.11';
The lifter 14 is driven and rotated through the . In the drive system shown in FIG. 1, the seaming chuck 12 and the lifter 1
4's rotation direction is opposite to its revolution direction.

On the other hand, in the amount of movement shown in FIG. 2, the can feed turret gear 5 does not directly mesh with the gear 1' of the main shaft 1, but is driven via the idler gear 15. Therefore, the canned coolet gear 5 rotates in the same direction as the spline shaft 1, contrary to that shown in FIG.

However, since the can feed turret, can lid feed turret, and feed υ output turret must rotate in the loj direction compared to those in Figure 1, the %-5'20 rotation is reversed to change the driving direction of the main shaft 1. You can do it the other way around. At this time, since the gear train 4fi for driving the lifter spindle shaft 101 is the same as that in FIG. 1, the rotation direction of the sea mink chuck 12 and the lid 14 is as follows in the drive system shown in FIG. It is the opposite of the one shown in the first diagram.

As described above, this invention is extremely simple in that the gear 5 that drives each turret is driven directly by the spline shaft 1, or one idle gear 15 is inserted and the direction of rotation of the motor 2 is reversed. Since the direction of rotation of the seaming chuck and the rotor can be changed by changing the seaming chuck, it is possible to always tighten the seaming from the direction in which there are fewer defects in seaming.

[Brief explanation of the drawing]

Figure 1 and Figure 2 respectively show the tightening work area V) of this invention.
The driving system is shown, and FIG. 1 and FIG. 2 are state diagrams in which the winding directions are reversed. 1 Niss spindle shaft 3: Gooley 4: Gear train 5: Can feed turret 7: Seaming head and lifter revolving gear 8: Can lid feed turret 9: Delivery turret 10: S7 turret and spindle shaft 12:
Sea mink chuck 14: Lifter 15: Idle gear Patent applicant Toyo Sei #I1 Co., Ltd. Applicant agent Patent attorney Fumi Sato (1 other person)

Claims (1)

[Claims] The revolution of the seaming roll, seaming chuck, and lifter and the rotation of the can feed turret are driven by the seaming shaft, and the can feed turret and the delivery turret for cans that have been seamed are driven through the can feed turret. On the other hand, in the drive system in which the rotation of the seaming chuck and lifter is driven by the lifter and spindle shaft, which rotate in the same direction as the suline shaft, an idle gear is inserted and removed between the suline shaft and the can feed turret. =s,'=
This seaming device is characterized by the ability to reverse the direction of rotation of the spline shaft.