CN102298188B - Lens bearing jig - Google Patents

Abstract

The invention relates to a lens bearing jig, which comprises a base and an upper cover. The base comprises a first surface and is provided with a plurality of accommodating holes for accommodating lenses. The upper cover and the base are overlapped, and the upper cover is positioned on the first surface and provided with a plurality of through holes which are communicated with the plurality of accommodating holes in a one-to-one correspondence way. Each accommodating hole comprises a bearing hole and a first conical hole which is communicated with the bearing hole, the first conical holes are formed on the first surface and extend to the inside of the base, and the pore size of each first conical hole is reduced along a direction away from the first surface. Each bearing hole is communicated with the each first conical hole at one end away from the first surface, and the pore sizes of connection parts between the first conical holes and the bearing holes are equal. The upper cover is further provided with a plurality of fixing rings which protrude towards the base direction and in one-to-one correspondence with the plurality of through holes, each fixing ring is arranged at one end of the corresponding through hole, which faces to the base, and each fixing ring is communicated with the corresponding through hole and accommodated in the corresponding accommodating hole.

Description

Bearing tool of lens

Technical field

The present invention relates to a kind of bearing tool of lens, relate in particular to a kind of bearing tool of lens with introduction channel and fixture.

Background technology

Along with the development of camera technique, camera lens module is widely used in the camera head of various uses.Camera lens module generally comprises lens barrel, microscope base and is contained in the elements such as lens set, spaced ring and optical filter in lens barrel.

The eyeglass finished product processing utilizes suction nozzle to put in tool conventionally, to treat following process, during as assembling camera lens module, uses.Generally, in tool, the aperture of the accepting hole of bearing lens and the external diameter of eyeglass are more or less the same, and can avoid thus eyeglass in tool, rock or drop.But, in tool the aperture of the accepting hole of bearing lens and the external diameter of eyeglass is more or less the same but will give putting of eyeglass bring certain difficulty, as, the eyeglass that suction nozzle is drawn is difficult to aim at the accepting hole of bearing lens in tool, and cause eyeglass to be difficult for smoothly and to put in place being positioned in the accepting hole in tool, thereby need to additionally manually put, greatly increase corresponding running time and corresponding cost.In addition, because the aperture of accepting hole and the external diameter of eyeglass are more or less the same, place eyeglass in the time of accepting hole, the phenomenon that the edge of eyeglass and accepting hole collides with easily occurs, seriously time, even can make eyeglass scratch and affect the quality of eyeglass, cause the generation of defective products.

Summary of the invention

In view of this, be necessary to provide a kind of bearing tool of lens realization, that can effectively solve problems of the prior art that is easy to.

A kind of bearing tool of lens comprises a base and a upper cover.Described base comprises a first surface, and described first surface is provided with multiple accepting holes of accommodating eyeglass.Described upper cover and described base are superimposed and described upper cover is positioned on described first surface, are covered with multiple vias on described, multiple accepting holes corresponding communicating one by one of described multiple vias and described base.Described in each, accepting hole includes a bearing holes and first bellmouth connecting with described bearing holes, described the first bellmouth is formed on described first surface and to described base is inner and extends, the aperture of described the first bellmouth is along reducing gradually away from the direction of described first surface, described bearing holes connects away from one end and described first bellmouth of described first surface at described the first bellmouth, and the aperture of the part that described the first bellmouth is connected with described bearing holes equates.Described upper cover is further provided with the multiple and described multiple via set collar one to one protruding to described base direction, described in each, set collar is all arranged at a described via corresponding with it towards one end of described base, and described in each, set collar all connects with a corresponding described via and is all contained in a corresponding described accepting hole.

With respect to prior art, bearing tool of lens tool of the present invention has the following advantages: one, while placing the accepting hole of eyeglass in described bearing tool of lens, eyeglass can import in bearing holes smoothly by the first bellmouth in accepting hole, and without additionally manually putting, can effectively increase the efficiency of putting eyeglass.Its two, when the set collar of upper cover and the accepting hole of base coordinate in described bearing tool of lens, both can effectively fixedly be carried on the eyeglass of bearing holes, can to the regulating action of eyeglass, eyeglass be put in place by set collar again and be carried in described bearing holes.Its three, the first bellmouth in accepting hole is unenclosed construction, the external diameter of its aperture and eyeglass differs larger, place eyeglass in the time of accepting hole, be difficult for occurring the phenomenon that the edge of eyeglass and accepting hole collides with, can avoid eyeglass to affect the quality of eyeglass, the generation of minimizing defective products because of scratch.

