CN114940581A - Glass cutting device - Google Patents

Abstract

The invention discloses a glass cutting device, which comprises a glass cutting machine frame assembly, wherein a self-adaptive cutting tool head assembly is arranged in the middle of the glass cutting machine frame assembly, a first glass carrying arm assembly and a second glass carrying arm assembly form a ninety-degree glass carrying structure on the glass cutting machine frame assembly, and the self-adaptive cutting tool head assembly forms a scribing and cutting structure of the lower end surface of glass on the glass cutting machine frame assembly. Meanwhile, by means of the structure, the cutting of the lower end face in a pressing mode is achieved.

Description

Glass cutting device

Technical Field

The invention belongs to the technical field of glass processing, and particularly relates to a glass cutting device.

Background

Cutting is an important process for processing glass plates, the existing glass plates are mostly longitudinally placed and transported during cutting, the longitudinally transported glass plates are firstly adjusted to be in a flat state during cutting, then the flat glass plates are placed on a conveying table and are cut by a cutting tool bit, the existing cutting mode is mostly to perform scribing and cutting on the upper end faces of the glass, and the scribed glass is broken or broken after cutting, the traditional glass cutting mode, carrying adjustment, scribing and cutting and subsequent breaking processing are separately performed, the three cutting and processing flows are actually separated, the complicated processing technology is found during glass cutting and processing, and meanwhile, three devices or equipment of three programs are required to be matched, so that the program is troublesome and the processing cost is high during actual glass cutting, and therefore, a glass plate cutting device is urgently needed, to solve the above problems.

Disclosure of Invention

To solve the problems set forth in the background art described above. The invention provides a glass cutting device which has the characteristics of convenience in cutting and use and simplification of a cutting process.

In order to achieve the purpose, the invention provides the following technical scheme: a glass cutting device comprises a glass cutting machine frame assembly, wherein a first glass carrying arm assembly and a second glass carrying arm assembly are respectively arranged on two sides of the top of the glass cutting machine frame assembly, a self-adaptive cutting head assembly is arranged in the middle of the glass cutting machine frame assembly, the first glass carrying arm assembly and the second glass carrying arm assembly form a ninety-degree glass carrying structure on the glass cutting machine frame assembly, and the self-adaptive cutting head assembly forms a scribing and cutting structure of the lower end face of glass on the glass cutting machine frame assembly;

the first glass carrying arm assembly comprises a first glass carrying arm plate, a second glass carrying arm plate and a third glass carrying arm plate, the second glass carrying arm plate is positioned above the first glass carrying arm plate, the third glass carrying arm plate is positioned above the second glass carrying arm plate, a telescopic cylinder for jacking the third glass carrying arm plate is arranged on the second glass carrying arm plate, one end of the second glass carrying arm plate is rotationally connected with one end of the first glass carrying arm plate through a rotating shaft rod and a bearing seat at the bottom of the first supporting bottom arm plate, a jacking cylinder is rotationally arranged between the second glass carrying arm plate and the other end of the first glass carrying arm plate, sliding seat pipes are fixedly arranged at two ends of the bottom of the first glass carrying arm plate through the second supporting bottom arm plate, and a synchronous toothed plate is fixedly arranged at one end of the first glass carrying arm plate through a fixed end plate, a glass carrying vacuum sucker is arranged on the third glass carrying arm plate;

the self-adaptive cutting knife head assembly comprises a walking toothed plate, a side frame plate and a cutting knife head pushing sliding rod, wherein a cutting knife head is fixedly arranged at the top of the walking toothed plate, a vertical groove is formed in the inner side of the walking toothed plate, a vertical rack is fixedly arranged in the vertical groove, a shear arm is arranged at the bottom of the cutting knife head pushing sliding rod in a rotating mode through a shaft pin, two sides of the bottom of the shear arm are rotatably connected with an inner sliding block through the shaft pin, a top frame is arranged at the top of the walking toothed plate, a top surface guide rail convex column is fixedly arranged on the top surface of the top frame, a bottom surface guide rail convex column is fixedly arranged on the bottom surface of the walking toothed plate, an end vertical sliding seat sleeve is fixedly arranged on one side of the top of the side frame plate, a first I-shaped guide rail wheel, a walking gear, a second I-shaped guide rail wheel and a first gear are rotatably arranged on the inner side shaft lever, and the walking gear and the second gear are positioned on the same inner side shaft lever, the walking pinion rack bottom is fixed and is provided with U type chassis board, the inside fixed interior slide bar that is provided with of U type chassis board, interior slide bar both ends all are overlapped and are equipped with the top and push away the spring.

