CN209484180U - A kind of angle adjusting mechanism of optical instrument - Google Patents

Abstract

The utility model provides a kind of angle adjusting mechanism of optical instrument, fine tuning seat including hollow cylindrical, edge is axially arranged with relatively and the taper micrometer adjusting screw set and the mounting base with the conical surface in the hollow cavity of fine tuning seat, circumferentially uniform intervals are set there are four stripe-shape plane on the conical surface of mounting base, wherein the tapered surface of two neighboring stripe-shape plane and two taper micrometer adjusting screws coincide overlap respectively, and taper micrometer adjusting screw can move forward or retreat along the stripe-shape plane identical with it in the cavity formed by the inner wall of fine tuning seat and the conical surface of mounting base.The structure is particularly suitable for the adjusting of the optical axis direction of the optical instrument of small volume, by pushing taper micrometer adjusting screw to realize the minor adjustment to optical instrument in the horizontal direction and the vertical direction, and then realizes the adjustment of emergent light angle.

Description

A kind of angle adjusting mechanism of optical instrument

Technical field

The utility model belongs to laser measuring technique field, and in particular to a kind of angle adjusting mechanism of optical instrument.

Background technique

The adjustment of the outgoing light direction of the optical instruments such as existing laser designator, laser sight, optical foresight, it is main Will by the leveling screw that is mounted on shell and vertical adjusting screw, realize to the left and right angle of optical instrument ontology or The adjustment of upper lower angle, to realize the adjustment to emergent light angle.But this structure applies in general to that volume is biggish to be taken aim at Tool, is not suitable for the optical instrument of small volume, is primarily due to that structure is complicated, and it is big to adjust occupied space.

Utility model content

The complicated and occupied space the purpose of the utility model is to overcome the emergent light angle adjustment structure of existing optical instrument Big problem.

For this purpose, the utility model provides a kind of angle adjusting mechanism of optical instrument, the fine tuning seat including hollow cylindrical, Edge is axially arranged with relatively and the taper micrometer adjusting screw set and the mounting base with the conical surface in the hollow cavity of the fine tuning seat, described Circumferentially uniform intervals are set there are four stripe-shape plane on the conical surface of mounting base, wherein two neighboring stripe-shape plane and two tapers are micro- It adjusts the tapered surface of screw to coincide respectively to overlap, and the taper micrometer adjusting screw can be in the conical surface of inner wall and mounting base by fine tuning seat It moves forward or retreats along the stripe-shape plane identical with it in the cavity of formation.

Further, the angle adjusting mechanism of optical instrument further includes fine tuning elastic component, and the fine tuning elastic component is by bullet Property radian elastic slice and two with arcuation protrusion spring pressuring plates splicing composition Π shape structures orShape structure, the elastic arc Degree elastic slice is fastened on the end of fine tuning seat one end at, and two arcuation protrusions of two spring pressuring plates are connected to other two item respectively In shape plane.

Preferably, the spring pressuring plate is wavy, and the wave crest close to elasticity radian elastic slice is arcuation protrusion, and arcuation is prominent Central axis of the wave crest where rising towards the elastic radian elastic slice.

Further, two strips being connected to respectively with hollow cavity are provided in the axial direction in the cylindrical wall of the fine tuning seat Opening, the arcuation of the spring pressuring plate protrude through a shaped opening and contact with stripe-shape plane.

Preferably, the fine tuning seat is open at one end, and elastic radian elastic slice is fastened on the open end, and other the one of fine tuning seat End is equipped with end cap, and the circular hole for passing through taper micrometer adjusting screw is offered on the end cap, and end cap central is offered for projecting The centre bore of emergent light.

Further, the mounting base is followed successively by rotary table section, column changeover portion and the drum that diameter is gradually increased from left to right Shape section, four stripe-shape planes two-by-two with respect to and be distributed on the conical surface of rotary table section in parallel, in one of stripe-shape plane Offer positioning aperture.

Preferably, the groove for accommodating locating part is offered in the drum surface of the cydariform section, the locating part is located at peace It fills between the cydariform section of seat and the inner wall of the open end of fine tuning seat.

Preferably, the taper micrometer adjusting screw is interior hexagonal countersunk head cone screw.

