CN102887651B - Separate wax apparatus - Google Patents

Abstract

The invention provides and a kind of separate wax apparatus, for multiple coaxially superimposed by multiple circular glass sheet respectively and carry out solution wax by the coupled column that wax is bonded.Separate wax apparatus and comprise first transport unit, multiple gripping drive unit, a heating unit and a control device.First transport unit has a loading end and for driving the object on loading end to move.Each gripping drive unit is used for a fixing corresponding coupled column and drives it near loading end.Heating unit is used for heating to melt wax to the surface of coupled column near loading end.Control device drives coupled column and loading end near a predetermined heat time for controlling gripping drive unit, to make this coupled column depart from this coupled column near the sheet glass of this loading end and bear against after on this loading end, control this first transport unit and drive multiple sheet glass of this disengaging away from this heating unit.So, the sheet glass separated in coupled column can be transported to operation under normal temperature environment.

Description

Separate wax apparatus

Technical field

The present invention relates to a kind of solution wax apparatus.

Background technology

In order to be assembled into circular lens barrel, the sheet glass be square after cutting out need carry out round as a ball usually.Before round as a ball, multiple square sheet glass is superimposed successively, and adjacent sheet glass is bonded by wax.After round as a ball, each sheet glass is processed to circle, and still keeps superimposed and form a columned coupled column.In order to obtain independent, clean sheet glass, usually coupled column to be placed in hot environment to make wax dissolve, artificial being fixed to by sheet glass holds dish again, each sheet glass is holding separation setting in dish, finally will hold dish immerses in dissolving liquid medicine, to dissolve the wax accompanying by sheet glass with sheet glass.But, at high temperature sheet glass is fixed to for a long time and holds dish and easily bring out occupational illness.

Summary of the invention

In view of this, be necessary to provide a kind of solution wax apparatus allowing operator operation at normal temperatures.

A kind of separate wax apparatus, for multiple coaxially superimposed by multiple circular glass sheet respectively and carry out solution wax by the coupled column that wax is bonded.This solution wax apparatus comprises first transport unit, multiple gripping drive unit, a heating unit and a control device.This first transport unit comprises one for carrying the loading end of this sheet glass multiple, and for driving the sheet glass on this loading end to move.Each gripping drive unit is used for a fixing corresponding coupled column, and is compressed to this loading end by this coupled column, to make this coupled column perpendicular to a surface of its axis near this loading end.This heating unit is used for heating wax is melted to the surface of this coupled column near this loading end.This control device is connected to the plurality of gripping drive unit and this first transport unit, a corresponding coupled column and a predetermined heat time of this loading end is compressed for controlling each gripping drive unit, to make this coupled column depart from this coupled column near the sheet glass of this loading end and bear against after on this loading end, control this first transport unit and drive multiple sheet glass of this disengaging away from this heating unit.

Compared with prior art, the sheet glass in each coupled column, by heating a predetermined heat time to coupled column, can be separated and for operation under being transported to normal temperature environment, eliminate the factor of bringing out occupational illness by solution wax apparatus of the present invention one by one.

Accompanying drawing explanation

Fig. 1 is the structural representation of the solution wax apparatus of better embodiment of the present invention.

Fig. 2 is the enlarged diagram at the II place of the solution wax apparatus of Fig. 1.

Fig. 3 is the enlarged diagram at the III place of the solution wax apparatus of Fig. 1.

Fig. 4 is the solution wax apparatus flow process Cause and Effect matrix in the course of the work of Fig. 1.

