SE531299C2 - Digital camera with perspective correction - Google Patents

Description

l0 15 20 25 30 Eå fi 255 2 processor that stores photographed images in the camera (see, for example, Japanese Laid-Open Patent Application No. 2002-335438 (Patent Document 1)).

However, the conventional example described in patent document 1 has the following problems. That is, first of all, the use of the camera becomes very complicated. Second, the pulse rate changes in part when the perspective is controlled by a post-process and thus the image quality deteriorates as a result. Third, the final image or the like cannot be checked at the time of shooting, because the image displayed on. the monitor at the time of shooting is not an accurate image. In addition, the finished position after the post-process cannot be imaged at the time of shooting. If the shooting fails, in most cases no correction can be made during the post-process. Based on these views, it is not preferable that the perspective is controlled electronically in the post-process, except in the case of acute removal (an incorrect image has been saved).

The perspective control can, as shown in Fig. 9, be done by making an ytalm surface (image capture element) 92 parallel to a surface of the object 7 l and flmoving an optical axis L to a photographic lens 93 in the vertical direction within an area so. that the object is satisfactorily imaged in an imager in the film 92, for adjusting the position. This perspective control is already done in viewing cameras and the like, and this is described in 0003 to 0004 in the patent document 1.

In the case of modern fixed cameras, however, perspective control gradually becomes more difficult and is actually excluded for this reason. In, for example, cameras of the distance measurement type, perspective control becomes difficult and is therefore disconnected.

Perspective control reappears in single-lens SLR cameras, but since special lenses must be used, they become very expensive and are not practical (see

In the patent document 1).

In the meantime, digital cameras of the lens interchangeable type have come onto the market.

The biggest problem with digital cameras of the lens interchangeable type (attachment / removal) is that dust attaches to the image pickup elements, but some. of these cameras available on the market are designed so that, for example, a low-pass filter located just in front of the image pickup element is ultrasonically vibrated by a crystal resonator so that the dust attached to the filter is shaken off, and the dust is collected using a pressure sensitive adhesive to prevent the dust from fl yga away again. In addition, digital cameras equipped with wipers for wiping the image capture element have come on the market in some places. However, these cameras do not have a complete dustproof function.

Lenses for perspective control in single-lens SLR cameras are very expensive, and their position can be adjusted in only a single direction depending on their design. About the mode shown in ñg. 7A is a plan view, however, position adjustment is also necessary in a horizontal direction (right-left direction). When shooting, the position must in many cases change in both directions: one up-down, almost in a vertical direction (longitudinal direction) and a right-left, namely in a horizontal direction (lateral direction), which is perpendicular to the vertical direction . In the case of single lens SLR cameras, a portion of the lens can be rotated in the vicinity of a mounting base, as the position can only be adjusted in a single direction.

When shooting, it is therefore not easy to determine the final position.

In order to realize the mode shown in fi g. 9, the optical axis of the lens may be designed so that it can be moved relative to the film or to the center of the image pickup element. It is therefore easier for the optical axis of the lens to be fixed to the camera, and for the film or image capture element to be moved. In the case of. single lens mirror fl ex cameras, however, it is necessary to the position ratio between a photo screen on the film or on. the image capture element and a focusing glass for observing a shooting mode assume equivalent positions, so that they are symmetrical, for example at 90 ° (sometimes including angles other than 90 °). For this reason, it is actually impossible to move the film or image capture element in order to perform the perspective control. 15 20 25 30 533 295 Newer electronic displays have a remarkably high resolution, and optical viewfinders are being replaced by electronic viewfinders for practical use. The electronic viewfinder therefore does not need to be designed to establish a constant relationship with an image capture element in the camera installation mode. For this reason, the photography lens is fixed and the image pickup element is moved in the vertical direction with respect to the optical axis of the photography lens, so that the perspective control becomes practical.

Especially with newly developed ferroelectric liquid crystals, one can realize a circuit formed directly on silicon, with pixel spacing of 10 p and a resolution of 2500 dip, and the relative aperture is high so that engagement between the pixels is hardly noticeable. In addition, because the sensitivity is very high (100 to 10 useconds, which is about 1000 times higher than for conventional fl surface-crystal displays), time-divided display is possible (high-frequency time division does not give rise to a color burst in moving color images), and these properties are combined so that micrometer size can be realized with a high resolution. Because ferroelectric microdisplays have a very small screen size, the displays cannot be viewed directly, and thus they are enlarged and viewed using an ocular magnifying glass.

