JPH01289936A - Image processor - Google Patents

Abstract

PURPOSE:To prevent a projection part from disturbing in case of handling an original on an original platen and to make an entire processor compact by folding the projection part so that it can be housed under the original platen at the time of moving the original platen and forming an image in a state where the projection part is housed. CONSTITUTION:The projection part 6 is attached to the back surface of a processor main body 1 so that it can freely turn between a housing position and a projecting position and the paper supply port A and the paper ejection port B of a printing mechanism 4 are provided on a side opposed to the housing position. Therefore, in case of housing the projection part 6 under the original platen 2, the projection part 6 does not cross with the paper supply and paper ejection paths of the printing mechanism 4 and the image formation such as copying, etc., can be possible in a state where the projection part 6 is housed. In order not to make the moving original platen 2 collide with the projection part 6 at the time of forming the image, the housed state of the projection part 6 is detected to move the original plate 2 in a state where the projection part 6 is housed, so that the processor can be extremely safely used. Thus, the projection part can be prevented from disturbing in case of handling the original on the original platen.

Description

[Detailed description of the invention] [Industrial application field]

The present invention has the function of projecting a projection original onto a screen like an overherad projector, and the function of forming an image of the original on paper or a transparent sheet like a copying machine. The present invention relates to an image processing device that enables projection.

[Conventional technology]

There are two known types of conventional over-the-air projectors (hereinafter referred to as OHP): a transmissive type and a reflective type. In the former transmission type, the projection original is illuminated from the bottom surface of the document table, and the image of the projection document is projected onto a screen through a projection lens and a reflection mirror placed above the top surface of the document table. It is. In the reflective type, a projection original placed on a reflective Fresnel lens is illuminated from above, and the reflected image of the projection original is projected onto a screen through the projection lens and reflective mirror placed above the Fresnel lens. It is something that is projected. The projection originals used for the OHP are simple originals in which figures, characters, etc. can be handwritten directly on a transparent sheet with a colored pen, etc., and are usually made using an electrophotographic copying machine. It is created by copying the required image onto a transparent sheet. Therefore, when teaching or giving explanations using an OHP at a school, various explanation halls, conference rooms, etc., it is necessary to prepare a projection manuscript in advance. Therefore, even if you suddenly want to project something that has not been prepared as a projection manuscript during an explanation or a meeting, unless there is a copying machine nearby, you will not be able to create the projection manuscript and will not be able to project it. Therefore, conventionally, the O
An image processing device has been proposed that has the functions of both a HP and a copying machine, and is capable of copying a projection original used for OHP using the above-mentioned copying machine (Japanese Unexamined Patent Application Publication No. 1983-1999).
2.0'1C133 and Japanese Utility Model Application Publication No. 62-84039). The one in Fig. 19 is a reflective type, and the document cover 203 on the main body 201 of the apparatus can be opened and closed freely during copying.
A reflective light condensing plate 205 such as a Fresnel lens is disposed on the upper surface of the document cover 203, and a projection section 207 is formed above it. In addition, the one in FIG. 20 is a transmission type, and the original table 202 on the main body 201 of the apparatus moves during copying, and the original table 202 is moved from above the light condensing plate 205 disposed on the upper part of the main body 201 of the apparatus during projection. The projection section 207 is illuminated from an illumination lamp 209 built into the lower part of the projection section 205 .

[Problems to be solved by the invention]

In an image processing device with such a configuration, there is a problem in storing the projection unit in the main body of the device because it may interfere with the movement of the document table. Because it moves, it gets in the way when setting originals on the original table or replacing originals. Furthermore, even if the projection section is simply folded and stored in the main body of the apparatus, there is a drawback that movement of the document table will be hindered. Therefore, the present invention is designed to store the projection section at the bottom of the document table by folding it when the document table is moved, and to enable image formation with the projection section stored, so that the projection section handles the original on the document table. It is an object of the present invention to provide an image processing device that does not interfere with the image processing.

