JP2021160858A - Sheet feeding device - Google Patents

Abstract

To provide a sheet feeding device that can improve productivity of a sheet feeding operation in accordance with sheet types by controlling the sprayed air in performing sheet separation to become a predetermined temperature in a short time.SOLUTION: A sheet feeding device 5 includes: a loading tray 53 for loading a sheet P thereon; sheet feeding means 52 for feeding the sheet P from the loading tray 53; air blowing means 62 for spraying air to the sheet P loaded on the loading tray 53; and a heater HE for heating the air sprayed by the air blowing means 62. The sheet feeding device operates the air blowing means 62 to cool the heater HE in a state where the heater HE stops heating the air.SELECTED DRAWING: Figure 2

Description

The present invention relates to a paper feeding device provided with a sheet air handling means using warm air.

Conventionally, an image forming apparatus such as a printer or a copying machine is provided with a paper feeding device that separates a plurality of sheets loaded on a loading tray one by one and supplies them to the image forming apparatus. This paper feeding device separates a loading tray on which sheets are loaded, a feeding means for feeding by contacting the upper surface of the uppermost sheet loaded, and the fed sheets into one sheet for feeding. A separating means for carrying out the sheet and a transporting means for transporting the sheet separated into one sheet toward the image forming apparatus are provided.

In such a paper feeding device, depending on the type and state of the sheets loaded on the loading tray, it may not be possible to separate the sheets even by the separating means. In order to improve this, some paper feed devices are provided with a function of blowing air onto the sheets loaded on the loading tray to separate the sheets on the loading tray and facilitate the separation of the sheets. For example, in the case of a sheet with a large amount of water, it may be difficult to separate it and it may be double-fed. There is something. The paper feeding device described in Patent Document 1 includes a heater including a heat generating portion and a heat radiating portion, and a blower fan for blowing air heated by the heater onto a sheet. In this case, the temperature of the air blown to the sheet is appropriately set according to the type (thickness, size, material, etc.) of the sheet.

Japanese Unexamined Patent Publication No. 2010-189181

In the case of a paper feeding device described in Patent Document 1, which has a sheet handling function using warm air, the set temperature is adjusted according to the type of sheet, etc., but the set temperature is adjusted by this temperature adjustment. It takes a certain amount of time to reach. For this reason, even if the sheet is set in the loading tray and paper feeding is started at a set temperature suitable for the sheet, it takes time to actually reach that temperature, and during that time, paper feeding cannot be performed and productivity is reduced. There was a problem.

Therefore, the present invention can improve the productivity of the paper feeding operation according to the type of the sheet by controlling the air blown when the sheet is handled so as to reach a predetermined temperature in a short time. The purpose is to provide the device.

In order to solve the above problems, the paper feed device of the present invention includes a loading tray for loading sheets, a paper feeding means for feeding sheets on the loading tray, and a blower for blowing air onto the sheets on the loading tray. In the paper feeding device including the means and the heater for heating the air blown by the blower means, the blower means is operated to cool the heater in a state where the heating of the air by the heater is stopped.

According to the paper feeding device of the present invention, when the temperature of the air is lowered according to the type of the sheet to be fed, the air blowing means is operated with the heating of the air stopped by the heater, so that the heater can be simplified. And it can be cooled efficiently.

It is a conceptual diagram which shows an example of the image formation system including the paper feed device of this invention. It is a conceptual diagram which shows the internal structure of a paper feed device. It is a block diagram which shows the control structure of a paper feed device. It is a flow chart of an air handling operation. It is a flow chart of the cooling operation of a heater. It is a conceptual diagram which shows the lowering operation of the loading tray at the time of cooling of a heater.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, with reference to FIG. 1, an outline of the image forming system 1 including the paper feeding device 5 of the present invention will be described. The image forming system 1 is composed of an image forming device 2 having a document reading unit 3 and a document feeding unit 4, and a paper feeding device 5 connected to the image forming device 2. The image forming apparatus 2 forms an image on a sheet supplied from either the paper feeding cassette 7 or the paper feeding device 5 based on the image data read from the original image by the document reading unit 3, and obtains an image. The formed sheets are accumulated in the accumulating unit 6. A document sheet can also be fed to the document reading unit 3 by the document feeding unit 4. Here, the sheets handled in the image forming system 1 include, in addition to plain paper, transparencies, tracing paper, coated paper, and the like. Further, the size of the sheet is not particularly limited, and a plurality of types of sizes may be supported.

