CN210968153U - Planet wheel type glass polishing device - Google Patents

Abstract

The utility model discloses a planet wheel type glass polishing device, include: the polishing machine comprises a rack, a polishing mechanism, a fixing mechanism and a driving mechanism, wherein the polishing mechanism comprises a motor reducer assembly, a turntable, a driving main shaft and a polishing disc, the motor reducer assembly is connected with the turntable through the driving main shaft, and the turntable is provided with at least one polishing disc; the fixing mechanism comprises a supporting frame and a supporting disc; the driving mechanism comprises an X-axis driving mechanism, a Y-axis driving mechanism and a Z-axis driving mechanism, the Y-axis driving mechanism is arranged on the supporting frame, the X-axis driving mechanism is connected with the Y-axis driving mechanism, and the Z-axis driving mechanism is connected with the supporting frame; the polishing mechanism and the Z-axis driving mechanism are connected with the rack. The utility model provides a planet wheel type glass burnishing device, simple structure, stable performance, degree of automation are high, and polishing efficiency is high simultaneously.

Description

Planet wheel type glass polishing device

Technical Field

The utility model relates to a technical field is made to the glass substrate, concretely relates to planet wheel type glass burnishing device.

Background

The glass substrate is an important component of a flat panel display and has a very wide development prospect. At present, the manufacturing process of the glass substrate is diversified, wherein the glass substrate manufactured by the float glass manufacturing process has the advantages of good flatness, high transparency, difficult damage and the like. The manufacturing method is suitable for manufacturing high-quality plate glass with high efficiency, such as no ribs, uniform thickness, flat upper and lower surfaces and parallel to each other; meanwhile, the scale of the production line is not limited by a forming method, and the energy consumption of unit products is low; the utilization rate of the finished product is high; scientific management is easy, full-line mechanization and automation are realized, and the labor productivity is high; the continuous operation period can be as long as several years, which is beneficial to stable production; can provide suitable conditions for producing some new varieties on line, such as electro-float reflecting glass, film-coated glass during annealing, cold end surface treatment and the like.

At present, the surface of substrate glass produced by a float process is generally polished to eliminate surface scratches and surface impurities and reduce the surface waviness, but the glass polishing device in the market at present has the defects of low automation degree, manual matching of machines, low working efficiency, poor performance stability and the like. Therefore, it is one of the problems to be solved urgently in the field to design a glass polishing device which has a simple structure, stable performance, high automation degree, a glass adsorption and fixing function and high polishing efficiency.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a planet wheel formula glass burnishing device, the device simple structure, stable performance, degree of automation are high, and polishing efficiency is high simultaneously.

In order to achieve the above object, according to one aspect of the present invention, a planetary wheel type glass polishing apparatus is provided.

The utility model provides a planet wheel type glass polishing device, include: a frame, a polishing mechanism, a fixing mechanism and a driving mechanism, wherein,

the polishing mechanism comprises a motor reducer assembly, a turntable, a driving main shaft and a polishing disc, wherein the motor reducer assembly is connected with the turntable through the driving main shaft, and the turntable is provided with at least one polishing disc;

the fixing mechanism comprises a supporting frame and a supporting disc;

the driving mechanism comprises an X-axis driving mechanism, a Y-axis driving mechanism and a Z-axis driving mechanism, the Y-axis driving mechanism is arranged on the supporting frame, the X-axis driving mechanism is connected with the Y-axis driving mechanism, and the Z-axis driving mechanism is connected with the supporting frame;

the polishing mechanism and the Z-axis driving mechanism are connected with the rack.

In a specific embodiment, the polishing mechanism further comprises a base, a first through hole is formed in the base, and the driving spindle penetrates through the first through hole and is connected with the turntable;

the base is fixedly arranged on the rack.

