CN1854789A - Zoom lens structure - Google Patents

Abstract

A varifocus camera lens structure consists of a fixing cone, a front group lens chamber, a back group lens chamber, a front thread profile and a back thread profile. It is featured as setting a front thread on front group lens chamber to correspond in screwing with front thread profile and a back thread on back group lens chamber to correspond in screw with back thread profile to let two said chambers move relatively to fixing cone in axial direction for achieving purpose of varifocus.

Description

Zoom lens structure

Technical field

The invention relates to a kind of Zoom lens structure, refer to a kind of Zoom lens structure that is applicable to electronic product especially, for example projector, camera etc. with two groups of zoom mirror cells.

Background technology

For the electronic product that generally has two groups of zoom lens, projector for example, its zoom mirror cell has generally included a pre-group mirror cell and group mirror cell, a back, and pre-group mirror cell and back group mirror cell are mounted on respectively on the holder, and pre-group mirror cell and back group mirror cell are respectively with respect to the holder rotation and move axially and stretch out or withdraw, to reach the zoom function of pre-group mirror cell and group mirror cell, back.

Seeing also Fig. 1 is the use synoptic diagram of known zoom lens, wherein shows a projector 91, and group is provided with a zoom lens 92 in projector 91.Please consult simultaneously three-dimensional exploded view that Fig. 2 is known zoom lens, and Fig. 3 be the sectional view of known zoom lens.Aforesaid zoom lens 92 includes a pre-group mirror cell 93, a group mirror cell 94, back and a holder 95, and pre-group mirror cell 93 and back group mirror cell 94 are mounted on respectively on holder 95 axial two ends, and can be respectively stretch out or withdraw and reach zoom function to move axially with respect to holder 95 rotations.

Traditionally, between group mirror cell 94, above-mentioned back and the holder 95 is to utilize so-called groove mode to rotate, that is on holder 95, can offer three spiral grooves 951 in the equal angles mode, the corresponding position can convex with three screws 941 in back group mirror cell 94, and three screws 941 be slidedly arranged on respectively in three spiral grooves 951 the guiding slippages and respectively block make group mirror cell 94, back can move axially that stretch out or withdraw also can be in addition spacing thus in the end 950 of three spiral grooves 951 with respect to holder 95.

Yet, tradition is with the design of spiral grooves 951 with screw 941, stability when keeping back group mirror cell 94 rotation-slidings, must design three positions in the equal angles mode, keep group mirror cell 94, back when moving axially, its sagittal plane 942 can not tilt, and increases difficulty of processing in rain and raises the cost yet design three positions.In addition, the size of each spiral grooves 951, width, spiral radian equal all must be identical on the manufacturing accuracy, so not only its degree of difficulty is arranged in making, and the manufacturing precision of back group mirror cell 94 and effective Be Controlled or increase manufacturing cost in rain, non-very good in fact.

Summary of the invention

The objective of the invention is to, a kind of Zoom lens structure is provided, it can improve the stability and the precision of zoom lens.Manufacture is oversimplified also can be reduced the part number, and then can reduce cost.

A kind of Zoom lens structure of the present invention is characterized in that, comprising:

One stationary magazine creel, include an open front, an after-opening, and a ring-side wall its be to be connected with between this open front and this after-opening, and this ring-side wall is provided with a preceding thread, reaches a back thread, and this preceding thread is to be adjacent to this open front, and this back thread is to be adjacent to this after-opening;

One pre-group mirror cell includes a preceding lens barrel, and this preceding lens barrel is provided with a preceding thread, and it is that correspondence is screwed together in the preceding thread of being somebody's turn to do of this stationary magazine creel, and makes this pre-group mirror cell do axially-movable with respect to the open front of this stationary magazine creel; And

Group mirror cell, one back includes a back lens barrel, and this back lens barrel is provided with a rear thread, and it is this back thread that correspondence is screwed together in this stationary magazine creel, and makes group mirror cell, this back do axially-movable with respect to the after-opening of this stationary magazine creel.

