JP4406487B2 - camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera including a flexible electrical connector such as a flexible printed circuit board that electrically connects a camera body and a portion such as a shutter unit drawn out from the camera body.
[0002]
[Prior art]
Conventionally, as shown in FIGS. 5 and 6, in the zoom type camera 100 in which the shutter unit 7 is extended as the lens group 5 is extended (the shutter unit 7 moves back and forth as the lens group moves back and forth), The shutter unit 7 and the control circuit on the camera body 200 side are electrically connected using the flexible printed circuit board 10.
The required length of the flexible printed circuit board 10 is different between when the shutter unit 7 is stored and when the shutter unit 7 is retracted, but the length of the flexible printed circuit board 10 is adjusted according to the extended time when the required length is maximized. It is desirable that the flexible printed circuit board 10 is configured so that no slack is generated during storage when the required length is small.
[0003]
As shown in FIG. 5 and FIG. 6, as well known as a configuration in which the flexible printed circuit board 10 is not slackened, as shown in FIGS. 5 and 6, the fixed roller 101 and the fixed roller 101 The flexible printed circuit board 10 having one end fixed to the shutter unit 7 is hung on the fixed roller 101 and the movable roller 102, respectively. Then, the other end is fixed to the camera body 200. Therefore, the flexible printed circuit board 10 always receives a predetermined urging force from the movable roller 102.
When the shutter unit 7 is housed in the camera body 200, the movable roller 102 moves away from the fixed roller 101 while pulling the flexible printed circuit board 10, and when the shutter unit 7 is extended from the camera body 200, the flexible print By pulling out the substrate 10 while pulling the movable roller 102, the flexible printed circuit board 10 is not always slackened.
[0004]
[Problems to be solved by the invention]
However, in the above-described conventional technique, since the urging force of the spring 103 is constantly acting on the flexible printed circuit board 10 via the movable roller 101, the flexible printed circuit board 10 is constantly stressed. Yes.
Therefore, there is a problem that there is a possibility that the flexible printed circuit board 10 may be adversely affected, and there is a problem that a fixing part for fixing the flexible printed circuit board 10 to the shutter unit 7 and the camera body 2 needs to be strong.
In addition, since the force acting on the flexible printed circuit board 10 is also transmitted to the shutter unit 7 itself (as a force acting in the direction of distorting the optical axis), if it is not made strong enough to prevent the optical axis from shifting, There was also a problem that it could be a factor that adversely affects the shooting performance.
Since the biasing force of the spring increases as the feeding amount of the shutter unit 7 (difference between storing and feeding) increases, the problem due to the force acting on the flexible printed circuit board 10 becomes more serious. On the contrary, if the spring constant is set small to prevent this problem, the spring 103 will be enlarged if the allowable stress of the spring 103 has no margin, and the space efficiency will be deteriorated.
Moreover, in the conventional configuration described above, the number of parts such as the spring, the two rollers 101 and 102, and the roller shaft increases, and this causes an increase in cost. There is also a problem that it is difficult to secure a necessary space for the rollers 101 and 102.
[0005]
Therefore, the object of the present invention is not to apply extra stress to an electrical connector such as a flexible printed circuit board that electrically connects the camera body and a portion that moves relative to the camera body such as a shutter unit, The object is to provide a compact and inexpensive camera.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present invention
A camera body, a movable cylinder movable back and forth with respect to the camera body, a rotating cylinder for moving the movable cylinder back and forth with respect to the camera body by rotating with respect to the camera body, and the movable cylinder A flexible electrical connector that electrically connects the camera body to the camera body, a direction that relieves tension generated in the electrical connector as the movable barrel moves, and the electrical connector A connector guide that moves in a direction that prevents loosening, and
The connection tool guide is connected to the guide roller through which the electrical connection tool is hung so as to form a bent portion, and the guide roller via the connection tool. And a connecting tool guide having a guide portion for guiding the connecting tool,
Helicoids that move the driven body back and forth by the rotation of the rotating cylinder are provided on the outer peripheral part of the rotating cylinder and the inner peripheral part of the driven body so as to engage with each other .