However, a digital camera with a perspective control function means difficult problems in the design phase and in the manufacturing phase. This is because you normally need a guide path to be able to surface an image capture element in a constant position, and in this case even a very small guide path entails costs and man-hours.

When practically trying to design an image capture element so that it is capable of being individually moved and adjusted both lengthwise and laterally, two-row guideways are needed in the direction perpendicular to the longitudinal and lateral directions. In addition, it is necessary to mount an image capture element on a double slide included in the camera housing having a sealed structure, and to enable independent movement and adjustment of the image capture element in the longitudinal or lateral direction. In this case, it is necessary to adjust the image capture element so that it does not move inappropriately due to external shocks or the like at the time of shooting, and thus the construction becomes complicated.

Conventional carnations are already designed with grid-shaped lines that are printed or engraved in a focusing glass, and the image is visually checked. In a position where a structural contour is determined at the time of shooting, the positional relationship of the grid-shaped lines does not match the image, and thus it is difficult to observe the perspective position.

To make a perspective check, margins in the image circle of the shooting lens are required, but most of the current single-lens SLR cameras are designed to be able to use interchangeable lenses for conventional silver halide film cameras. In addition, most single-lens SLR cameras use image capture elements whose area is smaller than the standard 24 mm x 36 mm format for conventional silver halide film cameras, but it is convenient to use the above lenses and image capture elements in combination with each other. This is because the image circle in the shooting lens has margins, and perspective control is possible with all interchangeable lenses. Although the image circle has margins, it is very difficult to make perspective control with the design of a conventional single-lens SLR camera, but digital cameras of single-lens camera (interchangeable lens type) have another problem. This problem is that dust SOIYI entering the cameras gets stuck on the image capture element when attaching / removing the lenses.

To solve this problem, cameras equipped with low-pass filters, etc. just in front of the image capture element can be vibrated with ultrasound to shake off dust, and there will soon be cameras on the market in which dust is wiped off with a wiper. Although the design is complicated and l0 15 20 25 30 53% E99 the manufacturing cost is high, the actual dust removal effect will not be perfect.

SUMMARY OF THE INVENTION It is an object of this invention to provide a digital camera capable of visually controlling and adjusting the perspective of an image on an electronic display prior to shooting, and of preventing dust from adhering to a surface in a safe, inexpensive and easy manner. way.

This invention is proposed to accomplish the above objects. From a first aspect, this invention provides a digital camera which controls an image to be displayed on an image capture element visually on an electronic display and at the same time controls the perspective for photographing the image, and which is constructed in such a manner that the image capture substrate mounted with the image capture element is pressed against a front surface or a rear surface of the camera housing by means of a pressure element, such as a leaf spring, and is positioned so that its position can be adjusted in the longitudinal direction and in the lateral direction independently of each other vertically towards an optical axis of the photographic lens, and the position of the image pickup substrate is adjusted So that a projected image is displayed on the image capture element using the shooting lens, and thus the perspective can be visually checked and adjusted on the electronic display before shooting.

In accordance with this construction, when an object is photographed, such as a high-rise building, the position of the image capture substrate is previously adjusted with respect to the camera body, so that the image to be projected by the photography lens is displayed on the image capture element. I.e. the imaging substrate is moved to arbitrary positions in the longitudinal direction and lateral direction, to obtain a placement. The image pickup element mounted on the image pickup substrate can therefore be adapted to desired positions in the longitudinal and lateral directions independently of each other, and they are perpendicular to each other in a direction vertical to the optical axis of the photographic lens. Thus, after a photographer has checked and adjusted the perspective of the image on the electronic display visually in advance, the photographer then photographs the object, such as a high-rise building.

From a second aspect, this invention provides a digital camera according to the first aspect, which is constructed in such a way that vertical lines and lateral lines form indicator lines through software display on the electronic display, and the vertical and lateral lines are arranged to be movable independently of laterally and vertically on the electronic display, and the vertical lines and the lateral lines are matched by predetermined positions with respect to an image on the electronic display so that the perspective position can be checked and adjusted visually.

