JP3672450B2 - Fixing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a fixing device configured to fix a first device and a second device to each other to constitute one device, for example, a transparent mounting table, that is, a document on a document table (transparent platen). On the other hand, the present invention relates to a fixing device in which a scanner that optically reads the image is integrated with a printer that forms a desired image to constitute a copying machine (printing device).
[0002]
[Prior art]
An image forming apparatus (printer) visualizes image data of a document, image data input from another apparatus, and the like so as to be visible, and outputs the image as a hard copy. If this image forming apparatus is, for example, a copying machine using an electrophotographic system, a scanning optical system for forming an image of a document on a uniformly charged photoconductor provided with a photoconductive layer as an image carrier. Etc. are provided.
[0003]
Further, according to the digital copying machine, the original placed on the original table surface mainly composed of a transparent member such as glass was optically scanned with the light emitted from the light source. A scanner having a scanning optical system for imaging and reading reflected light on a light receiving portion of a photoelectric conversion element (reading element) such as a CCD as a reading element is mounted.
[0004]
An apparatus for reading an image as described above is generally called a scanner, and the original and a part of the optical system are relatively moved so as to form an image at a desired position line by line. ing. For this reason, the optical system is moved and scanned while the original is stationary on the original table so that images are sequentially formed at desired positions, for example, a photoconductor and a reading element (CCD). Further, the optical system is stopped, and the original on the original table is moved at a predetermined speed, that is, conveyed, so that images are sequentially formed at the desired positions described above. In this method, the original and the optical system are moved relative to each other to sequentially scan the image, and there is also a type in which an image of a stationary original is exposed at a desired position at once, that is, an image is formed.
[0005]
By providing the above-described scanner, an image of the original is formed, and an electrostatic latent image corresponding to the image is formed on the uniformly charged photoreceptor, and the electrostatic latent image is transferred to the developing device. Thus, an image forming apparatus that obtains a hard copy can be obtained by making the image visible and transferring it to a sheet or the like and discharging it.
[0006]
As described above, such an image forming apparatus is not limited to an electrophotographic analog or digital copying machine, but can visually check image data created by an information processing apparatus such as a personal computer or a word processor. There are printers, such as laser printers, ink jet printers, thermal printers, etc., that reproduce and output these as hard copies.
[0007]
As described above, the image forming apparatus is configured to provide a reproduction image desired by the user. On the other hand, as an apparatus for inputting image data to an image forming apparatus or the like, an original is placed on a placing table formed of transparent glass or the like as described above, that is, an original table. An image of the prepared document is provided via a scanner. In this case, image processing or the like is performed so that the image can be reproduced by the image forming apparatus, and this is projected onto the photoreceptor.
[0008]
The above-described scanner is permanently installed in a copying machine, a facsimile, or the like, and is connected as a scanner via a line for communicating data or the like, and reads a desired image and performs image editing processing.
[0009]
Therefore, conventionally, when a copying machine is transported and transported to a target location, the image forming apparatus main body (printer main body) and the scanner are often separately packed and transported. This is because when the entire apparatus including the scanner becomes large, or when the scanner and the printer main body interfere with each other due to vibration during transportation, the support housing or the like is distorted, causing problems in reading and image formation. When there is a possibility, each is individually packed.
[0010]
For this reason, when the copying machine is installed at a target position, it is necessary to unpack, transport and assemble the things that have been transported. As for the assembly, a scanner is mounted on the upper part of the printer main body, and a fixing member or the like is provided at the positioning portion so as to perform positioning and the like, and they are fixed to each other. In this case, since the scanner or the like is constituted by a precision member, there is a risk of damaging the support housing and a place where the members are connected and fixed to each other at the assembly stage. In order to prevent this, a specialist who specializes in assembly work at the transportation destination is dispatched. This increases labor costs and increases the cost of the device itself. Various techniques have been proposed to solve such problems.
[0011]
For example, in Japanese Patent Laid-Open No. 4-280158, a scanner disposed on an upper portion of a printer main body, which is an image forming apparatus, is placed at a predetermined position by a fastening member (such as a screw, a bolt and a nut) via an elastic member such as rubber. I try to fix it. Thus, by attaching through an elastic member, since mutual interference and damage etc. can be reduced, even if it transports in the state where both were fixed, distortion of a support case etc. can be controlled. Further, even if packing is performed separately and assembled and fixed to each other on the site, the vibrations are absorbed and alleviated by the elastic member, and it is possible to prevent adverse effects on reading or image formation. Further, even during transportation or movement, even if both are fixed in advance as described above, distortion of the casing or the like due to interference can be prevented.
[0012]
[Problems to be solved by the invention]
However, in the conventional fixing device, the fixing member is lost between the printer main body and the scanner via the elastic member, and the fixing member may be lost. That is, when the printer main body and the scanner are packed and transported separately, it is conceivable that a screw or the like is lost.
