JP3971567B2 - Connecting mechanism and image forming apparatus having the connecting mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a coupling mechanism and an image forming apparatus including the coupling mechanism, and more particularly, a coupling mechanism that couples a coupled apparatus to the image forming apparatus, and a copying machine and a facsimile apparatus that include the coupling mechanism to form an image. The present invention relates to an image forming apparatus such as a printer or a complex machine of these.
[0002]
[Prior art]
An image forming apparatus such as a copying machine or a printer is connected to a connected device such as a paper post-processing device or a paper feeding device that supplies a large amount of transferred transfer paper. It has been proposed to eliminate the misalignment and misalignment between the copying machine or printer of the forming apparatus and the connected apparatus.
For example, the connecting bracket on the insertion side of the post-processing apparatus that performs sort processing, stapling, or the like is inserted into the connecting bracket on the receiving side of the image forming apparatus or the post-processing apparatus that performs sorting or stapling. The paper discharge port of the image forming apparatus or the post-processing device that performs sorting processing, stapling processing, or the like is opposed to the paper feeding port of the post-processing device that performs sorting processing or stapling processing. Position the paper mouth and both connecting brackets, and place the other connecting bracket on one connecting bracket, and connect the paper post-processing device of the connected device that does not require any special adjustment. Thus, it is known to form an image (see Japanese Patent Application Laid-Open No. 5-105312).
When the height of the discharge port for discharging paper from the copier or printer of the image forming apparatus is different from the height of the paper supply port for supplying paper to the sorter of the post-processing device to be connected It is also known that the height of the mouth is adjusted by, for example, attaching a sorter of a post-processing device to another frame to perform alignment to form an image (see Japanese Utility Model Publication No. 64-7169). reference).
An intermediate transport unit is installed between the copying machine or printer of the image forming apparatus and the paper post-processing device of the connected device, or a guide member that can be rotated in the vertical direction is provided at the paper feed port of the paper post-processing device. It is also known to form an image by performing alignment (see Japanese Patent Laid-Open No. 5-43124).
Further, the coupling mechanism for coupling the copier or printer of the image forming apparatus and the paper post-processing apparatus of the coupled apparatus is provided in one of the pair of apparatuses that can move toward or away from each other. By guiding the rail member and the guide on the base member that is detachably attached to the other device, the two devices can be approached to each other, and the base member can be used when one device approaches the other device. It is also well known that an image is formed by a mounting holding member that is forcedly displaced by abutting against a contacted portion of one apparatus so as to be securely mounted regardless of erroneous mounting (Japanese Patent Laid-Open No. 11). (See the publication of -327238).
However, a connected device such as a paper feeder with a caster or a post-processing device for a transfer target is connected to an image forming apparatus such as a copying machine or a printer, particularly with a floor type caster. If the image forming apparatus is disconnected from the connected device such as the paper feeding device or the transferred material post-processing device and then reconnected in the jam processing operation of the transfer paper of the transferred material, etc. In many cases, the image forming apparatus is caused to collide with a connected apparatus such as a paper feeding apparatus or a post-transfer-receiving apparatus.
[0003]
In recent years, with the enhancement of functions and capacity of connected devices such as a paper feeding device and a transferred material post-processing device, the weight has increased, and both the image forming device, the paper feeding device, the transferred material post-processing device, etc. Since the weights of the connected devices are almost equal or close to each other, if the connected device such as the paper feeding device or the transferred material post-processing device collides with the image forming device during the connection, the image forming device Moving or moving, it collides with nearby walls, fixtures, other image forming apparatuses, etc., causing adverse effects, and nearby operators may become dangerous.
In general, all connected devices such as image forming devices, paper feeding devices, and post-processing devices to be transferred are provided with casters for installation and movement, and they usually function as feet for each device. is doing. Some casters have a brake function, but the force to fix each device is very small, and casters that can be freely rotated rotate around the direction variable shaft depending on the direction of the wheel, and there are not a few It could move and was dangerous.
Therefore, when it is desired to firmly fix the image forming apparatus such as a copying machine or a printer, or a connected apparatus such as a paper feeding apparatus or a post-transfer-receiving apparatus, to the installation surface, the image forming apparatus such as a copying machine or a printer, It is also publicly known that a suction cup and a screw-type stopper that are adsorbed and fixed to an installation surface of a connected device such as a paper device or a post-transfer material post-processing device are also provided (see Japanese Patent Laid-Open No. 8-44132). .
However, when a connected device such as a paper feeding device or a post-transfer material post-processing device that has increased in weight is not installed, a normal fixing force such as a brake function of a caster is often sufficient. In some cases, unnecessary parts such as suction cups, screw-type stoppers, and unnecessary excessive functions have increased costs.
Therefore, the conventional connecting mechanism and the image forming apparatus including the connecting mechanism are arranged to collide with a connected apparatus such as a paper feeding apparatus or a post-transfer object post-processing apparatus or a collision at the time of jam processing connection. Parts that move or move and collide with nearby walls, fixtures, other image forming devices, etc., causing adverse effects, as well as dangers for operators, etc., and unnecessary fixing parts There was a problem that the cost was high due to the number and effort.
[0004]
[Problems to be solved by the invention]
Therefore, an object of the present invention is to solve such problems. In other words, the image forming apparatus is connected to the apparatus to be connected and the movement of the image forming apparatus and the occurrence of adverse effects due to the movement are prevented, and a low-cost and low-cost connection mechanism is provided. An object of the present invention is to provide an image forming apparatus.
