CN202956574U - Camera device - Google Patents

Abstract

The utility model provided a camera device which has the inclination adjusting function with a low cost. The camera device is composed of a camera unit and a lens unit which are connected together. The camera device is characterized in that the camera device is provided with a fixing mechanism; tapered optical axis inclination adjusting rings are clamped between parts which connect the camera unit with the lens unit; the thickness of each optical axis inclination adjusting ring in the optical axis direction changes continuously along the circumferential direction; and through adjusting the rotation angles of the optical axis inclination adjusting rings in the circumferential direction, the inclination of the optical axis of the lens unit relative to the camera unit is adjusted, and then the fixing mechanism fixes the camera unit, the lens unit, and the optical axis inclination adjusting rings.

Description

Camera head

Technical field

The utility model relates to possess the utility model of the optical axis of adjustment lens unit with respect to the camera head of the function of the inclination (ア オ リ) of camera unit.

Background technology

In the camera head of the structure that lens unit is connected in to camera unit, owing to having alignment error or part tolerance etc., the optical axis of lens unit is inevitably with respect to the run-off the straight of camera unit.As its countermeasure, as shown in patent documentation 1 (Japanese kokai publication hei 8-248465 communique), have the countermeasure of carrying tilt adjusting function on camera head.The tilt adjusting function of this patent documentation 1 is realized by combining two kinds of rotating and regulating mechanisms, optical low-pass filter and elastomeric elements.

Patent documentation 1: Japanese kokai publication hei 8-248465 communique

But, in the structure of above-mentioned patent documentation 1, the complex structure of tilt adjusting function, and need to significantly change the structure of camera head, exist for realizing the large shortcoming of cost increasing degree of tilt adjusting function.

The utility model content

Therefore, problem to be solved in the utility model is to provide a kind of and can carries with low cost the camera head of tilt adjusting function.

For addressing the above problem, the utility model that technical scheme 1 relates to provides a kind of camera head, it connects camera unit and lens unit and forms, this camera head possesses fixed mechanism, inclined light shaft adjustment ring in the part clamping taper that connects above-mentioned camera unit and above-mentioned lens unit, the thickness of this inclined light shaft adjustment ring on optical axis direction changes continuously along circumferencial direction, adjusting rotational angle in a circumferential direction of above-mentioned inclined light shaft adjustment ring by rotation and under state after the optical axis of above-mentioned lens unit is adjusted with respect to the inclination of above-mentioned camera unit, above-mentioned fixed mechanism is by above-mentioned camera unit, above-mentioned lens unit and above-mentioned inclined light shaft adjustment ring are fixed.

In this structure, rotate the inclined light shaft adjustment ring of adjusting the taper that is held in the part that connects camera unit and lens unit, and with fixed mechanism, above-mentioned camera unit, above-mentioned lens unit and above-mentioned inclined light shaft adjustment ring are fixed, by above-mentioned simple structure, can with respect to the inclination of camera unit, be adjusted the optical axis of lens unit, without the structure that changes significantly camera head, and can tilt adjusting function be equipped on to camera head with low cost.

Now, as shown in technical scheme 2, also can be configured to: possess the inclined light shaft adjustment ring of two tapers, two inclined light shaft adjustment rings are held in the part that connects camera unit and lens unit with the state overlapped.So, can adjust accurately the inclination of the optical axis of lens unit with respect to camera unit on all directions of 360 ° by rotate adjusting respectively rotational angle in a circumferential direction of two inclined light shaft adjustment rings.

But, the utility model also can form the structure that only is provided with an inclined light shaft adjustment ring, similarly, in this case, form the conical surface identical with the conical surface of this inclined light shaft adjustment ring if will clamp the end face of the coupling part of inclined light shaft adjustment ring, also can with the situation that two inclined light shaft adjustment rings are overlapped in the same manner, adjust accurately the inclination of the optical axis of lens unit with respect to camera unit on all directions of 360 °.In addition, in the utility model, when only being provided with an inclined light shaft adjustment ring, it can be also the structure that the end face that will not clamp the coupling part of inclined light shaft adjustment ring forms taper, similarly, in this case, also can adjust the inclination that inclined light shaft adjustment ring rotational angle in a circumferential direction reduces the optical axis of lens unit by rotation.

