CN111203990B - Processing equipment for producing solar traffic lights - Google Patents

Abstract

The invention discloses processing equipment for producing a solar traffic light, which comprises a first rail, a first sliding block arranged on the first rail, a conveying device arranged on the first sliding block, a placing table arranged at the lower part of the conveying device, a cutting device arranged at the lower side of the first rail and a supporting device arranged at one side of the cutting device, wherein the conveying device is arranged on the first sliding block; the conveying device comprises a fixed block arranged on the first sliding block, a first fixing piece arranged on the fixed block, and a plurality of fixed plates arranged on two sides of the fixed block; the longitudinal section of the fixing plate is of an L-shaped structure, a gap exists between the bottom surface of the first fixing piece and the bottom surface of the fixing plate, and the first fixing piece is a sucker. According to the glass processing device, the glass to be processed is fixed through the first fixing piece and the fixing plates on the two sides, the glass falling caused by the fact that the glass cannot be fixed by the suckers is avoided, and meanwhile the occupied area of the glass during transportation is reduced.

Description

Processing equipment for producing solar traffic lights

Technical Field

The invention belongs to the technical field of solar traffic light processing, and particularly relates to processing equipment for producing a solar traffic light.

Background

In the processing and production process of the solar traffic light, glass is a frequently used material; cutting glass and transporting glass are very important processes in the process of manufacturing glass.

In the prior art, a conveyor belt or a suction cup is generally used for conveying glass raw materials to be processed, but the manner of conveying the glass by the conveyor belt occupies a large area, and the condition that the glass is possibly unstably fixed and falls off by the conveyance by the suction cup exists.

Disclosure of Invention

The invention provides processing equipment for producing a solar traffic light, which aims to overcome the defects of the prior art and reduce the transportation occupied area and ensure that glass cannot fall off during fixation.

In order to achieve the purpose, the invention adopts the following technical scheme: a processing device for producing a solar traffic light comprises a first rail, a first sliding block arranged on the first rail, a conveying device arranged on the first sliding block, a placing table arranged at the lower part of the conveying device, a cutting device arranged at the lower side of the first rail and a supporting device arranged at one side of the cutting device; the conveying device comprises a fixed block arranged on the first sliding block, a first fixing piece arranged on the fixed block, and a plurality of fixed plates arranged on two sides of the fixed block; the longitudinal section of the fixing plate is of an L-shaped structure, a gap exists between the bottom surface of the first fixing piece and the bottom surface of the fixing plate, and the first fixing piece is a sucker.

According to the glass fixing device, the glass is lifted from the placing table through the first fixing piece and is fixed by the fixing plates on the two sides, so that the glass is fixed by the device without touching other glass, and the falling of other glass caused by touching other glass by the device is avoided; through the gap between the fixing plate and the first fixing part, the glass to be processed is fixed in the gap, the glass is fixed in the vertical direction, the glass is prevented from falling off due to unstable fixation of the sucker, and casualties or property loss caused by falling of the glass is further avoided; simultaneously through the setting of first track and conveyer for the glass of treating processing need not to transport through the conveyer belt, but can follow the top process of other equipment, area when having reduced transportation glass.

The conveying device further comprises a first driving piece arranged on the fixed block, a first telescopic rod arranged on the first driving piece and used for connecting the first driving piece and the first fixing piece, a first air hole arranged on the first telescopic rod, a plurality of guide parts arranged on two sides of the fixed block, a plurality of stabilizing parts respectively arranged on the plurality of fixed plates, and a plurality of guide parts arranged on the fixed plates; one end of the first air hole is arranged on a first fixing piece, the first fixing piece is a sucker, an electromagnetic valve is arranged on the first air hole, and the guide part and the fixing plate are arranged correspondingly; when the first driving piece is started, the first telescopic rod is driven to move downwards, the first fixing piece is driven to extrude the glass to be processed, the glass is fixed on the first fixing piece, then the first telescopic rod is contracted, and the glass is driven to move upwards, so that the glass is conveyed away from the placing table, the glass conveying efficiency is increased, and the labor cost is reduced; through the arrangement of the first air hole, after the glass is conveyed to the designated position, when the glass needs to be put down, manual operation is not needed, the glass can be put down only by switching on the electromagnetic valve to enable the pressure inside and outside the first fixing piece to be the same, steps of taking away the glass are reduced, and the efficiency of glass transportation is improved.

