CN104802536A - Image forming device - Google Patents

Abstract

The invention discloses an image forming device, and the device can enable a cut recording medium not to fall off when the recording medium is formed by a cut image, and can be manufactured at low cost. The device comprises a sensor which detects whether there is a roller-shaped recording medium or not; a printing head which forms an image on the recording medium; a roller which isolates a conveying line of the recording medium of the printing head and is arranged at a position opposite to the printing head; a cutting apparatus which cuts the recording medium where the image is formed; a recording medium detection part which leaves an escaping part for the escaping of the recording medium in any up-down direction in a recording medium discharge port for discharging the recording medium, and detects the recording medium; and a control part which drives the cutting apparatus to operate based on the output of the recording medium detection part.

Description

Image processing system

The application advocate the applying date be on 01 29th, 2014, application number be the Japanese publication of JP2014-014357 is priority, and quotes the content of above-mentioned application.

Technical field

The present invention relates to a kind of image processing system.

Background technology

The continuous paper being wound into roll carries out the image processing system of image formation, needs to cut recording medium after image formation.

But, when after image formation at once severing recording medium time, then will have been fallen before operator takes hand by the recording medium of severing.

Thus, motion has a kind of such image processing system, the not severing when the recording medium that severing has been formed by image and leave a part, operator tear off recording medium and hand held in.

But, in this image processing system, remain the vestige torn off in the end of cutting surface, appearance unsightly.

In addition, motion has a kind of such image processing system, while having the recording medium formed by image in complete severing, holds the handle sturcture of the recording medium of severing.

But, in this image processing system, light just improves with regard to handle sturcture manufacturing cost.

Summary of the invention

In view of the above problems, the object of the present invention is to provide a kind of image processing system, during the recording medium that it can have been formed by image in severing, the recording medium of severing does not fall and can cheaply manufacture.

Image processing system involved in the present invention comprises: sensor, detects the recording medium with or without being wound into roll; Printhead, carries out image formation on the recording medium; Cylinder, across the recording medium conveying circuit of printhead, is configured in the position of carrying out with described printhead resisting; Cutter sweep, severing is by recording medium that image is formed; Recording medium test section, in the recording medium discharging outlet of discharging recording medium, either direction in above-below direction leaves recording medium is hidden hide portion, and detection record medium; And control part, the output based on recording medium test section drives cutter sweep.

Accompanying drawing explanation

Below, with reference to accompanying drawing, image processing system involved in the present invention is described.When considered in conjunction with the accompanying drawings, by referring to detailed description below, more completely can understand the present invention better and easily learn wherein many adjoint advantages, but accompanying drawing described herein is used to provide a further understanding of the present invention, form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention, wherein:

Fig. 1 is the pie graph representing image processing system;

Fig. 2 is the A direction view in Fig. 1 of image processing system;

Fig. 3 represents that recording medium is discharged to the figure of the attitude of test section;

Fig. 4 be represent recording medium be raised to the state hiding portion under figure;

Fig. 5 is the block diagram of the formation representing image processing system;

Fig. 6 is the flow chart of the action representing image processing system;

Fig. 7 is the pie graph of image processing system;

Fig. 8 is the A direction view in Fig. 7 of image processing system;

Fig. 9 represents that recording medium is discharged to the figure of the attitude hiding portion;

Figure 10 is the figure under the state representing that recording medium is raised to test section; And

Figure 11 is the flow chart of the action representing image processing system.

Description of reference numerals

1 image processing system

11 sensors

13 printheads

14 cylinders

15 cutter sweeps

16 recording medium discharging outlet

17 optical sensors

18 control parts

Detailed description of the invention

Below, with reference to accompanying drawing, an embodiment of image processing system is described in detail.

The image processing system of the present embodiment has the sensor detected with or without the recording medium being wound into roll, carry out the printhead of image formation on the recording medium, recording medium conveying circuit across printhead is configured in the cylinder carrying out the position of resisting (opposed) with printhead, severing is the cutter sweep of recording medium that formed of image, discharge recording medium recording medium discharging outlet in above-below direction, either direction leaves recording medium is hidden hide portion, and the recording medium test section of detection record medium, and drive the control part of cutter sweep based on the output of recording medium test section.

