CN212096943U - Processing equipment for producing mobile phone lens - Google Patents

Abstract

The utility model discloses a processing equipment for producing mobile phone lens, which is provided with a workbench, an engraving and milling mechanism, a lighting mechanism and a cleaning mechanism; the flat gas outlet is formed in the flat nozzle, so that gas sprayed out of the flat nozzle is sprayed out in a fan shape, and the efficiency of cleaning glass scraps and glass residues by operators is improved; the arrangement of the limiting ring and the arrangement of the clamping groove enable workers to clamp the limiting ring into the clamping groove, so that compressed gas can continuously flow from the air gun handle to the flat nozzle without holding the control handle by operators, and the comfort of the operators for operating the cleaning mechanism is improved; the arrangement of the illuminating mechanism enables workers to observe the processing process of the lens without external illuminating tools; the arrangement of the protective cover can prevent flying glass debris from damaging the illuminating piece, and the durability of the illuminating piece is improved.

Description

Processing equipment for producing mobile phone lens

Technical Field

The utility model relates to a processing equipment technical field especially relates to a processing equipment for producing cell-phone lens.

Background

At present, lenses are used at all parts of a mobile phone, and in order to improve the aesthetic degree of the mobile phone, the mobile phone lenses are often processed into various styles, generally speaking, the mobile phone lenses are manufactured by a series of special processing technologies such as splitting, profiling edging, polishing, hardening, ultrasonic cleaning, vacuum coating, silk printing, engraving and the like. Today, manufacturers generally use various processing devices to process lenses to meet the demands of the market and the processing precision requirements of customers.

Wherein, after finishing the silk screen printing process of the lens, the staff will send the lens into the finishing impression processing equipment, the processing equipment can cut the lens into various preset shapes, and the processing precision and the processing efficiency of the processing equipment are high, however, in the practical application process of the existing processing equipment, the processing equipment will generate more glass scraps, broken slag and the like when processing the lens, the scraps and the broken slag will remain on the worktable of the processing equipment, and the remained scraps will generate various adverse effects on the processing of the lens, for this reason, the processing equipment will be generally provided with an air gun, the glass scraps will be blown off the worktable by the pressure air blown out by the air gun, however, the air blown out by the nozzle of the air gun is generally in a linear shape, the action surface of the air is narrow, which causes the staff to spend more time to clean the worktable back and forth, the cleaning efficiency of the glass scraps is low; secondly, in the cleaning process, the hand of an operator needs to continuously press and hold the control handle of the air gun, and great discomfort can be caused to the hand of the operator along with the increase of the pressing and holding time;

in addition, in the processing process of the mobile phone lens, a worker needs to carefully observe the mobile phone lens so as to timely stop the machine for observation and debugging when the processing equipment works abnormally, however, light rays in a workshop generally cannot be irradiated from top to bottom, shadows are generated on the mobile phone lens, and the worker needs to hold an illuminating tool for observation; of course, there are some processing apparatuses provided with an illumination mechanism, but in the process of cleaning glass scraps with a wind gun, the scraps are easily thrown onto the illumination mechanism under the driving of gas, and the illumination mechanism is damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects in the prior art and providing a processing device for producing mobile phone lenses, which can improve the efficiency of workers for cleaning scraps, can illuminate a workbench and can prevent flying scraps from damaging an illuminating mechanism; simultaneously, at the in-process of clearance glass piece, still need not the workman and hold the control valve of air gun.

The purpose of the utility model is realized through the following technical scheme:

a processing apparatus for producing a lens for a cellular phone includes:

a work table;

the precision engraving mechanism comprises a base body, a three-shaft driving device and a precision engraving member, the base body is mounted on the workbench, the three-shaft driving device is mounted on the base body, and the precision engraving member is connected with an output shaft of the three-shaft driving device;

the illumination mechanism comprises a U-shaped fixing frame, a supporting rod, an illumination piece and a protective cover, the U-shaped fixing frame is installed on the workbench, the supporting rod is connected with the U-shaped fixing frame, the illumination piece is arranged on the supporting rod, the protective cover is covered on the illumination piece, and a plurality of light leakage holes are formed in the protective cover; and

