CN214869661U - Ultra-precision polishing equipment for glass processing - Google Patents

Abstract

The utility model relates to a glass processingequipment technical field specifically is an ultra-precision polishing equipment that glass processing was used, the horizontal first concave shell that sets up of upside fixedly connected with of polishing platform, and be equipped with the first reciprocal displacement mechanism of horizontal setting in the first concave shell, two first sliding exits have been seted up respectively to two upsides of first concave shell, and just the both ends of first reciprocal translation mechanism run through the concave shell of second of two first sliding exits and the vertical setting of fixedly connected with respectively, be equipped with the reciprocal displacement mechanism of second of vertical setting in the concave shell of second. The utility model discloses in, through setting up the horizontal reciprocating displacement that first reciprocating displacement mechanism realized electronic polishing dish, the vertical reciprocating displacement of electronic polishing dish is realized to the reciprocating displacement mechanism of second to realize the multiple spot regulation of electronic polishing dish position, can realize carrying out comprehensive fixed point polishing processing simultaneously to glass's two sides, improve processing precision and efficiency, use manpower sparingly.

Description

Ultra-precision polishing equipment for glass processing

Technical Field

The utility model relates to a glass processing technical field specifically is an ultra-precision polishing equipment that glass processing used.

Background

The polishing is a processing method for reducing the roughness of the surface of a workpiece by utilizing the mechanical, chemical or electrochemical action to obtain a bright and flat surface, and is a modification processing for the surface of the workpiece by utilizing a polishing tool and abrasive particles or other polishing media.

In the process of manufacturing the glass, the glass needs to be processed and polished to enable the surface of the glass to be brighter, polishing equipment needs to be used when the glass is polished, the traditional polishing equipment is simple in structure and only can be used for polishing the single surface of the glass, the working efficiency is low, the labor intensity of workers is increased, manpower is wasted, and when the glass is subjected to surface changing operation, the risk of breaking is increased easily, the material waste is caused, and the potential safety hazard is brought. Accordingly, those skilled in the art have provided an ultra-precision polishing apparatus for glass processing to solve the problems set forth in the background art described above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultra-precision polishing equipment of glass processing usefulness to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an ultra-precise polishing device for glass processing comprises a polishing table, wherein the upper side of the polishing table is fixedly connected with a first concave shell which is transversely arranged, and a first reciprocating displacement mechanism arranged transversely is arranged in the first concave shell, two first sliding openings are respectively arranged at the two upper sides of the first concave shell, and two ends of the first reciprocating translation mechanism respectively penetrate through the two first sliding ports and are fixedly connected with a second concave shell which is vertically arranged, a second reciprocating displacement mechanism which is vertically arranged is arranged in the second concave shell, the inner sides of two vertical ends of the second concave shell are respectively provided with two second sliding openings, two ends of the second reciprocating displacement mechanism respectively penetrate through the two second sliding openings and are respectively and fixedly connected with two first air cylinders which are transversely and symmetrically arranged, one ends of the two first air cylinders close to each other are respectively and fixedly connected with an electric polishing disk, and the inner walls of two opposite sides of the first concave shell are provided with clamping mechanisms;

the first reciprocating displacement mechanism and the second reciprocating displacement mechanism are of the same structure, the second reciprocating displacement mechanism comprises a stepping motor fixed at the center of the upper end of a second concave shell, the driving end of the stepping motor is fixedly connected with a vertically arranged rotating shaft, one end of the rotating shaft penetrates through the second concave shell and is fixedly connected with a first bevel gear, the inner wall of the transverse and straight end of the second concave shell is fixedly connected with two vertically arranged supporting plates which are respectively symmetrically arranged at two sides of the first bevel gear, the side walls of the supporting plates are inserted and rotatably connected with a transversely arranged rotating rod, one end of the rotating rod is fixedly connected with a second bevel gear meshed with the first bevel gear, one end of the rotating rod, far away from the second bevel gear, is fixedly connected with a third bevel gear, the inner walls of the two vertical ends of the second concave shell are respectively rotatably connected with two vertically symmetrically arranged lead screws through two bearing seats, and one end of the screw rod, which is far away from the bearing seat, is fixedly connected with a fourth bevel gear which is meshed and connected with the third bevel gear, a thread block is connected onto the screw rod in a threaded manner, a moving rod is fixedly connected to one side of the thread block, and one end of the moving rod penetrates through the second sliding opening and is fixedly connected with the first air cylinder.

As a further aspect of the present invention: the clamping mechanism comprises two second air cylinders which are transversely symmetrically arranged and two clamping plates which are symmetrically arranged, the two second air cylinders are fixedly connected with the inner walls of two opposite sides of the first concave shell respectively, and the two clamping plates are fixedly connected with one ends, close to the two second air cylinders, respectively.