Brief description of the drawings

Fig. 1 is the schematic diagram of the bearing tool of lens that provides of first embodiment of the invention.

Fig. 2 is the decomposing schematic representation of the bearing tool of lens shown in Fig. 1.

Fig. 3 is the cut-open view of the bearing tool of lens shown in Fig. 1 along III-III direction.

Fig. 4 is view when eyeglass is put to bearing tool of lens shown in Fig. 1.

Fig. 5 is the bearing tool of lens carrying shown in Fig. 1 the schematic diagram of fixing len.

Main element symbol description

Base 10

First surface 11

Second surface 12

Accepting hole 13

The second bellmouth 17

Upper cover 30

The 3rd surface 31

The 4th surface 32

Via 33

Set collar 35

Eyeglass 40

Optics portion 41

Non-optical division 43

Bearing tool of lens 100

Bearing holes 131

The first bellmouth 133

Fixed part 351

Connecting portion 353

Loading end 1311

Embodiment

Below in conjunction with drawings and Examples, the technical program is described in further detail.

See also Fig. 1 to Fig. 3, a kind of bearing tool of lens 100 of first embodiment of the invention, it is for carrying fixing len, and described bearing tool of lens 100 comprises a base 10, and a upper cover 30.

Described base 10 is superimposed and forms described bearing tool of lens 100 with described upper cover 30, and wherein, described upper cover 30 is positioned at the top of described base 10.In the present embodiment, describe as an example of the bearing tool of lens 100 of square structure example, the base 10 in bearing tool of lens 100 described in the present embodiment is square structure with upper cover 30, and described base 10 equates with width dimensions with the length of described upper cover 30.

Described base 10 has 11, one second surfaces 12 relative with described first surface 11 of a first surface and multiple accepting hole 13.Described first surface 11 is superimposed towards described upper cover 30 and with described upper cover 30, and described second surface 12 deviates from described upper cover 30.Described multiple accepting hole 13 is opened in described first surface 11 and extends towards the inside of described base 10, and in the present embodiment, described multiple accepting holes 13 are arranged in length and breadth taking the length and width of described base 10 as benchmark.

Described in each, accepting hole 13 is all for accommodating an eyeglass (not shown).Described in each, accepting hole 13 includes a bearing holes 131 and first bellmouth 133.

Described the first bellmouth 133 connects with described bearing holes 131, described the first bellmouth 133 is formed at described first surface 11 and extends to the inside of described base 10, and the aperture of described the first bellmouth 133 is along reducing gradually away from the direction of described first surface 11.Described bearing holes 131 connects away from one end and described first bellmouth 133 of described first surface 11 at described the first bellmouth 133, the aperture of the part that described the first bellmouth 133 is connected with described bearing holes 131 equates, the minimum-value aperture that is described the first bellmouth 133 equates with the aperture of described bearing holes 131, thus, described the first bellmouth 133 forms the horn-like structure of open type towards described base 10 outsides.

Described bearing holes 131 is for bearing lens, and its cross sectional shape is radially corresponding with the radial section shape of eyeglass.The aperture of described bearing holes 131 is slightly larger than the diameter of eyeglass, thus, can limit the horizontal space of avoiding being carried on the eyeglass in described bearing holes 131, avoids eyeglass at the larger transverse shifting of the interior generation of described bearing holes 131.In the present embodiment, described bearing holes 131 is cylindrical hole, and its bottom surface is the loading end 1311 (as shown in Figure 3) for bearing lens.

Be understandable that, according to the radial section shape of actual bearer eyeglass, can design the bearing holes 131 of Different Diameter to cross sectional shape, thus, described bearing holes 131 can carry the eyeglass of circle, the various shape such as square.Equally, the axial cross section shape of described bearing holes 131 also can design according to the axial cross section shape of actual bearer eyeglass, as, in the time that eyeglass is lenticular lens, can be in the bottom surface of described bearing holes 131, be on described loading end 1311, to offer hole or the groove that a radial dimension is less than the radial dimension of eyeglass, for holding the jut of eyeglass.And, can be corresponding with the shape of the jut of eyeglass for the hole of jut or the shape of groove of holding eyeglass, also can directly penetrate into the second surface 12 of described base 10, certainly, for bearing lens effectively, the radial dimension that should be less than eyeglass for holding the hole of jut of eyeglass or the radial dimension of groove, now, the loading end 1311 of described bearing holes 131 is an annular shape.

