JP4130742B2 - Copy machine or multifunction machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, when the opening / closing cover is opened, the power supply to the non-safety parts in the apparatus is cut off in conjunction with the opening / closing cover. Copier or It relates to multifunction devices.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an opening / closing cover is provided on the front surface of a copying machine or a multifunction machine (hereinafter referred to as “copying machine or the like”) for exchanging a toner bottle or clearing a paper jam. However, there are non-safety parts such as LSUs or drive motors inside the copying machine or the like. Therefore, when the open / close cover is opened, the power supply to the non-safety parts is cut off in order to prevent the eyes from being burned by the LSU laser or the hand being pulled in by the roller drive. international electro technical commission ”). Copiers and the like are provided with an interlock device so that such power supply is interrupted in conjunction with opening and closing of the opening / closing cover.
[0003]
15 and 16 are enlarged views showing the configuration of a conventional interlock device. FIG. 15 shows the OFF state of the conventional interlock device, and FIG. 16 shows the ON state. Each figure (a) shows a top view of a conventional interlock device, and each figure (b) shows a side view.
[0004]
The conventional interlock device 1500 is linked with the opening / closing operation of the opening / closing cover, the opening / closing sensor 1501 for detecting the opening / closing state of the opening / closing cover, the first switch 1502 for supplying power to the LSU, and the second for supplying power to the drive motor. A switch 1503 is provided.
[0005]
Further, as shown in FIG. 15A, a pressing means 1505 with which the end of the opening / closing cover 1504 abuts is provided. The pressing means 1505 is pushed directly into the apparatus by the movement of the opening / closing cover 1504 corresponding to the closing operation. Note that the pressing means 1505 is normally biased to the position shown in FIG. 15 by a spring.
[0006]
The second switch 1503 and the end of the connecting member 1506 are arranged in parallel on the back side of the pressing means 1505.
[0007]
The second switch 1503 comes into contact with the back surface of the pressing unit 1505 and is turned ON when the pressing unit 1505 is pressed inside the apparatus. On the other hand, when the pressing unit 1505 returns to the original position, it is turned OFF.
[0008]
The connecting member 1506 is pushed into the apparatus according to the movement of the pressing means 1505 toward the inside of the apparatus. On the other hand, when the pressing means 1505 returns to the original position, it returns to the original position accordingly. As shown in FIG. 15B, the movement of the connecting member 1506 is restricted by a plurality of grooves 1507 formed in the connecting member 1506 and a guide 1508 provided in a housing such as a copying machine.
[0009]
An open / close sensor 1501 and a first switch 1502 are arranged in the movement region of the connecting member 1506.
[0010]
The open / close sensor 1501 is configured by a transmissive sensor including a light emitting element and a light receiving element, for example. A light shielding portion 1509 formed on the connecting member 1506 is disposed at a position passing through the detection area of the open / close sensor 1501. The open / close sensor 1501 is turned off when the light shielding unit 1509 is in the detection region, and turned on when there is no light shielding unit 1509. That is, it is detected that the opening / closing cover 1504 is open when the light shielding portion 1509 is in the detection region, and that the opening / closing cover 1504 is closed when there is no light shielding portion 1509.
[0011]
The first switch 1502 comes into contact with a predetermined position of the connecting member 1506 and is turned on according to the movement of the connecting member 1506 to the inside of the apparatus. On the other hand, when the connecting member 1506 returns to the original position, it is turned OFF.
[0012]
The conventional interlock device 1500 having such a configuration operates as follows.
[0013]
When the opening / closing cover 1504 is closed, as shown in FIG. 16, the opening / closing cover 1504 presses the pressing means 1505. In conjunction with this, the second switch is turned on, while the connecting member 1506 moves to the inside of the apparatus.
[0014]
In response to the movement of the connecting member 1506, the light shielding unit 1509 is turned on from the detection area of the open / close sensor 1501, and the first switch 1502 is turned on by contact with a predetermined position. As a result, the open / close sensor 1501, the first switch 1502, and the second switch 1503 are turned on in conjunction with the closing operation of the open / close cover 1504.
[0015]
On the other hand, when the opening / closing cover 1504 is opened, as shown in FIG. 15, the opening / closing cover 1504 is separated from the pressing means 1505, and there is nothing that presses the pressing means 1505. Then, the pressing unit 1505 is returned to the original position by the spring, and is separated from the end of the connecting member 1506 and the second switch 1503.
[0016]
The second switch is turned off in accordance with the movement of the pressing means 1505. Further, when the connecting member 1506 moves and returns to the original position, the open / close sensor 1501 and the first switch 1502 are turned OFF. As a result, the open / close sensor 1501, the first switch 1502, and the second switch 1503 are turned off in conjunction with the opening operation of the open / close cover 1504.
[0017]
[Problems to be solved by the invention]
However, this conventional technique has the following problems.
[0018]
That is, the open / close sensor 1501, the first switch 1502, and the second switch 1503 must be turned on / off at a predetermined timing in conjunction with the open / close operation of the open / close cover 1504. However, the open / close sensor 1501, the first switch 1502, and the second switch 1503 Each of the two switches 1503 is composed of separate parts. For this reason, tolerances are likely to occur between the components, and there is a possibility that the ON / OFF timing may be shifted among the open / close sensor 1501, the first switch 1502, and the second switch 1503.
[0019]
In this case, the power is supplied to the LSU and the drive motor even though the opening / closing cover 1504 is not completely closed, while the power is not supplied to the LSU and the driving motor even though the opening / closing cover 1504 is completely closed. Can occur.
[0020]
In order to cope with such a problem, it is conceivable to increase the design accuracy of each component and the assembly accuracy between components, but as a result, there arises a problem that the cost increases. Moreover, even if the design accuracy and assembly accuracy are increased, variations in accuracy among components are not eliminated. In addition, since the configuration is such that three such parts are pressed individually, variations in accuracy occur as a whole, and there is a limit to the improvement in accuracy.
[0021]
In the conventional configuration, the connecting member 1506 is moved. However, when the connecting member 1506 is moved, there is a problem that the connecting member 1506 does not move smoothly.
[0022]
This is because the pressing point 1505 of the connecting member 1506 is pressed, that is, the force point, and the opening / closing sensor 1501 or the first switch 1502 of the connecting member 1506 is pressed, that is, the point of action, because of mechanical limitations. This is a problem that arises because it cannot be provided on the same horizontal line.
[0023]
For example, when a force point is provided below the connecting member 1506 and an action point is provided above the connecting member 1506, a force for rotating the connecting member 1506 acts. For this reason, as shown in FIG. 17, a situation occurs in which the left end portion shown in FIG. 17 slightly moves upward and the right end portion moves downward in the connecting member 1506, so that the connecting member 1506 does not move smoothly and horizontally.