Preferably, glass-cutting frame subassembly includes the bottom frame, bottom frame top is provided with the top frame, the four corners of top frame bottom is all fixed and is provided with L type cursor slide pole, and the both sides at top frame top are provided with a plurality of left conveying rollers and a plurality of right conveying roller respectively, the fixed disconnection driving motor that is provided with in top frame middle part side one side, be provided with disconnection drive gear on disconnection driving motor's the output shaft, the opposite side of top frame and bottom frame is provided with runs through the end groove and runs through the kerve.

Preferably, the cutting tool bit pushing slide rod slides up and down in the end vertical slide sleeve, one side of the first gear is meshed with a vertical rack on the cutting tool bit pushing slide rod, the other side of the first gear is meshed with the second gear, and the walking gear is meshed with the walking toothed plate.

Preferably, the first i-shaped guide rail wheel is limited to roll outside the top surface guide rail convex column at the top of the top stand, and the second i-shaped guide rail wheel is limited to roll outside the bottom surface guide rail convex column at the bottom of the walking toothed plate.

Preferably, the two inner sliding hole sliding blocks slide on the inner sliding rod in a reciprocating manner, two ends of the pushing spring respectively abut against the inner sliding hole sliding blocks and the frame body at the end part of the U-shaped bottom frame plate, and the two inner sliding hole sliding blocks naturally approach to each other through pushing of the pushing spring.

Preferably, a penetrating gap of the self-adaptive cutting head assembly is formed between the adjacent left conveying roller and the adjacent right conveying roller, a penetrating gap of the first glass carrying arm assembly is formed between the two left conveying rollers, and a penetrating gap of the second glass carrying arm assembly is formed between the two right conveying rollers.

Preferably, the structure of the first glass carrying arm assembly is the same as that of the second glass carrying arm assembly, the sliding seat pipe at the bottom of the first glass carrying arm plate slides on the L-shaped sliding arm rod in a reciprocating mode, and the installation mode of the second glass carrying arm assembly is consistent with that of the first glass carrying arm assembly.

Preferably, the synchronizing toothed plate on the first glass handling arm assembly and the synchronizing toothed plate on the second glass handling arm assembly are respectively meshed with the two sides of the disconnection driving gear.

Preferably, the left conveying roller rolls to the left, and the right conveying roller rolls to the right.

Compared with the prior art, the invention has the beneficial effects that:

1. when the glass cutting machine frame assembly is used, a first glass carrying arm assembly and a second glass carrying arm assembly are respectively arranged on two sides of the top of the glass cutting machine frame assembly, a penetrating gap of the first glass carrying arm assembly is formed between two left conveying rollers, a penetrating gap of the second glass carrying arm assembly is formed between two right conveying rollers, a telescopic cylinder for jacking a third glass carrying arm plate is arranged on the second glass carrying arm plate on the first glass carrying arm assembly, one end of the second glass carrying arm plate is rotatably connected with one end of the first glass carrying arm plate through a rotating shaft rod and a bearing seat at the bottom of a first supporting bottom arm plate, a jacking cylinder is rotatably arranged between the second glass carrying arm plate and the other end of the first glass carrying arm plate, and through the matching of the structures, the longitudinal and transverse ninety-degree changes of the third glass carrying arm plate and a glass carrying vacuum chuck can be realized, through this kind of mode, can be directly carry out ninety degrees with the glass of vertical placement and turn over the board with the turning shaft pole as the center, the glass board is turned over the board and is arrived left conveying roller and right conveying roller top this moment, and at this board in-process that turns over, the glass board front end is with the turning shaft pole as the center, and the slow slope of glass board rear end falls.