The image forming apparatus 2 includes a charger 12, a floodlight (laser head or the like) 8, a photosensitive drum 9, a developing device 10, a transfer charger 11, and a fixing roller 13a. An electrostatic latent image (still image) is formed by the floodlight 8 on the surface of the photosensitive drum 9 charged by the charger 12, and toner is adhered to the electrostatic latent image by the developer 10. Then, the toner adhering to the photosensitive drum 9 is transferred by the transfer charger 11 to the sheet supplied from the paper feed cassette 7 or the paper feed device 5. The sheet to which the toner is transferred is sent to the fixing roller 13a arranged on the downstream side, the toner on the sheet is heat-fixed, and then the sheet is discharged to the accumulating portion 6 by the paper ejection roller pair 13b.

The paper cassette 7 is provided with a delivery roller 14 that comes into contact with the uppermost surface of the stored sheet and feeds the sheet, and a separation roller pair 15 that separates and feeds the delivered sheets one by one. Has been done. The sheets are sent out from the paper feed cassette 7 by the delivery roller 14, and are separated one by one by the separation roller pair 15. The separated sheets are conveyed by the transfer roller pair 16 including the drive roller and the driven roller through the cassette transfer path 17 extending along the side portion facing the paper feed device 5. Then, the sheet joins the carry-in path 19 communicating with the carry-out port 18 of the paper feed device 5, and then is sent to the transfer charger 11 along the carry-in path 20.

A first platen 30 and a second platen 31 made of transparent glass are arranged side by side in the horizontal direction on the upper part of the document reading unit 3. The first platen 30 is used for reading a document set by hand, and is formed in a size capable of placing a document having the maximum size that can be supported. Further, the second platen 31 is used for reading a document fed from the document feeding unit 4 and moving at a predetermined speed.

Inside the document reading unit 3, a photoelectric conversion means having a first reading carriage 32 and a second reading carriage 33, a condensing lens 34, and a photoelectric conversion element 35 is provided. The first reading carriage 32 and the second reading carriage 33 are driven by a carriage motor (not shown) and reciprocate in the sub-scanning direction below the first platen 30. The first reading carriage 32 is provided with a lamp that irradiates the document with light and a mirror that reflects the light reflected from the document. Further, the second reading carriage 33 is provided with two mirrors that guide the light from the mirror of the first reading carriage 32 to the condenser lens 34 and the photoelectric conversion element 35. When reading a document on the first platen 30, the first reading carriage 32 and the second reading carriage 33 are moved and placed on the first platen 30 from the first reading carriage 32. The image of the original document is irradiated with light. Then, the reflected light from the document is guided to the photoelectric conversion element 35 via the first reading carriage 32 and the second reading carriage 33. Then, the photoelectric conversion element 35 converts the received light into an electric signal to generate image data from the document. The image data generated in this way is transmitted as an image signal to the floodlight 8 of the image forming apparatus 2.

The document feeding unit 4 includes a fixed loading tray 36, a sheet transport mechanism 37, and a discharge tray 38, and the documents placed on the loading tray 36 are transported one by one by the sheet transport mechanism 37. , Passes over the second platen 31, and is discharged to the discharge tray 38.

FIG. 2 shows the internal structure of the paper feed device 5. As shown in FIG. 1, the storage 51 is supported by the housing 50 so that it can be pulled out via the slide rail 54. The paper feeding means 52 includes a pickup roller 55 driven by a feeding motor MOT1, a feeding roller 56, and a separation roller 57, and is first loaded on the movable loading tray 53 by the pickup roller 55. The upper sheet is picked up, and the picked-up sheet is fed to the image forming apparatus 2 in a state of being separated one by one by the rotation of the feeding roller 56 and the separating roller 57.

A loading tray 53 that can be raised and lowered is provided in the storage 51. The loading tray 53 is formed of a flat plate, and a plurality of sheets P can be loaded on the plate in a bundled state. Further, an upper surface detection sensor SEN1 for detecting the position of the uppermost surface of the sheet P loaded on the loading tray 53 is provided above the storage 51. The loading tray 53 is lifted and driven by the lifting motor MOT2 provided in the lifting mechanism 70 to a position where the seat is in contact with the top surface detection sensor SEN1.

