JP6508886B2 - Image forming device - Google Patents

Description

  The present invention relates to an image forming apparatus such as, for example, a copying machine or a printer, which has a function of forming an image on a recording material such as a sheet.

In the image forming apparatus, the exterior of the apparatus main body can be opened and closed so that the user can access the inside of the apparatus at the time of removing the recording material jammed in the recording material conveyance path, attaching / detaching a unit incorporated in the apparatus, etc. Doors are provided.
Inside the device, rotating drive parts and electrical contacts to which a high voltage is applied are exposed. For this reason, while the user opens the door and accesses the inside of the apparatus, it is necessary to cut off the power supply from the power source to the parts and contacts so that the user does not hold a finger on the rotating parts or to avoid an electric shock.
Therefore, an image forming apparatus including an interlock switch that shuts off the power supply to parts in conjunction with the opening and closing of the door as disclosed in Patent Document 1 has been put on the market. The interlock switch is incorporated in the electric circuit of the image forming apparatus and functions as a switch. If the interlock switch is not pressed, the electric circuit is open, and it is possible to maintain a state in which the driving of the rotating member and the application of voltage can not be performed. A protrusion is provided at a position corresponding to the interlock switch inside the openable door, and the interlock switch can be turned ON / OFF in conjunction with the opening / closing of the door.
Thus, by providing the projection on the door, the interlock switch operates as a switch of an electric circuit that doubles as a door open / close detection unit, and safety can be secured for the user who accesses the inside of the apparatus.

JP 2005-67067

The interlock switch is often provided with a shielding member having an opening at a position corresponding to the protrusion, and is disposed inside the same. This is to prevent the switch from being inadvertently pressed by foreign matter other than the projection while the user is accessing the inside of the apparatus, that is, while the door is open. The opening of the shielding member needs to be kept at a minimum size in consideration of the width of the rotation locus of the projection when the door is opened and closed so that the projection can be inserted.
However, since the width of the rotation locus of the protrusion increases as the position of the protrusion approaches the door rotation axis, the size of the opening is widened if the protrusion is formed near the door rotation axis. I had to. Although the safety can be secured by disposing the interlock switch as far as possible, if the opening is expanded, dust and foreign matter such as a screw may easily enter during assembly, which may cause a failure.

As a configuration in which the protrusion of the door and the rotation axis are in close proximity, for example, a configuration in which an interlock switch is directly mounted on the power supply substrate of the apparatus main body can be mentioned. The advantage of this configuration is that not only space saving of the device main body can be achieved but also a bundle of wires connecting the interlock switch and the power supply substrate is unnecessary, so that the price can be reduced.
Generally, in order to fix an open door, it is often configured to rotate the top of the door in order to use gravity to contact the installation surface of components or devices. Therefore, the rotation axis of the door is often provided on the lower side of the device. On the other hand, the power supply substrate is often arranged at the lower part of the device in consideration of the arrangement of the power supply cord connected to the power supply port. Therefore, the interlock switch mounted on the power supply base is also located at the lower part of the device, and the projection provided at the position corresponding to this is also disposed on the lower side of the device. As a result, the protrusion of the door and the rotation axis approach each other.
As described above, it is necessary to widen the opening of the shielding member as the protrusion of the door and the rotation axis are closer, but if the opening of the shielding member is expanded, foreign matter other than the projection is likely to enter and the device breaks down. There is concern that it will become easier. For example, by moving the protrusion of the door away from the rotation axis, the width of the rotation trajectory of the protrusion can be narrowed. However, in such a case, a link mechanism from the protrusion to the interlock switch is required, the configuration becomes complicated, and it becomes difficult to realize the downsizing and cost reduction of the device.

  The present invention has been made in view of the above-described circumstances, and has an object of suppressing the size of an opening into which a projection for pressing a switch is inserted with a simple configuration.