[Means to solve the problem]

In other words, the image processing apparatus of the present invention includes a manual section for inputting an image of a document, a document table on which the document is set and movable along the input section, and a document table that is arranged in parallel with the input section, a reflective light condensing plate on which is set; an image forming unit that forms an image input from the input unit on a sheet; and a projection section for projecting an image of the projected document, the projection section being able to be stored in a lower part of the document table, and the document table being movable in the stored state. Further, the image forming section includes a paper feed port and a paper ejection port, and the projection section is housed in a position that does not intersect the paper feed and paper ejection paths. This is designed so that it does not interfere with paper or paper ejection.

【Example】

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of an image processing apparatus of the present invention will be described in detail below with reference to the drawings. As shown in FIGS. 1 to 7, the main body 1 of the apparatus has an image forming function that allows projection originals to be created by copying or the like. The apparatus includes an image input section for inputting an image, for example, a reading section 3 provided on the upper surface of the apparatus main body 1 and for scanning a document on a document table 2. Reference numeral 4 denotes a mechanism for forming an image built into the main body 1 of the apparatus, such as a printing mechanism. Further, the device main body 1 is provided with a reflective light condensing plate 5 arranged on the upper surface thereof in parallel with the reading section 3, and a projection section 6 attached to the side surface of the device main body 1 and supported on the upper part of the light condensing plate 5. ing. The image forming function, for example, the copying function, of the apparatus main body 1 includes a document table 2 movably mounted on the upper part of the apparatus main body 1, a reading section 3 installed on the upper surface of the apparatus main body 1 to scan the original, and a built-in document table 2 installed in the apparatus main body 1. This is achieved by the printing mechanism 4. The printing mechanism 4 includes a printing means, an automatic roll paper supply means stored in the apparatus main body 1, and a manual paper feeding means.
It is equipped with a paper ejection means. That is, Figures 3 and 4
As shown in the figure, the platen 12 driven by the motor 11 includes
A printing means, for example, a thermal head 13, a paper feed roller 14 in close contact with the lower part thereof, and a paper discharge roller 15 in close contact with the upper part thereof are attached. Paper guides 16 and 17 are provided above and below the paper feed port A, and the platen 1
A paper guide 18 for reversing the paper is provided around the paper guide 2, and a paper guide 19 is provided at the paper discharge port B facing the paper guide 16. The paper feed port A and the paper discharge port B are closed when not in use by a member consisting of a paper feed tray 21, which is formed at the top and bottom of the same side end of the apparatus main body 1 and is rotatably mounted around a shaft 91. When in use, the paper feed tray 21 is opened by folding it down. The motor 11 that drives the platen 12 transmits drive to the platen 12 via a timing belt 101 and an intermediate gear 102 while being decelerated to a predetermined rotational speed. Note that a paper guide 23 that also serves as a tray for the roll paper 22 is provided inside the apparatus main body 1, and the paper guide 23 is used to guide the roll paper 22 to the platen 1.
The paper is fed to the paper ejection roller 15 via the paper 2. Sl is a paper feed switch (sensor), S2 is a roll paper detection switch, and S3 is a paper discharge switch. In addition, a document table 2 is movably mounted on the top of the main body 1 of the apparatus.
is a transparent plate 24 made of glass or the like that supports the original 25.
The transparent plate 24 has one end attached to a support shaft (
(not shown), and is mounted so that it can be opened and closed from the other end side or up and down around this support shaft.
6 and is driven by a motor 90 from the light condensing plate 5 side to the reading section 3 side. A document table 2 is provided on the top surface of the apparatus main body 1.
The reading section 3 that scans the upper document is composed of a contact image sensor 132 and the like. This reading section 3 is provided with a copy end switch S4. When the reading section 3 starts reading, the document table 2 moves at a constant speed, and the document illuminated by the light source 131 through the transparent plate 24 is focused through the condensing lens array 133 onto the contact image sensor 132 which scans at regular intervals. As a result, the images are read at regular intervals in the sub-scanning direction. This read data for each line is 1 line in the main scanning direction.
Each bit is digitally processed by the control device 134,
Binarized. To specifically explain this binarization process, FIG. 11(A)