Main element nomenclature

Coupled column 20

Sheet glass 22

Separate wax apparatus 10

First transport unit 100

First motion-work wheel 102

First driven wheel 104

First conveying belt 106

Loading end 110

Gripping drive unit 200

Cylinder 202

Accommodation space 202a

Depression bar 204

Lower hydraulic driver 206

Heating unit 300

Second transport unit 400

Second motion-work wheel 402

Second driven wheel 404

Second conveying belt 406

Operating surface 410

Transition apparatus 500

Adapter surface 502

Cambered surface 504

Bottom surface 506

Chute 508

Keep out device 600

Cylinder 602

Piston rod 604

High pressurized gas 700

Control device 800

Following embodiment will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Embodiment

Please refer to Fig. 1 to Fig. 3, the solution wax apparatus 10 of better embodiment of the present invention is for carrying out solution wax to the coupled column 20 with multiple sheet glass 22.Sheet glass 22 diameter in coupled column 20 is identical and coaxially superimposed successively, and adjacent sheet glass 22 is bonded by wax.Wax apparatus 10 comprises first transport unit 100 to solution, multiple gripping drive unit 200, heating unit 300, second transport unit 400, transition apparatus 500, keeps out device 600, high pressurized gas 700 and a control device 800.

First transport unit 100 comprises first motion-work wheel 102, first driven wheel 104 and first conveying belt 106.First conveying belt 106 is closely sheathed with the first motion-work wheel 102 and the first driven wheel 104.First motion-work wheel 102 rotates for driving the first conveying belt 106.First conveying belt 106 comprises a loading end 110 upward, and loading end 110 is for carrying object.First conveying belt 106 has the good capacity of heat transmission, and fusing point is higher than 100 degrees Celsius.

Multiple gripping drive unit 200 is all positioned at above loading end 110 and along the throughput direction of the first conveying belt 106 and arranges.Each gripping drive unit 200 comprises a cylinder 202, depression bar 204 and a lower hydraulic driver 206.Cylinder 202 is arranged along the direction perpendicular to loading end 110.Cylinder 202 upper and lower opening and hollow, comprise a columned accommodation space 202a axially offered along it.The internal diameter of cylinder 202 is corresponding with the diameter of sheet glass 22, with accommodating coupled column 20, and makes coupled column 20 equal the gravity of coupled column 20 with the stiction of cylinder 202 inwall, thus maintains coupled column 20 without static in accommodation space 202a maintenance during External Force Acting.Hydraulic driver 206 is positioned at the side of cylinder 202 away from loading end 110.Depression bar 204 is connected to lower hydraulic driver 206, can under the driving of lower hydraulic driver 206 axially moving at cylinder 202, and to may extend within accommodation space 202a.

Heating unit 300 is arranged between the first motion-work wheel 102 and the first driven wheel 104, and between the first conveying belt 106, near loading end 110.Heating unit 300 for coupled column 20 near the surface heating to 60 of loading end 110 to 80 degrees Celsius.The heated perimeter of heating unit 300 is corresponding with the distribution range of gripping drive unit 200.

Second transport unit 400 is positioned at the oblique below of the first transport unit 100.Second transport unit 400 comprises second motion-work wheel 402, second driven wheel 404 and second conveying belt 406.Second conveying belt 406 is closely sheathed with the second motion-work wheel 402 and the second driven wheel 404.Second motion-work wheel 402 rotates for driving the second conveying belt 406.Second conveying belt 406 comprises an operating surface 410 upward, and operating surface 410 is for carrying object.

Transition apparatus 500 is roughly in wedge, and it comprises the bottom surface 506 that cambered surface 504 that an adapter surface 502, is connected with adapter surface 502 and connect adapter surface 502 and cambered surface 504.Adapter surface 502 offers the rectangular chute 508 that connects cambered surface 504 and bottom surface 506, the radian of cambered surface 504 is corresponding with the radian of the first motion-work wheel 102.The width of chute 508 is a bit larger tham the diameter of sheet glass 22, can slide to make sheet glass 22 along the length direction of chute 508.Transition apparatus 500 is arranged between the first transport unit 100 and the second transport unit 400, and cambered surface 504 near the first transport unit 100, and makes adapter surface 502 connect loading end 110 and operating surface 410.