The utility model has the beneficial effects that the angle adjusting mechanism of this optical instrument provided by the utility model, uses Plane on the tapered surface and mounting base of taper micrometer adjusting screw mutually overlaps the mode of cooperation, so that pushing taper micrometer adjusting screw When, taper micrometer adjusting screw can advance or retreat along the plane in mounting base, and the speed to move forward and backward is controllable, in turn The accurate adjustment to emergent light angle may be implemented.The structure is particularly suitable for the emergent light angle of the optical instrument of small volume Adjustment, by pushing taper micrometer adjusting screw to realize small tune to optical instrument main body in the horizontal direction and the vertical direction It is whole, to realize the adjustment to emergent light angle.

The utility model is described in further details below with reference to attached drawing.

Detailed description of the invention

Fig. 1 is the cross-sectional view of the angle adjusting mechanism of optical instrument.

Fig. 2 is the perspective view of the angle adjusting mechanism of optical instrument.

Fig. 3 is the structure chart one of fine tuning seat.

Fig. 4 is the structure chart two of fine tuning seat.

Fig. 5 is the structure chart of mounting base.

Fig. 6 is the structure chart one for finely tuning elastic component.

Fig. 7 is the structure chart two for finely tuning elastic component.

Fig. 8 is the structure chart with the angle adjusting mechanism of fine tuning spring structure shown in Fig. 7.

Fig. 9 is the structure chart of taper micrometer adjusting screw.

Description of symbols:

1. fine tuning seat；2. mounting base；3. taper micrometer adjusting screw；4. finely tuning elastic component；5. locating part；6. laser；7. swashing Light device pressing ring；

101. shaped opening；102. end cap；103. open end；104. circular hole；

201. the conical surface；202. stripe-shape plane；203. rotary table sections；204. changeover portion；205. cydariform sections；206. positioning apertures； 207. groove；

401. elastic radian elastic slices；402. spring pressuring plate；403. arcuation protrusions.

Specific embodiment

The embodiments of the present invention is illustrated by particular specific embodiment below, those skilled in the art can be by this theory The bright revealed content of book understands other advantages and effect of the utility model easily.

It should be noted that in the present invention, the upper and lower, left and right in figure are considered as optics described in this specification The upper and lower, left and right of the angle adjusting mechanism of instrument.

The illustrative embodiments of the utility model are introduced referring now to the drawings, however, the utility model can use many Different forms is implemented, and is not limited to the embodiment described herein, and to provide these embodiments be in order at large and complete Open the utility model entirely, and the scope of the utility model is sufficiently conveyed to person of ordinary skill in the field.For The term in illustrative embodiments being illustrated in the accompanying drawings not is the restriction to the utility model.In the accompanying drawings, identical Cells/elements use identical appended drawing reference.

Unless otherwise indicated, term (including scientific and technical terminology) used herein has person of ordinary skill in the field It is common to understand meaning.Further it will be understood that with the term that usually used dictionary limits, should be understood as and its The context of related fields has consistent meaning, and is not construed as Utopian or too formal meaning.

It should be strongly noted that the angle adjusting mechanism of optical instrument provided by the utility model is in need suitable for institute The optical instrument for adjusting optical axis direction, as optical sight, interior red dot take aim at tool, laser designator, and need mechanical axis and light The coaxial structure of axis, following all examples are illustrated by taking mode of laser group as an example, it is not limited to this.

First embodiment

A kind of angle adjusting mechanism of optical instrument is present embodiments provided, as shown in Figure 1, including the fine tuning of hollow cylindrical Seat 1, the interior edge of the hollow cavity of the fine tuning seat 1 are axially arranged with relatively and the taper micrometer adjusting screw 3 set and the peace with the conical surface 201 Seat 2 is filled, as shown in figure 5, circumferentially uniform intervals are set there are four stripe-shape plane 202 on the conical surface 201 of the mounting base 2, wherein The tapered surface of two neighboring stripe-shape plane 202 and two taper micrometer adjusting screws 3 coincide respectively to be overlapped, and the taper micrometer adjusting screw 3 can in the cavity formed by the conical surface 201 of the inner wall of fine tuning seat 1 and mounting base 2 along the stripe-shape plane 202 identical with it before It moves or retreats.

