Patent Application
20100270732
1. Field of the Invention
The present invention relates to a paper feeding device and more particularly, to a paper feeding device suitable for a multi-function peripheral.
With the advent of the information era, offices are often set up with office automation equipment such as scanners, photocopiers, or printers for users to perform paper work operations through such office automation equipment. When disposed in an office, the aforesaid various kinds of office automation equipment occupy a great deal of space. As a result, a multi-function peripheral (MFP) integrated with functions such as copying, printing, and scanning is developed to resolve the above problem.
A user often puts a stack of paper in the MFP for copying, printing, and scanning. In order for the MFP to pick up one sheet of paper for operation at a time, a paper dividing element is usually disposed in a paper feeding module. A method of dividing paper is to take advantage of the buckling of the paper to pick up the paper. For example, the paper is buckled by friction provided by the paper dividing element formed of a friction pad or a saw-tooth structure. However, the paper dividing method has a certain operation limitation. That is, the paper has to be in a particular range of angles relative to the paper dividing element for the paper to be effectively divided. In other words, if the paper is not arranged to be at a certain angle with the paper dividing element before dividing the paper, the probability of successfully feeding the paper sheet by sheet is lowered.
The present invention provides a paper feeding device for arranging the paper.
The present invention provides a paper feeding device suitable for a multi-function peripheral (MFP). The paper feeding device includes a supporting base, a feeding element, a paper dividing element, and a paper arranging module. The supporting base is for carrying a plurality of sheets of paper and has a supporting surface, an inclined supporting plane extending upward from one end of the supporting surface, and a slot on the supporting surface. The feeding element is disposed on the inclined supporting plane and drives the paper to move from the inclined supporting plane to the supporting surface. The paper dividing element is disposed on the supporting surface to divide the paper, wherein the slot is located between the paper dividing element and the inclined supporting element. The paper arranging module includes a pivot structure, a paper-pushing structure, an elastic element, and a cam. The pivot structure is fixed on the supporting base and under the supporting surface. The paper-pushing structure is pivoted to the pivot structure. The elastic element is connected between the paper-pushing structure and a fixed end. The cam is disposed on the pivot structure and supports against the paper-pushing structure, wherein the cam has a first supporting part and a second supporting part. When the cam rotates till the first supporting part supports against the paper-pushing structure, the paper-pushing structure rotates in correspondence to the pivot structure when being driven by the elastic force of the elastic element so that part of the paper-pushing structure extends from the slot to above the supporting surface and moves toward the inclined supporting plane along the slot to push the paper to the inclined supporting plane. When the cam rotates till the second supporting part supports against the paper-pushing structure and resists the elastic force of the elastic element so as to drive the paper-pushing structure to rotate in correspondence to the pivot structure, the part of the paper-pushing structure extending to above the supporting surface moves away from the inclined supporting plane and to under the supporting surface.
In one embodiment of the present invention, the above-mentioned paper dividing element is a friction pad.
In one embodiment of the present invention, the above-mentioned paper dividing element is a saw-tooth structure.
In one embodiment of the present invention, the above-mentioned feeding element is a roller.
In one embodiment of the present invention, the above-mentioned elastic element is a spring.
In one embodiment of the present invention, the above-mentioned cam further includes a third supporting part. When the cam rotates till the third supporting part supports against the paper-pushing structure and resists the elastic force of the elastic element so as to drive the paper-pushing structure, part of the paper-pushing structure extends from the slot to above the supporting surface and moves toward the inclined supporting plane along the slot so as to be positioned at a particular location on the supporting surface.
In one embodiment of the present invention, the above-mentioned paper-pushing structure includes a rod and a paper-pushing element. The rod is pivoted to the pivot structure and has an extending part supporting against the cam. The paper-pushing element is connected to the rod and corresponds to the slot for pushing the paper.
In light of the above, when the cam of the present invention uses the first supporting part to support against the paper-pushing structure, the elastic element connected between the paper-pushing structure and the fixed end drives the paper-pushing structure to move toward the inclined supporting plane by an elastic force of the elastic element so as to perform paper arrangement. When the cam uses the second supporting part to support against the paper-pushing structure, the cam drives the paper-pushing structure to return to an original position so that the paper is driven by the feeding element to move toward the supporting surface to be divided. The arranged paper is divided by the paper dividing element and as such, the probability of successfully feeding the paper sheet by sheet is increased.
In order to make the aforementioned and other features and advantages of the present invention more comprehensible, several embodiments accompanied with figures are described in detail below.
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
The feeding element 120 is disposed on the inclined supporting plane 114 and drives the paper 50 to move from the inclined supporting plane 114 to the supporting surface 112. The paper dividing element 130 is disposed on the supporting surface 112 to divide the paper 50. The paper arranging module 140 includes a pivot structure 142, a paper-pushing structure 144, an elastic element 146, and a cam 148. The pivot structure 142 is fixed on the supporting base 110 and under the supporting surface 112. The paper-pushing structure 144 is pivoted to the pivot structure 142. The elastic element 146 is connected between the paper-pushing structure 144 and a fixed end E (in the present embodiment, the fixed end E is a structure fixed to the supporting base 110, for example). The cam 148 is disposed on the pivot structure 142 and supports against the paper-pushing structure 144, wherein the cam 148 has a first supporting part 148a and a second supporting part 148b.
In other words, when the cam 148 uses the first supporting part 148a to support against the paper-pushing structure 144, the elastic element 146 connected between the paper-pushing structure 144 and the fixed end E drives the paper-pushing structure 144 to move toward the inclined supporting plane 114 by an elastic force of the elastic element 146 so as to perform arrangement on the paper 50. When the cam 148 uses the second supporting part 148b to support against the paper-pushing structure 144, the cam 148 drives the paper-pushing structure 144 to return to an original position so that the paper 50 is driven by the feeding element 120 to move toward the supporting surface 112 to be divided. In the present embodiment, the paper dividing element 130 is a friction pad or a saw-tooth structure, for example, so that one sheet of the paper 50 is buckled by friction and thus the paper is fed sheet by sheet.
Referring to
Referring to
In light of the above, when the cam of the present invention uses the first supporting part to support against the paper-pushing structure, the elastic element connected between the paper-pushing structure and the fixed end drives the paper-pushing structure to move toward the inclined supporting plane by an elastic force of the elastic element so as to perform paper arrangement. When the cam uses the second supporting part to support against the paper-pushing structure, the cam drives the paper-pushing structure to return to an original position so that the paper is driven by the feeding element to move toward the supporting surface to be divided. The arranged paper is divided by the paper dividing element and as such, the probability of successfully feeding the paper sheet by sheet is increased. In addition, the paper-pushing structure is positioned at a particular location on the supporting surface to properly limit a moving range of the paper so that the paper-pushing structure can actually arrange the paper.
Although the present invention has been described with reference to the above embodiments, it will be apparent to one of the ordinary skill in the art that modifications to the described embodiment may be made without departing from the spirit of the invention. Accordingly, the scope of the invention will be defined by the attached claims not by the above detailed descriptions.