In a specific embodiment, a driving gear is arranged on the driving spindle, the driving gear is located between the base and the turntable, and the driving gear is fixedly arranged on the base;

the polishing disc is provided with a plurality of second through holes at intervals, the polishing disc is provided with a planetary gear shaft, the planetary gear shaft penetrates through the second through holes, a planetary gear is arranged on the planetary gear shaft, and the planetary gear is in meshed connection with the driving gear.

In a specific embodiment, a coupling is arranged on the motor reducer assembly, and the motor reducer assembly is connected with the driving spindle through the coupling;

and a polishing pad is arranged on the polishing disc.

In one embodiment, the Y-axis driving mechanism includes a Y-axis motor, a Y-axis linear guide assembly, and a Y-axis lead screw assembly, wherein the Y-axis linear guide assembly is fixed on the supporting frame;

one end of the Y-axis lead screw assembly is connected with a Y-axis lead screw front seat, the other end of the Y-axis lead screw assembly is connected with a Y-axis lead screw rear seat, and one end, far away from the Y-axis lead screw front seat, of the Y-axis lead screw rear seat is connected with a Y-axis motor;

and the Y-axis lead screw assembly is movably connected with a Y-axis nut seat.

In one embodiment, the Y-axis lead screw assembly is disposed parallel to the Y-axis linear guide assembly;

and the front seat of the Y-axis screw rod and the rear seat of the Y-axis screw rod are fixedly arranged on the supporting frame.

In a specific embodiment, the X-axis driving mechanism includes a moving plate, an X-axis motor, an X-axis lead screw assembly, an X-axis linear guide rail assembly and a hanging seat, wherein the moving plate is provided with the X-axis driving motor, one end of the X-axis lead screw assembly is connected with an X-axis lead screw front seat, the other end of the X-axis lead screw assembly is connected with an X-axis lead screw rear seat, and one end of the X-axis lead screw front seat, which is far away from the X-axis lead screw rear seat, is connected with the X-axis motor;

the X-axis lead screw assembly is movably connected with an X-axis lead screw seat;

the hanging seat is movably connected with the X-axis linear guide rail assembly.

In one embodiment, the X-axis linear guide rail assembly, the X-axis lead screw front seat and the X-axis lead screw rear seat are all fixed on the moving plate;

the X-axis linear guide rail assembly and the X-axis screw rod assembly are arranged in parallel;

the X-axis nut seat is fixedly connected with the hanging seat.

In one embodiment, the moving plate is movably disposed on the Y-axis linear guide assembly, and the Y-axis nut block is fixedly connected to the moving plate;

the hanging seat is fixedly connected with the supporting disc.

In one specific embodiment, the Z-axis driving mechanism comprises a Z-axis linear guide rail assembly, a Z-axis lead screw assembly and a Z-axis motor, wherein one end of the Z-axis lead screw assembly is connected with a Z-axis lead screw front seat, the other end of the Z-axis lead screw assembly is connected with a Z-axis lead screw rear seat, and one end of the Z-axis lead screw front seat, which is far away from the Z-axis lead screw rear seat, is connected with the Z-axis motor;

and the Z-axis lead screw assembly is movably connected with a Z-axis nut seat.

In one embodiment, the Z-axis nut block is fixedly connected with the support frame, and the Z-axis linear guide rail is movably connected with the support frame;

the Z-axis linear guide rail assembly and the Z-axis screw rod assembly are arranged in parallel;

the Z-axis linear guide rail, the Z-axis screw rod front seat and the Z-axis screw rod rear seat are all fixedly arranged on the rack.

In one embodiment, the lower surface of the support tray is provided with an adsorption pad.

According to the utility model provides a planetary wheel type glass burnishing device, when polishing mechanism moves, motor speed reduction assembly drive the drive spindle rotates, the drive spindle drives the carousel rotates, simultaneously drive gear also along with the drive spindle is rotatory, thereby drive gear drives planetary gear rotates, and then planetary gear drives planetary gear axle and polishing dish rotate, consequently polishing dish among the polishing mechanism not only can be along with planetary gear axle carries out the rotation, can also along with the carousel revolves to polish glass.