The guide component comprises a rotating shaft arranged on the fixed block, a first guide rod arranged on the fixed block, a second guide rod arranged on the fixed block, a first through hole arranged on the fixed plate, a first guide groove arranged on the fixed plate, a second guide groove arranged on the fixed plate, a plurality of third guide grooves arranged on the first guide rod, a plurality of first balls arranged on the first guide groove, a plurality of fourth guide grooves arranged on the first guide rod and a plurality of second balls arranged on the second guide groove; the rotating shaft is connected with the first through hole through threads, the first guide rod is arranged corresponding to the first guide groove, the second guide rod is arranged corresponding to the second guide groove, the third guide grooves are matched with the first balls, the first balls can rotate relative to the first guide groove, the fourth guide grooves are matched with the second balls, and the second balls can rotate relative to the second guide groove; after the first fixing piece fixes the glass and lifts the glass, the rotating shaft starts to rotate, so that the fixing plates on the two sides are driven to move inwards, and the glass is fixed; in the moving process of the fixed plate, the first guide rod and the second guide rod are arranged, so that the fixed plate cannot rotate along with the rotating shaft in the moving process, the condition that the fixed plate impacts glass due to rotation is avoided, and the glass is further prevented from being damaged; meanwhile, the first guide rod and the second guide rod are guided by an upper point and a lower point to help the force applied to the joint of the rotating shaft and the fixed plate to be reduced, so that the fracture caused by overlarge stress on the joint of the rotating shaft and the fixed plate is avoided, and the maintenance cost of the equipment is reduced; through the setting of first ball and second ball for first guide bar and second guide bar have reduced the frictional force between each other when first guide way and second guide way remove relatively, avoid because the part that frictional force too big leads to damages, and then avoided the part damage and the unable circumstances of transporting of glass that leads to.

The stabilizing component comprises two first gear teeth arranged on two sides of the second guide rod, two fixing sleeves arranged on the fixing plate, two stabilizing rods respectively arranged on the two fixing sleeves, two second gear teeth respectively arranged at one ends of the two stabilizing rods, two second fixing parts respectively arranged at the tail ends of the two stabilizing rods, and two second air holes respectively arranged on the two stabilizing rods; the two first gear teeth are respectively matched with the two second gear teeth, the fixed sleeve is connected with the stabilizer bar through threads, the second fixing piece is a sucker, one end of the second air hole is formed in the second fixing piece, an electromagnetic valve is arranged on the second air hole, and the second fixing piece can rotate relative to the stabilizer bar; when the fixing plate moves inwards, the first gear teeth and the second gear teeth are meshed with each other, so that the second gear teeth drive the stabilizer bar to rotate, the stabilizer bar moves downwards in cooperation with threaded connection between the stabilizer bar and the fixing sleeve, the second fixing piece is extruded on the upper surface of the glass, and the two sides of the glass are fixed again in cooperation with the L-shaped structure of the fixing plate, so that the glass is prevented from shaking in the transportation process, and further the glass is prevented from being fixed unstably; meanwhile, the stabilizer bar descends by being driven by the movement of the fixing plate, so that the descending of the stabilizer bar and the movement of the fixing plate are synchronous, the fixing plate and the stabilizing part are ensured to fix the glass synchronously, the situation that the second fixing part extrudes the glass firstly but the fixing plate does not move is avoided, and the situation that the second fixing part pushes the glass away from the first fixing part is further avoided; through the setting of second gas pocket for glass need not the manual work and takes off glass's operation after transporting the assigned position, operation step when having reduced glass transportation.

The guide part comprises a plurality of rollers arranged on the fixing plate, a plurality of connecting rods respectively arranged on the rollers, a plurality of second sliders respectively arranged on two sides of the connecting rods, a plurality of second tracks arranged on the fixing plate, and a first elastic piece used for connecting the second sliders and the second tracks; the roller can rotate relative to the connecting rod, and the second sliding block can move relative to the second track; when the fixed plate moves inwards, the glass contacts the roller firstly and then moves towards one side of the fixed plate through the roller, so that the condition that the glass is mistakenly contacted with the bottom of the fixed plate is avoided, and the condition that the glass falls off or the edge of the glass is scratched due to mistaken contact is further avoided; through the setting of first elastic component for the second mounting is when fixing glass, can not be because the fixed unevenness's of glass lower surface that the interference of gyro wheel leads to the condition, stability when having increased glass fixed.