Keep out device 600 and comprise a cylinder 602 and a piston rod driven by cylinder 602 604.Cylinder 602 is arranged on the side that transition apparatus 500 is abutted against the second transport unit 400, piston rod 604 is under the driving of cylinder 602, can be movable to a first location be positioned at outside chute 508 on the width of chute 508, on the width of chute 508, also can move to the second position of a closed chute 508 near operating surface 410 side.

High pressurized gas 700 is roughly in corresponding with adapter surface 502 square, relative with adapter surface 502, for blowing out high pressure gas to adapter surface 502.

Control device 800 is connected to the first motion-work wheel 102, lower hydraulic driver 206 and cylinder 602.Control device 800 just drives the first conveying belt 106 to rotate a scheduled delivery time for controlling the first motion-work wheel 102 every a predetermined heat time, and in scheduled delivery time, the first conveying belt 106 at least turns over the length of half first conveying belt 106.Control device 800 for control cylinder 602 every a scheduled delivery time with regard to piston rod 604 activity to first location, and again interval predetermined heat time with regard to piston rod 604 activity to the second position.Control device 800 also just drives depression bar 204 to move the distance of the thickness of a sheet glass along the axis of cylinder 202 to the first transport unit 100 for controlling lower hydraulic driver 206 at interval of a predetermined heat time and scheduled delivery time.In the present embodiment, the predetermined heat time is 2 to 3 seconds, and scheduled delivery time is 5 to 6 seconds.

Please composition graphs 4 again, in working process, first opens heating unit 300 and makes its temperature-stable at 60 to 80 degrees Celsius.High pressurized gas 700 blows out high pressure gas to adapter surface 502, and piston rod 604 is positioned at the second position, and the second motion-work wheel 402 drives the second conveying belt 406 to rotate.Down-pressed pole 204 is moved to outside accommodation space 202a, coupled column 20 is put into corresponding cylinder 202, and coupled column 20 is contacted with loading end 110, then down-pressed pole 204 is moved to contact with coupled column 20.This timed unit 800 is started working, after a predetermined heat time, wax on the sheet glass 22 contacted with loading end 110 dissolves, and this sheet glass 22 just departs from coupled column 20 and bears against on loading end 110, and sheet glass 22 is wrapped up by the wax dissolved near the side of loading end 110.This timed unit 800 controls the first motion-work wheel 102 and drives the first conveying belt 106 to rotate, and slips into one by one in chute 508 to make the sheet glass 22 on loading end 110.Enter the sheet glass 22 of chute 508 under the blowing of high pressure gas, towards the cerul on the surface of high pressurized gas 700, this is blown off for it.Under the supporting of piston rod 604, after the first conveying belt 106 moves a scheduled delivery time, multiple sheet glass 22 also to come in chute 508 and to connect successively.This timed unit 800 control cylinder 602 piston rod 604 activity, to first location, slips into operating surface 410 to make multiple sheet glass 22 side by side.Under the drive of the second conveying belt 406, multiple sheet glass 22 is side by side lowered the temperature gradually away from heating unit 300, and wax solidifies and makes multiple sheet glass 22 fix in a row, facilitates operator and takes.When piston rod 604 activity is to first location, control device 800 also controls lower hydraulic driver 206 simultaneously and drives depression bar 204 to press down the distance of the thickness of a sheet glass 22, again contacts with loading end 110 to make coupled column 20.After a predetermined heat time, the activity of control device 800 control piston bar 604 is to the second position, also control the first conveying belt 106 simultaneously and rotate a scheduled delivery time, to carry out said process, until last sheet glass 22 of coupled column 20 is transferred into operating surface 410.

Be appreciated that coupled column 20 also can contacted with loading end 110 by the process that heats.

Those skilled in the art will be appreciated that; above embodiment is only used to the present invention is described; and be not used as limitation of the invention; as long as within spirit of the present invention, the appropriate change do above embodiment and change all drop within the scope of protection of present invention.