clean the mechanism, clean the mechanism and include pneumatic valve, trachea, air gun handle, control handle, flat shower nozzle, spacing ring, adsorb the seat and inhale the piece magnetically, the pneumatic valve set up in on the workstation, tracheal one end with the pneumatic valve intercommunication, tracheal other end with air gun handle intercommunication, flat shower nozzle with air gun handle intercommunication, control handle rotate install in on the air gun handle, the last card of having seted up of control handle is held the groove, flat gas outlet has been seted up on the flat shower nozzle, the spacing ring with adsorb the seat set up respectively in on the air gun handle, adsorb the seat and locate to inwards cave in the formation storage tank in middle part position, inhale the piece magnetically and set up in the bottom of storage tank, the spacing ring is used for relatively the air gun handle rotates, so that the spacing ring falls into in the storage tank.

In one embodiment, the three-axis driving device includes an X-axis driving element, a translation frame, a Y-axis driving element, a traverse seat, a Z-axis driving element, and a lifting block, the X-axis driving element is disposed on the seat body, the translation frame is connected to an output shaft of the X-axis driving element, the Y-axis driving element is mounted on the translation frame, the traverse seat is connected to an output shaft of the Y-axis driving element, the Z-axis driving element is disposed on the traverse seat, the lifting block is connected to an output shaft of the Z-axis driving element, and the precision engraving element is disposed on the lifting block.

In one embodiment, the X-axis drive is a motor.

In one embodiment, the retaining groove has a circular cross-section.

In one embodiment, the air valve includes a valve body, an air inlet valve and an air outlet valve, the valve body is located on the workbench, the air inlet valve and the air outlet valve are respectively installed on the valve body, and the air outlet valve is respectively communicated with the air pipe and the air inlet valve.

In one embodiment, the flat outlet has a rectangular cross-section.

In one embodiment, the side wall of the accommodating groove is provided with wear-resistant stripes.

In one embodiment, each of the light leakage holes is distributed in an equidistant array.

In one embodiment, the illumination member is an LED lamp.

In one embodiment, a corner rounding part is arranged at the corner position of the workbench.

Compared with the prior art, the utility model discloses advantage and beneficial effect below having at least:

the utility model discloses a processing equipment for producing mobile phone lens, which is provided with a workbench, an engraving and milling mechanism, a lighting mechanism and a cleaning mechanism; the flat gas outlet is formed in the flat nozzle, so that gas sprayed out of the flat nozzle is sprayed out in a fan shape, and the efficiency of cleaning glass scraps and glass residues by operators is improved; the arrangement of the limiting ring and the arrangement of the clamping groove enable workers to clamp the limiting ring into the clamping groove, so that compressed gas can continuously flow from the air gun handle to the flat nozzle without holding the control handle by operators, and the comfort of the operators for operating the cleaning mechanism is improved; the arrangement of the illuminating mechanism enables workers to observe the processing process of the lens without external illuminating tools; the arrangement of the protective cover can prevent flying glass debris from damaging the illuminating piece, and the durability of the illuminating piece is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a processing apparatus for producing a mobile phone lens according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the processing equipment for producing a lens for a cellular phone shown in FIG. 1 at A;

fig. 3 is a schematic structural view of a cleaning mechanism according to an embodiment of the present invention;

fig. 4 is an enlarged schematic view of the cleaning mechanism shown in fig. 3 at B.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a processing apparatus 10 for producing a mobile phone lens includes a worktable 100, an engraving mechanism 200, an illuminating mechanism 300, and a cleaning mechanism 400, wherein the engraving mechanism 200, the illuminating mechanism 300, and the cleaning mechanism 400 are respectively disposed on the worktable 100.

As such, the worktable 100 is used to support and mount the engraving and finishing mechanism 200, the illuminating mechanism 300, and the cleaning mechanism 400; the fine engraving mechanism 200 is used for performing fine engraving processing on the mobile phone lens; the illumination mechanism 300 is used to provide light; the cleaning mechanism 400 is used to clean the glass cullet.

Referring to fig. 1 again, the corner of the worktable 100 is provided with a rounded corner 110.

The round portion 110 can prevent the corner of the table 100 from scratching the worker and can also prevent the corner of the table 100 from being damaged by collision.

Referring to fig. 1 again, the engraving mechanism 200 includes a base 210, a three-axis driving device 220 and an engraving member 230, the base 210 is mounted on the worktable 100, the three-axis driving device 220 is mounted on the base 210, and the engraving member 230 is connected to an output shaft of the three-axis driving device 220.

