CN209311775U - A kind of telecentric lens - Google Patents

Abstract

The utility model belongs to optical technical field more particularly to a kind of telecentric lens, including microscope base and the focusing ring being set in the middle part of microscope base；The first lens group, the second lens group, diaphragm, the third lens group and the 4th lens group are equipped with inside microscope base；Second lens group is arranged by the first lens barrel in microscope base, and the 4th lens group is arranged by the second lens barrel in microscope base；First lens barrel is equipped with the first guide part, and the second lens barrel is equipped with the second guide part, and microscope base is equipped with the first guide groove corresponding with the first guide part, and microscope base is equipped with the second guide groove corresponding with the second guide part, is equipped with sliding slot on the inside of focusing ring.Compared with the existing technology, the utility model moves axially the first lens barrel and the second lens barrel in microscope base by rotating focusing ring, changes the standoff distance of each lens group, to realize the effect for adjusting the enlargement ratio of telecentric lens.

Description

A kind of telecentric lens

Technical field

The utility model belongs to optical technical field more particularly to a kind of telecentric lens.

Background technique

Under the overall background of industrial automation, machine vision demand is growing day by day, especially in electronic manufacture, food packaging In numerous industries such as quality testing, to the resolving accuracies of machine visual lens, it is applicable in the requirements such as working range, optical distortion and gets over Come higher.

It is excessive to correct traditional industry camera lens parallax, telecentric lens will be used in some high-precision context of detection, it can It will not change with the image enlargement ratio in certain object distance range, made, this is to measured object not on same object plane Situation is very important application.Telecentric lens are very high to require lens distortion always due to its distinctive parallel light path design Machine vision applications occasion favored.It has high image resolution, the near-zero distortion factor, no perspective error, the ultra-wide depth of field The advantages that.

But the existing generally existing enlargement ratio of telecentric lens is fixed, high to the utilization uniqueness requirement of camera lens, so The telecentric lens of a fixed multiplying power are only applicable to a matched working environment, so that entreprise cost increases, and cause resource Waste.Therefore, a kind of telecentric lens that enlargement ratio can be adjusted according to actual working environment are needed.

Utility model content

The purpose of this utility model is that: in view of the deficiencies of the prior art, and a kind of telecentric lens are provided, it is existing to solve The problem of telecentric lens can not adjust enlargement ratio according to working environment.

To achieve the goals above, the utility model uses following technical scheme:

A kind of telecentric lens, including microscope base and the focusing ring being set in the middle part of the microscope base；Along optical axis inside the microscope base The first lens group, the second lens group, diaphragm, the third lens group and the 4th lens group are successively arranged from object end to image side；It is described Second lens group is arranged by the first lens barrel in the microscope base, and the 4th lens group is arranged by the second lens barrel in the mirror Seat；

First lens barrel be equipped with the first guide part, second lens barrel be equipped with the second guide part, the microscope base be equipped with Corresponding first guide groove of first guide part, the microscope base are equipped with the second guide groove corresponding with second guide part, Sliding slot is equipped on the inside of the focusing ring, first guide part passes through first guide groove and connect with the sliding slot, described Second guide part passes through second guide groove and connect with the sliding slot；

The focusing ring passes through turnover while driving the first guide part and the second guide part, drives first guide part First lens barrel, first lens barrel moves axially in the microscope base along first guide groove, and makes described second Guide part drives second lens barrel, and second lens barrel moves axially in the microscope base along second guide groove.

As the preferred embodiment of telecentric lens described in the utility model, the diaphragm is equipped with for adjusting the diaphragm diameter Release handle, the telecentric lens further include be set in image side one end of the microscope base light modulation ring and cooperation cylinder, it is described to match The one end for closing cylinder is connect with the release handle, and the other end of the cooperation cylinder is connect with the light modulation ring；The light modulation ring passes through Turnover drives the cooperation cylinder turnover, the diameter for making the cooperation cylinder that the release handle be driven to adjust the diaphragm.

As the preferred embodiment of telecentric lens described in the utility model, the focusing ring is equipped with focusing locking member, the tune Burnt locking member is for locking the focusing ring.

