Feeding mechanism

Abstract

The feeding mechanism for feeding media from an initial site to a predetermined site comprises a base, a scrubber, a deskewer, two feeders, a lifting device having two cam portions, a driving element and a releasing device. The deskewer is moved between a first position and a second position and sets the media located at the initial site. The two feeders are used for transmitting the media located at the initial site toward the predetermined site. The cam portions are used as a lifter to move the deskewer from the first position to the second position. The driving element disposed between the lifting device and the releasing device generates forces to actuate the cam portions to move the deskewer. The releasing device is used as an overload protection clutch connected between the lifting device and the driving element, having a first plate separately contacting the driving element. As the driving element is actuated, the driving force generated from the driving element can be transmitted to the cam portions via the releasing device, and the overload from the driving element can be properly set free by the releasing device.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to a feeding mechanism. More particularly, this invention relates to a feeding mechanism provided with a releasing device to effectively set free the overload.

2. Description of Prior Art

Most feeding mechanisms are provided with a deskewer to deskewer the media or papers during the feeding process. The deskewer is generally a plate which is upwardly moved or pushed up by a transmission mechanism.

However, adding the transmission mechanism increases the complexity of the feeding mechanism and the driving force generated from the transmission mechanism is not easily controlled. Once the driving force is too high or the overload cannot be properly released, the feeding process of the media or papers is abnormally interrupted.

SUMMARY OF THE INVENTION

To solve the above problem, the primary object of this invention is to provide a feeding mechanism to feed media from an initial site to a predetermined site. The feeding mechanism comprises a base, a scrubber, a deskewer, two feeders, a lifting device having two cam portions, a stopper, a driving element and a releasing device.

The deskewer is disposed between the initial site and the predetermined site, and the deskewer is moved between a first position and a second position and contacts the media located at the initial site. The feeder is movably disposed next to the initial site to transmit the media located at the initial site toward the predetermined site. The cam portions of the lifting device are used as a lifter to move the deskewer from the first position to the second position. The stopper is disposed next to the deskewer to limit the deskewer's motion between first position and second position. The driving element disposed between the lifting device and the releasing device generates forces to actuate the lifting device to move the deskewer to the second position. The releasing device is used as an overload protection clutch, which is connected between the lifting device and the driving element and has a first plate separately contacting the driving element. As the driving element is actuated, the driving force generated from the driving element can be transmitted to the cam portions via the releasing device, and the overload from the driving element can be properly set free by the releasing device.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention can be more fully understood by reading the subsequent detailed description and examples with reference made to accompanying drawings in which:

FIG. 1A is a perspective view showing the outer structure of a feeding mechanism ( 1 ) of the present invention, comprising an outer case (H) which is composed of an upper housing (H- 1 ) and a lower housing (H- 2 );

FIG. 1B is a perspective view showing the inner structure of the feeding mechanism ( 1 ) without the upper housing (H- 1 ) according to FIG. 1A ;

FIG. 2 is a top view of FIG. 1B ;

FIG. 3 is a side view of the feeding mechanism ( 1 ) according to a sectional line (A—A) of FIG. 2 , wherein the feeding mechanism ( 1 ) is used to transmit the media (P) from an initial site (X 1 ) to a predetermined site (X 2 );

FIGS. 4A to 4 D are four figures sequentially depicting the steps for feeding the media (P) or papers from the initial site (X 1 ) to the predetermined site (X 2 ) by the feeding mechanism ( 1 )

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring to FIG. 1A , FIG. 1A is a perspective view showing the outer structure of a feeding mechanism 1 of the present invention. An upper housing H- 1 and a lower housing H- 2 are constructed on the outer structure of the feeding mechanism 1 . A stack of media P, such as papers, can be fed by the feeding mechanism 1 to a printing device (not shown).

