JP2004163810A - Lens barrel and camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lens barrel realizing not only the thinning of a camera body but also the thinning of the lens barrel itself, and to provide a camera. <P>SOLUTION: Spring members 118 and 119 are respectively provided between two lenses constituting respective lens groups 116 and 117 incorporated in the lens barrel 110. When the lens barrel 110 is in an extended state, spaces between lenses 116a and 116b and lenses 117a and 117b are kept at predetermined intervals owing to biasing by spring members 118 and 119, and when the lens barrel 110 is in a collapsible state, the members 118 and 119 are pressed to be contracted and the lenses are housed in the camera body while they approach to each other further than the predetermined intervals. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention has a lens barrel with a built-in photographic lens that can be retracted and retracted, and captures subject light incident through the photographic lens when the lens barrel is in the extended state. And a lens barrel having a built-in photographing lens.
[0002]
[Prior art]
A camera in which the lens barrel is extended from the camera body when in use and the lens barrel is retracted in the camera body when not in use is known as a camera that is convenient to carry. In such a camera, the lens barrel needs to be thick enough to be accommodated in the camera body when the lens barrel is retracted. However, in recent years, the thinning of the camera body has spurred the need for a camera that can be stored in a pocket. In response to these needs, various efforts have been made to the retracting mechanism of the lens barrel in order to further reduce the thickness of the camera body.
[0003]
In such a camera with an emphasis on portability, many cameras are accommodated in the camera body with a length that is shorter than the length of the lens barrel when the lens barrel is extended. The distance between the lens groups built in the lens barrel is reduced, and the lens barrel is housed in the camera body (see, for example, Patent Document 1).
[0004]
There is also a detachable collapsible lens barrel that is mounted on a camera body and used (see, for example, Patent Document 2).
[0005]
The retractable lens barrel of Patent Document 2 includes a sub lens barrel in the main lens barrel, and the sub lens barrel can be retracted into the main lens barrel. The secondary lens barrel includes a plurality of lens groups, and among the lens groups, the distance between several lens groups is narrowed and the secondary lens barrel is retracted into the primary lens barrel. . On the other hand, when the secondary lens barrel is extended from the main lens barrel, the distance between the lens groups that has been narrowed is increased to a predetermined distance, and the mutual distance between the lens groups in the secondary lens barrel is predetermined. Is held by the coupling mechanism at intervals of.
[0006]
In any of the patent documents, the lens barrel is retracted using a method of narrowing the distance between the lens groups.
[0007]
[Patent Document 1]
JP-A-9-212515 [Patent Document 2]
Japanese Patent Laid-Open No. 11-38302
[Problems to be solved by the invention]
However, when the lens barrel is retracted, each of the plurality of lenses constituting each lens group is narrowed, although the distance between the plurality of lens groups constituting the photographing optical system incorporated in the lens barrel is reduced. Therefore, the camera body must be thick enough for the interval between the plurality of lenses constituting the lens group.
[0009]
In addition, each lens group is divided into a plurality of moving cylinders, the length of the moving cylinders in the feeding direction is shortened, and the moving cylinders are stacked and housed to reduce the thickness of the camera body. However, the camera body must be thick enough for the interval between the plurality of lenses constituting the lens group.
[0010]
In view of the above circumstances, an object of the present invention is to provide a lens barrel and a camera that are thin.
[0011]
[Means for Solving the Problems]
The lens barrel of the present invention that achieves the above object is a lens barrel that can be retracted and retracted, with a built-in photographic lens, in a camera that takes a picture by capturing subject light.
Two lenses adjacent to each other constituting the photographing lens, and a spring member that repels the two lenses mutually,
When the lens barrel is in the extended state, the two lenses are kept at a predetermined distance by being biased by the spring member, and when the lens barrel is in the retracted state, the two spring lenses are pushed so that the spring member contracts. And stored in a state of being closer to each other than the predetermined interval.
