阅读说明：本技术 一种玻璃裁剪加工微尘收集装置 (Glass cutting processing tiny dust collecting device ) 是由 程国库 于 2021-08-30 设计创作，主要内容包括：本发明涉及玻璃裁剪技术领域,且公开了一种玻璃裁剪加工微尘收集装置,包括收集机构,所述收集机构包括前切轮,所述前切轮的轴心前端通过传动带传动连接有凸轮,所述凸轮的左侧抵接有压板,所述压板的左端固定连接有波纹管,所述波纹管的左侧设置有集尘腔。该玻璃裁剪加工微尘收集装置,划痕时向右推动壳体,前切轮带动凸轮循环转动,使压板重复压缩波纹管,波纹管内气压变换配合上下两侧限位板依次打开,将集尘腔底部的微尘吸入波纹管中,最后经由滤网过滤排出,通过逆时针转动棘齿盘,改变上限盘和下限盘底部与橡胶杆接触截面半径,使得橡胶杆单次下降高度改变,配合弹簧蓄力改变橡胶杆敲击力度。(The invention relates to the technical field of glass cutting, and discloses a glass cutting processing tiny dust collecting device which comprises a collecting mechanism, wherein the collecting mechanism comprises a front cutting wheel, the front end of the axis of the front cutting wheel is connected with a cam through a transmission belt in a transmission mode, the left side of the cam is connected with a pressing plate in an abutting mode, the left end of the pressing plate is fixedly connected with a corrugated pipe, and a dust collecting cavity is arranged on the left side of the corrugated pipe. This glass tailors processing micronic dust collection device, promote the casing during mar right, preceding cutting wheel drives cam cycle and rotates, make the repeated compression bellows pipe of clamp plate, both sides limiting plate is opened in proper order about the bellows internal gas pressure transform cooperation, inhale the micronic dust of dust collection chamber bottom in the bellows, filter the discharge via the filter screen at last, through anticlockwise rotation ratchet dish, change upper limit dish and lower limit dish bottom and rubber pole contact cross section radius, make the descending height of rubber pole single change, cooperation spring holds power and changes the rubber pole dynamics of knocking.)

1. The utility model provides a glass tailors processing micronic dust collection device, includes collection mechanism (2), its characterized in that: collect mechanism (2) including preceding cutting wheel (201), the axle center front end of preceding cutting wheel (201) is connected with cam (203) through drive belt (202) transmission, the left side butt of cam (203) has clamp plate (204), the left end fixedly connected with bellows (205) of clamp plate (204), the left side of bellows (205) is provided with dust collection chamber (206), the spacing articulated limiting plate (207) that has in middle part of dust collection chamber (206), the right-hand member fixedly connected with magnetic path (208) of limiting plate (207), the top of clamp plate (204) is provided with arc groove (209), the top fixedly connected with filter screen (210) in dust collection chamber (206).

2. The glass cutting processing dust collecting device according to claim 1, characterized in that: the front cutting wheel (201) is rotatably connected to the bottom of the dust collection cavity (206), the cam (203) is arranged on the right side of the pressing plate (204), the radiuses of the upper side and the lower side of the cam (203) are larger than the radiuses of the left side and the right side of the cam, and the pressing plate (204), the corrugated pipe (205), the middle section of the dust collection cavity (206) and the limiting plate (207) form a closed space.

3. The glass cutting processing dust collecting device according to claim 1, characterized in that: limiting plate (207) are spacing articulated at middle part and the top right side inner wall of dust collecting cavity (206) respectively, magnetic block (208) are fixed connection respectively in the right-hand member of limiting plate (207) and the right side inner wall of dust collecting cavity (206), the corresponding face magnetic pole opposite direction of magnetic block (208), the inside spacing of arc groove (209) is connected with clamp plate (204), the top left end elastic connection of clamp plate (204) has the spring.