As the preferred embodiment of telecentric lens described in the utility model, the light modulation is equipped with light modulation locking member, the tune Light locking member is for locking the light modulation ring.

As the preferred embodiment of telecentric lens described in the utility model, first guide groove and second guide groove are equal For along the spiral guide slot of the microscope base week surface helix.

As the preferred embodiment of telecentric lens described in the utility model, the cooperation cylinder is equipped with hollow-out parts, the hollow-out parts For passing through and moving for second guide part.

As the preferred embodiment of telecentric lens described in the utility model, first lens group is positive power lens group, First lens group along optical axis from object end to image side successively include the first lens G1 with positive light coke, have positive light focus The second lens G2, the third lens G3 with positive light coke and the 4th lens G4 with positive light coke of degree；Described first thoroughly Mirror G1 and the second lens G2 is successively glued to form the first balsaming lens U1.

As the preferred embodiment of telecentric lens described in the utility model, second lens group is negative-power lenses group, Second lens group along optical axis from object end to image side successively include the 5th lens G5 with positive light coke, have negative light focus The 6th lens G6 spent and the 7th lens G7 with positive light coke；The 6th lens G6 and the 7th lens G7 successively glue It closes and forms the second balsaming lens U2.

As the preferred embodiment of telecentric lens described in the utility model, the third lens group is positive power lens group, The third lens group along optical axis from object end to image side successively include the 8th lens G8 with positive light coke, have positive light focus Spend the 9th lens, with the tenth lens G9 of positive light coke and with the 11st lens G10 of negative power；The 8th lens G8 and The 9th lens G9 successively it is glued formed third balsaming lens U3, the tenth lens G10 and the 11st lens G11 according to The 4th balsaming lens U4 of secondary glued formation.

As the preferred embodiment of telecentric lens described in the utility model, the 4th lens group is positive power lens group, 4th lens group along optical axis from object end to image side successively include the 12nd lens G12 with positive light coke, have just The 13rd lens G13 of focal power and have the 14th lens G14 of positive light coke；The 13rd lens G13 and the described 14th Lens G14 is successively glued to form the 5th balsaming lens U5.

The utility model has the beneficial effect that the first lens barrel described in the utility model is equipped with the first guide part, institute The second lens barrel is stated equipped with the second guide part, the microscope base is equipped with the first guide groove corresponding with first guide part, the mirror Seat is equipped with the second guide groove corresponding with second guide part, is equipped with sliding slot, first guide part on the inside of the focusing ring Connect across first guide groove and with the sliding slot, second guide part pass through second guide groove and with the cunning Slot connection；The focusing ring passes through turnover while driving the first guide part and the second guide part, drives first guide part First lens barrel, first lens barrel moves axially in the microscope base along first guide groove, and makes described second Guide part drives second lens barrel, and second lens barrel moves axially in the microscope base along second guide groove.Relatively In the prior art, the utility model moves axially the first lens barrel and the second lens barrel in microscope base by rotating focusing ring, changes The standoff distance of each lens group, to realize the effect for adjusting the enlargement ratio of telecentric lens.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of telecentric lens in the utility model.

Fig. 2 is the explosive view of telecentric lens in the utility model.

Fig. 3 is the cooperation schematic diagram of microscope base, the first lens barrel and the second lens barrel in the utility model.

Fig. 4 is the structural schematic diagram of the first lens barrel in the utility model.

Fig. 5 is the structural schematic diagram of the second lens barrel in the utility model.

Fig. 6 is the structural schematic diagram of focusing ring in the utility model.

Fig. 7 is diaphragm in the utility model, light modulation ring and the cooperation schematic diagram for cooperating cylinder.

Fig. 8 is the structural schematic diagram of the first lens group in the utility model.

Fig. 9 is the structural schematic diagram of the second lens group in the utility model.

Figure 10 is the structural schematic diagram of the third lens group in the utility model.

Figure 11 is the structural schematic diagram of the 4th lens group in the utility model.