2. The middle of the glass cutting frame assembly is provided with a self-adaptive cutting knife head assembly, two ends of a walking toothed plate are fixed at the bottom end inside a top rack, at the moment, a first I-shaped guide rail wheel rolls outside a top guide rail convex column at the top of a top rack in a limiting manner, a second I-shaped guide rail wheel rolls outside a bottom guide rail convex column at the bottom of the walking toothed plate in a limiting manner, so that the side rack plate rolls on the walking toothed plate, at the moment, a cutting knife head pushing sliding rod slides up and down in an end vertical sliding seat sleeve, one side of a first gear is meshed with a vertical rack on the cutting knife head pushing sliding rod, the other side of the first gear is meshed with a second gear, the walking gear is meshed with the walking toothed plate, meanwhile, a shear arm is arranged at the bottom of the cutting knife head pushing sliding rod through a shaft pin in a rotating manner, two sides of the bottom of the shear arm are rotatably connected with inner sliding block through shaft pins, and the two inner sliding blocks slide holes slide on the inner sliding rod in a reciprocating manner, two ends of the pushing spring are respectively abutted against the inner sliding hole sliding block and the frame body at the end part of the U-shaped bottom frame plate, the two inner sliding hole sliding blocks naturally approach to each other through pushing of the pushing spring, when the glass plate is actually used, the cutting tool bit pushing the top of the sliding rod is in a natural top-pushing structure, when the glass plate falls on the left conveying roller and the right conveying roller in an inclined mode, the lower end of the glass plate is abutted against the cutting tool bit pushing the cutting tool bit at the top of the sliding rod, meanwhile, through the structure, the cutting pressure between the cutting tool bit and the lower end face of the glass can be ensured when the cutting tool bit cuts, in the inclined falling process of the glass plate, the cutting tool bit pushing the sliding rod falls, at the moment, the first gear drives the second gear to rotate, the walking gear is driven to rotate through rotation of the second gear, through the cooperation of the walking gear and the walking toothed plate, the side frame plate drives the sliding motion of the cutting tool bit to realize synchronous scribing and cutting in the inclined falling process of the glass plate, the traveling path of the cutting tool bit can be provided with a plurality of specifications so as to meet the marking and cutting requirements of glass plates with different widths, and the cutting tool bits with different strokes are correspondingly matched with the glass plates with different widths one by one.

3. After the scribing and cutting are finished, the glass plate is also in a flat state, at the moment, the glass plate is positioned above a left conveying roller and a right conveying roller, a cutter head is abutted to one end of the glass plate, a through gap of a self-adaptive cutter head assembly is formed between the adjacent left conveying roller and the right conveying roller, a sliding seat pipe at the bottom of a first glass carrying arm plate slides on an L-shaped sliding arm rod in a reciprocating mode, a mounting mode of a second glass carrying arm assembly is consistent with that of the first glass carrying arm assembly, a synchronous toothed plate on the first glass carrying arm assembly and a synchronous toothed plate on the second glass carrying arm assembly are respectively meshed with two sides of a disconnection driving gear, meanwhile, the left conveying roller rolls leftwards, the right conveying roller rolls rightwards, at the moment, a telescopic cylinder contracts to drive the scribed glass plate to be attached to the upper end surfaces of the left conveying roller and the right conveying roller, at the moment, the cutter head forms a pushing and breaking force bearing point structure on the bottom surface of one end of the glass, simultaneously drive disconnection drive gear through disconnection driving motor and rotate, synchronous pinion rack on the first glass transport arm subassembly and the synchronous pinion rack on the second glass transport arm subassembly mesh with disconnection drive gear's both sides respectively, through the cooperation of above-mentioned structure, can realize the synchronous external force of first glass transport arm subassembly and second glass transport arm subassembly, the effect of cooperation cutting tool bit terminal surface under glass and telescopic cylinder's shrink, realize breaking off with the fingers and thumb of glass board and handle, break off with the fingers and thumb the glass board after breaking off with the fingers and thumb simultaneously and transmit to both ends through left conveying roller and right conveying roller respectively.