[0013]
Moreover, the operation | work fixed with a fastening member becomes very troublesome. In other words, if a scanner is placed at a predetermined position on the top of the printer body and the scanner is heavy when aligning screw holes, nuts, etc., the alignment will not be successful and a very troublesome work will be forced. Will be.
[0014]
Further, according to the fixing device described in JP-A-4-280158, the holding force of the fixing member is reduced with respect to the force from the direction perpendicular to the direction in which the connecting force acts when connecting each other. . Therefore, when transporting in a state where both are fixed, it is considered that vibration during transportation cannot be sufficiently dealt with. Therefore, it is sufficient to pack and transport them separately, but assembly and positioning are very troublesome.
[0015]
In addition, in the conventional apparatus, it is difficult to change and fix the connection state of the apparatus during transportation and use, or a very troublesome adjustment work is required. In particular, when transporting, keep the connection with each other's high retention name or connection with high rigidity. In order to eliminate the influence of mutual vibrations at times, it is necessary to establish a connection state suitable for transportation and use, which is very inconvenient.
[0016]
The present invention has the above-described problem, that is, in the device for fixing the first device and the second device to each other, this fixing is simplified, and at the same time, the fixing does not cause mutual buffering during transportation and use. It is to provide a fixing device capable of realizing the state.
[0017]
[Means for Solving the Problems]
To achieve the above-mentioned purpose Book The fixing device according to the present invention is a fixing device configured to fix the second device placed on the first device to the first device, and is provided on either the first or second device side. A member to be fixed and a second or first device side opposite to the side on which the member to be fixed is provided are provided with an elastic member capable of compressive deformation, and the member to be fixed is compressed by compressing the elastic member. An arbitrary fixing device and a fastening member for fixing the first and second devices are provided.
[0018]
In the fixing device having such a configuration, for example, as shown in FIG. 1 and FIG. 2, the fixing device (32) provided on the first device (2) side corresponds to the first device (3) side. It is placed on the elastic member 38 of the provided fastening member (33), and is performed by fitting the convex portion (35) and the concave portion (41) for positioning each other. As a result, the elastic member (38) is somewhat compressed by the weight of the first device, and the lower plane of the elastic member (38) is pressed against and fixed to the upper frame (3a) surface of the second device, in particular semi-fixed. It becomes a state. In such a fixed state, even if both devices operate, the vibrations are not propagated to each other, but are absorbed and relaxed by the elastic member and are not influenced by each other, and a satisfactory operation can be executed.
[0019]
Moreover, in the fixing device characterized by the above-described configuration, Book According to the invention, the portion where the fixed member is in contact with the elastic member is formed so as to be curved so as to coincide with each other, and the concave portion and the convex portion for positioning both are formed in the curved portion, respectively. Features. That is, as shown in FIG. 2, the elastic member (38) is semicircular (curved) so as to protrude to the upper part on which the fixed member (32) is placed, and the lower part of the fixed member (32) is a recess. Thus, they are curved in a semicircular shape and are formed so as to coincide with each other. And the positioning of the 1st and 2nd device can be performed reliably by providing a crevice (41) and a crevice (35) in a portion which mutually contacts.
[0020]
Furthermore, in the fixing device characterized by the above-described configuration, Book According to the invention, the fastening member includes Centering on the shaft pin It has a movable fixed lever that can rotate, The position of the shaft pin is The movable fixed lever Is rotated to bring it into contact with the member to be fixed. The elastic member is compressed and fixed. Set to position It is characterized by that. In this way, by providing the movable fixing lever on the fastening member, the elastic member is further compressed from the upper part of the fixed member, for example, is brought into close contact with the second device side by compression of the elastic member, and the fixing is strengthened. It can be carried out. By doing in this way, it is possible to use firmly in a fixed state and a semi-fixed state in which the first device is placed by compressing the elastic elastic member on the second device, and the operation of the device can be performed during transportation. It is possible to easily change the fixed state with time.
[0021]
In addition, when the first and second devices are integrated and transported, they can maintain a firm fixed state, cope with damages such as distortion due to vibration, etc., and in the case where they are separately packed and transported. Fixing by positioning can be easily performed, and it is not necessary to send a specialist or the like.