The cutting device comprises a third track, a fourth track arranged on the third track, a third sliding block arranged on the fourth track, a second telescopic rod arranged on the third sliding block, and a rotating cutter head arranged on the second telescopic rod; the fourth track can move relative to the third track, the third sliding block can move relative to the fourth track, and the rotating tool bit can rotate relative to the second telescopic rod; after glass transported appointed position, drive the fourth track through the third track and remove, third slider removes in the fourth track simultaneously for the rotating cutter head can begin to cut glass from a plurality of positions, has improved glass-cutting's efficiency, has improved glass-cutting's effect.

The supporting device comprises a supporting table, a first moving part arranged on one side of the supporting table and a second moving part arranged on the other side of the supporting table; the first moving part comprises a baffle arranged on the support table, a plurality of first moving blocks arranged on one side of the baffle, a plurality of third telescopic rods respectively arranged on one sides of the plurality of first moving blocks, a plurality of limiting holes respectively arranged on one sides of the plurality of first moving blocks, and a plurality of third air holes arranged on the plurality of first moving blocks; the first moving block can move relative to the supporting table, the plurality of third telescopic rods and the plurality of limiting holes are correspondingly arranged, one end of each third air hole is formed in each third telescopic rod, and the first moving part and the second moving part are identical in structure and are symmetrically arranged; the first moving block in the first moving part is connected with the first moving block in the second moving part through a moving rod, and a plurality of second moving blocks are arranged on the moving rod; the second moving blocks can move relative to the moving rod, and the plurality of second moving blocks are arranged in a rectangular shape; before glass is cut, selecting a transverse cutting position to be cut, ventilating third air holes in first moving blocks on two sides of the cutting position, driving a third telescopic rod on the first moving block to extend, and pushing all first moving blocks in the front of the first moving block to move forwards until a baffle is abutted against the first moving block, so that a gap is reserved between the first moving blocks at the appointed cutting position, and the situation that chips generated during glass cutting cannot remain on the moving blocks is ensured, so that the situation that the glass is unstable to fix or the chips scratch the glass due to the residual of the chips is avoided; meanwhile, the first moving blocks on the two sides of the cutting part can support the two sides of the glass cutting part, the situation that the glass is cracked towards the two sides during cutting is avoided, safety during cutting is guaranteed, and the yield of cutting is improved.

The supporting device further comprises two second driving pieces arranged on two sides of the baffle, two fourth telescopic rods respectively arranged on the two second driving pieces, two rotating plates respectively arranged on the two fourth telescopic rods, a plurality of limiting plates respectively arranged on a plurality of second moving blocks on the outer edge side, a connecting plate arranged between every two adjacent second moving blocks in the horizontal direction, and a connecting groove matched with the connecting plate; the rotating plate can rotate relative to the fourth telescopic rod, the rotating plate and the limiting plate are arranged in a matched mode, the connecting plate can move relative to the connecting groove, and a round angle is formed in the rotating plate; after the position of the transverse cutting position is moved, the fourth telescopic rod drives the rotating plates to move to two sides of the longitudinal glass cutting position, the rotating plates rotate and are buckled into the middle of the limiting plate, then the second moving blocks are driven by the fourth telescopic rod to move towards two sides of the longitudinal cutting position and are tightly pressed on the first moving blocks at two sides, and gaps are reserved at the longitudinal glass cutting position, so that scraps generated during cutting of glass cannot remain on the moving blocks, and the condition that the glass is unstable in fixation or scratched by the scraps due to the scraps is avoided; meanwhile, the first moving blocks on the two sides of the cutting position can support the two sides of the glass cutting position, so that the situation that the glass is cracked towards the two sides during cutting is avoided; through the matching of the first moving blocks and the second moving blocks, gaps at the transverse and longitudinal cutting positions can be matched with a plurality of positions with sizes to be cut, so that the device is suitable for various glass cutting sizes, and the adaptability of the device is improved; through the corresponding movement of the transverse cutting part and the longitudinal cutting part, the scraps generated in the glass cutting process cannot appear on the first moving block and the second moving block, so that the first moving block and the second moving block cannot scrape the glass when the lower surface of the glass to be processed moves, and the glass is prevented from being scratched; after the position of the transverse and longitudinal cutting position is fixed, the supporting device can support the rest positions of the glass which are not required to be cut through a plurality of second moving blocks while a gap is reserved at the cutting position, so that the cutting position of the glass on the gap can be cut off by the rotating cutter head more easily.