[0005]
[Means for Solving the Problems]
  In order to achieve the above object, the present invention of claim 1 is a coupling mechanism for coupling a coupled device to an image forming apparatus, a coupling means for coupling the coupled device so as to be able to approach or separate, and the coupling. An attachment means for detachably attaching the image forming apparatus to the image forming apparatus so that the means can be moved close to or away from the image forming apparatus; and an installation surface fixing means for fixing the attachment means at a predetermined position on the installation surface of the image forming apparatus.The installation surface fixing means includes a fixing unit that fixes the installation surface of the image forming apparatus when connected, and a fixing unit that adjusts the height by moving the fixing unit to a height in the vertical direction of the installation surface of the image forming apparatus. And a moving height adjustment unitIt is characterized by that.
    According to a second aspect of the present invention, in the connecting mechanism according to the first aspect,the aboveThe connecting means is a connecting label.LeIt is characterized by comprising.
    The present invention of claim 3 is the connecting mechanism according to claim 1 or 2,the aboveThe connecting means is an attaching / detaching part for attaching / detaching the connected device.WoodIt is characterized by comprising.
    The present invention of claim 4 is the connecting mechanism according to claim 1, 2, or 3,the aboveThe connecting means is a caster that guides the approaching or separating movement in the linear direction.TakaIt is characterized by comprising.
    The present invention of claim 5 is the connecting mechanism according to claim 1, 2, 3 or 4,the aboveThe attachment means has the connecting means in the linear directionMove closer to or away fromGuide section that guides and holds movementWoodIt is characterized by comprising.
    The present invention of claim 6 is the connecting mechanism according to claim 1, 2, 3, 4 or 5,the aboveThe attachment means is an installation surface fixing means holding hand for holding the installation surface fixing means arranged on the installation surface facing surface that faces the installation surface of the image forming apparatus when connected.SteppedIt is characterized by comprising.
[0006]
  The present invention of claim 7 claims1 to 6In the coupling mechanism described inthe aboveThe fixed unit includes a fixed foot and an installation surface contact foot.
  The present invention of claim 8 claims7In the coupling mechanism described inthe aboveFixed foot,the aboveHolds the installation surface contact foot that fits and holds the installation surface contact foot.NailsIt is characterized by comprising.
  According to a ninth aspect of the present invention, there is provided an image forming apparatus including a connecting mechanism for connecting an apparatus to be connected to form an image. A connected device connected to the forming means and the connected device are connected to each other.Or 8It is characterized by comprising the connecting mechanism described in 1.
[0007]
  Claim10The invention of claim9In an image forming apparatus comprising the connection mechanism described in 1.the aboveThe connected device is a transfer object supply device that supplies the transfer object to the image forming means.PlaceIt is characterized by comprising.
  Claim11The present invention isClaim 9 or 10In an image forming apparatus comprising the connection mechanism described in 1.the aboveThe connected device is a post-processing device for the transferred body that performs post-processing of the transferred body after the image is formed by the image forming means.PlaceIt is characterized by comprising.
  Claim12The present invention isThe image forming apparatus having the connecting mechanism according to claim 9, 10, 11 is characterized in that the main body and the connected device are fixed after being connected by a connecting and fixing means.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a configuration explanatory view of a connecting mechanism according to an embodiment of the present invention. A connecting mechanism 0 for connecting a connected device to an image forming apparatus is connected and fixed after connecting to an image forming means 11 of the image forming apparatus 10. Transfer object supply device 110 which is connected and fixed by means 12 and supplies a large amount of transfer object (P) of connected device 100 and supplies it from the outside of the device, or transferred image after image formation is performed A punching device 121 that performs post-processing of the body (P) and punches the transferred object (P) after forming the image, and a sorter 122 that sorts the transferred objects (P) after forming the image. The transfer target post-processing device 120 such as the stapler 123 that staples the transfer target (P) after the image is formed is shown in the direction of the image forming device 10 by the connecting screw of the detachable member 1b. Separated in the straight direction of A direction The connecting rail 1a of the connecting means 1 that is connected so as to be able to move closer to it, and the connecting rail 1a of the connecting means 1 are moved toward the image forming apparatus 10 in the linear direction shown by the arrow A by the guide member 2a. An attaching means 2 that is detachably held and is attached to a lower portion of the main body 10a of the image forming apparatus 10 by a detachable screw 2d, and the attaching means 2 is a predetermined surface on the installation surface (S) of the image forming apparatus 10. It comprises installation surface fixing means 3 for fixing to a position.
The connecting rail 1a of the connecting means 1 is guided by the guide member 2a of the attaching means 2 and a caster 1c arranged at the tip, and the movement toward or away from the linear direction in the direction of arrow A shown in the figure moves into a linear motion. Is limited.
Post-processing of the transfer object supply device 110 that supplies a large amount of transfer object (P) of the connected apparatus 100 and supplies it from outside the apparatus or the transfer object (P) after image formation is performed. The transferred object post-processing apparatus 120 has a connecting rail 110a corresponding to the connecting rail 1a of the connecting means 1 or a connecting rail 120a, and is fastened by a connecting screw of the detachable member 1b to be connected to the image forming apparatus 10. The connected device 100 of the transferred material post-processing device 120 that performs the post-processing of the transferred material (P) after the image formation is performed is the arrow A shown in the drawing. It is connected in a state in which the movement toward or away from the linear direction can be linearly operated.
The connected device 100 of the image receiving apparatus post-processing device 120 that performs post-processing of the image forming apparatus 10 and the transferred object supply device 110 or the transferred object (P) after image formation is performed. The installation surface facing surface 10a of the image forming apparatus 10 for moving the installation surface (S).₁A caster 10b disposed on the installation surface opposing surface 110b of the transferred object supply apparatus 110, and a caster 120c disposed on the installation surface facing surface 120b of the transferred object post-processing apparatus 120. Yes.
In this way, the transfer mechanism post-processing apparatus that performs post-processing of the image forming apparatus 10 and the transfer target supply apparatus 110 or the transfer target (P) after image formation is performed by the coupling mechanism 0. Since the movement of the coupled device 100 of 120 is approached or separated in the linear direction indicated by the arrow A in the figure, the linear operation can be easily performed and the direction variable axis is the center. It is safe because it does not rotate and move.
