CN115235722A

CN115235722A - Intelligent manufacturing and detecting equipment for glass production

Info

Publication number: CN115235722A
Application number: CN202210902272.5A
Authority: CN
Inventors: 肖杏慈
Original assignee: Shijiazhuang Anshui Electronic Technology Co ltd
Current assignee: Shijiazhuang Anshui Electronic Technology Co ltd
Priority date: 2022-07-29
Filing date: 2022-07-29
Publication date: 2022-10-25

Abstract

The invention discloses intelligent manufacturing and detecting equipment for glass production, which comprises an underframe, wherein the left side and the right side of the upper part of the underframe are both provided with a jacking mechanism, and the left part of the bottom end of the inner side of the underframe is provided with a jacking motor. Through set up the pinch roller contact on extrusion dish and the gear wheel on the pinion, and can make the extrusion dish promoted, make pinion and gear wheel separation, because can pull the interval or draw the interval together through the rack and pinion subassembly between the slide, make two pinions separate with the gear wheel simultaneously like this, the gear wheel can't be transmitted this moment, just lead to the push pedal to stop, until the pinion again with gear wheel meshing back, the push pedal begins to promote the glass of conveyer belt upper end and drops, stop through making the gear wheel intermittent type like this, make the push pedal intermittent type formula stop, the carriage goes up and down repeatedly at the high level of difference on the cooperation, when the different high-order glass of simulation that can be better falls down, still can promote glass again after stopping through the push pedal intermittent type formula, the randomness has been improved, no longer be equidistance selective examination to glass.

Description

Intelligent manufacturing and detecting equipment for glass production

Technical Field

The invention relates to the field of intelligent manufacturing, in particular to intelligent manufacturing detection equipment for glass production.

Background

The intelligent manufacturing technology is an advanced manufacturing technology which is produced by computer simulation and analysis and intelligent information collection, storage, perfection, sharing, inheritance and development of the manufacturing industry, some intelligent manufacturing technologies are adopted when glass is manufactured, and after the glass is manufactured, the glass needs to be subjected to drop-resistant detection. At present when carrying out resistant falling detection to glass, generally drop at fixed height, because glass when normal use, can not be at same height, so to carry out resistant falling detection simulation nature relatively poor to glass like this, generally be equidistance glass selective examination moreover, have the relatively poor problem of randomness like this.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide intelligent manufacturing detection equipment for glass production so as to solve the problems in the background art.

The intelligent manufacturing and detecting equipment for glass production comprises an underframe, wherein jacking mechanisms are arranged on the left side and the right side of the upper part of the underframe, a jacking motor is arranged on the left part of the bottom end of the inner side of the underframe, the output end of the jacking motor is connected with the jacking mechanism on the left side, a double-sided tooth synchronous belt is connected between the lower parts of the jacking mechanisms, a conveying frame is arranged between the upper parts of the jacking mechanisms, driving rollers are rotatably connected to the front side and the rear side of the left end and the right end of the inner side of the conveying frame, a conveying belt is connected between the driving rollers on the same horizontal line on the left side and the right side, a transmission motor is arranged on the left side of the front end of the conveying frame, and the output end of the transmission motor is connected with the driving roller on the left side;

a transmission box is fixed at the rear end of the conveying frame, a push plate positioned above the conveying belt is arranged at the front end of the transmission box, vertical racks penetrate through the left side and the right side of the lower end of the transmission box in a movable mode, the lower end of each vertical rack is fixed with the underframe, a pair of one-way transmission mechanisms connected with the vertical racks are symmetrically arranged on the left side and the right side of the lower portion inside the transmission box, a vertical shaft is rotatably connected to the bottom inside the transmission box and positioned between the one-way transmission mechanisms, a driven bevel gear connected with the one-way transmission mechanisms is fixed on the lower side outside the vertical shaft, a lower partition plate is fixed inside the transmission box and positioned above the vertical shaft, the upper end of the vertical shaft is connected with a lower partition plate bearing, a planetary gear mechanism connected with the vertical shaft is arranged at the lower end of the lower partition plate, and double-head universal joint assemblies connected with the planetary gear mechanism are arranged on the left side and the right side of the upper end of the lower partition plate;

the inside baffle that just is located double-end universal joint subassembly top of transmission case is fixed with, it has all opened the slide to go up baffle upper end left and right sides, the inside sliding connection of slide has the slide, be equipped with the inner chamber between the slide, inner chamber internally mounted has the rack and pinion subassembly of being connected with the slide, the inside rotation of slide is connected with pivot two, double-end universal joint subassembly upper portion is connected with two lower extremes of pivot, two upper ends of pivot are fixed with the pinion, the pinion upper end is fixed with the stripper plate, it is connected with the gear wheel with little gear engagement to go up baffle upper end intermediate rotation, gear wheel upper end one side is fixed with pivot three, three outside rotations in pivot are connected with the pressurized wheel with the stripper plate contact, three upper ends in pivot rotate and are connected with the connecting rod, the connecting rod end extends the transmission case and articulates with the push pedal rear, push pedal rear end both sides all are fixed with the gag lever that runs through with the transmission case activity.

