CN205441995U - Automatic equipment of putting of getting of optical glass - Google Patents

Abstract

The utility model discloses an automatic equipment of putting of getting of optical glass aims at providing one kind and not only can place the packing carton with optical glass is vertical, make can be convenient in the packing carton a large amount of optical glass piece of placing, and work efficiency is high, low in labor strength get the equipment of putting. It includes the board and sets up piece device under the optical glass conversion on the board, optical glass conversion piece device down includes optical glass position conversion equipment, optical glass position conversion equipment is including setting up the conversion mounting bracket on the board, the conversion cover of setting on the conversion mounting bracket, the vertical shaft of rotatable setting on the conversion mounting bracket, a rotatory actuating mechanism for rotating vertical shaft, rotary platform and two settings the position shifter on rotary platform of setting on vertical shaft, and two position shifters lie in vertical shaft's relative both sides.

Description

A kind of optical glass automatic clamping and placing equipment

Technical field

What this utility model related to a kind of optical glass takes sheet equipment, is specifically related to a kind of optical glass automatic clamping and placing equipment.

Background technology

The sheet equipment that takes of current optical glass is typically optical glass horizontal positioned, then by the vacuum slot on mechanical hand, the optical glass of level is captured out from film, then by the horizontal positioned groove of optical glass horizontal positioned to packing box, it is laid in packing box.The sheet equipment that takes of current optical glass is only applicable to flat the making even of optical glass and puts, and is not suitable for placing optical glass sheet vertically and is placed in packing box or other fixtures.

In order to solve the problems referred to above, the most generally use and optical glass is taken out from film, be the most vertically placed in the vertical placing trough of packing box；But it is all that employing is manually-operated, although it can place substantial amounts of optical glass in making packing box easily during current this；But its inefficiency, labor intensity are big, and easily scratch optical glass.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that one is possible not only to vertically be placed in packing box optical glass, can place substantial amounts of optical glass sheet easily in making packing box；And the optical glass automatic clamping and placing equipment that work efficiency is high, labor intensity is low.

The technical solution of the utility model is:

A kind of optical glass automatic clamping and placing equipment includes board and the lower sheet devices of the optical glass conversion being arranged on board, the lower sheet devices of described optical glass conversion includes optical glass position conversion device, described optical glass position conversion device includes the conversion installing rack being arranged on board, it is arranged on the conversion sleeve on conversion installing rack, it is rotatably provided in the vertical rotating shaft on conversion installing rack, for rotating the rotary actuator of vertical rotating shaft, it is arranged on the rotation platform in vertical rotating shaft and two position shifters being arranged on rotation platform, and two position shifters are positioned at the opposite sides of vertical rotating shaft；Described vertical rotating shaft passes conversion sleeve, and described rotation platform is positioned at above conversion sleeve, and the end face of described conversion sleeve has high site and low points；What described position shifter included being arranged on rotation platform be vertically directed hole, be slidably arranged on the sliding mandril being vertically directed in hole, the sheet glass mounting table that is rotatably provided on rotation platform by horizontal axostylus axostyle and the conversion vacuum slot being arranged on sheet glass mounting table；Described sheet glass mounting table is positioned at the top of sliding mandril, sliding mandril is positioned at the surface of the end face of conversion sleeve, on sliding mandril and be positioned at below rotation platform and be provided with collar stop, being arranged with pretension compression spring on sliding mandril and between rotation platform and collar stop, the lower end of sliding mandril is resisted against on the end face of conversion sleeve；And when in the low points that the lower end of sliding mandril is positioned at conversion sleeve end face, the optical glass sheet that the conversion vacuum slot of this sliding mandril position shifter is adsorbed is in level；When the lower end of sliding mandril is positioned on the high site of conversion sleeve end face, this sliding mandril upper end is resisted against on the sheet glass mounting table of correspondence, and the optical glass sheet that the conversion vacuum slot on this sheet glass mounting table is adsorbed is in vertical state.

The optical glass automatic clamping and placing equipment of this programme is possible not only to from horizontal transition, optical glass sheet is converted into vertical state, is vertically placed in packing box by optical glass, can place substantial amounts of optical glass easily in making packing box；And work efficiency is high, labor intensity is low.

On the other hand, optical glass sheet is converted to place placement vertically from horizontal positioned and uses two station actions (i.e. two position shifters) by this programme, during making bottom sheet mechanical hand that the optical glass sheet of the vertical state on one position shifter is taken off and to be placed in packing box, it is also possible to realized optical glass sheet by upper slice mechanical hand that from film and horizontal positioned is on the conversion vacuum slot of another position shifter；So circulation, thus realize continuous print conversion work, effectively improve work efficiency.

