CN113045191A

CN113045191A - Curved surface glass S type cutting device

Info

Publication number: CN113045191A
Application number: CN202110381163.9A
Authority: CN
Inventors: 李雪梅
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2021-06-29

Abstract

A curved glass S-shaped cutting device comprises: the device comprises a workbench, a guide support, a limiting vertical plate, an ejection part, a clamping mechanism, a position control mechanism, a gear speed change mechanism and a cutting part, wherein the middle layer of the workbench is a working surface, the guide support is positioned above the working surface, and the limiting vertical plate is movably arranged on two sides of the workbench; the ejection component sends the glass to be processed to the working surface area, and the clamping mechanism is matched with the limiting vertical plate to fix the curved glass, so that the stability of the curved glass during processing is improved; the position control mechanism is slidably arranged on the guide support, and the cutting part is arranged below the position control mechanism; according to the invention, the cross slide rod is combined with the crank rocker mechanism in the position control mechanism, and the position control mechanism is matched with the gear speed change mechanism for driving, so that the cutting part can also perform reciprocating swing motion in the advancing process, and various normative S-shaped curves can be guaranteed to be drawn.

Description

Curved surface glass S type cutting device

Technical Field

The invention relates to the technical field of glass cutting, in particular to an S-shaped cutting device for curved glass.

Background

Glass is an amorphous inorganic non-metallic material, and is generally prepared by using various inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials. The main components of the arc-shaped cutting device are silicon dioxide and other oxides, the glass is good in aesthetic degree and is a very important building raw material, and in order to adapt to various different installation environments, the arc-shaped cutting device for the glass is required to be subjected to linear cutting and special shapes, so that the requirement for the arc-shaped cutting device for the glass is increased day by day.

In general, when S-shaped curve cutting processing is carried out on curved glass, the curved glass is marked and manually cut mainly by a handcraft operator according to experience, and the cutting efficiency is low, the precision is poor, and the cutting processing quality is difficult to ensure; especially, when a large amount of processing is needed, manual operation is difficult to progress.

Therefore, the curved glass S-shaped cutting device needs to be invented, and the movement track of the cutter is changed through the movement of the mechanical mechanism, so as to solve the technical problems.

Disclosure of Invention

In order to solve the problems, the invention provides an S-shaped cutting device for curved glass, which is characterized in that an ejection mechanism and a clamping mechanism are arranged, the curved glass is stably conveyed to a working area and clamped and fixed, a gear speed change mechanism is arranged to drive a cutter to advance at variable speed, and then the cutter is converted by a position control mechanism, so that the cutter still swings back and forth continuously when advancing, and further the cutter moves along an S-shaped curved track on the curved glass.

The technical scheme adopted by the invention is as follows: a curved glass S-shaped cutting device comprises: the middle layer of the workbench is a working surface, the guide support is positioned above the working surface and fixedly connected with the workbench, and the limiting vertical plates are movably arranged on two sides of the workbench; it is characterized by also comprising: the device comprises an ejection part, a clamping mechanism, a position control mechanism and a cutting part; the ejection component is positioned below the working surface and is movably connected with the workbench to send the glass to be processed to the working surface area; at least two clamping mechanisms are uniformly distributed and arranged on the periphery of the workbench and are matched with the limiting vertical plates to clamp and position the glass to be processed; the position control mechanism is slidably mounted on the guide support and moves linearly, the cutting part is mounted below the position control mechanism, and the position control mechanism drives the cutting part to move forwards and swing back and forth when moving forwards, so that the glass to be processed is subjected to S-shaped cutting.

Further, the position control mechanism comprises: the driving plate comprises a driving plate, a cross slide rod, a rocker, a swing rod and a movable bracket, wherein one end of the driving plate is rotatably arranged on the movable bracket through a vertical shaft, the lower end of the vertical shaft penetrates through the movable bracket and is fixedly provided with a transmission gear, and a pin A is fixedly arranged at the other end of the driving plate; the driving plate is connected with the cross slide bar in a sliding manner through the pin A, and one end of the cross slide bar is also provided with a pin B; the pin B is matched with a notch B arranged on a rocker, and the rocker is connected with the cross slide rod in a sliding way through the pin B; one end of the rocker is connected with the movable bracket in a sliding way through a pin shaft, the other end of the rocker is hinged with the swing rod, and a cutting part is fixedly connected at the hinged point; the other end of the swing rod is rotatably connected with the movable bracket; the two sides of the movable bracket are provided with bulges which can slide along the sliding grooves on the inner side of the guide support; the transmission gear is meshed with a sliding rack fixedly arranged on the inner side of the guide support.