[0010]
The image forming apparatus 10 and the transferred object supply apparatus 110 or the connected apparatus 100 of the transferred object post-processing apparatus 120 that performs post-processing of the transferred object (P) after image formation is performed. The connection fixing means 12 for fixing after the connection includes a magnetized fixing member 12a and a positioning member 12b.
The fixing member 12a of the connection fixing means 12 is the transfer member post-processing device 120 that performs post-processing of the transfer target supply device 110 or the transfer target (P) after image formation. Connection frame 12a having a magnet catch provided on the coupled device 100 side₁And a magnetized plate 12a provided on the main body 10a side of the image forming apparatus 10₂Thus, the magnets are fixedly held after being automatically connected by the magnetized magnetic force.
The positioning member 12b of the connection fixing means 12 is a positioning pin 12b provided on the main body 10a side of the image forming apparatus 10.₁And a positioning hole provided on the connected device 100 side of the transferred material post-processing device 120 that performs post-processing of the transferred material (P) after image formation is performed. 12b₂By fitting, the devices are accurately positioned.
For example, at the time of jam processing of the transferred object (P), the transferred object supply apparatus 110 or the transferred object post-processing apparatus 120 that performs post-processing of the transferred object (P) after image formation is performed. When the connected apparatus 100 is separated from the main body 10a of the image forming apparatus 10, the transferred object supply apparatus 110 or the transferred object (P) after the image formation is performed is post-processed. The connected device 100 of the transferred object post-processing device 120 is linearly operated by being guided by the connecting rail 1a of the connecting means 1, and the fixing position is easily determined even when reconnected and fixed. After being connected, it is held fixed.
Therefore, the transferred object supply apparatus 110 of the image forming apparatus 10 and the connected apparatus 100 or the transferred object post-processing apparatus 120 that performs post-processing of the transferred object (P) after image formation is performed. The image forming apparatus 10 including the connecting mechanism 0 and the connecting mechanism 0 which is safe and has a low number of parts and hassle-free and prevents the movement of the image forming apparatus 10 at the time of the connection and the occurrence of adverse effects due to the movement. It became possible to provide.
[0011]
In FIG. 2, the transfer target post-processing device 120 that performs post-processing of the transfer target (P) after the image formation is performed with the transfer target supply device 110 of the connected device 100 is connected by the connecting mechanism 0. An image forming apparatus 10 including a connecting mechanism 0 that forms an image by connecting the image forming unit 11 transfers the image to the transfer target (P) to form a formed image, and the image forming apparatus 10 and the transfer target supplying apparatus. 110, or connection fixing means 12 for fixing after being connected to the connected apparatus 100 of the transferred object post-processing apparatus 120 that performs post-processing of the transferred object (P) after image formation is performed, and the image forming means 11. The transferred body discharge port 13a of the transferred body discharge means 13 for transporting and discharging the transferred body (P) on which the image is formed is discharged from the transferred body discharge port 13a of the transferred body discharge means 13. Transferred object on which a formed image is formed Selecting a post-processing mode for post-processing to P), the control panel 10a₂Punching processing mode selection means 14a, sorting processing mode selection means 14b, stapling processing mode selection means 14c of the processing mode selection means 14 disposed in the processing mode selection means 14, and the punching processing mode of the post processing mode selection means 14 By selecting ON of the post-processing mode selection switch of the selection unit 14a, the sort processing mode selection unit 14b, or the staple processing mode selection unit 14c, the transfer target discharge port 13a of the transfer target discharge unit 13 is selected. The transferred object (P) on which the formed image discharged from the sheet is formed is subjected to predetermined post-processing selected by the transferred object post-processing device 120.
An image forming unit 11 that forms a formed image by transferring a formed image to a transfer body (P) includes a sheet feeding device 11a that loads and supplies the transfer body (P) in the main body 10a, and the main body 10a. The transferred object supply device 110 which is arranged outside and is fixedly held after being connected by the connected mechanism 0 and supplies another type of transferred object (P) in a large capacity, and an original image ( O) based on a scanner unit 11b for reading, an image recording processing unit 11c for electrically processing an image signal output as a digital signal from the scanner unit 11b, and image recording information from the image recording processing unit 11c. A printer unit 11d for forming an image on the transfer target (P).
[0012]
The printer unit 11d is supported so as to be rotatable in the direction of arrow B shown in the figure, and carries an image carrier 11d that carries a formed image.₁After the drum-shaped photoconductor and the sheet transfer device (P) are stacked and supplied in the main body 10a or connected to the connected mechanism 0 by being arranged outside the main body 10a. The transferred object (P) conveyed from the transferred object supply device 110 that is fixedly held and supplies another type of transferred object (P) in a large capacity is supplied to the image carrier 11d.₁Registration roller 11d that starts and stops in accordance with the rotation timing of₂And image carrier 11d₁The developing unit 11d that visualizes the electrostatic latent image formed on the toner and forms a toner image_ThreeAnd the developing unit 101d_ThreeA transfer unit 11d for transferring the toner image formed in step 1 to the transfer target (P)._FourAnd the transfer unit 11d._FourFixing unit 11d for pressing and fixing the toner image transferred to the transfer medium (P)_FiveAnd the transfer unit 11d._Four11d after image transfer by₁Cleaning unit 11d for collecting residual toner remaining on the drum-shaped photosensitive member₆It consists of.
The scanner unit 11b includes a document table 11b.₁For example, a lamp 11b such as a fluorescent lamp that scans and irradiates the upper document (0).₂The reflected light from the document (0) obtained by the irradiation of the mirror 11b_Three, Mirror 11b_Four, Mirror 11b_FiveIs reflected by the imaging lens 11b.₆Is incident on.