4. The glass cutting processing dust collecting device according to claim 1, characterized in that: still include knocking mechanism (3), knocking mechanism (3) is including back cut wheel (31), the front end fixedly connected with shifting block (32) in back cut wheel (31) axle center, the top of shifting block (32) is provided with carriage (33), the left side rotation of carriage (33) is connected with pivot (34), the peripheral fixedly connected with upper limit dish (35) of pivot (34), upper limit dish (35) left side is provided with lower limit dish (36), the left end fixedly connected with ratchet dish (37) of pivot (34), the periphery of ratchet dish (37) is provided with ring tooth groove (38), the bottom butt of lower limit dish (36) has rubber pole (39).

5. The glass cutting processing dust collecting device according to claim 4, characterized in that: the rear cutting wheel (31) is rotatably connected to the left side of the bottom of the dust collection cavity (206), the bottom of the sliding frame (33) is elastically connected with a spring, the periphery of the first rotating shaft (34) is fixedly connected with a lower limit disc (36) and an upper limit disc (35) respectively, the upper limit disc (35) and the lower limit disc (36) are arranged in a crossed and symmetrical mode, the periphery of the ratchet disc (37) is elastically connected with ratchets, and the annular tooth grooves (38) are formed in the left end of the sliding frame (33).

6. The glass cutting processing dust collecting device according to claim 1, characterized in that: still include casing (1), the right side of casing (1) is rotated and is connected with collection mechanism (2), the left side of casing (1) is rotated and is connected with knocking mechanism (3), the below of casing (1) is provided with glass board (4).

7. The glass cutting processing dust collecting device according to claim 6, characterized in that: the right side of casing (1) bottom is rotated and is connected with front cut wheel (201), the left side of casing (1) bottom is rotated and is connected with back cut wheel (31), clamp plate (204) articulate the right side at casing (1) middle part, cam (203) are rotated and are connected the right-hand member at casing (1), the bottom limit of casing (1) is connected with carriage (33), rubber pole (39) elasticity limit connection is at casing (1) left end.

Technical Field

The invention relates to the technical field of glass cutting, in particular to a glass cutting processing tiny dust collecting device.

Background

Glass is an amorphous, amorphous solid, it is usually transparent and at window glass, tableware and optoelectronics have extensive practicality, technique and decoration use, need cut out before the glass uses, the collection of the glass micronic dust of in-process can not be tailor according to tailorring state synchronous control to current equipment, cause to cut out the front and back and need the manual work to open and close dust collecting equipment, the practicality of equipment has been reduced, and dust collecting equipment passes through the fan negative pressure and collects micronic dust, the cost of tailorring has been increased, after the glass mar finishes, still need constantly strike at glass mar edge, strike and mainly make glass further split along the sword mark department, but the dynamics of striking can not effective control, strike the power and spend too big and lead to glass surface damage, the dynamics is too little makes the sword mark split unobvious, the degree of difficulty that glass tailorred has increased.

In order to solve the problems, the inventor provides a glass cutting tiny dust collecting device, the glass cutting tiny dust collecting device pushes a shell rightwards during scratching, a front cutting wheel drives a cam to rotate circularly, a pressing plate is enabled to compress a corrugated pipe repeatedly, air pressure in the corrugated pipe is changed and matched with limiting plates on the upper side and the lower side to be opened in sequence, tiny dust at the bottom of a dust collecting cavity is sucked into the corrugated pipe and is filtered and discharged through a filter screen, the radius of the contact section of the bottom of an upper limiting plate and the bottom of a lower limiting plate and a rubber rod is changed by rotating a ratchet disc anticlockwise, the single descending height of the rubber rod is changed, and the knocking force of the rubber rod is changed by matching with the force of a spring.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a glass cutting and processing tiny dust collecting device which has the advantages of synchronously cutting and collecting dust, reducing the processing cost, being convenient to adjust the knocking force and keeping the same force, and solves the problem that the opening and closing of dust collecting equipment needs to be additionally controlled before and after cutting, and the knocking force is difficult to effectively control.