As a further aspect of the present invention: the lateral wall of backup pad has seted up the through-hole, and the bull stick runs through the through-hole setting, the inner wall of through-hole passes through the bearing and is connected with the lateral wall pivoted of bull stick.

As a further aspect of the present invention: and the side wall of one side of the thread block, which is far away from the movable rod, is tightly propped against and is in sliding connection with the inner wall of the second concave shell.

As a further aspect of the present invention: and the two ends of the rotating rod are fixedly connected with the second bevel gear and the third bevel gear in a welding mode.

As a further aspect of the present invention: one side fixedly connected with control panel of second concave shell, and the one end of first displacement mechanism, the reciprocal displacement mechanism of second, first cylinder, electronic polishing dish and fixture respectively with control panel electric connection.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through setting up first reciprocal displacement mechanism and the reciprocal displacement mechanism of second, start step motor work, it rotates to drive the pivot, and then drive first bevel gear and rotate, and then drive two bull sticks and rotate in step, realize third bevel gear's rotation, and then realize the synchronous rotation of two lead screws, the displacement is forced to the screw thread piece this moment, through controlling step motor's positive and negative rotation, the horizontal reciprocal displacement of electronic polishing dish is realized to first reciprocal displacement mechanism, the vertical reciprocal displacement of electronic polishing dish is realized to the reciprocal displacement mechanism of second, thereby realize the multiple spot control of electronic polishing dish position, can realize carrying out comprehensive fixed point polishing processing simultaneously to glass's both sides, improve processing precision and efficiency, use manpower sparingly.

2. Through setting up fixture and two electronic polishing dishes, start the synchronous work extension of two second cylinders, promote two splint and support tight glass and realize fixing, it is fixed firm, improve processing precision, the polishing end of two electronic polishing dishes supports tightly with the two sides of glass respectively and carries out two-sided polishing processing, job stabilization, the location is accurate, and polishing processing precision is high.

Drawings

FIG. 1 is a schematic perspective view of an ultra-precision polishing apparatus for glass processing;

FIG. 2 is a schematic sectional view of a second concave shell of the ultra-precision polishing apparatus for glass processing;

fig. 3 is an enlarged schematic view of a portion a of fig. 2 in an ultra-precision polishing apparatus for glass processing.

In the figure: 1. a polishing table; 2. a first concave shell; 3. a first sliding port; 4. a second concave shell; 5. a second sliding port; 6. a first cylinder; 7. an electric polishing disk; 8. a stepping motor; 9. a rotating shaft; 10. a first bevel gear; 11. a support plate; 12. a rotating rod; 13. a second bevel gear; 14. a third bevel gear; 15. a screw rod; 16. a fourth bevel gear; 17. a thread block; 18. a travel bar; 19. a second cylinder; 20. a splint; 21. a control panel.

Detailed Description

Referring to fig. 1 to 3, in an embodiment of the present invention, an ultra-precision polishing apparatus for glass processing includes a polishing table 1, a first concave housing 2 horizontally disposed is fixedly connected to an upper side of the polishing table 1, a first reciprocating displacement mechanism horizontally disposed is disposed in the first concave housing 2, two first sliding ports 3 are respectively disposed on two upper sides of the first concave housing 2, two ends of the first reciprocating displacement mechanism respectively penetrate through the two first sliding ports 3 and are fixedly connected to a second concave housing 4 vertically disposed, a second reciprocating displacement mechanism vertically disposed is disposed in the second concave housing 4, two second sliding ports 5 are respectively disposed on two inner vertical ends of the second concave housing 4, two ends of the second reciprocating displacement mechanism respectively penetrate through the two second sliding ports 5 and are respectively fixedly connected to two first air cylinders 6 horizontally symmetrically disposed, an electric polishing disk 7 is fixedly connected to one end close to the two first air cylinders 6, the two first air cylinders 6 are started to work and extend, the polishing ends of the two electric polishing disks 7 are pushed to be tightly abutted against the two surfaces of the glass respectively, the electric polishing disks 7 are started to work, polishing can be carried out, the work is stable, the positioning is accurate, the polishing precision is high, and clamping mechanisms are arranged on the inner walls of the two opposite sides of the first concave shell 2;