Drawings

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

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a perspective view of a first glass handling arm assembly, a second glass handling arm assembly and an adaptive cutting head assembly of the present invention;

FIG. 5 is a perspective view of the glass cutting frame assembly of the present invention;

FIG. 6 is a perspective view of a first glass handling arm assembly and a second glass handling arm assembly of the present invention;

FIG. 7 is a perspective view of the adaptive cutting head assembly of the present invention;

FIG. 8 is an exploded view of a portion of the construction of the adaptive cutting head assembly of the present invention;

in the figure: 100. a glass cutting frame assembly; 101. a bottom chassis; 102. a top frame; 103. a left delivery roll; 104. disconnecting the drive motor; 105. disconnecting the drive gear; 106. a right delivery roll; 107. penetrating through the end groove; 108. an L-shaped boom bar; 109. penetrating through the bottom groove; 200. a first glass handling arm assembly; 201. a first glass handling arm plate; 202. fixing the end plate; 203. a synchronous toothed plate; 204. a second glass-handling arm plate; 205. a telescopic cylinder; 206. a third glass carrying arm plate; 207. a glass carrying vacuum chuck; 208. a first supporting bottom arm plate; 209. rotating the shaft lever; 210. a pushing cylinder; 211. a second support bottom arm plate; 212. a sliding seat tube; 300. a second glass handling arm assembly; 400. a self-adaptive cutting head assembly; 401. a walking toothed plate; 402. side frame plates; 403. the cutting tool head pushes the sliding rod; 404. a bottom surface guide rail convex column; 405. a top surface guide rail convex column; 406. a top stand; 407. a cutter head; 408. a first drum rail wheel; 409. a traveling gear; 410. a second drum track wheel; 411. a U-shaped chassis plate; 412. pushing a spring; 413. a scissor arm; 414. an inner slide bar; 415. a vertical slot; 416. a vertical rack; 417. a first gear; 418. a sleeve with a vertical sliding seat at the end part; 419. an inboard shaft lever; 420. a second gear; 421. interior slide opening slider.

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.

Referring to fig. 1-8, the present invention provides the following technical solutions: a glass cutting device comprises a glass cutting frame assembly 100, wherein a first glass carrying arm assembly 200 and a second glass carrying arm assembly 300 are respectively arranged on two sides of the top of the glass cutting frame assembly 100, a self-adaptive cutting head assembly 400 is arranged in the middle of the glass cutting frame assembly 100, the first glass carrying arm assembly 200 and the second glass carrying arm assembly 300 form a ninety-degree glass carrying structure on the glass cutting frame assembly 100, and the self-adaptive cutting head assembly 400 forms a scribing and cutting structure of the lower end face of glass on the glass cutting frame assembly 100;

the first glass carrying arm assembly 200 comprises a first glass carrying arm plate 201, a second glass carrying arm plate 204 and a third glass carrying arm plate 206, the second glass carrying arm plate 204 is positioned above the first glass carrying arm plate 201, the third glass carrying arm plate 206 is positioned above the second glass carrying arm plate 204, a telescopic cylinder 205 for jacking the third glass carrying arm plate 206 is arranged on the second glass carrying arm plate 204, one end of the second glass carrying arm plate 204 is rotatably connected with one end of the first glass carrying arm plate 201 through a rotating shaft rod 209 and a bearing seat at the bottom of a first supporting bottom arm plate 208, a jacking cylinder 210 is rotatably arranged between the other end of the second glass carrying arm plate 204 and the other end of the first glass carrying arm plate 201, both ends at the bottom of the first glass carrying arm plate 201 are fixedly provided with sliding seat tubes 212 through a second supporting bottom arm plate 211, and one end of the first glass carrying arm plate 201 is fixedly provided with a toothed plate 203 through a fixed end plate 202, the third glass carrying arm plate 206 is provided with a glass carrying vacuum chuck 207;

