CN215667715U

CN215667715U - Glass cuts limit device off with fingers and thumb

Info

Publication number: CN215667715U
Application number: CN202023244371.4U
Authority: CN
Inventors: 和新敬
Original assignee: Xuchang Tianhe Welding Device Co ltd
Current assignee: Xuchang Tianhe Welding Device Co ltd
Priority date: 2020-12-29
Filing date: 2020-12-29
Publication date: 2022-01-28
Anticipated expiration: 2030-12-29

Abstract

The utility model discloses a glass cutting and edge breaking device which comprises a cutting table, wherein an edge breaking mechanism is arranged above the cutting table, and an edge material recovery mechanism is arranged below the cutting table; the cutting table comprises a rectangular annular outer frame, a supporting plate is arranged in the center of the outer frame, four tapered holes for adsorbing glass are formed in the supporting plate, the bottoms of the tapered holes are communicated with a vacuum pipeline, an annular gap is formed between the supporting plate and the outer frame, and a sliding-down channel is butted below the annular gap; the edge breaking mechanism comprises an annular pressing plate arranged right above an annular gap, a pressing plate cylinder is arranged on the outer edge of the cutting table, the edge material recovery mechanism comprises a crushing bin arranged below the cutting table, the edge breaking mechanism is special in arrangement, the operating efficiency is improved, and the safety risk in the operating process is reduced.

Description

Glass cuts limit device off with fingers and thumb

Technical Field

The utility model belongs to the technical field of welding goggles lenses, and particularly relates to a glass slitting and edge breaking device.

Background

In the glass production flow, because the whole piece of glass of production line need be segmented earlier, divide into the square bold glass of a section to conveniently carry out follow-up branch piece cutting process, in the in-process of cutting the bold glass piece into goggles lens, the edge of glass is because can't reach each item index requirement or the edge has the defect in the middle of the production process, on the whole piece of glass of production line according to the integral multiple basis of monolithic goggles piece size, leave the surplus at the edge, in order to abandon its edge and cut, glass is not disconnected completely after the cutting, still need with the help of artifically or equipment with the help of it part and remove the limit. In the existing glass production process, glass cutting and slicing are generally carried out in a manual operation mode. However, the problem of high danger, high working strength and low efficiency of manual edge breaking exists, and the glass is easily scratched manually due to the characteristics of the glass and the sharpness of the edge in the glass processing process. When four edges are got rid of by the cutting of operative employee's glass sword, the operation mesa is in order to last the cutting use, need shift the glass at four edges that abandon to the garrulous glass collecting box of next door, discover the staff in the workshop owing to in order to improve production efficiency, carry out the rough and violent operation easily in the transfer process, also throw long glass strip into the garrulous glass case after throwing, when rectangular glass falls into the glass case, can cracked spill, cause bodily injury easily, consequently except strengthening carrying out safety training to the workman, more mainly lie in improving to waste glass's recovery processing mode, in order to reduce the safe risk of personnel's operation, improve production cutting efficiency. In addition, because four side edges of its abandonment are rectangular structure, the monoblock gets into the collection box after, occupies the space of collection box very much, leads to waste recovery case space utilization to be lower, need not incessantly carry out the change of collection box.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art and provides a glass cutting and edge breaking device, which solves the problems of inconvenience in edge breaking and separation and operation safety of glass edges after glass indentation.

