JP2004264511A - Lens barrel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To securely prevent barrier blades from slightly being open when a barrier mechanism is to be closed by advancing the end timing of closing operation of the barrier mechanism although a lens barrel is made more small-sized in a collapse state. <P>SOLUTION: A 2nd interlocking part 2 is provided with a linear part 2b which is nearly parallel to a moving direction and then the movement quantity of the 2nd interlocking part 2 can be adjusted, so that the end timing of closing operation of the barrier mechanism 30 can be advanced (in other words, the start timing of opening operation of the barrier mechanism 30 can be delayed) without varying angles of slopes 1a and 2a. Therefore, even when the barrier mechanism 30 to be closed passes a PI reset position, the barrier mechanism 30 is in a closed state, so barrier blades 31 to 34 can securely be prevented from slightly being open. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lens barrel of a camera having a barrier mechanism for protecting a lens.
[0002]
[Prior art]
Some lens barrels of a camera include a barrier mechanism for protecting a lens, as disclosed in Patent Document 1, for example.
[0003]
This barrier mechanism is provided outside the first lens group and at the tip of the cylindrical frame for the first lens group. In the barrier mechanism, two pairs of barrier blades are provided so as to be openable and closable, and these two pairs of barrier blades are constantly biased in a closing direction by a blade spring having a lower biasing force than a ring spring described later.
[0004]
In the barrier mechanism, a barrier ring for driving these two pairs of barrier blades is provided so as to be rotatable around the optical axis, and is always opened by a ring spring having a stronger biasing force than the blade spring. It is energized.
[0005]
Therefore, when the barrier ring is rotated in one direction by the biasing force, the two pairs of blades are opened, while when the barrier ring is rotated in the other direction against the biasing force, two pairs of blades are opened. Blades are in a closed state.
[0006]
In Patent Document 1, a barrier motor of a lens barrel driving mechanism is used to rotate the barrier ring to open and close a barrier blade of the barrier mechanism.
[0007]
In the example shown in FIG. 8, the first interlocking unit 1 projects from the barrier ring toward the camera, and the second interlocking unit 2 projects from the key tubular frame on the camera side toward the subject. is there. The first interlocking section 1 and the second interlocking section 2 are formed with a pair of inclined surfaces 1a and 2a that slide with respect to each other.
[0008]
Thus, when the first interlocking unit 1 and the second interlocking unit 2 are relatively separated from each other, the first interlocking unit 1 slides the slope 1a with respect to the slope 2a of the second The barrier spring is rotated by the urging force of the spring for rotating the barrier ring to open the barrier mechanism.
[0009]
On the other hand, when the first interlocking unit 1 and the second interlocking unit 2 relatively approach each other, the first interlocking unit 1 slides the slope 1 a with respect to the slope 2 a of the second interlocking unit 2 while using the ring. It turns against the urging force of the spring, turns the barrier ring, and closes the barrier mechanism.
[0010]
Further, the control of the rotating cylindrical frame in the lens barrel detects the flange portion thereof with a photo interrupter and detects the absolute position of the lens barrel. That is, at the PI reset position, the flange portion shields the light emission center of the photointerrupter, thereby performing Hi-Lo detection and detecting the absolute position of the lens barrel.
[0011]
[Patent Document 1]
JP-A-7-20536
[Problems to be solved by the invention]
By the way, the rotating tubular frame in the lens barrel is driven to rotate by the shape of the cam of the fixed tubular frame. However, in recent years, miniaturization of the lens barrel when retracted has progressed, and the inclination of the cam is tight. As a result, the PI reset position of the photo-interrupter is becoming faster. Further, when the lens unit is moved in the optical axis direction by adjusting the lens, the opening / closing timing of the barrier may become strict.
[0013]
Specifically, as shown in FIG. 8, at the time of collapse, the first interlocking portion 1 of the barrier ring is in contact with the second interlocking portion 2 of the key cylindrical frame, but the PI reset position of the photo interrupter is earlier. It has become to.
[0014]
For example, when the barrier mechanism is opened, such as when the power of the camera is turned on, the first interlocking unit 1 moves toward the subject so as to be relatively separated from the second interlocking unit 2.