In addition, as shown in technical scheme 3, be preferably formed following structure: on the outer peripheral face of the cylinder connecting portion of the arbitrary unit in camera unit and lens unit, be formed with external thread part, the height control nut that will screw togather with this external thread part is as fixed mechanism, internal thread part on the inner peripheral surface of the cylinder connecting portion by making to be formed at another unit screws togather and Unit two is connected with the external thread part of the cylinder connecting portion of above-mentioned arbitrary unit, and, the above-mentioned inclined light shaft adjustment ring of clamping between the end face of the cylinder connecting portion of above-mentioned another unit and above-mentioned height control nut.Now, if possess the camera head of the structure of the height control nut that lens unit is adjusted with respect to the height and position of camera unit, only by appending the inclined light shaft adjustment ring, can there is tilt adjusting function, can tilt adjusting function be equipped on to camera head with extremely low cost.

On the basis of the utility model related in technique scheme 1～3, as shown in technical scheme 4, also can be arranged to: the arbitrary unit in camera unit and lens unit possess unit main body and with the staged cylinder link of this unit main body split, using the cascaded surface of the inner circumferential side of above-mentioned staged cylinder link as the altitude datum face, the said units main body is embedded in to the inner circumferential side of the large-diameter portion of above-mentioned staged cylinder link in the mode that can rotate, make the end face of said units main body be connected to the altitude datum face of the inner circumferential side of above-mentioned staged cylinder link, and, in the outer peripheral face of said units main body, the part overlapping with the inner peripheral surface of the large-diameter portion of above-mentioned staged cylinder link, the cone tank that the cross section that formation is extended along circumferencial direction is the V font, by rotation, adjust the said units main body with respect to above-mentioned staged cylinder link rotational angle in a circumferential direction and under state after the inclination of the optical axis of said units main body is adjusted, a plurality of gib screws are anchored in the screw hole formed on a plurality of positions of the large-diameter portion of above-mentioned staged cylinder link, and the leading section that is anchored on the above-mentioned a plurality of gib screws in above-mentioned screw hole is crimped on the conical surface of close above-mentioned altitude datum face one side in above-mentioned cone tank, be crimped under the state on above-mentioned altitude datum face and be fixed at the end face that makes the said units main body thus.So, can tilt adjusting function be set at two places, can carry out wider and more accurately tilt adjustments.

The accompanying drawing explanation

Fig. 1 means the front view of structure of the major part of the camera head in an embodiment of the present utility model.

Fig. 2 is the longitudinal section of the major part of camera head.

Fig. 3 is the exploded view of the major part of camera head.

In Fig. 4, being (a) and (b) vertical view and the side view of the inclined light shaft adjustment ring of upside, is (c) and (d) vertical view and the side view of the inclined light shaft adjustment ring of downside.

Fig. 5 is the vertical view that makes the state after two inclined light shaft adjustment rings overlap.

Fig. 6 means the amplification longitudinal section of the structure of the second tilt adjusting mechanism.

Label declaration

11... camera unit

12... lens unit

13... imaging apparatus

14... camera lens

15... cylinder connecting portion (fixed mechanism)

16... internal thread part

17... unit main body

18... staged cylinder link

19... external thread part

20... height control nut (fixed mechanism)

21,22... inclined light shaft adjustment ring

21a, 22a... rotational angle adjustment pinch hand

23... the first tilt adjusting mechanism

31... the second tilt adjusting mechanism

32... altitude datum face

33... cone tank

34... screw hole

35... gib screw

Embodiment

Below, the embodiment that explanation will be specialized for implementing mode of the present utility model.

The camera head of the present embodiment is equipped on such as component-mounting machine, lathe etc.