Specifically, as shown in Figure 1, fine tuning seat 1 divides for leading portion and back segment, before taper micrometer adjusting screw 3 is located at fine tuning seat 1 In section cavity, mounting base 2 is located in the back segment cavity of fine tuning seat 1, the tail portion conical surface of taper micrometer adjusting screw 3 and the cone of mounting base 2 Stripe-shape plane 202 on face 201 cooperates overlap joint, and tail end and 2 outer wall of mounting base, 1 cavity of fine tuning seat of taper micrometer adjusting screw 3 are formed One space, taper micrometer adjusting screw 3 can be moved forward internally or be retreated in the space along stripe-shape plane 202, be finely tuned by taper The Forward of screw 3 retreats the adjustment realized to 6 angle of laser.

In an advantageous embodiment, mounting base 2 is the structure of taper as shown in Figure 5, in the leading portion of the pyramidal structure The conical surface on set there are four stripe-shape plane 202, carry out longitudinal truncation, in its longitudinal section, four bar shapeds according to direction shown in Fig. 5 The center of plane 202 and mounting base 2 is in cross.

The conical surface 201 of mounting base 2 is equipped with plane, and stripe-shape plane preferably as shown in Figure 5 in the present embodiment 202, it is because taper micrometer adjusting screw 3 along the stripe-shape plane 202 when moving, plane can reduce frictional force, keep taper micro- Screw 3 is adjusted to be easy to push, angle that is both laborsaving while can also precisely adjusting laser 6.

The angle adjusting mechanism of optical instrument provided in this embodiment be suitable for institute it is in need adjusting optical axis direction optics Gun sight, interior red dot take aim at tool, laser designator, and need the structure of mechanical axis and light shaft coaxle, are with mode of laser group below Example, the course of work or working principle of the angle adjusting mechanism of optical instrument are as follows:

If outgoing light direction needs to adjust, taper micrometer adjusting screw 3 is put into fine tuning seat 1, as shown in Figure 1, keeping taper micro- It adjusts the stripe-shape plane 202 of screw 3 and mounting base 2 overlap joint to coincide, then screws taper micrometer adjusting screw 3 with spanner, push taper micro- Screw 3 is adjusted to advance along the stripe-shape plane 202 of the mounting base 2 abutted with its tapered surface, mounting base 2 is squeezed, such as Fig. 1 institute Show, move down, since laser 6 is installed in mounting base 2, mounting base 2 is moved down, laser 6 with also therewith to Lower movement, and then realize the fine tuning to laser 6.

The angle adjusting mechanism of optical instrument disclosed in the present embodiment, using the tapered surface and mounting base of taper micrometer adjusting screw On plane mutually overlap the mode of cooperation so that taper micrometer adjusting screw can be along installation when pushing taper micrometer adjusting screw Plane on seat is advanced or is retreated, and the speed to move forward and backward is controllable, so may be implemented to optical instrument main body (such as Laser) angle accurate adjustment.The structure is particularly suitable for the adjustment of the emergent light angle of the optical instrument of small volume, leads to Promotion taper micrometer adjusting screw is crossed to realize to optical instrument main body (such as laser) in the horizontal direction and the vertical direction small Adjustment, and then realize the left and right angle of optical instrument main body (such as laser) or the adjustment of upper lower angle, to realize to out The adjustment of shooting angle.

Second embodiment

A kind of angle adjusting mechanism of optical instrument is present embodiments provided, as shown in Figure 1, including the fine tuning of hollow cylindrical Seat 1, the interior edge of the hollow cavity of the fine tuning seat 1 are axially arranged with relatively and the taper micrometer adjusting screw 3 set and the peace with the conical surface 201 Seat 2 is filled, as shown in figure 5, circumferentially uniform intervals are set there are four stripe-shape plane 202 on the conical surface 201 of the mounting base 2, wherein The tapered surface of two neighboring stripe-shape plane 202 and two taper micrometer adjusting screws 3 coincide respectively to be overlapped, and the taper micrometer adjusting screw 3 can in the cavity formed by the conical surface 201 of the inner wall of fine tuning seat 1 and mounting base 2 along the stripe-shape plane 202 identical with it before It moves or retreats.