As preferably, the lower end of the sliding mandril of a position shifter in two position shifters is positioned on the high site of conversion sleeve end face, then the lower end of the sliding mandril of another position shifter is positioned in the low points of conversion sleeve end face.

As preferably, the upper surface of rotation platform is horizontally disposed with, and the side vertical of rotation platform is arranged；Described position shifter also includes the installation gap being arranged on the top surface edge of rotation platform, the described hole that is vertically directed is connected with installation gap, described sheet glass mounting table is in T shape, it is placed plate by vertically-mounted plate and the sheet glass perpendicular with vertically-mounted plate and constitutes, described vertically-mounted plate is positioned at installation gap, and vertically-mounted plate is rotatably provided on rotation platform by described horizontal axostylus axostyle, described conversion vacuum slot is arranged on sheet glass and places on plate, described sheet glass is placed to be provided with between plate and rotation platform and sheet glass can be made to place the extension spring that plate is resisted against on the upper surface of rotation platform.When sheet glass placement plate is resisted against on the upper surface of rotation platform, the optical glass sheet that the conversion vacuum slot that described sheet glass placement plate is in level, and this sheet glass placement plate is adsorbed is also at level；When sheet glass placement plate is resisted against on the side of rotation platform, the optical glass sheet that the conversion vacuum slot that described sheet glass placement plate is in vertical state, and this sheet glass placement plate is adsorbed is also at vertical state.

As preferably, conversion installing rack is provided with vertical stop collar, vertically stop collar coaxial sleeve is located in vertical rotating shaft, vertically the lateral surface of stop collar is provided with two pieces of fixing limit blocks, and two pieces of fixing limit blocks are positioned at the opposite sides of vertical rotating shaft, described rotation platform is provided with the dynamic limited block corresponding with fixing limit block, and when dynamic limited block is resisted against upper, the lower end of the sliding mandril of a position shifter in the shifter of said two position is positioned on the high site of conversion sleeve end face, the lower end of the sliding mandril of another position shifter is positioned in the low points of conversion sleeve end face.

As preferably, conversion sleeve is coaxial with vertical rotating shaft, and the end face of conversion sleeve is inclined-plane or continuous print curved surface, and described high site is the peak of conversion sleeve end face, and low points is the minimum point of conversion sleeve end face.

As preferably, the lower end of sliding mandril is provided with bottom roller, and bottom roller is resisted against on the end face of conversion sleeve.

As preferably, upper slice mechanical hand is provided with the feeding vacuum slot for capturing optical glass, and described bottom sheet mechanical hand is provided with the blanking vacuum slot for capturing optical glass.

As preferably, rotary actuator is rotary cylinder or electric rotating machine.

As preferably, optical glass is changed the quantity of lower sheet devices and is two, and under two optical glass conversions, sheet devices is symmetrically distributed in the opposite sides of optical glass carrying platform.

The beneficial effects of the utility model are: be possible not only to vertically be placed in packing box optical glass, can place substantial amounts of optical glass sheet easily in making packing box；And have the advantages that work efficiency is high, labor intensity is low.

Accompanying drawing explanation

Fig. 1 is a kind of top view of optical glass automatic clamping and placing equipment of the present utility model.

Fig. 2 is a kind of structural representation of a kind of optical glass position conversion device of the present utility model.

In figure: board 1；Optical glass carrying platform 2；Upper slice mechanical hand 3；The lower sheet devices 4 of optical glass conversion；Optical glass position conversion device 4a, conversion installing rack 41, rotary actuator 42, vertically rotating shaft 43, position shifter 44, bottom roller 441, collar stop 442, sliding mandril 443, pretension compression spring 444, extension spring 445, horizontal axostylus axostyle 446, sheet glass mounting table 447, sheet glass place plate 4471, vertically-mounted plate 4472, conversion vacuum slot 448, installation gap 449, rotation platform 45, conversion sleeve 46, high site 46H, low points 46L, vertically stop collar 47, fixing limit block 48, dynamic limited block 49；Bottom sheet mechanical hand 4b；Packing box 5；Optical glass sheet 6.