Described the first bellmouth 133 forms the structure that imports described bearing holes 131, thus, puts eyeglass in the time of described bearing holes 131, by described the first bellmouth 133, eyeglass successfully can be imported in described bearing holes 131.

Be understandable that, the transition position that described the first bellmouth 133 is connected with described bearing holes 131, can be fillet, thus, can make described the first bellmouth 133 transit to smoothly described bearing holes 131, more be conducive to eyeglass and successfully import in described bearing holes 131 from described the first bellmouth 133.

Further, on the second surface 12 of described base 10, offer multiple the second bellmouths 17 towards described base 10 inner extensions, described multiple the second bellmouths 17 and described multiple accepting holes 13 corresponding communicating one by one.The aperture of the part that described in each, the second bellmouth 17 is connected with the bearing holes 131 of corresponding described accepting hole 13 is less than the aperture of described bearing holes 131, and described in each the aperture of the second bellmouth 17 is vertically from the one end towards described bearing holes 131 to increasing gradually away from one end of described bearing holes 131, make the second bellmouth 17 described in each all form the horn-like structure of open type towards described base 10 outsides.Thus, while adopting described bearing tool of lens 100 to carry out plated film to eyeglass, via described second bellmouth 17 of the horn-like structure of open type, can reduce the shielded area of described base 10 to eyeglass, make eyeglass be exposed to fully the external world away from the surface of described upper cover 30, guarantee that eyeglass obtains sufficient plated film away from the surface of described upper cover 30.

Described upper cover 30 has four surface 32 relative with described the 3rd surface 31,31, one, the 3rd surface, and multiple via 33.Described the 3rd surface 31 is superimposed towards described base 10 and with the first surface 11 of described base 10, and described the 4th surface 32 deviates from described base 10.Described multiple via 33 is opened in described the 4th surface 32, and described in each, via 33 all extends and penetrates described upper cover 30 towards the inside of described upper cover 30, and described in each, via 33 all extends to the 4th surface 32 from the 3rd surface 31 of described upper cover 30.Multiple accepting holes 13 corresponding communicating one by one of described multiple via 33 and described base 10, in the present embodiment, described in each, via 33 is all coaxial with a corresponding described accepting hole 13.

Further, described in each, the aperture of via 33 is all vertically from the one end towards described base 10 to increasing gradually away from one end of described base 10, be that the aperture of via 33 all increases gradually from described the 3rd surface 31 to described the 4th surface 32 described in each, make via 33 described in each all form the horn-like structure of open type away from described base 10.Thus, while adopting described bearing tool of lens 100 to carry out plated film to eyeglass, via the described via 33 of the horn-like structure of open type, can reduce the shielded area of described upper cover 30 to eyeglass, make eyeglass be exposed to fully the external world towards the surface of described upper cover 30, guarantee that eyeglass obtains sufficient plated film towards the surface of described upper cover 30.

Described upper cover 30 is further provided with the multiple set collars 35 that protrude to described base 10 directions, and described multiple set collars 35 are corresponding one by one with described multiple vias 33.Described in each, set collar 35 is all arranged at a described via 33 corresponding with it one end towards described base 10, described in each, set collar 35 all connects with a corresponding described via 33 and is all contained in a corresponding described accepting hole 13,, described in each, set collar 35 is all arranged at the 3rd surface 31 and towards described base 10 of described upper cover 30.In the present embodiment, described in each, the shape of set collar 35 is all corresponding with the shape of corresponding described accepting hole 13, described in each, set collar 35 is all funnel-form, described in each, set collar 35 all has the fixed part 351 of corresponding described bearing holes 131, and the connecting portion 353 of corresponding described the first bellmouth 133.Described fixed part 351 inserts in described bearing holes 131, for being fixedly carried on the eyeglass in described bearing holes 131, when fixing len, the end that described fixed part 351 deviates from described upper cover 30 props up the non-optical division 43 (as shown in Figure 5) of eyeglass to be lifted, and coordinates the non-optical division 43 of blocking eyeglass to be lifted with the loading end 1311 of described bearing holes 131.Described set collar 35 is connected and fixed on the 3rd surface 31 of described upper cover 30 by described connecting portion 353.