As shown in , the image sensor 132 has photoelectric conversion elements arranged in a line, and when irradiated with light, charge is accumulated in each element. The amount of this charge corresponds to an increase or decrease in light. Light data from the image sensor 132 is processed by a binarization processing circuit 251 and input to the thermal head 13 from a data input section. Further, a timing pulse generation circuit 253 outputs timing pulses to the image sensor 132, the binarization processing circuit 251, and the output gate circuit 255. Note that the output gate circuit 255 is divided into two parts, one of which is directly connected to the output gate circuit 255, and the other to the quaternary counter 257.
Outputs the timing pulse through the output gate circuit 2
The pulses selected at 55 are input to the thermal head 13 from the write clock input section. That is, as shown in FIG. 11(B), the image sensor 132 outputs a voltage proportional to the charge accumulated in this internal element at a 1:1 timing with the sensor clock generated by the timing pulse generation circuit 253. . Next, as shown in FIG. 11(C), digitization can be performed by determining whether the output is 1 or O depending on whether the output is above or below the slice level at the pulse position of the timing pulse generation circuit 253. The binarization processing circuit 251 controls this. If the data is sent to the thermal head 13 and copied as it is, a same size copy can be made, but a reduced copy may be enlarged and projected as follows. For example, if binarization is stopped once every four bits, the bits in one line will be thinned out once every four times, resulting in a line whose length is 3/4. Add 1 blank to this
If you add /4 to make one line and transfer it to the thermal head 13 for printing, you will get an image that is 3/4 in the main scanning direction. That is, when the timing pulses output from the timing pulse generation circuit 253 are counted by the quaternary counter 257, a pulse can be generated at the fourth time as shown in FIG. 11(D). This quaternary counter 257
If the output gate circuit 255 is used to output a timing pulse when the output is O, and stop outputting it when the output is 1, the timing clock shown in FIG. 11(E) can be obtained. The thermal head 13 considers the data in the data input part supplied from the binarization processing circuit 251 to be valid and takes it into it only when a pulse is input to the write clock input part. part is ignored. As a result, the data stored in the thermal head 13 is shown in Figure 11 (G).
It becomes as shown in . The above is a method for packing data by 3/4 times in the main scanning direction. Regarding the sub-scanning direction, this is achieved by setting the reading feed speed to 4/3 times the feed speed of the paper fed by the platen 12. When printed as described above, the original is copied to 3/4 size on transparent OHP paper, and this copy can be placed on the light condensing plate 5 and projected in an enlarged manner. The projection function of the projection unit 6 is such that a projection lens, which will be described later, can focus even if the distance between the screen and the main body 1 changes, so it is sufficient to perform enlarged projection according to the purpose. Next, on the upper surface of the main body 1 of the apparatus, a reflective light condensing plate 5 is arranged in parallel with the reading section 3. The reflective light condensing plate 5 is usually composed of a Fresnel lens 27 and a reflective layer 28 made of a metal vapor deposited layer formed on the back surface of the Fresnel lens 27, and as shown in FIG. It is. Fourth
As shown in the figure, 85 is a light collecting plate setting switch that detects whether or not the light collecting plate 5 is securely set in the main body 1 of the apparatus. The printing mechanism 4 is built into the apparatus main body 1 below the light condensing plate 5. In this embodiment, the image forming mechanism is a printing mechanism 4 that prints using a thermal head 13, but an image forming mechanism such as an electronic copying machine or a laser printer may be used. The projection unit 6 supported on the upper part of the light condensing plate 5 is pivotally attached to the side surface of the device main body 1 via an arm 7 so as to be swingable.
When using the image forming function of the apparatus main body 1, it can be folded down and stored on the side of the apparatus main body 1. The projection unit 6 is designed so that it can be tilted to the opposite side of the main body 1, not to the side end where the paper feed port A and the paper output port B are located, so that the image forming function can be used when the projection unit 6 is stored. It has become. As shown in FIGS. 6 and 8, the projection unit 6 includes not only a projection lens 111 within the machine frame 31 but also an illumination lamp 112 made of a halogen lamp that illuminates the projection original placed on the light condensing plate 5. , a light source reflecting mirror 113 and a condensing lens 114 arranged on both sides thereof, and a cooling fan 115 are built in. The above lighting lamp 11
2 can be installed or removed by opening the lid 116 attached to the top surface of the projection unit 6. On the machine frame 31, a reflection mirror 32 for projecting a reflected image of a projected original onto a screen is pivoted at one end and can be opened and closed. Note that the reflecting mirror 32 is mounted so that it can rotate 360 degrees around the projection lens 111. Therefore, it is possible to project in any direction in all four directions. As shown in FIG. 8, the light emitted from the illumination lamp 112 is