The reflected light from the document (0) is the imaging lens 11b.₆As image light passing through, for example, a CCD light receiver 11b₇Is incident on. The light receiver 11b₇The CCD converts the incident light into a digital signal and outputs the digital signal, and the output undergoes necessary processing in the image recording processing unit 11c to be converted into a signal for image recording formation.
A signal output from the image recording processing unit 11c is input to the printer unit 11d and is input to the laser beam emitting unit 11d.₈Sent to.
[0013]
Image carrier 11d rotating in the direction of arrow B shown in the figure₁In the vicinity of the drum-shaped photoconductor of FIG.₁Close to the top, the image carrier 11d₁Charger 11d for uniformly charging₇The laser beam emitting unit 11d₈Exposure unit by the developing unit 11d_ThreeDeveloping roller, transfer unit 11d_FourThe transfer charger is attached.
Image carrier 11d₁On the surface of the drum-shaped charged photoreceptor, the laser beam emitting unit 11d is provided.₈An electrostatic latent image is formed by the exposure by. This electrostatic latent image is stored in the developing unit 11d._ThreeThe toner is developed by a developing roller and visualized to form a toner image.
The scanner unit 11b includes a system controller 11c of the image recording processing unit 11c.₁The document table 11b at a scanning speed corresponding to the magnification specified by the start signal from₁The original image surface of the upper original (0) is scanned, and the original image passing through the optical system is converted into the image processing unit 11c of the image recording processing unit 11c.₂Send to.
Image processing unit 11c of image recording processing unit 11c₂Is the light receiver 11b of the scanner unit 11b.₇The image data sent from the CCD is subjected to image processing, the image data sent to the printer unit 11d is subjected to image processing, and sent to the printer unit 11d. The system controller 11c₁Editing processing such as scaling processing, masking, trimming, mirroring, etc. is also performed by designation from.
Buffer memory 11c in the image recording processing unit 11c_ThreeIs the system controller 11c.₁The image data is controlled by the image carrier 11d of the printer unit 11d.₁The laser beam emitting unit 11d for irradiating the drum-shaped photoconductor₈To send to.
The printer unit 11d includes an image processing unit 11c of the image recording processing unit 11c.₂The laser beam emitting unit 11d according to the image data from₈And a transfer image is formed on the transfer target (P) by an electrophotographic process.
The transfer medium discharge means 13 is connected to the fixing unit 11d._FiveThe transfer unit 11d_FourThe transferred image (P), to which the toner image transferred in step (b) is heated and pressurized and fixed, is introduced from the transferred object introduction port 120d of the transferred object post-processing device 120 and is subjected to image formation after the image formation. P) is post-processed.
[0014]
FIG. 3 is a diagram showing an internal configuration example of the transferred object post-processing apparatus. In FIG. 3, a switching claw 120e arranged in the transferred object post-processing apparatus 120 causes the transferred object in the direction of the arrow C shown in the figure. The transferred object (P) after image formation introduced from the transfer object introducing port 120d is switched to the transferred object (P) which is not subjected to post-processing in the direction of the arrow D shown in FIG. It is transported to the body transport path 120f and discharged to the proof tray 120g for storage.
On the other hand, the transferred object (P) on which the post-processing of the punching process, the stapling process, and the sorting process is performed is switched by the switching claw 120e in the direction of the arrow E shown in the figure, and the transferred object post-processing of the structure The transferred body post-processing means 120, which is arranged and fixed in the apparatus main body 120h, is carried into the punched body conveying path 121a of the punching apparatus 121, and is punched by the punching apparatus 121 as necessary. It is like that.
The punching device 121 has an inlet 121a of the punched body transport path 121a for transporting the body to be transferred (P).₁The entrance sensor 121a₂Photosensors are arranged.
The entrance 121a of the body to be punched transport path 121a₁The entrance sensor 121a arranged in₂When the photosensor detects a transfer target (P) conveyed in the direction of arrow E shown in the drawing, the perforation drive motor 121b is driven to rotate.
When the piercing drive motor 121b is driven to rotate, the punch shaft 121g that has been stopped at the initial position by the piercing home sensor 121f is synchronized with the transfer target (P) conveyed through the clutch 121c and the gear train 121d. Is rotated in the direction indicated by the arrow G, and the die shaft 121h is rotated in the direction indicated by the arrow H.
[0015]
A punch 121g fixed to the punch shaft 121g that rotates in the direction of the arrow G shown in the figure and rotates in synchronization with the transferred object (P) being conveyed.₁And a die 121h fixed to the die shaft 121h that rotates in the direction of the arrow H shown in the figure and rotates in synchronization with the transferred object (P) being conveyed.₁As a result, when perforated in the transfer object (P), perforated waste is generated and dropped at the same time, but is stored in a perforated waste storage container 121i disposed below so that scattering of perforated waste is prevented. It has become.
In the transferred object post-processing apparatus 120, the transferred object post-processing means 120 performs the transferred object (P) sorting process together with the punched apparatus 121 that performs the punched process of the transferred object (P). The sorter 122 and the stapler 123 of the transferred object post-processing means 120 for stapling the transferred object (P) are disposed and fixed on the transferred object post-processing apparatus main body 120h of the structure, and the transferred object is transferred. The perforated body transport path 121a that transports the transferred body (P) that is transported from the body introduction port 120d communicates with the sorted body transport path 122a and the staple body transport path 123a, and after image formation is performed as necessary. The processing modes of the transfer medium (P) are the punching process mode selection means 14a, the sort processing mode selection means 14b of the post-processing mode selection means 14, and the staple processing mode selection means 1. It becomes possible to select by c.