[0015]
As a result, the first interlocking unit 1 is gradually rotated by the slopes 1a and 2a under the urging force of the ring spring, and starts the opening operation just before the PI (photo interrupter) reset position, and starts the PI reset position. , The opening operation is terminated, and the barrier mechanism enters the open state.
[0016]
On the other hand, when the barrier mechanism is closed, for example, when the power of the camera is turned off, the second interlocking unit 2 and the first interlocking unit 1 move toward the camera so as to be relatively close to each other.
[0017]
As a result, the first interlocking section 1 rotates interlockingly with the slopes 1a and 2a while resisting the urging force of the ring spring, starts the closing operation before the PI reset position, and shifts the PI reset position. After the passage, the closing operation ends, and the barrier mechanism enters the closed state.
[0018]
From the above, at the PI reset position, although the opening / closing operation is being performed, the barrier mechanism is slightly opened because the slope 1a of the first interlocking portion 1 exceeds the center line as illustrated. I have.
[0019]
Also, when the power is off and the lens barrel moves from the wide side to the collapsible side to close the barrier mechanism, the PI reset position resets the electrical signal in the lens barrel extension direction and then moves to the copper state. 8, the electric signal is reset by reciprocating the rotating cylindrical frame at the PI reset position, as shown in FIG.
[0020]
Therefore, when the rotary tubular frame reciprocates at the PI reset position while closing the barrier mechanism, the barrier mechanism opens and closes so as to open slightly, and the barrier blades appear to be thin and open, It may be undesirable in appearance.
[0021]
As such a countermeasure, it is conceivable that the barrier mechanism is opened and closed on the photographing position side from the PI reset position. That is, it is conceivable that the timing at which the barrier closing operation ends is earlier than the PI reset position (in other words, the timing at which the barrier opening operation starts is later than the PI reset position).
[0022]
However, in the example of FIG. 8, the pair of slopes of the first and second interlocking portions are uniformly changed, and the amount of rotation of the first interlocking portion is proportional to the amount of movement of the second interlocking portion. Therefore, if the timing to end the closing operation of the barrier is to be advanced (in other words, the timing to start the opening operation of the barrier is to be delayed), the slope angle is changed and the slope is laid down, thereby lowering the operation efficiency. Sometimes.
[0023]
The present invention has been made in view of the above-described circumstances, and does not change the angle of the slope (that is, lowers the operation efficiency) even when the size of the lens barrel is reduced when the lens barrel is collapsed. Without delay), the barrier blade closes the barrier mechanism by closing the barrier mechanism earlier (in other words, delaying the start of the barrier mechanism opening operation). An object of the present invention is to provide a lens barrel capable of reliably preventing the lens barrel from being opened.
[0024]
[Means for Solving the Problems]
In order to achieve the above object, the lens barrel according to claim 1 of the present invention is configured such that the first interlocking portion provided on the barrier mechanism and the second interlocking portion provided on one cylindrical frame interlock with each other. In a lens barrel that moves relatively in the optical axis direction to open and close the barrier mechanism,
A non-interlocking section is provided in a section where the first interlocking section and the second interlocking section interlock.
[0025]
Further, in the lens barrel according to claim 2, in claim 1, the first interlocking section and the second interlocking section each have a pair of inclined surfaces that slide and interlock with each other as an interlocking section. ,
The non-interlocking section is formed in one of the interlocking portions in a linear shape substantially parallel to the moving direction.
[0026]
Further, the lens barrel according to claim 3 moves relatively in the optical axis direction while the first interlocking portion provided in the barrier mechanism and the second interlocking portion provided in one cylindrical frame interlock. To open and close the barrier mechanism,
In a lens barrel that detects an absolute position of a lens barrel when a predetermined reference cylindrical frame passes through a reference position and switches an electric signal at the reference position,
The opening and closing operation of the barrier mechanism is performed on the photographing position side from the reference position.
[0027]
Further, in the lens barrel according to a fourth aspect, in the third aspect, at the reference position, the barrier mechanism is in a closed state.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a lens barrel according to an embodiment of the present invention will be described with reference to the drawings.