In FIG. 1B a perspective view shows the inner structure of the feeding mechanism 1 , from which the upper housing H- 1 is taken off, and FIG. 2 is a top view of FIG. 1 B. The lower housing H- 2 is used as a base so as to support all the elements of the feeding mechanism 1 . Besides the upper housing H- 1 and the lower housing H- 2 mentioned, the feeding mechanism 1 further comprises a scrubber 10 , two feeders 12 and 13 , a first one-way bearing 12 B, a second one-way bearing 13 B, a deskewer 14 , a lifting device 15 - 1 , a releasing device 15 - 2 and a stopper 18 .

The deskewer 14 , essentially an L-shaped board in a cross-section view movably guided along the two holes 108 -H of the guiding seats 108 , is actuated by the cam 151 between a first position S 01 and a second position S 02 (see FIG. 3 ) so as to align the media before the feeding procedure. All elements are supported by the lower housing H- 2 and covered by the upper housing H- 1 .

The first one-way bearing 12 B and the second one-way bearing 13 B are disposed on the lower housing H- 2 , and four supporting seats W 0 , W 1 , W 2 and W 3 respectively protrude from the inner bottom surface of the lower housing H- 2 and substantially parallel to each other. Four cylindrical shafts 100 , 120 , 130 and 150 are mounted on the bottom of the lower housing H- 2 and respectively rotated about a first axis I-I, a second axis II-II, a third axis III-III and a fourth axis IV-IV, which are substantially designed parallel to each other. The supporting seat W 1 mainly supports the shaft 100 , and the supporting seat WO and W 1 mainly support the shaft 150 , and the supporting seats W 1 and W 2 mainly support the shaft 120 , and the supporting seats W 1 and W 3 mainly support the shaft 130 .

The relationships among the four shafts ( 100 , 120 , 130 and 150 ) and of the elements relative to each of shafts will be depicted as follows with reference to FIG. 2 .

[Shaft 100 ]

FIG. 2 is a top view of FIG. 1B. A first gear portion G 1 and the scrubber 10 are respectively mounted on two ends of the shaft 100 , and the shaft 100 is rotated about the axis I-I by the first gear portion G 1 .

Three pulleys 101 , 102 , 103 and a feeding roller 101 R comprise the scrubber 10 . The pulley 103 is directly connected to the shaft 100 , and the pulley 102 is used as an idler engaged to the pulleys 101 and 103 , and the feeding roller 101 R affixed to the pulley 101 is used as a passive element.

Once the first gear portion G 1 is energized, the driving shaft 100 , therefore, can directly actuate the scrubber 10 rotated within a predetermined path with respect to the third axis I-I, and the feeding roller 101 R can be controlled and rotated to scrub the media P.

[Shaft 150 ]

In FIG. 2 , a third gear portion G 3 is engaged with the first gear portion G 1 and used as a driving element placed on the lower housing H- 2 . The lifting device 15 - 1 comprises two cam portions 151 ( 151 ) spaced apart and fixedly mounted on one end of the shaft 150 . The L-shaped deskewer 14 guided by the holes 108 H of the guiding seats 108 is freely and uniformly disposed on the two cam portions 151 ( 151 ).

The releasing device 15 - 2 is used as an overload protection clutch disposed between the lifting device 15 - 1 and the third gear portion G 3 . The releasing device 15 - 2 is installed on another end of the shaft 150 and separately presses on the driving element 150 G. The releasing device 15 - 2 has a first plate 152 P 1 , a second plate 152 P 2 and a spring 152 S, wherein the spring 152 S is disposed between the first plate 152 P 1 and the second plate 152 P 2 , and the is second plate 152 P 2 is fixed to the shaft 150 . One sidewall of the third gear portion G 3 is separately pushed and pressed by the first plate 152 P 1 when the releasing device 15 - 2 is disposed on the shaft 150 .

As the third gear portion G 3 is actuated, the driving force generated from the third gear portion G 3 can be transmitted to the shaft 150 via the releasing device 15 - 2 .