The light reflected by the light source reflection mirror 113 is projected onto the light collecting plate 5 by the light collecting lens 114 . The Fresnel lens constituting the light condensing plate 5 is an eccentric mirror, and its dimensional center is at the same position as the center of the projection lens 111, and the optical center of the Fresnel lens, which is shifted by the amount of eccentricity, is at the illumination center. It is located in the center between the lamp 112 and the projection lens 111. Since the center of the dimensions of the Fresnel lens coincides with the center of the reflecting mirror 32, the entire image of the projection original on the Fresnel lens surface is accommodated within the projection lens 111, and the image is not cut off. S6 is a mirror storage switch that detects whether or not the reflecting mirror 32 is stored, and S7 is a main body installation switch. S8 and S9 are a projection unit set switch and a projection unit storage switch, respectively, which serve as projection unit position detection means to detect whether the projection unit 6 is in the set position or the storage position. By detecting the position of the projection section 6 in this manner, the illumination lamp 112 is always turned off when the projection section 6 is stored along the apparatus main body 1. Furthermore, copying is disabled when the projection section 6 is in a state other than the stored state or the set state, which prevents damage to the apparatus due to collision between the document table 2 and the projection section 6. That is, the illumination lamp 112 is connected to the projection unit set switch S.
8 is not turned on, it cannot be lit, and while the illumination lamp 112 is lit, this projection unit set switch S
8 is turned off, the illumination lamp 112 is immediately turned off.
goes out. Furthermore, the shaft 8 to which the projection section 6 is pivotally attached via the arm 7 is provided with the friction of the arm 7. This friction is caused by the shaft 8 as shown in FIG.
An arm locking spring 41 is wound around the arm 7 several times, and its lower end is fixed to the arm 7 with a spring stopper 42, while the other end is not fixed and comes into contact with an arm lock release lever 43. There is. When the arm 7 is moved from horizontal to vertical, the spring 41 is fixed to the arm 7 by the spring stopper 42, so that it is loosened relative to the shaft 8, and the arm 7 can be moved in the vertical direction. Conversely, when moving the arm 7 from vertical to horizontal, the spring 41 tightens against the shaft 8, and the arm 7 is in a locked state, so that the arm 7 does not fall down. When you press the lock release lever 43 to release this,
The spring 41 is loosened relative to the shaft 8, and the arm 7 can be tilted while pushing the lever 43. The arm 7 is extendable and retractable, and as shown in FIG.
, 52 and inner cylinders 53, 54 protruding from them. The inner cylinders 53 and 54 are fitted together so that they can slide up and down. Reference numeral 55 denotes a stop lever pivoted inside the inner cylinder, one end of which is biased by a spring 56, and a locking hole 58 with a ball 57 formed in the inner cylinders 53, 54.
It is press-fitted into the The other end of the stop lever 55 is the outer cylinder 51
The ball 57 is connected to an expansion/contraction button 59 provided on the outside, and by pressing this expansion/contraction button 59, the ball 57 is removed from the outer inner cylinder 54, allowing the arm 7 to expand and contract. Of course, by releasing the expansion/contraction button 59, the ball 57 is press-fitted into a predetermined locking hole 58, and the arm 7 is held at a predetermined length. As shown in FIG. 12, the device main body 1 and the illumination lamp 112
A power supply section 81 is connected to the power supply section 81, which is controlled by a control means consisting of a control device 134 such as a CPU. This power supply unit 81 includes a power switch S10, a power supply 82, and a power supply 8.
2 and the illumination lamp 112, and a relay 84 interposed between the power supply 82 and the device main body 1.
and a switching means consisting of a control device 134.
The contacts of relays 83 and 84 are both turned ON by the control from
Preventing the situation from occurring. Note that the capacity of the power source 82 is the same as that of the device main body 1 and the illumination lamp 112.
The device itself is larger than the one with greater power consumption.
and the power consumption of the illumination lamp 112. As shown in FIG. 1, a rotatable handle 33 is provided on the side surface of the device main body l opposite to the projection part 6, and an operation panel 34 is also rotatably attached to the side surface of the device main body 1 inside the handle 33. ing. As shown in FIGS. 3 and 7, this operation panel 34 includes a paper selection switch B1, a magnification selection switch B2, a lamp switch B3 that turns on the illumination lamp 112, and a copy switch that starts copying. B4 and mode (text/photo) selector switch B
5 and a density adjustment volume V are provided. The paper selection switch B1 specifies whether the paper to be printed is an OHP projection sheet or a thermal paper. The magnification selection switch B2 specifies whether the copy magnification should be equal to, enlargement, or reduction. When the lamp switch B3 that instructs the operation of the projection unit 6 is pressed while the illumination lamp 112 is off, the lamp switch B3
The relay 83 shown in the figure turns on the illumination lamp 112 with ONL, and when pressed while the illumination lamp 112 is on, the relay 83 turns off the illumination lamp 112 with ONL. When the copy switch B4, which instructs the operation of the image forming section, is pressed while the copy operation is not in progress, the relay 84 turns OFF.