Detailed description of the invention

With detailed description of the invention, this utility model is described in further detail below in conjunction with the accompanying drawings:

As it is shown in figure 1, a kind of optical glass automatic clamping and placing equipment includes board 1, the optical glass carrying platform 2 that is arranged on board, the upper slice mechanical hand 3 being arranged on board and the lower sheet devices 4 of optical glass conversion being arranged on board.The end face of optical glass carrying platform is horizontal plane.Upper slice mechanical hand is provided with the feeding vacuum slot for capturing optical glass, and the upper slice mechanical hand of the present embodiment is prior art.The optical glass of the present embodiment is changed the quantity of lower sheet devices and is two, and under two optical glass conversions, sheet devices is symmetrically distributed in the opposite sides of optical glass carrying platform.Board is provided with two sheet devices one to one packing box 5 lower with optical glass conversion.The upper end open of packing box, and in packing box, it is provided with some vertical placing troughs of evenly distributed sheet glass.The lower sheet devices of optical glass conversion includes optical glass position conversion device 4a and bottom sheet mechanical hand 4b.Bottom sheet mechanical hand is provided with the blanking vacuum slot for capturing optical glass.The bottom sheet mechanical hand of the present embodiment is prior art.

As shown in Figure 1 and Figure 2, the conversion installing rack 41 that optical glass position conversion device includes being arranged on board, the conversion sleeve 46 being arranged on conversion installing rack, the vertical rotating shaft 43 being rotatably provided on conversion installing rack, for the rotary actuator 42 rotating vertical rotating shaft, the rotation platform 45 that is arranged in vertical rotating shaft and two position shifters 44 being arranged on rotation platform, and two position shifters are positioned at the opposite sides of vertical rotating shaft.Rotary actuator is rotary cylinder or electric rotating machine.Rotation platform is positioned at the upper end of vertical rotating shaft.The upper surface of rotation platform is horizontally disposed with.The side vertical of rotation platform is arranged.

Vertically rotating shaft is through conversion sleeve.Conversion sleeve is vertically arranged.Conversion sleeve is coaxial with vertical rotating shaft.Rotation platform is positioned at above conversion sleeve.The end face of conversion sleeve is inclined-plane or continuous print curved surface.The end face of conversion sleeve has high site 46H and low points 46L, and high site is the peak of conversion sleeve end face, and low points is the minimum point of conversion sleeve end face.

Position shifter include being arranged on the top surface edge of rotation platform installation gap 449, be arranged on rotation platform be vertically directed hole, be slidably arranged on the sliding mandril 443 being vertically directed in hole, the sheet glass mounting table 447 that is rotatably provided on rotation platform by horizontal axostylus axostyle 446 and the conversion vacuum slot 448 being arranged on sheet glass mounting table.It is vertically directed hole to be connected with installation gap.The upper end of sliding mandril is stretched in installation gap.

Sheet glass mounting table is positioned at the top of sliding mandril.Sheet glass mounting table is in T shape, and it is placed plate 4471 by vertically-mounted plate 4472 and the sheet glass perpendicular with vertically-mounted plate and constitutes.Vertically-mounted plate is positioned at installation gap, and vertically-mounted plate is rotatably provided on rotation platform by described horizontal axostylus axostyle.Conversion vacuum slot is arranged on sheet glass and places on plate.Sheet glass is placed to be provided with between plate and rotation platform and sheet glass can be made to place the extension spring 445 that plate is resisted against on the upper surface of rotation platform.One end of extension spring is fixed on sheet glass and places on plate, and the other end is fixed on rotation platform side.

Sliding mandril is positioned at the surface of the end face of conversion sleeve.On sliding mandril and be positioned at below rotation platform and be provided with collar stop 442.Pretension compression spring 444 it is arranged with on sliding mandril and between rotation platform and collar stop.The lower end of sliding mandril is provided with bottom roller 441.The lower end of sliding mandril is resisted against on the end face of conversion sleeve, and specifically, bottom roller is resisted against on the end face of conversion sleeve.

Conversion installing rack is provided with vertical stop collar 47.Vertically stop collar coaxial sleeve is located in vertical rotating shaft.Vertically the lateral surface of stop collar is provided with two pieces of fixing limit blocks 48, and two pieces of fixing limit blocks are positioned at the opposite sides of vertical rotating shaft.Rotation platform is provided with the dynamic limited block 49 corresponding with fixing limit block.The lower end of the sliding mandril of a position shifter in two position shifters is positioned on the high site of conversion sleeve end face, then the lower end of the sliding mandril of another position shifter is positioned in the low points of conversion sleeve end face；Specifically, when dynamic limited block is resisted against upper, the lower end of the sliding mandril of a position shifter in two position shifters is positioned on the high site of conversion sleeve end face, and the lower end of the sliding mandril of another position shifter is positioned in the low points of conversion sleeve end face.