[0012]
According to the lens barrel of the present invention, the two lenses are brought closer to each other than the predetermined interval by compressing the spring member by using the force to retract the lens barrel. When the lens barrel is extended, the distance between the two lenses can be kept at the predetermined distance by using the biasing force of the compressed spring member. As a result, the lens barrel can be thinned, and when the lens barrel is retracted in the camera body, the camera body can be thinned.
[0013]
Here, a first lens group including two lenses adjacent to each other and a second lens group including two lenses adjacent to each other constituting the photographing lens,
A first spring member for repelling the two lenses constituting the first lens group;
A second spring member that repels the two lenses constituting the second lens group,
The two lenses constituting the first lens group and the two lenses constituting the second lens group have the first spring member and the second lens when the lens barrel is in the extended state. Each predetermined interval is maintained by the spring biasing by the spring member, and when the lens barrel is in the retracted state, the first lens group and the second lens group are the first spring member and the second spring member. It is preferable that both of them are pushed toward each other so as to contract and are stored closer to each other than the predetermined intervals.
[0014]
When in the retracted state in this way, the two adjacent lenses in the lens group are shortened by a spring member in the first lens group and the second lens group. Since the distance between the lenses of the first lens group and the second lens group is reduced, the lens barrel in which these lens groups are built is reduced in thickness and the camera. The body can be made thinner.
[0015]
Here, the two lenses may be two lenses constituting the same lens group, or may be two lenses constituting two lens groups adjacent to each other.
[0016]
When the lens barrel of the present invention is applied to a camera,
The camera has a lens barrel with a built-in photographic lens that can be retracted and retracted, and captures subject light incident through the photographic lens when the lens barrel is in the extended state. In
The lens barrel includes two adjacent lenses constituting the photographing lens, and a spring member that repels the two lenses.
When the lens barrel is in the extended state, the two lenses maintain a predetermined distance by being biased by the spring member, and when the lens barrel is in the retracted state, the two lenses are pushed so that the spring member contracts. And stored in a state of being closer to each other than the predetermined interval.
[0017]
According to the camera of the present invention, when the lens barrel is in the retracted state, the spring member is pushed so as to be contracted and stored in the camera body in a state of being closer to each other than the predetermined interval. Therefore, even if the camera body is thinner than before, the lens barrel is housed in the camera body.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[0019]
FIG. 1 is a view showing an appearance of a camera provided with a lens barrel of the present invention.
[0020]
FIG. 1A shows the camera in a state where the lens barrel is retracted and accommodated in the camera body. In the camera 100 shown in FIG. 1A, when the lens barrel is housed in the camera body 100a, a cover 101 is applied so that light does not enter the photographing optical system built in the housed lens barrel. It is done.
[0021]
A release button 102 and a power switch 103 are arranged on the upper part of the camera body 100a. In FIG. 1A, the power switch 103 is tilted to the off side.
[0022]
A finder 104 for performing framing is provided above the front of the camera body, and a flash emission window 105 is provided beside the finder 104.
[0023]
When the power switch 103 shown in FIG. 1 (a) is switched from the off side to the on side, the lens barrel 110 is extended as shown in FIG. 1 (b). At this time, the lens holding frame 114 housed on the camera body side is extended from the camera body.
[0024]
FIG. 2A is a view showing the action of the spring member when the lens barrel 110 is extended, and FIG. 2B is a view showing the action of the spring member when the lens barrel 110 is retracted.
[0025]
In the extended state of the lens barrel shown in FIG. 1 (b), the lens holding frame 114 is extended from the fixed frame 112 shown in FIG. 2 (a) and the photographing lens is arranged at each position. a) shows how the lens holding frame 114 is extended as a lens barrel and the arrangement of each lens arranged at each predetermined position is determined by a spring member.
[0026]
In the retracted state shown in FIG. 1B, the first lens group 116 and the second lens group 117 are housed inside the fixed frame 112 shown in FIG. 2B, and each lens group is further moved by a spring member. A state is shown in which each lens is housed with the interval between two lenses constituting the space narrowed.