the self-adaptive cutting knife head assembly 400 comprises a walking toothed plate 401, a side frame plate 402 and a cutting knife head pushing sliding rod 403, wherein a cutting knife head 407 is fixedly arranged at the top of the walking toothed plate 401, a vertical groove 415 is formed in the inner side of the walking toothed plate 401, a vertical rack 416 is fixedly arranged in the vertical groove 415, a scissor arm 413 is rotatably arranged at the bottom of the cutting knife head pushing sliding rod 403 through a shaft pin, two sides of the bottom of the scissor arm 413 are rotatably connected with an inner sliding hole sliding block 421 through the shaft pin, a top frame 406 is arranged at the top of the walking toothed plate 401, a top guide convex column 405 is fixedly arranged on the top surface of the top frame 406, a bottom guide convex column 404 is fixedly arranged on the bottom surface of the walking toothed plate 401, an end vertical sliding seat sleeve 418 is fixedly arranged at one side of the top of the side frame plate 402, and a first I-shaped guide rail wheel 408, a walking gear 409, a second gear 420, a second I-shaped guide rail wheel 410 and a first gear 417 are rotatably arranged on the inner side of the side frame plate 402, the traveling gear 409 and the second gear 420 are located on the same inner shaft 419, a U-shaped bottom frame plate 411 is fixedly arranged at the bottom of the traveling toothed plate 401, an inner sliding rod 414 is fixedly arranged inside the U-shaped bottom frame plate 411, and two ends of the inner sliding rod 414 are both sleeved with pushing springs 412.

In this embodiment, preferably, the glass cutting frame assembly 100 includes a bottom frame 101, a top frame 102 is disposed on the top of the bottom frame 101, L-shaped slide arm levers 108 are fixedly disposed at four corners of the bottom of the top frame 102, a plurality of left conveying rollers 103 and a plurality of right conveying rollers 106 are respectively disposed on two sides of the top frame 102, a disconnection driving motor 104 is fixedly disposed on one side of the middle side of the top frame 102, a disconnection driving gear 105 is disposed on an output shaft of the disconnection driving motor 104, and a through end slot 107 and a through bottom slot 109 are disposed on the other side of the top frame 102 and the bottom frame 101.

In this embodiment, preferably, the cutter head pushing slide bar 403 slides up and down in the end vertical slide sleeve 418, one side of the first gear 417 is engaged with the vertical rack 416 on the cutter head pushing slide bar 403, the other side of the first gear 417 is engaged with the second gear 420, and the traveling gear 409 is engaged with the traveling toothed plate 401.

In this embodiment, preferably, the first drum-shaped guide wheel 408 rolls outside the top surface guide boss 405 on the top of the top rack 406, and the second drum-shaped guide wheel 410 rolls outside the bottom surface guide boss 404 on the bottom of the running tooth plate 401.

In this embodiment, preferably, the two inner sliding hole sliding blocks 421 slide on the inner sliding rod 414 in a reciprocating manner, two ends of the pushing spring 412 respectively abut against the inner sliding hole sliding blocks 421 and the frame body at the end of the U-shaped bottom frame plate 411, and the two inner sliding hole sliding blocks 421 naturally close together through pushing of the pushing spring 412.

In this embodiment, preferably, a through gap of the adaptive cutting head assembly 400 is formed between the adjacent left conveying roller 103 and right conveying roller 106, a through gap of the first glass carrying arm assembly 200 is formed between the two left conveying rollers 103, and a through gap of the second glass carrying arm assembly 300 is formed between the two right conveying rollers 106.

In this embodiment, the structure of the first glass handling arm assembly 200 is preferably the same as that of the second glass handling arm assembly 300, the slide seat pipe 212 at the bottom of the first glass handling arm plate 201 slides back and forth on the L-shaped slide arm bar 108, and the second glass handling arm assembly 300 is preferably mounted in the same manner as the first glass handling arm assembly 200.

In this embodiment, it is preferred that the timing tooth plates 203 on the first glass handling arm assembly 200 and 300 engage with both sides of the disconnect drive gear 105, respectively.

In the present embodiment, it is preferable that the left conveying roller 103 rolls to the left and the right conveying roller 106 rolls to the right.

The power structure of the left conveying roller 103 and the right conveying roller 106 driven on the glass cutting frame assembly 100 is known in the art and will not be described in detail herein.