[0024]
In this case, when the open / close cover 1504 is closed, there is a problem that the open / close cover 1504 is not closed to the end, and even if the open / close cover 1504 is closed to the end, the connecting member 1506 is deformed because it is forcibly closed. Can occur.
[0025]
On the other hand, when the opening / closing cover 1504 is opened, the connecting member 1506 may not be sufficiently separated from the opening / closing sensor 1501 and the first switch 1502, and the opening / closing sensor 1501 and the first switch 1502 may not be turned off.
[0026]
In order to cope with such a problem, it is conceivable to increase the design accuracy of each component constituting the groove 1507 and the guide 1508 on the connecting member 1506 and the assembly accuracy between the components in the same manner as described above. Problem arises.
[0027]
Further, when the length of the connecting member 1506 is increased, the backlash in the vertical direction due to the rotation is absorbed in the process of movement, so that the influence can be reduced to some extent. However, if the connecting member 1506 is configured to be long, the occupied area of the connecting member 1506 in the apparatus becomes large, which causes a problem of greatly restricting the degree of freedom in designing the peripheral area.
[0028]
The present invention has been made in view of such problems, and in conjunction with the opening / closing operation of the opening / closing cover, can detect the state of the opening / closing cover, and can reliably cut off the supply of power to the non-safety component, and its mechanism. Even if it is downsized, low cost can be realized Copier or The purpose is to provide a multifunction device.
[0029]
[Means for Solving the Problems]
The present invention In parallel with the open / close cover in the closed state A rotating shaft provided in a horizontal direction; According to the opening / closing operation of the opening / closing cover, A rotation lever for rotating the rotation shaft, and the rotation shaft Fixed And turn up and down by turning the turning shaft. Cam-like Switch pressed Element When, Abutting on the end of the switch pressing member, and according to the vertical rotation of the switch pressing member Can be moved up and down A thick plate-like switch abutting member, the switch abutting member is provided with a flat plate-like projecting piece on the side, and a first component that detects the elevation of the projecting piece and turns it off / on, A button-like second part that contacts the lower part of the switch contact member and is turned off / on in accordance with the raising / lowering of the switch contact member, and the switch contact according to the opening / closing operation of the opening / closing cover The first part and the second part are turned off / on by raising and lowering the member. Is.
[0030]
According to this, By closing the open / close cover, the thick plate-like switch abutting member descends, so that the first part is turned on by the flat projection piece on the side of the switch abutting member and the lower part of the switch abutting member By turning on the button-like second part with ,switch Contact member The first part and the second part are moved by one movement of lowering on Because it can be the first part And second Of parts Off / on Can be performed efficiently.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
According to the first aspect of the present invention Copy machine or multifunction machine Is In parallel with the open / close cover in the closed state A rotating shaft provided in a horizontal direction; According to the opening / closing operation of the opening / closing cover A pivot lever for pivoting the pivot shaft; and Fixed And turn up and down by turning the turning shaft. Cam-like Switch pressed Element When, A thick plate-like switch abutting member that abuts on an end of the switch depressing member and can be moved up and down in accordance with the vertical rotation of the switch depressing member. A flat plate-shaped projecting piece is provided on the part, and a first part that detects off / on of the projecting piece is turned off / on, and a lower part of the switch abutting member is brought into contact with the lower part of the switch abutting member to be turned off / A button-like second part to be turned on, and the first part and the second part are turned off / on by raising and lowering the switch contact member according to the opening / closing operation of the opening / closing cover Take the configuration.
[0032]
According to this configuration, By closing the open / close cover, the thick plate-like switch abutting member descends, so that the first part is turned on by the flat projection piece on the side of the switch abutting member and the lower part of the switch abutting member The button-shaped second part can be turned on. For this reason, switch Contact member The first part and the second part are moved by one movement of lowering on Because it can be the first part as well as Of the second part Off / on Can be performed efficiently.
[0033]
Also, One thick plate switch contact member In the first part and the second part on Therefore, the number of parts can be reduced, and the apparatus can be reduced in size and space.
[0036]
In addition, two thick parts can be turned off / on with one thick plate contact member, As a result, there is less room for variations between parts and the accuracy is high. Off / on Can be realized. As a result, in conjunction with the opening and closing operation of the opening and closing cover, Two parts off / on Can be performed reliably.
[0037]
on the other hand, Cam-like switch pressing member On the pivot axis Fixed By rotating the rotating shaft up and down, Cam-like switch pressing member Is not moved in a parallel direction, but is moved using a rotation operation that has been an obstacle when moving in a parallel direction. For this reason, Cam-like Switch pressed Element There is nothing to prevent the movement of Cam-like Switch pressed Element Can be moved smoothly. as a result, Parts off / on Can be performed reliably.
[0038]
Also, Cam-like switch pressing member On the pivot axis Fixed By rotating the rotating shaft up and down, Cam-like Switch pressed Element The starting point of the pivoting action becomes the pivot axis, Cam-like switch pressing member The power point and the rotation fulcrum can be overlapped on the same point. For this reason, as in the case where the force point and the rotation fulcrum are separated as in the prior art, Cam-like Switch pressed Element Can prevent backlash when moving Cam-like Switch pressed Element Can be moved smoothly. as a result, Parts off / on Can be performed reliably.
[0039]
Of the present invention The copying machine or multifunction machine according to the second aspect , In the first aspect, the upper surface of the switch contact member that contacts the switch pressing member is provided with a surface that is inclined downward in the direction in which the switch pressing member rotates. Take the configuration.
[0040]
According to this configuration, When the lower end of the switch pressing member abuts on the surface inclined downward from the upper end of the switch abutting member, the switch abutting member is pressed downward according to the rotation of the switch pressing member. .
[0043]
First of the present invention 3 Copying machine according to the aspect of Or the multifunction machine , A second cover that opens and closes in a direction orthogonal to the opening and closing direction of the opening and closing cover, a rod-like lock restricting member that horizontally moves in the direction of the rotation axis in accordance with the opening and closing operation of the second cover, and a switch pressing member Shaft part Held by the rotating shaft A flat plate-like lock member that horizontally moves in a direction perpendicular to the rotation axis, and when the second cover is in an open state, the lock restricting member abuts on the lock member to move the lock member. By restricting the rotation of the rotation shaft to restrict the closing operation of the opening / closing cover, and when the second cover is in a closed state, the lock restriction member does not contact the lock member. By allowing the lock member to move, the rotation shaft is allowed to rotate and the opening / closing cover is allowed to close. Take the configuration.
[0044]
According to this configuration, OFF / ON of the first part and the second part is controlled according to the opening / closing operation of the second cover and the opening / closing operation of the opening / closing cover. be able to.