[0027]
First, the movement of each member disposed inside the lens barrel will be briefly described with reference to FIG.
[0028]
As shown in FIG. 2A, a drive cylinder 111 is provided on the outer periphery of the lens barrel 110, and a gear part 111 a is provided on the end of the drive cylinder 111. When a rotational force is applied to the gear unit 111a from a drive unit (not shown), the drive cylinder 111 rotates.
[0029]
A fixed frame 112 is provided inside the drive cylinder 111, and the fixed frame 112 is integrally formed on the camera body side. The fixed frame 112 extends forward from the camera body side, and a mounting portion 112b is provided behind the fixed frame 112 for disposing a solid-state imaging device 120 on which an image is formed by a photographing lens. . Since the fixed frame 112 is provided with a rectilinear groove 112a, FIG. 2 is hatched so as to show the portion of the rectilinear groove 112a. Further, three sets of cam grooves 111b and 111c are provided on the inner peripheral surface side of the drive cylinder 111 so as to cross the rectilinear groove 112a, and the cam grooves 111b and 111c are provided inside the fixed frame 112. Three sets of cam pins 1141a and 1151a included in the lens holding frame to be disposed penetrate through the rectilinear groove 112a of the fixed frame and engage with each other. Here, of the three sets of cam grooves, one set is illustrated and described. The operation is the same for the latter two sets.
[0030]
As shown in FIG. 2A, the lens holding frames 114 and 115 hold two adjacent lenses 116a, 116b, 117a, and 117b, respectively, and an imaging optical system is configured by these lenses. ing. In the following description, the lens holding frame 114 side located on the object side of the lens barrel 110 is referred to as a first lens holding frame, and the two lenses 116a and 116b held by the first lens holding frame 114 are described. The lens group 116 constituted by is described as a first group lens. The lens holding frame 115 located on the camera body side is described as a second lens holding frame, and a lens group 117 composed of two lenses 117a and 117b held by the second lens holding frame 115 is designated as a first lens holding frame 115. Each is described as a second group lens.
[0031]
Note that two cam grooves formed with different inclinations are shown on the right side of FIG. 2A in order to provide a difference in the moving distance between the first lens holding frame 114 and the second lens holding frame 115. Has been. Each of the cam grooves 111b and 111c having different inclinations has a larger moving distance on the first group lens 116 side than on the second group lens side, so that the first group lens 116 is more than the second group lens 117. Is provided in order to make it closer to the camera body side. Here, the cam pins 1141a and 1151a included in the first and second lens holding frames 114 and 115 for holding the first group lens and the second group lens are respectively associated with the cam grooves 111b and 111c having different inclinations. Match. Here, since the first lens holding frame 114 side has a larger moving distance than before, the first lens holding frame side is deeply engaged with the second lens holding frame 115 side to thereby provide a spring member. It is the structure which can be shrunk.
[0032]
Since the holding mechanism is the same for both the first lens group 116 and the second lens group 117, the configuration will be described in detail mainly with the first lens group 116 side taken up. In order to distinguish the spring members provided on the first lens holding frame 114 that holds the first lens group 115 and the second lens holding frame 115 that holds the second lens group 117, the following description will be given. In FIG. 1, the spring member 118 disposed on the first holding member 114 side is referred to as a first spring member, and the spring member 119 provided on the second lens holding frame 115 side is referred to as a second spring member. To do.
[0033]
When the drive cylinder 111 rotates and the cam pins 1141a and 1151a of the lens holding members 114 and 115 move along the cam grooves 111b and 111c, respectively, the lens holding frames 114 and 115 move along the rectilinear grooves.
[0034]
The first lens holding frame 114 that holds the first lens group 116 is provided with a fixed lens frame 114a having a cam pin 1141a and a moving lens frame 114b that is slidably engaged with the fixed lens frame 114a. Yes. As shown in FIG. 2A, a single lens 116a is held on the fixed lens frame 114a side, and a single lens 116b is also held on the moving lens frame 114b side. The fixed lens frame 114a and the moving lens A spring member 118 is disposed between the frame 114b.
