CN209533065U - New spherical mirror feeding dish structure - Google Patents

Abstract

The utility model provides a kind of new spherical mirror feeding dish structure, including the non-core eyeglass charging tray and charging tray positioning plate for installing non-edging eyeglass, non- core eyeglass charging tray includes square shape disk body, the quadrangle lower part of disk body, which is extended with, outstanding turns shape profile, the middle part of disk body has through-hole, through-hole includes middle part less than the clear opening to sabot optic diameter, clear opening top and lower part have symmetrically arranged cone cell groove, the small one end of cone cell groove diameter and clear opening connection, charging tray positioning plate upper surface has multiple locating slots for accommodating multiple non-core eyeglass charging trays, clear opening and cone cell groove are coaxial, the utility model structure, which can simply be conveniently realized, arranges disk efficiency to raising employee, save the time, and guarantee that stable and position is accurate during eyeglass is transported.

Description

New spherical mirror feeding dish structure

Technical field

The utility model relates to a kind of new spherical mirror feeding dish structures.

Background technique

Core take be machining lens a wherein procedure, i.e., by eyeglass by optics ask core machine to edge process, to reach Conjunction to lens edge central axis and optical axis causes, as shown in Figure 1, eyeglass 100 is under the grinding at 101 edge of whetslate to eyeglass 100 Edge carries out processing edging, and in order to adapt to, automatic charging is general to ask core machine feeding laggard using negative pressure sucker centering eyeglass Row draws blowing after feeding, existing mode be between eyeglass be placed on surface have in reeded charging tray, this method is not only Be easy to cause eyeglass occur in moving process shake cause it is unstable in, it is also possible to during employee's discharge also compared with It is easy to appear eyeglass for trouble to fall off the possibility of damage, low efficiency.

Utility model content

The utility model improves the above problem, i.e., the technical problems to be solved in the utility model is existing mirror Piece screening transfer efficiency is low and is easy to appear and falls damage.

The specific embodiment of the utility model is: new spherical mirror feeding dish structure, including for installing non-edged mirror The non-core eyeglass charging tray and charging tray positioning plate of piece, the non-core eyeglass charging tray include square shape disk body, the quadrangle lower part of the disk body Be extended with it is outstanding turn shape profile, the middle part of the disk body has a through-hole, the through-hole include middle part be less than it is straight to sabot eyeglass The clear opening of diameter, the clear opening top and lower part have symmetrically arranged cone cell groove, the cone cell groove diameter it is small one End and clear opening connection, charging tray positioning plate upper surface has multiple locating slots for accommodating multiple non-core eyeglass charging trays, described Clear opening and cone cell groove are coaxial.

Further, the locating slot has the profile being consistent with non-core eyeglass charging tray shape.

Further, the core feeding disk further includes that core eyeglass charging tray, the upper surface of the eyeglass charging tray of core have had Raised rib outward, the upper surface of the eyeglass charging tray of core is buckled with dismountable bottom plate, the bottom plate side and rib Contact, bottom plate have the tapered recess for accommodating eyeglass,

Further, the plate upper surface also releasable connection has panel, has location hole, the panel on the bottom plate Lower surface is fixed with the protrusion positioning pin with location hole cooperation.

Further, the rib includes lateral rib and longitudinal rib, is stayed between the transverse direction rib and longitudinal rib Be conducive to fetch the gap of panel and bottom plate.

Further, the through hole that core eyeglass charging tray middle part has corresponding cone cell groove coaxial described in through-hole.

Further, the eyeglass charging tray outer profile of core is consistent with non-core eyeglass charging tray profile.

Compared with prior art, the utility model has the following beneficial effects: the utility model utilizes non-core eyeglass charging tray And charging tray positioning plate can rapidly shift eyeglass from blister, and multiple non-core eyeglass charging trays can be carried out longitudinal stack greatly Space occupancy rate is reduced greatly, while improving the stability of eyeglass in non-core eyeglass charging tray, avoids out eyeglass centering accurately The problem of negative pressure sucker can not be drawn when existing feeding, furthermore the utility model additionally provides core eyeglass charging tray, can complete The eyeglass of edging is transported through and equally ensure that the firm to neutralization of eyeglass avoids the occurrence of the problem of unusual fluctuation is fallen in the process.

Detailed description of the invention

Fig. 1 is the utility model edging structural schematic diagram.