the first reciprocating displacement mechanism and the second reciprocating displacement mechanism are of the same structure, the second reciprocating displacement mechanism comprises a stepping motor 8 fixed at the center of the upper end of the second concave shell 4, the driving end of the stepping motor 8 is fixedly connected with a vertically arranged rotating shaft 9, one end of the rotating shaft 9 penetrates through the second concave shell 4 and is fixedly connected with a first bevel gear 10, the inner wall of the transverse straight end of the second concave shell 4 is fixedly connected with two vertically arranged supporting plates 11, the two supporting plates 11 are respectively positioned at two sides of the first bevel gear 10 and are symmetrically arranged, the side wall of the supporting plate 11 is inserted and is rotatably connected with a transversely arranged rotating rod 12, one end of the rotating rod 12 is fixedly connected with a second bevel gear 13 meshed with the first bevel gear 10, one end of the rotating rod 12 far away from the second bevel gear 13 is fixedly connected with a third bevel gear 14, the inner walls of the two vertical ends of the second concave shell 4 are respectively rotatably connected with two vertically symmetrically arranged lead screws 15 through two bearing seats, and one end of the screw rod 15 far away from the bearing seat is fixedly connected with a fourth bevel gear 16 engaged with the third bevel gear 14, a thread block 17 is connected with the screw rod 15 by screw thread, one side of the thread block 17 is fixedly connected with a movable rod 18, one end of the movable rod 18 penetrates through the second sliding port 5 and is fixedly connected with the first air cylinder 6, the step motor 8 is started to work to drive the rotating shaft 9 to rotate, and further drive the first bevel gear 10 to rotate, because the first bevel gear 10 is respectively engaged with the two second bevel gears 13, and further drive the two rotating rods 12 to synchronously rotate, so as to realize the rotation of the third bevel gear 14, because the third bevel gear 14 is engaged with the fourth bevel gear 16, and further realize the synchronous rotation of the two screw rods 15, because the screw rod 15 is in threaded connection with the thread block 17, and the axial rotation of the thread block 17 is limited by the second sliding port 5 along with the movable rod 18, therefore, the thread block 17 is forcedly displaced, by controlling the forward and reverse rotation of the stepping motor 8, the first reciprocating displacement mechanism realizes the transverse reciprocating displacement of the electric polishing disk 7, and the second reciprocating displacement mechanism realizes the longitudinal reciprocating displacement of the electric polishing disk 7, so that the multi-point adjustment of the position of the electric polishing disk 7 is realized, the simultaneous comprehensive fixed-point polishing and processing of two surfaces of glass can be realized, the processing precision and efficiency are improved, and the labor is saved;

in fig. 1: the clamping mechanism comprises two second cylinders 19 which are transversely and symmetrically arranged and two clamping plates 20 which are symmetrically arranged, the two second cylinders 19 are respectively and fixedly connected with the inner walls of two opposite sides of the first concave shell 2, the two clamping plates 20 are respectively and fixedly connected with the ends close to the two second cylinders 19, glass is vertically placed between the two clamping plates 20, the two second cylinders 19 are started to synchronously work and extend, the two clamping plates 20 are pushed to tightly abut against the glass to realize fixation, the fixation is firm, and the processing precision is improved;

in fig. 2: a through hole is formed in the side wall of the support plate 11, the rotating rod 12 penetrates through the through hole, and the inner wall of the through hole is rotatably connected with the outer side wall of the rotating rod 12 through a bearing, so that the rotating rod 12 can rotate conveniently;

in fig. 2: the side wall of one side of the thread block 17 far away from the moving rod 18 is tightly propped against and is in sliding connection with the inner wall of the second concave shell 4, so that the axial rotation of the thread block 17 is limited, and the displacement of the thread block is not influenced;

in fig. 2 and 3: the two ends of the rotating rod 12 are fixedly connected with the second bevel gear 13 and the third bevel gear 14 in a welding mode, and the connection is firm;

in fig. 1: one side fixedly connected with control panel 21 of second concave shell 4, and the one end of first displacement mechanism, the reciprocal displacement mechanism of second, first cylinder 6, electronic polishing dish 7 and fixture respectively with control panel 21 electric connection, intelligent control, processing precision is high, for prior art.

The utility model discloses a theory of operation is: when the device is used for carrying out ultra-precision polishing on glass, firstly, the glass is vertically placed between the two clamping plates 20, the two second cylinders 19 are started to synchronously work and extend, the two clamping plates 20 are pushed to tightly abut against the glass to realize fixation, the fixation is firm, and the processing precision is improved;

then, the two first air cylinders 6 are started to work and extend, the polishing ends of the two electric polishing disks 7 are pushed to be tightly abutted against the two surfaces of the glass respectively, and the electric polishing disks 7 are started to work, so that polishing processing can be performed, the work is stable, the positioning is accurate, and the polishing processing precision is high;