[0022]
Moreover, in the fixing device characterized by the above-described configuration, Book According to the invention, the elastic member is interposed between the first and second devices so that the fastening member can be engaged with the fixed member. Centering on the shaft pin It has a movable fixed lever that can be rotated, The position of the shaft pin is The movable fixed lever Is turned and engaged with the fixed member, the distance between the first and second devices is reduced. Compress and fix the elastic member Set to position The configuration is characterized. Similarly in this configuration, if the first device (2) is positioned and placed on the upper portion of the second device (3) as shown in FIG. 6 and FIG. The device (2) is slightly compressed by the weight of the device (2) and is in a semi-fixed state. Then, by rotating the movable fixing lever (46) and engaging with the fixed member (pin 45), the elastic member (53) is compressed from the dimension H1 to the dimension H2 (H1> H2). The Thereby, each other's devices are firmly fixed.
[0023]
And in this configuration, Book According to the invention, as shown in FIG. 7, the elastic member (53) is provided on the first device side mounted on the second device, and the elastic member (53) is provided on the second device side. A positioning portion (54) for determining a mounting position is provided, provided on the elastic member in an unfixed state, and provided with a shaft (55) that protrudes from the elastic member in a compressed state. A through-hole (56) is provided so that a shaft projecting toward the positioning portion corresponding to the shaft is fitted to constitute a fastening member. In such a configuration, when the movable fixing lever (46) is rotated and engaged with the fixed member (45), the elastic member (53) is compressed as described above, and thus provided on the elastic member side. The projected shaft (55) protrudes from the elastic member and fits into the through hole (56) of the positioning portion (54), and the first is formed by the movable fixed lever (46) side, the shaft (55) and the through hole (56). The second device can be firmly fixed to each other, and can be dealt with so as to prevent mutual distortion caused by large vibrations or the like.
[0024]
[Embodiments of the Invention]
Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is for explaining a first embodiment of the present invention, and is fixed by a fixing device according to the present invention for fixing a scanner as a first device and a printer body as a second device to each other. FIG. 2 is an explanatory diagram for explaining the operation of the fixing operation by the fixing device of the present invention. FIG. 3 is a block diagram showing the internal structure of a digital copying machine formed by combining a scanner as the first apparatus and a printer body as the second apparatus in the present invention to constitute a copying machine.
[0025]
First, referring to FIG. 3, a digital copying machine constituted by fixing each other to the fixing device according to the present invention will be described as an example. However, the present invention is not limited to this, and the first and second embodiments are not limited thereto. Needless to say, the present invention can be applied to each of the devices that constitute one device by combining the device main body.
[0026]
Therefore, the main body of the digital copying machine 1 is provided with a scanner 2 for reading an image according to the present invention at the upper part, and a printer 3 for reproducing the image data read by the scanner 2 as a hard copy at the lower part. Configured. A scanner 2 is mounted on the upper part of the main body of the printer 3 to constitute a digital copying machine 1.
[0027]
First, in the printer 3 constituting the second apparatus, a plurality of process means for forming an image are arranged opposite to each other around a drum-shaped photoconductor 4 that is an image carrier rotated in the direction of an arrow at the center. . First, a charger 5 for uniformly charging the photosensitive member 4, an exposure position 7 for irradiating a light image corresponding to image data from the laser irradiation device 6, and an electrostatic latent image formed according to the light image are visible. A developing device 8 that forms an image, a transfer belt 9 that transfers a developed image (generally a toner image) to a sheet P that is appropriately conveyed, a cleaning device 10 that removes toner remaining after transfer, and reuses the photoreceptor Are provided in the order described.
[0028]
The sheet P is accommodated in one of a plurality of paper feed cassettes 11 provided below the process means described above. The plurality of paper feed cassettes 11 accommodate sheets P having different sizes. The uppermost sheet P is fed one by one from the size-selected sheet feeding cassette 11, and is sent to a registration roller 13 disposed in front of the transfer belt 9 via a conveyance path 12. The sheet P is temporarily stopped by the registration roller 13, and transported to the transfer position facing the transfer belt 9 and the photoconductor 4 by the registration roller 14 in accordance with the rotation of the photoconductor 4.
[0029]
The sheet P fed to the transfer position is held (adsorbed) on the transfer belt 9, and the toner image formed on the photoreceptor 4 is transferred by supplying a transfer voltage. After the transfer, the image is conveyed on the transfer belt 9 and sent to the fixing device 14.
[0030]
The fixing device 14 includes a heat roller and a pressure roller. When the sheet P is nipped and conveyed, the toner is melted by the heat of the heat roller and is fused to the sheet P by pressure to perform fixing. The sheet P passing through the fixing device 14 is formed with a reproduced image corresponding to the image data on the surface, and is discharged through a discharge roller 15 onto a discharge tray 16 positioned outside the image forming apparatus.
[0031]
Further, a switching claw 17 is provided between the fixing device 14 and the paper discharge roller 15 to branch a re-conveying path 18 for forming an image on both sides of the sheet P. The re-conveying path 18 has a switchback conveying path that reverses the conveying direction of the sheet P, and is provided so as to communicate with the registration roller 13 described above.
