KR20050106567A - Feed sensor for image forming apparatus and method for compensating top margin of feeding paper using the same - Google Patents

Abstract

Disclosed is a feed detection device for an image forming apparatus having a structure capable of measuring the ON time of a paper feed sensor, and a method of compensating for the leading margin of a sheet of paper for managing the sheet margin within a certain range using the same. have.

The disclosed paper feed sensing device for an image forming apparatus is rotatably installed around a paper feed path, and includes a lever member having a contact portion in contact with a leading end of the paper feeded through the paper feed path; And sensing means for detecting a time point at which the paper passes through the paper feed path and a time taken for the paper feed to move by a predetermined distance.

In addition, the leading margin compensation method of the sheet of paper using the disclosed paper feeder for detecting the image forming apparatus comprises the steps of: detecting the ON time of the paper feed sensor; Comparing the detected on time of the paper feed sensor with a reference time corresponding to the on time of the paper feed sensor stored in the CPU; And adjusting the operation time of the laser scanning unit or the clutch on time for transmitting power to the paper feed roller according to the comparison result.

Description

Feed sensor for image forming apparatus and compensating top margin of feeding paper using the same}

The present invention relates to a feed sensing device for an image forming apparatus and a method for compensating for the leading margin of a sheet of paper using the same, so as to detect whether paper is fed in accordance with an image forming process, and more particularly, on time of a paper feed sensor. It relates to a feed detection device for an image forming apparatus having a structure that can be measured and a method of compensating for the leading margin of a paper sheet to be managed within a predetermined range by using the same.

In general, an image forming apparatus such as a laser printer, a facsimile, a digital copier, or the like forms a electrostatic latent image by scanning light onto a photosensitive medium charged to a predetermined potential, and then develops the image with a developer of a predetermined color, and transfers and fixes the image onto a paper. It is a device for printing. The image forming apparatus includes a laser scanning unit (hereinafter referred to as LSU), a developing unit, a transfer unit, and a fixing unit to perform an image forming process. It also includes a process of picking up paper and transferring the paper through a paper feed path in order to transfer the image formed through the image forming process to the paper. Here, in order to adjust the timing between the image forming process and the paper conveying process, a paper feed detecting device for detecting the paper leading end is provided on the paper feed path.

1A and 1B, a conventional paper feed detecting device for an image forming apparatus is rotatably installed, and includes a lever member 1 having a contact portion 3 and a sheet of paper fed through the paper feed path 10. It includes a detection means (5) for detecting the time passing point of the front end.

The lever member 1 is rotatably installed around the paper feed path 10, and its position varies depending on whether paper P is fed. The contact portion 3 protrudes from the lever member 1 toward the paper feed path 10 so as to contact the tip of the paper P being fed through the paper feed path 10. The detection means 5 includes a detection unit 7 installed on the lever member 1, and a paper feed sensor 9 fixedly installed around the lever member 1 to detect the position of the detection unit 7.

Therefore, before the paper P comes into contact with the contact portion 3, the lever member 1 has an arrangement as shown in FIG. 1A by its own weight. At this time, the detection unit 7 is positioned in the paper feed sensor 9. On the other hand, when the paper P starts conveying and its tip comes in contact with the contact portion 3, it overcomes its own weight and the lever member 1 starts to rotate until it has an arrangement as shown in Fig. 1B. Is rotated. At this time, the detection unit 7 is out of the paper feed sensor 9, the paper feed sensor 9 recognizes the time out of this to detect the leading edge of the paper (P).

As described above, the conventional paper feed detecting device configured can detect the tip position of the paper P, but cannot measure the feed speed of the paper P being fed.

The paper feeding process according to the conventional image forming is performed in engagement with the image forming process, as shown in FIG. 2.

The central processing unit (CPU) controls the image process and the paper feeding process. First, the image forming process will be described. The LSU is controlled (LSU ON) through data transmission to form an electrostatic latent image on the photosensitive medium, which is developed through a developing unit. Subsequently, the image developed on the photosensitive medium is first transferred to the transfer unit, and the image transferred to the transfer unit is secondarily transferred onto the sheet of paper fed through the paper feeding process.

Then, looking at the paper feeding process, the CPU controls the pickup roller to pick up the paper from the paper feed cassette. If the paper feed sensor does not turn on within a certain time after picking up the paper, perform a paper jam. On the other hand, when the feed sensor is turned on, after the first transfer is completed and a predetermined time has elapsed, the feed sensor is turned on to perform a discharge operation by turning on a clutch that transfers power to the feed roller. Car is killed.

Here, the method of matching the margin at the time of image transfer with respect to the paper is calculated by calculating the time from the time of forming the electrostatic latent image through the LSU to the development, the primary and the secondary transfer, and based on the programmed specific time. .

On the other hand, in the case of adjusting the leading margin of the sheet of paper in the above-described manner, the paper slip on the pickup roller, the loading state of the sheet on the paper cassette, the feed clutch on / off time deviation, and the like, are described above. There is a problem in that it is not possible to precisely adjust the leading margin only by controlling through a specific time through calculation. In addition, in order to compensate for such an error, there is a disadvantage that a firmware (Firm Ware) modification for changing a predetermined time or a preset clutch is required.