[0029]
FIG. 1 is a longitudinal sectional view of a lens barrel according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of the lens barrel shown in FIG. FIG. 3 is an exploded perspective view of the rotary tubular frame and the key tubular frame shown in FIG. FIG. 4A is a development view of a cam groove of the fixed tubular frame, and FIG. 4B is a development view of a cam groove of the rotating tubular frame. FIG. 5 is an exploded perspective view of the barrier mechanism. FIG. 6A is a view of the barrier mechanism in a closed state, and FIG. 6B is a view of the barrier mechanism in an open state. FIG. 7 is a timing chart of the lens barrel according to the embodiment of the present invention.
[0030]
As shown in FIGS. 1 and 2, a fixed cylindrical frame 4 is provided on the pedestal 3, and a rotating cylindrical frame 5 is provided on the inner diameter side of the fixed cylindrical frame 4. The rotary tubular frame 5 has a cam follower 5a that engages with a cam groove 4a (FIG. 4) formed on the inner peripheral surface of the fixed tubular frame 4. The rotary cylindrical frame 5 has a gear portion 5b on its outer peripheral surface, and the gear portion 5b is meshed with a plurality of reduction gear trains (not shown) driven by an electric motor (not shown). . Therefore, the rotating tubular frame 5 can move straight by engaging the cam follower 5 a with the cam groove 4 a of the fixed tubular frame 4 while being rotated by the electric motor.
[0031]
A key cylindrical frame 7 is provided on the inner diameter side of the rotary cylindrical frame 5. The key tubular frame 7 has a flange 7a that engages with the rectilinear groove 4b (FIG. 4) of the fixed tubular frame 4, and is non-rotatable and can only move linearly. The key tubular frame 7 is attached to the groove 5c of the rotary tubular frame 5 by snap fitting with a claw 7b. Therefore, when the rotary tubular frame 5 moves straight while rotating, the key tubular frame 7 moves straight together with the rotary tubular frame 5 while not rotating.
[0032]
In the hole 7c of the key cylindrical frame 7, a second interlocking portion 2 for opening and closing a barrier mechanism 30 described later is attached by snap fitting.
[0033]
A rectilinear tubular frame 8 is provided on the inner diameter side of the key tubular frame 7. The rectilinear tubular frame 8 has a cam follower 8a that engages with a cam groove 5e (FIG. 4) formed on the inner peripheral surface of the rotary tubular frame 5. Therefore, when the rotary tubular frame 5 rotates, the rectilinear tubular frame 8 can move straight by engaging the cam follower 8a with the cam groove 5e of the rotary tubular frame 5. A first lens group 9 is incorporated on the inner diameter side of the rectilinear cylindrical frame 8.
[0034]
A second lens group frame 10 is provided on the inner diameter side of the key cylindrical frame 7. The second lens group frame 10 has a cam follower 10a that engages with a cam groove 5f (FIG. 4) formed on the inner peripheral surface of the rotary cylindrical frame 5. Therefore, when the rotary cylindrical frame 5 rotates, the second lens group frame 10 can move straight by engaging the cam follower 10a with the cam groove 5f of the rotary cylindrical frame 5.
[0035]
In the control of the rotary cylindrical frame 5, the photo interrupter 20 detects the flange portion 5d to detect the absolute position of the lens barrel. That is, at the PI reset position, the flange portion 5d shields the light emission center 20a of the photo interrupter 20, thereby performing Hi-Lo detection and detecting the absolute position of the lens barrel. At the same time, the zoom position of the lens barrel is determined by detecting the number of pulses of the electric motor.
[0036]
Further, this is a sequence in which the electric signal is reset at the PI reset position and then the copper signal is set. As shown in FIG. 7, the electric signal is reset by reciprocating the rotary tubular frame 5 at the PI reset position. are doing.
[0037]
A barrier mechanism 30 for protecting the lens is provided at the tip of the rectilinear tubular frame 8. As shown in FIG. 5, in the barrier mechanism 30, two pairs of barrier blades 31, 32, 33, and 34 are provided so as to be openable and closable. Are provided, and a holding plate 36 and a barrier ring 37 are provided on the camera side. A claw 36a formed on the holding plate 36 is inserted into a hole 35a formed on the front decorative ring 35, and is attached by snap fitting.