Preferably, described in each, set collar 35 is all coaxial with a corresponding described via 33, and hence one can see that, and described in each, set collar 35 is all coaxial with a corresponding via 33 and accepting hole 13.

Described in each, the size of set collar 35 is all less than the size of a described accepting hole 13 corresponding with it, thus, can ensure that set collar 35 all can successfully insert in a corresponding described accepting hole 13 described in each.

Be understandable that, described in each, the axial dimension of set collar 35 can design according to the gauge of the eyeglass of the axial dimension of described accepting hole 13 and carrying, thus, when described upper cover 30 coordinates with described base 10, can guarantee that the 3rd surface 31 of described upper cover 30 is superimposed with the first surface 11 of described base 10.

Be understandable that, in the time that the outer peripheral face of set collar described in each 35 all fits with the inner peripheral surface of a corresponding described accepting hole 13, described set collar 35 can form transition fit or interference fit with described accepting hole 13,, multiple set collars 35 of described upper cover 30 insert after multiple accepting holes 13 of described base 10, can make described upper cover 30 closely cooperate with described base 10 and realize mutual fixing, thereby can be omitted in the fixture that between described upper cover 30 and described base 10, setting cooperatively interacts and fixes and locate, as bearing pin and pin-and-hole.

Preferably, the material of described set collar 35 is plastics or rubber, and thus, described set collar 35 when being carried on eyeglass in described bearing holes 131 and contacting, can avoid material because of described set collar 35 compared with hard scratch eyeglass, affects the outside surface of eyeglass.

Be understandable that, it is one-body molded that described multiple set collars 35 can be used as a part and the described upper cover 30 of described upper cover 30, also can be used as multiple counterparts moulding respectively of described upper cover 30, and be removably mounted on described upper cover 30.

Be understandable that, the concrete shape of described bearing tool of lens 100 is not limited to this enforcement, and according to actual service condition, described bearing tool of lens 100 also can be designed as circle or ellipse.And, the spread pattern of the accepting hole 13 on described base 10 is also not limited to the arrangement in length and breadth in the present embodiment, according to actual service condition, the spread pattern of described accepting hole 13 can described base 10 center be also the center of circle, formation concentric circles is arranged, and in described bearing tool of lens 100, the via 33 of upper cover 30 and the arrangement mode of set collar 35 are corresponding with the arrangement mode of described accepting hole 13.

See also Fig. 4 and Fig. 5, the present embodiment is taking the use of eyeglass 40 described bearing tool of lens 100 as example illustrates.Described eyeglass 40 is lenticular lens, and it has the optics portion 41 that is positioned at described eyeglass 40 centres, and is positioned at the non-optical division 43 of described eyeglass 40 peripheries.

Put before eyeglass 40, first separate the base 10 and upper cover 30 that in described bearing tool of lens 100, are superimposed.Then described eyeglass 40 is put to the first bellmouth 133 to described base 10, under the importing effect of described the first bellmouth 133, described eyeglass 40 enters described bearing holes 131 smoothly.Described base 10 occupies after described eyeglass 40, coordinate described upper cover 30 and described base 10, the set collar 35 of described upper cover 30 inserts in the accepting hole 13 of described base 10 correspondingly, compress described base 10 and described upper cover 30, the 3rd surface 31 of described upper cover 30 is superimposed with the first surface 11 of described base 10, during this time, fixed part 351 in described set collar 35 is under the effect of snap-in force, do not put by adjusting in described bearing holes 131 eyeglass 40 putting in place or tilt, making originally not put the eyeglass 40 putting in place or tilt puts in place and is carried in described bearing holes 131, and finally coordinate and block the non-optical division 43 for the treatment of described eyeglass 40 with the loading end 1311 of described bearing holes 131 by described set collar 35, described eyeglass 40 is fixed in the bearing holes 131 of described base 10.

The non-optical division 43 that can effectively block described eyeglass 40 due to set collar 35, therefore, described set collar 35 can effectively prevent that eyeglass 40 is radially or/and axial rocking.

Be understandable that, utilize described bearing tool of lens 100 to carry out eyeglass 40 plated films and add man-hour, when the described bearing tool of lens 100 that carries eyeglass 40 is positioned in coating apparatus, by described bearing tool of lens 100 is carried out to turn-over, in described bearing tool of lens 100, the via 33 of the horn-like structure of open type and the second bellmouth 17 can make respectively the part to be coated of eyeglass 40 be exposed to fully in film coating environment, thus, can be convenient to complete smoothly corresponding plated film processing.