Furthermore, a gear speed change mechanism is arranged between the transmission gear and the sliding rack, the transmission gear is meshed with the initial end of a speed change gear set arranged in the gear speed change mechanism, and the tail end of the speed change gear set is meshed with the sliding rack.

Furthermore, the speed changing wheel group is driven to rotate by a driving motor, and a cylinder body of the driving motor is fixed on the movable bracket.

Further, the cutting member includes: the inner shaft is connected in the sleeve in a sliding manner, and a spring is arranged to limit the inner shaft and the sleeve; the graver bracket is hinged at the lower end of the inner shaft, and a graver is fixedly arranged on the graver bracket; the two sides of the nicking tool are symmetrically provided with idler wheels A, and the idler wheels A are rotationally connected with a nicking tool support to keep the nicking tool perpendicular to the surface of the glass during cutting.

Furthermore, the cutting component further comprises: the roller B, the guide top plate and the fixing frame are fixedly arranged below the moving bracket, and the guide top plate is arranged on the fixing frame in a sliding manner; the roller B is fixedly arranged on the inner shaft and is attached to the lower surface of the guide top plate, and the upper part of the inner shaft penetrates through the arc clearance on the guide top plate and is connected with the sleeve.

Further, the clamping mechanism includes: the device comprises an upper supporting piece, a lower supporting piece, a screw rod A, a screw rod B, a rubber pad A, a rubber pad B and a sliding assembly; the upper supporting piece and the lower supporting piece are respectively and correspondingly arranged on the upper layer and the lower layer of the workbench; the screw A is screwed in the upper support piece, and the screw B is screwed in the lower support piece; the sliding assembly is opposite to the axis of the lead screw A, the upper end of the sliding assembly is fixedly arranged on the upper layer of the workbench, and the lower end of the sliding assembly is movably connected with the rubber pad A; the driving screw A abuts against the sliding assembly, the total length of the sliding assembly can be changed, the rubber pad A is driven to be matched with the rubber pad B to clamp the glass tightly, and the rubber pad B is movably arranged at the upper end of the screw B.

Further, the ejection part includes: the rubber wheel, the roller bracket, the cam and the wheel shaft; the wheel shaft is rotatably arranged on the lower layer of the workbench, and a cam is fixedly arranged on the wheel shaft; the rubber wheel is rotatably connected with the roller wheel bracket, the roller wheel bracket is connected with the workbench in a sliding manner, and the bottom of the roller wheel bracket penetrates through the workbench to be correspondingly connected with the cam below; and a crank is fixedly arranged at one end of the wheel shaft.

Furthermore, the moving bracket is further provided with: the rocker sliding rail is positioned at the rear part of the movable bracket and is matched with the pin shaft to guide and limit the rocker; the circular sinking platform is positioned in the middle of the movable bracket, and the driving plate rotates around the center of the circular sinking platform; the sliding pins are positioned on two sides of the circular sinking platform and are in sliding fit with the cross sliding rod; the pin C is positioned at the front part of the movable bracket and is rotationally connected with the oscillating bar; and a cutting part is correspondingly arranged below the arc-shaped guide groove and corresponds to the arc-shaped clearance on the guide top plate.

Further, the slide assembly of the clamping mechanism comprises: the upper sliding core is fixedly connected with the workbench and is in sliding fit connection with the sliding sleeve; the extension spring cover is in going up the slip core outside, and one end is fixed with going up the slip core, and the other end is fixed with the sliding sleeve.

Due to the adoption of the technical scheme, the invention has the following advantages:

1. according to the clamping mechanism, the screw rod mechanism is connected with the rubber pad through the universal shaft, so that curved glass with different radians can be fixed, and the limiting vertical plates on two sides are adjusted to fix the curved glass, so that the stability of the curved glass during processing is improved, and the cutting effect is ensured.

2. According to the cutting component, the rollers are arranged on the two sides of the nicking tool and are attached to the surface of the curved glass, so that the nicking tool is perpendicular to the surface of the glass, efficient cutting is realized, and the working efficiency is improved.