(the first embodiment)

Fig. 1 is the pie graph representing image processing system 1.As shown in Figure 1, image processing system 1 has the sensor 11 detected with or without the recording medium 10 being wound into roll, recording medium 10 carries out the printhead 13 of image formation, the cylinder 14 on the position of to carry out with printhead 13 resisting is configured in across the recording medium conveying circuit of printhead 13, severing is the cutter sweep 15 of recording medium 10 that formed of image, with leave above in recording medium discharging outlet 16 recording medium 10 is hidden hide portion, and inclined light shaft cross recording medium discharging outlet 16 the optical sensor 17 as recording medium test section that configures of mode, and drive the control part 18 of cutter sweep 15 based on the output of optical sensor 17.

Recording medium 10 is transferred along the recording medium conveying circuit to sensor 11, printhead 13, cutter sweep 15 and recording medium discharging outlet 16.

Cylinder 14 carrys out conveying recording medium 10 by carrying out rotation.Printhead 13 carries out image formation successively on the recording medium 10 be transferred.

When the recording medium 10 that image is formed is transported to severing position, then image processing system 1 is in holding state.

Optical sensor 17 has illuminating part 17A, light accepting part 17B.Light accepting part 17B receive have illuminating part 17A to irradiate light during export ON (conducting) signal, when cannot by light time export OFF (by) signal.

Fig. 2 is the A direction view in Fig. 1 of image processing system 1.As shown in Figure 2, image processing system 1 with leave up recording medium 10 is hidden hide portion H2 and the mode that optical axis 17C crosses recording medium discharging outlet 16 obliquely arranges illuminating part 17A and light accepting part 17B in the width both sides of recording medium discharging outlet 16.

Image processing system 1 when recording medium 10 is discharged to the test section H1 as the scope of optical sensor 17 detection record medium 10 from recording medium discharging outlet 16, then owing to being blocked by recording medium 10 optical axis 17C, so receive OFF signal from light accepting part 17B.

Image processing system 1, when having OFF signal from light accepting part 17B reception, does not make cutter sweep 15 action, does not carry out follow-up image yet and formed and be in holding state.

Image processing system 1 when recording medium 10 by operator be raised to hide portion H2 and hide time, then light accepting part 17B accepts the irradiation light of illuminating part 17A, so receive ON signal from light accepting part 17B.

First image processing system 1 when receiving ON signal from light accepting part 17B, then makes cutter sweep 15 action severing recording medium 10, then carries out follow-up image and is formed.

Therefore, when image processing system 1 makes cutter sweep 15 action, because recording medium 10 is come hold, so can not be fallen by the recording medium 10 of severing by operator.

Fig. 3 represents that recording medium 10 is discharged to the attitude figure of test section H1.As shown in Figure 3, because recording medium 10 blocks optical axis 17C, so light accepting part 17B exports OFF signal.

The control part 18 of image processing system 1 does not drive cutter sweep during having OFF signal from light accepting part 17B reception, does not also carry out follow-up image and is formed and be in holding state.

Fig. 4 represents that recording medium 10 is raised to the state diagram of hiding portion H2.As shown in Figure 4, because recording medium 10 does not block optical axis 17C, so light accepting part 17B accepts the irradiation light of illuminating part 17A, and export ON signal.

The control part 18 of image processing system 1 when receiving ON signal from light accepting part 17B, then drives for driving the cutter sweep drive division 205 of cutter sweep 15 thus carrying out severing recording medium 10 by cutter sweep 15.Then, the control part 18 of image processing system 1 carries out follow-up image formation.

Fig. 5 is the block diagram of the formation representing image processing system 1.As shown in Figure 5, image processing system 1 has the control part 18 of the CPU (Central Processing Unit: central processing unit) comprised as arithmetic unit, the storage part 202 comprising the storage device of memory, hard disk drive etc., the image forming part 203 comprising printhead 13 etc., the drive division 204 comprising the conveying mechanism of the conveying recording medium 10 of cylinder 14 etc., the cutter sweep drive division 205 that cutter sweep 15 is driven and detects the optical sensor 17 being positioned at the recording medium 10 of test section H1.

Optical sensor 17 has illuminating part 17A, light accepting part 17B.

Fig. 6 is the flow chart of the action representing image processing system 1.As shown in Figure 6, image processing system 1 carries out following action by control part 18.

In step 601, image processing system 1 carries out image formation on recording medium 10.

In step 602, image processing system 1 judge optical sensor 17 whether ON (conducting), namely judge that the output of light accepting part 17B is whether as ON signal.Image processing system 1, when the output determining light accepting part 17B is ON signal, proceeds to step 603, when not judging to be ON signal, turns back to step 602.

In step 603, image processing system 1 drives cutter sweep 15 thus severing recording medium 10 by driving cutter sweep drive division 205.