[0035]
The movable lens frame 114b that is slidably engaged has a structure that can be slid by the urging force of the spring member 118. For example, the structure is part of the movable lens frame 114b in the slit of the fixed frame 114a. Is engaged, and the engaging part slides in the slit, the moving lens frame 114b is pushed toward one end of the slit of the fixed frame 114a by the spring biasing force of the spring member. The momentum of the moving lens frame is stopped and held by a stopper provided on one end side thereof. Then, a predetermined interval can be provided between the lens 116a held by the fixed frame and the lens 116b held by the moving lens frame 114b.
[0036]
As described above, the first spring member 118 and the fixed lens frame 114a together with the cam mechanism determine the positions of the lenses 116a and 116b constituting the first lens group 116, and similarly the second spring member 119 and the fixed lens frame. When the positions of the lenses 117a and 117b constituting the second lens group 117 are determined by 115a, a subject image is formed on the solid-state imaging device by these lenses.
[0037]
When the lens is thus arranged at the predetermined position and the release operation is performed, the subject light incident through each lens incorporated in the lens barrel is properly imaged on the imaging surface of the solid-state imaging device 120. Is done.
[0038]
On the other hand, when the lens barrel 110 is retracted, the two lenses 116a and the second group lens constituting the first group lens in a state where the first spring member 118 and the second spring member 119 are contracted. The two lenses 116b, 117a, and 117b constituting the same are housed.
[0039]
FIG. 2B is a diagram illustrating a retracted state of the lens barrel.
[0040]
Here, as shown in FIG. 2B, the fixed lens frame 114a side of the first lens holding frame 114 is arranged on the subject side, and the fixed lens frame 115a side of the second lens holding frame 115 is set to the camera body side. The movable lens frames 114b and 115b are sandwiched between the fixed lens frames 114a and 115a and held by the fixed lens frames 114a and 115a and the movable lens frames 114b and 115b. The distance between the lenses 116b and 117b is made closer by contraction of the spring member. In this way, when the lens barrel 110 is extended, the distance between the fixed lens frame 114a and the moving lens frame 114b of the first holding member 114, the fixed lens frame 115a of the second holding member 115 and the moving lens frame 115b. Repulsive force is stored in each of the spring members 118 and 119 that work to keep the interval at a predetermined interval.
[0041]
As shown in FIG. 2B, when the first lens holding frame 114 is retracted when retracted, the drive cylinder 111 rotates in the reverse direction, so that the first lens holding frame 114 and the second lens holding frame are rotated. 115 is housed in the fixed frame 112. At this time, both the lens holding frames are housed by the cam mechanism so as to approach as much as possible, and the first spring member 118 and the second spring member are contracted and housed in the fixed frame according to the movement of the cam mechanism. The At this time, since the positions of the fixed lens frames on both sides are both regulated by the cam grooves, both moving lens frames are pushed by the fixed lens frames of both lens holding frames, and the first spring member 118 and All of the second spring members 119 are pressed against each other and contracted to form the first lens group 116, the distance between the adjacent lenses 116a and 116b, and the second lens group 117. The lenses 117a and 117b adjacent to each other are stored compactly in the camera body in a state where the distance between them is closer than a predetermined distance. By providing the spring member, the first lens holding frame and the second lens holding frame can be made as close as possible, and the distance between adjacent lenses in each lens group can be made closer. The length of the fixed frame is shorter than before, and the camera body can be stored compactly.
[0042]
When the retracted lens barrel 110 is extended, the repulsive force stored in the contracted spring member 118 starts to be released by the movement of the lens holding frame and becomes an urging force to move the lens frame. The lens 116b acting on the movable lens frame 114b and the lens 116b held by the movable lens frame moves in the right direction in the figure to be in the state of FIG. 2A.
