Elongated-member-driving apparatus – With interlock means
Patent
1994-10-06
1995-10-24
Smith, Scott A.
Elongated-member-driving apparatus
With interlock means
227131, B27F 736
Patent
active
054603137
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The present invention relates to a stapler for driving staples into an object, such as a sheaf of papers, said stapler comprising a base, a stapler head pivotably connected to the base via a first pin and pivotable between a starting position and a working position in which it is applied against said object when this is placed in the stapler between the base and the stapler head, a reciprocating drive element disposed in the stapler head and adapted to drive a staple into said object during a driving stroke, an operating means which is pivotable about a second pin parallel to the first pin and which is adapted to reciprocate the drive element, and a drive means adapted to pivot the stapler head and the operating means.
A prior-art stapler of this type is schematically illustrated in FIG. 1 of the accompanying drawings.
The illustrated stapler, which is adapted for driving staples into a sheaf of papers, comprises a base 1 and a stapler head 2 pivotably connected thereto. The stapler head 2 is pivotable about a pin 3, fixedly connected to the base 1, between an upper starting position (see FIG. 1) and a working position in which it is applied against a sheaf of papers 4 placed in the stapler between the base 1 and the stapler head 2 and which thus depends on the thickness of the sheaf of papers 4.
An operating means in the form of a pivotable arm 5 is arranged in the stapler head 2. The arm 5 is pivotable about a pin 6 which is parallel to the pin 3 and, like the latter, connected to the base 1. A reciprocating drive element 7, which is arranged in the stapler head 2 in order, during a driving stroke, to expel a staple from a staple magazine 8 arranged in the stapler head 2 and drive the staple into the sheaf of papers 4, is reciprocated by means of the arm 5. To this end, the arm 5 is pivotable between an upper starting position (see FIG. 1) and a lower position in which it is so placed that the drive element 7 has reached the base 1 or, to be more precise, is at a distance from the base 1 that equals the thickness of two sheets of paper, i.e. the thinnest imaginable sheaf to be stapled. The arm 5 is pivoted by a motor-driven eccentric device.
The arm 5 is connected to the stapler head 2 by a spring 9. When the arm 5 is pivoted downwards from the starting position, it entrains, owing to the spring 9, the stapler head 2 until this is applied against the sheaf of papers 4 which, in the example shown in FIG. 1, is much thicker than the smallest imaginable sheaf comprising two sheets of paper. When the stapler head 2 has been stopped by the sheaf of papers 4, the arm 5 continues to move downwards against the action of the spring 9. During this continued downward movement, the arm 5 imparts a driving stroke to the drive element 7, and a staple (not shown) is expelled from the magazine 8 and driven into the sheaf of papers 4.
When the staple has been fully driven into the sheaf of papers 4, the motor-driven eccentric device strives to continue to pivot the arm 5 to its lower position. This is, however, prevented by the sheaf of papers 4 which stops the drive element 7, and consequently the arm 5. This results in a lifting force acting on the pin 6 of the arm 5. To make the stapler work, this pin is therefore connected to the base 1 by a spring 10. Instead of being pivoted further downwards towards the base 1 at its front end, the arm 5 is thus raised against the action of the spring 10 at its rear end. The spring 10 has to be so strongly biased that it does not yield to the staple-driving force, which may be considerable when the sheaf of papers 4 is thick, and permits the pin 6 to be raised before the staple has been fully driven into the sheaf of papers.
The thicker the sheaf of papers 4, the stronger the spring force exerted by the springs 9 and 10 and the stronger the staple-driving force that the arm 5 has to overcome. Thus, the stapling force required increases rapidly as the thickness of the sheaf of papers increases. Consequently, a comparatively strong, and thus expensive, m
REFERENCES:
patent: 4623082 (1986-11-01), Kurosawa
patent: 4726505 (1988-02-01), Okazaki
patent: 5195671 (1993-03-01), Shimomura et al.
patent: 5230457 (1993-07-01), Hiroi et al.
Gustafsson Trygve
Magnusson Lars-Inge
Straat Olle
Isaberg AB
Smith Scott A.
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