The supporting device also comprises four circular grooves, four second elastic pieces respectively arranged on the four circular grooves, and four third fixing pieces respectively arranged on the four second elastic pieces; the four circular grooves are formed in four second moving blocks on four end corners of the rectangle, and the third fixing piece is a sucker; after the glass is conveyed by the conveying device, the lower surface of the glass is fixed by the third fixing piece, so that the situation that the glass shakes during subsequent cutting is avoided, and the situation that the glass shakes to cause cutting deflection or damage is further avoided; meanwhile, through the arrangement of the second elastic piece, when the glass is cut after being fixed, the situation that the lower surface of the glass is not contacted with the second moving block due to the protrusion of the third fixing piece is avoided, and the situation that the glass is cracked due to the suspended arrangement at the glass cutting position is further avoided; when the four end corners of the glass are fixed, the glass is transversely and longitudinally cut, if other positions of the glass need to be cut again after the glass is cut, the positions of the first moving block and the second moving block are adjusted again while the glass is fixed, a new cut gap can be generated, the new gap is matched with the cutting device to cut the glass again, the situation that the glass needs to be taken down and fixed again when other positions are cut is avoided, and the glass cutting efficiency is increased; meanwhile, when the first moving block and the second moving block are adjusted, the chips cannot appear on the surface of the second moving block, so that the condition that the lower surface of the glass is abraded when the moving blocks move due to the residues of the chips when the positions of cutting positions are adjusted is avoided; the position of glass cutting department is changed through the removal of first movable block and second movable block, has avoided fixing the condition of cutting the groove on the workstation through removing glass and cooperating, has increased glass cutting's efficiency, has avoided removing glass and the counterpoint error that leads to simultaneously, has guaranteed that a plurality of cutting departments of glass are in on same counterpoint precision.

A plurality of second through holes are formed in the supporting platform; through the setting of second through-hole for the piece that leaves behind the glass-cutting can be discharged from second through-hole department when the second removes the piece and removes, has avoided the piece to remain the condition on propping up supporting bench, and then has avoided having reduced the maintenance cost of equipment because the unable circumstances that removes of second movable block that leads to of remaining too much piece on the supporting bench.

In summary, the invention has the following advantages: reduce the area of glass's of transportation, guarantee that glass is fixed can not drop.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the transportation device of the present invention.

Fig. 3 is a partially enlarged view of fig. 2 of the present invention.

Fig. 4 is a front view of the transport unit of the present invention.

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4 in accordance with the present invention.

Fig. 6 is a partial enlarged view of the invention at a in fig. 5.

Fig. 7 is a partial enlarged view of the invention at B in fig. 5.

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 4 in accordance with the present invention.

Fig. 9 is an enlarged view of a portion of fig. 8 of the present invention.

Fig. 10 is a schematic structural view of the cutting device of the present invention.

Fig. 11 is a front view of the support device of the present invention.

FIG. 12 is a cross-sectional view taken along line A-A of FIG. 11 in accordance with the present invention.

Fig. 13 is a partial enlarged view of fig. 12 of the present invention.

Fig. 14 is a schematic structural view of the supporting device of the present invention.

Fig. 15 is an enlarged view of a portion of fig. 14 in accordance with the present invention.

Fig. 16 is a front view of the support device of the present invention.

Fig. 17 is a cross-sectional view taken along line a-a of fig. 16 in accordance with the present invention.

Fig. 18 is an enlarged view of a portion of fig. 17 of the present invention.

Fig. 19 is a side view of a support device of the present invention.

Fig. 20 is a cross-sectional view taken along line B-B of fig. 19 in accordance with the present invention.

Fig. 21 is an enlarged view of a portion of fig. 20 in accordance with the present invention.