In the sorter 122, the transferred object (P) after image formation introduced from the transferred object introduction port 120d in the direction of the arrow C shown in the figure is conveyed through the sorted object conveyance path 122a, and a bin lift motor 122b. The rotational drive of the helical cam shaft 122c rotates, and the position of the helical cam shaft 122d is controlled by the bin pulse sensor 122d, so that a predetermined bin 122f is fed from the auxiliary bin 122e._{1 ~ n}Sorting processing is performed and discharged.
In the stapler 123, the transferred object (P) after image formation introduced from the transferred object introduction port 120d in the direction of arrow C shown in the figure is conveyed in the stapled object conveyance path 123a, and is chucked by the chuck unit 123b. The staple processing is performed by chucking, and the paper is discharged.
[0016]
4 and 5 are enlarged perspective views of the coupling mechanism. The coupling mechanism 0 is the installation surface facing surface 10a close to the installation surface (S) of the main body 10a of the image forming apparatus 10. FIG.₁The attachment means 2 is provided with a connection rail 1a of the connection means 1 and the guide member 2a for holding and guiding the connection rail 1a. At the tip of the connecting rail 1a, the caster 1c is provided to guide the linear motion of the connecting rail 1a of the connecting means 1 when the apparatus is moved.
The mounting means 2 has a stud screw 2c of the installation surface fixing means holding means 2c on the installation surface facing surface 2b which is parallel to the installation surface (S) of the floor surface during installation.₁The stud bolt is raised, and the stud screw 2c₁The parts for adding the function as the installation surface fixing means 3 are fitted and assembled.
The installation surface fixing means 3 includes a fixing foot 3a of a fixing unit 3a that fixes the installation surface to the installation surface (S) of the image forming apparatus 10 when connected.₁And installation surface contact foot 3a₂And the fitting screw portion 3b of the fixed unit moving height adjusting unit 3b for adjusting the height by moving the fixed unit 3a to the height in the vertical direction of the installation surface (S) of the image forming apparatus 10.₁And rotating dial 3b₂It is composed of
Therefore, the movement of the image forming apparatus 10 such as when the image forming apparatus 10 is connected to the connected apparatus 100 and the occurrence of adverse effects thereof can be prevented without requiring a new extra space with a simple mechanism. Thus, it is possible to provide a low-cost coupling mechanism 0 that is safe and has a small number of parts and labor.
[0017]
FIG. 6 is a cross-sectional view of the installation surface fixing means, and the rotation dial 3b.₂At the center of the fitting screw 3b₁Nut member 3b₁₁Is inserted into the nut member fixing claw 3b._{twenty one}Held by.
The fixed foot 3a of the fixed unit 3a₁The installation surface contact foot 3a₂Is inserted and the installation surface contact foot holding claw 3a₁₁Held by.
The installation surface contact foot 3a₂Is a disk-shaped rubber member of an elastic friction member, or a suction cup portion 3a._{twenty one}Since it is made of, it is easy to fit and easy to assemble, and since it does not turn when fixed, it is strong, and is securely fixed to the installation surface (S).
The fixed foot 3a of the fixed unit 3a₁The rotation dial 3b₂The nut member fixing claw 3b_{twenty one}Is held in a rotatable state even after fitting.
In this way, each component is easily assembled by fitting, and finally the stud screw 2c of the installation surface fixing means holding means 2c is placed on the installation surface facing surface 2b of the attachment means 2.₁The nut member 3b₁₁Are screwed and configured as a fixing means.
The rotating dial 3b₂And the fixed foot 3a₁Is not constrained with respect to the rotational direction, so that the fixed foot 3a₁Even when the ring is in contact with the floor and a force is applied to the floor, the rotating dial 3b₂Can be rotated easily.
[0018]
In FIG. 7, the transfer target supply device 110 and the transfer target post-processing device 120 (not shown) of the connection target device 100 and the main body 10 a of the image forming apparatus 10 are connected by a connection rail 1 a of a connection mechanism 0. The movement is restricted only in the linear direction of the arrow A shown in the figure.
At the time of jam processing or the like, the transferred object post-processing device 120 of the coupled device 100 and the main body 10a of the image forming device 10 need to be separated as illustrated. Thereafter, the connection is performed again. At that time, the transferred object post-processing device 120 of the connected device 100 may be moved vigorously and collide with the main body 10a of the image forming apparatus 10. The zero installation surface fixing means 3 is fixed to the floor of the installation surface (S), so that it does not move by reaction.
[0019]
FIG. 8 is an explanatory diagram of the operation method, and the rotary dial 3b.₂Is turned in the direction of the arrow I shown in the figure, the fitting screw portion 3b held by the screw₁The nut member 3b₁₁The stud screw 2c of the installation surface fixing means holding means 2c.₁Is moved up and down in the direction of the arrow J shown in FIG.₁Is the installation surface contact foot 3a₂In addition, the rotation dial 3b₂Move up and down in the direction of arrow J shown in the figure.
When it is desired to fix to the floor of the installation surface (S), the rotation dial 3b₂Is rotated in the direction of the arrow I shown in the figure and moved downwardly, and the installation surface contact foot 3a₂To the floor of the installation surface (S) until the required fixing force is obtained, the rotating dial 3b₂Is rotated in the direction of the arrow I shown in the figure to increase the force on the floor of the installation surface (S).
The installation surface facing surface 10a in the lower part near the floor surface of the installation surface (S) of the main body 10a of the image forming apparatus 10.₁The attachment means 2 is attached and fixed by the removable child 2d, and the rotary dial 3b of the installation surface fixing means 3 is fixed.₂Is rotated in the direction of the arrow I shown in the drawing, the installation surface contact foot 3a.₂Is brought into contact with the floor surface of the installation surface (S) and then further rotated slightly so that the weight of the main body 10a of the image forming apparatus 10 sufficiently acts on the floor surface of the installation surface (S). . By doing so, the image forming apparatus 10 is fixed to the floor surface of the installation surface (S) via the attachment means 2.