In order to realize the purposes of synchronously cutting and collecting dust, reducing processing cost, conveniently adjusting knocking force and keeping the same force, the invention provides the following technical scheme: the utility model provides a glass tailors processing micronic dust collection device, includes collects the mechanism, it includes the front cut wheel to collect the mechanism, the axle center front end of front cut wheel is connected with the cam through drive belt transmission, the left side butt of cam has the clamp plate, the left end fixedly connected with bellows of clamp plate, the left side of bellows is provided with the dust collection chamber, the spacing articulated limiting plate that has in middle part in dust collection chamber, the right-hand member fixedly connected with magnetic path of limiting plate, the top of clamp plate is provided with the arc groove, the top fixedly connected with filter screen in dust collection chamber.

Preferably, the front cutting wheel is rotatably connected to the bottom of the dust collection cavity, the cam is arranged on the right side of the pressing plate, the radiuses of the upper side and the lower side of the cam are larger than the radiuses of the left side and the right side of the cam, the pressing plate, the corrugated pipe, the middle section of the dust collection cavity and the limiting plate form a closed space, and the pressing plate rotates to press the corrugated pipe to change the air pressure inside the corrugated pipe.

Preferably, the limiting plate is respectively in limiting hinge joint with the middle part and the top right side inner wall of dust collecting cavity, the magnetic block is respectively fixed connection at the right end of limiting plate and the dust collecting cavity right side inner wall, the magnetic pole opposite direction of the corresponding surface of the magnetic block, the inside limiting connection of arc groove has the clamp plate, the top left end elastic connection of clamp plate has the spring, and the attraction between the magnetic block makes the limiting plate restore to the initial position.

Preferably, still include the striking mechanism, the striking mechanism includes the back cut wheel, the front end fixedly connected with shifting block in back cut wheel axle center, the top of shifting block is provided with the carriage, the left side of carriage rotates and is connected with pivot one, the peripheral fixedly connected with upper limit dish of pivot one, the upper limit dish left side is provided with lower limit dish, the left end fixedly connected with ratchet dish of pivot one, the periphery of ratchet dish is provided with the ring tooth groove, the bottom butt of lower limit dish has the rubber pole.

Preferably, the rear cutting wheel is rotatably connected to the left side of the bottom of the dust collection cavity, the bottom of the sliding frame is elastically connected with a spring, the periphery of the first rotating shaft is fixedly connected with a lower limit plate and an upper limit plate respectively, the upper limit plate and the lower limit plate are arranged in a crossed and symmetrical mode, the periphery of the ratchet plate is elastically connected with ratchets, the annular tooth grooves are formed in the left end of the sliding frame, and the rear cutting wheel drives the shifting block to rotate to repeatedly shift the sliding frame rightwards.

Preferably, still include the casing, the right side of casing is rotated and is connected with the collection mechanism, the left side of casing is rotated and is connected with knocking mechanism, the below of casing is provided with the glass board.

Preferably, the right side of casing bottom is rotated and is connected with the front cut wheel, the left side of casing bottom is rotated and is connected with the back cut wheel, the clamp plate articulates the right side at the casing middle part, the cam rotates the right-hand member of connection at the casing, the bottom limit connection of casing has the carriage, rubber pole elasticity is spacing to be connected at the casing left end, removes through the carriage and makes the rubber pole receive to press and can reciprocate to strike glass plate surface mar.

Advantageous effects

Compared with the prior art, the invention provides a glass cutting processing tiny dust collecting device, which has the following beneficial effects:

1. this glass tailors processing micronic dust collection device, bottom through the dust collection chamber is rotated and is connected with the front wheel of cutting, promote the casing right during the mar, front wheel of cutting rotates the cutting glass board surface and leaves the mar this moment, under the transmission of drive belt, cam circulation rotates oppression clamp plate, make the repeated compression bellows of clamp plate, both sides limiting plate is opened in proper order about the inside atmospheric pressure transform of bellows makes, inhale the micronic dust of dust collection chamber bottom in the bellows, filter via the filter screen at last and extrude, front wheel and cam stall cut out after finishing, end collection dirt, thereby reach the effect of tailorring in step, the improvement is tailor efficiency and the reduction cost of tailorring.