[0038]
The pair of barrier blades 31 and 32 have holes 31a and 32a that are fitted to pivots (not shown) formed in the front decoration ring 35, whereby the pair of barrier blades 31 and 32 swing around the pivots. It is free to move.
[0039]
The other pair of barrier blades 33 and 34 also have holes 33a and 34a that fit into pivots (not shown) formed in the front decorative ring 35, so that the pair of barrier blades 33 and 34 move around the pivots. It can swing freely.
[0040]
The driving-side barrier blade 31 has an interlocking shaft 31b. The interlocking shaft 31b engages with the notch portion 32b of the driven-side barrier blade 32 and then engages with the engaging portion 37a of the barrier ring 37. Have been combined. Thus, when the barrier ring 37 rotates and the driving-side barrier blade 31 opens and closes, the driven-side barrier blade 32 also opens and closes in conjunction. Further, a blade spring 38 (FIG. 6) that constantly urges the blade in the closing direction is locked to the hook portion 31c formed on the barrier blade 31.
[0041]
The driving-side barrier blade 33 also has an interlocking shaft 33b. The interlocking shaft 33b engages with the notch portion 34b of the driven-side barrier blade 34 and then engages with the engaging portion 37b of the barrier ring 37. It is. Accordingly, when the barrier ring 37 rotates and the driving-side barrier blade 33 opens and closes, the driven-side barrier blade 34 also opens and closes in conjunction with it. Further, a blade spring 38 (FIG. 6) which constantly urges the blade in the closing direction is locked to the hook portion 33c formed on the barrier blade 33.
[0042]
The barrier ring 37 is constantly urged in a direction in which the blades are opened by a ring spring 39 (FIG. 6) having a stronger urging force than the blade springs 38. Accordingly, as shown in FIG. 6B, when the barrier ring 37 is rotated in one direction by the urging force, the two pairs of blades 31 to 34 are opened and retracted from the opening window 40. On the other hand, as shown in FIG. 6A, when the barrier ring 37 is rotated in the other direction against the urging force, the two pairs of blades 31 to 34 are in a closed state. .
[0043]
Further, in the present embodiment, the first interlocking portion 1 projects from the barrier ring 37 toward the camera. The second interlocking part 2 is attached to the hole 7c of the key cylindrical frame 7 by snap fitting, and protrudes toward the subject. The first interlocking section 1 and the second interlocking section 2 are formed with a pair of inclined surfaces 1a and 2a that slide with respect to each other.
[0044]
Thus, when the first interlocking unit 1 and the second interlocking unit 2 are relatively separated from each other, the first interlocking unit 1 slides the slope 1a with respect to the slope 2a of the second The barrier mechanism 30 is opened by rotating by the urging force of the use spring 39 and rotating the barrier ring 37.
[0045]
On the other hand, when the first interlocking unit 1 and the second interlocking unit 2 relatively approach each other, the first interlocking unit 1 slides the slope 1 a with respect to the slope 2 a of the second interlocking unit 2 while using the ring. It turns against the urging force of the spring 39, turns the barrier ring 37, and closes the barrier mechanism 30.
[0046]
Further, in the present embodiment, a linear portion 2b substantially parallel to the moving direction is formed on a part of the slope 2a of the second interlocking portion 2. That is, in addition to the interlocking section by the slopes 1a and 2a, a non-interlocking section of the linear portion 2b is provided.
[0047]
By the way, as shown in FIG. 8, at the time of collapse, the first interlocking portion 1 of the barrier ring is in contact with the second interlocking portion 2 of the key cylindrical frame, but the PI reset position of the photointerrupter is getting earlier. I have.
[0048]
In the example of FIG. 8, when the power is turned off and the lens barrel moves from the wide side to the retracted side to close the barrier mechanism, the electric signal is reset in the lens barrel extending direction at the PI reset position. In this sequence, the electric signal is reset by reciprocating the rotary tubular frame 5 at the PI reset position. As a result, when the rotary tubular frame 5 reciprocates at the PI reset position while the barrier mechanism 30 is being closed, the barrier mechanism 30 opens and closes slightly so that the barrier blades 31 to 34 are thin. They may appear to be open and may be objectionable in appearance.
