CN115890486A

CN115890486A - Fixing device for optical glass processing

Info

Publication number: CN115890486A
Application number: CN202211661957.1A
Authority: CN
Inventors: 黄国顺; 邵云峰; 何浪; 汤波
Original assignee: Jiangsu Zhongsheng Electronic Technology Co ltd
Current assignee: Jiangsu Zhongsheng Electronic Technology Co ltd
Priority date: 2022-12-23
Filing date: 2022-12-23
Publication date: 2023-04-04

Abstract

The invention discloses a fixing device for processing optical glass, which relates to the technical field of optical glass processing, and particularly relates to a fixing device for processing optical glass. This fixing device is used in optical glass processing is through the centre gripping cylinder that sets up, can drive the connecting piece and move, make first holder to the motion of second holder, it is fixed to carry out the centre gripping to optical glass, when needing to change the face to optical glass rotation, the adjustment motor of setting drives the second holder rotatory, thereby overturn optical glass, tighten the fixing bolt who sets up on the set casing, make fixing bolt front end and connecting piece contact, fix the set casing, avoid first holder to take place unexpected pivoted condition, need not to lift optical glass off the reinstallation, and the convenience is used.

Description

Fixing device for optical glass processing

Technical Field

The invention relates to the technical field of optical glass processing, in particular to a fixing device for optical glass processing.

Background

The optical glass is an amorphous optical medium material for transmitting light, can be made into various optical elements such as prisms, lenses, optical filters and the like, can change the propagation direction, phase, intensity and the like after the light passes through, and is the foundation and important component of the photoelectric technology industry. The optical glass can change the propagation direction of light and the relative spectral distribution of ultraviolet, visible or infrared light, can be used for manufacturing lenses, prisms, reflectors, windows and the like in optical instruments, and the surface of the optical glass after primary processing has defects such as unevenness, scratch and the like, so the glass convex mirror needs to be polished.

Through retrieval, the invention disclosed in the patent publication No. CN111805455A discloses a fixing device for processing optical glass, which comprises a bottom plate, wherein the bottom of the bottom plate is fixedly connected with a protection box, the bottom of the bottom plate and an inner cavity of the protection box are fixedly connected with a first double-shaft motor, a rotating shaft of the first double-shaft motor is fixedly connected with a first threaded rod, a surface threaded sleeve of the first threaded rod is provided with a first threaded sleeve, the top of the first threaded sleeve is fixedly connected with a first support rod, two sides of the top of the bottom plate are provided with first long holes, and the top of the first support rod penetrates through the top of the first long hole and is fixedly connected with a first clamping plate.

Through the retrieval, in the fixing device for optical glass processing of patent publication No. CN217915196U, the utility model discloses a fixing device for optical glass processing, including the stage body, the stage body includes the workstation, and it has positive and negative screw rod to be the inboard activity of workstation, the swivel nut has been cup jointed on the surface of positive and negative screw rod, the first grip block of top fixedly connected with of swivel nut. Drive the dwang through the motor operation and rotate, the second pivot can make the belt drive first pivot rotation under the effect of dwang, and then realize that two sets of threaded rods rotate simultaneously, two sets of movable blocks each other are reverse at threaded rod pivoted in-process and carry out the position removal for each other and can realize that the second connecting rod drives the carousel rotatory, it drives optical glass and carries out rotatory effect to reach the workstation, be convenient for carry out diversified processing to optical glass, need not to repeat carry out angle modulation and fix once more to optical glass, the flexibility of device use has been increased, make optical glass's processing more convenient.

In a fixing device for coating film on optical glass with the patent publication No. CN216377953U, the utility model described in the specification discloses a fixing device for coating film on optical glass, which comprises an optical glass clamping mechanism and an optical glass cleaning mechanism; the optical glass holding mechanism at least comprises: a clamping part for clamping and fixing the optical glass; and a driving portion that drives the holding portion to hold the optical glass; the optical glass cleaning mechanism at least comprises: the cleaning head is used for cleaning the optical glass; the rotary driving mechanism is used for driving the cleaning head to rotate so as to clean the optical glass; and a lifting support mechanism. Through the centre gripping optical glass that optical glass fixture can be firm and stable, avoid appearing the centre gripping condition stable inadequately to clear up optical glass through optical glass clearance mechanism behind centre gripping optical glass, remove artifical clearance from, improve the work efficiency to optical glass coating film processing.