meanwhile, the step motor 8 is started to work to drive the rotating shaft 9 to rotate and further drive the first bevel gear 10 to rotate, the first bevel gear 10 is respectively meshed with the two second bevel gears 13 to further drive the two rotating rods 12 to synchronously rotate to realize the rotation of the third bevel gear 14, the third bevel gear 14 is meshed with the fourth bevel gear 16 to further realize the synchronous rotation of the two screw rods 15, the screw rods 15 are in threaded connection with the thread blocks 17, the axial rotation of the thread blocks 17 is limited by the second sliding port 5 along with the movable rod 18, so the thread blocks 17 are forced to displace, the first reciprocating displacement mechanism realizes the transverse reciprocating displacement of the electric polishing disk 7 by controlling the positive and negative rotation of the step motor 8, the second reciprocating displacement mechanism realizes the longitudinal reciprocating displacement of the electric polishing disk 7, the multi-point adjustment of the position of the electric polishing disk 7 is realized, and the complete fixed-point polishing processing can be simultaneously carried out on two surfaces of glass, the processing precision and efficiency are improved, and the labor is saved.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. An ultra-precision polishing device for glass processing comprises a polishing table (1) and is characterized in that the upper side of the polishing table (1) is fixedly connected with a first concave shell (2) which is transversely arranged, a first reciprocating displacement mechanism which is transversely arranged is arranged in the first concave shell (2), two first sliding ports (3) are respectively arranged on the two upper sides of the first concave shell (2), the two ends of the first reciprocating displacement mechanism respectively penetrate through the two first sliding ports (3) and are fixedly connected with a second concave shell (4) which is vertically arranged, a second reciprocating displacement mechanism which is vertically arranged is arranged in the second concave shell (4), the inner sides of the two vertical ends of the second concave shell (4) are respectively provided with two second sliding ports (5), the two ends of the second reciprocating displacement mechanism respectively penetrate through the two second sliding ports (5) and are respectively fixedly connected with two first air cylinders (6) which are transversely symmetrically arranged, one ends of the two first cylinders (6) close to each other are fixedly connected with electric polishing disks (7), and the inner walls of two opposite sides of the first concave shell (2) are provided with clamping mechanisms;

the first reciprocating displacement mechanism and the second reciprocating displacement mechanism are of the same structure, the second reciprocating displacement mechanism comprises a stepping motor (8) fixed at the center of the upper end of a second concave shell (4), the driving end of the stepping motor (8) is fixedly connected with a vertically arranged rotating shaft (9), one end of the rotating shaft (9) penetrates through the second concave shell (4) and is fixedly connected with a first bevel gear (10), the inner wall of the transverse and straight end of the second concave shell (4) is fixedly connected with two vertically arranged supporting plates (11), the two supporting plates (11) are respectively positioned at two sides of the first bevel gear (10) and are symmetrically arranged, the side wall of each supporting plate (11) is inserted and is rotatably connected with a transversely arranged rotating rod (12), and one end of each rotating rod (12) is fixedly connected with a second bevel gear (13) meshed with the first bevel gear (10), one end fixedly connected with third bevel gear (14) of second bevel gear (13) is kept away from in bull stick (12), two vertical end inner walls of second concave shell (4) are connected with lead screw (15) that two vertical symmetries set up through two bearing frame rotations respectively, and lead screw (15) keep away from one end fixedly connected with of bearing frame and fourth bevel gear (16) that third bevel gear (14) meshing is connected, threaded connection has thread block (17) on lead screw (15), and one side fixedly connected with carriage release lever (18) of thread block (17), the one end of carriage release lever (18) runs through second sliding opening (5) and with first cylinder (6) fixed connection.

2. The ultra-precision polishing device for glass processing according to claim 1, wherein the clamping mechanism comprises two second cylinders (19) which are symmetrically arranged in the transverse direction and two clamping plates (20) which are symmetrically arranged, the two second cylinders (19) are fixedly connected with the inner walls of the two opposite sides of the first concave shell (2), and the two clamping plates (20) are fixedly connected with the ends close to the two second cylinders (19).

3. The ultra-precision polishing device for glass processing according to claim 1, wherein a through hole is opened in a side wall of the support plate (11), the rotating rod (12) is disposed through the through hole, and an inner wall of the through hole is rotatably connected with an outer side wall of the rotating rod (12) through a bearing.

4. The ultra-precision polishing device for glass processing as claimed in claim 1, wherein a side wall of the screw block (17) away from the moving rod (18) abuts against and is slidably connected with an inner wall of the second concave housing (4).

5. The ultra-precision polishing device for glass processing according to claim 1, wherein both ends of the rotating rod (12) are fixedly connected with the second bevel gear (13) and the third bevel gear (14) in a welding manner.

6. The ultra-precision polishing device for glass processing according to claim 1, wherein a control panel (21) is fixedly connected to one side of the second concave housing (4), and one ends of the first reciprocating displacement mechanism, the second reciprocating displacement mechanism, the first cylinder (6), the electric polishing disk (7) and the clamping mechanism are electrically connected to the control panel (21) respectively.

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