The working principle and the using process of the invention are as follows: when the glass cutting machine frame assembly 100 is used, a first glass carrying arm assembly 200 and a second glass carrying arm assembly 300 are respectively arranged on two sides of the top of the glass cutting machine frame assembly 100, a penetrating gap of the first glass carrying arm assembly 200 is formed between two left conveying rollers 103, a penetrating gap of the second glass carrying arm assembly 300 is formed between two right conveying rollers 106, a telescopic cylinder 205 used for jacking a third glass carrying arm plate 206 is arranged on a second glass carrying arm plate 204 on the first glass carrying arm assembly 200, one end of the second glass carrying arm plate 204 is rotatably connected with one end of the first glass carrying arm plate 201 through a rotating shaft rod 209 and a bearing seat at the bottom of a first supporting bottom arm plate 208, a jacking cylinder 210 is rotatably arranged between the second glass carrying arm plate 204 and the other end of the first glass carrying arm plate 201, and through the matching of the structures, ninety-degree change of the longitudinal direction and the transverse direction of the third glass carrying arm plate 206 and the glass carrying vacuum chuck 207 can be realized, in this way, glass placed vertically can be turned ninety degrees around the rotating shaft 209, at this time, the glass is turned over above the left conveying roller 103 and the right conveying roller 106, in the process of turning, the front end of the glass is centered around the rotating shaft 209, the rear end of the glass slowly falls in an inclined manner, at this time, a self-adaptive cutting knife head assembly 400 is arranged in the middle of the glass cutting machine frame assembly 100, two ends of the walking toothed plate 401 are fixed at the bottom end inside the top rack 102, at this time, the first I-shaped guide rail wheel 408 rolls in a limiting manner outside the top surface guide rail 405 at the top of the top stand 406, the second I-shaped guide rail wheel 410 rolls in a limiting manner outside the bottom surface guide rail convex column 404 at the bottom of the walking toothed plate 401, so as to realize rolling walking of the side stand plate 402 on the walking toothed plate 401, at this time, the cutting knife head pushing sliding rod 403 slides up and down in the end vertical sliding base sleeve 418, one side of the first gear 417 is engaged with the vertical rack 416 on the cutting knife head pushing rod pushing sleeve 418, the other side of the first gear 417 is meshed with the second gear 420, the walking gear 409 is meshed with the walking toothed plate 401, meanwhile, the bottom of the cutting tool head pushing sliding rod 403 is rotatably provided with a scissor arm 413 through a shaft pin, two sides of the bottom of the scissor arm 413 are rotatably connected with the inner sliding hole sliding blocks 421 through the shaft pin, the two inner sliding hole sliding blocks 421 slide on the inner sliding rod 414 in a reciprocating manner, two ends of the pushing spring 412 respectively abut against the inner sliding hole sliding blocks 421 and a frame body at the end part of the U-shaped bottom frame plate 411, the two inner sliding hole sliding blocks 421 naturally close together through pushing of the pushing spring 412, when the glass plate is actually used, the cutting tool head 407 at the top of the cutting tool head pushing sliding rod 403 is in a natural top structure, when the glass plate falls on the left conveying roller 103 and the right conveying roller 106 in an inclined manner, the lower end of the glass plate can abut against the cutting tool head 407 at the top of the cutting tool head pushing sliding rod 403, and the cutting pressure of the lower end surface of the glass can be ensured through the structure, in the inclined falling process of the glass plate, the cutting tool head pushes the sliding rod 403 to fall, at the moment, the first gear 417 drives the second gear 420 to rotate, the second gear 420 rotates to drive the traveling gear 409 to rotate, the side frame plate 402 drives the cutting tool head 407 to slide downwards through the cooperation of the traveling gear 409 and the traveling toothed plate 401, so that synchronous scribing and cutting in the inclined falling process of the glass plate are realized, the traveling path of the cutting tool head 407 can be provided with a plurality of specifications to meet scribing and cutting requirements of the glass plates with different widths, the cutting tool heads 407 with different strokes are correspondingly adapted to the glass plates with different widths one by one, after scribing and cutting are finished, the glass plates are also in a flat state, at the moment, the glass plates are positioned above the left conveying roller 103 and the right conveying roller 106, the cutting tool heads are abutted against one end of the glass plates, and a through gap of the self-adaptive conveying roller 400 is formed between the adjacent left cutting tool head assembly 407 and the right conveying roller 106, the sliding seat tube 212 at the bottom of the first glass carrying arm plate 201 slides back and forth on the L-shaped sliding arm rod 108, the installation mode of the second glass carrying arm assembly 300 is consistent with that of the first glass carrying arm assembly 200, the synchronous toothed plate 203 on the first glass carrying arm assembly 200 and the synchronous toothed plate on the second glass carrying arm assembly 300 are respectively meshed with two sides of the disconnection driving gear 105, meanwhile, the left conveying roller 103 rolls leftwards, the right conveying roller 106 rolls rightwards, at the same time, the telescopic cylinder 205 contracts to drive the scribed glass plates to be pasted on the upper end surfaces of the left conveying roller 103 and the right conveying roller 106, at the same time, the cutting tool bit 407 forms a pushing and breaking force bearing point structure on the bottom surface of one end of the glass, at the same time, the disconnection driving gear 105 is driven to rotate by the disconnection driving motor 104, the synchronous toothed plate 203 on the first glass carrying arm assembly 200 and the synchronous toothed plate on the second glass carrying arm assembly 300 are respectively meshed with two sides of the disconnection driving gear 105, through the cooperation of above-mentioned structure, can realize the synchronous external force of first glass transport arm subassembly 200 and second glass transport arm subassembly 300, the effect of cooperation cutting tool bit 407 terminal surface under glass and the shrink of telescopic cylinder 205 realize breaking off with the fingers and thumb of glass board and handle, break off with the fingers and thumb the glass board after breaking off with the fingers and thumb simultaneously and pass through left conveying roller 103 and right conveying roller 106 to both ends transmission respectively.