Accordingly, the present invention has been made in view of the above-described points, and the feed detecting device for the image forming apparatus, which is capable of actively measuring the on time of the paper feed sensor during operation of the image forming apparatus and using the same to adjust the front margin. It is an object of the present invention to provide a method for compensating for the leading margin of a sheet of paper using the same.

The paper feed detection device for an image forming apparatus according to the present invention for achieving the above object is a lever member having a contact portion which is installed rotatably around a paper feed path and in contact with the tip of the paper feeded through the paper feed path; ; And sensing means for detecting a time point at which the feed sheet passes through the paper feed path and a time taken for the paper feed to move by a predetermined distance.

Here, the sensing means, the detection unit is installed on the lever member and rotated together with the lever member having a detection area for recognizing the time passing the front end of the paper feed and the time taken for the paper feed to move a predetermined distance; And a paper feeding sensor fixedly installed around the lever member and sensing the recognition area to detect a position and a movement time of the detection unit.

In addition, the leading margin compensation method of the paper sheet according to the present invention for achieving the above object, using the feed detection device, the step of detecting the ON time of the paper feed sensor; Comparing the detected on time of the paper feed sensor with a reference time corresponding to the on time of the paper feed sensor stored in the CPU; And adjusting the operation time of the laser scanning unit or the clutch on time for transmitting power to the paper feed roller according to the comparison result.

Hereinafter, the paper feed detecting apparatus for an image forming apparatus according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 3A and 3B.

The paper feed detecting device for an image forming apparatus according to the embodiment of the present invention has a lever member 21 rotatably installed around the paper feed path 41 and the front end of the paper feed P through the paper feed path 41. It includes a detection means 30 for detecting the time it takes to pass a predetermined distance and the paper feed sheet (P).

The lever member 21 includes a contact portion 23 contacting the tip of the paper feeder P fed through the paper feed path 41. The contact portion 23 protrudes from the lever member 21 toward the paper feed path 41. This lever member 41 changes its rotational position depending on whether paper P is fed. That is, before the paper P comes into contact with the contact portion 23, the lever member 41 has the arrangement as shown in FIG. 3A by its own weight. On the other hand, when the paper P starts conveying and its tip comes in contact with the contact portion 23, the weight is overcome and the lever member 21 starts to rotate until it has the arrangement as shown in Fig. 3B. Is rotated.

The sensing means 30 includes a detection unit 31 installed on the lever member 21 and a paper feed sensor 35 fixedly installed around the lever member 21.

The detection unit 31 is installed on the lever member 21 and rotates together with the lever member 21, and includes a recognition area 31a. The recognition area 31a is an area used for recognizing the time of passing the front end of the paper sheet P and the time taken for the paper sheet P to move a predetermined distance. The recognition area 31a has a predetermined length in the rotational direction of the detection unit 31 and is preferably a long hole formed therethrough.

The paper feed sensor 35 senses the recognition area 31a to detect the position and movement time of the detection unit 31. To this end, the paper feed sensor 35 preferably includes a light emitting element (not shown) and a light receiving element (not shown) disposed on both sides of the detection unit 31. In this configuration, when the paper feed sensor 35 is disposed between the front end and the rear end of the long hole, the beam irradiated from the light emitting element passes through the long hole to form the light receiving element, and otherwise, the beam is blocked. .

Here, when the lever member 21 is rotated according to the feeding of the paper P, by detecting the tip detection time of the long hole, it is possible to measure the presence and absence of the tip passing of the paper P. Further, by measuring the time from the front end detection time of the long hole to the rear end detection time of the long hole, the movement time of the paper can be known.

In addition, the recognition region 31a may be formed as a reflective surface in addition to the long hole structure described above. In this case, as the paper feed sensor 35, a reflective sensor in which both the light receiving element and the light emitting element are disposed on one side may be employed. Here, since the configuration of the paper feed sensor itself is widely known, its detailed description will be omitted.

In the paper feed detecting device according to the present invention configured as described above, by providing the recognition area 31a in the detecting unit 31, the feed speed of the paper P being fed as well as the leading position of the paper P can be measured. . Therefore, it is possible to compensate for the change in the leading margin of the paper feeder caused by the paper feeding operation and the clutch operation by the method described later on the basis of the measured data.

3A and 3B and FIG. 4, a method of compensating for the leading margin of a sheet of paper according to an embodiment of the present invention will be described in detail.

The CPU controls the image process and the paper feed process. First, referring to the image forming process, the LSU is controlled (LSU ON) through data transmission to form an electrostatic latent image on the photosensitive medium, and is developed through the developing unit. Subsequently, the image developed on the photosensitive medium is first transferred to the transfer unit, and the image transferred to the transfer unit is secondarily transferred onto the sheet of paper fed through the paper feeding process.