Fig. 22 is a schematic view of the assembly between two adjacent second moving blocks according to the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

As shown in fig. 1-22, a processing apparatus for solar traffic light production comprises a first track 1, a first slider 2 disposed on the first track, a transporting device 3 disposed on the first slider, a placing table 4 disposed at a lower portion of the transporting device, a cutting device 5 disposed at a lower side of the first track, and a supporting device 6 disposed at one side of the cutting device; the first rail is an electric rail.

The transportation device 3 comprises a fixed block 31, a first fixed block 32, a plurality of fixed plates 33, a first driving piece 34, a first telescopic rod 35, a first air hole 36, a plurality of guide parts 37, a plurality of stabilizing parts 38 and a plurality of guide parts 39; the fixed block 31 is arranged on the first sliding block 2, the first fixing piece 32 is arranged on the fixed block, and the plurality of fixed plates 33 are arranged on two sides of the fixed block; the longitudinal section of the fixing plate is of an L-shaped structure, a gap is formed between the bottom surface of the first fixing piece and the bottom surface of the fixing plate, and the first fixing piece is a sucker; the first driving piece 34 is arranged on the fixed block 31, the first telescopic rod 35 is arranged on the first driving piece and used for connecting the first driving piece and the first fixed piece, the first air hole 36 is arranged on the first telescopic rod, the plurality of guide parts 37 are arranged on two sides of the fixed block, the plurality of stabilizing parts 38 are respectively arranged on the plurality of fixed plates, and the plurality of guide parts 39 are arranged on the fixed plates; one end of the first air hole is arranged on a first fixing piece, the first fixing piece is a sucker, an electromagnetic valve is arranged on the first air hole, and the guide part 37 and the fixing plate 33 are correspondingly arranged; the first driving piece is an air cylinder, and the first telescopic rod is an air rod controlled by the air cylinder.

The guide member 37 includes a rotation shaft 371, a first guide rod 372, a second guide rod 373, a first through hole 374, a first guide groove 375, a second guide groove 376, a plurality of third guide grooves 377, a plurality of first balls 378, a plurality of fourth guide grooves 379, a plurality of second balls 370; the rotating shaft 371 is disposed on the fixed block 31, the first guide bar 372 is disposed on the fixed block, the second guide bar 373 is disposed on the fixed block, the first through hole 374 is disposed on the fixed plate, the first guide groove 375 is disposed on the fixed plate, the second guide groove 376 is disposed on the fixed plate, the plurality of third guide grooves 377 are disposed on the first guide bar, the plurality of first balls 378 are disposed on the first guide groove, the plurality of fourth guide grooves 379 are disposed on the first guide bar, and the plurality of second balls 370 are disposed on the second guide groove; the rotating shaft is connected with the first through hole through threads, the first guide rod is arranged corresponding to the first guide groove, the second guide rod is arranged corresponding to the second guide groove, the third guide grooves are matched with the first balls, the first balls can rotate relative to the first guide groove, the fourth guide grooves are matched with the second balls, and the second balls can rotate relative to the second guide groove; the fixed block is internally provided with a motor, and the rotating shaft rotates through the motor.

The stabilizing component 38 comprises two first gear teeth 381, two fixing sleeves 382, two stabilizing rods 383, two second gear teeth 384, two second fixing pieces 385 and two second air holes 386; the two first gear teeth 381 are arranged on two sides of the second guide rod 373, the two fixing sleeves 382 are arranged on the fixing plate, the two stabilizing rods 383 are respectively arranged on the two fixing sleeves, the two second gear teeth 384 are respectively arranged at one ends of the two stabilizing rods, the two second fixing pieces 385 are respectively arranged at the tail ends of the two stabilizing rods, and the two second air holes 386 are respectively arranged on the two stabilizing rods; two first teeth of a cogwheel respectively with two second teeth of a cogwheel cooperation settings, fixed cover and stabilizer bar are connected through the screw thread, the second mounting is the sucking disc, second gas pocket one end is located on the second mounting, be equipped with the solenoid valve on the second gas pocket, but the stabilizer bar rotates relatively to the second mounting.