In accordance with this construction, the image of the object taken by the image capture element is displayed as a viewfinder image on the electronic display, and the vertical line and the lateral line forming indicator lines are shown by software display on the electronic display. The number of vertical lines and lateral lines can be one or more. The vertical line and the lateral line are moved individually in the lateral direction to an arbitrary position, and in the vertical direction to an arbitrary position over the entire surface of the electric display, in order to be shown by a special display operating section. As a result, the indicator lines match the positions of the viewfinder image, and the perspective of the image is visually checked and adjusted.

From a third aspect, the invention provides a digital camera according to the first and second aspects, which is constructed in such a way that the digital camera is designed so that a lens is replaceable, and a dustproof plate sealing the inside of the camera housing is mounted between the replaceable lens and the camera body, so that no dust adheres to the surface of the image capture element in the camera body.

In accordance with this construction, a dustproof disc, such as a glass sheet or a resin sheet, is provided between a replaceable lens and the camera body, so 255 8 that the camera body has a sealed structure. As a result, dust is prevented from entering the camera body when replacing the lens (attaching / removing).

This prevents dust from adhering to the surface of the image capture element in the camera body.

From a fourth aspect, the invention provides a digital camera according to the first, second or third aspect which is constructed in such a way that a ventilation opening, which is communicatively connected to the outside, is formed in a side wall of the carnation housing, and a flexible dividing element is placed in a inner part of the camera body corresponding to the ventilation opening, so that the pressure becomes different on the inside and outside of the camera body, and the pressure difference is attenuated by deflection of the visible dividing element.

According to this construction, when a pressure difference arises between the inside and the outside of the camera housing, the visible dividing element, such as a diaphragm, a cylindrical camera bellows closed at one end or a resin film, bends so that the pressure difference is attenuated and becomes as small as possible. or eliminated.

In the invention according to the first aspect it is so. that when an object, such as a high-rise building, is photographed after the image perspective has previously been observed and adapted to an optimal position on the electronic display, the object, such as the high-rise building, can be photographed. For this reason, the digital camera may be designed to have a simple structure which prevents deformation of the object and so that a satisfactory image can be obtained safely and easily. In addition, the camera does not require a special lens and it is cheap and practical. You can easily determine the final position of this camera at the actual shooting time.

According to a second aspect of the invention, the indicator lines are matched with predetermined positions on the viewfinder image on the electronic display and the perspective is visually checked and adjusted. For this reason, in addition to the effect of the invention according to the first aspect, the image perspective can be visually controlled and adapted accurately, easily and quickly.

In the invention from the third aspect, dust can be prevented from sticking to the surface of the image pickup element in the camera housing. For this reason, in addition to the effect of the invention according to the first or the second aspect, inappropriate photography due to dust adhesion on the surface of the image pickup element can be prevented, so that a satisfactory image can always be obtained in a stable manner.

In the invention according to the fourth aspect, the pressure difference between the inside and the outside of the camera housing is attenuated rapidly by means of the flexible dividing element. For this reason, apart from the effect of the first, second or third aspect, no strong force is applied to the visible dividing element even when the pressure difference between the inside of the camera housing, which has the sealed structure, and the atmospheric air is large due to temperature changes. increase changes or other weather conditions, so that a satisfactory protective effect against moisture condensation can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partial view of a digital camera in accordance with an embodiment of the present invention; Fig. 2 is a perspective view illustrating an example of an electronic display in the digital camera in accordance with this invention; Fig. 3 is a partial view illustrating a construction example in which a dustproof disc is attached to a camera housing, in accordance with this invention; Fig. 4 is an explanatory diagram illustrating the image position of a projected image by means of a photography lens in accordance with this invention; Fig. 5 is a partial view illustrating a construction example in which a cylindrical camera bellows closed at one end is installed in the camera in accordance with this invention; Fig. 6 is a partial view illustrating a construction example in which a flexible thin plate is mounted on the camera in accordance with this invention; Fig. 7A is an explanatory diagram illustrating a conventional example of. an image, such as a tall structure; Fig. 7B is an explanatory diagram illustrating a conventional example of an image displayed on an optical axis when the shooting lens is horizontal in lig. 7A; Fig. 8 is an explanatory diagram obtained by schematizing an image photographed in the position of Fig. 7; and Fig. 9 is an explanatory diagram of the perspective control in which an surface is parallel to an object surface, in accordance with a conventional example.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS One object is to provide an inexpensive digital camera having a simple constitution, in which one observes the perspective before shooting and at the same time adjusts it appropriately, thereby preventing distortion of an image of, for example, a tall building so as to obtain a satisfactory picture.