The amount of movement of the driven body accompanying the rotation of the rotating cylinder is substantially equal to the amount of movement of the bent portion, which is a portion of the electrical connection tool that is applied to the guide roller, as the moving cylinder is moved. , The shape of the helicoid of the rotating cylinder is set ,
The electrical connector is hung so as to form a bent portion that is folded back in a substantially U shape along the outer periphery of the guide roller,
The driven body is provided to be movable back and forth with respect to the camera body,
The amount of movement of the driven body is about half of the amount of movement of the movable barrel relative to the camera body .
[0007]
According to the present invention, for example, it is not necessary to have a configuration in which an electrical connection tool such as a flexible printed board is pulled by an urging means such as a spring as in the conventional configuration. Since it is possible to prevent excessive stress based on the force from acting (tension is generated), it is possible to prevent adverse effects on the electrical connector, and to connect the electrical connector to the movable cylinder (for example, a shutter unit). In addition, it is not necessary to take a fixed portion that is fixed to the camera body and to make it sturdy. In addition, since an urging means such as a spring is not required and two rollers are not required, space saving and cost reduction can be achieved.
[0008]
Here, the movable barrel, the rearward movement relative to the camera body, and operation of the movable cylinder is extended from the camera body, an operation of the movable cylinder in the reverse is accommodated into the camera body. The electrical connection tool is, for example, a flexible printed board. Furthermore, fitting guide may, for example, a driven body, the electrical connector is provided integrally with the driven body is subjected to the second engagement portion of the rotary sleeve is moved by the rotation of the engaged rotary sleeve And a cylindrical body (roller or the like). When the movable tube moves in the direction in which the movable tube is drawn out from the camera body, the connector guide moves in a direction to relieve the tension to be generated in the electrical connector, and conversely, the movable tube moves to the camera body. When moving in the direction in which the electric connector is stored, the electric connector is moved in a direction that prevents loosening.
[0015]
Further, the present invention is the camera described above , wherein the moving cylinder includes a shutter unit 7 having a shutter and a lens (lens group 5), and the electrical connector includes the shutter unit and the camera. The flexible printed circuit board is electrically connected to the main body.
[0016]
According to the present invention , the movable cylinder includes a shutter unit having a shutter, and the electrical connector is a flexible printed circuit board that electrically connects the shutter unit and the camera body. realizable. Further, since the movable cylinder includes a lens group, it is possible to prevent a force from being applied to the movable cylinder in a direction that distorts the optical axis of the lens.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments according to the present invention will be described below with reference to the drawings.
As shown in FIG. 1 and the like, a camera 1 illustrated as an example of a camera according to the present invention is of a zoom type, and a motor (not shown) is operated by operating an operation button (not shown) provided on the camera 1. When driven, the movable cylinder (moving unit) 3 having the lens group 5 moves back and forth with respect to the camera body 2 to move from wide (minimum magnification; state shown in FIG. 2) to tele (maximum magnification; state shown in FIG. 1). The magnification can be set up to.
[0018]
The mechanism for moving the moving cylinder 3 back and forth is as follows in detail.
First, a rotating cylinder (rotating unit) 4 that is rotatable with respect to the camera body 2 is provided in the camera body 2. The rotating cylinder 4 is rotated via a gear or the like (not shown) based on driving of the motor (not shown).
The rotating cylinder 4 and the moving cylinder 3 both have a substantially cylindrical shape, and the inner peripheral portion of the rotating cylinder 4 and the outer peripheral portion of the moving cylinder 3 are engaged with helicoids (first One engaging portion) 4a and a helicoid (first engaged portion) 3a are formed.
Then, as the rotating cylinder 4 rotates in one direction around its axis, the engagement state of the helicoid 4a with the helicoid 3a changes, so that the moving cylinder 3 extends to the front of the camera body 2. Similarly, when the rotating cylinder 4 is rotated in the other direction around its axis, the moving cylinder 3 is stored in the rear part of the camera body 2 (see the state shown in FIGS. 1 and 3A). It is the structure which operate | moves in the direction (state shown to (b) of FIG. 2, FIG. 3).
