JPH04201931A - Sheet feeder - Google Patents

Abstract

PURPOSE:To miniaturize the mechanism part of a sheet feeder by transmitting the drive power to either pair of swing gears through a cam rotating means, and sucking in sheets of paper while driving pickup rollers selectively. CONSTITUTION:Two pairs of gears 6, 13 are furnished, which contact in swinging with one idler gear 5 taking the drive power from a platen shaft. These gear couples 6, 13 are contacted and separated with/from each other by rotating a can 17 installed coaxially with another ider gear 3 through the action of a solenoid 20 to as to transmit the power to either of the gear couples 6, 13, and thereby the torque of the platen 1 is conducted to pickup roller gears 7, 12 installed in conjugation ahead the gears. Thus sheets of paper are sucked in.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a sheet feeder used in printers and the like, and particularly to a two-bin sheet feeder.

[Conventional technology]

In a two-bin sheet feeder conventionally used in a paper feeding mechanism of a printer, a platen gear 1 and an idler gear 34 are connected via an idler gear 32 and a belt 33, as shown in FIG.

A pick roller gear 35 is attached to the same axis of the pick roller 42 via a one-way clutch 36. Here, the one-way clutch 36 is attached in a direction that transmits the rotation of the pick roller gear 35 in the C direction to the pick roller 42. Also, on the same axis of the pick roller 43,
Big roller gear 37 via one-way clutch 38
is installed. Here one way clutch 38
is attached in a direction that transmits the rotation of the big roller gear 37 in the d direction to the pick roller 43. The solenoid 41 and the idler gear 39 are connected via an arm 40, and a tension coil spring 48 is attached to one end of the arm 40 to pull it downward. When the solenoid 41 is in the open state, the tension coil spring 48 pulls the arm 40, so the idler gear 34, the big roller gear 37 and the idler gear 39 are in the engaging direction, and when the solenoid is in the suction state, the idler gear 39 is pulled by the idler gear 734 and the big roller gear 35. It will be in the hekami direction.

Next, the operation shown in FIG. 7 will be explained. When the platen gear 1 rotates in the C direction, the idler gear 34 rotates in the C direction.

When the solenoid 41 is open, the pick roller gear 3
7 rotates in the d direction, and feeds sheets one by one from the paper feed cassette 45 using the big roller 43 and sends them to the rear of the platen 47. When the solenoid 41 is in the suction state, the pick roller gear 35 rotates in the C direction, and the pick roller 42 feeds sheets one by one from the paper feed cassette 44 to the rear of the platen 47. Next, the fed paper gets caught in the platen 47 and the pressure roller 46, and when the platen gear 1 is rotated in the direction b, the big roller 42.43
is idling and the paper is stuck to the platen 47 and pressure roller 46.
It is sent out to the front of the platen 47.

[Problems to be Solved by the Invention] In the above-mentioned two-bin sheet feeder, since the idler gear moves linearly, there is a problem in connection with the idler gear that transmits the drive, and the gear is moved due to the load during paper feeding. It was extremely unreliable, as the paper jammed too much, making it difficult to select the paper cassette section, and sometimes did not get caught.

Means for Solving Problem C] The selection mechanism of the 2-bin sheet feeder of the present invention has two pairs of gears that oscillate in contact with one idler gear that receives power from the platen shaft. By rotating a cam coaxially attached to the idler gear via a solenoid, the two pairs of rocking gears are brought into contact with or separated from each other, thereby transmitting power to either of the two pairs of gears, and the rotational force of the platen is transferred to the rotational force of the platen. This is transmitted to the big roller at the end of the gear, which sucks in the paper.