The guide member 39 includes a plurality of rollers 391, a plurality of connecting rods 392, a plurality of second sliders 393, a plurality of second rails 394, a first elastic member 395; the plurality of rollers 391 are arranged on the fixing plate 33, the plurality of connecting rods 392 are respectively arranged on the plurality of rollers, the plurality of second sliders 393 are respectively arranged at two sides of the plurality of connecting rods, the plurality of second tracks 394 are arranged on the fixing plate, and the first elastic member 395 is used for connecting the second sliders and the second tracks; the roller can rotate relative to the connecting rod, and the second sliding block can move relative to the second track; the first elastic piece is a spring.

The cutting device 5 comprises a third track 51, a fourth track 52, a third slide block 53, a second telescopic rod 54 and a rotary cutter head 55; the fourth track 52 is arranged on the third track, the third slide block 53 is arranged on the fourth track, the second telescopic rod 54 is arranged on the third slide block, and the rotary cutter head 55 is arranged on the second telescopic rod; the fourth track can move relative to the third track, the third sliding block can move relative to the fourth track, and the rotating tool bit can rotate relative to the second telescopic rod; the third track and the fourth track are both electric tracks, the second telescopic link is an air rod controlled by an air pump, a motor is arranged in the second telescopic link, the rotating tool bit rotates through the motor, and the rotating tool bit is a glass cutter.

The supporting device 6 comprises a supporting platform 61, a first moving component arranged on one side of the supporting platform and a second moving component arranged on the other side of the supporting platform; the first moving part comprises a baffle plate 62, a plurality of first moving blocks 63, a plurality of third telescopic rods 64, a plurality of limiting holes 65, a plurality of third air holes 66, two second driving parts 621, two fourth telescopic rods 622, two rotating plates 623, a plurality of limiting plates 624, a connecting plate 625, a connecting groove 626, four circular grooves 69, four second elastic parts 691 and four third fixing parts 692; the baffle plate 62 is arranged on the support table, the first moving blocks 63 are arranged on one side of the baffle plate, the third telescopic rods 64 are respectively arranged on one sides of the first moving blocks, the limiting holes 65 are respectively arranged on one sides of the first moving blocks, and the third air holes 66 are arranged on the first moving blocks; the first moving block can move relative to the supporting table, the plurality of third telescopic rods and the plurality of limiting holes are correspondingly arranged, one end of each third air hole is formed in each third telescopic rod, and the first moving part and the second moving part are identical in structure and are symmetrically arranged; the first moving block in the first moving part and the first moving block in the second moving part are connected through a moving rod 67, and a plurality of second moving blocks 68 are arranged on the moving rod; the second moving blocks can move relative to the moving rod, and the plurality of second moving blocks are arranged in a rectangular shape; the third telescopic rod is an air rod controlled by an air pump; the two second driving parts 621 are arranged on two sides of the baffle plate 62, the two fourth telescopic rods 622 are respectively arranged on the two second driving parts, the two rotating plates 623 are respectively arranged on the two fourth telescopic rods, the plurality of limiting plates 624 are respectively arranged on the plurality of second moving blocks on the outer edge side, the connecting plate 625 is arranged between every two adjacent second moving blocks in the horizontal direction, and the connecting groove 626 is arranged in a matching manner with the connecting plate; the rotating plate can rotate relative to the fourth telescopic rod, the rotating plate and the limiting plate are arranged in a matched mode, the connecting plate can move relative to the connecting groove, and a round angle is formed in the rotating plate; the second driving piece is an air cylinder, the fourth telescopic rod is an air rod controlled by the air cylinder, a motor is arranged in the fourth telescopic rod, and the rotating plate rotates through the motor; the four second elastic members 691 are respectively disposed on the four circular grooves, and the four third fixing members 692 are respectively disposed on the four second elastic members; the four circular grooves are formed in four second moving blocks on four end corners of the rectangle, and the third fixing piece is a sucker; the second elastic piece is a spring.

The supporting platform 61 is provided with a plurality of second through holes 611.