In order to achieve the purpose, the utility model adopts the following technical scheme: a glass cutting and edge breaking device comprises a cutting table, wherein an edge breaking mechanism is arranged above the cutting table, and an edge material recovery mechanism is arranged below the cutting table; the cutting table comprises a rectangular annular outer frame, a supporting plate is arranged in the center of the outer frame, four tapered holes for adsorbing glass are formed in the supporting plate, the bottoms of the tapered holes are communicated with a vacuum pipeline, an annular gap is formed between the supporting plate and the outer frame, and a sliding-down channel is butted below the annular gap; the edge breaking mechanism comprises an annular pressing plate arranged right above the annular gap, a pressing plate cylinder is arranged on the outer edge of the slitting table, a pressing plate push rod of the pressing plate cylinder is vertically arranged upwards, a connecting plate extends outwards at the edge of the annular pressing plate and is connected with the end of the cylinder push rod; the scrap recovery mechanism comprises a crushing bin arranged below the slitting table, and a baffle assembly is arranged at a communication port of the downward sliding channel and the crushing bin; the baffle subassembly includes the open-close plate and sets up the flexible subassembly in open-close plate side, flexible subassembly includes the telescopic link and sets up the slide bar at broken storehouse roof, and telescopic link one end is articulated with the open-close plate, and the other end is articulated with the slider, and the slider slides and sets up on the slide bar, still wears to be equipped with reset spring on the slide bar, be provided with a pair of crushing roller in the broken storehouse side by side, the storehouse wall in broken storehouse is stretched out with the one end of crushing roller to all install broken motor, be formed with the feed opening in the bottom in broken storehouse.

The scheme is further improved, and the partition plates are arranged at the corners in the downward sliding channel to separate the downward sliding channel into four mutually independent spaces.

According to the scheme, the annular gap is provided with a positioning assembly in the outer side, the positioning assembly comprises a positioning baffle arranged on the three sides of the outer edge of the annular gap, and the positioning baffle is perpendicular to the supporting plate.

Further improve this scheme, be provided with the cracker in the middle section position of gliding passageway down, the cracker is acute triangle's body of rod structure for the cross section, and the both ends of cracker are connected with the inside wall and the lateral wall of gliding passageway respectively.

The scheme is further improved, and slope flanges gradually descending from inside to outside are arranged on four sides of the supporting plate.

According to the scheme, the annular pressing plate is further improved, and the lower end faces of the four side edges of the annular pressing plate are provided with slope tables which incline downwards from inside to outside.

According to the scheme, the inner corner of the annular pressing plate is provided with a strip-shaped cutting notch which extends outwards from the inner side of the corner.

Advantageous effects

1. According to the utility model, through innovation, the cutting table is improved, and the special edge breaking mechanism is arranged on the cutting table, so that the problem of human body safety risk possibly caused by manual edge breaking is solved, meanwhile, a plurality of edges are simultaneously broken, the working efficiency can be improved, and the specific analysis is as follows: through setting up the clamp plate mechanism, on cutting platform, carry out fixed positioning back to whole glass, adopt artifical or machine to glass mar cutting back, the clamp plate cylinder pushes down, because the backup pad is according to design size, consequently break off the marginal position that limit mar department is located the backup pad with fingers and thumb, the cylinder pushes down simultaneously, the clamp plate continues to push down with the glass edge contact back, the contact of glass outward flange and clamp plate bottom surface, be broken along the shear mark, the glass rim charge is because the action of gravity of self, retrieve in getting into the garbage collection storehouse by the gliding passageway. Because the glass cutting process needs to be fixed completely, consequently be provided with a plurality of bell mouths in the backup pad, inhale the hole and contact with the glass bottom surface, form the negative pressure, firmly adsorb glass in the backup pad, not only can prevent its removal at cutting glass's in-process, moreover at the hem in-process, firmly with glass and backup pad in close contact with to reinforcing glass intensity avoids the hem process to cause monoblock glass to damage. The opening plate that gets into broken storehouse at the passageway that slides down is provided with the automatic opening and shutting, and the opening plate receives the oblique top roof pressure of following of material and opens, and when the material passed through the back, reset spring can oppress the slider and reset to close the opening plate top tightly through the telescopic link. So as to form an isolation state for the crushing bin and avoid the glass slag from splashing upwards in the crushing process.

2. According to the utility model, the bottom of the pressing plate is provided with a slope structure with a high inside and a low outside, the outer edge of the glass is firstly pressed in the pressing process of the annular pressing plate, so that the outer edge of the glass is firstly stressed and can be more easily broken along an indentation and separated more completely, the edge of the supporting plate is provided with a slope flange, the opening of an annular gap is reduced mainly on the premise of not influencing edge folding operation, so that the phenomenon that glass slag is splashed from bottom to top in the process of pre-crushing the glass in a downward sliding channel is avoided, in addition, after the glass is folded, the glass strips fall on the slope structure of the supporting plate firstly, the glass strips are kept to slide into the downward sliding channel basically and horizontally through the slope structure, the middle sections of the glass strips are broken through an impact crusher in the downward sliding channel, and the long glass is prevented from being blocked and blocking the downward sliding channel.

