KR19990004365U - A device for maintaining the document gap of a multi-function device. - Google Patents

Abstract

The present invention relates to an inkjet printer and a multi-function device in which a facsimile and an optical module are combined. In particular, the front of the optical module includes a member shape called a deflector guide for guiding paper and an original. It guides the originals and paper at the bottom and guides the originals on the side of the deflector guide in the direction perpendicular to the paper direction, that is, in the direction of movement of the optical module. By preventing the blurring, the uniform image is read.

Description

A device for maintaining the document gap of a multi-function device.

The present invention relates to an inkjet printer and a composite device in which a facsimile and an optical module are combined, and in particular, a device for maintaining a constant document gap of a composite device in order to read a uniform image by attaching a deflector guide to the front of the optical module. It is about.

In general, office equipment including computers, printers, copiers, optical modules, and fax machines used in offices have their own functions.

That is, the printer is an output device that outputs data or characters or graphics created on a computer in the form of characters on a paper for printing, and the copier is a device for forming data in the form of originals or images on a large number of originals as it is. Milli is a useful device for sending manuscripts for immediate viewing of data that is needed by a remote person.

Such various office equipment has a problem that it is difficult to install in a narrow office or a narrow space because it maintains its function in each independent form.

In recent years, a complex product has emerged to express the functions of office equipment in a complex manner.

Especially. The present invention relates to a composite device for realizing the function of the inkjet printer and the function of the optical module in accordance with this trend.

1 and 2 show a front view in which the optical module is attached to the side of the carriage on which the inkjet cartridge head is mounted as shown, and guides the belt pulley 18 by driving the carriage return motor 19. It moves horizontally along the guide shaft 6 and prints on the paper 10.

In addition, the document 10 for scanning is fed and scanned according to the driving of the idle roller 13 and the drive roller 14.

Looking at this structure in more detail, in general, the paper feed roller 12 feeds the paper 10 stored in the document feeder 11 in the reading method employing the shuttle method of the inkjet printer.

In this way, the paper 10 fed by the feed roller 12 is picked up by the rotating frictional force of the drive roller 14 and the idle roller 13, is fed and then read by the optical module 5 when the paper 10 is read. The gap with the hem of the reading is generally maintained at about 2 m / m.

Here, a gap Gap of about 2 m / m is a gap Gap for smoothly feeding the original when the original is fed.

However, in the optical module 5, when the document 10 to be conveyed along the document feed path 7 is read, the document is swollen, and the original image reading ability is degraded.

That is, when reading with the optical module 5 due to a gap of about 2m / m, there is a problem that the image is uneven, so that it is difficult to accurately read.

The present invention aims to maximize reading uniformity of the original image by adding a deflector guide to the front end of the optical module.

In order to achieve the above object, the deflector guide is attached to the front of the optical module to maintain a constant gap (Gap) generated during the transport of the document.

In addition, the deflector guide guides the document and the paper at the bottom of the deflector guide in the advancing direction of the paper, and guides the document at the side of the deflector guide perpendicular to the paper advancing direction, that is, in the direction of movement of the optical module. There are detailed features integrated into the structure.

1 is a front view showing a carriage with an optical module according to the prior art,

2 is a side view illustrating a reading process of the optical module according to FIG. 1;

3 is a perspective view showing a deflector guide according to the present invention,

4 is a perspective view illustrating a configuration of an optical module to which FIG. 3 is mounted;

Figure 5 is a side view showing a reading process of the optical module implemented the present invention.

The construction and operation of the present invention will be described in detail with reference to the accompanying drawings.

3 to 5 show an example according to an embodiment of the present invention, in which a member shape called a deflector guide 20 for guiding a sheet of paper and an original is inserted in the front of the optical module 5 in the advancing direction of the sheet of paper. Guides the document and the paper at the hem 20a of the deflector guide 20, and is directed from the side surface 20b of the deflector guide 20 vertically in the paper advance direction, that is, in the movement direction of the optical module 5. It is structured to guide the manuscript.

Looking at the structure according to the present invention in detail with reference to Figure 5, Figure 5 shows a shuttle type scan device using the same drive system by configuring the inkjet head module 17 and the optical module (4) together.

The document 10 stored in the document and paper feed unit 11 is fed by the feed roller 12.

Thus, the document 10 fed by the feed roller 12 enters between the idle roller 13 and the drive roller 14 and is picked up by the rotating frictional force and proceeds along the document feed path 7, and then optically When the scanning is completed by the module 5, it is discharged by the rotating frictional force between the discharge roller 16 and the friction roller 15.

The printing process is to be printed by ink ejected from the inkjet head module 17 while the carriage equipped with the optical module and the inkjet head is moved left and right by driving the carriage return motor, and the scanning process is performed by the optical module and the inkjet head. While the carriage on which the module is mounted moves left and right, the lamp 3 inside the optical module 5 irradiates light onto the document 10 closely contacted by the bottom of the deflector guide 20.

At this time, the amount of light reflected on the original surface, that is, the image data of the original surface passes through the glass 4 of the optical module and passes through the lens 2.

The amount of light passing through the lens 2 is focused by a CCD (Charge Coupled Device) sensor 1 that converts light energy into electrical energy, so that image data of the original surface is read uniformly.

That is, in the process of scanning by the optical module, the gap of the document 10 fed by the idle roller 13 and the drive roller 14 becomes 2 m / m, and the image is shaken, so that the optical module 5 becomes the original. This prevents the user from reading the document correctly.

As described above, the deflector guide is installed at the front part of the optical module to uniformly adhere the original to the bottom guide to prevent the blurring generated during the transfer of the original, thereby reading the uniform image.

Claims (2)

In the shuttle optical optical module, And a deflector guide attached to the front of the optical module to keep the original constant in the advancing direction of the original. The method of claim 1, The deflector guide is a device for maintaining the original gap of the multi-function device, characterized in that the integrated shape so as to guide the original in the advancing direction and the optical module advancing direction.