The existing fixing device has the defect that after the optical glass needs to be clamped and fixed, when the other surface of the optical glass needs to be polished during polishing processing of the optical glass, the optical glass needs to be dismounted and clamped and fixed again, so that the operation is troublesome.

Disclosure of Invention

The invention provides a fixing device for processing optical glass, aiming at overcoming the defects in the prior art, and solving the problem that the operation is troublesome because the optical glass needs to be detached and clamped and fixed again when the other surface of the optical glass needs to be polished during the polishing processing of the optical glass after the optical glass needs to be clamped and fixed by the conventional fixing device in the background art.

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a fixing device is used in optical glass processing, includes the installation frame, with install the centre gripping cylinder at the installation frame inner wall, the internally mounted of installation frame has adjusting motor, adjusting motor's output shaft has the second holder, the top sliding connection of installation frame has crossbearer mechanism, the outer wall connection of crossbearer mechanism has processing mechanism, constitute revolution mechanic between second holder and the adjusting motor.

Optionally, the clamping cylinder comprises a connecting piece, a limiting bearing, a fixing shell, a first clamping piece, a fixing bolt and protective glue, and the right side of the connecting piece is connected with the fixing shell.

Optionally, a limiting bearing is installed on the inner wall of the fixed shell, a first clamping piece is arranged on the right side of the fixed shell, a fixing bolt is installed on the outer surface of the fixed shell, and protective glue is arranged inside the first clamping piece.

Optionally, the crossbearer mechanism comprises spout, ratch, gear and walking motor, the inner wall sliding connection of processing agency has the spout, the lower surface meshing of ratch has the gear, the input of gear is connected with walking motor.

Optionally, the processing agency includes air cylinder, mounting panel, drives actuating cylinder, dust absorption mouth, dead lever, fixing bearing, transfer line, flabellum, connecting plate, through-hole, brush cleaner, conveyer pipe, dust catcher and dust collection box, air cylinder's output is connected with the mounting panel, the right side of mounting panel is provided with drives actuating cylinder.

Optionally, the output that drives actuating cylinder is connected with the dust absorption mouth, the inside of dust absorption mouth is provided with the dead lever, the inner wall of dead lever is fixed with fixing bearing, fixing bearing's internal connection has the transfer line, the flabellum is installed to the upper end of transfer line, the lower extreme of transfer line is provided with the connecting plate, the equidistance of connecting plate distributes and has the through-hole, the lower surface of connecting plate is provided with the brush cleaner.

Optionally, a telescopic structure is formed between the dust suction port and the driving cylinder, the fan blade forms a rotating structure with the fixed rod through the transmission rod and the fixed bearing, the connecting plate is fixedly connected with the transmission rod, and meanwhile, the depth of the through hole is equal to the thickness of the connecting plate.

Optionally, the right side of the dust suction port is connected with a conveying pipe, the tail end of the conveying pipe is connected with a dust collector, and the lower end of the dust collector is provided with a dust collection box.

Optionally, a communicating structure is formed between the dust suction port and the dust collector through the conveying pipe, and the dust collection box and the dust collector are communicated with each other.

Optionally, the left side of mounting panel is provided with the installation shell, the internally mounted of installation shell has the polishing motor, the output shaft of polishing motor has the polishing piece, fixed knot structure as an organic whole between installation shell and the mounting panel, and be bolted connection between polishing motor and the installation shell to constitute revolution mechanic between polishing piece and the polishing motor.

The invention provides a fixing device for processing optical glass, which has the following beneficial effects:

1. the fixing device for processing the optical glass can drive the connecting piece to move through the arranged clamping cylinder, so that the first clamping piece moves towards the second clamping piece to clamp and fix the optical glass, when the optical glass needs to be rotated and changed, the arranged adjusting motor drives the second clamping piece to rotate, so that the optical glass is turned over, the fixing bolt arranged on the fixing shell is screwed, the front end of the fixing bolt is contacted with the connecting piece, the fixing shell is fixed, the first clamping piece is prevented from accidentally rotating, the optical glass does not need to be dismounted and remounted, and the fixing device is convenient to use;

2. according to the fixing device for processing the optical glass, the walking motor is started to drive the gear meshing rack bar to rotate through the sliding chute arranged on the cross frame mechanism, so that the processing mechanism can horizontally move on the cross frame mechanism, the position of the processing mechanism can be conveniently adjusted, and the subsequent processing of the optical glass can be conveniently carried out; through the arranged dust collector, under the matching of the conveying pipe and the dust collection port, dust collection operation can be performed on dust generated by polishing the surface of the optical glass, so that the sucked dust enters the dust collection box through the dust discharge port of the dust collector, and subsequent treatment is facilitated;