[Shaft 120 and 130 ]

In FIG. 2 , the feeder 12 is integrally built on the shaft 120 , and the first one-way bearing 12 B as well as the supporting seats W 1 and W 2 are used together to support the shaft 120 . A second gear portion G 2 is formed on the first one-way bearing 12 B and engaged to the third gear portion G 3 .

The feeder 13 larger than the feeder 12 is integrally built on the shaft 130 , and the second one-way bearing 13 B as well as the supporting seats W 1 and W 3 are used together to support the shaft 130 . A third gear portion G 4 is formed on the second one-way bearing 13 B and engaged to the second gear portion G 2 .

FIG. 3 is a side view of the feeding mechanism 1 according to a sectional line A—A of FIG. 2 .

The scrubber 10 can be moved within a predetermined path angled from line S 1 to line S 2 . The lower housing H- 2 is provided with an initial site X 1 , a predetermined site X 2 , a first surface 161 and a second surface 171 , wherein the first surface 161 and the second surface 171 are located between the initial site X 1 and the predetermined site X 2 . The initial site X 1 is a place used to receive the media P before the scrubber 10 takes them, and the predetermined site X 2 is another place used as a destination to receive the media P.

A plate 16 which is pivoted on an axis 160 and suspended by a spring 162 and a roller 17 which is pivoted on another axis 170 are mounted on the lower housing H- 2 , respectively. The plate 16 is provided with the first surface 161 , which is moveable and separately contacts the feeder 12 by the spring 162 and moved along a predetermined path between line S 3 and line S 4 . The roller 17 is provided with the second surface 171 , which contacts the feeder 13 .

FIGS. 4A to 4 D shows how the media P is transmitted by the feeding mechanism 1 from the initial site X 1 to the predetermined site X 2 .

In FIG. 4A , the feeding mechanism 1 is covered with the upper housing H- 1 and is ready to use the scrubber 10 to scrub the media P.

Before the media P is scrubbed by the feeding roller 101 R, the second gear portion G 2 (in FIG. 2 ) is actuated in a first direction, such as counterclockwise, by the third gear portion G 4 which is connected to a motor (not shown) or the same, and the third gear portion G 3 is rotated a second direction, such as clockwise, by the second gear portion G 2 . The third gear portion G 3 actuates the shaft 150 rotated in clockwise direction through the releasing device 15 - 2 . The deskewer 14 is lowered to position S 01 by its own weight and the cam portions 151 ( 151 ) are pushed and rotated clockwise following the movement of the deskewer 14 . The media P, therefore, can be located and skewed at the initial site X 1 by the deskewer 10 .

When the deskewer 10 properly sets the media P located at the initial site X 1 , a motor (not shown) begins to actuate the third gear portion G 4 rotated in the counterclockwise direction. Then, the third gear portion G 3 is rotated counterclockwise through the second gear portion G 2 , and then the first gear portion G 1 is rotated clockwise through the third gear portion G 3 , and then the scrubber 10 is rotated clockwise from line S 1 toward line S 2 .

In FIG. 4B , the feeder 13 is rotated in the counterclockwise direction R 2 , and the cam portions 151 ( 151 ) are also rotated counterclockwise and the deskewer 14 is elevated from the first position S 01 toward the second position S 02 by following the movement of the cam portions 151 ( 151 ). When the elevating deskewer 14 contacts the stopper 180 , and the deskewer 14 is stopped and limited at position S 02 , and the third gear portion G 3 begins to slide on the first plate 152 P 1 (see FIG. 2 ) of the releasing device 15 - 2 , and there are no further effective frictional forces generated. Then, the scrubber 10 is rotated from line S 1 to line S 2 , and the feeding roller 1011 R starts to scrub the top of the media P and passes it toward the feeder 12 .