Drawings

In order to illustrate the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an overall structure of the slitting and edge-breaking device according to the present invention;

FIG. 2 is a view showing the construction of the ring press of the present invention;

FIG. 3 is a view showing the structure of the slitting station according to the present invention;

FIG. 4 is an internal structure view of the slide down passage in the present invention;

FIG. 5 is a block diagram of a baffle assembly of the present invention;

FIG. 6 is a block diagram of the discharge assembly of the present invention;

the labels in the figure are: 1. the device comprises a slitting table, 1-1 parts of a slitting table, an outer frame, 1-2 parts of a supporting plate, 121 parts of a slope rib, 122 parts of a tapered hole, 1-3 parts of an annular gap, 1-4 parts of a positioning baffle, 2 parts of an edge breaking mechanism, 2-1 parts of an annular pressing plate, 211 parts of a slope table, 212 parts of a strip-shaped cutting notch, 213 parts of a connecting plate, 2-2 parts of a pressing plate cylinder, 2-3 parts of a sliding channel, 2-4 parts of a crusher, 3 parts of an edge material recycling mechanism, 3-1 parts of a crushing bin, 3-2 parts of a cutting plate, 3-3 parts of a telescopic rod, 3-4 parts of a sliding rod, 3-5 parts of a sliding block, 3-6 parts of a reset spring, 3-7 parts of a crushing motor, 3-8 parts of a partition plate, 4 parts of a discharging assembly, 4-1 parts of a roller table I, 411 parts of a first roller table motor, 412 parts of a top pressure sensor, 4-2 parts of a top pressure sensor, A second roller table 421, a second roller table motor 422, a photoelectric sensor 4-3, a pushing cylinder 4-4 and a pushing plate.

Detailed Description

In order to make the technical scheme and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments.

As shown in the figure: the embodiment of the utility model provides a glass cutting and edge breaking device which comprises a cutting table 1, wherein an edge breaking mechanism 2 is arranged above the cutting table 1, and an edge material recovery mechanism 3 is arranged below the cutting table 1; the cutting table 1 comprises a rectangular annular outer frame 1-1, a supporting plate 1-2 is arranged at the center of the outer frame 1-1, an annular gap 1-3 is formed between the supporting plate 1-2 and the outer frame 1-1, a sliding channel 2-3 is connected under the annular gap 1-3, the annular gap 1-3 is integrally of a rectangular annular structure, a positioning component is arranged on one side of the annular gap 1-3, and the positioning component comprises positioning baffle plates 1-4 arranged on three sides of the outer edge of the annular gap 1-3. The positioning baffle plates 1-4 are arranged so that after glass enters the lower portion of the pressing plate from the non-baffle side, the three edges do not exceed the positions of the positioning baffle plates 1-4, on one hand, cutting operation is facilitated, and on the other hand, the positioning baffle plates 1-4 are arranged to mainly prevent the glass from exceeding the outer edge positions of the annular gaps 1-3 in the placing process so as to avoid influence on edge breaking operation.

Four tapered holes 122 for adsorbing glass are formed on the support plate 1-2, and the bottoms of the tapered holes 122 are communicated with a vacuum pipeline. After the glass is positioned and placed on the support plate 1-2, the glass is adsorbed through the tapered hole 122, so that the glass is fixed well.

The edge breaking mechanism 2 comprises an annular pressure plate 2-1 arranged right above the annular gap 1-3, a pressure plate cylinder 2-2 is arranged on the outer edge of the cutting table 1, a cylinder push rod of the pressure plate cylinder is vertically arranged upwards, a connecting plate 213 is formed by extending the edge of the annular pressure plate 2-1 outwards, the connecting plate 213 is connected with the upper end of the cylinder push rod, and a sliding channel 2-3 is butted below the annular gap 1-3. The four pressure plate cylinders 2-2 are arranged, and two pressure plate cylinders are arranged on the opposite sides of the outer frame 1-1.