This object is realized by providing a perspective control mechanism which moves an image pickup element in a direction vertical to an optical axis of a photographic lens, and in longitudinal and lateral directions perpendicular to each other to align the image pickup element. In the best embodiment of this invention, the digital camera includes a longitudinal position position adjusting mechanism and a lateral direction position adjusting mechanism, which press to attach the imaging substrate mOHtCTEIt 10 15 20 25 30 5531 233 11 together with the imaging element to a front surface or a rear surface of a frame in the camera housing by using a blade spring or the like, and for moving the image capturing substrate in a longitudinal direction and a lateral direction independently of each other on the image capturing substrate. As a result, the position of the image pickup element can be adjusted so that an image projected by the shooting lens is displayed at a predetermined position on the image capture element.

The imaging substrate mounted together with the imaging element is mounted to the frame of the camera body in a sliding position, and a rack is attached to both ends of the imaging substrate.

The rack can be driven and adjusted directly by a gear, and in this case there are limitations as to the position of the imaging substrate, and the position of the imaging substrate in the longitudinal direction of the gear is optional.

Similarly, a rack and pinion at one end is perpendicular to the above-described rack and pinion, and the position of the image pickup substrate in the direction perpendicular to the above direction can be adjusted to a free position by means of this rack and pinion. The position of the image pickup element mounted on the image pickup substrate is therefore adjusted in the two perpendicular directions independently of each other, so that the image perspective can be controlled.

A perspective control device may be mechanically constructed as such. that it is capable of moving and adjusting the image capture element in the manner described above, but its adaptation position must be able to be controlled easily and visually. If the object is, for example, a building, all vertical lines in the image should be parallel in determining whether the perspective is adapted. In addition, all horizontal lines should be parallel, depending on the shooting scene.

Obviously, this invention can not always be limited to this, since an image is a form of expression. In a conventional single-lens mirror fl ex-camera, a grille is pressed (engraved) in a focusing glass, but since the grating in the focusing glass is fixed, the grating usually does not match the vertical lines or the horizontal lines in the subject image, such as a building. This makes a careful adjustment difficult.

An image taken by an image capture element is therefore displayed as a viewfinder image on an electronic display, but at this time one or more of your indicator lines are displayed through the software display in the longitudinal and lateral directions.

The indicator lines fl are displayed to appear over the entire surface of the electronic display by means of a control element, such as a control key. As a result, the irldictor liries are matched with an arbitrary position on the viewfinder image and the perspective is visually checked to be adjusted to an optimal position.

As an example of a dust intrusion protection measure, a transparent glass or resin disc may be mounted to the front surface of the camera, so. that one obtains a sealed structure. In this case, a dry gas (nitrogen gas, argon gas or the like, if possible) is injected into the sealed part so as to obtain an airtight structure in order to improve the moisture condensation protection effect. Even when having an airtight structure, a pressure difference occurs between the inside of the camera and the atmospheric pressure due to temperature changes or height differences, and thus a strong force is applied to a dust protection plate, such as a glass plate. Thus, even if an O-ring is mounted on a part where a gear shaft or the like in the perspective control mechanism performs punching in an outer wall of the camera housing, there is a risk that a movable part, such as an O-ring, cannot withstand this pressure under a long time.

To solve this problem, the pressure difference between the inside and outside of the camera body is eliminated. In order to eliminate the pressure difference, a diaphragm, a cylindrical camera body which is closed at one end, or a flexible divider (flexible dividing element), such as a resin, is provided between a mechanism part which is to maintain the airtightness of the camera body. and atmospheric pressure.

The digital camera having a perspective control mechanism in accordance with a concrete embodiment of the present invention is explained below. This embodiment is a digital camera in which, before shooting, one visually checks an image shown on the image capture element on the electronic display and at the same time controls the perspective so that the image is photographed. The imaging substrate mounted together with the imaging element. is pressed against the front surface or the rear surface of the camera body frame by means of the leaf spring and is mounted thereon so that an image is displayed on the image pickup element. A first rack is attached near both ends of the image pickup substrate in their respective longitudinal directions.