Copying starts with NL/, and when pressed during the copying operation, relay 84 stops the copying operation with 0FFL/. In addition, when the lamp switch B3 is set to ONL,
Even if copy switch B4 is set to ONL, it is ignored. On the contrary, while paper is set and the copy switch B4 is turned on to make a copy, even if the lamp switch B3 is set to ONL, it is ignored. There is no priority order between the copy switch B4 and the lamp switch B3, and it is sufficient that copying is not possible while the illumination lamp 112 is on, and that the illumination lamp 112 cannot be lit while copying. Note that if the paper is inserted into the paper feed port A while the illumination lamp 112 is on, the paper can be fed because the power supply and the heat irradiated by the illumination lamp 112 are unrelated. As shown in FIGS. 4 and 5, a coupling member consisting of a magnet 66 is attached to the upper end of the paper feed tray 21 of the rotating member, and is attached to the end of the document cover 26 on the document table 2. It is attracted to the magnet 67 and prevents the document cover 26 from opening and, furthermore, prevents the document table 2 from moving. The handle 33, which is similarly rotatable, is shown in FIG. 13(A) (
As shown in B), it can be swung around a shaft 60 so that it can be stored along the side edge of the device main body 1. It also has the role of regulating the movement of the document table 2 in accordance with the rotation. That is, the handle 33 pivotally attached to the device main body 1 is provided with the following coupling member. That is, the handle 33
A cam 61 is formed at the rotational fulcrum. Further, the frames of the apparatus main body 1 and the document table 2 are provided with an insertion hole 63 and a lock hole 64, and a lock bin 62 is movably inserted into the insertion hole 63 and the lock hole 64. Note that the lock bin 62 is connected to the cam 61 by a spring 65.
biased toward the side. When the handle 33 is stored along the main body 1 of the apparatus as shown in FIG.
The document table 2 can be moved by detaching from the document plate. On the other hand, the first
When the handle 33 is raised to make it portable as shown in FIG. 3(B), the lock bin 62 is pushed up by the cam 61, the lock bin 62 is fitted into the lock hole 64, and the document table 2 is locked so that it cannot be moved. . Next, the operation of the image processing apparatus of the present invention will be explained. First, when using the image forming function of the device of the present invention,
Open the document cover 26 and place the copy document on the transparent plate 24 with the image surface facing the transparent plate 24,
The copying operation is started by closing the document cover 28 and pressing the copy switch B4 provided on the operation panel 34. Therefore, by supplying a projection sheet for thermal color development, thermal transfer, etc. instead of thermal paper for copying to the paper feed section of the main body 1 of the apparatus, an OHP projection original can be instantly obtained from a copy original. In the case of manual paper feeding, the paper feed tray 21 is folded down, the paper is fed from the paper feed port A, and printing is performed between the paper feed roller 14 and the platen 12. In the case of roll paper, it is fed directly from the paper guide 23 between the platen 12 and the paper discharge roller 15 for printing. Further, when the image processing apparatus of the present invention is used as an OHP, the document table 2 is moved from above the reflective condensing plate 5 made of a Fresnel lens attached to the upper surface of the apparatus main body 1,
A projection original is placed on the light condensing plate 5, and a lamp switch B3 provided on the operation panel 34 is pressed. Then, the illumination lamp 112 illuminates the projection document, the irradiation light hits the condenser plate 5 and is reflected, and the reflected light passes through the projection lens 111 and reflection mirror 32 in the projection section 6 and reaches the screen, where it is projected. It projects the image of the original. Next, the operation will be described in detail with reference to the flowcharts in FIGS. 14(A) to 14(D). In FIG. 14(A), when the power switch S10 is turned on in step 300, the power is turned on. Then, in steps 302 to 307, the installation switch S7, the projection unit set switch S8, the light condensing plate set switch S5,
ON-OFF of paper feed switch S3 is checked, and O
If N, the switch is determined to be normal in step 308, and the operation panel 34 is enabled to be operated in step 309. Further, if each switch is OFF, except for the projection unit set switch S8, it is determined that the switch is abnormal in step 310, an error is determined in step 311 (the copy switch B4 is lit), and the process loops until the switch becomes normal. Next, if the projection unit set switch S8 is OFF, check whether the mirror storage switch S6 and the projection unit storage switch S9 are ON or OFF in steps 312 and 313;
It is determined whether the reflecting mirror 32 and the projection section 6 are housed. When the operation panel 34 becomes operable, the screen shown in FIG. 14(B)
As shown in steps 312, 313, and 314, the paper selection switch B1, magnification selection switch B2, and mode changeover switch B5 are checked to be ON or OFF, and if they are ON, the paper selection and magnification are Selection and mode switching are performed. After selecting the paper and magnification and switching the mode,