3. According to the position control mechanism, the cross slide rod is combined with the crank rocker mechanism, and the cutting part can perform reciprocating swing motion in the advancing process under the driving of the position control mechanism and the gear speed change mechanism, so that various normative S-shaped curves can be carved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is an enlarged view of a portion of the positioning mechanism of the present invention.

Fig. 3 is a schematic view of the connection of the guide support and related parts of the invention.

FIG. 4 is a schematic view of the connection of the cutting member and a portion of the position control mechanism according to the present invention.

FIG. 5 is an enlarged view of a portion of the gear shifting mechanism and position control mechanism of the present invention.

FIG. 6 is a schematic view of a specific structure of the clamping mechanism of the present invention.

Fig. 7 is a schematic view of the specific structure of the ejection part of the present invention.

Fig. 8 is a schematic view of the internal structure of the mobile carrier of the present invention.

Fig. 9 is an exploded view of the internal structure of the sliding assembly of the present invention.

Fig. 10 is a schematic view of the overall structure working state of the invention.

Reference numerals: 1-a workbench; 2-a guide support; 3-an ejection part; 4-a clamping mechanism; 5-a position control mechanism; 6-a gear change mechanism; 7-a cutting member; 8-a limiting vertical plate; 201-rack; 301-rubber wheel; 302-a roller carriage; 303-cam; 304-an axle; 401 — an upper support; 402-a lower support; 403-screw A; 404-screw B; 405-rubber pad a; 406-rubber pad B; 407-a slide assembly; 4071-sliding core; 4072-tension spring; 4073-sliding sleeve; 501-transmission gear; 502-a dial; 503-a cross slide bar; 504-rocker; 505-a swing rod; 507-moving the carriage; 5071-a projection; 5072-rocker slide; 5073-round sinking platform; 5074-a sliding pin; 5075-an arcuate channel; 5076-Pin C; 601-a change gear set; 602-a drive motor; 701-a sleeve; 702-an inner shaft; 703-a nicking tool support; 704-nicking tool; 705-roller A; 706-roller B; 707-guiding the top plate; 708-a mount.

Detailed Description

The invention discloses a curved glass S-shaped cutting device, which can realize S-shaped cutting on the surface of glass. The technical solutions in the embodiments of the present invention are 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 embodiments.

Example, as shown in fig. 1-10, a curved glass S-shaped cutting apparatus of the present invention comprises: the device comprises a workbench 1, a guide support 2 and a limiting vertical plate 8, wherein the middle layer of the workbench 1 is a working surface, the guide support 2 is positioned above the working surface and fixedly connected with the workbench 1, and the limiting vertical plate 8 is movably arranged on two sides of the workbench 1; in this embodiment, the position-limiting vertical plate 8 is connected with the workbench 1 in a sliding rail fit manner, the position of the position-limiting vertical plate 8 on the workbench 1 can be changed by pushing the position-limiting vertical plate 8, when the position-limiting vertical plate is adjusted to a proper position, the position-limiting vertical plate can be fixed by bolts, and other fixing manners can be adopted in other embodiments; in addition, the special quality of glass material itself is considered, and the face is selected for the rubber material in the spacing riser 8 to be equipped with the wavy sunken, the curved surface glass can not be destroyed at fixed in-process to the rubber material face, and the sunken design of wavy more effectual fixed glass both sides prevent to slide, thereby guarantee the stability that glass pressed from both sides the dress.

The invention also includes: the device comprises an ejection component 3, a clamping mechanism 4, a position control mechanism 5 and a cutting component 7; the ejection component 3 is positioned below the working surface, is movably connected with the working table 1 and sends the glass to be processed to the working surface area; at least two clamping mechanisms 4 are uniformly arranged on the periphery of the workbench 1 and matched with the limiting vertical plate 8 to clamp and position the glass to be processed; the position control mechanism 5 is slidably mounted on the guide support 2 to do linear motion, the cutting part 7 is mounted below the position control mechanism 5, and the position control mechanism 5 drives the cutting part 7 to move forwards and swing in a reciprocating mode when moving forwards, so that S-shaped cutting of glass to be processed is achieved.