[0019]
As shown in FIGS. 1 and 2, a shutter unit 7 having a shutter (not shown) is provided integrally with the moving cylinder 3 inside the moving cylinder 3. The shutter is driven based on a command from a control circuit (not shown) provided in the camera body 2, but the movable cylinder 3 is configured to move back and forth with respect to the camera body 2 as described above. Therefore, the shutter and the control circuit are electrically connected by a flexible flexible printed circuit board (electrical connection tool) 10.
[0020]
Furthermore, when the movable cylinder 3 moves back and forth inside the camera body 2, the flexible printed circuit board 10 is guided to cause slack in the flexible printed circuit board 10 or stress on the flexible printed circuit board 10 (tension). A connector guide 30 is provided to prevent the occurrence of
As shown in FIGS. 1 to 4, the connecting tool guide 30 is connected to the guide roller 31 via a cylindrical guide roller 31 that guides the flexible printed circuit board 10 and a connecting tool 33, and the rotating cylinder 4. And a driven body 32 that moves back and forth with the guide roller 31. The guide roller 31 is provided with respect to the coupler 33 so as to be rotatable about a rotation shaft 31a.
[0021]
As shown in FIGS. 1 and 2, one end of the flexible printed board 10 is fixed to the fixing portion 7 a of the shutter unit 7, and then extends to the rear side of the camera body 2 along the inner periphery of the movable cylinder 3. The camera body 2 is placed on the sliding surface 2a having a curved surface provided in the vicinity of the rear portion of the camera body 2 and folded back along the sliding surface 2a. It extends toward the front and is hung on the guide roller 31 of the connector guide 30. Further, the flexible printed board 10 is folded along the outer peripheral surface of the guide roller 31 and passes through the through hole 2b of the camera body 2, and then the flexible printed board 10 is fixed to the fixing portion 2c of the camera body 2 in the middle thereof. It is fixed against. Further, after the flexible printed board 10 has passed through the through hole 2 d of the camera body 2, the other end of the flexible printed board 10 is fixed to the fixing portion 2 e of the camera body 2.
Here, the flexible printed circuit board 10 is sufficiently arranged so that no slack occurs in the flexible printed circuit board 10 and stress is not applied to the flexible printed circuit board 10 (no tension is generated).
[0022]
The flexible printed circuit board 10 tends to loosen when the moving cylinder 3 moves toward the rear of the camera body 2, and conversely, when the moving cylinder 3 moves toward the front of the camera body 2, the shutter unit 7 is pulled out together with the movable cylinder 3 by being pulled by the fixed portion 7a (successful pawl).
At this time, in the camera according to the present invention, it is possible to prevent the flexible printed circuit board 10 from being slackened or stress applied to the flexible printed circuit board 10 by providing a moving mechanism of the connector guide 30 described below. It has become.
[0023]
First, a helicoid (second engaging portion) 4b (see FIG. 3) and a helicoid (second engaged portion) that are engaged with each other on the outer peripheral portion of the rotating cylinder 4 and the inner peripheral portion of the driven body 32. 32a is formed.
Then, as the rotating cylinder 4 rotates in one direction about its axis, the engagement state of the helicoid 4b with the helicoid 32a changes, so that the driven body 32 moves to the rear part of the camera body 2. (The state shown in FIGS. 1 and 3 (a) and FIG. 4 (a)). At this time, the guide roller 31 and the connecting tool 33 are moved together with the driven body 32 (that is, the entire connecting tool guide 30 is moved).
[0024]
Here, the camera body 2 is provided with a connector guide 34 having a guide portion (for example, a long hole as shown) 34 a for guiding the connector 33 of the connector guide 30. The connector 33 is fitted in the guide portion 34a and can be moved back and forth along the longitudinal direction of the guide portion 34a. Therefore, the back-and-forth movement of the connection tool guide 30 accompanying the rotation of the rotating cylinder 4 is along the guide portion 34a.
[0025]
Further, when the rotating cylinder 4 rotates in the other direction around the axis, the engagement state of the helicoid 4b with the helicoid 32a changes, so that the entire connector guide 30 is guided to the front portion of the camera body 2. It is moved along the part 34a (the state shown in FIGS. 2, 3 (b) and 4 (b)).