It should be noted that the base 210 is used for placing lenses and also for installing and fixing the three-axis driving device 220; the three-axis driving device 220 is used for driving the fine carving piece 230 to move along the directions of the XYZ three axes; the engraving member 230 is used for engraving the lens, and the engraving member 230 is a member that is sold in the market and can be known by the public and can be used for engraving the lens.

It should also be noted that the three-axis driving device 220 drives the fine-engraving member 230 to move, so that the processing equipment can process the lens into various shapes.

Referring to fig. 1 and 2, the three-axis driving device 220 includes an X-axis driving element 221, a translation frame 222, a Y-axis driving element 223, a traverse seat 224, a Z-axis driving element 225, and an elevating block 226, wherein the X-axis driving element 221 is disposed on the base 210, the translation frame 222 is connected to an output shaft of the X-axis driving element 221, the Y-axis driving element 223 is mounted on the translation frame 222, the traverse seat 224 is connected to an output shaft of the Y-axis driving element 223, the Z-axis driving element 225 is disposed on the traverse seat 224, the elevating block 226 is connected to an output shaft of the Z-axis driving element 225, and the finishing member 230 is disposed on the elevating.

The X-axis driving unit 221 is configured to drive the translation stage 222 to linearly reciprocate along the X-axis direction relative to the table 100; the Y-axis driving member 223 is used for driving the traverse motion base 224 to move linearly back and forth along the Y-axis direction relative to the worktable 100; the Z-axis driving member 225 is used for driving the lifting block 226 to move linearly back and forth along the Z-axis direction relative to the worktable 100; in this way, the finishing member 230 can move in the directions of three axes XYZ and z, so that the finishing member 230 can process the lens into various predetermined shapes.

Preferably, referring again to fig. 1, the X-axis driver 221 is a motor.

The motor can be finely controlled to improve the machining accuracy of the machine.

Referring to fig. 1 and 2, the illumination mechanism 300 includes a U-shaped fixing frame 310, a supporting rod 320, an illumination element 330 and a protection cover 340, the U-shaped fixing frame 310 is installed on the worktable 100, the supporting rod 320 is connected to the U-shaped fixing frame 310, the illumination element 330 is disposed on the supporting rod 320, the protection cover 340 is covered on the illumination element 330, and a plurality of light leakage holes 350 are formed in the protection cover 340.

It should be noted that the U-shaped fixing frame 310 plays a role of fixing and installing the supporting rod 320; the support bar 320 is used for supporting the illuminating member 330; the illuminator 330 is used to provide illumination so that the operator can view the lens being processed without the aid of an external illumination tool; the protective cover 340 serves to protect the illuminating member 330, and can prevent foreign objects from directly striking the illuminating member 330, thereby improving durability of the illuminating mechanism 300; the opening of light leakage hole 350 for the light that illumination piece 330 produced can shine on predetermined area through light leakage hole 350, helps operating personnel's the better processing condition to the lens to observe, so that operating personnel can in time discover the operation of processing equipment unusually.

Preferably, referring again to fig. 2, the light leakage holes 350 are distributed in an equidistant array.

It should be noted that, opening the light leakage holes 350 in an equidistant array enables the light generated by the illumination element 330 to uniformly pass through the protection cover 340, so that the light generated by the illumination element 330 can sufficiently irradiate the base 210.

Referring again to fig. 2, in one embodiment, the illuminating element 330 is an LED lamp.

The use of the LED lamp as the illumination member 330 can reduce the power consumption of the illumination mechanism 300, thereby reducing the overall power consumption of the processing facility.

Referring to fig. 3 and 4, the cleaning mechanism 400 includes an air valve 410, an air tube 420, an air gun handle 430, a control handle 440, a flat nozzle 450, a limiting ring 460, an adsorption seat 470 and a magnetic element 480, the air valve 410 is disposed on the worktable 100, one end of the air tube 420 is communicated with the air valve 410, the other end of the air tube 420 is communicated with the air gun handle 430, the flat nozzle 450 is communicated with the air gun handle 430, the control handle 440 is rotatably mounted on the air gun handle 430, the control handle 440 is provided with a clamping groove 441, the flat nozzle 450 is provided with a flat air outlet 451, the limiting ring 460 and the adsorption seat 470 are respectively disposed on the air gun handle 430, the adsorption seat 470 is recessed inward at a middle position to form a receiving groove 471, the magnetic element 480 is disposed at the bottom of the receiving groove 471, and the limiting ring 460 is used for rotating relative to the air gun handle 430 so that the limiting.