[0045]
Also, Until the second cover is closed, the rotating lever does not rotate even if the opening / closing cover is closed, and this prevents the opening / closing cover from closing. For this reason, when the opening / closing cover is in the closed position, the second cover is always in the closed position, and the opening / closing sensor of the opening / closing cover can also be used as the opening / closing sensor of the second cover. Downsizing and low cost Can be realized.
[0046]
First of the present invention 4 Copying machine according to the aspect of Or multifunction machine Is In the third aspect, a hook member that engages with the lock member is provided on a closed inner surface of the second cover, and when the second cover is in a closed state, the lock member according to a closing operation of the open / close cover Moves to engage the hook member to lock the second cover in the closed state. Take the configuration.
[0047]
According to this configuration, the switch is pressed by turning the turning shaft. Element Switch to press Contact member Of the first part and the second part Off / on And locking the second open / close cover to the pivot shaft Element And the second opening / closing cover is locked by rotation of the rotation shaft. As a result, it is possible to perform one operation of turning the turning shaft. The second 1 part Off / on, Of the second part Off / on, no. Two operations, that is, the locking of the two opening / closing covers, can be performed. For this reason, the number of parts can be reduced and the mechanism for performing the three operations can be made compact.
[0087]
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
[0088]
FIG. 1 is a schematic configuration diagram of a copying machine 100 to which an interlock device according to an embodiment of the present invention is applied.
[0089]
As shown in FIG. 1, the copying machine 100 includes a reading unit 101 that reads a document at the top, and a main body unit 102 that performs paper feeding, transfer, recording, and fixing processes below the reading unit 101.
[0090]
A paper feed cassette 103 is installed at the bottom of the main unit 102. The uppermost sheet is taken out by the pickup roller 104 from the sheet bundle set in the sheet feeding cassette 103.
[0091]
The paper taken out from the paper feed cassette 103 is fed by a paper feed roller 105 into a paper path 106 formed upward from the bottom of the main unit 102. In the paper path 106, a plurality of transport rollers 107, 108, and 109 are disposed as a paper transport means in the paper transport device according to the present invention.
[0092]
The sheet conveyed by the uppermost conveying roller 109 is transferred to the registration roller 111 by the conveying roller 110. A photosensitive drum 112 that rotates in the direction of the arrow in the drawing is disposed at the sheet conveyance destination by the registration roller 111. The photosensitive drum 112 is pivotally supported on its side by the photosensitive drum driving device according to the present embodiment.
[0093]
Above the photosensitive drum 112, an LSU (Laser Scan Unit) 113 that forms a latent image on the surface of the photosensitive drum 112 is disposed. A developing device 114 for adhering developer (toner) to the latent image formed on the photosensitive drum 112 is disposed adjacent to the photosensitive drum 112. The developing device 114 includes a stirring roller that stirs and conveys the developer and a developing roller that adheres the developer to the photosensitive drum 112.
[0094]
Below the photoconductive drum 112, a transfer device 115 is installed for transferring an image formed by the developer adhering to the photoconductive drum 112 onto the conveyed paper. The registration roller 111 controls the position adjustment between the image on the photosensitive drum 112 and the recording area of the paper.
[0095]
A cleaning unit 116 that cleans the surface of the photosensitive drum 112 that has finished transferring the image is disposed adjacent to the photosensitive drum 112. The sheet on which the image has been transferred is further transported by the transport belt 117. A fixing unit 118 is disposed at the conveyance destination of the conveyance belt 117.
[0096]
The fixing unit 118 includes a fixing roller 119, a pressure roller 120 disposed opposite to the fixing roller 119, and a cleaning roller (not shown) for applying oil to improve the releasability of toner remaining on the fixing roller 119. ing. The fixing roller 119 applies heat to the recording surface of the paper, and the pressure roller 120 presses the paper against the fixing roller 119, whereby the image is fixed on the paper.
[0097]
The sheet discharged from the fixing unit 118 is discharged outside the main body unit 102 by the discharge roller 121. The paper discharged from the main unit 102 is received on the paper discharge tray 122.
[0098]
Between the fixing unit 118 and the discharge roller 121, a switching guide 124 for switching whether to discharge the sheet to the outside of the main unit 102 or to send the sheet to the duplex path 123 for performing duplex recording is disposed. The double-sided path 123 is formed in the downward direction from the vicinity of the switching guide 124, and is formed in the substantially horizontal direction in the middle thereof.
[0099]
The sheet fed into the double-sided path 123 is temporarily drawn by the reverse roller 125 into the reverse path 126 formed on the extension of the portion 123 </ b> A formed in the downward direction of the double-sided path 123. When the sheet is drawn into the reversing path 126, the reversing roller 125 is reversed and feeds the sheet to the portion 123 </ b> B formed in the substantially horizontal direction in the double-sided path 123. At this point, the front and back of the paper are reversed.
[0100]
The sheet fed into the double-sided path 123B formed in the substantially horizontal direction is conveyed by the conveyance rollers 127, 128, and 129 formed on the double-sided path 123B. The double-sided path 123 </ b> B is connected to the paper path 106 below the conveyance roller 110. The paper that has been transported through the double-sided path 123B by the transport rollers 127, 128, and 129 and sent to the paper path 106 is sent again below the photosensitive drum 112, and an image is formed on the back surface this time.
[0101]
A manual feed tray 130 that realizes paper feeding other than paper feeding from the paper feeding cassette 103 is provided on the side surface of the main unit 102. The uppermost sheet of the stack of sheets placed on the manual feed tray 130 is taken in by the pickup roller 131 and transferred to the registration roller 111 by the transport roller 132.
[0102]
Hereinafter, the arrangement of the interlock device of the present embodiment in the copying machine 100 will be described with reference to a top view shown in FIG. 2, a front view shown in FIG. 3, and a side view shown in FIG.
[0103]
FIG. 2 is a top view of the copying machine 100 according to the present embodiment. In FIG. 2, a part of the periphery of the interlock device arranged inside the copying machine 100 is shown from above. 2A shows a top view of the entire copying machine 100, and FIG. 2B shows an enlarged view around the interlock device.
[0104]
As shown in FIG. 2, the copying machine 100 is provided with an opening / closing cover 200 on the front surface of the apparatus. The opening / closing cover 200 is supported at the right end of the copier 100 shown in FIG. 2, and opens / closes the left end to the front of the apparatus. In the copying machine 100, the opening / closing cover 200 is opened when the apparatus is being maintained or when a jammed sheet is removed.
[0105]
On the back side of the opening / closing cover 200, an outer peripheral cover 201 for vent holes to the inside of the apparatus is provided. The outer periphery cover 201 forms an air path for sending air from the blower 202 arranged inside the copying machine 100 to the fixing region of the fixing unit 118 when the opening / closing cover 200 is closed. Air sent to the inside of the apparatus through the outer peripheral cover 201 flows as indicated by an arrow A in the figure.