Meanwhile, a bearing carrying a first gear is attached to a portion of the camera body frame on both sides on which the image pickup substrate is mounted, and the first gear engages the first rack so that the position of the image pickup substrate can be controlled. At the same time, the first gear is designed to be capable of locating the imaging substrate in a direction tangential to its pitch circle and in a direction vertical to the optical axis of the shooting lens. Similarly, there is a second gear perpendicular to the first gear and the second rack, and the second gear engages the second rack only at one end. The imaging substrate is designed so that it is capable of being placed in a direction perpendicular to the direction adapted by the first gear.

A first control knob (first actuator) belonging to the first gear and a second control knob (second actuator) belonging to the second gear can be rotated independently, so that the image pickup element mounted on the image pickup substrate can be adapted to arbitrary positions in perpendicular directions against the 10 15 20 25 30 53? E33 14 optical axis of the shooting lens. A photographer visually checks and adjusts the perspective of the electronic display and then photographs the subject.

As indicator lines on the electronic display, one or more lines are shown through software display in vertical direction and lateral direction, and the vertical and lateral lines are designed so that they can be moved independently of each other for adaptation to arbitrary positions. In addition, in a digital camera with replaceable lenses, a dust-proof glass or resin disc is attached as a dust-proof plate in a position just after the replaceable lens in the camera body so that the inside of the camera body has a sealed structure. As a result, dust is prevented from adhering to the surface of the image pickup element in the camera body.

The freely foldable diaphragm and the cylindrical carnation bellows with a closed end or a screen made of resin or the like are located between the mechanism part and the camera housing, so that the camera mechanism part is protected from air and sealed. At the same time, there is a mechanism that reduces the pressure difference between the inside of the camera and the atmospheric pressure due to temperature change, altitude change and other weather conditions.

A concrete embodiment of the digital camera 14 in accordance with this invention is shown in Figs. Fig. 1 is a partial view illustrating a rear view (shooting side) position of the digital camera 14, but the same configuration as the position shown in Fig. 1 can be used for the front side (shooting lens side) of the digital camera 14. In this case, however, the image pickup element 3 shown by a dashed line in Fig. 1 is of course mounted so that the exposed surface of the image pickup element 3 faces the front of the surface of the sheet in ñg. l (shown with a solid line).

An aperture 4 is located in the center of the inner rear surface of the camera body frame 1 of the camera, and the square imaging substrate 2 mounted together with the imaging element 3 is attached to a flat surface about the aperture 4. In this case the image-capturing substrate 2 is held against the flat surface by means of leaf springs (pressure elements) 5 whose base ends are attached to the camera housing in the depressed and fixed position. As a result, the image pickup substrate 2 is carefully placed in the direction of the optical axis of the photographic lens, not shown, and even if an external force such as a dead weight or a light shock is applied thereto, the position of the image pickup element 3 is fixed in an immobile position.

The first rack 8 is attached near the right and left ends above the image pickup substrate 2 in the upward-downward direction (the longitudinal direction of the image pickup substrate 2). Both ends of the first gear 7 extend in the right-left direction (the lateral direction of the imaging substrate 2) and engage the right and left racks 8, and the right and left ends of the gear 7 are supported by the support bearings 9 on the side of the camera housing if it is rotated. The movement of the image pickup substrate 2 in the direction of rotation is therefore limited with respect to the optical axis of the shooting lens, and its position in the upward direction is limited by the gear 7. In addition, the rotation control knob 6 is attached to the left end of the gear 7. When the gear 7 is rotated the positions of the image pickup substrate 2 in the upward-downward direction are suitably driven so that they can be adjusted via the racks 8.