[0032]
In the figure, reference numeral 19 denotes a manual paper feed stand for performing image formation using a sheet of an arbitrary size separately from the paper feed cassette 11. The sheet placed on the sheet feed table 19 is also sent to the registration roller 13 by the action of the feeding means.
[0033]
Therefore, another apparatus according to the present invention for sending image data to the laser irradiation apparatus 6 constituting the printer 3 of the digital copying machine 1 which is the above-described image forming apparatus, that is, the scanner 2 which is the first apparatus. The configuration will be described below.
[0034]
The scanner 2 is placed and fixed on the upper part of the main body of the printer 3 by a fixing device A described in detail later according to the present invention. The scanner 2 has a document table 20 made of transparent glass or the like for placing an image on its lower side in order to read an image of the document, and a sheet-like shape that can be opened and closed with respect to the document table 20. A document conveying device 21 for automatically feeding the original document to the document table 20 and a scanning optical system 22 for reading an image provided at the lower part of the document table 20 are provided.
[0035]
The document conveying device 21 is manually opened and closed in correspondence with the document table 20 so that the document can be manually placed on the document table 20 and can be read. 3, and can be opened and closed on the back side in FIG. 3 with the shaft support portion as the center.
[0036]
The document conveying device 21 includes a document tray 23 for placing a sheet document, a conveying means including a conveying belt 24 for conveying the document to the document table 20, and a left side in FIG. A reversing path 25 for reversing the front and back of the document for presentation to the document table 20, a discharge path 26 for discharging the read document from the side opposite to the document transport side, and a discharge tray 27 for receiving the discharged document are provided. I have.
[0037]
The reading optical system 22 provided at the lower part of the document table 20 is well known, and exposes an exposure lamp 28 for irradiating the document with light, and guides reflected light from the document to the CCD 29 which is a reading means according to the present invention. And a plurality of reflecting mirrors 30a to 30c and an imaging lens 31 for imaging the reflected light on the light receiving surface of the CCD 29.
[0038]
In particular, the scanning optical system 22 includes a first scanning unit that integrally supports an exposure lamp 28 and a reflection mirror 30a as shown in the figure for optically scanning a placed document, a reflection mirror 30b, A second scanning unit integrally supporting 30c, and when the first scanning unit is scanned at a speed V parallel to the document table 20, the second scanning unit is scanned at a speed of V / 2. Thus, images are sequentially formed on the light receiving surface of the CCD 29 line by line.
[0039]
As is well known, the CCD 29 has a large number of reading elements arranged in parallel in the reading line direction, and an imaging lens 31 is arranged in the optical path for imaging the reflected light from the original on the light receiving surface. . An image received by each reading element (cell) of the CCD 29 is converted and output as an electrical signal (analog signal) corresponding to the amount of light, and the signal is converted into a digital signal and output as read data. The read data (image data) is further processed into data being reproduced and output by the printer 3 of the image forming apparatus as necessary, and sent to the laser irradiation apparatus 6 described above as image data.
[0040]
(First embodiment of the present invention)
A device fixing device A shown in FIG. 3 is provided to mount the scanner 2 as the first device according to the present invention on the upper part of the main body of the printer 3 as the second device. The configuration of the fixing device A will be described in detail below.
[0041]
As shown in FIG. 1, the fixing device A includes a fixed member 32 provided on the scanner 2 side and a fastening member 33 provided on the upper portion of the printer 3 main body.
[0042]
The fixed member 32 is integrally provided on the support housing 2a for housing and holding the above-described scanning optical system 22 and the like constituting the scanner 2 or the exterior of the scanner 2 body. As shown in FIG. 2, the fixed member 32 is provided in an arc (curved downward) shape so that a portion facing the main body of the printer 3 becomes a concave portion, and a depression ( An arc-shaped groove / concave portion 34 is provided, and a semicircular convex portion 35 is provided on the lower surface side on the opposite side.
[0043]
The fastening member 33 provided on the upper portion of the printer 3 main body is provided with an L-shaped fixed angle 36 for fixing to the printer 3 main body, a shaft pin 37 cantilevered on the fixed angle 36, and the shaft pin 37. An elastic member 38 that is compressible and deformable with pressure formed of rubber or the like formed in a circular arc shape in which a surface facing the upper portion of the printer body is flat and a surface facing the fixed member 32 is curved upward; A movable fixed lever 39 is rotatably supported by the shaft pin 37 and is used for positioning and fastening the fixed member 32 to the elastic member 38.