Fig. 2 is the existing material tray structure schematic diagram of the utility model.

Fig. 3 is the non-core eyeglass material tray structure schematic diagram of the utility model.

Fig. 4 is the non-core eyeglass charging tray rearview of the utility model.

Fig. 5 is the non-core eyeglass charging tray closed state structural schematic diagram of the utility model.

Fig. 6 is the non-core eyeglass charging tray closed state lens position structural schematic diagram of the utility model.

Fig. 7 is the utility model bubble shell structure schematic diagram.

Fig. 8 is that the non-core eyeglass charging tray of the utility model is located at fit structure schematic diagram on blister.

Fig. 9 is the utility model charging tray positioning plate structure schematic diagram.

Figure 10 is the utility model charging tray positioning plate and non-core eyeglass charging tray fit structure schematic diagram.

Figure 11 is the utility model core eyeglass material tray structure schematic diagram.

Figure 12 is the utility model panel construction schematic diagram.

Figure 13 is the utility model structural diagram of base plate.

Figure 14 is the utility model bottom plate and core eyeglass charging tray fit structure schematic diagram.

Figure 15 is the utility model bottom plate and panel fit structure schematic diagram.

Figure 16 is the utility model bottom plate and panel fit structure diagrammatic cross-section.

Specific embodiment

The utility model is described in more detail with reference to the accompanying drawings and detailed description.

As shown in Fig. 1~2, new spherical mirror feeding dish structure, including the non-core eyeglass material for installing non-edging eyeglass Disk 10 and charging tray positioning plate 20, the non-core eyeglass charging tray 10 include square shape disk body, and the quadrangle lower part of the disk body is extended with prominent Out turn shape profile 110, the middle part of the disk body has through-hole, and the through-hole includes that middle part is less than to the straight of sabot optic diameter Through-hole 111, the clear opening top and lower part have symmetrically arranged cone cell groove 112, the cone cell groove diameter it is small one End and clear opening connection, 20 upper surface of charging tray positioning plate have multiple locating slots 210 for accommodating multiple non-core eyeglass charging trays, The clear opening and cone cell groove are coaxial.

The locating slot has the profile being consistent with non-core eyeglass charging tray shape.

In use, including the following steps

(1) non-core eyeglass charging tray is tipped upside down on to 103 upper surface of blister for being used to place to edging eyeglass supplied materials, is overturn 180 °, taking blister away can be placed in each edging eyeglass in non-core eyeglass charging tray 10；

(2) eyeglass to edging is put into the top cone cell groove in non-core eyeglass charging tray, later by multiple non-core mirrors Piece charging tray 10 overlaps, and is sandwiched in eyeglass between adjacent non-core eyeglass charging tray 10, is located below the top cone cell of non-core eyeglass charging tray The eyeglass centering of non-edging is arranged in the cooperation of the lower part cone cell groove of groove and the non-core eyeglass charging tray being located above, later will material Disk is placed in charging tray positioning plate；

Since multiple shape profiles 110 that turn make the non-core eyeglass charging tray being located above in adjacent non-core eyeglass charging tray 10 overlapping card Main underlying non-core eyeglass charging tray 10, to misplace.

(3) charging tray positioning plate is placed on to the feed end of lens edging machine, lens edging machine is by eyeglass from feed end Place, which is drawn, carries out edging processing；

20 upper surface of charging tray positioning plate has multiple locating slots 210 for accommodating multiple non-core eyeglass charging trays, will be equipped with to be added The non-core eyeglass charging tray of work eyeglass is placed on the feed end that lens edging machine is placed on behind 20 upper surface of charging tray positioning plate, makes to put The feed end set in lens edging machine obtains progress edging processing after mechanical arm is drawn eyeglass by negative pressure sucker.

Core feeding disk further includes that core eyeglass charging tray 30, the upper surface of the eyeglass charging tray of core have had raised outward Rib 310, the upper surface of core eyeglass charging tray is buckled with dismountable bottom plate 320, and 320 side of bottom plate is contacted with rib, bottom Plate, which has, accommodates the tapered recess of eyeglass, and in the present embodiment, the rib includes lateral rib 311 and longitudinal rib 312, described There are be conducive to fetch the gap 313 of panel and bottom plate between lateral rib and longitudinal rib.

320 upper surface of bottom plate also releasable connection has panel 330, has location hole 321 on the bottom plate 320, described Panel lower surface is fixed with the protrusion positioning pin 331 cooperated with location hole 321.