Thereafter, the transferred object post-processing apparatus 120 of the connected apparatus 100 is connected via the connecting mechanism 0, and the connection between the apparatuses is completed. By fixing to the floor surface of the installation surface (S) in this way, even when the transferred object post-processing device 120 of the connected device 100 collides, the movement of the image forming apparatus 10 and the adverse effect due to the movement occur. Thus, it is possible to configure the image forming apparatus 10 with good operability. In addition, it is not necessary to provide fixing means in the image forming apparatus 10 itself, the effect of cost reduction is great, and the installation property is also good.
Furthermore, the mounting position of the installation surface fixing means 3 of the coupling mechanism 0 is arranged at a position of the center of gravity of the main body 10a of the image forming apparatus 10 or a position close to the position of the center of gravity so that the fixing effect is enhanced.
[0020]
However, the installation surface facing surface 10 a of the main body 10 a of the image forming apparatus 10.₁If it is provided at a position close to the back of the rotary dial 3b,₂When rotating the hand, it is difficult to put in a hand and the operability is deteriorated.
Therefore, the rotation dial 3b₂The rotation dial 3b so that at least a part of the outer periphery protrudes outside the outer shape of the main body 10a.₂The operability when rotating is improved.
The fitting screw 3b at the center of the fixed unit moving height adjustment unit 3b₁Or the nut member 3b.₁₁Is made of metal material because it must be screwed and subjected to great force.
Therefore, the rotation dial 3b of the fixed unit moving height adjustment unit 3b of the connecting device 0 is used.₂The material is a molded product of resin, and the above-described fitting screw portion 3b that receives a large force₁Or the nut member 3b.₁₁Is made of metal material and is strong, and it is not appropriate to perform insert molding for recycling, so as an assembly structure to be fitted, it has become both lightweight, assemblable and recyclable Yes.
[0021]
【The invention's effect】
  Since the present invention is configured as described above, according to the present invention, the connecting means for connecting the connected devices so as to be able to approach or move away from each other is held so as to be able to move toward or away from the image. Since the attachment means that is detachably attached to the forming apparatus is fixed to a predetermined position on the installation surface by the installation surface fixing means, the movement of the image forming apparatus during the connection between the image forming apparatus and the connected apparatus and the movement It has become possible to provide a low-cost coupling mechanism that is safe and requires few parts and labor by preventing the occurrence of adverse effects.In addition, the installation surface fixing unit is provided with an installation unit that attaches the connection unit that connects the connected devices so as to be capable of approaching or separating and is detachably attached to the image forming apparatus. The installation surface fixing means is held by the stud screw of the installation surface fixing means holding means arranged on the surface opposite to the installation surface opposite to the installation surface of the image forming apparatus at the time of connection. This eliminates the need for new extra space with a simple mechanism, prevents the movement of the image forming apparatus when connecting the image forming apparatus and the connected apparatus, etc. It has become possible to provide a low-cost coupling mechanism with less effort.
  BookAccording to the present invention, the mounting surface is fixed to the mounting means for detachably attaching the connecting rail of the connecting means for connecting the connected devices so as to allow the approaching or separating movements to be possible to move toward or away from each other. Since it is fixed at a predetermined position on the installation surface by the means, the movement of the connected device is restricted only by the linear operation, so that the linear operation can be easily performed, and the image forming apparatus and the connected device This prevents the movement of the image forming apparatus when connected to the camera and the occurrence of adverse effects caused by the movement, so that it does not rotate and move around the direction variable axis, so it is safer, requires fewer parts, hassle, and is low in cost. A connection mechanism can be provided.
  BookAccording to the invention, the mounting means for detachably attaching to the image forming apparatus while holding the connecting means for connecting the connected apparatuses so as to allow the approaching or separating movement to be possible is provided by the installation surface fixing means. Since the connecting means is attached to and detached from the connected device by a detachable member while being fixed at a predetermined position on the surface, the connecting means and the connected device can be attached and detached, and when the image forming apparatus and the connected device are connected. Therefore, it is possible to provide a low-cost coupling mechanism that is safe and has a reduced number of parts and labor by preventing the movement of the image forming apparatus and the like and the adverse effects caused by the movement.
  BookAccording to the invention, the mounting means for detachably attaching to the image forming apparatus while holding the connecting means for connecting the connected apparatuses so as to allow the approaching or separating movement to be possible is provided by the installation surface fixing means. Since the connecting means is fixed at a predetermined position on the surface and the connecting means guides the approaching or separating movement in the linear direction by the caster, the approaching or separating movement of the connected device is restricted only by the linear motion, so that it is easier. Linear movement is possible, and the image forming apparatus and the connected apparatus can be rotated and moved around the direction variable axis while preventing the movement of the image forming apparatus and the adverse effects caused by the movement. This makes it possible to provide a low-cost coupling mechanism that is safer and requires fewer parts and labor.
[0022]
  BookAccording to the invention, the mounting means for detachably attaching to the image forming apparatus while holding the connecting means for connecting the connected apparatuses so as to allow the approaching or separating movement to be possible is provided by the installation surface fixing means. The fixing means is fixed at a predetermined position on the surface and the connecting means guides the movement of the approaching or separating in the linear direction by the guide member, so that the approaching or separating movement of the connected device is restricted only by the linear motion. Therefore, the linear movement can be performed more easily, and the image forming apparatus can be moved around the direction variable axis while preventing the movement of the image forming apparatus and the adverse effect due to the movement when the image forming apparatus and the connected apparatus are connected. Therefore, it is possible to provide a low-cost coupling mechanism that is safer and requires less parts and labor.