In figure: 1- microscope base；The first guide groove of 11-；The second guide groove of 12-；2- focusing ring；21- sliding slot；22- focusing locking Part；3- dims ring；31- dims locking member；4- cooperates cylinder；41- card slot；42- hollow-out parts；The first lens barrel of 5-；51- first is oriented to Part；The second lens barrel of 6-；The second guide part of 61-；7- third lens barrel；8- diaphragm；81- release handle；The first lens group of A1-；A2- second Lens group；A3- the third lens group；The 4th lens group of A4-.

Specific embodiment

To keep the technical solution of the utility model and advantage clearer, below in conjunction with specific embodiment and specification Attached drawing is described in further detail the utility model and its advantages, but the embodiments of the present invention is not limited to This.

As shown in Fig. 1 ~ 11, a kind of telecentric lens, including microscope base 1 and the focusing ring 2 being set in the middle part of microscope base 1；In microscope base 1 Portion along optical axis from object end to image side be successively arranged the first lens group A1, the second lens group A2, diaphragm 8, the third lens group A3 and 4th lens group A4；Second lens group A2 is arranged by the first lens barrel 5 in microscope base 1, and the third lens group A3 is set by third lens barrel 7 It sets in microscope base 1, the 4th lens group A4 is arranged by the second lens barrel 6 in microscope base 1；

First lens barrel 5 is equipped with the first guide part 51, and the second lens barrel 6 is equipped with the second guide part 61, and microscope base 1 is equipped with and leads with first To corresponding first guide groove 11 of part 51, microscope base 1 is equipped with second guide groove 12 corresponding with the second guide part 61, in focusing ring 2 Side is equipped with sliding slot 21, and the first guide part 51 passes through the first guide groove 11 and connect with sliding slot 21, and the second guide part 61 passes through second Guide groove 12 is simultaneously connect with sliding slot 21；

Focusing ring 2 passes through turnover while driving the first guide part 51 and the second guide part 61, drives the first guide part 51 First lens barrel 5, the first lens barrel 5 move axially in microscope base 1 along the first guide groove 11, and the second guide part 61 is made to drive second Lens barrel 6, the second lens barrel 6 move axially in microscope base 1 along the second guide groove 12.

The present embodiment has the beneficial effect that the first lens barrel of the utility model 5 is equipped with the first guide part 51, the second mirror Cylinder 6 is equipped with the second guide part 61, and microscope base 1 is equipped with first guide groove 11 corresponding with the first guide part 51, and microscope base 1 is equipped with and second Corresponding second guide groove 12 of guide part 61, sliding slot 21 is equipped on the inside of focusing ring 2, and the first guide part 51 passes through the first guide groove 11 And connect with sliding slot 21, the second guide part 61 passes through the second guide groove 12 and connect with sliding slot 21；Focusing ring 2 is by having enough to meet the need simultaneously The first guide part 51 and the second guide part 61 are driven, the first guide part 51 is made to drive the first lens barrel 5, the first lens barrel 5 is led along first It is moved axially in microscope base 1 to slot 11, and the second guide part 61 is made to drive the second lens barrel 6, the second lens barrel 6 is along the second guide groove 12 move axially in microscope base 1.Compared with the existing technology, the utility model makes the first lens barrel 5 and second by rotating focusing ring 2 Lens barrel 6 moves axially in microscope base 1, changes the standoff distance of each lens group, to realize the times magnification for adjusting telecentric lens The effect of rate.

Preferably, diaphragm 8 is equipped with the release handle 81 for adjusting 8 diameter of diaphragm, and telecentric lens further include being set in mirror The light modulation ring 3 and cooperation cylinder 4 of image side one end of seat 1, cooperate one end of cylinder 4 to connect with release handle 81 by card slot 41, cooperate cylinder 4 The other end with light modulation ring 3 connect；It dims ring 3 to have enough to meet the need by turnover driving cooperation cylinder 4, makes to cooperate cylinder 4 that release handle 81 is driven to adjust Save the diameter of diaphragm 8.By above-mentioned setting, the utility model, which can rotate light modulation ring 3, makes that cylinder 4 is cooperated to drive release handle 81 circumferential The mobile diameter for adjusting diaphragm 8, to achieve the effect that control lens aperture.