In step 318, it is checked whether the illumination lamp 112 is lit. If the light is off, in step 319 the projection unit 6
It is determined whether the projection unit set switch S8 is set (projection unit set switch S8 is ON), and if the projection unit set switch S8 is OFF, the process moves to step 320, which is a sheet feeding operation. In addition, if the projection unit 6 is set, the stabilizer 321
When lamp switch B3 is turned on, step 322
The illumination lamp 112 is turned on, and the process moves to step 320. Note that when the illumination lamp 112 is turned on, if a projection original is set on the condenser plate 5, the projection original is projected onto the screen via the projection lens 111 and the reflection mirror 32. If it is determined in step 318 that the illumination lamp 112 is on, the state of the projection unit 6 is determined in step 323, and if the projection unit set switch S8 is OFF (the projection unit 6 is not set), At step 324, the illumination lamp 112 is turned off, and at step 311 in FIG. 14(A).
Move to. If the projection section set switch S8 is ON in step 323, the lamp switch B5 is turned ON/OFF in step 325.
In step 326, the illumination lamp 112 is turned off, and the process moves to step 327 in FIG. 14(A). When the paper feeding operation proceeds to step 320, the state of the paper feeding switch S1 is determined in step 328, as shown in FIG. 14(C). That is, it is checked whether manual paper is set in paper feed port A. If the paper feed switch S1 is ON, the state of the roll paper detection switch S2 is determined in step 329. That is,
Check whether roll paper is set. If roll paper is not set, in step 330 the platen 1
2 to feed manual paper. Further, if the paper feed switch s1 is OFF in step 328, the roll paper detection switch S2 is turned ON in step 331.
If it is OFF, it is checked whether it is OFF or OFF.
Move to A). When the roll paper detection switch s2 is turned on in step 331 or the paper feeding operation is started in step 330, the state of the paper discharge switch s3 is checked in step 332. When the paper ejection switch s3 is turned ON, an error occurs in step 333 and if the installation switch s7 is OFF, the process returns to step 3.
11. Further, if the installation switch s7 is ON, step 334
The projection unit set switch S8 is checked, and if it is ON, the process moves to step 337, and if it is OFF, it is checked in step 360 whether the illumination lamp 112 is lit. If it is lit, it is turned off in step 361, an error occurs, and the process moves to step 311. If the light is off, turn on or off the mirror storage switch S9 and light condensing plate set switch S5 in steps 335 and 336.
If it is OFF, an error occurs and the process moves to step 311. If it is ON, check the copy end switch S4 in step 338, manually set the original platen 2 to the origin position, and set the copy end switch S4. When turned ON, the process moves to step 339. If the copy end switch S4 is OFF, the process returns to step 342 and the switches are checked until the copy end switch S4 is turned ON. When the process moves to step 339, it is determined in step 340 whether the illumination lamp 112 is lit as shown in FIG. 14(D), and if it is lit, step 33 of FIG. 14(A) is performed.
Move to 7. That is, while the illumination lamp 112 is on, a copying operation cannot be performed even if paper is set. If the illumination lamp 112 is off, the copy end switch S4 is checked in step 341, and if it is off, the process moves to step 342 in FIG. 14(C) and the switch is checked. When the copy end switch S4 is turned on, step 34
3, the copy operation starts. As a result, the motor 90 is driven, and the document table 2 on the light condensing plate 5 starts moving to the left. - After reading the document with the reading section 3, printing is performed with the thermal head 13. At this time, if the installation switch S7 and the condensing plate set switch S5 are turned OFF in steps 344 and 345, the copying operation is stopped in step 346, and the process moves to step 311 in FIG. 14(A). If the installation switch S7 and the condensing plate set switch S5 are both ON, step 3
At step 47, the state of the projection unit set switch S8 before starting the copying operation is checked. If the projection section set switch S8 is OFF, the storage state of the reflection mirror 32 and the projection section 6 is checked in steps 348 and 349, and the storage state is released (mirror storage switch S6 and projection section storage switch S9 are OFF). and,
At step 346, the copy operation is aborted. Further, even if the projection unit set switch S8 is ON, if the projection unit set switch S8 is turned OFF in step 350, the copying operation is stopped. Then, in step 351, it is checked whether reading of the original has been completed, and if the copy end switch S4 is turned on, the copying operation is ended in step 352, the paper is ejected in step 353, and step 327 in FIG. 14(A) is performed. Return to If the copy end switch S4 is OFF, step 3
54, the paper is finished (the trailing edge of the paper is the paper feed switch S1)
Or, it is checked whether a predetermined period of time has elapsed since the roll paper detection switch S2 has been passed, and if it has been completed, the copying operation is ended. Even if the copy operation is not completed, if the copy switch B4 is turned ON (forcibly) in step 355, the copy operation is stopped and turned OFF.
If it remains unchanged, the process moves to step 356.