When the glass needs to be cut and processed, the glass slides into the workbench along with the ejection part 3, the ejection part 3 is controlled to move the glass to the working surface, the clamping mechanism 4 controls the glass to the working surface, the limiting vertical plate 8 is moved to limit and fix the glass, and further preparation is made for next cutting; in order to reduce the situation of cutting failure caused by glass shaking in the cutting process, in the embodiment, the clamping mechanisms 4 are uniformly distributed in the directions of four corners of the workbench 1, the glass is clamped from four points, and then the limiting vertical plates 8 are moved to fix two sides of the glass; and the position control mechanism 5 is used for controlling the movement track of the cutting part 7, and in the embodiment, the position control mechanism 5 is combined with a crank rocker mechanism, a cross slide bar mechanism, a connecting rod slide block mechanism and a gear rack mechanism which are in braking connection with each other, so that the linear movement and the repeated swinging of the cutting part 7 are simultaneously carried out, the S-shaped cutting track is completed in a matching manner, and the standard S-shaped curve is guaranteed to be carved.

Referring to fig. 2-3, the position control mechanism 5 includes: a dial 502, a cross slide bar 503, a rocker 504, a swing rod 505 and a moving bracket 507, wherein one end of the dial 502 is rotatably mounted on the moving bracket 507 through a vertical shaft, the lower end of the vertical shaft penetrates through the moving bracket 507 and is fixedly provided with a transmission gear 501, and the other end of the dial 502 is fixedly provided with a pin A; a cross slide bar 503 is arranged on the moving bracket 507 in a left-right sliding manner, a pin A is matched with a notch A arranged on the cross slide bar 503, a dial plate 502 is connected with the cross slide bar 503 in a sliding manner through the pin A, and a pin B is also arranged at one end of the cross slide bar 503; the pin B is matched with a notch B arranged on the rocker 504, and the rocker 504 is connected with the cross sliding rod 503 in a sliding way through the pin B; one end of the rocker 504 is connected with the movable bracket 507 in a sliding way through a pin shaft, the other end of the rocker 504 is hinged with a swing rod 505, and a cutting component 7 is fixedly connected at the hinged point; the other end of the swing rod 505 is rotatably connected with the movable bracket 507; the two sides of the moving bracket 507 are provided with protrusions 5071 which can slide along the sliding grooves on the inner side of the guide support 2; the transmission gear 501 is meshed with a sliding rack 201 fixedly arranged on the inner side of the guide support 2; the position control mechanism 5 drives the cutting component 7 to move, a standard S-shaped moving track is formed, and the cutting effect is guaranteed.

The power transmission mode of the position control mechanism 5 is as follows: when the gear and rack are matched and the position control mechanism 5 is pushed to advance, the transmission gear 501 starts to rotate along the sliding rack 201, the transmission gear 501 rotates to drive the drive plate 502 to synchronously rotate, and the other end of the drive plate 502 drives the cross slide rod 503 to slide left and right, so that the rocker 504 is driven to swing at an indefinite point; in order to ensure that the rocker 504 swings along the set radian, one end of the rocker 504 slides back and forth along the vertical chute, and the other end of the rocker 504 is hinged with the swing rod 505 and drives the cutting component 7 to move forwards and also swing back and forth; at this time, the swing rod 505 swings around the other end at a fixed point, and the movement track of the cutting component 7 is ensured to be more stable under the combined action of the swing rod 505 and the rocker 504.

In an optional implementation manner of the embodiment of the present invention, please refer to fig. 5, the present invention further provides a gear shifting mechanism 6 between the transmission gear 501 and the sliding rack 201, the transmission gear 501 is engaged with an initial end of a gear shifting wheel set 601 provided in the gear shifting mechanism 6, and simultaneously, a tail end of the gear shifting wheel set 601 is engaged with the sliding rack 201; by setting different transmission ratios in the speed changing wheel set 601, the relationship between the advancing speed and the repeated swinging frequency is changed to achieve different curve tracks; in this embodiment, the transmission pulley set 601 is driven by a driving motor 602 to rotate, and a cylinder of the driving motor 602 is fixed on the moving bracket 507; in other alternatives, the transmission pulley set 601 may also be driven by other means.

Referring to fig. 4, the cutting unit 7 includes: the device comprises a sleeve 701, an inner shaft 702, a nicking tool support 703 and a nicking tool 704, wherein the sleeve 701 is fixedly connected with a rocker 504 on a position control mechanism 5, the inner shaft 702 is connected inside the sleeve 701 in a sliding manner, a spring is arranged between the sleeve 701 and the inner shaft 702 in order to enable the nicking tool 704 to be more attached to the surface of curved glass, and when the height of the nicking tool 704 changes, a buffering and pressing effect is achieved; a nicking tool bracket 703 is hinged at the lower end of the inner shaft 702, and a nicking tool 704 is fixedly arranged on the nicking tool bracket 703; rollers A705 are symmetrically arranged at two sides of the graver 704, the rollers A705 are rotationally connected with the graver bracket 703, and the graver 704 is kept vertical to the surface of the glass during cutting; in consideration of the special properties of glass, the roller A17 in the embodiment is made of plastic, so that the surface of the glass cannot be damaged while the hardness is ensured, the nicking tool 704 is always attached to the surface of the curved glass by mounting the roller A705, the efficient cutting is realized, and the working efficiency is improved.