A side regulating plate 60 for regulating the position of the sheet in the depth direction is provided in the paper feeding device 5. These are configured to be movable in the sheet width direction in the paper feed device 5 according to the size of the sheet in the depth direction. Further, a rear end regulating plate 61 is provided to regulate the position of the sheet in the length direction (sheet transporting direction). This is configured to be movable in the sheet length direction in the paper feed device 5 according to the size in the sheet length direction.

The side regulating plate 60 is provided with a first blowing means 62 arranged on the downstream side in the sheet conveying direction and a second blowing means 63 arranged on the upstream side in the sheet conveying direction. The first air blowing means 62 includes an air passage (duct) 66 having a suction port 64 and an air outlet 65, and an air fan F and a heater HE arranged in the duct 66, and the air outlet 65 is loaded. The uppermost sheet P loaded on the tray 53 is directed to the downstream side in the transport direction. The second blower means 63 has a configuration excluding the heater HE of the first blower means 62, and the outlet 65 is arranged on the upstream side in the transport direction of the sheet P. The blower fans F provided in the first and second blower means are independently rotated and controlled. In the present embodiment, in order to more reliably separate and feed the sheets by the paper feeding means 52, the heater HE is provided in the first blowing means 62 having the air outlet 65 that opens in the vicinity of the pickup roller 55. As described above, if there is at least one blower means having a heater HE on the side closer to the paper feed means 52 side, and further, if there is a blower means having at least a blower fan F on the upstream side in the sheet transport direction, it is A3 or more. Air handling of long sheets is easy.

Further, the outlet 65 may be provided with a louver (not shown) whose direction of air can be changed. By providing such a louver, the air blown to the seat goes up and down, so that the handling effect of the seat can be further enhanced.

FIG. 3 shows the control configuration of the paper feed device 5 shown in FIG. The paper feeding device 5 includes a control unit CONT, a detection unit S, and an operation unit M. The detection unit S includes a top surface detection sensor SEN1 and a lower limit detection sensor SEN2 for detecting the position of the seat as the loading tray 53 moves up and down, and a measuring means (thermistor) TH for measuring the heat generation temperature of the heater HE. The operation unit M includes a feed motor MOT1 for feeding the seat, a lift motor MOT2 for raising and lowering the loading tray 53, a heater HE for heating the air to be blown, and two blower fans F for blowing air toward the seat. It has. The control unit CONT includes a CPU, a memory, and the like, and drives the operation unit M based on an instruction from the operation panel PA and a detection result detected by the detection unit S. Further, the memory stores in advance set values such as the temperature set value of the heater HE and the rotation speed of the blower fan F, and controls the drive of the operating unit M based on the selected set value.

The heater HE is composed of a heating element 68a made of a nichrome wire or the like and a heating element 68b made of a plurality of fins (not shown). A thermistor TH that detects the temperature of the heater HE (heater temperature) is attached to the heat radiating body 68b. When the heating element 68a is energized, it generates heat to turn on the heater HE, and when the energization is cut off (stopped), the heater HE is turned off. The heat transmitted from the radiator body 68b is dissipated to heat a wide range of surrounding air. The thermistor TH measures the surface temperature of the heat radiating element 68b conducted from the heating element 68a. That is, in the present embodiment, the surface temperature of the radiator body 68b is set as the heater temperature. Then, the control unit CONT controls so that the heater temperature is kept constant in the vicinity of the set temperature by comparing with the measured temperature as the heater temperature.

Specifically, an upper limit value obtained by adding a constant value to the set temperature and a lower limit value obtained by subtracting a constant value are provided, and when the temperature of the thermistor TH reaches the lower limit value with the heater HE stopped (off), the heater Turn HE on. When the upper limit is reached with the heater HE turned on, the heater HE is turned off. For example, when the set temperature is 60 ° C., the upper limit value is set to 61 ° C. and the lower limit value is set to 59 ° C. As a result, the heater HE is turned on when the temperature of the thermistor TH reaches 59 ° C., and the heater HE is turned off when the temperature of the thermistor HE reaches 61 ° C. in the on state.

Next, the air handling operation by the blowing means provided with the heater HE will be described with reference to FIG. The air handling operation is executed when it is confirmed that the storage 51 is closed and when a paper feed command is received. The air blowing operation is also executed for the sheet paper feeding operation, and the air blowing operation is stopped when the paper feeding operation is completed. However, when the heater HE is operating, the heater continues to operate even when the ventilation is stopped, and continues to heat the air in the duct 66.