3. according to the fixing device for processing the optical glass, the fixed rod and the fixed bearing are arranged in the dust suction port, when the dust collector runs, the dust suction port generates air flow, the air flow drives the fan blades to rotate, so that the connecting plate rotates to drive the cleaning brush to clean dust on the surface of the optical glass, the dust is sucked into the dust suction port through the through hole in the connecting plate, the cleaning effect is improved, and the cleaning brush is not required to be driven by an additional mechanism;

4. this fixing device is used in optical glass processing can drive the polishing piece through the polishing motor that sets up in the installation shell and rotate for the polishing piece polishes to the optical glass surface and polishes, and the adjusting cylinder of setting is convenient for to the altitude mixture control of polishing piece, facilitates the use.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of a mounting frame of the present invention;

FIG. 3 is a schematic structural view of the joint between the clamping cylinder and the first clamping member according to the present invention;

FIG. 4 is a schematic view of the internal structure of the dust suction port of the present invention;

FIG. 5 is a schematic cross-sectional view of the cross-frame mechanism of the present invention;

FIG. 6 is an enlarged view of a portion A of FIG. 4 according to the present invention.

In the figure: 1. a mounting frame; 2. a clamping cylinder; 201. a connecting member; 202. a limit bearing; 203. a stationary case; 204. a first clamping member; 205. fixing the bolt; 3. adjusting the motor; 4. a second clamping member; 5. protective glue; 6. a cross frame mechanism; 601. a chute; 602. a rack bar; 603. a gear; 604. a travel motor; 7. a processing mechanism; 701. an adjusting cylinder; 702. mounting a plate; 703. a driving cylinder; 704. a dust suction port; 705. fixing the rod; 706. fixing the bearing; 707. a transmission rod; 708. a fan blade; 709. a connecting plate; 710. a through hole; 711. cleaning with a brush; 712. a delivery pipe; 713. a dust collector; 714. a dust collection box; 8. mounting a shell; 9. polishing the motor; 10. and (7) polishing the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

As shown in the accompanying drawings 1-2, the present invention provides a technical solution: the utility model provides a fixing device is used in optical glass processing, includes installation frame 1, and installs the centre gripping cylinder 2 at 1 inner wall of installation frame, the internally mounted of installation frame 1 has adjusting motor 3, and adjusting motor 3's output shaft has second holder 4, and the top sliding connection of installation frame 1 has crossbearer mechanism 6, and the outer wall connection of crossbearer mechanism 6 has processing mechanism 7, constitutes revolution mechanic between second holder 4 and the adjusting motor 3.

Example two

The scheme in the first embodiment is further described in the following with reference to specific working modes, which are described in detail in the following:

as shown in fig. 1 to 3 and 5, in addition to the above-described embodiments, the preferred embodiment further includes: the clamping cylinder 2 comprises a connecting piece 201, a limiting bearing 202, a fixed shell 203, a first clamping piece 204, a fixing bolt 205 and protective glue 5, the right side of the connecting piece 201 is connected with the fixed shell 203, the limiting bearing 202 is installed on the inner wall of the fixed shell 203, the right side of the fixed shell 203 is provided with the first clamping piece 204, the outer surface of the fixed shell 203 is provided with the fixing bolt 205, the protective glue 5 is arranged inside the first clamping piece 204, the connecting piece 201 can be driven to move through the arranged clamping cylinder 2, the first clamping piece 204 moves towards the second clamping piece 4, the optical glass is clamped and fixed, when the optical glass needs to be rotated and changed, the arranged adjusting motor 3 drives the second clamping piece 4 to rotate, so that the optical glass is turned over, the fixing bolt 205 arranged on the fixed shell 203 is screwed down, the front end of the fixing bolt 205 is in contact with the connecting piece 201, the fixed shell 203 is fixed, the situation that the first clamping piece 204 rotates accidentally is avoided, the optical glass does not need to be dismounted and remounterped, and the optical glass is convenient to use; the transverse frame mechanism 6 comprises a sliding groove 601, the inner wall of the processing mechanism 7 is slidably connected with the sliding groove 601, a gear 603 is meshed on the lower surface of the rack bar 602, the input end of the gear 603 is connected with a walking motor 604, the walking motor 604 is started to drive the gear 603 to be meshed with the rack bar 602 to rotate through the sliding groove 601 arranged on the transverse frame mechanism 6, so that the processing mechanism 7 can perform horizontal motion on the transverse frame mechanism 6, the position of the processing mechanism 7 is conveniently adjusted, and subsequent processing on the optical glass is facilitated.