Preferably, the jacking mechanism comprises a spiral column, a connecting shaft, a synchronizing wheel, a guide pillar, a vertical frame and a roller, the spiral column is rotatably connected with the bottom frame, the connecting shaft is fixed at the lower end of the spiral column, the lower end of the connecting shaft penetrates through the bottom frame, the synchronizing wheel is fixed at the lower end of the connecting shaft, the jacking motor is connected with the lower end of the connecting shaft on the left side, the double-sided tooth synchronous belts are connected between the synchronizing wheels in a cross-meshing manner, and the left and the right spiral columns are symmetrically arranged.

Preferably, the vertical frame is fixedly connected to the lower end of the conveying frame and located between the conveying belts, the guide pillar is fixedly connected to the lower end of the vertical frame, the roller is rotatably connected to one side, close to the spiral column, of the tail end of the vertical frame, and the roller is in rolling connection with a spiral channel on the surface of the spiral column.

Preferably, the left side the first end both ends of helical coiled passage on spiral post surface all are fixed with the fixed plate, install pressure sensor on the fixed plate, the external controller of pressure sensor, pressure sensor passes through the controller and is connected with jacking motor.

Preferably, the one-way transmission mechanism comprises a transverse shaft, a first transmission gear, a circular cover, a pawl, a ratchet wheel, a shaft rod, a bearing seat and a driving bevel gear, the transverse shaft is connected with a bearing on the inner wall of the transmission box, the first transmission gear is fixed outside the transverse shaft, the first transmission gear is positioned in front of the vertical rack and is meshed with the vertical rack, and the circular cover is fixed at the tail end of the transverse shaft.

Preferably, the bearing seat is located on one side of the circular cover and fixed at the bottom in the transmission box, the shaft lever is rotatably connected to the middle of the bearing seat, the ratchet wheel is fixedly connected to the head end of the shaft lever and located on the inner side of the circular cover, the pawl is located above the ratchet wheel and rotatably connected with the inner wall of the circular cover, the pawl is connected with the ratchet wheel, the driving bevel gear is fixed at the tail end of the shaft lever, and the driving bevel gear is in meshed connection with the driven bevel gear.

Preferably, planetary gear mechanism includes sun gear, movable ring gear, planetary gear and pivot one, sun gear fixes at the outside upside of vertical axis, pivot one has a pair ofly and rotates respectively and connect baffle lower extreme both sides under, planetary gear has a pair ofly and the one-to-one to fix at a pivot lower extreme, planetary gear is located the sun gear both sides and is connected with the sun gear meshing, baffle under the pivot upper end runs through, the baffle lower extreme just is located the vertical axis outside down is fixed with the outer lane, the inboard rotation of outer lane is connected with the inner circle, it has many steel balls to be the even roll connection of annular between outer lane and the inner circle, movable ring gear fixes at the inner circle lower extreme, movable ring gear is located the planetary gear outside and is connected with planetary gear meshing.

Preferably, double-end universal joint subassembly includes universal joint and telescopic link, the telescopic link includes slide bar and sleeve pipe, slide bar sliding connection is at intraductal portion of cover, the slide bar surface is equipped with the sand grip, the intraductal wall of cover is equipped with the recess, sand grip and recess sliding connection, the universal joint has a pair ofly and fixes respectively in slide bar lower extreme and sleeve pipe upper end, the lower extreme the universal joint is fixed with a pivot upper end, the upper end the universal joint is fixed with two lower extremes in pivot.

Preferably, slide front end both ends all are equipped with the gib block, the guide way has all been opened at both ends around the slide inner wall, gib block and guide way sliding connection, be connected with the spring between slide outer end and the slide inner wall.

Preferably, the gear rack assembly comprises a second transmission gear and a cross rack, the second transmission gear is rotatably connected to the middle inside the inner cavity, the cross rack is in a pair and symmetrically meshed with the upper side and the lower side of the second transmission gear, and the tail end of the cross rack is fixed to the inner end of the sliding seat on the same side.