[0106]
A rib 203 as a pressing member protruding toward the inside of the copying machine 100 is provided on the surface of the outer peripheral cover 201 at a position from the blower 202. An interlock device 204 is disposed at a position where the rib 203 abuts when the opening / closing cover 200 is closed. As shown in FIG. 2B, the rib 203 provided on the opening / closing cover 200 abuts on a later-described rotation lever of the interlock device 204.
[0107]
The interlock device 204 is fixed to a frame 205 disposed on the left side shown in FIG. The interlock device 204 supplies power to non-safety components in accordance with the presence or absence of abutment of the rib 203 provided on the opening / closing cover 200, that is, the opening / closing operation of the opening / closing cover 200 and the opening / closing operation of the side cover described later. Controls blocking etc.
[0108]
FIG. 3 is a front view of the copying machine 100 according to the present embodiment. In FIG. 3, a part of the periphery of the interlock device 204 arranged inside the copying machine 100 is shown from the front. 3A shows a front view of the entire copying machine 100, and FIG. 3B shows an enlarged view around the interlock device 204. FIG.
[0109]
As shown in FIG. 3, the copying machine 100 is provided with a side cover 300 on the side of the apparatus. The side cover 300 is supported by the copying machine 100 at its lower end, and opens and closes its upper end to the side of the apparatus. The side cover 300 is also opened and closed during operations such as maintenance of the apparatus and removal of jammed paper.
[0110]
A hook 301 extending toward the inside of the copying machine 100 is provided on the back side of the side cover 300. An interlock device 204 is disposed at a position that engages with the hook 301 when the side cover 300 is closed. As shown in FIG. 3B, the hook 301 provided on the side cover 300 retracts a lock restricting member of an interlock device 204 described later and engages with the lock member.
[0111]
As described above, the interlock device 204 is changed to a non-safe component depending on whether or not the hook 301 provided in the side cover 300 has entered, that is, the opening / closing operation of the side cover 300 and the opening / closing operation of the opening / closing cover 200 described above. Controls the interruption of the power supply.
[0112]
FIG. 4 is a side view of the copying machine 100 according to the present embodiment. In FIG. 4, a part of the periphery of the interlock device 204 arranged inside the copying machine 100 is shown from the side. 4A shows the case where the opening / closing cover 200 is closed, and FIG. 4B shows the case where the opening / closing cover 200 is opened.
[0113]
A hook 301 of the side cover 300 is provided on one side of the front side of the copying machine 100. The interlock device 204 is engaged with the hook 301 inside the device. That is, as shown in FIG. 4, the interlock device 204 is disposed at a position slightly closer to the opening / closing cover 200 than the side cover 300, that is, a position closer to the front surface of the copying machine 100.
[0114]
Further, as shown in FIG. 4B, the outer peripheral cover 201 is provided on the back side of the opening / closing cover 200 and on the right side shown in FIG. The rib 203 is provided on the surface of the outer peripheral cover 201 at a position on the right side shown in FIG.
[0115]
As shown in FIG. 4, a vent 401 is provided on the side surface of the copying machine 100 at a position corresponding to the blower 202 that allows air to flow through the outer peripheral cover 201.
[0116]
FIG. 5 is a perspective view of the periphery of the interlock device 204 of the present embodiment.
[0117]
As shown in FIG. 5, the frame 205 for fixing the interlock device 204 includes a first surface 501 disposed in parallel with the side surface of the copying machine 100, and the first surface 501 on the rear surface side of the copying machine 100. And a second surface 502 orthogonal thereto. The interlock device 204 is fixed at predetermined positions on the first surface 501 and the second surface 502.
[0118]
A groove 503 is formed on the first surface 501 of the frame 205 near the rear surface of the copying machine 100. The hook 301 provided on the side cover 300 enters the groove portion 503. A lock member of an interlock device 204 described later engages with the hook 301 that has entered from the groove 503.
[0119]
A plurality of air holes 504 are formed on the first surface 501 of the frame 205 near the front surface of the copying machine 100. The vent hole 504 is formed to allow air sucked from a vent hole 401 provided on the side surface of the copying machine 100 to enter the inside of the apparatus.
[0120]
A fixing unit 118 is disposed inside the copying machine 100 from the tip of the second surface 502 of the frame 205. An engaging portion 505 is fixed to the outer wall on the front side of the copying machine 100 in the fixing unit 118.
[0121]
The engaging portion 505 engages with a lock restricting member of the interlock device 204 described later. FIG. 5 shows a state where the lock restricting member is engaged with the engaging portion 505. When the lock restricting member is engaged with the engaging portion 505 in this way, the attachment / detachment of the fixing unit 118 is restricted.
[0122]
The interlock device 204 of the present embodiment mainly includes a first mechanism that performs ON / OFF control of the power supply of the open / close sensor and the non-safety component according to the open / close operation of the open / close cover 200, and the open / close cover 200 mainly. And a second mechanism that avoids turning on the power of the non-safety component when the side cover 300 is open by associating the open / closed state of the side cover 300 with the open / closed state of the side cover 300.
[0123]
The open / close sensor in the first mechanism described above detects the open / close state of the open / close cover 200. Further, the non-safety component corresponds to a drive motor such as the LSU 113 or the photosensitive drum 112, for example.
[0124]
The first mechanism is disposed on the front side of the copying machine 100 in the interlock device 204. On the other hand, the second mechanism is arranged on the rear side of the copying machine 100 in the interlock device 204.
[0125]
FIG. 6 is a perspective view of the first mechanism constituting the interlock device 204 of the present embodiment.
[0126]
As shown in FIG. 6, the first mechanism is provided with a switch mechanism 601 composed of an open / close sensor, a power source for non-safety components, and a switch for turning them on and off, and an open / close of the open / close cover 200 on the upper side. A rotation mechanism 602 that rotates according to the operation and turns on / off the switch of the switch mechanism 601 is provided.
[0127]
FIG. 7 is an enlarged view of the rotation mechanism 602 constituting the first mechanism. 7A shows a perspective view of the rotation mechanism 602, FIG. 7B shows a front view of the rotation mechanism 602, and FIG. 7C shows a top view.
[0128]
As shown in FIG. 7A, the rotation mechanism 602 includes a rotation shaft 701 provided in the horizontal direction. The rotation shaft 701 is rotatably supported by the housing 702 of the rotation mechanism 602.
[0129]
A connecting member 703 is fixed to one end of the rotating shaft 701. The connecting member 703 is provided in a shape having a certain length up and down from the end of the rotating shaft 701. A rotation lever 704 is fixed to the lower end portion of the connecting member 703.
[0130]
The rotation lever 704 is provided inward of the copying machine 100 in the same direction as the axis direction of the rotation shaft 701. As described above, the rib 203 provided on the back surface of the opening / closing cover 200 abuts on the peripheral surface of the rotation lever 704. Thereby, the rotation lever 704 rotates to the rear of the apparatus. The rotation lever 704 is fixed to the rotation shaft 701 via a connecting member 703. Therefore, the rotation shaft 701 also rotates according to the rotation of the rotation lever 704.