In order to prevent the nicking tool 704 from shaking due to too much resistance when operating, in an optional implementation of the embodiment of the present invention, the cutting unit 7 further comprises: the roller B706, the guide top plate 707 and the fixing frame 708, wherein the fixing frame 708 is fixedly arranged below the moving bracket 507, and the guide top plate 707 is arranged on the fixing frame 708 in a sliding manner; the roller B706 is fixedly arranged on the inner shaft 702 and is attached to the lower surface of the guide top plate 707, and the upper part of the inner shaft 702 penetrates through an arc clearance on the guide top plate 707 and is connected with the sleeve 701; the guide top plate 707 can be replaced aiming at the glass with different bending radians, the bending radian of the guide top plate 707 is the same as that of the curved glass, and the cutting effect of the nicking tool is effectively ensured.

In an alternative implementation manner of the embodiment of the present invention, referring to fig. 6, the clamping mechanism 4 includes: an upper support 401, a lower support 402, a lead screw a403, a lead screw B404, a rubber pad a405, a rubber pad B406, and a sliding assembly 407; wherein the upper supporting member 401 and the lower supporting member 402 are respectively and correspondingly installed on the upper layer and the lower layer of the workbench 1, and the upper supporting member and the lower supporting member are both provided with internal threads which are respectively in threaded fit with corresponding lead screws; the lead screw A403 is screwed in the upper support part 401, the lead screw B404 is screwed in the lower support part 402, and the height of the rubber pad is adjusted by rotating the lead screw A403 and the lead screw B404 to clamp the curved glass; in the embodiment, a knob is arranged at the top end of the screw rod, and the knob is rotated to drive the screw rod A403 and the screw rod B404 to rotate; the sliding assembly 407 is opposite to the axle center of the lead screw A403, the upper end of the sliding assembly is fixedly arranged on the upper layer of the workbench 1, and the lower end of the sliding assembly is movably connected with the rubber pad A405 through a universal shaft; the screw A403 is driven to abut against the sliding assembly 407, the total length of the sliding assembly 407 can be changed, the rubber pad A405 and the rubber pad B406 are driven to be matched to clamp the glass, and the rubber pad B406 is movably connected to the upper end of the screw B404 through a universal shaft; the free angle adjustment of the rubber pads A405 and B406 can be realized by installing the universal shaft, the friction force on the surface of the curved glass can be enhanced by the rubber materials, and the clamping is more stable; when the upper supporting piece 401 and the lower supporting piece 402 are installed, the upper supporting piece and the lower supporting piece are both obliquely installed on the workbench 1, so that a proper angle can be conveniently found to quickly fix the curved glass.

Referring to fig. 9, the sliding member 407 of the clamping mechanism 4 is further illustrated, wherein the sliding member 407 includes: the upper sliding core 4071, the tension spring 4072 and the sliding sleeve 4073, the upper sliding core 4071 is fixedly connected with the workbench 1 and is connected with the sliding sleeve 4073 in a sliding fit manner; a tension spring 4072 is sleeved outside the upper slide core 4071, one end of which is fixed with the upper slide core 4071 and the other end of which is fixed with the slide sleeve 4073.

In an alternative implementation manner of the embodiment of the present invention, referring to fig. 7, the ejection part 3 includes: a rubber wheel 301, a roller bracket 302, a cam 303 and an axle 304; wherein the wheel shaft 304 is rotatably arranged at the lower layer of the workbench 1, and the wheel shaft 304 is fixedly provided with a cam 303; the rubber wheel 301 is rotatably connected with the roller bracket 302, the roller bracket 302 is slidably connected with the workbench 1, and the bottom of the roller bracket 302 penetrates through the workbench 1 to be correspondingly connected with the cam 303 below; a crank is fixedly arranged at one end of the wheel shaft 304. During operation, the crank handle is controlled to rotate the wheel shaft 304, and the wheel shaft 304 drives the cam 303 to rotate; when different surfaces of the cam 303 contact with the bottom of the roller bracket 302, the ejection height of the roller bracket 302 relative to the workbench 1 changes, and then the rubber wheel 301 lifts the glass to be processed to a working area; the rubber wheel 301 is designed to lift the glass, so that the curved glass can be conveniently placed in or taken out of a processing area.