2. This processing micronic dust collection device is tailor to glass, left side limit connection through the casing has the carriage, it rotates along with back cutting wheel drive shifting block, cooperation spring elastic force effect, the carriage is stirred right to the shifting block is repeated, anticlockwise rotation ratchet dish, make the pivot drive upper limit dish rotate with lower limit dish is synchronous, and then change the radius of the bottom of upper limit dish and lower limit dish bottom and rubber rod contact, the descending height change of one-way of rubber rod this moment, the stroke change of spring power of holding simultaneously, make rubber rod whereabouts strike the dynamics transform, thereby reach and be convenient for adjust the dynamics of strikeing and keep the unified effect of dynamics, glass surface mar splits with higher speed.

Drawings

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

FIG. 2 is a schematic view of the operation of the striking mechanism of the present invention;

FIG. 3 is a cross-sectional view of the collection mechanism of the present invention;

FIG. 4 is a schematic view of the dust collection mechanism of the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 2 taken along line A-A.

In the figure: 1. a housing; 2. a collection mechanism; 201. a front cutting wheel; 202. a transmission belt; 203. a cam; 204. pressing a plate; 205. a bellows; 206. a dust collection chamber; 207. a limiting plate; 208. a magnetic block; 209. an arc groove; 210. filtering with a screen; 3. a knocking mechanism; 31. a rear cutting wheel; 32. shifting blocks; 33. a carriage; 34. a first rotating shaft; 35. an upper limit disc; 36. a lower limit disc; 37. a ratchet plate; 38. an annular tooth groove; 39. a rubber rod; 4. a glass plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, 3 and 4, a glass cutting tiny dust collecting device comprises a collecting mechanism 2, the collecting mechanism 2 comprises a front cutting wheel 201, the front end of the axis of the front cutting wheel 201 is connected with a cam 203 through a transmission belt 202, the left side of the cam 203 is connected with a pressing plate 204 in a propping manner, the left end of the pressing plate 204 is fixedly connected with a corrugated pipe 205, the left side of the corrugated pipe 205 is provided with a dust collecting chamber 206, the middle part of the dust collecting chamber 206 is limited and hinged with a limiting plate 207, the right end of the limiting plate 207 is fixedly connected with a magnet 208, the top of the pressing plate 204 is provided with an arc groove 209, the top of the dust collecting chamber 206 is fixedly connected with a filter screen 210, the front cutting wheel 201 is rotatably connected with the bottom of the dust collecting chamber 206, the cam 203 is arranged on the right side of the pressing plate 204, the radiuses of the upper and lower sides of the cam 203 are larger than the radiuses of the left and lower sides, the pressing plate 204, the corrugated pipe 205, the middle part of the dust collecting chamber 206 and the limiting plate 207 constitute a closed space, the limiting plate 207 are respectively hinged with the inner walls of the middle part and the top of the dust collecting chamber 206, the magnetic blocks 208 are fixedly connected to the right end of the limit plate 207 and the inner wall of the dust collection cavity 206 on the right side respectively, the magnetic blocks 208 are opposite in magnetic pole direction corresponding to the surfaces, the pressure plate 204 is connected to the inner limit of the arc groove 209, the spring is elastically connected to the left end of the top of the pressure plate 204, the cam 203 is driven to rotate circularly through the front cutting wheel 201, and the cam 203 rotates to press the pressure plate 204, so that the pressure plate 204 compresses the corrugated pipe 205 and changes the internal air pressure of the corrugated pipe 205, and along with the change of the internal air pressure of the corrugated pipe 205 and the sequential rotation of the limit plates 207 on the upper side and the lower side, the tiny dust at the bottom of the dust collection cavity 206 is sucked into the corrugated pipe 205 and filtered and discharged through the filter screen 210, the effect of synchronous cutting is achieved, the cutting efficiency is improved, and the cutting cost is reduced.