Preferably, focusing ring 2 is equipped with focusing locking member 22, and focusing locking member 22 is for locking focusing ring 2, locking member of focusing 22 can be lock screw.By above-mentioned setting, the utility model can be used focusing locking member 22 and lock after completing focusing Focusing ring 2 avoids focusing ring 2 from loosening, and improves the observation precision of telecentric lens.

Preferably, light modulation ring 3 is equipped with light modulation locking member 31, and light modulation locking member 31 dims locking member for locking light modulation ring 3 31 can be lock screw.By above-mentioned setting, the utility model can be used light modulation locking member 31 and lock after completing light modulation Ring 3 is dimmed, avoids light modulation ring 3 from loosening, improves the observation precision of telecentric lens.

Preferably, the first guide groove 11 and the second guide groove 12 are the spiral guide slot along 1 week surface helix of microscope base.Pass through Above-mentioned setting enables the first lens barrel 5 and the second lens barrel 6 moving in rotation in microscope base 1.

Preferably, cooperation cylinder 4 is equipped with hollow-out parts 42, and hollow-out parts 42 are used to pass through and move for the second guide part 61.Pass through Above-mentioned setting enables that cylinder 4 is cooperated to be set in microscope base 1, and does not influence focusing ring 2 and focus.

Preferably, the first lens group A1 is positive power lens group, and the first lens group A1 is along optical axis from object end to image side It successively include the first lens G1 with positive light coke, the second lens G2 with positive light coke, the third with positive light coke Lens G3 and the 4th lens G4 with positive light coke；First lens G1 and the second lens G2 is successively glued to form the first gluing thoroughly Mirror U1.According to the actual situation and requirement, suitable lens are selected.

Preferably, the second lens group A2 is negative-power lenses group, and the second lens group A2 is along optical axis from object end to image side It successively include the 5th lens G5 with positive light coke, the 6th lens G6 with negative power and the with positive light coke the 7th Lens G7；6th lens G6 and the 7th lens G7 is successively glued to form the second balsaming lens U2.It is wanted according to the actual situation with use It asks, selects suitable lens.

Preferably, the third lens group A3 is positive power lens group, and the third lens group A3 is along optical axis from object end to image side Successively include the 8th lens G8 with positive light coke, with the 9th lens of positive light coke, have the tenth lens G9 of positive light coke With with the 11st lens G10 of negative power；8th lens G8 and the 9th lens G9 is successively glued to form third balsaming lens U3, Tenth lens G10 and the 11st lens G11 is successively glued to form the 4th balsaming lens U4.According to the actual situation and requirement, Select suitable lens.

Preferably, the 4th lens group A4 is positive power lens group, and the 4th lens group A4 is along optical axis from object end to image side Successively include the 12nd lens G12 with positive light coke, with the 13rd lens G13 of positive light coke and there is positive light coke the 14 lens G14；13rd lens G13 and the 14th lens G14 is successively glued to form the 5th balsaming lens U5.According to practical feelings Condition and requirement select suitable lens.

According to the disclosure and teachings of the above specification, the utility model those skilled in the art can also be to above-mentioned reality The mode of applying is changed and is modified.Therefore, the utility model is not limited to above-mentioned specific embodiment, all this field skills It is practical new that art personnel any conspicuous improvement made on the basis of the utility model, replacement or modification belong to this The protection scope of type.In addition, these terms are intended merely to facilitate although using some specific terms in this specification It is bright, any restrictions are not constituted to the utility model.