Then, the media P passed from the feeding roller 101 R contacts the feeder 12 and the plate 16 , and then the media P is frictionally clamped therebetween and transmitted toward the feeder 13 . Because the frictional force between any two overlapped sheets is far smaller than the one between the sheet and the feeder 13 or the one between the sheet and the plate 16 , only one sheet is allowed to pass between. When the media P transmitted by the feeder 12 contacts the feeder 13 and the guiding roller 17 , the feeder 13 rotated counterclockwise can be used as a deskewer to correct the leading edge of the media P parallel to the third axis III-III.

Then, referring to FIG. 4C , the feeder 13 begins to rotate clockwise to press the media P on the guiding roller 17 and frictionally transmit it toward the predetermined site X 2 when the deskewing process is finished. In FIG. 4D , the media P escapes from the clamp between the feeder 13 and the guiding roller 17 and finally arrives at the predetermined site X 2 . The deskewer 14 is lowered to the first position S 01 by its own weight and the cam portions 151 ( 151 ) are pushed and rotated clockwise following the movement of the deskewer 14 . Then, the third gear portion G 3 begins to slide on the first plate 152 P 1 of the releasing device 15 - 2 , and there are no further effective frictional forces generated between the third gear portion G 3 and the first plate 152 P 1 .

The deskewer 14 , therefore, is properly kept at the first position S 01 and prepares for the next feeding process from the media P stacked in the initial site X 1 , and the overload from the third gear portion G 3 (driving element) can be properly set free by the releasing device 15 - 2 .

While this invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims

1. An apparatus for feeding media from an initial site to a predetermined site, comprising:a deskewer disposed between the initial site and the predetermined site, moved between a first position and a second position and contacting the media located at the initial site; a feeder movably disposed next to the initial site to transmit the media located at the initial site toward the predetermined site; a lifting device for moving the deskewer from the first position to the second position, having a cam contacting the deskewer; a driving element for actuating the lifting device, connected to the lifting device; and a releasing device disposed between the lifting device and the driving element, having a first plate separately contacting the driving element.

2. The apparatus as claimed in claim 1, wherein the releasing device further comprises a second plate and a spring which is connected between the first plate and the second plate.

3. The apparatus as claimed in claim 1, wherein the media are papers.

4. The apparatus as claimed in claim 1, wherein the deskewer is an L-shaped board in a cross-section view.

5. The apparatus as claimed in claim 1, wherein the deskewer movably guided along two guiding holes is actuated by the cam, so as to align the media.

6. The apparatus as claimed in claim 1, further comprising a first gear portion used for actuating a scrubber portion, a second gear portion used for actuating the feeder, and a third gear portion connected to the releasing device and engaged between the first gear portion and the second gear portion.

7. An apparatus for feeding media from an initial site to a predetermined site, comprising:a deskewer disposed between the initial site and the predetermined site, moved between a first position and a second position and contacting the media located at the initial site; a feeder movably disposed next to the initial site to transmit the media located at the initial site toward the predetermined site; a lifting device for moving the deskewer from the first position to the second position, having a cam contacting the deskewer; a stopper for limiting the deskewer moved between the first position and the second position, disposed next to the deskewer; a driving element for actuating the lifting device, connected to the lifting device; and a releasing device disposed between the lifting device and the driving element, having a first plate separately contacting the driving element.

8. The apparatus as claimed in claim 7, wherein the releasing device further comprises a second plate and a spring which is connected between the first plate and the second plate.

9. The apparatus as claimed in claim 7, wherein the media are papers.

10. The apparatus as claimed in claim 7, wherein the deskewer is an L-shaped board in a cross-section view.

11. The apparatus as claimed in claim 7, wherein the deskewer movably guided along two guiding holes is actuated by the cam, so as to align the media.

12. The apparatus as claimed in claim 7, further comprising a first gear portion used for actuating a scrubber portion, a second gear portion used for actuating the feeder, and a third gear portion connected to the releasing device and engaged between the first gear portion and the second gear portion.