The second rack 12 is attached near the upper end of the image pickup substrate 2 in the right-left direction (the lateral direction of the image pickup substrate 2). The second gear 1 1 extending in the upward-downward direction engages the rack 12, and the gear 1 1 is supported by the support bearing 13 on the side of the kanier housing in the direction of rotation. In addition, there is a control knob 10 for rotation in the upper end of the gear 1 1. When this gear 11 is rotated by the maneuvering knob 10, the positions of the image pickup substrate 2 can be driven in a suitable manner for adjustment via the rack 12. 53 15 20 53 30 53'l 295 16 Therefore, when the control knob 6 together with the gear 7 and the control knob 10 together with the gear 11 are rotated independently at the time of shooting, the image pickup element 3 mounted on the image pickup substrate 2 is adapted to arbitrary positions in the right-left direction and in the up-down direction with respect to optical axis of the shooting lens. The gear '7 and the rack 1 l can be replaced by cams, and the racks 8 and 12 can be replaced by cam followers. Even with such a construction, one can perform position adjustment which is equivalent to the above.

The lateral direction positioning mechanism and the longitudinal directional positioning mechanism of this invention, namely, the drive mechanisms which move the image pickup substrate 2 independently in the right-left direction and in the up-down direction are not limited to be of the rack type and cam type and other drive mechanisms can be suitably used in accordance with the design.

In accordance with the embodiment according to fi g. 1, before an object such as a high-rise building is photographed, the imaging substrate 2 is moved in the longitudinal direction and in the lateral direction independently so that it is placed so that the image photographed by the photography lens is displayed on the imaging element 3. For this reason, the imaging element 3 can be easily adapted to desired positions in longitudinal and lateral directions.

The photographer therefore visually checks and adjusts the perspective position of the image on the electronic display and can photograph the object so that he can obtain a satisfactory image without distortion of the photographed image.

Fig. 2 illustrates an example of the electronic display (viewfinder) 21 of the digital body 14 in accordance with this invention. Vertical lines 22 and 23, such as vertical direction indicator lines, are shown by software display on the electronic display 21, and lateral lines 24 and 25 which form lateral direction indicator lines are shown by software display on the electronic display 2 1. As for indicator lines 22 to 25, only the vertical lines 10 53 '22 E 23 17 and 23 or the lateral lines 24 and 25 are selectively displayed using an operating switch, for example at the time of shooting, or preferably only one of the vertical lines 22 and 23 or one of the lateral lines 24 and 25 is displayed.

In the example according to the drawings, the positions of the vertical lines 22 and 23 and the lateral lines 24 and 25 for fl can be moved independently of each other to be adapted by the seesaw switch series (operating part for displaying vertical lines) 202 and 203 and the seesaW switches (operating part for display of lateral lines) 204 and 205. In this case, arrows or the like are marked on the surfaces of the seesaW switches 202 to 205 to show the directions of movement of the indicator lines 22 to 25 corresponding to the switches. The shape and constitution of the operating elements for adjusting the positions of the indicator lines 22 to 25, i.e. of the switches and buttons, are not particularly limited to this, and thus generally known operating units, such as switches and buttons, can be widely adapted as long as they can move the indicator lines 22 to 25 independently of each other to arbitrary positions.

In the case of the example in Fig. 2, a viewfinder image 26 of the object, such as a high-rise building, is shown on the electronic display 21, and for example the vertical line 22 fl is shifted to an arbitrary position in the lateral direction on the left part of the viewfinder image 26 by means of of the switch 202 so that it can be matched with the left end of the viewfinder image 26. In the same way, the vertical line 23 is moved to an arbitrary position in the vertical direction on the right part of the finer image 26 by means of the switch 203, so that it can matched to the right end of the viewfinder image 26.

When, for example, the perspective in the upward-downward direction is adjusted, the gear 7 is pivoted by means of the operating button 6 so that the perspective in the upward-downward direction is adapted to an optimal position. In fact, when the control knob 6 is turned, it is so. that it moves the image pickup element 3 fl only the viewfinder image 26 is shifted, and thus the direction of the optical axis of the camera should be changed. The vertical lines 22 and 23 are readjusted in accordance with the adjustment position, and in addition they can be adjusted by means of the control button 6. Fig. 2 illustrates a position in the middle of the perspective adjustment and does not illustrate the fully adjusted position. . In the fully perspective-adjusted position, the contour of the finer image 26 of the object, such as a high-rise building 3, matches the vertical parallel lines 22 and 23.