In step 604, image processing system 1 determines whether the lower one page (page then) that will carry out follow-up image formation.Image processing system 1, when determining the lower one page that will carry out follow-up image formation, turns back to step 601, when not being determined with lower one page, and tenth skill.

(the second embodiment)

Fig. 7 is the pie graph representing image processing system 1.As shown in Figure 7, image processing system 1 has the sensor 11 detected with or without the recording medium 10 being wound into roll, recording medium 10 carries out the printhead 13 of image formation, the cylinder 14 on the position of to carry out with printhead 13 resisting is configured in across the recording medium conveying circuit of printhead 13, severing is the cutter sweep 15 of recording medium 10 that formed of image, with in recording medium discharging outlet 16 below leave recording medium 10 is hidden hide portion, and inclined light shaft cross recording medium discharging outlet 16 the optical sensor 17 as recording medium test section that configures of mode, and the control part 18 of cutter sweep 15 is driven based on the output of optical sensor 17.

Recording medium 10 is transferred along the recording medium delivery section to sensor 11, printhead 13, cutter sweep 15 and recording medium discharging outlet 16.

Cylinder 14 carrys out conveying recording medium 10 by carrying out rotation.Printhead 13 carries out image formation successively on the recording medium 10 be transferred.

When the recording medium 10 formed by image is transported to severing position, then image processing system 1 is in holding state.

Optical sensor 17 has illuminating part 17A, light accepting part 17B.Light accepting part 17B, during receiving the light having illuminating part 17A to irradiate, exports ON signal, when exporting OFF signal by during light.

Fig. 8 is the A direction view in Fig. 7 of image processing system 1.As shown in Figure 8, image processing system 1 with leave in below recording medium 10 is hidden hide portion H4 and the mode that optical axis 17C crosses recording medium discharging outlet 16 obliquely arranges illuminating part 17A and light accepting part 17B in the width both sides of recording medium discharging outlet 16.

Image processing system 1 when recording medium 10 from recording medium discharging outlet 16 be discharged to as optical sensor 17 do not detect the scope of recording medium 10 hide portion H4 time, then owing to not being blocked by recording medium 10 optical axis 17C, so receive ON signal from light accepting part 17B.

Image processing system 1, when having ON signal from light accepting part 17B reception, does not make cutter sweep 15 action, does not carry out follow-up image yet and formed and be in holding state.

Image processing system 1 is when recording medium 10 is raised to test section H3 by operator, then owing to being blocked by recording medium 10 optical axis 17C, light accepting part 17B does not receive the irradiation light of illuminating part 17A, so receive OFF signal from light accepting part 17B.

First image processing system 1 when receiving OFF signal from light accepting part 17B, then makes cutter sweep action severing recording medium 10, then carries out follow-up image and is formed.

Therefore, when image processing system 1 makes cutter sweep 15 action, because recording medium 10 is come hold, so the recording medium 10 of severing can not fall by operator.

Fig. 9 represents that recording medium 10 is discharged to the figure of the attitude hiding portion H4.As shown in Figure 9, because recording medium 10 does not block optical axis 17C, so light accepting part 17B exports ON signal.

The control part 18 of image processing system 1 does not make cutter sweep 15 action during having ON signal from light accepting part 17B reception, does not carry out follow-up image yet and is formed and be in holding state.

Figure 10 represents that recording medium 10 is raised to the figure of the state of test section H3.As shown in Figure 10, because recording medium 10 blocks optical axis 17C, so light accepting part 17B does not receive the irradiation light of illuminating part 17A, and export OFF signal.

The control part 18 of image processing system 1 when receiving OFF signal from light accepting part 17B, then drives for driving the cutter sweep drive division 205 of cutter sweep 15 thus carrying out severing recording medium 10 by cutter sweep 15.Then, the control part 18 of image processing system 1 carries out follow-up image formation.

The formation of the image processing system 1 of the present embodiment is identical with the formation of the image processing system 1 of the first embodiment shown in Fig. 5.

Figure 11 is the flow chart of the action representing image processing system 1.As shown in figure 11, image processing system 1 carries out following action by control part 18.

In step 701, image processing system 1 carries out image formation on recording medium 10.

In a step 702, image processing system 1 judge optical sensor 17 whether OFF, namely judge that the output of light accepting part 17B is whether as OFF signal.Image processing system 1, when the output determining light accepting part 17B is OFF signal, proceeds to step 703, when not judging to be OFF signal, turns back to step 702.

In step 703, image processing system 1 drives cutter sweep 15 thus severing recording medium 10 by driving cutter sweep drive division 205.