In the above, it is assumed that the blowing operation is terminated when the paper feeding operation is completed, but it may be executed after the paper feeding operation is completed. That is, the ventilation operation may be executed again after the ventilation operation is stopped.

In the air handling operation, first, sheet information such as sheet quality, paper thickness (basis weight), and size is acquired (ST01). These sheet information are input by the user operating the operation panel, and each time the sheet type is changed, the user operates the operation panel to input new information.

Based on the input sheet information, it is determined whether or not air handling is necessary (ST02). When it is determined that air handling is necessary, it is determined whether or not the heater HE is necessary, that is, whether or not air handling by warm air is performed (ST03). If it is determined that the heater HE is unnecessary based on this determination, the cooling operation of the heater HE, which will be described later, is executed (ST10). On the other hand, when the heater HE is required, it is confirmed whether or not the set temperature of the heater HE has been changed (ST04). Regarding this determination, the temperature table based on the sheet information is registered in advance in the memory of the control unit CONT, and the set temperature is acquired from the temperature table based on the sheet information acquired in the step (ST01), and the previous setting is performed. It is determined whether or not the set temperature has been changed by comparing with the temperature.

When it is confirmed that the set temperature of the heater HE has been changed, the heat generation temperature of the heater HE is detected by the thermistor TH (ST05). Then, from this measured value, it is determined whether or not the heater HE needs to be cooled. Specifically, the heat generation temperature of the detected heater HE is compared with the set temperature, and when the heat generation temperature of the detected heater HE is higher than the set temperature, it is determined that the heater HE needs to be cooled. On the other hand, when the detected heat generation temperature of the heater HE is equal to or lower than the set temperature, it is determined that the heater HE does not need to be cooled.

When it is determined that the heater HE needs to be cooled, the heater HE cooling operation is executed (ST10). On the other hand, when it is not necessary to cool the heater HE, the set temperature is adjusted. Then, when this temperature control is completed, the blower fan F is operated, and the air (warm air) heated by the heater HE is blown toward the side portion of the seat through the duct 66 to separate the seat (ST07 to ST09). The details of the cooling operation of the heater HE will be described later, but in the cooling operation of the heater HE, the heater HE is stopped until the temperature of the heater HE reaches a predetermined temperature lower than the temperature measured by the thermistor TH. In this state, the blower fan F is operated to allow air to flow along the duct 66.

In the temperature adjustment operation of the heater HE, when the measured temperature of the thermistor TH is equal to or lower than the set temperature, the heater HE is turned on, and the adjustment is completed when the thermistor TH detects that the temperature has reached the set temperature. On the other hand, when the temperature setting has not been changed (ST04) or after the cooling operation, the measured temperature of the thermistor TH is checked, and if it is different from the set temperature, it is set by turning the heater HE on or off. Adjusted to approach temperature.

Next, the details of the cooling operation of the heater HE will be described with reference to FIG. In this cooling operation, after the heater HE is turned off, the air in the duct 66 is made to flow by continuing the blowing by the blowing fan F. As a result, the heated air in the duct 66 is blown out from the air outlet 65, and the air outside the duct 66 is taken in from the suction port 64. The air taken in from the suction port 64 cools the heater HE by flowing toward the air outlet 65 in the duct 66 while hitting the radiator body 68b of the heater HE.

A sheet sprayed with air heated at a temperature higher than the set temperature set based on the sheet information may cause printing unevenness in the image forming apparatus 2. For example, if warm air of 60 ° C., which is the set temperature of the thin coated paper, is blown onto the thin coated paper, the amount of water in the sheet becomes sparse and the image becomes uneven. Occurs. Therefore, in the present embodiment, the loading tray 53 is lowered so that the warm air from the heater HE, which has a temperature higher than the set temperature, is not blown to the sheet by the cooling operation. By performing such a lowering operation of the loading tray 53, the heated air is not blown to the sheet even during the cooling operation of the heater HE. As a result, the sheet loaded on the loading tray 53 can be protected from the influence of heat.