Claims (10)

1. separate a wax apparatus, for multiple coaxially superimposed by multiple circular glass sheet respectively and carry out solution wax by the coupled column that wax is bonded; This solution wax apparatus comprises:

First transport unit, comprises one for carrying the loading end of this sheet glass multiple, and for driving the sheet glass on this loading end to move;

Multiple gripping drive unit, each gripping drive unit is used for a fixing corresponding coupled column, and is compressed to this loading end by this coupled column, to make this coupled column perpendicular to a surface of its axis near this loading end;

A heating unit, for heating to make wax melt near the surface of this loading end to this coupled column;

A control device, be connected to the plurality of gripping drive unit and this first transport unit, each gripping drive unit comprises the hollow cylinder of the upper and lower opening that is vertically arranged, a lower hydraulic driver and one are driven by this lower hydraulic driver and extend to the depression bar in this cylinder, the internal diameter of this cylinder is corresponding with the diameter of this coupled column, with the gravity making the stiction of this coupled column and this cylinder inner wall equal coupled column, this lower hydraulic driver drives this depression bar to press down under the control of this control device, this control device compresses a corresponding coupled column and a predetermined heat time of this loading end for controlling each gripping drive unit, depart from this coupled column to make this coupled column near the sheet glass of this loading end and bear against after on this loading end, controlling this first transport unit drives multiple sheet glass of this disengaging away from this heating unit.

2. separate wax apparatus as claimed in claim 1, it is characterized in that, this heating unit by this coupled column and the close surface heating of this loading end to 60 to 80 degrees Celsius.

3. separate wax apparatus as claimed in claim 2, it is characterized in that, this predetermined heat time is 1 to 2 second.

4. separate wax apparatus as claimed in claim 1, it is characterized in that, the first conveying belt that this first transport unit comprises first motion-work wheel, first driven wheel and one are closely sheathed with this first motion-work wheel and this first driven wheel, this first motion-work wheel rotates for driving this first conveying belt, and this first conveying belt surface is upward this loading end.

5. separate wax apparatus as claimed in claim 4, it is characterized in that, this heating unit is arranged between this motion-work wheel and this driven wheel, and between this first conveying belt, near this loading end.

6. separate wax apparatus as claimed in claim 1, it is characterized in that, each sheet glass equal diameters.

7. separate wax apparatus as claimed in claim 1, it is characterized in that, multiple gripping drive unit is arranged along the direction of the plurality of sheet glass away from this heating unit, and this solution wax apparatus also comprises second transport unit, a transition apparatus and one keep out device; This second transport unit comprises the operating surface that is positioned at the oblique below of this loading end, moves for driving the object on this operating surface; This transition apparatus comprises an adapter surface, and the sheet glass be positioned on this loading end moves to this operating surface by this adapter surface; This is kept out device and is arranged between this adapter surface and this operating surface, for making the sheet glass entering this adapter surface connect successively, and when being positioned at the sheet glass on this adapter surface and reaching predetermined number, makes the sheet glass of this predetermined number move to this operating surface.

8. separate wax apparatus as claimed in claim 7, it is characterized in that, this is kept out device and comprises a cylinder controlled by this control device and one piston rod by this air cylinder driven, and this piston rod is positioned at this adapter surface near this operating surface side; This control device is also for when these the many sheet glass start away from this heating unit predetermined traveling time, control this piston rod activity to this adapter surface to make sheet glass enter this operating surface, predetermined by the time through one again, control this piston rod activity to this adapter surface to keep out sheet glass.

9. separate wax apparatus as claimed in claim 7, it is characterized in that, this solution wax apparatus also comprises a high pressurized gas, for blowing out high pressure gas to the sheet glass on this adapter surface.

10. separate wax apparatus as claimed in claim 1, it is characterized in that, each gripping drive unit drives corresponding coupled column consequently to contact with this loading end near this loading end perpendicular to a surface of its axis.