According to the planetary wheel type glass polishing device provided by the utility model, the fixing mechanism can fix the X-axis driving mechanism, the Y-axis driving mechanism and the Z-axis driving mechanism on the fixing mechanism, and the polishing mechanism is positioned below the driving mechanism and the fixing mechanism; the driving mechanism is used for moving the glass to be polished to a specified position, wherein the X-axis driving mechanism and the Y-axis driving mechanism can move the glass to be polished in a plane so as to carry out back and forth polishing, and the Z-axis driving mechanism can lift the glass to be polished along the longitudinal direction so as to achieve the purpose of controlling the polishing amount and the polishing pressure.

Drawings

The accompanying drawings are included to provide a better understanding of the present invention and are not intended to constitute an undue limitation on the invention. Wherein:

FIG. 1 is a schematic structural view of a planetary wheel type glass polishing device according to the present invention;

fig. 2 is a schematic structural diagram of the planetary wheel type glass polishing device according to the present invention.

List of reference numerals

1-motor reducer assembly, 2-base, 3-planetary gear, 4-rotary table, 5-polishing disc, 6-adsorption pad, 7-support frame, 8-support disc, 9-Z-axis linear guide rail assembly, 10-Z-axis motor base, 11-Z-axis screw front base, 12-Z-axis screw base, 13-Z-axis screw rear base, 14-planetary gear shaft, 15-polishing pad, 16-driving main shaft, 17-Y-axis motor, 18-Y-axis linear guide rail assembly, 19-moving plate, 20-X-axis motor, 21-X-axis screw front base, 22-Z-axis motor, 23-X-axis screw assembly, 24-X-axis linear guide rail assembly, 25-Y-axis screw assembly, 26-Y-axis screw front base, 27-Y-axis screw base, 28-Y-axis screw rear base and 29-hanging base.

Detailed Description

Exemplary embodiments of the invention are described below with reference to the accompanying drawings, in which various details of embodiments of the invention are included to assist understanding, and which are to be considered exemplary only. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the invention. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

Referring to fig. 1-2, the utility model relates to a planet wheel type glass polishing device, including: a frame, a polishing mechanism, a fixing mechanism and a driving mechanism, wherein,

the polishing mechanism comprises a motor reducer assembly 1, a rotary table 4, a driving spindle 16 and a polishing disc 5, wherein the motor reducer assembly 1 is connected with the rotary table 4 through the driving spindle 16, and the rotary table 4 is provided with at least one polishing disc 5; when the motor speed reduction assembly operates, the driving main shaft 16 is driven to rotate, and the driving main shaft 16 can drive the turntable 4 to rotate.

The number of the polishing pads 5 may be 1, 2, 3, 4, 5, and more, etc. When the number of the polishing disks 5 is plural, the plural polishing disks 5 are disposed on the turntable 4 at equal intervals. Preferably, a plurality of the polishing disks 5 may form a ring.

In the utility model shown in fig. 1, the number of the polishing discs 5 is 5, 5 the polishing discs 5 are arranged on the turntable 4 at equal intervals. When a plurality of polishing disks 5 run simultaneously, the polishing efficiency is high.

The shape of the polishing disc 5 may be a geometric shape such as a round cake shape, a rectangular parallelepiped plate shape, a pentagonal plate shape, a hexagonal plate shape, an octagonal plate shape, and the like, and is preferably a round cake shape.

The fixing mechanism comprises a supporting frame 7 and a supporting disc 8;

the driving mechanism comprises an X-axis driving mechanism, a Y-axis driving mechanism and a Z-axis driving mechanism, the Y-axis driving mechanism is arranged on the supporting frame 7, the X-axis driving mechanism is connected with the Y-axis driving mechanism, and the Z-axis driving mechanism is connected with the supporting frame 7;

the driving mechanism is used for moving the glass to be polished to a specified position, wherein the X-axis driving mechanism and the Y-axis driving mechanism can move the glass to be polished in a plane so as to carry out back and forth polishing, and the Z-axis driving mechanism can lift the glass to be polished along the longitudinal direction so as to achieve the purpose of controlling the polishing amount and the polishing pressure.