Looking at the paper feeding process, the CPU controls the pickup roller to pick up the paper P from the paper feed cassette. If the paper feed sensor 35 is not turned on within a predetermined time after picking up the paper P, a paper jam processing is performed. On the other hand, when the feed sensor 35 is turned on, by maintaining the standby state after the first transfer is completed and a predetermined time has elapsed by turning on the clutch for transmitting the power provided from the drive source to the feed roller 45 to perform the discharge operation, The image is secondarily transferred onto the paper along the leading margin.

Here, the method for matching the margin at the time of image transfer with respect to the paper is detected by detecting the on time of the paper feed sensor 35, comparing the detected on time with the reference time, and adjusting to secure a desired leading margin. It includes a step.

The on time of the paper feed sensor 35 is used to determine the paper feed speed of the paper feeding paper P. The on time of the paper feed sensor 35 may be measured by recognizing the recognition region 31a shown in FIG. 3A through the paper feed sensor 35. . It is preferable to take an average value in order to calculate a more accurate value of the on time of this paper feed sensor 35. To this end, it is preferable to detect the on time of the paper feed sensor 35 for each of a plurality of sheets, for example, five sheets of printing paper, during initial driving of the image forming apparatus, and then determine the average value of the detected times.

The reference time is a time corresponding to the on time of the paper feed sensor 35 stored in the CPU and is based on the time from the time of forming the electrostatic latent image through the LSU in the normal state to the phenomenon, the first and the second transfer. It is a value obtained by.

The comparing step compares the reference time obtained as described above with the paper feed sensor 35 on time, and when the value obtained by subtracting the paper feed sensor 35 on time from the reference time has a positive value, This means that the margin margin is narrower than the desired value. On the other hand, when the value has a negative value, it means that the sheet leading margin is wider than the desired value.

The adjustment step is a step of adjusting the operation time of the LSU or the on time of the clutch that transfers the power provided from the driving source to the paper feed roller 45, that is, the operation start time, based on the result obtained in the comparison step. By adjusting in this way, even if the printing environment is changed, the margin margin of the paper can be actively maintained at a desired width.

The paper feed detecting apparatus for the image forming apparatus according to the present invention configured as described above may measure the on time of the paper feed sensor during operation of the image forming apparatus.

In addition, the leading margin compensation method of the paper feeder compares the on time of the paper feed sensor measured in advance with the reference time stored in the CPU, and actively adjusts the driving time of the LSU or paper feed roller by using the comparison result. In addition, the leading margin of the feed sheet can be actively matched to ensure the quality of the leading margin. In addition, since the margin can be adjusted even when the clutch component deviation is large, the clutch selection range can be widened, thereby reducing the cost by significantly reducing the clutch replacement or modification of the firmware.

The above embodiments are merely exemplary, and various modifications and equivalent other embodiments are possible from those skilled in the art. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the invention described in the claims below.

1A and 1B are schematic views showing different operating states of a paper feed detection device for a conventional image forming apparatus.

2 is a schematic block diagram showing an image forming and feeding process according to a conventional image forming.

3A and 3B are schematic views showing different operating states of a paper feed detection device for an image forming apparatus according to an embodiment of the present invention.

4 is a schematic block diagram showing an image forming and feeding process for explaining a leading margin compensation method of a sheet of paper using a sheet sensing device for an image forming apparatus according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

21 Lever member 23 Contact

30 Detecting means 31 Detecting unit

31a ... Recognition area 35 ... Feed sensor

41.Feeding path 45.Feeding roller

P ... paper

Claims (5)

A lever member rotatably installed around a paper feed path, the lever member having a contact portion in contact with a tip of a paper feeder fed through the paper feed path; And sensing means for detecting a time point at which the paper feed passes through the paper feed path and a time required for the paper feed to move a predetermined distance through the paper feed path. The method of claim 1, wherein the sensing means, A detection unit installed in the lever member and pivoting together with the lever member, the detection unit having a recognition area capable of recognizing the time of passing the leading end of the paper feed and the time taken for the paper feed to move a predetermined distance; And a paper feeding sensor fixedly installed around the lever member and sensing the recognition area to detect a position and a moving time of the detection unit. The method of claim 2, The recognition area is a long hole formed through the detection unit in the rotational direction of the detection unit, The paper feed sensor includes a light emitting element and a light receiving element disposed on both sides of the detection unit, And a feed detection device for the image forming apparatus, wherein the feed sensor and the hole can be detected according to an arrangement degree between the feed sensor and the long hole. A method of compensating for the leading margin of a sheet of paper by using the sheet sensing device for an image forming apparatus according to claim 2 or 3, Detecting an ON time of the paper feed sensor; Comparing the detected on time of the paper feed sensor with a reference time corresponding to the on time of the paper feed sensor stored in the CPU; Adjusting the operation time of the laser scanning unit or the clutch on time for transmitting power to the paper feed roller according to the comparison result; Way. The method of claim 4, wherein The on time of the paper feed sensor detected through the detecting step as a comparison target with the reference time is A method for compensating for the leading margin of a sheet of paper, characterized in that a time of on time is detected for each of a plurality of sheets of printing paper during initial driving of the image forming apparatus, and the detected time is averaged.