[0049]
Therefore, it is conceivable that the opening and closing operation of the barrier mechanism 30 is performed on the photographing position side from the PI reset position. That is, it is conceivable that the timing at which the closing operation of the barrier mechanism 30 ends is earlier than the PI reset position (in other words, the timing at which the opening operation of the barrier mechanism 30 starts is later than the PI reset position).
[0050]
However, in the example of FIG. 8, the pair of slopes 1 a and 2 a of the first and second interlocking portions 1 and 2 are uniformly changed, and the rotation amount of the first interlocking portion 1 and the movement of the second interlocking portion 2 are changed. The quantity is proportional. Therefore, in order to advance the timing at which the closing operation of the barrier mechanism 30 ends, in other words, to delay the timing at which the opening operation of the barrier mechanism 30 starts, the angles of the slopes 1a, 2a are changed to change the slopes 1a, 2a. It may cause them to lie down, reducing operating efficiency.
[0051]
On the other hand, according to the present embodiment, as shown in FIG. 7, by providing the second interlocking section 2 with the linear portion 2b substantially parallel to the moving direction, the movement amount of the second interlocking section 2 is increased. Can be adjusted, and the timing at which the closing operation of the barrier mechanism 30 is completed is advanced without changing the angles of the slopes 1a and 2a (that is, without lowering the operation efficiency) (in other words, the barrier mechanism 30 is closed). The timing at which the opening operation starts can be delayed).
[0052]
Specifically, as shown in FIG. 7, when the barrier mechanism is opened, for example, when the power of the camera is turned on, the first interlocking unit 1 is relatively separated from the second interlocking unit 2. Move toward the subject side.
[0053]
As a result, the first interlocking portion 1 starts to rotate gradually by the slopes 1a and 2a under the urging force of the ring spring 39, but is linearly moved to the second interlocking portion 2 on the retracted side of the PI reset position. Since the portion 2b is provided, even if the slopes 1a and 2a do not slide with each other and the second interlocking portion 2 moves, the first interlocking portion 1 does not rotate. Therefore, the start of the opening operation can be delayed by the length of the linear portion 2b.
[0054]
Thereafter, after passing the PI reset position, the slopes 1a and 2a slide again, so that the opening operation is performed on the photographing position side of the PI reset position, and the barrier mechanism 30 is opened.
[0055]
On the other hand, when the barrier mechanism is closed, for example, when the power of the camera is turned off, the second interlocking unit 2 and the first interlocking unit 1 move toward the camera so as to be relatively close to each other.
[0056]
As a result, the first interlocking unit 1 rotates interlockingly with the slopes 1a and 2a while resisting the urging force of the ring spring 39. Since the linear portion 2b is provided in the second interlocking portion 2 and the start of the closing operation is earlier by the amount of the linear portion 2b, the closing operation is started on the photographing position side of the PI reset position, and the PI reset is performed. Before passing the position, the closing operation is finished and the barrier mechanism is closed.
[0057]
Therefore, as shown in FIG. 7, when the power is turned off and the lens barrel moves from the wide side to the retracted side to close the barrier mechanism, the rotary tubular frame 5 is reciprocated at the PI reset position. Thus, even when the electric signal is reset in the lens barrel extending direction, the opening and closing operation of the barrier mechanism 30 can be performed on the imaging position side from the PI reset position. Then, the barrier mechanism 30 can always be kept closed.
[0058]
As described above, even when the barrier mechanism 30 is about to be closed, the barrier mechanism 30 is in the closed state, so that the barrier blades 31 to 34 are reliably prevented from opening a thin portion even if the barrier mechanism 30 has passed the PI reset position. can do.
[0059]
The present invention is not limited to the above-described embodiment, but can be variously modified. For example, the second interlocking section is configured to be movable, but may be fixed. In this case, even if the straight-moving cylinder is adjusted in the optical axis direction by optical adjustment, the barrier opening / closing problem can be prevented by providing the non-interlocking section as in the present invention.