The specific working principle is as follows: when glass needs to be cut, after the first driving piece 34 is started, the first telescopic rod 35 is driven to move downwards, the first fixing piece 32 is further driven to extrude the glass to be processed, the glass is fixed on the first fixing piece 32, then the first telescopic rod 35 is contracted, the glass is driven to move upwards, the glass is conveyed away from the placing table 4, and after the first fixing piece 32 fixes the glass and lifts the glass, the rotating shaft 371 starts to rotate, so that the fixing plates 33 on the two sides are driven to move inwards to close the glass, and the glass is further fixed; when the fixing plate 33 moves to the inner side, the first gear teeth 381 and the second gear teeth 384 are engaged with each other, so that the second gear teeth 384 drive the stabilizing rod 383 to rotate, the stabilizing rod 383 moves downwards in cooperation with the threaded connection between the stabilizing rod 383 and the fixing sleeve 382, the second fixing piece 385 is extruded on the upper surface of the glass, the two sides of the glass are fixed again in cooperation with the L-shaped structure of the fixing plate 33, and when the fixing plate 33 moves to the inner side, the glass firstly contacts the roller 391 and then moves to one side of the fixing plate 33 through the roller 391; after the transportation device 3 finishes fixing the glass, the first sliding block 2 drives the transportation device 3 to move to the supporting device 6, the first telescopic rod 35 is extended to put down the glass, and then the first air hole 36 and the second air hole 386 are opened, so that the first fixing part 32 and the second fixing part 385 release the glass and fix the glass on the third fixing part 692; before the glass is fixed on the supporting device 6, the transverse longitudinal cutting position to be cut needs to be selected, the third air holes 66 on the first moving block 63 at the two sides of the cutting position are ventilated, further drives the third telescopic rod 64 on the first moving block 63 to extend, and pushes all the first moving blocks 63 in front of the first moving block 63 to move forwards until the stop plates 62 abut against, so that a gap at a transverse cutting position is left between the first moving blocks 63 at a specified cutting position, after the position of the transverse cutting position is moved, the fourth telescopic rod 622 drives the rotating plate 623 to move to two sides of the glass longitudinal cutting position, the rotating plate 623 rotates and is buckled into the middle of the limiting plate 624, then the second moving block 68 is driven by the fourth telescopic rod 622 to move to two sides of the longitudinal cutting position, and tightly pressing on the first moving blocks 63 at two sides, and then leaving a gap at the longitudinal cutting position of the glass; after the cutting position is confirmed, the glass is fixed, the fourth rail 52 is driven to move through the third rail 51, and meanwhile, the third slide block 53 moves in the fourth rail 52, so that the rotating cutter head 55 can start to cut the glass from a plurality of positions; finally, after the cutting is completed, the second moving block 68 moves to discharge the chips from the second through hole 611.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all 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.

Claims (4)