Referring to fig. 8, the moving bracket 507 is further described, and further includes: a rocker sliding rail 5072, a circular sinking platform 5073, a sliding pin 5074, an arc-shaped guide groove 5075 and a pin C5076, wherein the rocker sliding rail 5072 is positioned at the rear part of the moving bracket 507 and is matched with the pin shaft to guide and limit the rocker 504; a circular sinking platform 5073 is positioned in the middle of the moving bracket 507, and the drive plate 502 rotates around the center of the circular sinking platform 5073; the sliding pins 5074 are positioned at two sides of the circular sinking platform 5073 and are in sliding fit with the cross sliding rod 503; a pin C5076 is positioned at the front part of the movable bracket 507 and is rotationally connected with the swing rod 505; the cutting component 7 is correspondingly arranged below the arc-shaped guide groove 5075 and corresponds to the arc-shaped clearance on the guide top plate 707.

Claims

1. A curved glass S-shaped cutting device comprises: the device comprises a workbench (1), a guide support (2) and a limiting vertical plate (8), wherein the middle layer of the workbench (1) is a working surface, the guide support (2) is positioned above the working surface and fixedly connected with the workbench (1), and the limiting vertical plate (8) is movably arranged on two sides of the workbench (1); it is characterized by also comprising: the device comprises an ejection part (3), a clamping mechanism (4), a position control mechanism (5) and a cutting part (7); the ejection part (3) is positioned below the working surface and is movably connected with the working table (1) to convey the glass to be processed to the working surface area; at least two clamping mechanisms (4) are uniformly distributed on the periphery of the workbench (1) and are matched with the limiting vertical plate (8) to clamp and position the glass to be processed; the position control mechanism (5) is slidably mounted on the guide support (2) to move linearly, the cutting part (7) is mounted below the position control mechanism (5), and the position control mechanism (5) drives the cutting part (7) to move forwards and swing back and forth when moving forwards, so that the glass to be processed is subjected to S-shaped cutting.

2. The S-shaped cutting device for curved glass according to claim 1, characterized in that the position control mechanism (5) comprises: the device comprises a dial (502), a cross slide rod (503), a rocker (504), a swing rod (505) and a moving bracket (507), wherein one end of the dial (502) is rotatably mounted on the moving bracket (507) through a vertical shaft, the lower end of the vertical shaft penetrates through the moving bracket (507)) and is fixedly provided with a transmission gear (501), and the other end of the dial (502) is fixedly provided with a pin A; the cross sliding rod (503) is arranged on the moving bracket (507) in a left-right sliding mode, a pin A is matched with a notch A arranged on the cross sliding rod (503), the drive plate (502) is connected with the cross sliding rod (503) in a sliding mode through the pin A, and a pin B is further arranged at one end of the cross sliding rod (503); the pin B is matched with a notch B arranged on the rocker (504), and the rocker (504) is connected with the cross sliding rod (503) in a sliding way through the pin B; one end of the rocker (504) is connected with the movable bracket (507) in a sliding way through a pin shaft, the other end of the rocker is hinged with the swing rod (505), and the cutting component (7) is fixedly connected at the hinged point; the other end of the swing rod (505) is rotationally connected with the movable bracket (507); the two sides of the moving bracket (507) are provided with protrusions (5071) which can slide along sliding grooves on the inner side of the guide support (2); the transmission gear (501) is meshed with a sliding rack (201) fixedly arranged on the inner side of the guide support (2).

3. The S-shaped cutting device for the curved glass according to claim 2, characterized in that a gear speed change mechanism (6) is further arranged between the transmission gear (501) and the sliding rack (201), the transmission gear (501) is meshed with the initial end of a speed change gear set (601) arranged in the gear speed change mechanism (6), and the tail end of the speed change gear set (601) is meshed with the sliding rack (201).

4. The S-shaped cutting device for curved glass according to claim 3, characterized in that the variable speed wheel set (601) is driven by a driving motor (602) to rotate, and a cylinder of the driving motor (602) is fixed on a moving bracket (507).