With respect to prior art, bearing tool of lens tool of the present invention has the following advantages: one, while placing the accepting hole of eyeglass in described bearing tool of lens, eyeglass can import in bearing holes smoothly by the first bellmouth in accepting hole, and without additionally manually putting, can effectively increase the efficiency of putting eyeglass.Its two, when the set collar of upper cover and the accepting hole of base coordinate in described bearing tool of lens, both can effectively fixedly be carried on the eyeglass of bearing holes, can to the regulating action of eyeglass, eyeglass be put in place by set collar again and be carried in described bearing holes.Its three, the first bellmouth in accepting hole is unenclosed construction, the external diameter of its aperture and eyeglass differs larger, place eyeglass in the time of accepting hole, be difficult for occurring the phenomenon that the edge of eyeglass and accepting hole collides with, can avoid eyeglass to affect the quality of eyeglass, the generation of minimizing defective products because of scratch.

In addition, those skilled in the art can also do other and change in spirit of the present invention, and certainly, the variation that these do according to spirit of the present invention, within all should being included in the present invention's scope required for protection.

Claims (10)

1. a bearing tool of lens, it comprises:

A base, described base comprises a first surface, described first surface is provided with multiple accepting holes of accommodating eyeglass; And

A upper cover, described upper cover and described base are superimposed and described upper cover is positioned on the first surface of described base, are covered with multiple vias on described, multiple accepting holes corresponding communicating one by one of described multiple vias and described base;

It is characterized in that,

Described in each, accepting hole includes a bearing holes and first bellmouth connecting with described bearing holes, the aperture of described bearing holes is slightly larger than the diameter of eyeglass to be lifted, described the first bellmouth is formed on described first surface and to described base is inner and extends, the aperture of described the first bellmouth is along reducing gradually away from the direction of described first surface, described bearing holes connects away from one end and described first bellmouth of described first surface at described the first bellmouth, and the aperture of the part that described the first bellmouth is connected with described bearing holes equates; Described upper cover is further provided with the multiple and described multiple via set collar one to one protruding to described base direction, described in each, set collar is all arranged at a described via corresponding with it towards one end of described base, and described in each, set collar all connects with a corresponding described via and is all contained in a corresponding described accepting hole.

2. bearing tool of lens as claimed in claim 1, it is characterized in that, described in each, the shape of set collar is all corresponding with the shape of corresponding described accepting hole, described in each, set collar is all funnel-form, described in each, set collar all has the fixed part of corresponding described bearing holes, and the connecting portion of corresponding described the first bellmouth, described fixed part inserts in the bearing holes of described accepting hole for being fixedly carried on the eyeglass in described bearing holes.

3. bearing tool of lens as claimed in claim 2, it is characterized in that, described bearing holes is cylindrical hole, and it has the bottom surface of bearing lens, and described fixed part deviates from the end of described upper cover and the bottom surface of described bearing holes coordinates the non-optical division of blocking eyeglass to be lifted.

4. bearing tool of lens as claimed in claim 1, is characterized in that, described in each, accepting hole is all coaxial with corresponding a described via and a described set collar.

5. bearing tool of lens as claimed in claim 1, is characterized in that, the aperture of described via is vertically from the one end towards described base to increasing gradually away from one end of described base.

6. bearing tool of lens as claimed in claim 1, is characterized in that, the outer peripheral face of described set collar and the inner peripheral surface of described accepting hole fit.

7. bearing tool of lens as claimed in claim 1, is characterized in that, the material of described set collar is plastics or rubber.

8. the bearing tool of lens as described in claim 1～7 any one, it is characterized in that, the surface that described base is relative with described first surface offers multiple towards inner the second bellmouth extending of described base, described multiple the second bellmouths and described multiple accepting holes corresponding communicating one by one.

9. bearing tool of lens as claimed in claim 8, is characterized in that, the aperture of the part that described in each, the second bellmouth is connected with the bearing holes of corresponding described accepting hole is less than the aperture of described bearing holes.

10. bearing tool of lens as claimed in claim 9, is characterized in that, described in each, the aperture of the second bellmouth is along increasing gradually away from the direction of described bearing holes.