  BookAccording to the invention, the mounting means for detachably attaching to the image forming apparatus while holding the connecting means for connecting the connected apparatuses so as to allow the approaching or separating movement to be possible is provided by the installation surface fixing means. The installation surface fixing means is held by the installation surface fixing means holding means arranged on the surface opposite to the installation surface opposite to the installation surface of the image forming apparatus at the time of connection. This eliminates the need for extra space, prevents the movement of the image forming apparatus during the connection of the image forming apparatus and the connected apparatus, etc., and prevents adverse effects caused by the movement. Can now be provided.
[0023]
  BookAccording to the invention, the mounting means for detachably attaching to the image forming apparatus while holding the connecting means for connecting the connected apparatuses so as to allow the approaching or separating movement to be possible is provided by the installation surface fixing means. The mounting surface fixing means is fixed to a predetermined position on the surface, and the fixing unit includes a fixing unit composed of a fixing foot for fixing to the installation surface of the image forming apparatus and an installation surface contact foot when connected, and the fixing unit in the vertical direction of the installation surface of the image forming apparatus. Since it is made up of a fixed unit moving height adjustment unit that moves to the height and adjusts the height, it is easy to install and fix the mechanism of the fixed unit, such as when connecting the image forming apparatus and the connected apparatus. The movement of the image forming apparatus and the occurrence of adverse effects due to the movement can be prevented, and it is possible to provide a low-cost coupling mechanism that is safe and requires few parts and labor.
  BookAccording to the invention, the mounting means for detachably attaching to the image forming apparatus while holding the connecting means for connecting the connected apparatuses so as to allow the approaching or separating movement to be possible is provided by the installation surface fixing means. The installation surface fixing means is fixed to a predetermined position on the surface and the installation surface contact means holds the fixed surface, the installation surface contact foot, and the installation surface contact foot of the fixed foot that are fixed to the installation surface of the image forming apparatus when connected. Simple fixed unit because it consists of a fixed unit consisting of claws and a fixed unit moving height adjustment unit that adjusts the height by moving the fixed unit to the height in the vertical direction of the installation surface of the image forming apparatus This is a mechanism that secures the number of parts safely by preventing the movement of the image forming apparatus such as when the image forming apparatus and the connected apparatus are connected and the adverse effects caused by the movement. During became less to be able to provide a low cost coupling mechanism.
[0027]
  BookAccording to the invention, the connected device connected to the image forming means for transferring the formed image to the transferred material to form the formed image is provided.the aboveSince the image is formed by coupling with the coupling mechanism, the movement of the image forming apparatus such as when the image forming apparatus and the coupled apparatus are coupled and the occurrence of adverse effects due to the movement are prevented, and the number of parts and labor are safe. Thus, it is possible to provide an image forming apparatus having a low-cost coupling mechanism.
  BookAccording to the invention, there is provided a transfer body supply device that supplies the transfer body to the image forming means of the connected apparatus that is connected to the image forming means that transfers the formed image to the transfer body and forms the formed image.the aboveSince the image is formed by being connected by the connecting mechanism, the image forming apparatus is moved when the image forming apparatus is connected to the transferred object supply apparatus that supplies the transferred object to the image forming means of the connected apparatus. It has become possible to provide an image forming apparatus that includes a low-cost coupling mechanism that is safe and has a small number of parts and labor, and prevents adverse effects due to the movement.
[0028]
  BookAccording to the present invention, the post-processing of the transferred body after the image is formed by the image forming means of the connected device connected to the image forming means for transferring the formed image to the transferred body and forming the formed image. Transfer post-processing devicethe aboveSince the image is formed by connecting with the connection mechanism, the connection between the image forming apparatus and the transferred object post-processing apparatus that performs post-processing of the transferred object after the image is formed by the image forming means of the connected apparatus. It has become possible to provide an image forming apparatus having a low-cost coupling mechanism that is safe and has a reduced number of parts and labor, by preventing the movement of the image forming apparatus at times and the occurrence of adverse effects due to the movement.
[0030]
  BookAccording to the invention, the connected device connected to the image forming means for transferring the formed image to the transferred material to form the formed image is provided.the aboveSince the image forming apparatus and the connected apparatus are connected to each other by the connecting mechanism and the main body and the connected apparatus are fixed by the connecting and fixing means and then fixed to form an image, the connected image forming apparatus and the connected apparatus are fixed. It is possible to provide an image forming apparatus provided with a low-cost connection mechanism that is safer, has fewer parts and hassle, and prevents the movement of the image forming apparatus during connection with the connecting apparatus and the like and the adverse effects caused by the movement. It became so.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating an outline of a coupling mechanism and an image forming apparatus including the coupling mechanism according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram for explaining a main part of a connection mechanism and an image forming apparatus including the connection mechanism according to an embodiment of the present invention.
FIG. 3 is an explanatory diagram illustrating another main part of a coupling mechanism and an image forming apparatus including the coupling mechanism according to an exemplary embodiment of the present invention.
FIG. 4 is an explanatory diagram illustrating another main part of a coupling mechanism and an image forming apparatus including the coupling mechanism according to an exemplary embodiment of the present invention.
FIG. 5 is a development view illustrating a connecting mechanism and other main parts of the image forming apparatus including the connecting mechanism according to the embodiment of the present invention.
FIG. 6 is an enlarged explanatory view illustrating another main part of the coupling mechanism and the image forming apparatus including the coupling mechanism according to the embodiment of the present invention.
FIG. 7 is an explanatory diagram for explaining another main part of the coupling mechanism and the image forming apparatus including the coupling mechanism according to the embodiment of the present invention.
FIG. 8 is an explanatory diagram for explaining a state of another main part of a coupling mechanism and an image forming apparatus including the coupling mechanism according to an exemplary embodiment of the present invention.