In step 704, image processing system 1 determines whether the lower one page that will carry out follow-up image formation.Image processing system 1, when determining the lower one page that will carry out follow-up image formation, turns back to step 701, when not being judged to be lower one page, and tenth skill.

As mentioned above, image processing system 1 has the sensor 11 detected with or without the recording medium 10 being wound into roll, recording medium 10 carries out the printhead 13 of image formation, the cylinder 14 on the position of to carry out with printhead 13 resisting is configured in across the recording medium conveying circuit of printhead 13, severing is the cutter sweep 15 of recording medium 10 that formed of image, with leave in recording medium discharging outlet 16 recording medium 10 is hidden hide portion, and inclined light shaft cross recording medium discharging outlet 16 mode be configured in optical sensor 17 on the width both sides of recording medium discharging outlet 16, and the control part 18 of cutter sweep 15 is driven based on the output of optical sensor 17.

Therefore, have during the recording medium formed in severing image and do not fallen by the recording medium of severing, cheaply can manufacture such effect.

In addition, in the above-described embodiments, although optical sensor 17 to be used for the detection of recording medium 10, the microswitch with driver also can be adopted to carry out alternative optical sensor 17 as recording medium test section.

The allocation position of recording medium test section is at this moment identical with above-mentioned explanation with the action of image processing system 1.

Although be illustrated several embodiment, these embodiments propose as an example, are not intended to limit scope of invention.These embodiments can be implemented with other various forms, can carry out various omissions, replacement, change in the scope of main idea not departing from invention.These embodiments and distortion thereof are all comprised in scope of invention or main idea, and, be included in the invention described in scope of claim and the scope of its equalization.

Claims (10)

1. an image processing system, comprising:

Sensor, detects the recording medium with or without being wound into roll;

Printhead, described recording medium carries out image formation;

Cylinder, across the recording medium conveying circuit of described printhead, is configured in the position of carrying out with described printhead resisting;

Cutter sweep, severing is by described recording medium that image is formed;

Recording medium test section, in the recording medium discharging outlet of discharging described recording medium, either direction in above-below direction leaves described recording medium is hidden hide portion, and detect described recording medium; And

Control part, the output based on described recording medium test section drives described cutter sweep.

2. image processing system according to claim 1, wherein,

Described recording medium test section is the optical sensor with the illuminating part irradiating light and the light accepting part receiving the light irradiated from described illuminating part,

Described illuminating part and described light accepting part with leave above in described recording medium discharging outlet described recording medium is hidden hide portion and inclined light shaft cross described recording medium discharging outlet mode be configured on the width both sides of described recording medium discharging outlet.

3. image processing system according to claim 2, wherein,

Described control part carries out standby during described light accepting part does not detect the light that described illuminating part irradiates, and when described light accepting part detects the light that described illuminating part irradiates, drives described cutter sweep thus recording medium described in severing.

4. image processing system according to claim 1, wherein,

Described recording medium test section is the optical sensor with the illuminating part irradiating light and the light accepting part receiving the light irradiated from described illuminating part,

Described illuminating part and described light accepting part with below in described recording medium discharging outlet leave described recording medium is hidden hide portion and inclined light shaft cross described recording medium discharging outlet mode be configured on the width both sides of described recording medium discharging outlet.

5. image processing system according to claim 4, wherein,

Described control part carries out standby during described light accepting part detects the light that described illuminating part irradiates, and when described light accepting part does not detect the light that described illuminating part irradiates, drives described cutter sweep thus recording medium described in severing.

6. image processing system according to claim 1, wherein,

Described recording medium test section is the microswitch with driver,

Described driver in above-below direction, either direction leaves in described recording medium discharging outlet described recording medium is hidden hide portion, and be configured in described recording medium discharging outlet.

7. the image processing system according to Claims 2 or 3, wherein,

Described light accepting part exports ON signal during receiving the light having described illuminating part to irradiate, when exporting OFF signal by during light.

8. image processing system according to claim 7, wherein,

Described control part is in holding state during receiving OFF signal from described light accepting part, when receiving ON signal from described light accepting part, then carrys out recording medium described in severing by described cutter sweep, and carries out follow-up image formation.

9. the image processing system according to claim 4 or 5, wherein,

Described light accepting part exports ON signal during receiving the light having described illuminating part to irradiate, when exporting OFF signal by during light.

10. image processing system according to claim 9, wherein,

Described control part is in holding state during receiving ON signal from described light accepting part, when receiving OFF signal from described light accepting part, then carrys out recording medium described in severing by described cutter sweep, and carries out follow-up image formation.