Wherein, this stationary magazine creel includes a preceding stop section, and this pre-group mirror cell includes a preceding stop part, and it is that corresponding block is in this preceding stop section.

Wherein, this preceding stop section is to be a block flange, and this preceding stop part is to be a screw.

Wherein, this stationary magazine creel includes stop section, a back, and group mirror cell, this back includes a back stop part, and it is that corresponding block is in this stop section, back.

Wherein, this stop section, back is the end for a groove, and this back stop part is to be a screw.

Wherein, this preceding thread and this back thread are to be located at respectively on the inwall of this ring-side wall.

Wherein, this preceding thread is to be located on the outer wall of this preceding lens barrel.

Wherein, this rear thread is to be located on the outer wall of this back lens barrel.

Wherein, this preceding thread and this preceding thread are to be respectively a single line thread.

Wherein, this back thread and this rear thread are to be respectively a single line thread.

A kind of Zoom lens structure of the present invention is characterized in that, comprising:

One stationary magazine creel includes an open front, an after-opening, reaches a ring-side wall that is connected with between this open front and this after-opening;

One pre-group mirror cell includes a preceding lens barrel, is installed in this open front of this stationary magazine creel;

Group mirror cell, one back includes a back lens barrel, is installed in this after-opening of this stationary magazine creel;

One first screw thread, be arranged in this open front of this stationary magazine creel and should before on one of them of outer peripheral surface of lens barrel;

One second screw thread, be arranged in this open front of this stationary magazine creel and should before on another of outer peripheral surface of lens barrel, and with this first screw-threaded engagement;

One the 3rd screw thread, be arranged in this after-opening of this stationary magazine creel and one of them of the outer peripheral surface of this back lens barrel on; And

One the 4th screw thread, be arranged in this after-opening of this stationary magazine creel and another of the outer peripheral surface of this back lens barrel on, and with the 3rd screw-threaded engagement.

Stop part before wherein this stationary magazine creel includes a preceding stop section and this pre-group mirror cell and includes one when this pre-group mirror cell utilizes this first, second threads turn motion, is limited the rotational angle of this pre-group mirror cell by this preceding stop part and this preceding stop section.

Stop section and this back group mirror cell included a back stop part after wherein this stationary magazine creel included one, when group mirror cell, this back utilizes the motion of the 3rd, the 4th threads turn, were limited the rotational angle of group mirror cell, this back by this back stop part and this stop section, back.

Wherein should before stop part be the preceding block flange that is arranged at this pre-group mirror cell, and this preceding stop section is the preceding stop ring that is arranged at this open front of this stationary magazine creel, moved in this preceding stop ring by this preceding block flange, limits the rotational angle of this pre-group mirror cell.

Wherein this back stop part is the back block flange that is arranged at group mirror cell, this back, and this stop section, back is the back stop ring that is arranged at this after-opening of this stationary magazine creel, is moved in this back stop ring by this back block flange, limits the rotational angle of group mirror cell, this back.

A kind of Zoom lens structure of the present invention, comprise have an open front, a stationary magazine creel that an after-opening and is connected with the ring-side wall between this open front and this after-opening, have a preceding lens barrel and be installed in the interior pre-group mirror cell of this open front, have a back lens barrel and be installed in the interior group mirror cell, this back of an after-opening, it is characterized in that

One first screw thread, be arranged in this open front of this stationary magazine creel and should before on one of them of outer peripheral surface of lens barrel;

One second screw thread, be arranged in this open front of this stationary magazine creel and should before on another of outer peripheral surface of lens barrel, and with this first screw-threaded engagement;

One the 3rd screw thread, be arranged in this after-opening of this stationary magazine creel and one of them of the outer peripheral surface of this back lens barrel on; And

One the 4th screw thread, be arranged in this after-opening of this stationary magazine creel and another of the outer peripheral surface of this back lens barrel on, and with the 3rd screw-threaded engagement.