The polishing mechanism and the Z-axis driving mechanism are connected with the rack.

The fixing mechanism and the driving mechanism are arranged above the polishing mechanism.

The utility model discloses the middle rack is prior art the utility model discloses in do not specifically inject, as long as can realize the utility model provides a function can.

In a specific embodiment of the present invention, the polishing mechanism further includes a base 2, a first through hole is formed in the base 2, and the driving spindle 16 penetrates through the first through hole and is connected to the turntable 4;

the base 2 is fixedly arranged on the frame. When the device is in operation, the base 2 is fixedly arranged on the frame, so that the turntable 4 and the polishing disk 5 can not be displaced in other directions in the rotating process, and the effective and high-quality polishing at the position to be polished can be ensured.

In the specific embodiment of the present invention, a driving gear is disposed on the driving spindle 16, the driving gear is located between the base 2 and the turntable 4, and the driving gear is fixedly disposed on the base 2;

a plurality of second through holes are formed in the rotary disc 4 at intervals, a planetary gear shaft 14 is arranged on the polishing disc 5, the planetary gear shaft 14 penetrates through the second through holes, a planetary gear 3 is arranged on the planetary gear shaft 14, and the planetary gear 3 is in meshed connection with the driving gear.

The driving spindle 16 can drive the driving gear to rotate in the rotation process, and the driving gear is in meshed connection with the planetary gear 3 to drive the planetary gear 3 to rotate, so that the planetary gear 3 can drive the planetary gear shaft 14 to rotate in the rotation process, and the planetary gear shaft 14 drives the polishing disc 5 to rotate, thereby achieving the purpose of polishing.

The number of the second through holes is not less than that of the polishing discs 5. The second through holes are distributed along the circumference of the rotating disk 4, so that a plurality of second through holes can form a ring.

In the specific embodiment of the present invention, a shaft coupling is disposed on the motor reducer assembly 1, and the motor reducer assembly 1 is connected to the driving spindle 16 through the shaft coupling; when the motor reducer assembly 1 operates, the coupler rotates, so as to drive the driving main shaft 16 to rotate.

The polishing disk 5 is provided with a polishing pad 15. The glass to be polished is polished by the polishing pad 15.

In the embodiment of the present invention, the Y-axis driving mechanism includes a Y-axis motor 17, a Y-axis linear guide assembly 18, and a Y-axis lead screw assembly 25, wherein the Y-axis linear guide assembly 18 is fixed on the supporting frame 7;

one end of the Y-axis lead screw assembly 25 is connected with a Y-axis lead screw front seat 26, the other end of the Y-axis lead screw assembly 25 is connected with a Y-axis lead screw rear seat 28, and one end, far away from the Y-axis lead screw front seat 26, of the Y-axis lead screw rear seat 28 is connected with a Y-axis motor 17;

the Y-axis lead screw assembly 25 is movably connected with a Y-axis nut seat 27.

The Y-axis lead screw assembly 25 is arranged in parallel with the Y-axis linear guide rail assembly 18;

the front seat 26 of the Y-axis lead screw and the rear seat of the Y-axis lead screw are both fixed on the supporting frame 7, so that the Y-axis lead screw assembly 25 is fixed on the supporting frame 7.

From fig. 2 it can be known that supporting rack 7 is cuboid frame column structure, the quantity of Y axle motor 17 is 2, Y axle motor 17 sets up on Y axle motor 17 seat, just Y axle motor 17 seat set firmly in the right angle department of cuboid frame column structure, the quantity of Y axle linear guide assembly 18 is 2, two Y axle linear guide assembly 18 is parallel with two Y axle screw assemblies 25.