[Effects of Example]

According to the embodiment described above, the projection unit 6 is attached to the back of the apparatus main body 1 so as to be rotatable between the storage position and the projection position, and the paper feed port of the printing mechanism 4 is located on the side opposite to the storage position. A
Since the projection unit 6 is stored in the lower part of the document table 2, the projection unit 6 does not intersect with the paper feeding and paper ejection path of the printing mechanism 4, and the projection unit 6 is stored in the lower part of the document table 2. It is now possible to form images such as copying in the current state. In addition, in order to prevent the moving document table 2 from colliding with the projection unit 6 during image formation, the storage state of the projection unit 6 is detected.
Since the document table 2 can be moved when the projection section 6 is in the stored state, it can be used extremely safely.

[Modified example]

15 and 16 show a modification of the present invention, in which the arm 301 of the projection unit 6 can be extended and contracted in multiple stages, and when the arm 301 is contracted, the side of the device main body 1 It can be stored in. Furthermore, the projection section 6 can be rotated at the arm 301, and if it is rotated 90' in the horizontal direction when stored, the projection section 6 can be compactly stored on the side of the main body 1 of the apparatus. . In this example, the position of the projection section 6 hardly interferes with the copying function. 17 and 18 show another modification of the present invention, in which the arm 302 of the projection section 6 can be stored in the side of the main body 1 in a contracted state.