The angle adjusting mechanism of the optical instrument of the present embodiment further includes fine tuning elastic component 4, as shown in fig. 6, the fine tuning Elastic component 4 splices the Π shape knot formed by elastic radian elastic slice 401 and two spring pressuring plates 402 with arcuation protrusion 403 Structure orShape structure, as shown in Fig. 2, the elasticity radian elastic slice 401 is fastened on the end of 1 one end of fine tuning seat at, such as Fig. 1 institute Show, two arcuation protrusions 403 of two spring pressuring plates 402 are connected to respectively in other two stripe-shape plane 202.

The present embodiment is the preferred embodiment of first embodiment, and part similar with first embodiment is herein in the present embodiment It does not repeat them here.

The present embodiment increases fine tuning elastic component 4 compared with first embodiment.Finely tuning elastic component 4 can be using engaging Mode is connect with fine tuning seat 1, specifically, elastic radian elastic slice 401 is fastened on the end of 1 back segment of fine tuning seat along upper, such as Fig. 2 institute Show, 403 abutting contact of arcuation protrusion at two 402 middle parts of spring pressuring plate is in the stripe-shape plane 202 of mounting base 2.

For example, four stripe-shape planes 202 are sequentially numbered is stripe-shape plane A, stripe-shape plane B, stripe-shape plane C and stripe-shape plane D, in an advantageous embodiment, stripe-shape plane A and stripe-shape plane B are overlapped with the tapered surface of two taper micrometer adjusting screws 3 respectively Cooperation, stripe-shape plane C and stripe-shape plane D are abutted with two arcuation protrusions 403 of two spring pressuring plates 402 respectively, are bored when screwing When shape micrometer adjusting screw 3, taper micrometer adjusting screw 3 is pushed to advance along the stripe-shape plane A and stripe-shape plane B abutted with its tapered surface, Mounting base 2 is squeezed, as shown in Figure 1, moving downward, stripe-shape plane C and stripe-shape plane D squeeze the arcuation abutted with it respectively Protrusion 403 can offset portion extrusion power since 403 place spring pressuring plate 402 of arcuation protrusion is flexible structure, Slow down the speed that mounting base 2 moves down, i.e., mounting base 2 is limited, is realized to the accurate of the laser 6 in mounting base 2 Adjustment.

Particularly, stripe-shape plane A and stripe-shape plane B be at 90 degree, therefore mutual with two taper micrometer adjusting screws 3 of its two cooperation Coordinate 90 degree, when pushing two taper micrometer adjusting screws 3 for being mutually 90 degree mobile, may be implemented laser 6 move horizontally and It vertically moves, is reflected in Fig. 1, is i.e. moving up and down and being moved forward and backward (perpendicular to paper) to laser 6, that is to say, that is real The angle adjustment of existing laser 6.

In an advantageous embodiment, fine tuning elastic component 4 is that have arcuation protrusion by elastic radian elastic slice 401 and two The Π shape structure of the 403 splicing composition of spring pressuring plate 402, the spring pressuring plate 402 is wavy, as shown in fig. 6, close to elasticity The wave crest of radian elastic slice 401 is arcuation protrusion 403, and 403 place wave crest of arcuation protrusion is towards the elastic radian elastic slice 401 Central axis.

In an advantageous embodiment, fine tuning elastic component 4 is that have arcuation protrusion by elastic radian elastic slice 401 and two The 403 splicing composition of spring pressuring plate 402Shape structure, as shown in fig. 7, the same end of two spring pressuring plates 402 is connected to The middle part of elastic radian elastic slice 401, and middle point symmetry of two spring pressuring plates 402 about elastic radian elastic slice 401, two springs Another end of tabletting 402 contacts, i.e., two spring pressuring plates 402 are in V shape shown in Fig. 7.The fine tuning elastic component 4 of shape is pacified Loaded on rear as shown in Figure 8 on fine tuning seat 1.