The push rod of the pressure plate cylinder 2-2 is vertically arranged upwards, the edge of the annular pressure plate 2-1 extends outwards to form a connecting plate 213, the connecting plate 213 is connected with the upper end of the cylinder push rod, the outer frame 1-1 is connected with an outer side wall below, the support plate 1-2 is connected with an inner side wall below, a gliding channel 2-3 communicated with the annular gap 1-3 is formed between the outer side wall and the inner side wall, the inner side wall and the outer side wall are connected through partition plates 3-8 in the gliding channel 2-3, and the partition plates 3-8 are located at the corners of the inner side wall and the outer side wall to separate the gliding channel 2-3 into four mutually independent spaces. The glass blanking process in each gliding channel 2-3 cannot be interfered with each other, and meanwhile, the strip glass is prevented from being clamped at the corner where the two gliding channels 2-3 are connected. A knapper 2-4 is arranged at the middle section of the downward sliding channel 2-3, the knapper 2-4 is of a rod body structure with an acute triangle cross section, and two ends of the knapper 2-4 are respectively connected with the inner side wall and the outer side wall of the downward sliding channel 2-3.

The annular gap 1-3 is integrally in a rectangular annular structure, one side of the annular gap 1-3 is provided with a positioning assembly, and the positioning assembly comprises positioning baffles 1-4 arranged on three sides of the outer edge of the annular gap 1-3. The positioning baffle 1-4 is arranged to prevent three edges from exceeding the position of the positioning baffle 1-4 after the glass enters the lower part of the annular pressure plate 2-1 from the non-baffle side, so that the cutting operation is convenient, and the positioning baffle 1-4 is arranged to prevent the glass from exceeding the outer edge position of the annular gap 1-3 in the placing process, so that the edge breaking operation is influenced; a knapper 2-4 is arranged at the middle section of the downward sliding channel 2-3, the knapper 2-4 is of a rod body structure with the cross section of an acute triangle, two ends of the knapper 2-4 are respectively connected with the inner side wall and the outer side wall, and a breaking bin 3-1 is arranged at the lower port of the downward sliding channel 2-3.

The lower end surfaces of the four side edges of the annular pressure plate 2-1 are provided with sloping platforms 211 which slope downwards from inside to outside. The four sides of the supporting plate 1-2 are provided with slope ribs 121 which gradually descend from inside to outside. In the process of pressing down the annular pressure plate 2-1, the slope table 211 is firstly contacted with the outer edge of the glass to play a role of pressing down, so that the outer edge of the glass is firstly stressed, the glass is easier to be broken down along the indentation and is more completely separated, the slope flange 121 is arranged at the edge of the support plate 1-2, the opening of the annular gap 1-3 is reduced mainly on the premise of not influencing the edge folding operation, so that the glass slag is prevented from being splashed out from the annular gap 1-3 when the glass touches the crusher 2-4 in the downward sliding channel 2-3, the slope flange 121 is obliquely arranged downwards, a gap is formed between the slope flange 121 and the outer frame 1-1 and is communicated with the downward sliding channel 2-3, in addition, the glass strip falls on the slope flange 121 firstly after the glass is folded, the glass strip is kept to enter the downward sliding channel 2-3 in a basically horizontal state through the slope flange 121, the glass strip is broken off in the down-slide channel 2-3 by the impact breaker 2-4.

At the inner corner of the annular pressing plate 2-1, a strip-shaped dividing notch 212 is formed to extend outward from the inside of the corner. The strip-shaped cutting gap 212 is arranged and mainly used for forming oblique cutting marks at the corners of the edges of the glass, and glass rim charge is divided into four pieces, so that the glass strip can be more easily broken from the whole glass in the process of breaking the edges.