[0131]
A pressing member 705 for pressing the switch of the switch mechanism 601 is fixed near the center of the rotation shaft 701. The pressing member 705 rotates according to the rotation of the rotation shaft 701. The pressing member 705 has a shape that protrudes downward from the lower surface of the housing 702 when the opening / closing cover 200 is closed.
[0132]
A notch is formed on the lower surface of the housing 702 at a position corresponding to a pressing member described later. The pressing member 705 protrudes from the lower surface of the housing 702 through the notch.
[0133]
A protruding piece 706 is provided on a side surface of the pressing member 705 on the side of the rotation lever 704 and below the rotation shaft 701. On the other hand, a spring 707 is attached to a position corresponding to the protruding piece 706 of the pressing member 705 on the peripheral surface of the rotating shaft 701.
[0134]
One end of the spring 707 is locked to the protruding piece 706 from the inside. On the other hand, the other end of the spring 707 is locked at a predetermined position of the housing 702. Due to the spring 707, a pressing force is applied to the pressing member 705 in the direction of arrow A in the figure.
[0135]
A shaft portion 708 is provided on a side surface opposite to the protruding piece 706 and in a region below the rotating shaft 701. A lock member 709 is attached in the vicinity of the tip of the shaft portion 708. As shown in FIG. 7C, the lock member 709 protrudes to the second mechanism side through a groove formed in the housing 702. The hook 301 of the side cover 300 is used.
[0136]
A support member 710 that supports the lower surface of the lock member 709 is provided below the lock member 709 as shown in FIG. The lock member 709 moves on the support member 710 in the front-rear direction of the interlock device 204 according to the rotation of the pressing member 705.
[0137]
8A shows a cross-sectional view taken along the dotted line A shown in FIG. 7C, and FIG. 8B shows a cross-sectional view taken along the dotted line B shown in FIG. 7C. In FIG. 8, the case where the open / close cover 200 is closed is indicated by a solid line, and the case where it is open is indicated by a dotted line. In FIG. 8, the left side is referred to as the front of the apparatus, and the right side is referred to as the rear of the apparatus.
[0138]
As shown in FIG. 8A, when the opening / closing cover 200 is open, the lower end of the pressing member 705 has moved to the front of the apparatus. At this time, as shown in FIG. 8B, the shaft portion 708 moves to the front of the apparatus according to the position of the pressing member 709. In response to this, the lock member 709 is also moved forward of the apparatus. In this case, even if the side cover 300 is closed, the lock member 709 does not engage with the hook 301.
[0139]
On the other hand, when the opening / closing cover 200 is closed, as shown in FIG. 8A, the pressing member 705 is moved to a position where the lower end protrudes from the lower surface of the housing 702. At this time, as shown in FIG. 8B, the shaft portion 708 moves to the rear of the apparatus according to the position of the pressing member 709. In response to this, the lock member 709 is also moved rearward. In this case, when the side cover 300 is closed, the lock member 709 is engaged with the hook 301.
[0140]
FIG. 9 is an enlarged view of the switch mechanism 601 constituting the first mechanism. FIG. 9A shows a perspective view of the switch mechanism 601, and FIG. 9B shows a top view of the switch mechanism 601. In addition, let the lower side shown in FIG.9 (b) be an apparatus front, and let an upper side be an apparatus back.
[0141]
As shown in FIG. 9A, the switch mechanism 601 includes an abutting member 901 as a switch that can be moved up and down on the upper surface. A spring (not shown) is disposed below the contact member 901. The contact member 901 is lifted upward by the urging force of the spring when it is not pressed by the pressing member 705 described above.
[0142]
A power source 902 for non-safety parts such as a drive motor such as the LSU 113 and the photosensitive drum 112 is disposed before the contact member 901 moves downward. When the contact member 901 moves downward, a button provided on the upper surface of the power source 902 is pressed downward. As a result, the power source 902 supplies power to the non-safety component. Note that pressing of the button of the power source 902 by the contact member 901 will be described later.
[0143]
An open / close sensor 903 that detects the open / close state of the open / close cover 200 is disposed on the side of the contact member 901. The open / close sensor 903 is constituted by a transmissive sensor including a light emitting element and a light receiving element, for example. When the light from the light emitting element is blocked, it is turned on, and it is detected that the open / close cover 200 is closed.
[0144]
On the upper surface of the contact member 901, as shown in FIG. 9A, a contact piece 904 having a surface inclined upward from the front of the apparatus to the rear of the apparatus is provided. When the lower end portion of the pressing member 705 contacts the upper end surface of the contact piece 904, the contact member 901 is pressed downward.
[0145]
Further, as shown in FIG. 9B, a protruding piece 905 extending toward the detection region of the opening / closing sensor 903 is provided on the side surface of the contact member 901 on the opening / closing sensor 903 side. The protruding piece 905 enters the detection region of the open / close sensor 903 and blocks light from the light emitting element.
[0146]
Hereinafter, the movement of the contact member 901 of the switch mechanism 601 will be described with reference to FIG.
[0147]
10A and 10C are front views of the periphery of the contact member 901. FIG. FIG. 10A shows a case where the contact member 901 is moving downward, and FIG. 10C shows a case where the contact member 901 is restored. FIGS. 10B and 10D are cross-sectional views taken along the dotted line A shown in FIGS. 10A and 10C, respectively.
[0148]
As shown in FIG. 10A, when the contact member 901 moves downward, the protruding piece 905 enters the detection region of the open / close sensor 903. Therefore, the open / close sensor 903 detects that the open / close cover 200 is closed.
[0149]
Further, as shown in FIG. 10B, the button 1001 provided on the upper surface of the power source 902 is pressed by the lower surface of the contact member 901 contacting. Accordingly, power is supplied from the power source 902 to the non-safety component.
[0150]
On the other hand, when the contact member 901 returns to the original position, the protruding piece 905 is retracted upward from the detection region of the open / close sensor 903 as shown in FIG. Therefore, the light from the light emitting element is received by the light receiving element. For this reason, the open / close sensor 903 detects that the open / close cover 200 is open.
[0151]
Further, as shown in FIG. 10D, the lower surface of the contact member 901 is also moved upward. For this reason, the button 1001 provided on the upper surface of the power supply 902 is released from the pressing of the contact member 901 and returns to the original position. Therefore, the power supply from the power source 902 to the non-safety component is stopped.