[0044]
The fixed angle 36 is fixed to the upper frame 3a of the main body of the printer 3 with a screw 40 or the like, which is another piece different from the piece supporting the shaft pin 37. As a result, the planar portion of the elastic member 38 is in light contact with the surface of the upper frame 3a of the printer 3 body. The elastic member 38 has a semicircular groove portion (concave portion) in which the convex portion 35 is fitted into the elastic member 38 corresponding to the convex portion 35 of the fixed member on the surface side corresponding to the fixed member 32. 41 is formed in advance.
[0045]
Further, the movable fixed lever 39 constituting the fastening member 33 is provided with a convex portion 42 corresponding to the recess 34 of the fixed member 32 and fitted into the recess 34. As shown in FIG. 2, the fastening member 33 is integrally provided with a knob 43 in order to easily perform a turning operation.
[0046]
As described above, the fixing device A is configured, and the digital copying machine 1 can be configured by mounting the scanner 2 on the main body of the printer 3 and fixing the scanner 2 with the fixing device A. Note that image data, power supply lead wires, and the like are electrically connected via a connector or the like, and since this connection is not directly related to the present invention, description thereof is omitted.
[0047]
A procedure for mounting and fixing the scanner 2 on the main body of the printer 3 will be described with reference to FIG. First, the fastening member 33 is fixed to the upper frame 3a of the main body of the printer 3 through the L-shaped angle 36 with the screw 40.
[0048]
The fixed member 32 integrated with the scanner 2 is placed in the groove portion 41 provided on the elastic member 38 of the fastening member 33. At this time, the convex portion 35 below the fixed member 32 is placed so as to fit into the groove portion 41 above the elastic member 38. Thereby, both positional relationship is securable. This state is as shown in FIG. 2A, and the convex portion 35 of the fixed member 32 is fitted in the groove portion 41 of the elastic member 41 as shown in FIG.
[0049]
Further, the fixed member 32 provided on the scanner 2 side is curved downward, and the corresponding elastic member 38 on the fastening member 33 is curved upward so that the scanner to be placed is placed. The two fixed members 32 can be placed on the upper part of the main body of the printer 3 so as to be guided by the elastic member 38. Accordingly, the mutual alignment can be performed well by the mutual concave and convex portions.
[0050]
As described above, in the mounted state, the fixed member 32 and the elastic member 38 are pressed by the weight of the scanner 2 and the convex portion 35 and the groove portion (convex portion) 41 are fitted. Therefore, the scanner 2 is positioned with respect to the main body of the printer 3 and is in a semi-fixed state. Even in such a state, there is no particular problem even in the semi-fixed state as long as it is not a large movement such as transportation but vibration due to movement of the arrangement position of the digital copying machine 1 or the like. Further, since the elastic member 38 is in a semi-fixed state due to an earthquake or vibration applied to the printer 3 by the user, vibration propagation to the upper scanner 2 can be absorbed, and malfunction during image reading operation by the scanner 2 Failure can be prevented.
[0051]
In order to firmly fix the scanner 2 in a rigid state, the movable fixing lever 39 is rotated in the direction of the arrow about the shaft pin 37 in the drawing, that is, in the clockwise direction in FIG. By this turning operation, the convex portion 42 of the movable lever 39 fits into the recess 34 of the fixed member 32, and in this state, the fixing device A completes the strong fixing. That is, the fixed member 32 is fixed in a state where the elastic member 38 fixed to the upper frame 3 a of the printer 3 main body is compressed by the movable lever 39.
[0052]
In this case, the elastic member 38 is pressed from the upper part by the movable lever 39 in addition to being pressed by the weight of the scanner 2, and the plane is firmly attached to the upper frame 3a. Fixed.
[0053]
By being fixed as described above, the scanner 2 and the printer 3 are fixed in a state where the elastic member 38 is compressed. Therefore, even if the mutual operation is executed, the vibration or the like is absorbed by the elastic member 38. Thus, stable operations can be executed without vibrations interfering with each other's operations.
[0054]
As described above, by fixing both, even when the digital copying machine 1 in which the scanner 2 and the printer 3 are integrated is transported, the influence of vibration during the transport is reduced, and distortion is generated between each other. Can be prevented. Even if the scanner 2 and the printer 3 main body are individually packed and transported (transported), as described above, the positioning and mounting of the scanner 2 on the printer 3 main body becomes very simple, and damage is caused at the time of mounting. And the like can be prevented.
[0055]
Here, by fixing the fixed member 32 in an arc shape and providing the elastic member 38 on the fastening member 33 side so as to protrude in an arc shape, the mutual alignment can be easily performed. The elastic member 38 fixed to the main body of the printer 3 can be satisfactorily fixed with the weight of the main body.
[0056]
When the fastening member 33 is firmly fixed, the diameter of the arc-shaped portion of the elastic member 38 can be reduced so that the fixed member 32 can be pressed from the upper side toward the elastic member 38 by the movable lever 39 and compressed. The length of the rotation radius between the shaft 37 and the convex portion 42 of the movable fixed lever 39 is appropriately set.