In the present invention to achieve the above object,
A frame housing an image forming device for forming an image on a sheet;
It is an opening and closing member that rotates with respect to the frame so that the inside of the frame can be opened on the back surface of the frame, and the rotation shaft is on the lower side of the opening and closing member and the lower side of the frame. An opening and closing member
A power supply substrate which is disposed on the back surface side and in the lower part inside the frame body, is mounted with a power supply port for receiving power supply from the outside, and supplies power to the image forming device;
A switch for switching between the operable state and the operation prohibited state of the image forming device ;
Provided in the closing member, by pressing the switch in closed state the closing member and operable state the image forming device, the image formed apart from the switch in a state where the closing member is opened A projection that puts the device in a disabled state ;
A cover portion disposed between the opening and closing member and the switch;
In the image forming apparatus, the cover portion is provided with an opening portion into which the projection portion is inserted when the opening and closing member is closed.
The switch is mounted directly on the power supply substrate,
The portion of the protrusion inserted into the opening when the opening and closing member is closed, as viewed in a direction parallel to the rotation axis of the opening and closing member, is generally along an arc centered on the rotation axis It is characterized in that it has a shape extending in a curving direction.

  According to the present invention, it is possible to suppress the size of the opening into which the projection for pressing the switch is inserted with a simple configuration.

Sectional view showing a schematic configuration of an image forming apparatus according to an embodiment Schematic perspective view showing the back side of the image forming apparatus of the embodiment FIG. 2 is a schematic cross-sectional view showing the vicinity of the back door of the image forming apparatus of the embodiment. Schematic perspective view showing the interlock switch of the embodiment The schematic sectional drawing which expanded the rotation axis vicinity of the back door of the image forming apparatus of the Example The schematic diagram which shows the positional relationship of the rotation locus | trajectory width | variety of protrusion of a Example, protrusion, and a rotating shaft A schematic sectional view enlarging the vicinity of the rotation axis of the back door of the image forming apparatus of the prior art A schematic view showing the positional relationship between the rotation locus width of the projection, the projection and the rotation axis in the conventional example A diagram showing the relationship between the distance n between the projection and the rotation axis and the rotation trajectory width α The schematic diagram which shows the positional relationship of the rotation locus | trajectory width | variety of protrusion of a Example, protrusion, and a rotating shaft

DETAILED DESCRIPTION Exemplary embodiments of the present invention will be exemplarily described in detail below with reference to the drawings. Therefore, the dimensions, materials, shapes, etc. of the components described in this embodiment should be changed as appropriate depending on the configuration of the apparatus to which the invention is applied and various conditions. The scope of the present invention is not intended to be limited to the following embodiments. However, in the case of specifying and describing the dimensions, materials, shapes, etc. of the components described in the embodiment in order to explain the case where a certain effect can be obtained, the above description is limited to the above. Absent.
[Example]
FIG. 1 is a cross-sectional view showing a schematic configuration of an image forming apparatus 100 of the present embodiment.
In FIG. 1, the left side is the front side of the image forming apparatus 100, and the right side is the back side of the image forming apparatus 100. In the present embodiment, the vertical direction in the state where the image forming apparatus 100 is installed is the vertical direction. Further, the main body of the image forming apparatus 100 is referred to as an apparatus main body 101. In this embodiment, a color image forming apparatus is illustrated as an image forming apparatus. That is, in the image forming apparatus 100 of this embodiment, four image forming portions for forming toner images of yellow, magenta, cyan and black, that is, the first, second, third and fourth The image forming units Sa, Sb, Sc, and Sd are provided. The first, second, third and fourth image forming portions Sa, Sb, Sc and Sd are accommodated in a frame (frame) 101 a of the apparatus main body 101. In the present embodiment, the configurations and operations of the image forming portions Sa to Sd are substantially common except for the color of the toner image formed by each. Therefore, in the following description, suffixes a, b, c, and d given to reference numerals to indicate that they are elements provided for any color are omitted and summarized, unless distinction is particularly required. Explain it.

Each image forming unit S includes an electrophotographic photosensitive drum (hereinafter, photosensitive drum) 1 as an image carrier. The photosensitive drum 1 rotates clockwise in the figure. Around the photosensitive drum 1, a charging roller 2, an exposure unit 3, a developing unit 4, a primary transfer roller 20 and a cleaning unit 5 are disposed in this order from the upstream side to the downstream side in the rotational direction.
The charging roller 2 uniformly charges the surface of the photosensitive drum 1 to a predetermined polarity. Next, the exposure means 3 applies a light beam 6 such as a laser beam to the charged surface of the photosensitive drum 1 based on the image information. As a result, a latent image (electrostatic latent image) is formed on the surface of the photosensitive drum 1. The developing unit 4 causes toner of each color to adhere to the electrostatic latent image on the photosensitive drum 1 to develop (develop) the toner image as a toner image.