[0060]
【The invention's effect】
As described above, when only the interlocking section is provided and the non-interlocking section is not provided, the slopes of the first and second interlocking sections are uniformly changed, and the rotation amount of the first interlocking section and the second The amount of movement of the two interlocking portions is proportional to the amount of movement. Therefore, if the timing to end the closing operation of the barrier is to be advanced (in other words, the timing to start the opening operation of the barrier is to be delayed), the slope angle is changed and the slope is laid down, thereby lowering the operation efficiency. Sometimes.
[0061]
On the other hand, according to the present invention, by providing a non-interlocking section in addition to the interlocking section, specifically, as one non-rolling section, a linear shape substantially parallel to the moving direction is provided as a non-rolling section. By providing the portion, the amount of movement of the second interlocking portion can be adjusted, and the timing of ending the closing operation of the barrier mechanism is advanced without changing the angle of the slope (that is, without lowering the operation efficiency) ( In other words, the timing at which the opening operation of the barrier mechanism starts can be delayed.
[0062]
Therefore, the opening and closing operation of the barrier mechanism can be performed on the photographing position side from the reference position (PI reset position). At the reference position, the barrier mechanism can be closed. As described above, even when the barrier mechanism is closed, even when the barrier mechanism passes through the reference position, the barrier mechanism is in the closed state, so that it is possible to reliably prevent the barrier blade from opening a thin wall.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a lens barrel according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the lens barrel shown in FIG.
FIG. 3 is an exploded perspective view of the rotary tubular frame and the key tubular frame shown in FIG. 2;
FIG. 4A is a developed view of a cam groove of a fixed tubular frame, and FIG. 4B is a developed view of a cam groove of a rotating tubular frame.
FIG. 5 is an exploded perspective view of a barrier mechanism.
FIG. 6A is a diagram of a closed state of the barrier mechanism, and FIG. 6B is a diagram of an opened state of the barrier mechanism.
FIG. 7 is a timing chart of the lens barrel according to the embodiment of the present invention.
FIG. 8 is a timing chart of a lens barrel according to an example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 1st interlocking part 1a Slope 2 Second interlocking part 2a Slope 2b Linear part 3 Pedestal 4 Fixed cylindrical frame 4a Cam groove 4b Straight running groove 5 Rotating cylindrical frame 5a Cam follower 5b Gear part 5c Groove part 5d Flange part 5e Cam groove 5f Cam groove 6 Electric motor 7 Key cylindrical frame 7a Flange 7b Claw 7c Hole 8 Straight-moving cylindrical frame 8a Cam follower 9 First lens group 10 Second lens group frame 10a Cam follower 20 Photo interrupter 20a Light emission center 30 Barrier mechanism 31-34 Barrier Blades 31a, 32a, 33a, 34a Holes 31b, 33b Interlocking shafts 32b, 34b Notches 31c, 33c Hooks 35 Front decorative ring 35a Holes 36 Holding plate 36a Claws 37 Barrier rings 37a, 37b Engaging portion 38 Blade spring 39 Ring spring 40 Opening window

Claims (4)

In a lens barrel in which a first interlocking unit provided in the barrier mechanism and a second interlocking unit provided in one cylindrical frame move relatively in the optical axis direction to open and close the barrier mechanism,
A lens barrel, wherein a non-interlocking section is provided in a section in which the first interlocking section and the second interlocking section interlock. The first interlocking section and the second interlocking section each have a pair of slopes interlockingly sliding with each other as an interlocking section,
The lens barrel according to claim 1, wherein the non-interlocking section is formed in one of the interlocking portions in a linear shape substantially parallel to a moving direction. While the first interlocking unit provided in the barrier mechanism and the second interlocking unit provided in one cylindrical frame are interlocked, they relatively move in the optical axis direction to open and close the barrier mechanism,
In a lens barrel that detects an absolute position of a lens barrel when a predetermined reference cylindrical frame passes through a reference position and switches an electric signal at the reference position,
A lens barrel for opening and closing the barrier mechanism on a photographing position side of the reference position; The lens barrel according to claim 3, wherein the barrier mechanism is in a closed state at the reference position.

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