[0057]
Further, the shape of the movable fixed lever 39 is not the one shown in FIGS. 1 and 2, and the convex portion 42 may be constituted by a cylindrical pin 43 as shown in FIG. 4. . The pin 43 can be fixed by being fitted into the recess 34 of the fixed member 32 by the rotation of the movable fixing lever 39. According to the movable fixed lever 39, the shape can be simplified, and the fixing device A, particularly the movable fixed lever 39, can be realized at low cost.
[0058]
The fixed state between the scanner 2 and the printer 3 is released by rotating the movable fixing lever 39 in the direction opposite to the fixing operation, thereby releasing the fixation of the fixed member 32. As a result, the scanner 2 can be separated from the main body of the printer 3. In this case, if the scanner 2 is pivotally supported by the main body of the printer 3, for example, by releasing the fixing devices A at the two front positions in FIG. Can be rotated to open the upper part of the printer 3.
[0059]
(Second embodiment of the present invention)
According to the first embodiment described above, the scanner 2 is positioned and arranged at the upper part of the printer 3 main body, and is placed in an anti-fixed state using the weight of the scanner 2 in the mounted state. It is configured so as to be firmly fixed and capable of dealing with distortion caused by vibration caused by transportation of the digital copying machine 1 or the like.
[0060]
In addition to the first embodiment described above, another embodiment in which the scanner 2 is fixed in a state where it is placed on the main body of the printer 3 will be described below with reference to FIG.
[0061]
The fixing device A shown in FIG. 5 includes a pin 45 that is a fixed member provided on the scanner 2 body side and a movable fixing lever 46 that constitutes a fastening member provided on the printer 3 body side. . The elastic member for constituting the fastening member is interposed between the scanner 2 and the printer 3 so as to be compressed and deformed in a fixed state.
[0062]
First, the movable fixing lever 46 constituting the fastening member is rotatably provided on a shaft pin 48 attached to an L-shaped angle 47 fixed on the upper frame 3a of the main body of the printer 3 with a screw or the like. The movable fixing lever 46 is formed with an opening 49 for engagement with the pin 45 on the scanner 2 side. The opening 49 is formed with an upper guide portion 50 which is largely opened and gradually inclined in order to satisfactorily engage with the pin 45, and a lower guide portion 51 which is parallel to the upper frame 3a when engaged. Thus, the movable fixed lever 46 is notched, and is configured by an engagement port 52 that is finally engaged with the pin 45.
[0063]
Further, the elastic member 53 made of rubber or the like constituting the fastening member of the fixing device A described above is provided so as to be interposed between the scanner 2 and the printer 3 in the vicinity of the movable fixing lever 46, the pin 45, and the like. It has been. The elastic member 53 is attached to the scanner 2 or the printer 3 main body side. The elastic member 43 plays a role similar to that of the elastic member 38 described in the first embodiment, and is provided so as to absorb and relax vibrations and the like and to be compressed in a firm fixation. .
[0064]
In the fixing device A having the above-described configuration, the case where the scanner 2 and the printer 3 main body are fixed will be described with reference to FIG. 6. The scanner 2 is placed on the upper frame 3 a of the printer 3 via the elastic member 53. Is done. It is placed in a state where it is positioned, particularly at the position of the upper frame 3 a of the elastic member 53.
[0065]
Then, in the state of FIG. 6A, the movable fixing lever 46 is rotated clockwise in the drawing. Then, an engagement opening 49 provided in the movable fixed lever 46 is fitted into the pin 45 on the scanner 2 side. At this time, the scanner 2 is pushed down to the printer 3 side by the contact between the upper guide portion 50 of the opening 49 and the pin 45 and is gradually guided to the engagement port 52 of the opening 49. Then, the lower portion of the pin 45 gradually approaches the lower guide portion 51 and is guided by the guide portion 51 so that the pin 45 is finally engaged with the engagement port 52 as shown in FIG. . Thereby, the firm fixation between the scanner 2 and the printer 3 is completed.
[0066]
In this case, the elastic member 53 is compressed, and due to its elastic deformation, the dimension is reduced to H2 after fixing with respect to the dimension H1 before fixing. That is, the dimensional relationship is H2 <H1. In order to achieve this relationship, the distance D1 in the non-fixed state between the centers of the shaft pin 48 and the pin 45 is reduced to the distance D2 by compression of the elastic member 53 in the firm fixed state, and D2 <D1. It is set to be a relationship. In particular, in the relationship between the distances D1 and D2, the distances D1 and D2 are set so as to satisfy the relationship of D1-D2 = H1-H2.