Stop part before wherein this stationary magazine creel includes a preceding stop section and this pre-group mirror cell and includes one when this pre-group mirror cell utilizes this first, second threads turn motion, is limited the rotational angle of this pre-group mirror cell by this preceding stop part and this preceding stop section.

Stop section and this back group mirror cell included a back stop part after wherein this stationary magazine creel included one, when group mirror cell, this back utilizes the motion of the 3rd, the 4th threads turn, were limited the rotational angle of group mirror cell, this back by this back stop part and this stop section, back.

Wherein should before stop part be the preceding block flange that is arranged at this pre-group mirror cell, and this preceding stop section is the preceding stop ring that is arranged at this open front of this stationary magazine creel, moved in this preceding stop ring by this preceding block flange, limits the rotational angle of this pre-group mirror cell.

Wherein this back stop part is the back block flange that is arranged at group mirror cell, this back, and this stop section, back is the back stop ring that is arranged at this after-opening of this stationary magazine creel, is moved in this back stop ring by this back block flange, limits the rotational angle of group mirror cell, this back.

Description of drawings

For further specifying concrete technology contents of the present invention, below in conjunction with embodiment and accompanying drawing describes in detail as after, wherein:

Fig. 1 is the use synoptic diagram of known zoom lens.

Fig. 2 is the three-dimensional exploded view of known zoom lens.

Fig. 3 is the sectional view of known zoom lens.

Fig. 4 is the exploded view of a preferred embodiment of the present invention.

Fig. 5 is the sectional view of a preferred embodiment of the present invention.

Embodiment

Please consult simultaneously exploded view that Fig. 4 is a preferred embodiment of the present invention, and Fig. 5 be the sectional view of a preferred embodiment of the present invention, wherein show a Zoom lens structure, and it includes a stationary magazine creel 1, a pre-group mirror cell 2 and group mirror cell 3, a back.

Stationary magazine creel 1 in the accompanying drawing includes an open front 11, an after-opening 12 and a ring-side wall 13, ring-side wall 13 wherein is to be connected with between open front 11 and after-opening 12, and a thread 14 (first screw thread) and a back thread 15 (the 3rd screw thread) before the inwall of this ring-side wall 13 is provided with one, simultaneously, preceding thread 14 is to be adjacent to open front 11, and back thread 15 is to be adjacent to after-opening 12.In this example, preceding thread 14 is respectively female thread of being located at stationary magazine creel 1 inside with back thread 15.

In addition, lens barrel 21 before pre-group mirror cell 2 in graphic includes one, the outer wall of lens barrel 21 is provided with a preceding thread 22 (second screw thread) before this, in this example, it is meant that a male thread can corresponding engagement and be screwed together in the preceding thread 14 (first screw thread) of said fixing tube 1, and can make pre-group mirror cell 2 relatively rotate in the open front 11 of stationary magazine creel 1 and do axially-movable.

In addition, back group mirror cell 3 in graphic includes a back lens barrel 31, after this outer wall of lens barrel 31 is provided with a rear thread 32 (the 4th screw thread), in this example, it is meant that a male thread can corresponding engagement and be screwed together in the back thread 15 (the 3rd screw thread) of said fixing tube 1, and can make group mirror cell 3, back relatively rotate in the after-opening 12 of stationary magazine creel 1 and do axially-movable.

Therefore, pre-group mirror cell 2 and back group mirror cell 3 be can be by helical motion respectively the open front 11 with respect to stationary magazine creel 1 do axially-movable with after-opening 12, that is pre-group mirror cell 2 and back group mirror cell 3 can be respectively move axially with respect to stationary magazine creel 1 and stretch out or withdraw, so can reach the zoom function of pre-group mirror cell 2 and group mirror cell 3, back.