[0152]
Thus, in the interlock device 204 of the present embodiment, the contact member 901 as a switch can be moved up and down in the vertical direction, and the pressing member 705 rotates downward so that the lower surface of the contact member 901 The power source 902 for the non-safety part is turned on, and the open / close sensor 903 is turned on by the protruding piece 905 provided on the side surface of the contact member 901. As a result, the power source 902 and the open / close sensor 903 for the non-safety component can be turned on by a single operation of moving the contact member 901, so that the power source 902 and the open / close sensor 903 for the non-safety component are efficiently turned on / off. be able to.
[0153]
In addition, the contact member 901 can be moved up and down, and the pressing member 705 rotates downward to turn on the power source 902 for the non-safety component on the lower surface of the contact member 901, and the contact member The open / close sensor 903 is turned on by the projecting piece 905 provided on the side surface of 901. As a result, the power source 902 and the open / close sensor 903 for the non-safety parts can be turned on with the same contact member 901, so that the number of parts can be reduced and the apparatus can be downsized and space-saving.
[0154]
Moreover, in the interlock apparatus 204 of this Embodiment, LSU and a drive motor are assumed as a non-safety part, for example. Therefore, by electrically controlling the power supply to the two locations of the LSU and the drive motor, the three members can be turned on / off by one contact member 901.
[0155]
As a result, there is less room for variations between parts, and a highly accurate interlock device 204 can be realized. As a result, in conjunction with the opening / closing operation of the opening / closing cover 200, the power supply to the LSU and the drive motor can be reliably cut off.
[0156]
On the other hand, when the pressing member 705 is attached to the rotation shaft 701 and is rotated in the vertical direction by the rotation of the rotation shaft 701, the pressing member 705 is not moved in the parallel direction but moved in the parallel direction. It is moved using the pivoting movement that has been obstructed. For this reason, there is nothing preventing the pressing member 705 from moving, and the pressing member 705 can be moved smoothly. As a result, the power supply can be reliably turned on / off.
[0157]
Further, the pressing member 705 is attached to the rotating shaft 701 and rotated in the vertical direction by the rotation of the rotating shaft 701, whereby the starting point of the rotating operation of the pressing member 705 becomes the rotating shaft 701. The power point 705 and the rotation fulcrum can be overlapped on the same point. For this reason, it is possible to prevent rattling from occurring when each pressing means moves as in the case where the force point and the rotation fulcrum are separated as in the prior art, and the pressing member 705 can be moved smoothly. As a result, the power supply can be reliably turned on / off.
[0158]
11A shows a perspective view of the second mechanism constituting the interlock device 204 of the present embodiment, FIG. 11B shows a top view, and FIG. 11C shows a front view. Yes. FIG. 11 shows a state where the side cover 300 is open. In addition, the right side, the left side, the upper side, and the lower side illustrated in FIG. 11B are referred to as a device right side, a device left side, a device rear side, and a device front side, respectively.
[0159]
As described above, the second mechanism associates the open / closed state of the open / close cover 200 and the open / closed state of the side cover 300 to avoid turning on the power of the non-safety component or the like when the side cover 300 is open. It is.
[0160]
Specifically, in the state where the side cover 300 is opened, the second mechanism closes the opening / closing cover 200 by restricting the movement of the locking member 709 moving to the rear of the apparatus when the opening / closing cover 200 is closed. To prevent. Thereby, it is avoided that the open / close cover 200 is closed and the power source of the non-safety parts is turned on even though the side cover 300 is open.
[0161]
On the other hand, when the side cover 300 is closed, the second mechanism allows the lock member 709 to move rearward of the device, thereby allowing the opening / closing cover 200 to close. As a result, when the side cover 300 is closed, the open / close cover 200 is closed to ensure that the power of the non-safety component is turned on.
[0162]
As shown in FIG. 11, the second mechanism includes a lock restricting member 1101 provided in the horizontal direction. The lock restricting member 1101 is supported by the housing 1102 of the second mechanism. The lock restricting member 1101 is supported by the housing 1102 so as to be movable in the left-right direction. Note that the housing 1102 includes a first housing 1102 a and a second housing 1102 b, and is fixed to the second surface 502 of the frame 205.
[0163]
A locking portion 1103 is provided in the vicinity of the center of the lock restricting member 1101. The locking portion 1103 is for urging the end portion of the spring 1104 attached to the peripheral surface of the lock restricting member 1101.
[0164]
The spring 1104 is attached between the locking portion 1103 and the inner wall surface of the first housing 1102a. The lock restricting member 1101 is biased to the left side of the device during normal operation by the force of the spring 1104 extending to the left side of the device (the state shown in FIG. 11).
[0165]
When the side cover 300 is closed, the end portion of the hook 301 is in contact with the end surface of the lock regulating member 110 on the device left side. When the end of the hook 301 comes into contact, the lock restricting member 1101 is pushed rightward of the apparatus.
[0166]
As shown in FIG. 11A, the hook 301 has a notch 301a that opens downward near the tip. As will be described later, when the side cover 300 is closed, the lock member 709 enters the notch 301a.
[0167]
An engaging portion 505 fixed to the outer wall surface of the fixing unit 118 is disposed in the moving direction of the tip of the lock regulating member 1101 on the right side of the apparatus. When the hook 301 is pushed rightward by the hook 301, the distal end portion of the lock regulating member 1101 engages with the engaging portion 505.
[0168]
A protrusion 1105 is provided in the vicinity of the tip of the lock regulating member 1101 and on the rear side of the apparatus. The protruding portion 1105 enters the groove portion 1106 formed in the housing 1102b. The protrusion 1105 and the groove 1106 constitute a guide for the lock restricting member 1101.
[0169]
A stopper 1107 is provided near the front end of the lock regulating member 1101 and on the front side of the apparatus. The stopper 1107 restricts the lock member 709 from moving rearward when the side cover 300 is open. The stopper 1107 has a shape that extends longer to the left of the device than the tip of the lock restricting member 1101.
[0170]
Here, the reason why the tip of the stopper 1107 is longer than the tip of the lock restricting member 1101 is that when the side cover 300 is closed and the lock restricting member 1101 moves to the right side of the device, the lock restricting member 1101. This is to prevent the lock member 709 from entering between the hook 301 and the hook 301.
[0171]
Thus, when the hook 301 of the side cover 300 retracts the lock restricting member 1101, it is possible to reliably prevent the lock member 709 from entering between the hook 301 and the lock restricting member 1101. For this reason, the open / close cover 200 is not closed due to a malfunction, even though the side cover 300 is not closed, and the open / close sensor of the open / close cover 200 and the open / close sensor of the side cover 300 are combined. However, it is possible to reliably prevent the operation from being started in the apparatus with the side cover 300 being opened.
[0172]
12A shows a perspective view of the second mechanism constituting the interlock device 204 of the present embodiment, FIG. 12B shows a top view, and FIG. 12C shows a front view. Yes. FIG. 12 shows a state where the side cover 300 is closed and the open / close cover 200 is also closed.