[0067]
Here, the distance D2 is the shortest distance from the center of the shaft pin 48 to the lower guide 51 of the opening 49. By appropriately setting this distance, the distance D2 is fixed with respect to the dimension H1 in the non-fixed state as described above. The elastic member 53 can be compressed and deformed to the dimension H2 in the state, and the fixation can be made strong and stable.
[0068]
Note that the elastic member 53 is compressed between the scanner 2 and the printer 3 in a fixed state as shown in FIG. If a relatively large vibration or impact that cannot be absorbed by the elastic member 34 is propagated in this fixed state, the guiding or impact force is directly fixed to the fixing device A, particularly the pin 45 that is a fixing member of the scanner 2, and the movable fixing. Acts on the lever 46. However, in order to provide the pin 45 and the movable fixed lever 46 of the scanner 2 with durability due to an impact or the like, it is necessary to examine the material of each member, and the design is troublesome and the cost is increased.
[0069]
In order to solve this problem, an elastic member 53 is attached to the scanner 2 as shown in FIG. 7, and a positioning recess 54 for defining the position of the elastic member 53 is provided in the upper frame 3a of the printer 3. . The elastic member 53 is provided so as to penetrate the shaft 55 at the center thereof. Corresponding to the shaft 55, a through hole 56 is provided in a positioning recess 54 provided in the upper frame 3a. The shaft 55 is not fixed to the elastic member 53 but can protrude from the lower surface of the elastic member 53 when the elastic member is compressed. The shaft 55 is provided with a length located within the elastic member 53 when the elastic member 53 is not compressed.
[0070]
As described above, in the configuration of the fixing device A, the scanner 2 is placed at a predetermined position of the upper frame 3a of the printer 3, particularly the concave portion 54 into which the elastic member 53 is fitted. Then, by rotating the movable fixing lever 46 as described in FIG. 6, the scanner 2 is firmly fixed to the upper portion of the printer 3 as shown in FIG. 7B, and the elastic member 53 is compressed. Thereby, the shaft 55 provided at the center of the elastic member 53 is fitted into the through-hole 56 of the recess 54.
[0071]
Therefore, as shown in FIG. 7A, the scanner 2 is positioned and placed on the upper portion of the printer 3 by the concave portion 54. It can be said that this state is the same as the state shown in FIG. In particular, even if the elastic member 53 is somewhat compressed by the weight of the scanner 2, the shaft 55 does not protrude up to the through-hole 56, and the function of the elastic member 53 can be effectively exhibited, depending on the operation of the digital copying machine. Vibration and the like can be absorbed and mitigated, and the printer 3 side is not damaged.
[0072]
When the fixing lever 46 is rotated and fixed as shown in FIG. 7B, the elastic member 53 is compressed and the shaft 55 is fitted into the through hole 56. Thereby, the fixing of the scanner 2 to the main body of the printer 3 is strengthened, the burden of the pin 45 and the fixing lever 46 of the fixing device A can be suppressed, and it is inexpensive as a means for dealing with the relatively large vibrations and shocks described above. It becomes feasible.
[0073]
Further, as shown in FIG. 7B, the shaft 55 is configured to be fitted into a through-hole 56 provided in the positioning recess 54. In this case, the concave portion 54 is formed integrally with the upper frame 3 a of the printer 3. However, the same effect can be achieved even if the recess 54 is formed as a separate body and is installed on the upper frame 3a. For this reason, when manufacturing the digital copying machine 1 or the like, whether to provide the positioning recess 54 directly on the upper frame 3a or to arrange it on the upper frame 3a as a separate configuration is selectively employed in the cost comparison. That's fine.
[0074]
As described above, the fixing device A according to the present invention fixes the scanner 2 and the printer 3 via the elastic member 38 or 53 according to the respective states. For example, in the fixing device A as shown in FIGS. 1 and 2, when the scanner 2 is mounted on the printer 3 and used as the digital copying machine 1, the fixed member 32 of the scanner 2 is positioned on the elastic member 38. It will be in a semi-fixed state. Therefore, by rotating the movable fixing lever 39 to perform the fixing firmly, the fixing can be carried out by protecting from vibrations and impacts.
[0075]
Also, in the configuration of FIGS. 6 and 7, the elastic member 53 is fixed so as to be compressed, so that the fixing can be performed firmly, and the configuration as shown in FIG. Fixing is encouraged.
[0076]
Moreover, when the scanner 2 and the printer 3 main body are transported in separate packages, when they are integrated, it is possible to easily position them.
[0077]
In the description of the embodiment of the present invention, the digital copying machine 1 is completed by integrating the scanner 2 and the printer 3 main body, but this is not the case. The fixing device A described in the first and second embodiments is also used in the case where the second device is mounted on the upper portion and the device having a new function is configured by fixing these devices. Of course, it can be used as it is. Therefore, in the embodiment of the present invention, the scanner 2 constitutes a first device, for example, and the printer 3 constitutes a second device.