3rd embodiment

On the basis of second embodiment, as shown in Figure 3 and Figure 4, in order to facilitate on spring pressuring plate 402 and mounting base 2 The abutting of stripe-shape plane 202 is provided in the axial direction with two items being connected to respectively with hollow cavity in the cylindrical wall of the fine tuning seat 1 Shaped opening 101, the arcuation protrusion 403 of the spring pressuring plate 402 pass through a shaped opening 101 and contact with stripe-shape plane 202.

Optionally, the fine tuning seat 1 is open at one end, and elastic radian elastic slice 401 is fastened on the open end 103, fine tuning seat 1 Other end be equipped with end cap 102, the circular hole 104 for passing through taper micrometer adjusting screw 3, end cap are offered on the end cap 102 102 centers offer the centre bore for projecting emergent light.

Fourth embodiment

On the basis of 3rd embodiment, as shown in figure 5, preferably, the mounting base 2 is followed successively by diameter from left to right Rotary table section 203, column changeover portion 204 and the cydariform section 205 being gradually increased, four stripe-shape planes 202 are opposite and flat two-by-two It is distributed on the conical surface 201 of rotary table section 203 capablely, in order to facilitate technique production, it is fixed to offer in one of stripe-shape plane 202 Position aperture 206.

As shown in figure 5, offering the groove 207 for accommodating locating part 5, the limit in the drum surface of the cydariform section 205 Position part 5 is located between the cydariform section 205 of mounting base 2 and the inner wall of the open end 103 of fine tuning seat 1.

When assembling the angle adjusting mechanism of optical instrument, laser 6 is put into mounting base by the open end 103 of fine tuning seat 1 2, and mounting base 2 is fastened by laser pressing ring 7 in open end 103, as shown in Figure 1, locating part 5 is located at 7 He of laser pressing ring Between mounting base 2, the position-limiting action to mounting base 2 is played, prevents taper micrometer adjusting screw 3 from pushing mounting base 2 (square in Fig. 1 to the right To) it is mobile when, mounting base 2 skids off fine tuning seat 1.

It is noted that locating part 5 is spacing ball or limit cylinder etc., the preferred spacing ball of the present embodiment, but not only limit With this.

5th embodiment

Preferably, taper micrometer adjusting screw 3 is screwed using spanner for convenience, as shown in figure 9, the taper micrometer adjusting screw 3 be interior hexagonal countersunk head cone screw.

Particularly, the concrete application of the angle adjusting mechanism of optical instrument disclosed by the utility model is as follows:

The method for adjusting optical instrument setting angle using the angle adjusting mechanism of optical instrument, includes the following steps:

Step 1: laser 6 is put into mounting base 2 by the open end 103 of fine tuning seat 1, and passes through laser in open end 103 Device pressing ring 7 fastens mounting base 2, and the centre bore on end cap 102 that the emergent light of laser 6 passes through fine tuning seat 1 projects；

Step 2: if outgoing light direction needs to adjust, taper micrometer adjusting screw 3 is passed through into the circular hole 104 on end cap 102 and is put into In fine tuning seat 1, so that the stripe-shape plane 202 of taper micrometer adjusting screw 3 and fine tuning seat 1 overlap joint is coincide, it is micro- then to screw taper with spanner Screw 3 is adjusted, pushes taper micrometer adjusting screw 3 to advance along the stripe-shape plane 202 of the fine tuning seat 1 abutted with its tapered surface, mounting base 2 It is squeezed, mobile towards spring pressuring plate 402, the arcuation protrusion 403 on spring pressuring plate 402 abuts 2 outer wall of mounting base and to it It is limited by resilient support；

Step 3: if mounting base 2, which is advanced, excessively makes to be emitted light direction offset, taper micrometer adjusting screw 3 is inversely screwed, taper is made Micrometer adjusting screw 3 retreats；

Step 4: step 2 and step 3 are repeated, taper micrometer adjusting screw 3 is screwed repeatedly, to the laser 6 in mounting base 2 Horizontal adjustment and vertical adjustment are carried out, until the outgoing light direction of laser 6 reaches preset requirement.