As shown in FIG. 1 to 3, the camera head of the present embodiment is formed by connecting by camera unit 11 and lens unit 12, in the inside of camera unit 11, is assembled with imaging apparatus 13, in the inside of lens unit 12, is assembled with camera lens 14.In design, so that the optical axis of imaging apparatus 13 and the consistent mode of camera lens 14 optical axises design the size of each part, but in fact, owing to having alignment error, part tolerance etc., the optical axis of the camera lens 14 of lens unit 12 inevitably can be with respect to imaging apparatus 13 run-off the straights of camera unit 11.

Therefore, the camera head of the present embodiment is equipped with two kinds of tilt adjusting mechanisms 23,31 of following explanation.

At first, camera unit 11 and the syndeton of lens unit 12 and the structure of the first tilt adjusting mechanism 23 are described.

On camera unit 11, cylinder connecting portion 15 (fixed mechanism) is concentric shape ground with the optical axis with imaging apparatus 13, and towards lens unit 12, side-prominent mode forms, and is formed with internal thread part 16 on the inner peripheral surface of this cylinder connecting portion 15.

On the other hand, lens unit 12 possess the unit main body 17 that is built-in with camera lens 14 and with the staged cylinder link 18 of these unit main body 17 splits, staged cylinder link 18 is fixed on unit main body 17 via the second tilt adjusting mechanism 31 described later, on the outer peripheral face of the minor diameter part of this staged cylinder link 18, is formed with external thread part 19.

Be screwed with height control nut 20 (fixed mechanism) on the external thread part 19 of this lens unit 12, and, insert and be connected with two inclined light shaft adjustment rings 21,22 rotationally on this external thread part 19, and then, be anchored on this external thread part 19 and connect camera unit 11 and lens unit 12 by the internal thread part 16 by camera unit 11.Thus, two inclined light shaft adjustment rings 21,22 are held in the state overlapped between the end face and height control nut 20 of cylinder connecting portion 15 of camera unit 11, and the fastening force of the internal thread part 16 by camera unit 11 or the fastening force of height control nut 20 are fixed.

As shown in Fig. 4 (a)～(d), each inclined light shaft adjustment ring 21,22 forms thickness on optical axis direction along the taper of circumferencial direction continually varying, at the assigned position of the peripheral part of each inclined light shaft adjustment ring 21,22, is formed with outwardly pinch hand 21a, 22a for side-prominent rotational angle adjustment.In the present embodiment, as shown in Fig. 4 (a), (b), the inclined light shaft adjustment ring 21 of upside is formed with rotational angle adjustment pinch hand 21a at the gauge the best part, as shown in Fig. 4 (c), (d), the inclined light shaft adjustment ring 22 of downside is formed with rotational angle adjustment pinch hand 22a in the part of gauge minimum.In addition, on the peripheral part of each inclined light shaft adjustment ring 21,22, also can from visual observation to position mark out the scale that means rotational angle etc.According to structure described above, formed the first tilt adjusting mechanism 23 that uses two inclined light shaft adjustment rings 21,22.

In the camera head of said structure, between the end face of the cylinder connecting portion 15 of two inclined light shaft adjustment rings 21,22 are held in and the external thread part 19 of lens unit 12 screws togather height control nut 20 and camera unit 11 and fastened and in addition under fixing state, during with respect to imaging apparatus 13 run-off the straight of camera unit 11, with the first tilt adjusting mechanism 23, according to following order, adjust inclination when the optical axis of lens unit 12.

At first, the internal thread part 16 of the height control of slightly relaxing nut 20 or camera unit 11, make two inclined light shaft adjustment rings 21,22 become the state that can rotate in a circumferential direction.Afterwards, two inclined light shaft adjustment rings 21,22 are suitably rotated respectively in a circumferential direction, adjust the cone angle as two inclined light shaft adjustment ring 21,22 integral body, to reduce or to eliminate the inclination of the optical axis of lens unit 12.Now, as shown in Figure 5, the rotational angle adjustment that for example can only press the inclined light shaft adjustment ring 22 of downside along circumferencial direction only makes the inclined light shaft adjustment ring 22 of downside rotate with pinch hand 22a, or, also can only make the inclined light shaft adjustment ring 21 of upside rotate.Certainly, also can make respectively two inclined light shaft adjustment rings 21,22 rotate.In a word, in order to reduce or eliminate the inclination of the optical axis of lens unit 12, as long as one of them side in two inclined light shaft adjustment rings 21,22 is suitably rotated.