Similarly, when the perspective is to be adjusted in the horizontal direction, the lateral lines 24 and 25 are matched with an upper edge and a lower edge (upper and lower end) of the viewfinder image 26 in the horizontal part in the upward downward direction. The operating knob 10 is operated so that it rotates the gear 11, and while the perspective in the horizontal direction is visually controlled, it can be adjusted in the optimal position.

According to this embodiment, the vertical lines 22 and 23 and the lateral lines 24 and 25, which are indicator lines, are shown by software display on the electronic display 21, but the vertical lines 22 and 23 are independently moved to arbitrary positions in the lateral direction on the entire surface of the electronic display 2 1 by means of the exclusive display operating part. This is applied to the lateral lines 24 and 25 and they are moved independently of each other by the exclusive display operating part so that the positions are adjusted. As a result, the indicator lines 22 to 25 are positioned with respect to the end portions of the viewfinder image 26, and the perspective position can be visually checked and adjusted. In this way, visual inspection and adjustment can be performed quickly and accurately.

Fig. 2 illustrates a case in which a conventional liquid crystal display is used to explain in a simple manner. Preferably, however, a ferroelectric surface crystal microdisplay (not shown) is used as the viewfinder so that the construction may be similar to the position explained with reference to Fig. 2, and the ferroelectric liquid crystal microdisplay is enlarged by a magnifying glass. If necessary, a conventional fl-surface crystal display is suitably used at the same time, thereby showing an image. Fig. 3 illustrates an example of a concrete construction in accordance with claim 3 of this invention. The camera housing 31 has an image pickup element 32 on its inner surface on one side (the right surface or the rear surface in Fig. 3) (the drawing and the explanation of the viewfinder and the other mechanisms are omitted). A mounting 35 having a construction corresponding to a mounting 36 of a replaceable lens part 33 is mounted on the inner surface of the other side of the camera housing 3 1 (left side or front side in ñg. 3). A dustproof disc 34 made of glass or resin is attached to the inner surface of the mounting 35 to prevent dust or the like from entering the camera body 31.

A consequence of the dustproof plate 34 is explained below. Fig. 4 illustrates an image mode of a projected image using a shooting lens 41. As shown in fi g. 4, light rays are collected, which are emitted from a specific point of the object and enter through the entire aperture of the shooting lens 41 to a specific point in a corresponding position to act as an emission side if the distance to the object is longer than the focal length of the shooting lens 41.

The light rays emitted from the object 42 shown in fi g. 4 and enters the photography lens 41 is therefore displayed as a projected image 43 in a specific corresponding position. When fi g. 4 illustrates the image mode using the shooting lens in the camera, the image 43 is displayed in fi g. 4 on the image pickup element 32 in fi g. 3. As shown in fi g. 3, if dust 44 attaches to the image pickup element 32 (in Fig. 4 because it cannot be drawn overlapping the image 43, it is drawn in a position slightly closer to the shooting lens 41), the image pickup element 32 captures the dust 44 directly as the image 43. Also a person who is not a professional in the field can easily understand this.

If dust whose size is the same as dust 44 is now present in a position denoted by reference numeral 45 in fi g. 4, only a small part of the light beams to be projected in the form of the image 43 is blocked. In addition, the light beams blocked by the dust 45 become a light beam in both directions towards a front end and a base in the direction of one arrow of the image 43 in the image 43. 25 30 534 E55 20 drawing. I.e. the entire image 43 is blocked in a uniform manner so that a specific part of the image 43 is neither blocked nor omitted. As the light beams entering the entire aperture of the photographing lenses 41 from a specific point on the object 42 are collected at a point in an image position, the incident light and the emitted light from the specific point of the object 42 are scattered and converged to a conical shape.

The attenuation of the light due to dust 45 becomes small and is inversely proportional to the square of. the distance from the image position (the position of the image capture element 32). The dustproof plate 34 is therefore placed in a position shown in fi g. 3, so that a sealed structure is obtained. If the inside of the camera body 31 is always kept clean, even if the camera is used with a little dust attached to the surface of the dustproof plate 34 (an outer surface of the camera on the side of the shooting lens 41), some problem may occur due to adhesion of dust hardly occur.

The dustproof plate 34 is placed between the replaceable lens portion 33 and the camera housing 31 so that the camera housing 31 has a sealed structure, thereby preventing dust from entering the camera housing 31 at the time of replacement of a lens. Therefore, the dust does not adhere to the surface of the image pickup element 32 included in the camera body 31 and thus prevents inappropriate photography due to adhesion of dust.