The primary transfer roller 20 is disposed at a position facing the photosensitive drum 1 with the intermediate transfer belt 10 interposed therebetween. The primary transfer roller 20 transfers (primary transfer) the toner image formed on the photosensitive drum 1 to the intermediate transfer belt 10. After the primary transfer, the primary transfer residual toner remaining on the photosensitive drum 1 is removed from the photosensitive drum 1 by the cleaning means 5.
The intermediate transfer belt 10 is stretched by the driving roller 11 and the driven roller 12 and rotates counterclockwise in the drawing. A secondary transfer roller 21 is disposed at a position facing the driving roller 11 with the intermediate transfer belt 10 interposed therebetween.

On the other hand, the recording material (sheet) P fed out from the feeding cassette 30 by the pickup roller 31 is separated and fed one by one by a separation unit (not shown). Then, the recording material P is sent to the registration roller pair 33 by the conveyance roller pair 32. The recording material P is conveyed by the registration roller pair 33 at a predetermined timing to a transfer nip portion (secondary transfer portion) where the intermediate transfer belt 10 and the secondary transfer roller 21 abut, and the intermediate transfer belt 10 is transferred at this transfer nip portion. The upper toner image is transferred (secondary transfer) onto the recording material P. The intermediate transfer belt 10 and the secondary transfer roller 21 are transfer members for forming a transfer nip portion for transferring the toner image onto the recording material P.

Thereafter, the recording material P on which the toner image is formed is heated and pressurized by the fixing unit (fixing device) 40. By this, the toner image is fixed (fixed) on the recording material P. Then, the recording material P is conveyed by the discharge roller pair 41 and discharged onto the discharge tray 42 provided on the upper portion of the apparatus main body 101. The secondary transfer residual toner remaining on the intermediate transfer belt 10 after secondary transfer is charged to a predetermined polarity by the cleaning roller 22 and moved (transferred) to the photosensitive drum 1 by the primary transfer roller 20. It is removed by the cleaning means 5.
A generic name of a device housed inside the frame 101a for forming an image on the recording material P is called an image forming device, and the image forming device includes the image forming portions Sa to Sd, the exposure unit 3, the intermediate transfer belt 10, A paper feed cassette 30, a fixing unit 40 and the like are included.

FIG. 2 is a schematic perspective view showing the back side of the image forming apparatus of this embodiment.
A back door 50 as a door (opening and closing member) rotatable with respect to the apparatus main body 101 is provided on the back (side) of the image forming apparatus 100 of the present embodiment. The rear door 50 has a rotary shaft 51 on the lower side (one end side) of the door and on the lower side of the apparatus main body 101, and is configured to be rotatable about the rotary shaft 51 in the direction of arrow R shown in the figure. ing. That is, the rear door 50 can be opened by pulling out and rotating the upper portion of the rear door 50 (the other end side of the door) to the front side of the device main body 101 in FIG. Here, in the present embodiment, the horizontal direction when the image forming apparatus 100 is installed is configured to be the axial direction of the rotation shaft 51.
When the back door 50 is opened, the recording material conveyance path 34 inside the apparatus is exposed from the opening 102 of the frame 101a. The exposure of the recording material conveyance path 34 guides the recording material P to be conveyed, and a guide member (not shown) forming the recording material conveyance path 34, for example, the recording material P such as the intermediate transfer belt 10 or a roller. The transport member that transports is exposed. When a paper jam (jam) occurs in the vicinity of the secondary transfer roller 21, that is, in the conveyance path of the recording material P from the pair of registration rollers 33 to the fixing unit 40, the back door 50 is opened to open the recording material conveyance path 34. And the user can easily remove the jammed recording material P.
When the back door 50 is opened, the fixing means 40 inside the apparatus is exposed from the opening 102 of the frame 101a, and the fixing means 40 can be removed from the image forming apparatus 100 for replacement or maintenance.
A power supply port (power supply unit) 61 is provided in the lower part of the back of the image forming apparatus 100. The power supply port 61 is connected to an external power supply by a power cable (not shown).

FIG. 3 is a schematic cross-sectional view showing the vicinity of the back door 50 of the image forming apparatus 100 of the present embodiment. 3A shows the closed state of the back door 50, and FIG. 3B shows the opened state of the back door 50. As shown in FIG. Inside the back door 50, a projection (projection) 52, which is a characteristic configuration of the present embodiment, is provided. The protrusions 52 will be described in detail later.
The projection 52 is provided at a position corresponding to the interlock switch 70 described later, and has a width w1 and a length m such that the switch of the interlock switch 70 can be reliably pushed (FIG. 2). Thereby, interlock switch 70 is turned ON / OFF interlocked with opening and closing of back door 50.