[0078]
In the fixing device A of the present invention, the fixed member 32, the pin 45, the elastic members 38 and 53 constituting the fastening member 33, and the movable fixing levers 39 and 46 are attached to the respective device sides. Yes. Therefore, each member, especially a fastening member, is not lost in the semi-fixed state or the strong fixing. The fixed member 32 and the fastening member 33 constituting the fixing device A may be attached to each of the first device such as the scanner 2 and the second device such as the printer 3, and are not limited to those described in the embodiment. The position to be provided may be determined as appropriate.
[0079]
【The invention's effect】
According to the fixing device of the present invention described above, when the first and second devices are positioned and fixed, the elastic members are fixed to each other, and the elastic members are compressed to simplify the operation. It is a fixing device that can be fixed by a simple operation, and the first and second devices can be easily fixed.
[0080]
Therefore, the fixed state at the time of transportation and use can be selected as appropriate, the operation is simple, and the fastening member or the like is not lost. In addition, when the first and second devices are separated and packed, it can be done by a simple operation without a specialist when combining them.
[0081]
In addition, it can be semi-fixed using the gravity of the first device placed on the top in a positioned state, or can be firmly fixed, and can be used properly depending on the case. It becomes a fixing device.
[Brief description of the drawings]
FIG. 1 shows a fixing device for explaining a first embodiment of the present invention, and in particular, a scanner as a first device constituting a digital copying machine and a printer main body as a second device. It is sectional drawing of the fixing device which shows a fixed state.
FIG. 2 is an explanatory diagram for explaining a fixing operation according to the first embodiment of the present invention.
FIG. 3 is a configuration diagram showing an outline of an internal configuration of a digital copying machine in which a scanner and a printer main body are fixed using the fixing device of the present invention.
FIG. 4 is a perspective view showing another example of the fixing device according to the first embodiment of the present invention.
FIG. 5 shows a fixing device for explaining a second embodiment of the present invention, in which a scanner as a first device and a printer main body as a second device are fixed. FIG.
6 is an operation explanatory diagram for explaining a fixing operation of the fixing device shown in FIG. 5;
7 is a diagram for explaining another configuration example of the fixing device shown in FIG. 5 and also includes a fixing operation by the fixing device. FIG.
[Explanation of symbols]
1 Digital copier
2 Scanner (first device)
3 Printer (second device)
32 Fixed member
33 Fastening member
34 Indentation (recess)
35 Convex
37 axis pin
38 Elastic member
39 Rotation fixing lever
41 Groove (recess)
42 Convex
43 pins (convex)
45 pin (fixed member)
46 Movable fixed lever (fastening member)
48 axis pin
49 Opening for engagement
50 Upper guide part
51 Lower guide part
52 engagement port
53 Elastic members
54 Recess for positioning
55 axes
56 Through-hole

Claims (3)

A fixing device configured to fix the second device mounted on the first device to the first device,
A fixed member provided on either the first or second device side;
Provided in the second or first device side of the side opposite that provided with the fixation member comprises a compression deformable elastic member, first and optionally fixing the member to be fixed by compressing the elastic member 1 and a fastening member for fixing the second device ,
A portion where the fixed member is in contact with the elastic member is formed so as to be curved to match each other, and a concave portion and a convex portion for positioning both are formed and fitted in the curved portion,
The fastening member is provided with a movable fixed lever that can rotate around an axial pin, and the position of the axial pin is adjusted when the movable fixed lever is rotated and brought into contact with the fixed member. A fixing device, wherein the fixing member is set at a position where the elastic member is compressed and deformed by pressing the fixing member . A fixing device configured to fix the second device mounted on the first device to the first device,
A fixed member provided on either the first or second device side;
A second or first device side opposite to the side on which the fixed member is provided is provided with an elastic member capable of compressive deformation, and the elastic member is compressed to arbitrarily fix the fixed member. 1 and a fastening member for fixing the second device,
The elastic member is interposed between the first and the second device, a movable fixing lever fastening member is provided so as to be rotatable about a shaft pin so engageable with the fixed member, the shaft the position of the pin, when the movable locking lever is rotated engages the fixation member, at a position fixed by compressing the resilient member by narrowing the distance between the first and the second device Fixing device characterized by setting . The elastic member is provided on the first device side mounted on the second device, and a positioning portion for determining a mounting position of the elastic member is provided on the second device side, and is not fixed to the elastic member. Provided with a shaft that protrudes from the elastic member when the elastic member is compressed, and a through-hole is provided so that the shaft that protrudes toward the positioning portion corresponds to the shaft The fastening device according to claim 2 , wherein a fastening member is configured.

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