1. The processing equipment for producing the solar traffic light comprises a first track (1), a first sliding block (2) arranged on the first track, a conveying device (3) arranged on the first sliding block, a placing table (4) arranged at the lower part of the conveying device, a cutting device (5) arranged at the lower side of the first track, and a supporting device (6) arranged at one side of the cutting device; the method is characterized in that: the conveying device (3) comprises a fixed block (31) arranged on the first sliding block (2), a first fixing piece (32) arranged on the fixed block, and a plurality of fixed plates (33) arranged on two sides of the fixed block; the longitudinal section of the fixing plate is of an L-shaped structure, and a gap is formed between the bottom surface of the first fixing piece and the bottom surface of the fixing plate; the conveying device (3) further comprises a first driving piece (34) arranged on the fixing block (31), a first telescopic rod (35) arranged on the first driving piece and used for connecting the first driving piece and the first fixing piece, a first air hole (36) arranged on the first telescopic rod, a plurality of guide parts (37) arranged on two sides of the fixing block, a plurality of stabilizing parts (38) respectively arranged on the fixing plates, and a plurality of guide parts (39) arranged on the fixing plates; one end of the first air hole is formed in a first fixing piece, the first fixing piece is a sucker, an electromagnetic valve is arranged on the first air hole, and the guide part (37) and the fixing plate (33) are correspondingly arranged; the guide component (37) comprises a rotating shaft (371) arranged on the fixed block (31), a first guide rod (372) arranged on the fixed block, a second guide rod (373) arranged on the fixed block, a first through hole (374) arranged on the fixed plate, a first guide groove (375) arranged on the fixed plate, a second guide groove (376) arranged on the fixed plate, a plurality of third guide grooves (377) arranged on the first guide rod, a plurality of first balls (378) arranged on the first guide groove, a plurality of fourth guide grooves (379) arranged on the first guide rod and a plurality of second balls (370) arranged on the second guide groove; the rotating shaft is connected with the first through hole through threads, the first guide rod is arranged corresponding to the first guide groove, the second guide rod is arranged corresponding to the second guide groove, the third guide grooves are matched with the first balls, the first balls can rotate relative to the first guide groove, the fourth guide grooves are matched with the second balls, and the second balls can rotate relative to the second guide groove; the stabilizing component (38) comprises two first gear teeth (381) arranged on two sides of the second guide rod (373), two fixing sleeves (382) arranged on the fixing plate, two stabilizing rods (383) respectively arranged on the two fixing sleeves, two second gear teeth (384) respectively arranged at one ends of the two stabilizing rods, two second fixing pieces (385) respectively arranged at the tail ends of the two stabilizing rods, and two second air holes (386) respectively arranged on the two stabilizing rods; the two first gear teeth are respectively matched with the two second gear teeth, the fixed sleeve is connected with the stabilizer bar through threads, the second fixing piece is a sucker, one end of the second air hole is formed in the second fixing piece, an electromagnetic valve is arranged on the second air hole, and the second fixing piece can rotate relative to the stabilizer bar; the guide part (39) comprises a plurality of rollers (391) arranged on the fixing plate (33), a plurality of connecting rods (392) respectively arranged on the rollers, a plurality of second sliders (393) respectively arranged at two sides of the connecting rods, a plurality of second tracks (394) arranged on the fixing plate, and a first elastic part (395) used for connecting the second sliders and the second tracks; the roller can rotate relative to the connecting rod, and the second sliding block can move relative to the second track; the cutting device (5) comprises a third track (51), a fourth track (52) arranged on the third track, a third sliding block (53) arranged on the fourth track, a second telescopic rod (54) arranged on the third sliding block and a rotating cutter head (55) arranged on the second telescopic rod; the fourth track can move relative to the third track, the third sliding block can move relative to the fourth track, and the rotating tool bit can rotate relative to the second telescopic rod; the supporting device (6) comprises a supporting platform (61), a first moving component arranged on one side of the supporting platform and a second moving component arranged on the other side of the supporting platform; the first moving part comprises a baffle (62) arranged on the support table, a plurality of first moving blocks (63) arranged on one side of the baffle, a plurality of third telescopic rods (64) respectively arranged on one side of the plurality of first moving blocks, a plurality of limiting holes (65) respectively arranged on one side of the plurality of first moving blocks, and a plurality of third air holes (66) arranged on the plurality of first moving blocks; the first moving block can move relative to the supporting table, the plurality of third telescopic rods and the plurality of limiting holes are correspondingly arranged, one end of each third air hole is formed in each third telescopic rod, and the first moving part and the second moving part are identical in structure and are symmetrically arranged; the first moving block in the first moving part and the first moving block in the second moving part are connected through a moving rod (67), and a plurality of second moving blocks (68) are arranged on the moving rod; the second moving blocks can move relative to the moving rod, and the plurality of second moving blocks are arranged in a rectangular shape.

2. The processing plant for solar traffic light production according to claim 1, characterized in that: the supporting device (6) further comprises two second driving parts (621) arranged on two sides of the baffle (62), two fourth telescopic rods (622) respectively arranged on the two second driving parts, two rotating plates (623) respectively arranged on the two fourth telescopic rods, a plurality of limiting plates (624) respectively arranged on the plurality of second moving blocks on the outer edge side, a connecting plate (625) arranged between two adjacent second moving blocks in the horizontal direction, and a connecting groove (626) matched with the connecting plate; the rotating plate can rotate relative to the fourth telescopic rod, the rotating plate and the limiting plate are arranged in a matched mode, the connecting plate can move relative to the connecting groove, and a round angle is formed in the rotating plate.

3. The processing plant for solar traffic light production according to claim 1, characterized in that: the supporting device (6) further comprises four circular grooves (69), four second elastic pieces (691) respectively arranged on the four circular grooves, and four third fixing pieces (692) respectively arranged on the four second elastic pieces; the four circular grooves are formed in four second moving blocks on four end corners of the rectangle, and the third fixing piece is a sucker.

4. The processing plant for solar traffic light production according to claim 1, characterized in that: the supporting platform (61) is provided with a plurality of second through holes (611).

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