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.

Claims (9)

1. A glass cutting apparatus comprising a glass cutting frame assembly (100), characterized in that: a first glass carrying arm component (200) and a second glass carrying arm component (300) are respectively arranged on two sides of the top of the glass cutting machine frame component (100), a self-adaptive cutting knife head component (400) is arranged in the middle of the glass cutting machine frame component (100), the first glass carrying arm component (200) and the second glass carrying arm component (300) form a ninety-degree glass carrying structure on the glass cutting machine frame component (100), and the self-adaptive cutting knife head component (400) forms a scribing and cutting structure of the lower end face of glass on the glass cutting machine frame component (100);

the first glass carrying arm assembly (200) comprises a first glass carrying arm plate (201), a second glass carrying arm plate (204) and a third glass carrying arm plate (206), the second glass carrying arm plate (204) is located above the first glass carrying arm plate (201), the third glass carrying arm plate (206) is located above the second glass carrying arm plate (204), a telescopic cylinder (205) used for jacking the third glass carrying arm plate (206) is arranged on the second glass carrying arm plate (204), one end of the second glass carrying arm plate (204) is rotatably connected with one end of the first glass carrying arm plate (201) through a rotating shaft rod (209) and a bearing seat at the bottom of the first supporting bottom arm plate (208), a jacking cylinder (210) is rotatably arranged between the other ends of the second glass carrying arm plate (204) and the first glass carrying arm plate (201), and two ends of the bottom of the first glass carrying arm plate (201) are fixedly provided with the second supporting bottom arm plate (211) A sliding seat pipe (212) is arranged, one end of the first glass carrying arm plate (201) is fixedly provided with a synchronous toothed plate (203) through a fixed end plate (202), and a glass carrying vacuum sucker (207) is arranged on the third glass carrying arm plate (206);