Afterwards, tighten the internal thread part 16 of the cylinder connecting portion 15 of height control nut 20 and camera unit 11, two inclined light shaft adjustment rings 21,22 are clamped and be fixed between the end face of cylinder connecting portion 15 of height control nut 20 and camera unit 11.Thus, the scope of the play (gap) of lens unit 12 between at the bottom of the tooth of the crest of external thread part 19 and internal thread part 16 and height control nut 20 is tilted, the state that the end face that becomes the end face of height control nut 20 and inclined light shaft adjustment ring 21 is close to and the end face of the cylinder connecting portion 15 of the end face of inclined light shaft adjustment ring 21 and camera unit 11 is close to, thus, by the cone angle as two inclined light shaft adjustment ring 21,22 integral body, adjusted, to reduce or to eliminate the inclination of the optical axis of lens unit 12.

Then, the structure of the second tilt adjusting mechanism 31 described.

As shown in Fig. 2, Fig. 3, Fig. 6, the cascaded surface of the inner circumferential side of the staged cylinder link 18 of lens unit 12 is as altitude datum face 32.The unit main body of lens unit 12 17 is embedded in to the inner circumferential side of the large-diameter portion of staged cylinder link 18 in the mode that can rotate, make the end face of this unit main body 17 be connected to the altitude datum face 32 of the inner circumferential side of staged cylinder link 18, and, in the outer peripheral face of unit main body 17, the part overlapping with the inner peripheral surface of the large-diameter portion of staged cylinder link 18, the cone tank 33 that the cross section that formation is extended along circumferencial direction is the V font, by rotate adjustment unit main body 17 with respect to staged cylinder link 18 rotational angle in a circumferential direction and under state after the inclination of the optical axis of unit main body 17 is adjusted, a plurality of gib screws 35 for example are anchored on, in the upper screw hole 34 formed in a plurality of positions (three positions) at the large-diameter portion of staged cylinder link 18, and the leading section that makes to be anchored on a plurality of gib screws 35 in screw hole 34 is crimped on the conical surface of close altitude datum face 32 1 sides in cone tank 33, under being crimped on the state of altitude datum face 32, the end face that makes unit main body 17 is fixed thus.

When the inclination of the optical axis that uses 31 pairs of unit main body 17 of the second tilt adjusting mechanism is adjusted, a plurality of gib screws 35 that relax gradually respectively in the screw hole 34 that is anchored on staged cylinder link 18, make unit main body 17 and staged cylinder link 18 become the state that can rotate in a circumferential direction.Afterwards, by rotate adjustment unit main body 17 with respect to staged cylinder link 18 rotational angle in a circumferential direction and under state after the inclination of the optical axis of unit main body 17 is adjusted, fastening a plurality of gib screw 35 and leading section of each gib screw 35 is crimped on the conical surface of close altitude datum face 32 1 sides in cone tank 33 respectively is fixed thus under the end face that makes unit main body 17 is crimped on the state of altitude datum face 32.Thus, by the second tilt adjusting mechanism 31, also can be adjusted the inclination of the optical axis of the unit main body 17 of lens unit 12.

In first tilt adjusting mechanism 23 of the present embodiment described above, rotate the inclined light shaft adjustment ring 21 of adjusting the taper that is held in the part that connects camera unit 11 and lens unit 12, 22 and utilize fixed mechanism (the cylinder connecting portion 15 of height control nut 20 and camera unit 11) by camera unit 11, lens unit 12 and inclined light shaft adjustment ring 21, 22 is fixing, by above-mentioned simple structure, be the inclination of the optical axis of capable of regulating lens unit 12 with respect to camera unit 11, without the structure that changes significantly camera head, can tilt adjusting function be equipped on to camera head with low cost.