[0173]
In this case, as shown in FIG. 12, the hook 301 is in contact with the lock restricting member 1101 and pushes the lock restricting member 1101 rightward of the apparatus. For this reason, the tip of the lock restricting member 1101 enters the engaging portion 505. Thereby, the attachment / detachment of the fixing unit 118 is restricted.
[0174]
When the side cover 300 is closed and the lock restricting member 1101 is moved to the right side of the apparatus, the stopper 1107 is also retracted from the moving region of the lock member 709 to the right side of the apparatus as shown in FIGS. It has become a state.
[0175]
At this time, the notch 301 a of the hook 301 is disposed in the movement region of the lock member 709. Therefore, when the opening / closing cover 200 is closed in this state, the lock member 709 passes through the notch 301a and comes into contact with the second casing 1102b.
[0176]
Thus, according to the interlock device 204 of the present embodiment, the lock member 709 of the side cover 300 is provided on the rotation shaft 701 and the side cover 300 is locked by the rotation of the rotation shaft 701. Thus, in one operation of turning the turning shaft 701, (1) ON / OFF of the power source 902, (2) ON / OFF of the open / close sensor 903, and (3) lock of the side cover 300 cover are provided. The action can be performed. For this reason, the number of parts can be reduced and the mechanism for performing the three operations can be made compact.
[0177]
Further, a lock restricting member 1101 that abuts on the lock member 709 until the side cover 300 is closed and restricts the turning of the turning lever 704 is provided. Thereby, even if it is going to close the opening-and-closing cover 200 until the side surface 300 closes, the rotation lever 704 does not rotate, but this prevents and the opening-and-closing cover 200 does not close. For this reason, when the opening / closing cover 200 is in the closed position, the side cover 300 is always in the closed position, and the opening / closing sensor 903 of the opening / closing cover 200 can be used as the opening / closing sensor 903 of the side cover 300, and the number of parts is accordingly increased. This can reduce the size and cost of the apparatus.
[0178]
Further, the side cover 300 is provided with a hook 301, and the side cover 300 is closed so that the hook 301 retracts the lock restricting member 1101 and the rotation lever 704 is rotatable. For this reason, the hook 301 has two functions of a function of engaging with the lock member 709 and a function of retracting the lock restricting member 1101. Therefore, the opening / closing of the side cover 300 and the rotation restriction of the rotation lever 704 are reliably associated with each other by a simple mechanism, and when the side cover 300 is in the open state, the rotation lever 704 is reliably unrotatable. can do. On the other hand, when the side cover 300 is closed, the rotation lever 704 can be reliably rotated.
[0179]
Next, the operation of the interlock device 204 when the open / close cover 200 is closed while the side cover 300 is closed will be described.
[0180]
13 and 14 are views showing the relationship between the interlock device 204 and the opening / closing cover 200. FIG. FIG. 13 shows a state immediately before the opening / closing cover 200 is closed, and FIG. 14 shows a state in which the opening / closing cover 200 is closed. The left side shown in FIGS. 13 and 14 is referred to as the front of the apparatus, and the right side is referred to as the rear of the apparatus.
[0181]
As shown in FIG. 13, the rib 203 on the back surface of the opening / closing cover 200 is not in contact with the rotating lever 704 in a state immediately before the opening / closing cover 200 is closed. Therefore, the rotation lever 704 is in a state of being biased forward of the apparatus.
[0182]
At this time, the pressing member 705 fixed to the rotation shaft 701 is retracted forward of the apparatus. For this reason, the contact member 901 of the switch mechanism is not pressed, and the button 1001 of the power source 902 is not pressed. Therefore, power is not supplied from the power source 902 to the non-safety component.
[0183]
On the other hand, when the opening / closing cover 200 is closed, as shown in FIG. 14, the rib 203 on the back surface of the opening / closing cover 200 comes into contact with the rotation lever 704. Thereby, the rotation lever 704 rotates to the rear of the apparatus.
[0184]
At this time, the pressing member 705 fixed to the rotation shaft 701 is also rotated backward. For this reason, the lower end portion of the pressing member 705 comes into contact with the contact piece 904 of the contact member 901, and the contact member 901 is pressed down. As the contact member 901 moves, the button 1001 of the power source 902 is also pressed. As a result, power is supplied from the power source 902 to the non-safety component.
[0185]
As described above, according to the interlock device 204 of the present embodiment, the rotation lever 704 is pressed by the rib 203 provided inside the opening / closing cover 200 to rotate the rotation shaft 704. For this reason, when the opening / closing cover 200 is closed, the rotation lever 704 always rotates the rotation shaft 701, so that power supply to and shutoff from the non-safety parts and the opening / closing sensor 903 is linked to the opening / closing operation of the opening / closing cover 200. It can be done reliably.
[0186]
This rib 203 is provided on the surface of the outer peripheral cover 201 of the ventilation hole into the apparatus functioning as a table. Even when the interlock device 204 is disposed in the back of the copying machine 100, the rib 203 is formed on the outer peripheral cover 201 provided inside the opening / closing cover 200, and the rib 203 and the opening / closing cover 200 are formed. The distance between can be increased.
[0187]
For this reason, since the length of the pressing member 705 itself can be shortened, the pressing member 705 can be applied to the rotating lever 704 without shaking, and power supply to the non-safety parts and the open / close sensor 903 can be reliably cut off. Can do. In addition, since a configuration such as a guide for moving the pressing member 705 can be omitted, the number of components can be reduced and the apparatus can be downsized.
[0188]
In addition, since the outer peripheral cover of the ventilation hole that blows air inside the apparatus is also used as a stand on which the rib 203 is placed, it is not necessary to provide this stand as a separate configuration. Accordingly, an increase in the number of parts can be prevented, and the cost can be suppressed and the apparatus can be downsized.
[0189]
In this embodiment, the copying machine 100 including the interlock device 204 is described. However, the present invention is not limited to this, and any device having an opening / closing cover 200 and a side cover 300 for performing maintenance and the like inside the device. Any device can be used. For example, the present invention can be applied to a multifunction machine having two or more of a printer function, a copy function, and a fax function.
[0190]
Further, in the present embodiment, the LSU and the drive motor as non-safety parts are turned on on the lower surface of the contact member 901, while the open / close sensor 903 is turned on by the protruding piece 905 provided on the side surface of the contact member 901. Yes. However, the present invention is not limited to this, and the power to the LSU may be turned on at the lower surface of the contact member 901, while the power to the drive motor may be turned on at the protruding piece 905.
[0191]
Even in such a change, ON / OFF control of two members can be realized by one contact member 901. For this reason, the room which the variation between components generate | occur | produces correspondingly reduces, and a highly accurate interlock apparatus is realizable. As a result, in conjunction with the opening / closing operation of the opening / closing cover, it is possible to reliably supply or shut off power to the LSU and the drive motor.