The apparatus main body 101 is provided with a power supply substrate (electric substrate) 60 for supplying power. On the power supply substrate 60, a power supply port 61 for receiving power from an external power supply (receiving power supply from the outside) is mounted. The power supply substrate 60 is disposed on the back side and the lower side of the apparatus main body 101 in order to facilitate distribution of a power cable (not shown) connected to the power supply port 61.

In the present embodiment, the interlock switch 70 is directly mounted on the power supply substrate 60. As described above, the interlock switch 70 operates as a switch of an electric circuit that also serves as a detection unit that detects whether the back door 50 is in the open state or the closed state, and ensures safety for the user accessing the inside of the device. It is to do.
By mounting the interlock switch 70 on the power supply substrate 60, not only space saving of the device main body can be achieved, but also a bundle of wires connecting the interlock switch 70 and the power supply substrate 60 and the like becomes unnecessary. Can be

  A shielding member (cover portion as a protective member that covers the interlock switch 70 so that the interlock switch 70 is not exposed in order to prevent the switch of the interlock switch 70 from being inadvertently pressed when the rear door 50 is opened. ) 80 is provided. That is, in the apparatus main body 101, the interlock switch 70 is disposed inside the shielding member 80. The shielding member 80 cooperates with a device frame (not shown) to prevent the power supply unit from being touched by the user. As the shielding member 80, a sheet metal which constitutes the frame body 101a of the apparatus main body 101 may be used, or a cover of a dedicated separate member may be provided.

FIG. 4 is a schematic perspective view showing the interlock switch 70 in the present embodiment. The interlock switch 70 is provided with an axial hole (not shown), and is attached to the power supply substrate 60 by inserting a screw into the axial hole. The interlock switch 70 is provided with a terminal (not shown), and is connected to an electric circuit on the power supply substrate 60.
The interlock switch 70 includes a button (switch) 71 biased toward the back door 50 and a lever 72 that abuts on the button 71. Here, the button 71 corresponds to a pressed portion that can be pressed by the protrusion 52.
When the button 71 is pressed by a predetermined amount, the electric circuit is closed and the power can be turned on. On the other hand, when the button 71 protrudes to the initial position by the biasing force of a spring (not shown), the electric circuit is opened, and the current is turned off. When the button 71 protrudes to the initial position, the back door 50 is open and the projection 52 is separated from the button 71. In the non-energized OFF state, the image forming device is in the operation prohibited state, and the image forming operation on the recording material P can not be performed. In addition, when the image forming operation on the recording material P is in the OFF state where it can not be energized, the image forming operation is stopped.

  Since the interlock switch 70 is mounted on the power supply substrate 60, the width w2 of the lever 72 is smaller than the length L, and has a long shape in the vertical direction in the apparatus main body 101. Since the width w2 of the lever 72 is relatively small, at least a part of the lever 72 can always be pushed in consideration of the positional tolerance of the projection 52 including the backlash of the back door 50 in the width direction, as shown in FIG. The width w1 of the projection 52 of the door 50 is determined. More preferably, the width w1 of the protrusion 52 is equal to or greater than the width w2 of the lever 72 so that the protrusion 52 can always press the entire width of the lever 72 in consideration of the deflection of the lever 72 in the width direction at the time of pressing the protrusion 52. It is good to do.

The lever 72 is configured to be rotatable around the rotation center 72 a, and is provided to abut the button 71 and press the button 71 into the interlock switch 70. That is, when the back door 50 is closed (in the closed state), the protrusion 52 pushes the lever 72, the interlock switch 70 is turned on, and the image forming apparatus becomes capable of being energized. In the conductive state, the image forming device is in the operable state, and the image forming operation on the recording material P can be performed. On the other hand, when the back door 50 is opened (in the open state), the projection 52 does not push the lever 72, so the interlock switch 70 is in the OFF state, resulting in the current-disabling state.
As described above, the interlock switch 70 can detect the open / close state of the back door 50, and can turn on / off the electric circuit of the image forming apparatus 100 in conjunction with the opening / closing of the back door 50. .