It should be noted that the gas valve 410 is used to communicate with an external device for generating compressed air, so that the compressed air can be introduced into the air pipe 420 through the gas valve 410; the gas tube 420 is used to introduce compressed gas into the gas gun handle 430; an operator can control the conduction state of the air gun handle 430 and the flat spray head 450 through the control handle 440, when debris cleaning work is needed, the operator holds the control handle 440, compressed air can enter the flat spray head 450 through the air gun handle 430, and finally the compressed air can be sprayed out through the flat air outlet 451; the flat showerhead 450 is used to collect gas; the limit ring 460 is used for clamping the control handle 440, so that the control handle 440 cannot be reset, and the air gun handle 430 and the flat spray head 450 can be kept in a normally open state without an operator holding the control handle 440; the adsorption seat 470 is used for installing and fixing the magnetic attraction piece 480; the magnetic suction piece 480 is used for sucking the limiting ring 460; the limit ring 460 falls into the clamping groove 441, and the clamping connection between the limit ring 460 and the control handle 440 can be completed; the flat air outlet 451 is arranged, so that air in the flat spray head 450 can be sprayed out in a fan-shaped mode, and the efficiency of cleaning glass scraps by an operator is improved; the receiving groove 471 is used for receiving the limiting ring 460.

It should be noted that when it is desired to blow the glass cullet off the base 210, the control handle 440 is operated to rotate in a direction close to the air gun handle 430, so that the compressed gas can flow into the flat nozzle 450 through the air gun handle 430, and then the retainer ring 460 is operated to rotate relative to the air gun handle 430 and the retainer ring 460 falls into the retaining groove 441, so that the relative position between the control handle 440 and the air gun handle 430 can be maintained, and finally the air gun handle 430 and the flat nozzle 450 can be maintained in a normal state. When the cleaning mechanism 400 is not needed, the control handle 440 is released to automatically reset the control handle 440, the limiting ring 460 is operated to rotate and the limiting ring 460 falls into the accommodating groove 471, the magnetic attraction piece 480 can attract the limiting ring 460, and the limiting ring 460 is prevented from being hung at other positions and damaged.

It should be especially noted that, compare in the current mode of will compressing gas blowout through the round hole, the utility model discloses well flat gas outlet 451 set up for the compressed gas who gathers in flat shower nozzle 450 can be sprayed with fan-shaped mode, has enlarged compressed gas's scope of action, and then has improved operating personnel's efficiency of cleaning the glass piece.

Specifically, referring again to fig. 4, the retaining groove 441 has a circular cross-section.

It should be noted that, the cross section of the retaining groove 441 is set to be circular, so that the limit ring 460 can fall into the retaining groove 441 more, thereby increasing the contact area between the retaining groove 441 and the limit ring 460, and further preventing the limit ring 460 from coming out of the retaining groove 441.

Referring to fig. 4 again, the side wall of the accommodating groove 471 is provided with wear-resistant stripes 472.

It should be noted that, the arrangement of the wear-resistant stripes 472 increases the friction coefficient between the accommodating groove 471 and the limiting ring 460, so as to increase the friction force between the accommodating groove 471 and the limiting ring 460, and further prevent the limiting ring 460 from coming out of the accommodating groove 471.

Referring again to fig. 3, the flat outlet 451 has a rectangular cross-section.

It should be noted that the cross-section of the flat air outlet 451 is rectangular, so that the air in the flat nozzle 450 can be blown out in a fan-shaped manner.

Referring to fig. 3 again, the gas valve 410 includes a valve body 411, an inlet valve 412 and an outlet valve 413, the valve body 411 is located on the worktable 100, the inlet valve 412 and the outlet valve 413 are respectively installed on the valve body 411, and the outlet valve 413 is respectively communicated with the gas pipe 420 and the inlet valve 412.

It should be noted that the valve body 411 is used for installing and fixing the air inlet valve 412 and the air outlet valve 413; the intake valve 412 is used to introduce compressed air into the valve body 411; the air outlet valve 413 is used for guiding the compressed air in the valve body 411 into the air pipe 420.