As shown in fig. 1, 2, 4 and 6, in addition to the above-described embodiments, further: the processing mechanism 7 comprises an adjusting cylinder 701, a mounting plate 702, a driving cylinder 703, a dust suction port 704, a fixed rod 705, a fixed bearing 706, a transmission rod 707, fan blades 708, a connecting plate 709, a through hole 710, a cleaning brush 711, a delivery pipe 712, a dust collector 713 and a dust collection box 714, wherein the output end of the adjusting cylinder 701 is connected with the mounting plate 702, the right side of the mounting plate 702 is provided with the driving cylinder 703, the output end of the driving cylinder 703 is connected with the dust suction port 704, a telescopic structure is formed between the dust suction port 704 and the driving cylinder 703, the fixed rod 705 is arranged inside the dust suction port 704, the fixed bearing 706 is fixed on the inner wall of the fixed rod 705, the transmission rod 707 is connected inside the fixed bearing 706, the upper end of the transmission rod 707 is provided with the fan blades 708, the fan blades 708 form a rotating structure through the transmission rod 707 and the fixed bearing 706 and the fixed rod 705, and the lower end of the transmission rod 707 is provided with the connecting plate 709, through holes 710 are equidistantly distributed on the connecting plate 709, the connecting plate 709 is fixedly connected with a transmission rod 707, a cleaning brush 711 is arranged on the lower surface of the connecting plate 709, the depth of the through holes 710 is equal to the thickness of the connecting plate 709, a delivery pipe 712 is connected to the right side of the dust suction port 704, a communication structure is formed between the dust suction port 704 and a dust collector 713 through the delivery pipe 712, a dust collector 713 is connected to the tail end of the delivery pipe 712, a dust collection box 714 is arranged at the lower end of the dust collector 713, the dust collection box 714 is communicated with the dust collector 713, dust generated by polishing the surface of the optical glass can be cleaned through the provided dust collector 713 under the matching of the delivery pipe 712 and the dust suction port 704, so that the sucked dust enters the dust collection box 714 through a dust discharge port of the dust collector 713, subsequent treatment is facilitated, and the dust collector 713 runs through a fixed rod 705 and a fixed bearing 706 arranged in the dust suction port 704, the dust collection port 704 generates air flow, the air flow drives the fan blades 708 to rotate, the connecting plate 709 rotates, the cleaning brush 711 is driven to clean dust on the surface of the optical glass and is sucked into the dust collection port 704 through the through holes 710 in the connecting plate 709, the cleaning effect is improved, and the cleaning brush 711 is not required to be driven by an additional mechanism; the left side of mounting panel 702 is provided with installation shell 8, the internally mounted of installation shell 8 has polishing motor 9, polishing motor 9's output shaft has polishing block 10, fixed knot as an organic whole constructs between installation shell 8 and the mounting panel 702, and be bolted connection between polishing motor 9 and the installation shell 8, and constitute revolution mechanic between polishing block 10 and the polishing motor 9, polishing motor 9 through setting up in the installation shell 8, can drive polishing block 10 and rotate, make polishing block 10 polish and polish to the optical glass surface, the adjusting cylinder 701 of setting is convenient for the altitude mixture control to polishing block 10, and the use is convenient.

The comprehensive results show that:

the invention aims at the technical problems that: after the existing fixing device clamps and fixes the optical glass, when the other surface of the optical glass needs to be polished during polishing of the optical glass, the optical glass needs to be dismounted and clamped and fixed again, so that the operation is troublesome; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