And, in the present embodiment, the inclined light shaft adjustment ring 21,22 that possesses two tapers, owing to making two inclined light shaft adjustment rings 21,22 overlap and be held between the end face of cylinder connecting portion 15 of height control nut 20 and camera unit 11, therefore, by rotating and adjust two inclined light shaft adjustment rings 21,22 rotational angle in a circumferential direction respectively, can on all directions of 360 °, adjust accurately the inclination of the optical axis of lens unit 12 with respect to camera unit 11.

But, the utility model also can form the structure that only is provided with an inclined light shaft adjustment ring, similarly, in this case, form the conical surface identical with the conical surface of this inclined light shaft adjustment ring if will clamp the end face (end face of the cylinder connecting portion 15 of height control nut 20 or camera unit 11) of the coupling part of inclined light shaft adjustment ring, also can with the situation that two inclined light shaft adjustment rings 21,22 are overlapped in the same manner, adjust accurately the inclination of the optical axis of lens unit 12 with respect to camera unit 11 on all directions of 360 °.In addition, when only being provided with an inclined light shaft adjustment ring, the utility model can be also the structure that the end face that will not clamp the coupling part of inclined light shaft adjustment ring forms taper, similarly, in this case, also can adjust the inclination that inclined light shaft adjustment ring rotational angle in a circumferential direction reduces the optical axis of lens unit 12 by rotation.

In addition, in the present embodiment, form following structure: the height control nut 20 that will screw togather with the external thread part 19 of the staged cylinder link 18 of lens unit 12 is as fixed mechanism, by inclined light shaft adjustment ring 21, 22 are held between the end face and height control nut 20 of cylinder connecting portion 15 of camera unit 11, so, if possess the camera head of the structure of the height control nut 20 that lens unit 12 is adjusted with respect to the height and position of camera unit 11, only append one or two inclined light shaft adjustment ring 21, 22 can have tilt adjusting function, have advantages of and can tilt adjusting function be equipped on to camera head with extremely low cost.

In addition, in the present embodiment, except the first tilt adjusting mechanism 23, also be provided with the second tilt adjusting mechanism 31.This second tilt adjusting mechanism 31 is arranged to: the unit main body of lens unit 12 17 is embedded in to the inner circumferential side of the large-diameter portion of staged cylinder link 18 in the mode that can rotate, make the end face of this unit main body 17 be connected to the altitude datum face 32 of the inner circumferential side of staged cylinder link 18, and, in the outer peripheral face of unit main body 17, the part overlapping with the inner peripheral surface of the large-diameter portion of staged cylinder link 18, the cone tank 33 that the cross section that formation is extended along circumferencial direction is the V font, by rotate adjustment unit main body 17 with respect to staged cylinder link 18 rotational angle in a circumferential direction and under state after the inclination of the optical axis of unit main body 17 is adjusted, a plurality of gib screws 35 are anchored in the screw hole 34 formed at a plurality of positions of the large-diameter portion of staged cylinder link 18, and the leading section that makes to be anchored on a plurality of gib screws 35 in screw hole 34 is crimped on the conical surface of close altitude datum face 32 1 sides in cone tank 33, under being crimped on the state of altitude datum face 32, the end face that makes main body 17 is fixed thus.Therefore, be independent of the first tilt adjusting mechanism 23, by the second tilt adjusting mechanism 31, also can adjust inclination, thus can be on a large scale and carry out accurately tilt adjustments.

But the utility model also can only arrange for omitting the second tilt adjusting mechanism 31 structure of the first tilt adjusting mechanism 23.

In addition, in the present embodiment, formed external thread part 19 on the outer peripheral face of the staged cylinder link 18 of lens unit 12, formed internal thread part 16 on the inner peripheral surface of the cylinder connecting portion 15 of camera unit 11, but external thread part also can be contrary with the relation of internal thread part.That is to say, also can be set as: height control nut and the external thread part formed on the outer peripheral face of the cylinder connecting portion of camera unit are screwed togather, and, the external thread part of the cylinder connecting portion of the internal thread part that forms on the inner peripheral surface of the staged cylinder link of lens unit and this camera unit is screwed togather, the inclined light shaft adjustment ring is clamped and be fixed between the end face and height control nut of this staged cylinder link.