a gear, a big roller connected to each shaft of the two pairs of rocking gears, a cam attached coaxially with the idler gear to rock the two pairs of rocking gears, and a cam rotation to rotate the cam. A sheet feeder comprising means for selectively driving the big roller to suck in paper by transmitting power to either of the two pairs of swing gears by the cam rotation means. I will provide a.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIGS. 1 and 2 show an example in which the embodiment of the present invention is implemented in a two-bin sheet feeder. big roller shaft 2
A pick roller gear 7 and a gear arm 10, which are press-fitted with a one-way clutch 8, are attached to the same axis of the gear arm 10, and an idler gear 6 and a collar 11 are attached to the tip of the gear arm 10. It consists of FIG. 5 shows the configuration of the swing gear I. Here, the one-way clutch 8 is press-fitted in a direction that transmits the rotation of the pick roller gear 7 in the C direction to the pick roller shaft 23. Furthermore, a big roller 25 is attached coaxially to the big roller shaft 23, and the rotation of the big roller shaft 23 is transmitted thereto.

A pick roller gear 12 and a gear arm 15, into which a one-way clutch 31 is press-fitted, are attached coaxially to the big roller shaft 24, and an idler gear 13 and a collar 16 are attached to the tip of the gear arm 15, and these gear trains swing. It constitutes gear ■. FIG. 6 shows the configuration of the swing gear (2). Here, the one-way clutch 31 is press-fitted in a direction that transmits rotation of the pick roller gear 12 to the pick roller shaft 24 in the f direction. Furthermore, a big roller 26 is attached coaxially to the big roller shaft 24, and the rotation of the big roller shaft 24 is transmitted thereto.

The arrangement of the fulcrum of the swing gear ■ and the idler gear 6 is such that when the idler gear 5 rotates in the direction b, when the idler gear 6 and the idler gear 5 are engaged, a force in the engagement direction is applied to the swing gear I. It is located in The fulcrum of the swing gear ■ and the arrangement of the idler gear 13 are the idler gear 5.
When the idler gear 13 and the idler gear 5 are engaged with each other when rotated in the b direction, the swing gear (2) is arranged so that a force in the engagement direction is applied.

A cam 17 is attached coaxially to the idler gear 5, a pin protrudes from the tip of the cam 17, and the pin and the solenoid 20 are connected by an arm 19. Furthermore, a tension coil spring 18 is attached downward from one end of the arm 19, and since force is applied in the direction of pulling the arm, the cam 17 is connected to the solenoid 2 as shown in FIG.
When 0 is transferred from the excited state to the open state, it rotates in the d direction and pushes up the collar 16 that is in contact with the cam surface.
and disconnect idler gear 5. Also, when in suction state, the fourth
As shown in the figure, it rotates in the C direction and pushes up the collar 11 that is in contact with the cam surface, separating the swing gear I and the idler gear 5. The swing gear I is given a force in the direction of engagement with the idler gear 5 by a torsion spring 9.

The swing gear (2) is given a force in the direction of engagement with the idler gear 5 by a torsion spring 14.

In addition, a one-way club, chi 4, is installed coaxially with the feed roller 27.
It is attached via. There is a feed roller gear 3, but the one-way clutch 4 is connected to the feed roller gear 3.
It is attached in a direction that transmits the rotation only in the h direction to the feed roller 27.

Next, the operation of the present invention will be explained.

The idler gear 5 rotates in the b direction due to the rotation of the platen gear 1 in the C direction via the idler gear 2 and feed roller gear 3. At this time, the feed roller gear 3 rotates in the i direction, so the rotation is transmitted to the feed roller 27. It has not been.

When the solenoid 20 is opened, the swing gear ■ and the idler gear 5 are separated, and the rotation of the idler gear 5 in the b direction is transmitted to the pick roller gear 7 as a rotation in the C direction via the swing gear I, and the pick roller 25 rotates to feed sheets one by one from the paper cassette section 21 and send the sheets to the rear of the platen 29. When the solenoid 20 enters the suction state, the swing gear ■ and the idler gear 5 are separated, and the rotation of the idler gear 5 in the b direction is transmitted to the pick roller gear 12 as rotation in the f direction via the swing gear ■, and the pick roller gear 12 is rotated in the f direction. The roller 26 rotates to feed sheets one by one from the paper cassette section 22 and send the sheets to the rear of the platen 29.