when the polishing device is used, firstly, the installation frame 1 is placed at a proper position, optical glass to be processed is placed between the first clamping piece 204 and the second clamping piece 4 through the first clamping piece 204 and the second clamping piece 4 arranged on the installation frame 1 by a worker, the arranged clamping cylinder 2 drives the connecting piece 201 to horizontally move, so that the first clamping piece 204 moves towards the second clamping piece 4 to fix the optical glass, the arranged protective glue 5 can play a protective role to prevent the optical glass from being damaged during clamping, the processing mechanism 7 is arranged on the cross frame mechanism 6, the adjusting cylinder 701 drives the installation plate 702 to vertically move, so that the polishing block 10 moves downwards to be in contact with the surface of the optical glass, meanwhile, the polishing motor 9 in the installation shell 8 is started to drive the polishing block 10 to rotate, and thereby polishing the surface of the optical glass, through the chute 601 arranged on the transverse frame mechanism 6, the walking motor 604 is started to drive the gear 603 to engage the rack 602 for rotation, so that the processing mechanism 7 can horizontally move on the transverse frame mechanism 6, thereby adjusting the position of the polishing block 10 on the processing mechanism 7, facilitating polishing different positions on the surface of the optical glass, and arranging the screw rod translation mechanisms at two ends of the transverse frame mechanism 6, further adjusting the position of the transverse frame mechanism 6, realizing all-dimensional polishing on the surface of the optical glass, when the other surface of the optical glass needs to be polished, the processing mechanism 7 moves to the left side inside the mounting frame 1, then a worker can unscrew the fixing bolt 205 on the fixing shell 203, so that the front end of the fixing bolt 205 is separated from the connecting piece 201, the fixing of the fixing shell 203 is released, the adjusting motor 3 drives the second clamping piece 4 to rotate, because the first clamping piece 204 and the second clamping piece 4 clamp and fix the optical glass, when the second clamping piece 4 rotates, the first clamping piece 204 is synchronously driven to rotate, and the limit bearing 202 arranged between the connecting piece 201 and the fixing shell 203 can ensure the stability during rotation, so as to realize the turnover of the optical glass, after polishing is completed, when dust remaining on the surface of the optical glass needs to be cleaned, the driving cylinder 703 arranged on the processing mechanism 7 drives the dust suction port 704 to vertically move, so that the lower part of the dust suction port 704 is in contact with the surface of the optical glass, the dust collector 713 is started, under the cooperation of the conveying pipe 712, the dust suction port 704 sucks the dust, and when the dust collector 713 sucks the dust, the dust suction port 704 generates air flow, under the cooperation of the fixing bearing 706 arranged on the fixing rod, under the cooperation of the transmission rod, the fan 708 drives the fan blade 708 to rotate when the air flow, so that the connection plate 707 drives the cleaning brush 711 to clean the surface of the optical glass, the cleaning effect is improved, so that the dust enters the dust suction port 704 through the through hole 710 on the connection plate 709, and then enters the dust collection box 714 of the dust collector.

Through above-mentioned setting, above-mentioned technical problem can be solved certainly to this application, simultaneously, realizes following technological effect:

according to the invention, the clamping cylinder 2 is arranged, so that the connecting piece 201 can be driven to move, the first clamping piece 204 moves towards the second clamping piece 4, the optical glass is clamped and fixed, when the optical glass needs to be switched, the adjusting motor 3 is arranged to drive the second clamping piece 4 to rotate, so that the optical glass is turned over, the fixing bolt 205 arranged on the fixing shell 203 is screwed, the front end of the fixing bolt 205 is contacted with the connecting piece 201, the fixing shell 203 is fixed, the situation that the first clamping piece 204 rotates accidentally is avoided, the optical glass does not need to be dismounted and remounted, and the optical glass is convenient to use;

according to the invention, through the sliding chute 601 arranged on the transverse frame mechanism 6, the walking motor 604 is started to drive the gear 603 to be meshed with the rack 602 to rotate, so that the processing mechanism 7 can horizontally move on the transverse frame mechanism 6, the position of the processing mechanism 7 can be conveniently adjusted, and the subsequent processing of the optical glass can be conveniently carried out; through the arranged dust collector 713, under the matching of the conveying pipe 712 and the dust collection port 704, dust collection operation can be performed on dust generated by polishing the surface of the optical glass, so that the sucked dust enters the dust collection box 714 through the dust discharge port of the dust collector 713, and subsequent treatment is facilitated;

when the dust collector 713 of the invention operates, the dust collection port 704 generates air flow, the air flow drives the fan blade 708 to rotate, so that the connecting plate 709 rotates to drive the cleaning brush 711 to clean dust on the surface of the optical glass, and the dust is pumped into the dust collection port 704 through the through hole 710 on the connecting plate 709, so that the cleaning effect is improved, and the cleaning brush 711 is not required to be driven by another mechanism;