The shielding member 80 is provided with an opening 81 so that the projection 52 can be inserted when the back door 50 is closed (FIGS. 2 to 4). The interlock switch 70 detects whether the back door 50 is in the closed state by the projection 52 inserted from the opening 81 as described above.
The width w3 of the opening 81 is set to a necessary minimum width not less than the width w1 of the protrusion 52 in consideration of the width w1 of the protrusion 52, the positional tolerance of the protrusion 52, and the like. The height (length in the vertical direction of the device main body 101) h of the opening 81 takes into consideration the width (thickness) of the rotation locus including the thickness of the protrusion 52 at the time of rotation of the back door 50, in addition to the position tolerance of the parts. Is set to the minimum necessary height. The larger the opening 81, the higher the possibility that foreign matter (dust, screws, etc. at the time of assembly) other than the projection 52 may intrude through the opening 81, and there is a concern that the foreign matter may cause failure. Ru. Therefore, it is desirable to keep the opening 81 at the minimum necessary size.

The characteristic configuration and effects of the present embodiment will be described below in comparison with the conventional example. First, the configuration of the conventional example will be described.
FIG. 7 is a schematic cross-sectional view enlarging the vicinity of the rotation shaft 51 of the back door 50 in the image forming apparatus of the conventional example. The basic configuration except for the shape of the protrusion 521 provided on the back door 50 and the shape of the opening 811 provided on the shielding member 80 in the conventional example is the same as that of this embodiment, and the same components Are assigned the same reference numerals as in the present embodiment.

  In the conventional example, the cross-sectional shape orthogonal to the rotation shaft 51 in the protrusion 521 is substantially linear, and is provided perpendicular to the inner surface of the back door 50. The trajectory of the protrusion 521 at the time of rotation of the back door 50 has a predetermined width corresponding to the length of the protrusion 521, as shown by the broken line in FIG. Hereinafter, this width is referred to as rotation trajectory width α. The height h of the opening 811 of the shielding member 80 needs to be at least as long as the rotation trajectory width α of the protrusion 521 in order to allow the protrusion 521 to be inserted.

FIG. 8 is a schematic view simply representing the positional relationship between the rotation trajectory width α of the protrusion 521, the protrusion 521, and the rotation shaft 51 in the conventional example.
The center (rotation center, axis center) of the rotation axis 51 of the back door 50 and the axis (rotation axis) of the rotation axis 51 passing through the center are O, and the tip of the projection 521 on the side away from the center O is A, back door The root of 50 is shown by B. Further, the distance between the protrusion 521 and the rotation shaft 51, that is, the distance between the root B of the protrusion 521 and the center O of the rotation shaft 51 is n. The length of the protrusion 521, that is, the distance from the tip A to the root B is m, as in the length of the protrusion 52 of the present embodiment described with reference to FIG. The length m of the protrusion 521 is set to a length necessary to press the interlock switch 70. Specifically, with respect to the radial direction of the pivot axis O, the projection 52 is provided between the end farthest from the pivot axis O of the back door 50 and the pivot axis O, and the root B of the projection 52 is The rear door 50 is disposed at a position closer to the rotation axis O than the end farthest from the rotation axis O.

Assuming that the thickness of the protrusion 521 is t, the thickness t of the protrusion 521 is added to the difference between the radius of the rotation trajectory of the tip A and the root B of the protrusion 521 on the side away from the center O of the protrusion 521. It is a thing. The radius of the rotation trajectory of the tip A is equal to the linear distance between A and O, and since the projection 521 is perpendicular to the back door 50, it can be obtained using the three-squares theorem. On the other hand, the radius of the rotation trajectory of the root B is equal to the linear distance n between the root B of the protrusion 521 and the center O of the rotation axis 51. Therefore, the rotation trajectory width α of the protrusion 521 can be expressed by the following equation 1.
α = (m ² + n ² ) ^1/2- n + t (where n t t) ... (Equation 1)
FIG. 9 is a diagram showing the relationship between the distance n between the protrusion 521 and the rotation axis 51 and the rotation trajectory width α in Expression 1.
As apparent from FIG. 9, the shorter the distance n between the protrusion 521 and the rotation axis 51, the larger the rotation locus width α, and the value X of the square root of the length m and the thickness t of the protrusion 521 (= It can be seen that (m ² + n ² ) ^1/2 ) approaches. Therefore, it is necessary to increase the height h of the opening 811 of the shielding member 80 as the protrusion 521 and the rotation shaft 51 are closer, so that foreign matter (dust, screws or the like at the time of assembly) may enter the opening 811. There is a concern that it will be a cause of failure.