The rim charge recovery mechanism 3 comprises a crushing bin 3-1 arranged below the slitting table 1, and a baffle assembly is arranged at a communication port of the downward sliding channel 2-3 and the crushing bin 3-1; the baffle plate component comprises a plywood 3-2 and a telescopic component arranged on one side surface of the plywood 3-2, the telescopic component comprises a telescopic rod 3-3 and a slide rod 3-4 arranged on the top wall of the crushing bin 3-1, one end of the telescopic rod 3-3 is hinged with the opening plate 3-2, the other end is hinged with the slide block 3-5, the slide block 3-5 is arranged on the slide rod 3-4 in a sliding manner, two ends of the slide rod 3-4 are arranged on the top plate of the crushing bin 3-1 through a supporting limit table, a reset spring 3-6 is also arranged on the sliding rod 3-4 in a penetrating way, a pair of crushing rollers are arranged in the crushing bin 3-1 in parallel, the same end of each crushing roller extends out of the bin wall of the crushing bin 3-1, a crushing motor 3-7 is arranged, and a feed opening is formed at the bottom of the crushing bin 3-1. The long-strip glass enters the crushing bin 3-1 and is crushed into small pieces under the extrusion of the crushing roller, the baffle plate assembly is additionally arranged to prevent the broken glass in the crushing bin 3-1 from splashing up to enter the lower sliding channel 2-3 and accidentally splashing out from the upper opening through the lower sliding channel 2-3, therefore, the opening and closing plate 3-2 which can be automatically opened and closed is arranged at the port of the rim charge lower sliding channel 2-3 which enters the crushing bin 3-1, the opening and closing plate 3-2 is opened under the jacking pressure of materials, and after the materials pass through, the reset spring 3-6 can press the sliding block 3-5 to reset, so that the opening and closing plate 3-2 is closed through the telescopic rod 3-3.

A discharging component 4 is arranged below the feed opening, the discharging component 4 comprises a first roller way 4-1 and a second roller way 4-2, the first roller way 4-1 is communicated with the second roller way 4-2 and is vertical to the second roller way, conveying rollers are distributed along the length directions of the first roller way 4-1 and the second roller way 4-2, a push cylinder 4-3 is arranged at the connecting corner of the first roller way 4-1 and the second roller way 4-2, a push plate 4-4 is arranged at the end of a push rod of the push cylinder 4-3, used for pushing the waste collecting box at the tail end of the first roller way 4-1 into the second roller way 4-2, a first roller way motor 411 for driving the conveying roller to rotate is arranged on one side of the first roller way 4-1, a second roller way motor 421 for driving the conveying roller to rotate is arranged on one side of the roller way II 4-2, and a jacking pressure sensor 412 is arranged on the side wall of the tail end of the roller way I4-1. When the empty recycling bin is conveyed to the end of the roller way I4-1 and abuts against the jacking sensor 412, the first roller way motor 411 stops running. After the empty recycling bin is full, the pushing cylinder 4-3 pushes the recycling bin into the second roller way 4-2 through the pushing plate 4-4, the photoelectric sensor 422 is arranged at the inlet position of the second roller way 4-2, when the recycling bin is detected to enter, a conveying signal is sent to the second roller way motor 421, the conveying rollers of the second roller way 4-2 start to operate, the fully loaded recycling bin discharges materials at the tail end of the second roller way 4-2, and a transfer vehicle can be arranged at the tail end of the fully loaded recycling bin for transferring.

The working principle of the device is as follows: the whole glass to be cut enters from one side of the opening of the positioning component below the annular pressing plate 2-1, after the positioning is finished, the glass is adsorbed on the supporting plate 1-2 through the tapered hole 122 to be firmly fixed, the pressing plate cylinder 2-2 falls from the first position to the second position, the slope table 211 on the bottom surface of the annular pressing plate 2-1 is not contacted with the glass, a cutting tool is used for cutting marks along the inner side edge of the annular pressing plate 2-1, after the cutting marks of the glass on the four sides are finished, the pressing plate cylinder 2-2 further falls to a third position, the slope table 211 is contacted with the outer edge of the glass, the edge of the glass is broken off along the cutting marks and falls into the lower sliding channel 2-3 through the slope flange 121, in the downward sliding channel 2-3, the middle section of the long glass rim charge collides with the crusher 2-4 and is broken into two or more sections. The first roller way 4-1 is used for entering a recovery box, the top of the recovery box presses the top pressure sensor 412, the first conveying motor 411 stops running, after the recovery box is fully loaded, the pushing cylinder 4-3 pushes the pushing plate 4-4 to enter the second roller way 4-2, and a turnover vehicle is arranged at the tail end of the second roller way 4-2 for transferring.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. The utility model provides an edge breaking device is broken off with fingers and thumb in glass cutting which characterized in that: the edge breaking and cutting machine comprises a cutting table (1), wherein an edge breaking mechanism (2) is arranged above the cutting table (1), and an edge material recovery mechanism (3) is arranged below the cutting table (1);