the self-adaptive cutting knife head assembly (400) comprises a walking toothed plate (401), a side frame plate (402) and a cutting knife head pushing sliding rod (403), wherein a cutting knife head (407) is fixedly arranged at the top of the walking toothed plate (401), a vertical groove (415) is formed in the inner side of the walking toothed plate (401), a vertical rack (416) is fixedly arranged in the vertical groove (415), a scissor arm (413) is rotatably arranged at the bottom of the cutting knife head pushing sliding rod (403) through a shaft pin, two sides of the bottom of the scissor arm (413) are rotatably connected with an inner sliding hole sliding block (421) through the shaft pin, a top portion (406) is arranged at the top of the walking toothed plate (401), a top surface guide rail convex column (405) is fixedly arranged on the top surface of the top frame (406), a bottom surface guide rail convex column (404) is fixedly arranged on the bottom surface of the walking toothed plate (401), an end portion vertical sliding seat sleeve (418) is fixedly arranged on one side of the top of the side frame plate (402), and a first I-shaped guide rail wheel (408), a walking gear (409), a second gear (420), a second I-shaped guide rail wheel (410) and a first gear (417) are rotatably arranged on the inner side of the side frame plate (402), the walking gear (409) and the second gear (420) are positioned on the same inner side shaft lever (419), a U-shaped bottom frame plate (411) is fixedly arranged at the bottom of the walking toothed plate (401), an inner sliding rod (414) is fixedly arranged in the U-shaped bottom frame plate (411), and two ends of the inner sliding rod (414) are respectively sleeved with a pushing spring (412).

2. The glass cutting apparatus according to claim 1, wherein: glass-cutting frame subassembly (100) includes bottom frame (101), bottom frame (101) top is provided with top frame (102), the four corners of top frame (102) bottom is all fixed and is provided with L type slide arm pole (108), and the both sides at top frame (102) top are provided with a plurality of left conveying rollers (103) and a plurality of right conveying rollers (106) respectively, top frame (102) middle part side one side is fixed and is provided with disconnection driving motor (104), be provided with disconnection drive gear (105) on the output shaft of disconnection driving motor (104), the opposite side of top frame (102) and bottom frame (101) is provided with and runs through end groove (107) and runs through kerve (109).

3. The glass cutting apparatus according to claim 1, wherein: the cutting knife head pushing sliding rod (403) slides up and down in the end vertical sliding seat sleeve (418), one side of the first gear (417) is meshed with a vertical rack (416) on the cutting knife head pushing sliding rod (403), the other side of the first gear (417) is meshed with the second gear (420), and the walking gear (409) is meshed with the walking toothed plate (401).

4. The glass cutting apparatus according to claim 1, wherein: the first i-shaped guide rail wheel (408) is limited and rolls outside a top surface guide rail convex column (405) at the top of the top stand (406), and the second i-shaped guide rail wheel (410) is limited and rolls outside a bottom surface guide rail convex column (404) at the bottom of the walking toothed plate (401).

5. The glass cutting apparatus according to claim 1, wherein: two inner slide hole sliding blocks (421) slide on the inner slide rod (414) in a reciprocating manner, two ends of the pushing spring (412) respectively abut against the inner slide hole sliding blocks (421) and the frame body at the end part of the U-shaped bottom frame plate (411), and the two inner slide hole sliding blocks (421) naturally approach to each other through pushing of the pushing spring (412).

6. The glass cutting apparatus according to claim 2, wherein: a penetrating gap of a self-adaptive cutting head assembly (400) is formed between the adjacent left conveying roller (103) and the right conveying roller (106), a penetrating gap of a first glass conveying arm assembly (200) is formed between the two left conveying rollers (103), and a penetrating gap of a second glass conveying arm assembly (300) is formed between the two right conveying rollers (106).

7. The glass cutting apparatus according to claim 1, wherein: the structure of the first glass carrying arm assembly (200) is the same as that of the second glass carrying arm assembly (300), the sliding seat pipe (212) at the bottom of the first glass carrying arm plate (201) slides on the L-shaped sliding arm rod (108) in a reciprocating mode, and the installation mode of the second glass carrying arm assembly (300) is the same as that of the first glass carrying arm assembly (200).

8. The glass cutting apparatus according to claim 1, wherein: a synchronizing toothed plate (203) on the first glass handling arm assembly (200) and a synchronizing toothed plate on the second glass handling arm assembly (300) are respectively meshed with two sides of the disconnection driving gear (105).

9. The glass cutting apparatus according to claim 2, wherein: the left conveying roller (103) rolls to the left, and the right conveying roller (106) rolls to the right.

Images