[0043]
When the lens barrel 110 is extended from the retracted state, the moving lens frame 114b is slid while the position of the movable lens frame 114b is pushed toward the stopper 1142a at the end of the fixed lens frame by the spring biasing force of the first spring member 118. When the sliding of the movable lens frame is completed, the two lenses 116a and 116b constituting the first group lens 116 are held at a predetermined interval. The arrangement of the fixed lens frame 117 and the moving lens frame 117b is interchanged on the second group lens side, and the moving lens frame 115b slides on the fixed lens frame 115a side on the second holding frame 115 side. When a part of the sliding moving lens frame 115b comes into contact with the stopper 1152a of the fixed lens frame 115a, the moving lens frame 115b is held at the contacted position.
[0044]
The movement of each lens holding frame when the lens barrel is retracted will be described in detail with reference to FIGS. 2 (a) and 2 (b).
[0045]
When the driving cylinder 111 rotates in the opposite direction to that when it is extended and the lens holding frames 114 and 115 move to the camera body side, the distance between the first lens holding frame 114 and the second lens holding frame 115 becomes the cam groove 111b. , 111c, gradually approaching due to the difference in inclination.
[0046]
When the drive cylinder 111 further rotates, the moving lens frame 114b of the first lens holding frame 114 and the moving lens frame 115b of the second lens holding frame 115 start to contact each other. At this time, since the moving distance of the first lens holding frame 114 is larger than that of the second lens holding frame 115, the end of the moving lens frame 114a of the first lens holding frame 114 is the second lens holding frame. 115 begins to engage deeply so as to overlap the position of the end of the moving lens frame 115b.
[0047]
At this time, the spring member 118 of the first lens holding frame 114 and the spring member 119 of the second lens holding frame 115 interact to push the first lens holding frame 114 and the second lens holding frame to each other. start. Therefore, the distance between the first lens holding frame 114 and the second lens holding frame 115 is narrowed according to the movement of both the fixed lens frames 114a, including the contraction lengths of the spring members 118 and 119. When the fixed lens 115a of the second lens holding frame is held at a predetermined position by reaching a predetermined position when the cam pin of the second lens holding frame 115 is housed, the first lens holding frame 114 is reached. Since the side is still moving, the first lens holding frame 114 side starts to be deeply engaged with the second lens holding frame 115 side. Then, the distance between the first lens holding frame 114 and the second lens holding frame 115 is further narrowed by further contraction of the spring members 118 and 119. When the cam pin of the first lens holding frame 114 reaches a predetermined position, the first lens holding frame is also held at the predetermined position, and the interval between the lens groups and the fixed lens of the first lens holding frame 114 are also determined. The distance between the frame 114a and the moving lens frame 114b and the distance between the moving lens frame 115a and the fixed lens frame 115b of the second lens holding frame 115 are pressed against each other so that one of the spring members 118 and 119 is contracted. It is stored in the camera body.
[0048]
In FIG. 2B, the distance between the two lenses 116a, 116b, 117a, 117b constituting the first group lens 116 and the second group lens 117 is determined so that the spring members 118, 119 are pressed against each other. Shows a state in which the spring members 118 and 119 are contracted and stored in the camera body closer to each other than a predetermined interval.
[0049]
As described above, in addition to the mutual distance between the lens groups being narrowed by the cam mechanism, when the mutual distance between the two lenses constituting the lens group is narrowed, the distance between the lenses is made smaller than before. Stored in the camera body.
[0050]
Therefore, according to the camera of the present embodiment, the distance between the two lenses constituting the first lens group and the distance between the two lenses constituting the second lens group can be reduced, and the cam mechanism can be used well. Since the lens holding frame that holds the first lens group and the lens holding frame that holds the second lens group can be inserted deeply into the fixed frame, the length of the fixed frame can be shortened, and the camera body It becomes possible to make it thinner.
[0051]
Further, when the lens barrel is extended, the position of each photographic lens in the photographic optical system is determined by the spring biasing force and the movement of the moving lens frame that slides by the spring biasing force. Since the moving lens frame is held at the position where it is stopped, the position of the lens does not shift, and the subject image can be formed on the solid-state image sensor without any trouble with the taking lens in the lens barrel as before. it can.