[0192]
Further, in the present embodiment, a lock member 709 that moves back and forth according to the rotation of the rotation shaft 701 is used when the side cover 300 is locked. However, the present invention is not limited to this, and in consideration of this back-and-forth movement, it may be used as a push-down member that turns on a rear part (hereinafter referred to as “rear part”).
[0193]
When the change is made in this way, the rotation shaft 701 rotates to turn the pressing member 705 downward to turn on the power source 902 and to use the lock member 709 as the pressing member to the rear. The rear part can be turned on by turning. Thereby, since the power supply 902 and the rear part can be turned on by one operation of turning the turning shaft 701, the power supply 902 and the rear part can be turned ON / OFF efficiently.
[0194]
【The invention's effect】
As described above, according to the present invention, in conjunction with the opening / closing operation of the opening / closing cover, the state of the opening / closing cover can be detected and the power supply to the non-safety parts can be reliably cut off, and the mechanism is downsized. Even so, low cost can be realized.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a copying machine to which an interlock device according to an embodiment of the present invention is applied.
FIG. 2A is a top view of the entire copying machine to which the interlock device according to the embodiment is applied.
(B) Enlarged view around the interlock device according to the above embodiment
FIG. 3A is a front view of the entire copying machine to which the interlock device according to the embodiment is applied.
(B) Enlarged view around the interlock device according to the above embodiment
FIG. 4A is a side view when the opening / closing cover of the copying machine to which the interlock device according to the embodiment is applied is closed.
(B) Side view when opening / closing cover of copying machine to which interlock device according to above embodiment is applied
FIG. 5 is a perspective view of the periphery of the interlock device according to the embodiment.
6 is a perspective view of a first mechanism constituting the interlock device according to the embodiment. FIG.
FIG. 7A is a perspective view of a rotation mechanism constituting the first mechanism of the interlock device according to the embodiment.
(B) Front view of the rotation mechanism constituting the first mechanism of the interlock device according to the embodiment.
(C) Top view of the rotation mechanism constituting the first mechanism of the interlock device according to the embodiment.
8A is a cross-sectional view of the rotation mechanism taken along a dotted line A shown in FIG.
(B) Sectional view of the rotation mechanism along the dotted line B shown in FIG.
FIG. 9A is a perspective view of a switch mechanism constituting the first mechanism of the interlock device according to the embodiment.
(B) Top view of the switch mechanism constituting the first mechanism of the interlock device according to the above embodiment.
10A is a front view of the vicinity of the contact member of the switch mechanism according to the embodiment. FIG.
(B) Sectional view of the switch mechanism along the dotted line A shown in FIG.
(C) Front view around contact member of switch mechanism according to above embodiment
(D) Sectional view of the switch mechanism along the dotted line A shown in FIG.
11A is a perspective view of a second mechanism constituting the interlock device of the embodiment. FIG.
(B) Top view of the second mechanism constituting the interlock device of the above embodiment.
(C) Front view of the second mechanism constituting the interlock device of the above embodiment
12A is a perspective view of a second mechanism constituting the interlock device of the embodiment. FIG.
(B) Top view of the second mechanism constituting the interlock device of the above embodiment.
(C) Front view of the second mechanism constituting the interlock device of the above embodiment
FIG. 13 is a diagram showing the relationship between the interlock device according to the embodiment and the opening / closing cover.
FIG. 14 is a diagram showing a relationship between the interlock device according to the embodiment and the opening / closing cover.
FIG. 15 is an enlarged view showing a configuration of a conventional interlock device.
FIG. 16 is an enlarged view showing a configuration of a conventional interlock device.
FIG. 17 is a diagram showing a defect in a conventional interlock device.
[Explanation of symbols]
100 copier
118 Fixing unit
200 Opening and closing cover
201 Outer cover
203 Ribs
204 Interlock device
205 frames
300 Side cover
301 hook
504 Vent
505 engaging part
601 Switch mechanism
602 Rotation mechanism
701 Rotating shaft
702 housing
703 connecting member
704 Rotating lever
705 Pressing member
706 Protruding piece
707 Spring
708 Shaft
709 Lock member
901 Contact member
902 Power supply
903 Open / close sensor
904 Contact piece
905 Protruding piece
1101 Lock restriction member
1102 housing
1104 spring
1107 Stopper

Claims (5)

A pivot shaft provided in a horizontal direction in parallel with the open / close cover in the closed state, a pivot lever for pivoting the pivot shaft in accordance with an opening / closing operation of the open / close cover, and fixed to the pivot shaft; A cam-like switch pressing member that rotates in the vertical direction by the rotation of the rotating shaft, and can be moved up and down in accordance with the vertical rotation of the switch pressing member by contacting the end of the switch pressing member. A thick plate-like switch abutting member, the switch abutting member is provided with a flat plate-like projecting piece on the side, and a first component that detects the elevation of the projecting piece and turns it off / on, A button-like second part that contacts the lower part of the switch contact member and is turned off / on in accordance with the raising / lowering of the switch contact member, and the switch contact according to the opening / closing operation of the opening / closing cover The first part and the second part are turned off by raising and lowering the member. / Copiers or multifunction machines, characterized in that on the cause. 2. The copy according to claim 1, wherein an upper surface of the switch contact member that contacts the switch pressing member is provided with a surface that is inclined downward in a direction in which the switch pressing member rotates. Machine or multifunction machine . A second cover that opens and closes in a direction orthogonal to the opening and closing direction of the opening and closing cover, a rod-like lock restricting member that horizontally moves in the direction of the rotation axis in accordance with the opening and closing operation of the second cover, and a switch pressing member A flat plate-shaped lock member that is held by the shaft portion and moves horizontally in a direction orthogonal to the rotation shaft by the rotation of the rotation shaft, and when the second cover is in the open state, The lock restricting member abuts on the lock member to restrict the movement of the lock member, thereby restricting the turning of the turning shaft to restrict the closing operation of the opening / closing cover, and the second cover being in the closed state. In this case, the lock restricting member allows the movement of the lock member without contacting the lock member, thereby allowing the rotation of the rotation shaft to allow the closing operation of the opening / closing cover. Claim 1 or Claim 2 Copier or multifunction machine according. A hook member that engages with the lock member is provided on a closed inner surface of the second cover, and when the second cover is in a closed state, the hook member moves in accordance with a closing operation of the opening / closing cover. 4. The copier or multifunction machine according to claim 3, wherein the second cover is locked in a closed state by engaging with a member . A third part that is detachable from the opening / closing cover side in a direction perpendicular to the moving direction of the lock restricting member, and the lock restricting member moves in response to the closing operation of the second cover. 5. The copying machine or the multifunction machine according to claim 3, wherein the third part is placed in contact with the third part to restrict attachment / detachment of the third part .

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