Claims (10)

1. a kind of telecentric lens, it is characterised in that: including microscope base (1) and the focusing ring (2) being set in the middle part of the microscope base (1)； The microscope base (1) is internal to be successively arranged the first lens group (A1), the second lens group (A2), diaphragm from object end to image side along optical axis (8), the third lens group (A3) and the 4th lens group (A4)；Second lens group (A2) is arranged by the first lens barrel (5) in institute It states microscope base (1), the 4th lens group (A4) is arranged by the second lens barrel (6) in the microscope base (1)；

First lens barrel (5) is equipped with the first guide part (51), and second lens barrel (6) is equipped with the second guide part (61), described Microscope base (1) is equipped with the first guide groove (11) corresponding with the first guide part (51), and the microscope base (1) is equipped with and described second Corresponding second guide groove (12) of guide part (61), focusing ring (2) inside are equipped with sliding slot (21), first guide part (51) it passes through first guide groove (11) and is connect with the sliding slot (21), second guide part (61) passes through described second Guide groove (12) is simultaneously connect with the sliding slot (21)；

The focusing ring (2) makes described first to lead by turnover while driving the first guide part (51) and the second guide part (61) First lens barrel (5) is driven to part (51), first lens barrel (5) is along first guide groove (11) in the microscope base (1) Interior axial movement, and second guide part (61) is made to drive second lens barrel (6), second lens barrel (6) is along described Second guide groove (12) axial movement in the microscope base (1).

2. telecentric lens according to claim 1, it is characterised in that: the diaphragm (8) is equipped with for adjusting the diaphragm (8) release handle (81) of diameter, the telecentric lens further include the light modulation ring for being set in image side one end of the microscope base (1) (3) it is connect with cooperation cylinder (4), one end of cooperation cylinder (4) with the release handle (81), the other end of cooperation cylinder (4) It is connect with the light modulation ring (3)；The light modulation ring (3) drives cooperation cylinder (4) turnover by turnover, makes the cooperation cylinder (4) release handle (81) is driven to adjust the diameter of the diaphragm (8).

3. telecentric lens according to claim 1, it is characterised in that: the focusing ring (2) is equipped with focusing locking member (22), The focusing locking member (22) is for locking the focusing ring (2).

4. telecentric lens according to claim 2, it is characterised in that: the light modulation ring (3) is equipped with light modulation locking member (31), The light modulation locking member (31) is for locking the light modulation ring (3).

5. telecentric lens according to claim 1, it is characterised in that: first guide groove (11) and second guiding Slot (12) is the spiral guide slot along all surface helix of the microscope base (1).

6. telecentric lens according to claim 1, it is characterised in that: the cooperation cylinder (4) is equipped with hollow-out parts (42), described Hollow-out parts (42) are used to pass through and move for second guide part (61).

7. telecentric lens according to claim 1, it is characterised in that: first lens group (A1) is positive power lens Group, first lens group (A1) along optical axis from object end to image side successively include the first lens G1 with positive light coke, tool There are the second lens G2, the third lens G3 with positive light coke and the 4th lens G4 with positive light coke of positive light coke；Institute State the first lens G1 and the second lens G2 successively the first balsaming lens U1 of glued formation.

8. telecentric lens according to claim 1, it is characterised in that: second lens group (A2) is negative-power lenses Group, second lens group (A2) along optical axis from object end to image side successively include the 5th lens G5 with positive light coke, tool There are the 6th lens G6 of negative power and the 7th lens G7 with positive light coke；The 6th lens G6 and the 7th lens G7 is successively glued to form the second balsaming lens U2.

9. telecentric lens according to claim 1, it is characterised in that: the third lens group (A3) is positive power lens Group, the third lens group (A3) along optical axis from object end to image side successively include the 8th lens G8 with positive light coke, tool There are the 9th lens of positive light coke, with the tenth lens G9 of positive light coke and with the 11st lens G10 of negative power；Described 8th Lens G8 and the 9th lens G9 is successively glued to form third balsaming lens U3, the tenth lens G10 and the described 11st Lens G11 is successively glued to form the 4th balsaming lens U4.

10. telecentric lens according to claim 1, it is characterised in that: the 4th lens group (A4) is that positive light coke is saturating Microscope group, the 4th lens group (A4) from object end to image side successively include the 12nd lens with positive light coke along optical axis G12, with the 13rd lens G13 of positive light coke and have the 14th lens G14 of positive light coke；The 13rd lens G13 and The 14th lens G14 is successively glued to form the 5th balsaming lens U5.