In conclusion the angle adjusting mechanism of this optical instrument provided by the utility model, using taper micrometer adjusting screw Tapered surface and mounting base on plane mutually overlap the mode of cooperation so that when pushing taper micrometer adjusting screw, taper fine tuning Screw can advance or retreat along the plane in mounting base, and the speed to move forward and backward is controllable, and then may be implemented pair The accurate adjustment of laser angle.The structure is particularly suitable for the laser in the angle adjusting mechanism of the optical instrument of small volume The adjustment of device angle, by pushing taper micrometer adjusting screw to realize the small tune to laser in the horizontal direction and the vertical direction It is whole, and then realize the left and right angle of laser or the adjustment of upper lower angle, to realize the adjustment to emergent light angle.

Exemplified as above is only to the utility model for example, not constituting to the protection scope of the utility model Limitation, it is all to be belonged within the protection scope of the utility model with the same or similar design of the utility model.The present embodiment The well-known components and common structure or conventional means of the component and the structure category industry that do not describe in detail, are not chatted one by one here It states.

Claims (8)

1. a kind of angle adjusting mechanism of optical instrument, it is characterised in that: the fine tuning seat (1) including hollow cylindrical, the fine tuning Edge is axially arranged with the taper micrometer adjusting screw (3) set relatively and the mounting base with the conical surface (201) in the hollow cavity of seat (1) (2), circumferentially uniform intervals are set there are four stripe-shape plane (202) on the conical surface (201) of the mounting base (2), wherein adjacent two The tapered surface of a stripe-shape plane (202) and two taper micrometer adjusting screws (3) coincide respectively to be overlapped, and the taper micrometer adjusting screw It (3) can be in the cavity that the conical surface (201) of inner wall and mounting base (2) by fine tuning seat (1) is formed along the bar shaped identical with it Plane (202) Forward retreats.

2. the angle adjusting mechanism of optical instrument as described in claim 1, it is characterised in that: it further include fine tuning elastic component (4), Fine tuning elastic component (4) is by elastic radian elastic slice (401) and two spring pressuring plates (402) with arcuation protrusion (403) Splice composition Π shape structure orShape structure, the elasticity radian elastic slice (401) are fastened on the end edge of fine tuning seat (1) one end Place, two arcuation protrusions (403) of two spring pressuring plates (402) are connected to respectively on other two stripe-shape plane (202).

3. the angle adjusting mechanism of optical instrument as claimed in claim 2, it is characterised in that: the spring pressuring plate (402) is in Waveform, close to elasticity radian elastic slice (401) wave crest be arcuation protrusion (403), and arcuation protrusion (403) where wave crest direction The central axis of the elasticity radian elastic slice (401).

4. the angle adjusting mechanism of optical instrument as claimed in claim 3, it is characterised in that: the column of the fine tuning seat (1) Two shaped openings (101) being connected to respectively with hollow cavity, the arcuation of the spring pressuring plate (402) are provided in the axial direction on wall Protrusion (403) passes through a shaped opening (101) and contacts with stripe-shape plane (202).

5. the angle adjusting mechanism of optical instrument as claimed in claim 4, it is characterised in that: one end of the fine tuning seat (1) Opening, elastic radian elastic slice (401) are fastened on the open end (103), and the other end of fine tuning seat (1) is equipped with end cap (102), institute The circular hole (104) offered on end cap (102) for across taper micrometer adjusting screw (3) is stated, end cap (102) center, which offers, to be used for Project the centre bore of emergent light.

6. the angle adjusting mechanism of optical instrument as claimed in claim 4, it is characterised in that: the mounting base (2) is certainly left extremely The right side is followed successively by rotary table section (203), column changeover portion (204) and the cydariform section (205) that diameter is gradually increased, four strip flats Face (202) two-by-two with respect to and be distributed on the conical surface (201) of rotary table section (203) in parallel, on one of stripe-shape plane (202) Offer positioning aperture (206).

7. the angle adjusting mechanism of optical instrument as claimed in claim 6, it is characterised in that: the drum of the cydariform section (205) The groove (207) for accommodating locating part (5) is offered on face, the locating part (5) is located at the cydariform section of mounting base (2) (205) between the inner wall of the open end (103) of fine tuning seat (1).

8. the angle adjusting mechanism of optical instrument as described in claim 1, it is characterised in that: the taper micrometer adjusting screw (3) For interior hexagonal countersunk head cone screw.