Next, the configuration of this embodiment will be described.
FIG. 5 is a schematic cross-sectional view enlarging the vicinity of the rotation shaft 51 of the back door 50 in the image forming apparatus of the present embodiment.
In the present embodiment, in the protrusion 52 provided on the back door 50, unlike the conventional configuration, the cross-sectional shape orthogonal to the rotation shaft 51 (the shape when the cross section orthogonal to the rotation shaft 51 is taken) is substantially arc It is characterized in that it has a shape. Furthermore, in the present embodiment, the center of the arc in the arc shape of the cross-sectional shape of the protrusion 52 is taken as the center O of the rotation shaft 51. Here, the cross-sectional shape orthogonal to the rotation axis 51 in the protrusion 52 is hereinafter referred to as the cross-sectional shape of the protrusion 52. As described above, since the upper surface and the lower surface of the projection 52 are arc surfaces centered on the pivot axis O, the projection 52 as a whole is a pivot axis when viewed from the direction parallel to the pivot axis O of the back door 50. It has a curved shape along an arc centered on O.

FIG. 6 is a schematic view simply representing the positional relationship between the rotation trajectory width α of the protrusion 52, the protrusion 52, and the rotation shaft 51 in the present embodiment. In the present embodiment, the protrusion 52 and the rotating shaft 51 are disposed close to each other at the lower portion of the back door 50. Here, in FIG. 6, the reference numerals relating to dimensions and angles use the same reference numerals as those in FIG. 8 for the convenience of description.
As apparent from FIG. 6, the rotation trajectory width α of the projection 52 is mainly determined by the thickness t of the projection 52, and does not depend on the distance n from the rotation axis 51 or the length m of the projection 52. Therefore, the height h of the opening 81 of the shielding member 80 does not need to consider the position of the protrusion 52, and only the thickness t may be considered.
Therefore, even if the protrusion 52 is brought close to the rotation shaft 51, the size of the opening 81 of the shielding member 80 can be narrowed as compared with the conventional example. As a result, foreign matter (dust, screws and the like at the time of assembly) hardly enters the opening 81, and the reliability of the image forming apparatus 100 can be further enhanced. That is, according to the present embodiment, the configuration in which the reliability of the operation of the interlock switch 70 is further enhanced can be provided simply and inexpensively.

Here, in the present embodiment, since the cross-sectional shape of the projection 52 is a substantially arc shape, the pressing amount of the interlock switch 70 by the projection 52 is lowered from the tip A to the back door 50 instead of the length m of the projection. It should be noted that it depends on the perpendicular length k.
Assuming that the angle corresponding to the arc length m of the projection 52, that is, the angle between the tip A and the root B with respect to the center O of the rotation axis 51 is θ, the length k of the perpendicular can be expressed by Equation 2.
k = n × sin θ = n × sin (m / n) (Equation 2)
The length m of the protrusion 52 or the distance n from the rotation shaft 51 may be adjusted according to the equation 2 so that the perpendicular length of the protrusion 52 can satisfy the pressing amount required for the interlock switch 70.