Next, the details of the cooling operation of the heater HE will be described. First, the set temperature control of the heater HE is stopped, and then the heater HE is stopped (ST30). Then, if the top surface detection sensor SEN1 detects the top surface of the seat, the elevating motor MOT2 is reversely driven (ST31, ST32). As a result, as shown in FIG. 6A, the loading tray 53 is lowered. The elevating motor MOT2 is reversely driven for a predetermined time, and the elevating motor MOT2 is stopped when the loading tray 53 is lowered by a predetermined amount (H) (ST33, ST34). At this time, as shown in FIG. 6B, the uppermost surface of the sheet P on the loading tray 53 is positioned below a certain distance (L) from the outlet 65 of the first blowing means 62. Immediately after that, the blower fan F is operated (ST35). As a result, the heater HE can be cooled to a predetermined temperature or lower in the process of passing the air flowing from the suction port 64 toward the outlet 65 through the heater HE.

By turning on the blower fan F with the heater HE turned off in this way, the outside air having a temperature lower than the temperature inside the duct 66 can be sucked into the duct 66 and applied to the heater HE. As a result, the heat generation temperature of the heater HE can be lowered in a short time.

On the other hand, if the lower limit detection sensor SEN2 is turned on before the loading tray 53 is lowered by a predetermined amount (H) in the step (ST33), the cooling by the blower fan F is not performed and the temperature of the heater HE is lowered by natural cooling. .. That is, when the lower limit detection sensor SEN2 is turned on before the predetermined amount (H) is lowered, the uppermost surface of the sheet is in a position facing the air outlet 65 of the first blowing means 62.

When the temperature of the heater HE reaches the set temperature by cooling by the blower fan F or natural cooling, the blower fan F is turned off (ST37, ST38). If the blower fan F is already in the off state in step (ST38), the off state is continued as it is.

After stopping the blower fan F, the elevating motor MOT2 is driven in the forward direction to raise the loading tray 53 (ST40). Then, when the uppermost surface of the seat P is detected by the upper surface detection sensor SEN1, the elevating motor MOT2 is stopped. As a result, the uppermost surface of the sheet P loaded on the loading tray 53 is positioned at the feeding position, and the paper can be fed to the image forming apparatus 2. Here, the set temperature in the step (ST37) when the heater HE is not required in the step (ST03) of the blowing operation can be performed by the environment sensor SEN3 provided in the paper feeding device 5. When such an environment sensor SEN3 is used, it is automatically set to a temperature obtained by adding a constant value to the measured temperature inside the storage 51. The set temperature at this time may be a predetermined temperature (for example, 20 ° C. or lower).

In the above embodiment, the air volume of the air by the blowing means is set to an air volume suitable for handling the seat, and the heater HE is cooled by this air volume. However, in the cooling operation of the heater HE, the rotation speed of the blowing fan F If is set to the maximum, the heater HE can be cooled in a shorter time.

CONT Control unit M Operation unit S Detection unit F Blower fan HE Heater TH Thermistor P sheet PA Operation panel MOT1 Feeding motor MOT2 Lifting motor SEN1 Top surface detection sensor SEN2 Lower limit detection sensor SEN3 Environment sensor 1 Image forming system 2 Image forming device 5 Equipment 50 Housing 51 Storage 52 Paper feeding means 53 Loading tray 54 Slide rail 55 Pickup roller 56 Feeding roller 57 Separation roller 60 Side regulation plate 61 Rear end regulation plate 62 First blowing means 63 Second blowing means 64 Suction Port 65 Air outlet 66 Duct 68a Heat generator 68b Heat radiator 70 Lifting mechanism

Claims (3)

A loading tray for loading sheets and
A paper feeding means for feeding sheets on the loading tray and
A means of blowing air to the sheet on the loading tray and
In a paper feeding device including a heater for heating air blown by the blower means.
A paper feeding device that cools the heater by operating the blower means in a state where the heating of air by the heater is stopped. A loading tray for loading sheets and
A paper feeding means for feeding sheets on the loading tray and
A duct having a suction port for sucking air and an air outlet for blowing air, a blowing means having a blowing fan for blowing air along the duct and blowing air to a sheet on the loading tray, and a blowing means.
A heater arranged in the duct to heat the air blown by the blower fan, and
In a paper feeding device including a measuring means for measuring the temperature of the heater.
Paper feed that operates the blower fan to flow air along the duct with the heater stopped until the temperature of the heater reaches a predetermined temperature lower than the temperature measured by the measuring means. Device. A claim that the loading tray lowers the sheet to a position where the air is not blown by the air blower when the heater is operated to cool the heater in a state where the heating of the air by the heater is stopped. The paper feeding device according to 1 or 2.

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