As in figure 2 it is shown, when in the low points that the lower end of sliding mandril is positioned at conversion sleeve end face, the optical glass sheet that the conversion vacuum slot of this sliding mandril position shifter is adsorbed is in level；Specifically, when in the low points that the lower end of sliding mandril is positioned at conversion sleeve end face, the sheet glass of this sliding mandril position shifter is placed plate and is resisted against on the upper surface of rotation platform.When sheet glass placement plate is resisted against on the upper surface of rotation platform, the optical glass sheet that the conversion vacuum slot that described sheet glass placement plate is in level, and this sheet glass placement plate is adsorbed is also at level.

When the lower end of sliding mandril is positioned on the high site of conversion sleeve end face, this sliding mandril upper end is resisted against on the sheet glass mounting table of correspondence, and the optical glass sheet that the conversion vacuum slot on this sheet glass mounting table is adsorbed is in vertical state；Specifically, when the lower end of sliding mandril is positioned on the high site of conversion sleeve end face, sheet glass is placed plate and is resisted against on the side of rotation platform.When sheet glass placement plate is resisted against on the side of rotation platform, the optical glass sheet that the conversion vacuum slot that described sheet glass placement plate is in vertical state, and this sheet glass placement plate is adsorbed is also at vertical state.

The specific works process of the optical glass automatic clamping and placing equipment of the present embodiment is as follows:

First, captured by the feeding vacuum slot of upper slice mechanical hand and lie in a horizontal plane in the optical glass sheet on optical glass carrying platform；Then, optical glass sheet is placed into " on the conversion vacuum slot of the position shifter that sliding mandril lower end is positioned in the low points of conversion sleeve end face " by upper slice mechanical hand, by conversion vacuum slot, optical glass sheet is adsorbed, and the optical glass sheet 6 that this conversion vacuum slot is adsorbed is in level (as being positioned at the optical glass sheet of absorption on the conversion vacuum slot of the position shifter on right side in Fig. 2).

Second, rotary actuator is rotated flat rotation turnback by vertical rotating shaft, makes limited block be resisted against on another fixing limit block；Now, the lower end of the sliding mandril being adsorbed with the position shifter of optical glass sheet in the first step is positioned on the high site of conversion sleeve end face, this position shifter obtains sliding mandril up jack-up in this process, make sheet glass mounting table rotate up to sheet glass placement plate around horizontal axostylus axostyle to be resisted against on the side of rotation platform, so that the optical glass sheet 6 of absorption is rotated to be vertical state (as being positioned on the conversion vacuum slot of the position shifter in left side the optical glass sheet adsorbed in Fig. 2) by level on first step conversion vacuum slot；

Meanwhile, the lower end of the sliding mandril of another position shifter will be located in the low points of conversion sleeve end face.

3rd, by being in the optical glass sheet of vertical state on the blanking vacuum slot crawl position shifter of bottom sheet mechanical hand, and the optical glass sheet of vertical state is placed in the vertical placing trough of sheet glass of packing box；

Meanwhile, captured by the feeding vacuum slot of upper slice mechanical hand and lie in a horizontal plane in the optical glass sheet on optical glass carrying platform；Then, optical glass sheet is placed into " on the conversion vacuum slot of the position shifter that sliding mandril lower end is positioned in the low points of conversion sleeve end face " by upper slice mechanical hand, by conversion vacuum slot, optical glass sheet is adsorbed, and the optical glass sheet that this conversion vacuum slot is adsorbed is in level.

4th step, returns the first step and continues executing with, and so circulation is repeatedly, thus gradually the optical glass sheet of horizontal level is converted into the optical glass sheet of vertical position and is placed in packing box.

Claims (10)

1. an optical glass automatic clamping and placing equipment, it is characterized in that, including board and the optical glass lower sheet devices of conversion that is arranged on board, the lower sheet devices of described optical glass conversion includes optical glass position conversion device, optical glass position conversion device includes the conversion installing rack being arranged on board, it is arranged on the conversion sleeve on conversion installing rack, it is rotatably provided in the vertical rotating shaft on conversion installing rack, for rotating the rotary actuator of vertical rotating shaft, it is arranged on the rotation platform in vertical rotating shaft and two position shifters being arranged on rotation platform, and two position shifters are positioned at the opposite sides of vertical rotating shaft；Described vertical rotating shaft passes conversion sleeve, and described rotation platform is positioned at above conversion sleeve, and the end face of described conversion sleeve has high site and low points；