Example two:

referring to fig. 1, 2 and 5, a glass cutting processing tiny dust collecting device comprises a knocking mechanism 3, the knocking mechanism 3 comprises a rear cutting wheel 31, a shifting block 32 is fixedly connected to the front end of the axle center of the rear cutting wheel 31, a sliding frame 33 is arranged above the shifting block 32, a first rotating shaft 34 is rotatably connected to the left side of the sliding frame 33, an upper limit plate 35 is fixedly connected to the periphery of the first rotating shaft 34, a lower limit plate 36 is arranged on the left side of the upper limit plate 35, a ratchet plate 37 is fixedly connected to the left end of the first rotating shaft 34, a circular tooth groove 38 is arranged on the periphery of the ratchet plate 37, a rubber rod 39 is abutted to the bottom end of the lower limit plate 36, the rear cutting wheel 31 is rotatably connected to the left side of the bottom of a dust collecting cavity 206, a spring is elastically connected to the bottom of the sliding frame 33, a lower limit plate 36 and an upper limit plate 35 are respectively fixedly connected to the periphery of the first rotating shaft 34, the upper limit plate 35 and the lower limit plate 36 are symmetrically arranged in a crossed manner, and the ratchet plate 37 is elastically connected to the ratchet, ring tooth's socket 38 is seted up at the left end of carriage 33, drive shifting block 32 through back cut wheel 31 and rotate the repetition and stir carriage 33 rightwards, anticlockwise rotation ratchet dish 37 changes the radius of upper limit dish 35 and lower limit dish 36 and rubber rod 39 top contact, and then change the stroke and the dynamics of knocking of rubber rod 39, along with carriage 33's reciprocating motion, rubber rod 39 circulating motion strikes the surface of glass board 4, reach and be convenient for adjust the dynamics of knocking and keep the same effect of dynamics, glass surface scratch splits with higher speed.

Example three:

referring to fig. 1-5, a glass cutting processing tiny dust collecting device comprises a housing 1, a collecting mechanism 2 is rotatably connected to the right side of the housing 1, the collecting mechanism 2 comprises a front cutting wheel 201, the front end of the axis of the front cutting wheel 201 is in transmission connection with a cam 203 through a transmission belt 202, a pressing plate 204 is abutted to the left side of the cam 203, a corrugated pipe 205 is fixedly connected to the left side of the pressing plate 204, a dust collecting cavity 206 is arranged on the left side of the corrugated pipe 205, a limiting plate 207 is in limited hinge connection with the middle part of the dust collecting cavity 206, a magnet 208 is fixedly connected to the right end of the limiting plate 207, an arc groove 209 is arranged on the top of the pressing plate 204, a filter screen 210 is fixedly connected to the top of the dust collecting cavity 206, the front cutting wheel 201 is rotatably connected to the bottom of the dust collecting cavity 206, the cam 203 is arranged on the right side of the pressing plate 204, the radii of the upper and lower sides of the cam 203 are larger than the radii of the left and right sides, the pressing plate 204, the corrugated pipe 205, the middle section of the dust collecting cavity 206 and the limiting plate 207 form a closed space, the limiting plate 207 is respectively and limitedly hinged on the middle part and the top right inner wall of the dust collection cavity 206, the magnetic block 208 is respectively and fixedly connected with the right end of the limiting plate 207 and the right inner wall of the dust collection cavity 206, the magnetic poles of the corresponding surfaces of the magnetic block 208 are opposite in direction, the pressing plate 204 is limited and connected inside the arc groove 209, the spring is elastically connected with the left end of the top of the pressing plate 204, the left side of the shell 1 is rotatably connected with the knocking mechanism 3, the knocking mechanism 3 comprises a rear cutting wheel 31, a shifting block 32 is fixedly connected with the front end of the axle center of the rear cutting wheel 31, a sliding frame 33 is arranged above the shifting block 32, a rotating shaft I34 is rotatably connected with the left side of the sliding frame 33, an upper limit plate 35 is fixedly connected with the periphery of the rotating shaft I34, a lower limit plate 36 is arranged on the left side of the upper limit plate 35, a ratchet plate 37 is fixedly connected with the left end of the rotating shaft I34, a ring tooth groove 38 is arranged on the periphery of the ratchet plate 37, a rubber rod 39 is abutted against the bottom end of the lower limit plate 36, the rear cutting wheel 31 is rotatably connected on the left side of the bottom of the dust collection cavity 206, the bottom of the sliding frame 33 is elastically connected with a spring, the periphery of the rotating shaft I34 is fixedly connected with a lower limit disc 36 and an upper limit disc 35 respectively, the upper limit disc 35 and the lower limit disc 36 are arranged in a crossed and symmetrical mode, the periphery of a ratchet disc 37 is elastically connected with ratchets, a ring gear groove 38 is formed in the left end of the sliding frame 33, a glass plate 4 is arranged below the shell 1, the right side of the bottom of the shell 1 is rotatably connected with a front cutting wheel 201, the left side of the bottom of the shell 1 is rotatably connected with a rear cutting wheel 31, a pressing plate 204 is hinged to the right side of the middle of the shell 1, a cam 203 is rotatably connected to the right end of the shell 1, the bottom of the shell 1 is limitedly connected with the sliding frame 33, a rubber rod 39 is elastically limitedly connected to the left end of the shell 1, the rubber rod 39 can be pressed by the left and right movement of the sliding frame 33 to enable the surface scratch of the glass plate 4 to be knocked back and forth, the cam 203 is driven to rotate circularly by the front cutting wheel 201, the cam 203 rotates to press the pressing plate 204, make clamp plate 204 compress bellows 205 and change the inside atmospheric pressure of bellows 205, along with the inside atmospheric pressure change of bellows 205 and upper and lower both sides limiting plate 207 rotates in proper order, make dust collection chamber 206 bottom micronic dust inhaled inside bellows 205, filter the discharge via filter screen 210, reach the effect of tailorring in step, improve and tailor efficiency and reduce and tailor the cost, it stirs carriage 33 to follow the repetition right to drive shifting block 32 rotation through back cutting wheel 31, anticlockwise rotation ratchet dish 37 changes the radius of upper limit dish 35 and lower limit dish 36 and the contact of rubber pole 39 top, and then change the stroke and the dynamics of knocking of rubber pole 39, along with the reciprocating motion of carriage 33, rubber pole 39 circulating motion beats the surface of glass board 4, reach the effect of being convenient for adjust and keeping the dynamics the same, glass scratch surface splits.

The working process and principle are as follows: before the glass plate 4 is cut, the knocking force of the scratched part of the glass plate 4 is adjusted, a first rotating shaft 34 is connected based on the left side rotation of a sliding frame 33, a ratchet disc 37 is fixedly connected to the left end of the first rotating shaft 34, an upper limit disc 35 and a lower limit disc 36 are respectively fixedly connected to the periphery of the first rotating shaft 34, the upper limit disc 35 and the lower limit disc 36 are arranged in a crossed and symmetrical mode, the ratchet disc 37 is rotated anticlockwise, at the moment, ratchets on the periphery of the ratchet disc 37 rotate and contract to enable the ratchet disc 37 to rotate smoothly, the radius of the contact section of the bottom of the upper limit disc 35 and the bottom of the lower limit disc 36 and the top of a rubber rod 39 is adjusted continuously in a rotating mode, the distance of single up-down moving of the rubber rod 39 is changed, the larger the elastic potential energy stored in a single up-down moving mode is, the knocking force of the rubber rod 39 is larger, the sliding frame 33 drives the upper limit disc 35 and the lower limit disc 36 to move to push the rubber rod 39 downwards along with the rear cutting wheel 31, so that the rubber rod 39 repeatedly strikes the surface of the glass plate 4, thereby achieving the effects of conveniently adjusting the striking force and keeping the same force, and accelerating the scratch cracking of the glass surface.