[0026]
That is, when the rotating cylinder 4 rotates in one direction, the movable cylinder 3 is extended to the front of the camera body 2, and the flexible printed circuit board 10 is also extended along with the movable cylinder 3. At this time, the guide roller 31 of the connector guide 30 moves to the rear of the camera body 2 in synchronism with the movement of the movable barrel 3. 10 is prevented from being stressed. When the rotating cylinder 4 rotates in the other direction, the flexible printed circuit board 10 tries to loosen by moving the moving cylinder 3 toward the rear portion of the camera body 2. Since the guide roller 31 of the tool guide 30 moves toward the front portion of the camera body 2 in synchronization with the movement of the moving cylinder, the guide roller 31 prevents the flexible printed circuit board 10 from being loosened.
Note that the guide roller 31 is appropriately rotated about the rotation shaft 31 a by friction with the flexible printed circuit board 10.
[0027]
Furthermore, in the configuration of the present invention, the amount of movement of the connection tool guide 30 accompanying the rotation of the rotating cylinder 4 is the bending portion 10a of the flexible printed circuit board 10 (of the flexible printed circuit board 10 among the flexible printed circuit boards 10). The helicoid 4a of the rotating cylinder 4, the helicoid 3a of the moving cylinder, the helicoid 4b of the rotating cylinder, and the driven body 32 so that the amount of the portion of the connecting tool guide 30 on the guide roller 31 is approximately equal to the amount of movement. The shape of the helicoid 32a is set.
Accordingly, the guide roller 31 moves so that the guide roller 31 of the connector guide 30 is always in contact with the bent portion 10a of the flexible printed circuit board 10 with a slight constant force, so that the flexible printed circuit board 10 is loosened. Can be reliably prevented, and stress can be reliably prevented from being applied to the flexible printed circuit board 10.
[0028]
As described above, according to the camera 1 of the present invention, the movement of the connector guide 30 accompanying the movement of the movable barrel 3 is caused by the rotation of the pivot barrel 4 in the helicoid 4b of the pivot barrel 4. Since the engagement state of the connection tool guide 30 to the helicoid 32a of the driven body 32 is changed, it is not necessary to have a configuration in which the flexible printed circuit board 10 is pulled by a biasing means such as a spring as in the conventional configuration. Therefore, it is possible to prevent excessive stress based on the biasing force of the spring from acting on the flexible printed circuit board 10. Therefore, it is possible to prevent the flexible printed circuit board 10 from being adversely affected, and to fix the flexible printed circuit board 10 to the fixed part 7a of the shutter unit 7 of the moving cylinder and the fixed parts 2c and 2e of the camera body 2 to be strong. There is no need to
In addition, an urging means such as a spring is not required, and two rollers are not required as in the conventional configuration, and only one roller is required, so the number of parts can be reduced and space can be saved. At the same time, the cost can be reduced.
[0029]
Furthermore, since the guide roller 31 of the connector guide 30 moves by a distance approximately equal to the distance to which the bent portion 10a of the flexible printed circuit board 10 moves as the movable cylinder 3 moves, the flexible printed circuit board is slack. This can always be prevented and stress can be reliably prevented from being applied to the flexible printed circuit board 10.
[0030]
In addition, since the movable cylinder 3 includes the lens group 5, it is possible to prevent a force from being applied to the movable cylinder 3 in a direction that distorts the optical axis of the lens based on an urging force of a spring or the like. It is possible to prevent adverse effects.
[0031]
In the above embodiment, the helicoids 4a, 4b, 3a, and 32a are used to move the movable body 3 and the driven body 32 of the connector guide 30 as the rotating cylinder 4 rotates. However, the movable cylinder 3 and the driven body 32 of the connector guide 30 may be moved with the rotation of the rotating cylinder 4 using the cam and the cam groove with which the cam is engaged.
In addition, the flexible printed circuit board 10 is folded along the curved sliding surface 2a so that two rollers are not required, and the number of parts can be reduced and the space can be saved. In some cases, a roller may be used instead of the sliding surface 2a.