[0052]
In the lens barrel shown in the present embodiment and the camera provided with the lens barrel, both the first lens group and the second lens group are composed of two lenses. However, even if each lens group has two or more lenses, the same effect can be obtained by applying the above configuration to two adjacent lenses.
[0053]
Further, in the lens barrel shown in the present embodiment and the camera provided with the lens barrel, between the two lenses constituting the first lens group and between the two lenses constituting the second group. Are provided with spring members, respectively, on the second lens group side of the two lenses of the first lens group and on the first lens group side of the two lenses of the second lens group. A spring member may be further provided between the lens. As a result, the lens barrel can be further thinned, and even if the camera body is thin, the thinned lens barrel can be stored compactly in the camera body. Also, a spring member is provided between the lens on the second lens group side of the two lenses of the first lens group and the lens on the first lens group side of the two lenses of the second lens group. The same effect can be obtained simply by providing
[0054]
In this embodiment, an example of a camera in which a lens barrel is provided and the lens barrel can be retracted is described. However, the present invention is not limited to this, and the lens barrel itself is made thinner. Therefore, the lens barrel of the present invention may be applied to an interchangeable lens barrel for a camera.
[0055]
【The invention's effect】
As described above, according to the camera of the present invention, it is possible to provide a lens barrel and a camera that realize not only thinning of the camera body but also thinning of the lens barrel itself.
[Brief description of the drawings]
FIG. 1 is a diagram showing an external appearance of a camera showing an embodiment of the present invention.
FIGS. 2A and 2B are cross-sectional views illustrating a state where the lens barrel of the camera of FIG. 1 is extended and retracted.
[Explanation of symbols]
100 Camera 110 Lens barrel 111 Drive cylinder 111a Gear portion 111b 111c Cam groove 112 Fixed frame 112a Straight advance groove 114 First lens holding frame 114a Fixed lens frame 1141a Cam pin 1142a Stopper 114b Moving lens frame 115 Second lens holding frame 115a Fixed Lens frame 1151a Cam pin 1152a Stopper 115b Moving lens frame 116 First lens group 116a 116b Lens 117 Second lens group 117a 117b Lens 118 First spring member 119 Second spring member 120 Fixed imaging device

Claims (3)

In a lens barrel with a built-in photographic lens that can shoot by capturing subject light, and a retractable lens barrel,
Two adjacent lenses constituting the photographing lens, and a spring member that repels the two lenses,
When the lens barrel is in the extended state, the two lenses are kept at a predetermined distance by the spring biased by the spring member, and when the lens barrel is in the retracted state, the two lens lenses are pushed so that the spring member contracts. And a lens barrel that is housed in a state of being closer to each other than the predetermined interval. A first lens group including two lenses adjacent to each other and a second lens group including two lenses adjacent to each other constituting the photographing lens;
A first spring member for repelling the two lenses constituting the first lens group;
A second spring member that repels the two lenses constituting the second lens group,
The two lenses constituting the first lens group and the two lenses constituting the second lens group, when the lens barrel is in the extended state, the first spring member and the second lens Each predetermined interval is maintained by spring urging by a spring member, and when the lens barrel is in a retracted state, the first lens group and the second lens group are the first spring member and the second spring member. 2. The lens barrel according to claim 1, wherein the lens barrels are pushed toward each other so as to contract and are stored closer to each other than the predetermined intervals. In a camera having a built-in photographic lens, a retractable lens barrel, and taking a picture by capturing subject light incident through the photographic lens when the lens barrel is in the extended state,
The lens barrel includes two adjacent lenses constituting the photographing lens, and a spring member that repels the two lenses.
When the lens barrel is in the extended state, the two lenses are kept at a predetermined distance by the spring biased by the spring member, and when the lens barrel is in the retracted state, the two lenses are pushed so that the spring member contracts. And the camera is stored in a state of being closer to each other than the predetermined interval.

Images