[Explanation of symbols]
0 coupling mechanism
1 connecting means, 1a connecting rail,
1b Detachable member,
1c casters
2 mounting means, 2a guide member,
2b Installation surface facing surface,
2c Installation surface fixing means holding means, 2c₁  Stud screw,
2d removable screw
3 Installation surface fixing means, 3a fixing unit, 3a₁  Fixed foot,
3a₁₁  Installation surface contact foot holding nail,
3a₂  Installation surface contact feet,
3a_{twenty one}  Sucker,
3b Fixed unit moving height adjustment unit,
3b₁  Mating screw,
3b₁₁  Nut member,
3b₂  Rotating dial,
3b_{twenty one}  Nut member fixing claw
10 image forming apparatus, 10a main body, 10a₁  Installation surface facing surface,
10a₂  Control panel,
10b casters
11 image forming means, 11a paper feeding device,
11b Scanner section, 11b₁  Document placement table,
11b₂  lamp,
11b_Three  mirror,
11b_Four  mirror,
11b_Five  mirror,
11b₆  Imaging lens,
11b₇  Receiver,
11c Image recording processing unit, 11c₁  System controller, 11c₂  Image processing unit,
11c_Three  Buffer memory,
11d Printer section, 11d₁  Image carrier,
11d₂  Registration rollers,
11d_Three  Development unit,
11d_Four  Transcription unit,
11d_Five  Fixing unit,
11d₆  Cleaning unit,
11d₇  Charging charger,
11d₈  Laser light emitting unit,
12 Connection fixing means, 12a Magnetization fixing member, 12a₁  Connection frame,
12a₂  Magnetized plate,
12b Positioning member, 12b₁  Positioning pin,
12b₂  Positioning hole
13 Transferred material discharge means, 13a Transferred material discharge port
14 post-processing mode selection means, 14a perforation processing mode selection means,
14b Sort processing mode selection means,
14c Staple processing mode selection means
100 Connected device
110 Transfer object supply device, 110a connecting rail,
110b Installation surface facing surface,
110c caster
120 post-transfer apparatus for transferred object, 120a connecting rail,
120b Installation surface facing surface,
120c casters,
120d transfer object inlet,
120e Switching claw.
120f Transfer target transport path without post-processing.
120g proof tray,
120h after-transfer device main body
121 punching device, 121a to-be-pierced object conveyance path, 121a₁  Entrance,
121a₂  Entrance sensor,
121b drilling drive motor,
121c clutch,
121d gear train,
121f perforation home sensor,
121g punch shaft, 121g₁  Punch,
121h Die shaft, 121h₁  Die,
121i Perforated waste storage container
122 Sorter, 122a Sorted object transport path,
122b Bin lift motor,
122c helical axis,
122d bin pulse sensor,
122e Auxiliary bin,
122f_{1 ~ n}  bottle
123 Stapler, 123a Staple transport path,
123b Chuck unit

Claims (12)

In a coupling mechanism for coupling a coupled device to an image forming apparatus, a coupling unit that couples the coupled device so as to be able to move toward or away from the coupled device, and an image forming apparatus that holds the coupling unit so as to be able to move toward or away from the image forming apparatus. and attachment means can attach detachably to the installation surface fixing means for fixing a predetermined position of the installation surface of the image forming apparatus the mounting means, Ri Tona,
The installation surface fixing means includes a fixing unit for fixing to the installation surface of the image forming apparatus when connected, and a fixed unit moving height for adjusting the height by moving the fixing unit to a height in the vertical direction of the installation surface of the image forming apparatus. A coupling mechanism characterized by comprising: a thickness adjusting unit . In connection mechanism according to claim 1, said coupling means coupling mechanism, wherein the connecting rail or Ranaru. In connection mechanism according to claim 1 or 2, said coupling means coupling mechanism, wherein the detachable member or Ranaru attaching and detaching the subject connecting device. In connection mechanism according to claim 1, 2 or 3, said coupling means coupling mechanism characterized by Cass data or Ranaru to guide the movement of the linear direction of approaching or spacing. In connection mechanism according to claim 1, 2, 3 or 4, the mounting means is characterized in that the guide member or Ranaru holding guides the movement to approach or separate the coupling means to the linear direction connecting mechanism. In connection mechanism according to claim 1, 2, 3, 4 or 5, said mounting means holds the installation surface facing the installation surface installation surface fixing means disposed on the opposite surface of the image forming apparatus when connected therewith coupling mechanism, wherein the surface fastening means holding hand stage or Ranaru. In connection mechanism according to claims 1 to 6, the fixing unit, the connecting mechanism, wherein the fixing feet, that comprising a mounting surface contacting the foot. In connection mechanism according to claim 7, said fixing foot connecting mechanism, wherein the mounting surface feeler foot holding claws or Ranaru holding fitted to the mounting surface contacting the foot. In an image forming apparatus having a coupling mechanism for coupling an apparatus to be coupled to form an image, an image forming unit for forming the formed image by transferring the formed image to a transfer target, and a coupled unit coupled to the image forming unit An image forming apparatus comprising a connecting mechanism, comprising: an apparatus; and the connecting mechanism according to claim 1, 2, 3, 4, 5, 6, or 8 for connecting the connected apparatus. In the image forming apparatus having a coupling mechanism according to claim 9, said the coupling device comprises a coupling mechanism, wherein the transfer member supplied instrumentation placed Ranaru that supplies the transfer material to the image forming means Image forming apparatus. In the image forming apparatus having a coupling mechanism according to claim 9 or 10, the the coupling device, the transferred object aftertreatment instrumentation placed al for postprocessing transferred object after forming an image by the image forming means An image forming apparatus comprising a connecting mechanism. 12. An image forming apparatus comprising the connection mechanism according to claim 9, wherein the main body and the device to be connected are fixed after being connected by a connection fixing means. Forming equipment.

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