After the knocking force is adjusted, scratching is performed on the surface of the glass plate 4 along a marking line, because the bottom of the dust collection cavity 206 is rotatably connected with the front cutting wheel 201, the front end of the axle center of the front cutting wheel 201 is in transmission connection with the cam 203 through the transmission belt 202, the shell 1 is pushed rightwards during scratching, at the same time, the front cutting wheel 201 rotates to cut the surface of the glass plate 4 to leave scratches, and meanwhile, the cam 203 is matched with the transmission of the transmission belt 202, so that the pressing plate 204 is circularly rotated to press the pressing plate 204, because the radiuses of the upper side and the lower side of the cam 203 are larger than those of the left side and the right side, the pressing plate 204 is enabled to repeatedly compress the corrugated pipe 205 under the action of the spring elasticity of the elastic connection of the top of the pressing plate 204 along with the rotation of the cam 203, because the corrugated pipe 205 and the middle sections of the pressing plate 204, the limiting plates 207 on the upper side and the lower side and the dust collection cavity 206 are closed spaces, when the internal air pressure rises due to the compression of the corrugated pipe 205, the upper limiting plate 207 is opened to discharge air, and the magnetic force of the lower limiting plate 207 is acted by the magnetic block 208 to close the bottom channel of the dust collection cavity 206, when the bellows 205 extends to make the inside atmospheric pressure reduce, the downside limiting plate 207 is opened and is inhaled the micronic dust of dust collection chamber 206 bottom in the bellows 205 and upside limiting plate 207 receives magnetic force of magnetic path 208 and closes dust collection chamber 206 top passageway simultaneously, along with the inside atmospheric pressure transform of bellows 205 makes upper and lower both sides limiting plate 207 open in proper order, filter through filter screen 210 at last and extrude, after tailorring, preceding cutting wheel 201 and cam 203 stall, end the collection dirt, reach the effect of tailorring in step, improve and tailor efficiency and reduce and tailor the cost.

In conclusion, this glass cutting processing micronic dust collection device, bottom through dust collection chamber 206 is rotated and is connected with front cutting wheel 201, promote casing 1 during the mar right, front cutting wheel 201 rotates the cutting glass board 4 surface and leaves the mar this moment, under the transmission of drive belt 202, cam 203 rotates the oppression clamp plate 204 in circulation, make clamp plate 204 repeatedly compress bellows 205, the inside atmospheric pressure transform of bellows 205 makes upper and lower both sides limiting plate 207 open in proper order, inhale the micronic dust of dust collection chamber 206 bottom in bellows 205, filter through filter screen 210 at last and extrude, front cutting wheel 201 and cam 203 stall after cutting out, end collection dirt, thereby reach the effect of cutting out in step, improve and cut out efficiency and reduce and cut out the cost.

And, this glass cutting processing micronic dust collection device, there is carriage 33 through the left side limit connection of casing 1, it rotates to drive shifting block 32 along with back cutting wheel 31, cooperation spring elastic force effect, shifting block 32 repeats to stir carriage 33 rightwards, anticlockwise rotation ratchet dish 37, make pivot 34 drive upper limit dish 35 and lower limit dish 36 synchronous revolution, and then change the radius that upper limit dish 35's bottom and lower limit dish 36 bottom and rubber pole 39 contact, the descending height change of rubber pole 39 once way this moment, the stroke change of spring power accumulation simultaneously, make rubber pole 39 whereabouts strike dynamics transform, thereby reach and be convenient for adjust the effect of striking dynamics and keep the dynamics unified, glass surface scratch splits with higher speed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.