In addition, when pre-group mirror cell 2 during with respect to stationary magazine creel 1 helical motion, be the anglec of rotation of restriction pre-group mirror cell 2 and then restriction pre-group mirror cell 2 amount of movement with respect to stationary magazine creel 1, can make stationary magazine creel 1 include a preceding stop section 16,2 of pre-group mirror cells include stop part 23 before, and it is can be in the rotatablely moving of pre-group mirror cell 2, and corresponding block is in preceding stop section 16, so can limit the amount of movement of pre-group mirror cell 2, and can prevent that pre-group mirror cell 2 is from stationary magazine creel 1 disengagement with respect to stationary magazine creel 1.In present embodiment, aforesaid preceding stop section 16 is to be a block flange, and preceding stop part 23 is to be a screw; Or changing stop ring before the stationary magazine creel open front establishes, block flange before the pre-group mirror cell establishes is moved in preceding stop ring by preceding block flange in addition, the rotational angle of restriction pre-group mirror cell.

Same, when back group mirror cell 3 during with respect to stationary magazine creel 1 helical motion, be the anglec of rotation that limits back group mirror cell 3 and then group mirror cell 3, restriction back amount of movement with respect to stationary magazine creel 1, can make stationary magazine creel 1 include stop section 17, a back, 3 of mirror cells of back group include a back stop part 33, and it is can be in the rotatablely moving of back group mirror cell 3, and corresponding block is in stop section 17, back, so can limit the amount of movement of group mirror cell 3, back, and can prevent that group mirror cell 3, back is from stationary magazine creel 1 disengagement with respect to stationary magazine creel 1.In present embodiment, stop section 17, aforesaid back is the ends 171 for a groove, and back stop part 33 is to be a screw; Or change in the stationary magazine creel after-opening and establish a back stop ring, in addition establish a back block flange in back group mirror cell, in the stop ring of back, move the rotational angle of group mirror cell, restriction back by back block flange.

So by said structure, when back group mirror cell 3 during with respect to stationary magazine creel 1 helical motion, its sagittal plane 34 can't produce the problem of inclination, and its stability and precision thereof can be improved in back group mirror cell 3 therefore when helical motion.In present embodiment, the preceding thread 14 of stationary magazine creel 1 is fabricated to a single line thread respectively with the preceding thread 22 of pre-group mirror cell 2, and the back thread 15 of stationary magazine creel 1 also is fabricated to a single line thread respectively with the rear thread 32 of back group mirror cell 3, certainly, also can be fabricated to two-wire thread, three-way thread etc., when number is higher, can more increase the precision of helical motion.

In addition, stationary magazine creel 1, pre-group mirror cell 2 and back group mirror cell 3 only need produce (for example going out thread with the lathe car) thread and screw thread gets final product, do not need as tradition, to go again to design and calculate size, width, spiral radian of spiral grooves etc., so on manufacturing course, can oversimplify, and for manufacturing cost, also can significantly reduce.

In addition, during with respect to stationary magazine creel 1 helical motion, the Stop structure between it also only need design a place and get final product, so can reduce the part number, and can so reduce cost with back group mirror cell 3 pre-group mirror cell 2.

The preceding thread 14 of said fixing tube 1 can be fabricated to a dextrorotation thread respectively with the preceding thread 22 of pre-group mirror cell 2, certainly also can be fabricated to left-handed thread respectively, same, the back thread 15 of stationary magazine creel 1 can be fabricated to a dextrorotation thread respectively with the rear thread 32 of back group mirror cell 3, certainly also can be fabricated to left-handed thread respectively, no matter that is be dextrorotation thread or left-handed thread, thread 14 is fitted to each other with rear thread 32 and get final product with preceding thread 22, back thread 15 before only needing, and the needs of visual actual manufacturing and designing.

The foregoing description only is to give an example for convenience of description, and the interest field that the present invention advocated should be as the criterion so that claim is described certainly, but not only limits to the foregoing description.