according to the invention, the polishing block 10 can be driven to rotate by the polishing motor 9 arranged in the mounting shell 8, so that the polishing block 10 polishes and polishes the surface of the optical glass, and the adjusting cylinder 701 is convenient for adjusting the height of the polishing block 10 and is convenient to use.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a fixing device is used in optical glass processing, includes installation frame (1), and installs centre gripping cylinder (2) at installation frame (1) inner wall, its characterized in that: the utility model discloses a processing mechanism, including installation frame (1), output frame, horizontal frame mechanism (6), the internally mounted of installation frame (1) has accommodate motor (3), the output shaft of accommodate motor (3) has second holder (4), the top sliding connection of installation frame (1) has horizontal frame mechanism (6), the outer wall connection of horizontal frame mechanism (6) has processing mechanism (7), constitute revolution mechanic between second holder (4) and accommodate motor (3).

2. The fixing device for optical glass processing according to claim 1, wherein: the clamping cylinder (2) comprises a connecting piece (201), a limiting bearing (202), a fixing shell (203), a first clamping piece (204), a fixing bolt (205) and protective rubber (5), wherein the fixing shell (203) is connected to the right side of the connecting piece (201).

3. The optical glass processing fixture according to claim 2, wherein: spacing bearing (202) are installed to the inner wall of set casing (203), the right side of set casing (203) is provided with first holder (204), the surface mounting of set casing (203) has fixing bolt (205), the inside of first holder (204) is provided with protection and glues (5).

4. The fixing device for optical glass processing according to claim 1, wherein: the transverse frame mechanism (6) is composed of a sliding groove (601), a rack bar (602), a gear (603) and a walking motor (604), the inner wall of the machining mechanism (7) is connected with the sliding groove (601) in a sliding mode, the gear (603) is meshed with the lower surface of the rack bar (602), and the input end of the gear (603) is connected with the walking motor (604).

5. The fixing device for optical glass processing according to claim 1, wherein: the processing mechanism (7) comprises an adjusting cylinder (701), a mounting plate (702), a driving cylinder (703), a dust collection port (704), a fixing rod (705), a fixing bearing (706), a transmission rod (707), fan blades (708), a connecting plate (709), a through hole (710), a cleaning brush (711), a conveying pipe (712), a dust collector (713) and a dust collection box (714), wherein the output end of the adjusting cylinder (701) is connected with the mounting plate (702), and the driving cylinder (703) is arranged on the right side of the mounting plate (702).

6. The fixing device for optical glass processing according to claim 5, wherein: the output that drives actuating cylinder (703) is connected with dust absorption mouth (704), the inside of dust absorption mouth (704) is provided with dead lever (705), the inner wall of dead lever (705) is fixed with fixing bearing (706), the internal connection of fixing bearing (706) has transfer line (707), flabellum (708) are installed to the upper end of transfer line (707), the lower extreme of transfer line (707) is provided with connecting plate (709), the equidistance of connecting plate (709) distributes and has through-hole (710), the lower surface of connecting plate (709) is provided with cleaning brush (711).

7. The optical glass processing fixture according to claim 6, wherein: a telescopic structure is formed between the dust suction port (704) and the driving air cylinder (703), a rotating structure is formed between the fan blade (708) and the fixed rod (705) through the transmission rod (707) and the fixed bearing (706), the connecting plate (709) is fixedly connected with the transmission rod (707), and meanwhile, the depth of the through hole (710) is equal to the thickness of the connecting plate (709).

8. The fixing device for optical glass processing according to claim 6, wherein: the right side of the dust collection port (704) is connected with a conveying pipe (712), the tail end of the conveying pipe (712) is connected with a dust collector (713), and the lower end of the dust collector (713) is provided with a dust collection box (714).

9. The optical glass processing fixture according to claim 8, wherein: the dust suction port (704) is communicated with the dust collector (713) through a conveying pipe (712), and the dust collection box (714) is communicated with the dust collector (713).

10. The fixing device for optical glass processing according to claim 5, wherein: the left side of mounting panel (702) is provided with installation shell (8), the internally mounted of installation shell (8) has polishing motor (9), the output shaft of polishing motor (9) is connected with polishing block (10), fixed knot as an organic whole constructs between installation shell (8) and mounting panel (702), and is bolted connection between polishing motor (9) and installation shell (8) to constitute revolution mechanic between polishing block (10) and polishing motor (9).