In addition, even if the dust adhesion and contamination is very difficult, the surface of the dust-free plate 34 only needs to be dried so that cleaning of the dust is simple. The surface of the dustproof plate 34 may be covered with a hard material to prevent scratches. It is natural that the surface of the dust-proof plate 34 be subjected to a reflection-preventing process.

Fig. 5 illustrates an embodiment in which a ventilation hole 53 communicatively connected to an outer part (atmospheric air) in the camera housing 51 is formed in a side wall of the camera housing 51, and a cylindrical camera bellows with a closed end 52 is elastically placed in an inner part of the camera housing 51 which corresponds to the ventilation hole 53, so that the pressure of the ventilation hole 53 is applied thereto. With such a design, pressure outside the camera housing 51 is applied to the vent hole 53, and the bellows 52 expand and contract elastically in accordance with the pressure difference between the inside and outside of the body housing 51. As a result, the pressure difference between the inside and outside of the camera housing 51 is eliminated, or damped. as quickly as possible by means of the elastic deformation function of the camera bellows 52. 54 indicates the dustproof plate, such as a glass plate.

Fig. 6 illustrates a construction example in which a vent hole 63 communicatively connected to the outside of a camera main body 61 is formed in a side surface of the camera housing 61, and an exilable thin plate (e.g., a deflectable diaphragm having a lubricant bottom mold called the motor trump in Japan) or a resin shield 62 is attached to the inner portion of the carnation housing 61 corresponding to the vent hole 63 so that the pressure in the vent hole 63 acts. With such a design, the flexible membrane or resin shield 62 attenuates the pressure difference in a manner similar to the camera bellows 52 shown in Figs. 5, so that the pressure difference between the inside and the outside of the carnation housing is eliminated or attenuated as quickly as possible. 64 indicates the non-slip disc, such as a glass disc.

In accordance with the embodiments in ñg. 5 and 6, when a pressure difference occurs between the inside and the outside of the camera housing 51 or 61, the visible dividing element 52 or 62 is deflected, so that the pressure difference is attenuated or eliminated. Therefore, even in the case where the pressure difference between the inside of the camera and the atmospheric air is large due to temperature change, altitude change or some other weather influence, it is possible to prevent any strong external force from being applied to the dustproof plate 54 or 64.

It is worth noting that this invention can be modified in many different ways without such a modification departing from the scope of the invention and should therefore be understood to be included therein.

Claims (3)

lO l5 20 25 30 35 531 299 PATENT REQUIREMENTS: A digital camera (14) which visually controls an image to be displayed on an image capture element (3, 32) on an electronic display (21) and at the same time controls the perspective for photographing the image, an image capturing substrate (2) mounted together with the image capturing element being pressed against a front surface or a rear surface of a camera housing frame in the camera of a pressure element (5), such as a leaf spring, and is positioned so that its position can be adjusted in the longitudinal direction and lateral direction independently of each other vertically relative to an optical axis thereof. photographic lens; digital camera, characterized in that the position of the imaging substrate (2) is adjusted so that a projected image is displayed on the imaging element by means of the photography lens, vertical lines (22, 23) and lateral lines (24, 25) in the form of indicator lines being shown by software display on the electronic the display, the vertical lines and the lateral lines are positioned so that they can be moved independently of each other in the lateral direction and the vertical direction of the electronic display, and the vertical lines and the lateral lines are matched by predetermined positions with respect to an image on the electronic display so that the perspective mode can be visually checked and adjusted. The digital camera of claim 1, wherein the digital camera is configured so that a lens (33) is replaceable, and a dustproof plate (34, 54, 64) sealing the inside of the camera housing (31) is mounted between the replaceable lens and the camera housing, so that dust does not adhere to the surface of the image capture element (32) in the camera body. A digital camera according to claim 1 or 2, wherein a ventilation hole (53, 63) communicatively connected to the outside is formed in a side wall of the camera housing (51, 61), and a flexible dividing element is placed in an inner part of the camera housing which corresponds to the ventilation hole so that the pressure is different on the inside and outside of the camera body, and the pressure difference is attenuated by deflection of the visible dividing element.