Claims (15)

1. a Zoom lens structure is characterized in that, comprising:

One stationary magazine creel, include an open front, an after-opening, and a ring-side wall its be to be connected with between this open front and this after-opening, and this ring-side wall is provided with a preceding thread, reaches a back thread, and this preceding thread is to be adjacent to this open front, and this back thread is to be adjacent to this after-opening;

One pre-group mirror cell includes a preceding lens barrel, and this preceding lens barrel is provided with a preceding thread, and it is that correspondence is screwed together in the preceding thread of being somebody's turn to do of this stationary magazine creel, and makes this pre-group mirror cell do axially-movable with respect to the open front of this stationary magazine creel; And

Group mirror cell, one back includes a back lens barrel, and this back lens barrel is provided with a rear thread, and it is this back thread that correspondence is screwed together in this stationary magazine creel, and makes group mirror cell, this back do axially-movable with respect to the after-opening of this stationary magazine creel.

2. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this stationary magazine creel includes a preceding stop section, and this pre-group mirror cell includes a preceding stop part, and it is that corresponding block is in this preceding stop section.

3. Zoom lens structure as claimed in claim 2 is characterized in that, wherein, this preceding stop section is to be a block flange, and this preceding stop part is to be a screw.

4. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this stationary magazine creel includes stop section, a back, and group mirror cell, this back includes a back stop part, and it is that corresponding block is in this stop section, back.

5. Zoom lens structure as claimed in claim 4 is characterized in that, wherein, this stop section, back is the end for a groove, and this back stop part is to be a screw.

6. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this preceding thread and this back thread are to be located at respectively on the inwall of this ring-side wall.

7. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this preceding thread is to be located on the outer wall of this preceding lens barrel.

8. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this rear thread is to be located on the outer wall of this back lens barrel.

9. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this preceding thread and this preceding thread are to be respectively a single line thread.

10. Zoom lens structure as claimed in claim 1 is characterized in that, wherein, this back thread and this rear thread are to be respectively a single line thread.

11. a Zoom lens structure is characterized in that, comprising:

One stationary magazine creel includes an open front, an after-opening, reaches a ring-side wall that is connected with between this open front and this after-opening;

One pre-group mirror cell includes a preceding lens barrel, is installed in this open front of this stationary magazine creel;

Group mirror cell, one back includes a back lens barrel, is installed in this after-opening of this stationary magazine creel;

One first screw thread, be arranged in this open front of this stationary magazine creel and should before on one of them of outer peripheral surface of lens barrel;

One second screw thread, be arranged in this open front of this stationary magazine creel and should before on another of outer peripheral surface of lens barrel, and with this first screw-threaded engagement;

One the 3rd screw thread, be arranged in this after-opening of this stationary magazine creel and one of them of the outer peripheral surface of this back lens barrel on; And

One the 4th screw thread, be arranged in this after-opening of this stationary magazine creel and another of the outer peripheral surface of this back lens barrel on, and with the 3rd screw-threaded engagement.

12. Zoom lens structure as claimed in claim 11, it is characterized in that, stop part before wherein this stationary magazine creel includes a preceding stop section and this pre-group mirror cell and includes one, when this pre-group mirror cell utilizes this first, second threads turn motion, limit the rotational angle of this pre-group mirror cell by this preceding stop part and this preceding stop section.

13. as claim 11 or 12 described Zoom lens structures, it is characterized in that, stop section and this back group mirror cell included a back stop part after wherein this stationary magazine creel included one, when group mirror cell, this back utilizes the motion of the 3rd, the 4th threads turn, limit the rotational angle of group mirror cell, this back by this back stop part and this stop section, back.

14. Zoom lens structure as claimed in claim 12, it is characterized in that, should preceding stop part be the preceding block flange that is arranged at this pre-group mirror cell wherein, and this preceding stop section is the preceding stop ring that is arranged at this open front of this stationary magazine creel, move in this preceding stop ring by this preceding block flange, limit the rotational angle of this pre-group mirror cell.

15. Zoom lens structure as claimed in claim 13, it is characterized in that, wherein this back stop part is the back block flange that is arranged at group mirror cell, this back, and this stop section, back is the back stop ring that is arranged at this after-opening of this stationary magazine creel, move in this back stop ring by this back block flange, limit the rotational angle of group mirror cell, this back.

Images