The moving plate 19 is movably arranged on the Y-axis linear guide assembly 18, and the Y-axis nut seat 27 is fixedly connected with the moving plate 19.

When a Y-axis driving mechanism is required to operate, the Y-axis motor 17 is started, the Y-axis motor 17 drives the Y-axis lead screw assembly 25 to rotate, and the Y-axis nut seat 27 moves on the Y-axis lead screw assembly 25 along with the rotation of the Y-axis lead screw assembly 25, so that the moving plate 19 is driven to move on the Y-axis linear guide rail assembly 18.

In the specific embodiment of the present invention, the X-axis driving mechanism includes a moving plate 19, an X-axis motor 20, an X-axis lead screw assembly 23, an X-axis linear guide rail assembly 24, and a hanging seat 29, wherein the moving plate 19 is provided with the X-axis driving motor, one end of the X-axis lead screw assembly 23 is connected to an X-axis lead screw front seat, the other end of the X-axis lead screw assembly 23 is connected to an X-axis lead screw rear seat, and one end of the X-axis lead screw front seat 21, which is away from the X-axis lead screw rear seat, is connected to the X-axis motor 20;

the X-axis driving motor is disposed on an X-axis motor 20 base, and the X-axis motor 20 base is fixedly disposed on the moving plate 19, so that the X-axis driving motor is disposed on the moving plate 19 through the X-axis motor 20 base.

The X-axis lead screw assembly 23 is movably connected with an X-axis lead screw seat; the X-axis nut seat is fixedly connected with the hanging seat 29.

The hanging seat 29 is movably connected with the X-axis linear guide assembly 24.

The X-axis linear guide rail assembly 24, the X-axis lead screw front seat 21 and the X-axis lead screw rear seat are all fixedly arranged on the moving plate 19, so that the X-axis lead screw assembly 23 is fixedly arranged on the moving plate 19.

It can be known from fig. 2 that the moving plate 19 is a rectangular plate-shaped structure, the number of the X-axis motors 20 is 1, the X-axis motors 20 are arranged on the X-axis motor 20 seats, the X-axis motor 20 seats are fixedly arranged at the right angle of the rectangular plate-shaped structure, the number of the X-axis linear guide rail assemblies 24 is 2, and the two X-axis linear guide rail assemblies 24 are parallel to the X-axis lead screw assembly 23.

The hanging seat 29 comprises a body and a sliding block, the body comprises a first body, a second body and a third body, the first body is parallel to the second body, the third body is perpendicular to the first body and the second body, two ends of the third body are respectively connected with the first body and the second body, the first body, the second body and the third body form a frame, the third body is provided with a plurality of sliding blocks, and the sliding blocks are movably connected with the X-axis linear guide rail assembly 24; the first body and the second body are kept away from one end of the third body and are fixedly connected with the supporting disc 8 respectively, an adsorption pad 6 is arranged on the lower surface of the supporting disc 8, and the adsorption pad 6 is used for adsorbing glass to be polished.

When the X-axis driving mechanism operates, the X-axis motor 20 is started to drive the X-axis lead screw assembly 23 to rotate, the X-axis nut seat moves along the X-axis lead screw assembly 23, and the X-axis nut seat is connected with the third body of the hanging seat 29 so as to drive the hanging seat 29 to slide along the X-axis linear guide rail and further drive the supporting disk 8 and the glass to be polished to move.

In the specific embodiment of the present invention, the Z-axis driving mechanism includes a Z-axis linear guide assembly 9, a Z-axis lead screw assembly and a Z-axis motor 22, wherein one end of the Z-axis lead screw assembly is connected to a Z-axis lead screw front seat 11, the other end of the Z-axis lead screw assembly is connected to a Z-axis lead screw rear seat 13, and one end of the Z-axis lead screw front seat 11 away from the Z-axis lead screw rear seat 13 is connected to the Z-axis motor 22;

and the Z-axis screw rod assembly is movably connected with a Z-axis nut seat 12.