The through hole that core eyeglass charging tray middle part has corresponding cone cell groove coaxial described in through-hole, the eyeglass charging tray of core Outer profile is consistent with non-core eyeglass charging tray profile, to can also be directly placed into charging tray positioning plate 20.

Another charging tray positioning plate is placed in the discharge end of lens edging machine, in the charging tray positioning plate 20 at discharge end Core eyeglass charging tray 30 is placed, the eyeglass after the completion of edging is put into core eyeglass charging tray 30 by lens edging machine, Zhi Houzai Core eyeglass charging tray upper surface is buckled into bottom plate, and 180 ° of overturning is placed in the eyeglass after the completion of edging in bottom plate 320, is finally being taken Under core eyeglass charging tray 30 and be put into panel 330 in the upper surface of bottom plate 320；

Positioning pin 331 and the mutual cooperation of the location hole 321 realization bottom plate 320 of bottom plate and consolidating for panel 330 using panel Surely guarantee that the eyeglass after the completion of edging is sandwiched between panel 330 and bottom plate 320.

If the utility model is open or relates to the components or structural member of connection fastened to each other, except as otherwise sound It is bright outer, it is fixedly connected it is to be understood that connection (such as using bolt or screw connection) can be removedly fixed, can also manage Solution are as follows: it is non-removable to be fixedly connected with (such as riveting, welding), certainly, connection fastened to each other or integral structure ( Such as manufactured using casting technique is integrally formed) replaced (obviously can not be using except integrally formed technique).

In addition, for indicating positional relationship or shape applied in above-mentioned any technical solution disclosed by the utility model Term its meaning includes approximate with its, similar or close state or shape unless otherwise stated.

Either component provided by the utility model by multiple individual component parts either assembled, or The separate part that integrally formed technique manufactures.

Finally it should be noted that: above embodiments are only to illustrate the technical solution of the utility model rather than limit it System；Although the utility model has been described in detail with reference to the preferred embodiment, those of ordinary skill in the art should Understand: specific implementation of the utility model can still be modified or is equally replaced to some technical characteristics It changes；Without departing from the spirit of technical solutions of the utility model, should all cover in the claimed technical solution of the utility model In range.

Claims (7)

1. new spherical mirror feeding dish structure, which is characterized in that including for installing non-edging eyeglass non-core eyeglass charging tray and Charging tray positioning plate, the non-core eyeglass charging tray include square shape disk body, and the quadrangle lower part of the disk body, which is extended with, outstanding turns shape button Item, the middle part of the disk body have through-hole, and the through-hole includes middle part less than the clear opening to sabot optic diameter, described straight-through Hole top and lower part have symmetrically arranged cone cell groove, the small one end of the cone cell groove diameter and clear opening connection, described Charging tray positioning plate upper surface has multiple locating slots for accommodating multiple non-core eyeglass charging trays, and the clear opening and cone cell groove are same Axis.

2. new spherical mirror feeding dish structure according to claim 1, which is characterized in that the locating slot has and non-core The profile that eyeglass charging tray shape is consistent.

3. new spherical mirror feeding dish structure according to claim 2, which is characterized in that the core feeding disk further includes Core eyeglass charging tray, the upper surface of the eyeglass charging tray of core have a rib raised outward, the eyeglass charging tray of core it is upper Surface is buckled with dismountable bottom plate, and the bottom plate side is contacted with rib, and bottom plate has the tapered recess for accommodating eyeglass.

4. new spherical mirror feeding dish structure according to claim 3, which is characterized in that the plate upper surface is also removable It is connected with panel, there is location hole on the bottom plate, the panel lower surface is fixed with the protrusion positioning pin with location hole cooperation.

5. new spherical mirror feeding dish structure according to claim 3, which is characterized in that the rib includes lateral rib And longitudinal rib, there are be conducive to fetch the gap of panel and bottom plate between the transverse direction rib and longitudinal rib.

6. new spherical mirror feeding dish structure according to claim 3, which is characterized in that core eyeglass charging tray described in through-hole The through hole that middle part has corresponding cone cell groove coaxial.

7. new spherical mirror feeding dish structure according to claim 3, which is characterized in that the eyeglass of the core charging tray foreign steamer Exterior feature is consistent with non-core eyeglass charging tray profile.