[0032]
【The invention's effect】
According to the camera according to the present invention, the extra stress based on the biasing force of the spring to the Electrical connector can be prevented from being applied. In addition, since the number of parts can be reduced, space can be saved and costs can be reduced.
[0033]
Further , according to the camera of the present invention , the movable cylinder can be moved back and forth with respect to the camera body by a helicoid or cam, and the connector guide can be moved back and forth by the helicoid or cam. The invention of claim 1 can be suitably realized.
[0034]
In addition, according to the camera of the present invention , the connecting tool guide moves by a distance approximately equal to the distance at which the bent portion of the electrical connecting tool tries to move with the movement of the movable cylinder. It is possible to reliably prevent the slack from occurring and to reliably prevent stress from being applied to the electrical connector.
[0035]
Further , according to the camera of the present invention , the moving cylinder includes a shutter unit having a shutter, and the electrical connection tool is a flexible printed circuit board that electrically connects the shutter unit and the camera body. The configuration of the present invention can be realized. In addition, since the movable cylinder includes a lens group, it is possible to prevent a force from being applied to the movable cylinder in a direction that distorts the optical axis of the lens, and it is possible to prevent adverse effects on photographing performance.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a camera according to the present invention when a moving cylinder is extended.
FIG. 2 is a cross-sectional view showing the camera according to the present invention when the moving cylinder is stored.
FIGS. 3A and 3B are perspective views showing the main part of the camera according to the present invention, in which FIG. 3A shows when the moving cylinder is extended, and FIG. 3B shows when the moving cylinder is stored. Is.
FIG. 4 is a schematic diagram for explaining the main part of the camera according to the present invention relating to the storing and feeding operation, in which (a) shows the time when the movable barrel is drawn, (b) Indicates the storage of the moving cylinder.
FIG. 5 is a cross-sectional view showing a conventional camera when the shutter unit is extended.
FIG. 6 is a cross-sectional view of a conventional camera when the shutter unit is housed.
[Explanation of symbols]
1 Camera 2 Camera body 3 Moving cylinder (moving part)
3a helicoid (first engaged part)
4 Rotating cylinder (rotating part)
4a Helicoid (first engaging part)
4b Helicoid (second engaging part)
5 Lens group (lens)
7 Shutter unit 10 Flexible printed circuit board (flexible electrical connector)
10a bent portion 30 connector guide 31 guide roller (constitutes a connector guide)
32 Driven object (constituting the connector guide)
32a helicoid (second engaged part)
33 connector (constitutes a connector guide)

Claims (2)

The camera body,
A movable cylinder that can move back and forth with respect to the camera body;
A rotating cylinder for moving the moving cylinder back and forth with respect to the camera body by rotating with respect to the camera body;
A flexible electrical connector for electrically connecting the movable barrel and the camera body;
A connector guide that moves in a direction that relaxes the tension generated in the electrical connector along with the movement of the movable barrel and a direction that prevents loosening of the electrical connector;
The connection tool guide is connected to the guide roller through which the electrical connection tool is hung so as to form a bent portion, and the guide roller via the connection tool. And a connecting tool guide having a guide portion for guiding the connecting tool,
Helicoids that move the driven body back and forth by the rotation of the rotating cylinder are provided on the outer peripheral part of the rotating cylinder and the inner peripheral part of the driven body so as to engage with each other .
The amount of movement of the driven body accompanying the rotation of the rotating cylinder is substantially equal to the amount of movement of the bent portion, which is a portion of the electrical connection tool that is applied to the guide roller, as the moving cylinder is moved. , The shape of the helicoid of the rotating cylinder is set ,
The electrical connector is hung so as to form a bent portion that is folded back in a substantially U shape along the outer periphery of the guide roller,
The driven body is provided to be movable back and forth with respect to the camera body,
The camera is characterized in that the amount of movement of the driven body is about half of the amount of movement of the movable barrel relative to the camera body . 2. The camera according to claim 1 , wherein the movable cylinder includes a shutter unit having a shutter and a lens, and the electrical connector is a flexible print that electrically connects the shutter unit and the camera body. 3. A camera characterized by being a substrate.

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