【Effect of the invention】

As described above, in the image processing apparatus of the present invention, when the document table is moved, the projection section is stored at the bottom of the document table by folding or the like, and image formation is possible with the projection section stored. The section does not get in the way when handling originals on the original table. Furthermore, with the projection unit housed under the document table, the entire device can be made very compact and can be carried with one hand.

[Brief explanation of the drawing]

Fig. 1 shows an embodiment of the present invention, and is an overall explanatory diagram when used as an OHP, Fig. 2 is a perspective view of each part stored in a predetermined position, and Fig. 3 is a top view showing the internal structure. Fourth
The figure is a schematic sectional view when used as an OHP, Fig. 5 is a schematic sectional view with the light condensing plate opened, Fig. 6 is a sectional view of the main part of the projection section, Fig. 7 is a switch arrangement, and Fig. 8 is a schematic sectional view when used as an OHP. The figure is a schematic diagram of the projected state of the OHP, Figure 9 is an enlarged cross-sectional view of arm friction, Figure 10 is a cross-sectional view of the arm, and Figure 11 (A).
- (G) are explanatory diagrams of the function of forming a reduced image, Fig. 12 is a wiring diagram of the switch control circuit, Fig. 13 (A) CB) is a sectional view showing the document platen locking mechanism by the handle, and Fig. 14 (
A) to (D) are flowcharts for explaining the operation,
15 to 18 are plan views and side views showing modified examples, respectively, and FIGS. 19 and 20 are schematic sectional views showing conventional examples, respectively. 1... Apparatus body 2... Document table 3... Reading section 4... Printing mechanism 5... Light condensing plate
6... Projection unit 11... Motor 1
2...Platen 13...Thermal head 14...
- Paper feed roller 15... Paper discharge rollers 16.17, 18.19... Paper guide 21... Paper feed tray 22... Roll paper 23... Paper guide 24... Transparent plate 25.・Manuscript
26...Document cover 31...Machine frame
32...Reflection mirror 33...Handle 3
4...Operation panel S1...Paper feed switch S2...Roll paper detection switch S3...Paper ejection switch S4...Copy end switch S5...Light condensing plate set switch S6...Mirror storage switch S7...Body installation switch S8...Projection section set switch S9...Projection section storage switch Patent applicant: Japan Seimitsu Kogyo Co., Ltd. Same as above Riso Kagaku Kogyo Co., Ltd. Figure 10 Figure 11 (A) Figure 13 (A) Figure 13 (8) l Indication of the case Patent Application No. 120173 of 1988 2 Title of the invention Image processing device 3 Person making the amendment Relationship to the case Patent applicant address (residence) Shinbashi 2, Minato-ku, Tokyo Chome 20-15 Name (
Name) Published by Riso Kagaku Kogyo Co., Ltd. 4 Agent OO August 30, 1988 (Start) 6 Number of inventions increased by amendment 7 Drawings subject to amendment. 8 Contents of amendment

Claims (1)

[Claims] 1. An input section for inputting an image of a document; a document table on which the document is set and movable along the input section; a reflective light condensing plate to be set; an image forming unit that forms an image input from the input unit on a sheet; An image processing apparatus comprising: a projection section for projecting an image of the projection document; the projection section can be freely stored in a lower part of a document table, and the document table can be moved in the stored state. 2. The image processing apparatus according to claim 1, wherein the image forming section includes a paper feed port and a paper discharge port, and the projection section is housed in a position that does not intersect the paper feed and paper discharge paths.