What described position shifter included being arranged on rotation platform be vertically directed hole, be slidably arranged on the sliding mandril being vertically directed in hole, the sheet glass mounting table that is rotatably provided on rotation platform by horizontal axostylus axostyle and the conversion vacuum slot being arranged on sheet glass mounting table；Described sheet glass mounting table is positioned at the top of sliding mandril, sliding mandril is positioned at the surface of the end face of conversion sleeve, on sliding mandril and be positioned at below rotation platform and be provided with collar stop, being arranged with pretension compression spring on sliding mandril and between rotation platform and collar stop, the lower end of sliding mandril is resisted against on the end face of conversion sleeve；And when in the low points that the lower end of sliding mandril is positioned at conversion sleeve end face, the optical glass sheet that the conversion vacuum slot of this sliding mandril position shifter is adsorbed is in level；When the lower end of sliding mandril is positioned on the high site of conversion sleeve end face, this sliding mandril upper end is resisted against on the sheet glass mounting table of correspondence, and the optical glass sheet that the conversion vacuum slot on this sheet glass mounting table is adsorbed is in vertical state.

Optical glass automatic clamping and placing equipment the most according to claim 1, it is characterized in that, the lower end of the sliding mandril of a position shifter in two position shifters is positioned on the high site of conversion sleeve end face, then the lower end of the sliding mandril of another position shifter is positioned in the low points of conversion sleeve end face.

Optical glass automatic clamping and placing equipment the most according to claim 1, is characterized in that, the upper surface of described rotation platform is horizontally disposed with, and the side vertical of rotation platform is arranged；Described position shifter also includes the installation gap being arranged on the top surface edge of rotation platform, the described hole that is vertically directed is connected with installation gap, described sheet glass mounting table is in T shape, it is placed plate by vertically-mounted plate and the sheet glass perpendicular with vertically-mounted plate and constitutes, described vertically-mounted plate is positioned at installation gap, and vertically-mounted plate is rotatably provided on rotation platform by described horizontal axostylus axostyle, described conversion vacuum slot is arranged on sheet glass and places on plate, described sheet glass is placed to be provided with between plate and rotation platform and sheet glass can be made to place the extension spring that plate is resisted against on the upper surface of rotation platform.

Optical glass automatic clamping and placing equipment the most according to claim 3, it is characterized in that, when sheet glass placement plate is resisted against on the upper surface of rotation platform, the optical glass sheet that the conversion vacuum slot that described sheet glass placement plate is in level, and this sheet glass placement plate is adsorbed is also at level；When sheet glass placement plate is resisted against on the side of rotation platform, the optical glass sheet that the conversion vacuum slot that described sheet glass placement plate is in vertical state, and this sheet glass placement plate is adsorbed is also at vertical state.

Optical glass automatic clamping and placing equipment the most according to claim 1, it is characterized in that, described conversion installing rack is provided with vertical stop collar, vertically stop collar coaxial sleeve is located in vertical rotating shaft, vertically the lateral surface of stop collar is provided with two pieces of fixing limit blocks, and two pieces of fixing limit blocks are positioned at the opposite sides of vertical rotating shaft, described rotation platform is provided with the dynamic limited block corresponding with fixing limit block, and when dynamic limited block is resisted against upper, the lower end of the sliding mandril of a position shifter in the shifter of said two position is positioned on the high site of conversion sleeve end face, the lower end of the sliding mandril of another position shifter is positioned in the low points of conversion sleeve end face.

6. according to the optical glass automatic clamping and placing equipment described in claim 1 or 2 or 3 or 4 or 5, it is characterized in that, described conversion sleeve is coaxial with vertical rotating shaft, and the end face of conversion sleeve is inclined-plane or continuous print curved surface, described high site is the peak of conversion sleeve end face, and low points is the minimum point of conversion sleeve end face.

7. according to the optical glass automatic clamping and placing equipment described in claim 1 or 2 or 3 or 4 or 5, it is characterized in that, the lower end of described sliding mandril is provided with bottom roller, and bottom roller is resisted against on the end face of conversion sleeve.

8. according to the optical glass automatic clamping and placing equipment described in claim 1 or 2 or 3 or 4 or 5, it is characterized in that, also including the optical glass carrying platform being arranged on board and the upper slice mechanical hand being arranged on board, described upper slice mechanical hand is provided with the feeding vacuum slot for capturing optical glass.

9. according to the optical glass automatic clamping and placing equipment described in claim 1 or 2 or 3 or 4 or 5, it is characterized in that, the lower sheet devices of described optical glass conversion also includes that bottom sheet mechanical hand, described bottom sheet mechanical hand are provided with the blanking vacuum slot for capturing optical glass.

10. according to the optical glass automatic clamping and placing equipment described in claim 1 or 2 or 3 or 4 or 5, it is characterized in that, described optical glass is changed the quantity of lower sheet devices and is two, and under two optical glass conversions, sheet devices is symmetrically distributed in the opposite sides of optical glass carrying platform.