In addition, in the present embodiment, staged cylinder link 18 is assembled in to the unit main body 17 of lens unit 12 and has formed the second tilt adjusting mechanism 31, but also can form camera unit 11 by unit main body with the staged cylinder link of this unit main body split, and staged cylinder link is assembled in to the unit main body of this camera unit 11 and forms the second tilt adjusting mechanism.

Claims (5)

1. a camera head, connect camera unit and lens unit and form, it is characterized in that,

Described camera head possesses fixed mechanism, inclined light shaft adjustment ring in the part clamping taper that connects described camera unit and described lens unit, the thickness of this inclined light shaft adjustment ring on optical axis direction changes continuously along circumferencial direction, adjusting rotational angle in a circumferential direction of described inclined light shaft adjustment ring by rotation and, under state after the optical axis of described lens unit is adjusted with respect to the inclination of described camera unit, described fixed mechanism is fixed described camera unit, described lens unit and described inclined light shaft adjustment ring.

2. camera head according to claim 1, is characterized in that,

The inclined light shaft adjustment ring that possesses two described tapers,

Two described inclined light shaft adjustment rings are held in the part that connects described camera unit and described lens unit with the state overlapped.

3. according to the camera head shown in claim 1 or 2, it is characterized in that,

Be formed with external thread part on the outer peripheral face of the cylinder connecting portion of the arbitrary unit in described camera unit and described lens unit, the height control nut that will screw togather with this external thread part is used as described fixed mechanism,

Internal thread part on the inner peripheral surface of the cylinder connecting portion by making to be formed at another unit screws togather and Unit two is connected with the external thread part of the cylinder connecting portion of described arbitrary unit, and, the described inclined light shaft adjustment ring of clamping between the end face of the cylinder connecting portion of described another unit and described height control nut.

4. camera head according to claim 1 and 2, is characterized in that,

Arbitrary unit in described camera unit and described lens unit possess unit main body and with the staged cylinder link of this unit main body split, using the cascaded surface of the inner circumferential side of described staged cylinder link as the altitude datum face,

Described unit main body is embedded in to the inner circumferential side of the large-diameter portion of described staged cylinder link in the mode that can rotate, make the end face of described unit main body be connected to the altitude datum face of the inner circumferential side of described staged cylinder link, and, in the outer peripheral face of described unit main body, the part overlapping with the inner peripheral surface of the large-diameter portion of described staged cylinder link, the cone tank that the cross section that formation is extended along circumferencial direction is the V font, by rotation, adjust described unit main body with respect to described staged cylinder link rotational angle in a circumferential direction and under state after the inclination of the optical axis of described unit main body is adjusted, a plurality of gib screws are anchored in the screw hole formed on a plurality of positions of the large-diameter portion of described staged cylinder link, and the leading section that is anchored on the described a plurality of gib screws in described screw hole is crimped on the conical surface of close described altitude datum face one side in described cone tank, be crimped under the state on described altitude datum face and be fixed at the end face that makes described unit main body thus.

5. camera head according to claim 3, is characterized in that,

Arbitrary unit in described camera unit and described lens unit possess unit main body and with the staged cylinder link of this unit main body split, using the cascaded surface of the inner circumferential side of described staged cylinder link as the altitude datum face,

Described unit main body is embedded in to the inner circumferential side of the large-diameter portion of described staged cylinder link in the mode that can rotate, make the end face of described unit main body be connected to the altitude datum face of the inner circumferential side of described staged cylinder link, and, in the outer peripheral face of described unit main body, the part overlapping with the inner peripheral surface of the large-diameter portion of described staged cylinder link, the cone tank that the cross section that formation is extended along circumferencial direction is the V font, by rotation, adjust described unit main body with respect to described staged cylinder link rotational angle in a circumferential direction and under state after the inclination of the optical axis of described unit main body is adjusted, a plurality of gib screws are anchored in the screw hole formed on a plurality of positions of the large-diameter portion of described staged cylinder link, and the leading section that is anchored on the described a plurality of gib screws in described screw hole is crimped on the conical surface of close described altitude datum face one side in described cone tank, be crimped under the state on described altitude datum face and be fixed at the end face that makes described unit main body thus.

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