Next, the paper that has been fed to the rear of the platen 29 is caught between the platen 29 and the pressure roller 30, and then when the platen gear 1 is rotated in the C direction, each pick roller gear is in the idling direction, and the paper is pushed between the platen 29 and the pressure roller. 30 feeds the paper forward of the platen. When the platen gear 1 is further rotated in the C direction, the information is transmitted to the feed roller gear 3 via the idler gear 2, the feed roller 27 is rotated, and after the paper is caught between the feed roller 27 and the pressure roller 28, the paper is transferred to the 2-pin sheet feeder. The paper is ejected from the

As explained step by step above, the sheet feeder of this embodiment can select the paper feed force (I, I) by opening the solenoid.
This is a simple two-bin sheet feeder that can be switched by moving two pairs of rocking gears that are moved by suction and brought into contact or separated.

〔Effect of the invention〕

As explained above, the present invention provides two pairs of gears that swing and contact one idler gear to which power is transmitted from the platen shaft, by rotating a cam coaxially attached to the idler gear via a solenoid. By bringing the swinging gears into contact with or apart from each other, power can be transmitted to one of the two pairs of gears, and the rotational force of the platen can be transmitted to the pick roller connected to the tip of the gear, thereby sucking the paper. This has the effect of making it possible to downsize the mechanical section and providing an inexpensive device.

[Brief explanation of the drawing]

FIG. 1 is a perspective perspective view of a two-bin sheet feeder according to an embodiment of the present invention. FIG. 2 is a side view of the mechanism of FIG. 1. FIGS. 3 and 4 are diagrams showing the state in which the cam rotates and the swing gears I and (2) are respectively switched. FIG. 5 is a perspective view showing the structure of swing gear (2). 6th
The figure is a perspective view showing the configuration of swing gear (2). FIG. 7 is a perspective perspective view of a conventional two-bin sheet feeder. 1... Platen gear, 2... Idler gear, 3... Feed gear, 4... One-way clutch, 5... Idler gear, 6...
... Idler gear, 7 ... Big roller gear, 8 ... One-way clutch, 9 ...
...Towsion spring, 10...Gear arm, 1
1...Color, 12...Big roller gear, 13...Idler gear, 14...
・Towsion spring, 15... Gear arm, 16... Collar, 17... Cam, 1
8...Tension coil spring, 19...
・Arm, 20... Solenoid, 21...
・・Paper cassette part ■, 22 ・・・・Paper cassette)
III, 23... Big roller shaft, 24
・・・・・・Big roller shaft, 25・・・・・・
Big roller, 26...Pick roller, 27.
...Feed roller, 28...Pressure roller, 30...Platen, 31...
・One-way clutch, 33...Gun belt, 34...
...Idler gear, 35...Big roller gear, 36...One-way clutch, 37. River...Pi. ri p-ragi 7.38・・・One-way clutch,
39... Idler gear, 40... Arm, 41... Solenoid, 42... Pick roller, 43... Pick roller, 44...
...Paper feed cassette, 45...Paper feed cassette, 46...Press roller, 47...
Platen, 48...Tension coil spring. Agent: Susumu Uchihara, Patent Attorney Figure 2, Figure 3, Figure 4, Figure 6

Claims (1)

[Claims] two pairs of rocking gears that swing and selectively contact an idler gear that receives power from the platen shaft; a pick roller that is connected to the respective shafts of the two pairs of rocking gears; and a pick roller that is attached coaxially with the idler gear. The apparatus includes a cam that swings the two pairs of swing gears, and a cam rotation means that rotates the cam, and the cam rotation means transmits power to either of the two pairs of swing gears, A sheet feeder characterized in that the pick roller is selectively driven to suck in paper.