Further, in the present embodiment, the cross-sectional shape of the projection 52 is an arc shape whose center of rotation is the center O of the rotation shaft 51 of the back door 50. More specifically, when viewed from the direction parallel to the pivot axis O of the back door 50, the projection 52 is shaped so that the entire projection 52 is curved along an arc centered on the pivot axis O. This is the best configuration that can exert the effects of the present invention most and is not limited thereto.
That is, as shown in FIG. 10, when viewed from the direction parallel to the rotation axis O, a straight line connecting the partial tip A and the root B inserted in the opening 81 even in the closed state of the back door 50 of the protrusion 52 is With respect to a straight line connecting the rotation axis O and the root B of the protrusion 52, the shape is not orthogonal but inclined. The inclination may be a shape in which the tip end A of the projection 52 approaches the rotation axis O side. In other words, when viewed from a direction parallel to the rotation axis O, a straight line connecting the tip A and the root B of the portion inserted into the opening 81 even in the closed state of the back door 50 of the protrusion 52 The tip end A of the protrusion 52 may be inclined so as to approach the rotation axis O with respect to a straight line orthogonal to the straight line connecting the roots B of the protrusions 52.
More preferably, the cross-sectional shape of the protrusion 52 is not limited to an arc shape centering on the rotation axis O, as long as it is a shape curved to a straight line shape, in other words, the protrusion 52 is the rotation direction of the back door 50 Any shape may be used as long as it has a curved shape. At this time, the curved shape may be a complex shape consisting of a curve (arc) and a straight line. With such a configuration, the effects of the present invention can be obtained.
Further, in the present embodiment, the entire cross-sectional shape of the projection 52 is an arc shape, but the present invention is not limited to this. The entire portion of the projection 52 that can be inserted into the opening 81 is a back door Any shape having a curved shape along the 50 rotational directions may be used. That is, when viewed from the direction parallel to the pivot axis O of the back door 50, the portion inserted into the opening 81 when the back door 50 of the projection 52 is closed is an arc whose center is the pivot axis O as a whole. It is sufficient if the shape is curved along the That is, in the case where there is a portion which is not inserted into the opening 81 even in the closed state of the back door 50 among the protrusions 52, the shape of the portion is not particularly limited.
In the present embodiment, the back door 50 is disposed on the side of the apparatus main body 101, and the rotation shaft 51 and the projection 52 are disposed at the lower portion of the back door 50. The arrangement position is not limited to this. That is, as long as the apparatus includes the door rotatably provided in the apparatus body, the means for detecting the open / close state of the door, and the protective member covering the detection means, the present invention is suitably applied to the rotary shaft. The opening of the protective member can be made smaller while bringing the protuberances into close proximity with each other.
Further, by making the width in the radial direction of the pivot axis O of the back door 50 of the projection 52 coincident with or as close as possible to the rotation locus width α of the projection 52, the opening 52 is made smaller and the projection 52 has a certain strength or more. You can have it.
Specifically, by setting the protrusion 52 as described above, the height h of the opening 811 (the width of the opening 81 when viewed from the direction parallel to the rotation axis O) is usually assumed to be foreign matter. It is also possible to make it 10 mm or less which is hard to enter, or 6 mm or less which is hard to contain small foreign matter. Thereby, the effects of the present invention can be obtained.

  DESCRIPTION OF SYMBOLS 50 ... Back door, 51 ... Rotational axis, 52 ... Protrusion, 70 ... Interlock switch, 80 ... Shielding member, 81 ... Opening part, 100 ... Image formation apparatus, 101 ... Apparatus main body

Claims (6)

A frame housing an image forming device for forming an image on a sheet;
It is an opening and closing member that rotates with respect to the frame so that the inside of the frame can be opened on the back surface of the frame, and the rotation shaft is on the lower side of the opening and closing member and the lower side of the frame. An opening and closing member
A power supply substrate which is disposed on the back surface side and in the lower part inside the frame body, is mounted with a power supply port for receiving power supply from the outside, and supplies power to the image forming device;
A switch for switching between the operable state and the operation prohibited state of the image forming device ;
Provided in the closing member, by pressing the switch in closed state the closing member and operable state the image forming device, the image formed apart from the switch in a state where the closing member is opened A projection that puts the device in a disabled state ;
A cover portion disposed between the opening and closing member and the switch;
In the image forming apparatus, the cover portion is provided with an opening portion into which the projection portion is inserted when the opening and closing member is closed.
The switch is mounted directly on the power supply substrate,
The portion of the protrusion inserted into the opening when the opening and closing member is closed, as viewed in a direction parallel to the rotation axis of the opening and closing member, is generally along an arc centered on the rotation axis An image forming apparatus characterized by having a shape extending in a curving direction. The image forming apparatus according to claim 1, wherein the frame has an opening different from the opening that exposes the image forming device when the opening and closing member is opened. The image forming apparatus according to claim 2 , wherein the another opening exposes a conveyance path for conveying the sheet. The image forming apparatus according to claim 2 , wherein the image forming device includes a fixing unit configured to heat the sheet, and the another opening exposes the fixing unit. The image forming apparatus according to claim 2 , wherein the image forming device includes a transfer member that transfers a toner image to a sheet, and the another opening exposes the transfer member. The image forming apparatus according to any one of claims 1 to 5 , wherein a width of the opening when viewed from a direction parallel to the rotation axis is 10 mm or less.