Compared with the prior art, the utility model discloses advantage and beneficial effect below having at least:

the utility model discloses a processing equipment for producing mobile phone lens, which is provided with a workbench, an engraving and milling mechanism, a lighting mechanism and a cleaning mechanism; the flat gas outlet is formed in the flat nozzle, so that gas sprayed out of the flat nozzle is sprayed out in a fan shape, and the efficiency of cleaning glass scraps and glass residues by operators is improved; the arrangement of the limiting ring and the arrangement of the clamping groove enable workers to clamp the limiting ring into the clamping groove, so that compressed gas can continuously flow from the air gun handle to the flat nozzle without holding the control handle by operators, and the comfort of the operators for operating the cleaning mechanism is improved; the arrangement of the illuminating mechanism enables workers to observe the processing process of the lens without external illuminating tools; the arrangement of the protective cover can prevent flying glass debris from damaging the illuminating piece, and the durability of the illuminating piece is improved.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A processing apparatus for producing a lens for a mobile phone, comprising:

a work table;

the precision engraving mechanism comprises a base body, a three-shaft driving device and a precision engraving member, the base body is mounted on the workbench, the three-shaft driving device is mounted on the base body, and the precision engraving member is connected with an output shaft of the three-shaft driving device;

the illumination mechanism comprises a U-shaped fixing frame, a supporting rod, an illumination piece and a protective cover, the U-shaped fixing frame is installed on the workbench, the supporting rod is connected with the U-shaped fixing frame, the illumination piece is arranged on the supporting rod, the protective cover is covered on the illumination piece, and a plurality of light leakage holes are formed in the protective cover; and

clean the mechanism, clean the mechanism and include pneumatic valve, trachea, air gun handle, control handle, flat shower nozzle, spacing ring, adsorb the seat and inhale the piece magnetically, the pneumatic valve set up in on the workstation, tracheal one end with the pneumatic valve intercommunication, tracheal other end with air gun handle intercommunication, flat shower nozzle with air gun handle intercommunication, control handle rotate install in on the air gun handle, the last card of having seted up of control handle is held the groove, flat gas outlet has been seted up on the flat shower nozzle, the spacing ring with adsorb the seat set up respectively in on the air gun handle, adsorb the seat and locate to inwards cave in the formation storage tank in middle part position, inhale the piece magnetically and set up in the bottom of storage tank, the spacing ring is used for relatively the air gun handle rotates, so that the spacing ring falls into in the storage tank.

2. The processing apparatus for producing lens of mobile phone according to claim 1, wherein the three-axis driving device comprises an X-axis driving member, a translation frame, a Y-axis driving member, a traverse seat, a Z-axis driving member and a lifting block, the X-axis driving member is disposed on the seat body, the translation frame is connected to an output shaft of the X-axis driving member, the Y-axis driving member is mounted on the translation frame, the traverse seat is connected to an output shaft of the Y-axis driving member, the Z-axis driving member is disposed on the traverse seat, the lifting block is connected to an output shaft of the Z-axis driving member, and the finishing member is disposed on the lifting block.

3. The processing tool for producing mobile phone lenses according to claim 2, wherein the X-axis driving member is a motor.

4. The processing tool for producing mobile phone lenses according to claim 1, wherein the holding groove has a circular cross section.

5. The processing equipment for producing the mobile phone lens as claimed in claim 1, wherein the air valve comprises a valve body, an air inlet valve and an air outlet valve, the valve body is located on the workbench, the air inlet valve and the air outlet valve are respectively installed on the valve body, and the air outlet valve is respectively communicated with the air pipe and the air inlet valve.

6. The processing equipment for producing mobile phone lenses according to claim 1, wherein the flat air outlet has a rectangular cross section.

7. The processing equipment for producing the mobile phone lens as claimed in claim 1, wherein the side wall of the containing groove is provided with wear-resistant stripes.

8. The processing equipment for producing mobile phone lenses according to claim 1, wherein the light leakage holes are distributed in an equidistant array.

9. The processing equipment for producing mobile phone lenses according to claim 1, wherein the illuminating member is an LED lamp.

10. The processing apparatus for producing mobile phone lenses according to claim 1, wherein a rounded portion is provided at a corner position of the work table.

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