5. The curved glass S-shaped cutting device according to claim 1, wherein the cutting member (7) comprises: the positioning device comprises a sleeve (701), an inner shaft (702), a nicking tool support (703) and a nicking tool (704), wherein the sleeve (701) is fixedly connected with a rocker (504) on a position control mechanism (5), the inner shaft (702) is connected inside the sleeve (701) in a sliding mode, and a spring is arranged to limit the inner shaft and the nicking tool; the graver support (703) is hinged to the lower end of the inner shaft (702), and a graver (704) is fixedly mounted on the graver support (703); the two sides of the nicking tool (704) are symmetrically provided with rollers A (705), the rollers A (705) are rotatably connected with the nicking tool bracket (703), and the nicking tool (704) is kept perpendicular to the surface of the glass during cutting.

6. The curved glass S-shaped cutting device according to any one of claims 2 or 5, wherein the cutting member (7) further comprises: the roller B (706), the guide top plate (707) and the fixed frame (708), wherein the fixed frame (708) is fixedly arranged below the moving bracket (507), and the guide top plate (707) is arranged on the fixed frame (708) in a sliding manner; the roller B (706) is fixedly arranged on the inner shaft (702) and is attached to the lower surface of the guide top plate (707), and the upper part of the inner shaft (702) penetrates through an arc clearance on the guide top plate (707) and is connected with the sleeve (701).

7. The S-shaped cutting device for curved glass according to claim 1, characterized in that said clamping means (4) comprise: an upper support (401), a lower support (402), a lead screw A (403), a lead screw B (404), a rubber pad A (405), a rubber pad B (406) and a sliding assembly (407); the upper supporting piece (401) and the lower supporting piece (402) are respectively and correspondingly arranged on the upper layer and the lower layer of the workbench (1); the lead screw A (403) is screwed inside the upper support (401), and the lead screw B (404) is screwed inside the lower support (402); the sliding assembly (407) is opposite to the axis of the lead screw A (403), the upper end of the sliding assembly is fixedly arranged on the upper layer of the workbench (1), and the lower end of the sliding assembly is movably connected with the rubber pad A (405); the screw A (403) is driven to abut against the sliding assembly (407), the total length of the sliding assembly (407) can be changed, the rubber pad A (405) is driven to be matched with the rubber pad B (406) to clamp the glass, and the rubber pad B (406) is movably arranged at the upper end of the screw B (404).

8. The curved glass S-shaped cutting device according to claim 1, wherein the ejection member (3) comprises: the rubber wheel (301), the roller bracket (302), the cam (303) and the wheel shaft (304); the wheel shaft (304) is rotatably arranged at the lower layer of the workbench (1), and the wheel shaft (304) is fixedly provided with a cam (303); the rubber wheel (301) is rotatably connected with the roller bracket (302), the roller bracket (302) is slidably connected with the workbench (1), and the bottom of the roller bracket (302) penetrates through the workbench (1) to be correspondingly connected with the cam (303) below; and one end of the wheel shaft (304) is fixedly provided with a crank.

9. The curved glass S-shaped cutting device according to claim 2, wherein the moving carriage (507) is further provided with: the rocker sliding rail (5072) is positioned at the rear part of the moving bracket (507) and is matched with the pin shaft to guide and limit the rocker (504); the circular sinking platform (5073) is positioned in the middle of the movable bracket (507), and the drive plate (502) rotates around the center of the circular sinking platform (5073); the sliding pins (5074) are positioned at two sides of the circular sinking platform (5073) and are in sliding fit with the cross sliding rod (503); the pin C (5076) is positioned at the front part of the movable bracket (507) and is rotationally connected with the swing rod (505); and a cutting part (7) is correspondingly arranged below the arc-shaped guide groove (5075) and corresponds to the arc-shaped clearance on the guide top plate (707).

10. The S-shaped cutting device for curved glass according to claim 7, wherein the sliding assembly (407) of the clamping mechanism (4) comprises: the upper sliding core (4071), the tension spring (4072) and the sliding sleeve (4073), wherein the upper sliding core (4071) is fixedly connected with the workbench (1) and is connected with the sliding sleeve (4073) in a sliding fit manner; the tension spring (4072) is sleeved outside the upper sliding core (4071), one end of the tension spring is fixed with the upper sliding core (4071), and the other end of the tension spring is fixed with the sliding sleeve (4073).