the cutting table (1) comprises a rectangular annular outer frame (1-1), a supporting plate (1-2) is arranged at the center of the outer frame (1-1), four tapered holes (122) for adsorbing glass are formed in the supporting plate (1-2), the bottoms of the tapered holes (122) are communicated with a vacuum pipeline, an annular gap (1-3) is formed between the supporting plate (1-2) and the outer frame (1-1), and a sliding channel (2-3) is butted below the annular gap (1-3);

the edge breaking mechanism (2) comprises an annular pressing plate (2-1) arranged right above the annular gap (1-3), a pressing plate cylinder (2-2) is arranged on the outer edge of the cutting table (1), a cylinder push rod of the pressing plate cylinder is vertically arranged upwards, a connecting plate (213) is formed by extending the edge of the annular pressing plate (2-1) outwards, and the connecting plate (213) is connected with the end part of the cylinder push rod;

the scrap recovery mechanism (3) comprises a crushing bin (3-1) arranged below the slitting table (1), and a baffle assembly is arranged at a communication port of the downward sliding channel (2-3) and the crushing bin (3-1); the baffle plate component comprises a plywood (3-2) and a telescopic component arranged on one side surface of the plywood (3-2), the telescopic component comprises a telescopic rod (3-3) and a slide rod (3-4) arranged on the top wall of the crushing bin (3-1), one end of the telescopic rod (3-3) is hinged with the opening plate (3-2), the other end is hinged with the slide block (3-5), the slide block (3-5) is arranged on the slide rod (3-4) in a sliding way, a reset spring (3-6) is also arranged on the sliding rod (3-4) in a penetrating way, a pair of crushing rollers are arranged in the crushing bin (3-1) in parallel, the same end of each crushing roller extends out of the bin wall of the crushing bin (3-1), and are provided with crushing motors (3-7), and a feed opening is formed at the bottom of the crushing bin (3-1).

2. A glass slitting and edge breaking device according to claim 1, wherein: the inner corners of the lower sliding channels (2-3) are provided with partition plates (3-8) to divide the lower sliding channels (2-3) into four mutually independent spaces.

3. A glass slitting and edge breaking device according to claim 1, wherein: the outer side of the annular gap (1-3) is provided with a positioning assembly, the positioning assembly comprises positioning baffles (1-4) arranged on three side faces of the outer edge of the annular gap (1-3), and the positioning baffles (1-4) are perpendicular to the supporting plate (1-2).

4. A glass slitting and edge breaking device according to claim 1, wherein: a crusher (2-4) is arranged at the middle section of the downward sliding channel (2-3), the crusher (2-4) is of a rod body structure with an acute triangle-shaped cross section, and two ends of the crusher (2-4) are respectively connected with the inner side wall and the outer side wall of the downward sliding channel (2-3).

5. A glass slitting and edge breaking device according to claim 1, wherein: the four sides of the supporting plate (1-2) are provided with slope flanges (121) which gradually descend from inside to outside.

6. A glass slitting and edge breaking device according to claim 5, wherein: the lower end faces of the four side edges of the annular pressing plate (2-1) are provided with sloping platforms (211) which slope downwards from inside to outside.

7. A glass slitting and edge breaking device according to claim 6, wherein: at the inner corner of the annular pressure plate (2-1), a strip-shaped dividing notch (212) extending outwards from the inner side of the corner is formed.