The Z-axis nut seat 12 is fixedly connected with the supporting frame 7, and the Z-axis linear guide rail is movably connected with the supporting frame 7;

the Z-axis linear guide rail assembly 9 and the Z-axis screw rod assembly are arranged in parallel;

the Z-axis linear guide rail, the Z-axis screw front seat 11 and the Z-axis screw rear seat 13 are all fixedly arranged on the rack.

As can be seen from fig. 1, the Z-axis motor 22 is disposed on the Z-axis motor 22 base 10, and the Z-axis screw front base 11 is connected to the Z-axis motor 22 base 10 through a coupling. The number of the Z-axis motors 22 is four, the four Z-axis motors 22 are respectively positioned at four corners of the outer edge of the supporting frame 7, and the Z-axis lead screw assembly is perpendicular to the supporting frame 7.

When the Z-axis driving mechanism operates, the Z-axis motor 22 is started, the Z-axis motor 22 drives the Z-axis leading screw assembly to rotate, the Z-axis leading screw seat 12 on the Z-axis leading screw assembly moves on the Z-axis leading screw assembly, and the Z-axis leading screw seat 12 is fixedly connected with the supporting frame 7, so that the supporting frame 7 is driven to move up and down along the Z-axis linear guide assembly 9, and the supporting disc 8 and the glass to be polished are lifted and lowered.

When the planetary wheel type glass polishing device is used, firstly, the glass to be polished is placed on the adsorption pad 6, then the Z-axis driving mechanism is opened, the Z-axis driving motor drives the supporting frame 7 to lift, so that the glass on the supporting disc 8 reaches the height at which the polishing disc 5 can be polished, then the Z-axis motor 22 is closed, so that the Z-axis driving mechanism stops working, the X-axis driving motor and the Y-axis driving motor are simultaneously opened, the supporting disc 8 is driven to move by the X-axis driving motor and the Y-axis driving motor, so that the part of the glass to be polished, which needs to be polished, is placed at the position at which the polishing disc 5 can be polished, the motor reducer assembly 1 of the polishing mechanism is simultaneously opened, the glass is polished by the polishing disc 5, when the position needing to be polished changes, the X-axis driving motor and the Y-axis driving motor can move the position of the glass to be polished to the working range of the polishing disk 5 by adjusting the position of the supporting disk 8, so that the glass is polished, and the steps are repeated until the glass to be polished is completely polished. Consequently planet wheel type glass burnishing device simple structure, stable performance, degree of automation are high, polishing efficiency is higher simultaneously.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above-described embodiments and application fields, and the above-described embodiments are illustrative, instructive, and not restrictive. Those skilled in the art, having the benefit of this disclosure, may effect numerous modifications thereto without departing from the scope of the invention as defined by the appended claims.

Claims (12)

1. A planetary wheel type glass polishing device is characterized by comprising: a frame, a polishing mechanism, a fixing mechanism and a driving mechanism, wherein,

the polishing mechanism comprises a motor reducer assembly, a turntable, a driving main shaft and a polishing disc, wherein the motor reducer assembly is connected with the turntable through the driving main shaft, and the turntable is provided with at least one polishing disc;

the fixing mechanism comprises a supporting frame and a supporting disc;

the driving mechanism comprises an X-axis driving mechanism, a Y-axis driving mechanism and a Z-axis driving mechanism, the Y-axis driving mechanism is arranged on the supporting frame, the X-axis driving mechanism is connected with the Y-axis driving mechanism, and the Z-axis driving mechanism is connected with the supporting frame;

the polishing mechanism and the Z-axis driving mechanism are connected with the rack.

2. The planetary glass polishing device according to claim 1, wherein the polishing mechanism further comprises a base, a first through hole is formed in the base, and the driving spindle penetrates through the first through hole and is connected with the turntable;

the base is fixedly arranged on the rack.

3. A planetary gear type glass polishing device according to claim 2, wherein a driving gear is arranged on the driving spindle, the driving gear is positioned between the base and the turntable, and the driving gear is fixedly arranged on the base;

the polishing disc is provided with a plurality of second through holes at intervals, the polishing disc is provided with a planetary gear shaft, the planetary gear shaft penetrates through the second through holes, a planetary gear is arranged on the planetary gear shaft, and the planetary gear is in meshed connection with the driving gear.

4. A planetary gear type glass polishing device according to claim 1, wherein a coupler is arranged on the motor reducer assembly, and the motor reducer assembly is connected with the driving spindle through the coupler;

and a polishing pad is arranged on the polishing disc.

5. The planetary glass polishing device according to claim 1, wherein the Y-axis driving mechanism comprises a Y-axis motor, a Y-axis linear guide assembly and a Y-axis lead screw assembly, wherein the Y-axis linear guide assembly is fixedly arranged on the support frame;

one end of the Y-axis lead screw assembly is connected with a Y-axis lead screw front seat, the other end of the Y-axis lead screw assembly is connected with a Y-axis lead screw rear seat, and one end, far away from the Y-axis lead screw front seat, of the Y-axis lead screw rear seat is connected with a Y-axis motor;

and the Y-axis lead screw assembly is movably connected with a Y-axis nut seat.

6. The planetary glass polishing device according to claim 5, wherein the Y-axis lead screw assembly is arranged in parallel with the Y-axis linear guide rail assembly;

and the front seat of the Y-axis screw rod and the rear seat of the Y-axis screw rod are fixedly arranged on the supporting frame.

7. The planetary wheel type glass polishing device according to claim 5, wherein the X-axis driving mechanism comprises a moving plate, an X-axis motor, an X-axis lead screw assembly, an X-axis linear guide rail assembly and a hanging seat, wherein the moving plate is provided with the X-axis driving motor, one end of the X-axis lead screw assembly is connected with an X-axis lead screw front seat, the other end of the X-axis lead screw assembly is connected with an X-axis lead screw rear seat, and one end, away from the X-axis lead screw rear seat, of the X-axis lead screw front seat is connected with the X-axis motor;

the X-axis lead screw assembly is movably connected with an X-axis lead screw seat;

the hanging seat is movably connected with the X-axis linear guide rail assembly.

8. The planetary glass polishing device according to claim 7, wherein the X-axis linear guide rail assembly, the X-axis lead screw front seat and the X-axis lead screw rear seat are all fixedly arranged on the moving plate;

the X-axis linear guide rail assembly and the X-axis screw rod assembly are arranged in parallel;

the X-axis nut seat is fixedly connected with the hanging seat.

9. The planetary glass polishing device according to claim 7, wherein the moving plate is movably disposed on the Y-axis linear guide assembly, and the Y-axis nut block is fixedly connected with the moving plate;

the hanging seat is fixedly connected with the supporting disc.

10. The planetary gear type glass polishing device according to claim 1, wherein the Z-axis driving mechanism comprises a Z-axis linear guide assembly, a Z-axis lead screw assembly and a Z-axis motor, wherein one end of the Z-axis lead screw assembly is connected with a Z-axis lead screw front seat, the other end of the Z-axis lead screw assembly is connected with a Z-axis lead screw rear seat, and one end of the Z-axis lead screw front seat, which is far away from the Z-axis lead screw rear seat, is connected with the Z-axis motor;

and the Z-axis lead screw assembly is movably connected with a Z-axis nut seat.

11. A planetary glass polishing device according to claim 10, wherein the Z-axis nut block is fixedly connected with the support frame, and the Z-axis linear guide rail is movably connected with the support frame;

the Z-axis linear guide rail assembly and the Z-axis screw rod assembly are arranged in parallel;

the Z-axis linear guide rail, the Z-axis screw rod front seat and the Z-axis screw rod rear seat are all fixedly arranged on the rack.

12. A planetary glass polishing device according to any one of claims 1 to 10, wherein an adsorption pad is provided on a lower surface of the support disk.

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