Has the advantages that: the jacking motor drives one of the spiral columns to rotate positively, the synchronous wheel is matched with the double-sided toothed synchronous belt to drive the two spiral columns to rotate reversely and synchronously, the roller rolls along the spiral channel on the surface of the spiral column in the process to lift the vertical frame, so that the conveying frame can be driven to move upwards, then the jacking motor automatically rotates reversely to enable the conveying frame to move downwards automatically, then the jacking motor automatically rotates positively again, so that the conveying frame can move up and down repeatedly, the transmission box also synchronously lifts in the process, the vertical rack slides into or slides out of the transmission box, the vertical rack is transmitted with the one-way transmission mechanism to enable the one-way transmission mechanism to drive the driven bevel gear to rotate, the one-way transmission mechanism is arranged to enable the driven bevel gear to move towards one direction only, and the phenomenon that the driven bevel gear rotates repeatedly because the vertical rack slides into or slides out of the transmission box is avoided, the driven bevel gear only moves towards one direction, the vertical shaft also only moves towards one direction, so that two double-head universal joint components synchronously rotate through the matching of the vertical shaft and the planetary gear mechanism, two small gears are driven to synchronously rotate, the small gears are arranged for driving large gears to rotate, the small gears are arranged on the small gears and are in contact with the pressure wheel on the large gear, so that the extrusion disc can be pushed, the small gears and the large gears are separated, the space can be synchronously opened or closed through the rack-and-pinion components between the sliding seats, the double-head universal joint components can play an important transmission role at the moment so as to be suitable for driving the small gears to rotate after the sliding seats move left and right, so that the two small gears are simultaneously separated from the large gears, the large gears cannot be transmitted at the moment, the push plate stops until the small gears are meshed with the large gears, the push pedal begins to promote the glass of conveyer belt upper end and drops, stops through making gear wheel intermittent type formula like this, makes the push pedal intermittent type formula stop, and the carriage goes up and down repeatedly in the high level of difference in the cooperation, when different high-order glass of simulation that can be better falls, still can promote glass again after stopping through push pedal intermittent type formula, has improved the randomness, no longer is the equidistance selective examination to glass to whole equipment only adopts two motors, and the cost is reduced, and the practicality is better.

Drawings

FIG. 1 is a general schematic of the present invention;

FIG. 2 is a schematic cross-sectional view of a carriage according to the present invention;

FIG. 3 is a schematic front cross-sectional view of the transmission case of the present invention;

FIG. 4 is a schematic cross-sectional view of a lower baffle plate according to the present invention;

FIG. 5 is a schematic cross-sectional view of an upper baffle plate according to the present invention;

FIG. 6 is a schematic top cross-sectional view of the transmission housing of the present invention.

In the figure: 1-underframe, 2-jacking motor, 3-spiral column, 4-connecting shaft, 5-synchronizing wheel, 6-double-sided tooth synchronous belt, 7-fixing plate, 8-pressure sensor, 9-guide column, 10-vertical frame, 11-roller, 12-conveying frame, 13-driving motor, 14-conveying belt, 15-transmission box, 16-push plate, 17-vertical rack, 18-transmission roller, 19-horizontal shaft, 20-transmission gear I, 21-circular cover, 22-pawl, 23-ratchet wheel, 24-shaft lever, 25-bearing seat, 26-driving bevel gear, 27-vertical shaft, 28-driven bevel gear, 29-lower partition plate, 30-sun gear, 31-movable gear ring, 32-planetary gear, 33-rotating shaft I, 34-universal joint, 35-telescopic rod, 36-upper partition plate, 37-sliding seat, 38-rotating shaft II, 39-pinion, 40-extrusion disc, 41-slideway, 42-spring, 43-large gear, 44-rotating shaft III, 45-driven gear, 46-connecting rod, 47-inner cavity, 48-two-inner cavity, 48-transverse rack, and 50-limiting rod.

Detailed Description

Referring to fig. 1-6, an intelligent manufacturing and detecting device for glass production includes an underframe 1, a jacking mechanism is installed on both left and right sides of the upper portion of the underframe 1, a jacking motor 2 is installed on the left portion of the bottom end inside the underframe 1, the output end of the jacking motor 2 is connected with the jacking mechanism on the left side, a double-sided toothed synchronous belt 6 is connected between the lower portions of the jacking mechanisms, a conveying frame 12 is installed between the upper portions of the jacking mechanisms, each jacking mechanism includes a spiral column 3, a connecting shaft 4, a synchronous wheel 5, a guide column 9, a vertical frame 10 and a roller 11, the spiral column 3 is rotatably connected with the underframe 1, the connecting shaft 4 is fixed at the lower end of the spiral column 3, the lower end of the connecting shaft 4 penetrates through the underframe 1, the synchronous wheel 5 is fixed at the lower end of the connecting shaft 4, the jacking motor 2 is connected with the lower end of the connecting shaft 4 on the left side, the synchronous wheel 6 is crosswise engaged with the synchronous wheel 5, the jacking motor 2 is externally connected with a power supply, the left spiral column 3 can be driven to rotate forward by the jacking motor 2, the left side 4 can drive the left side spiral column 3 to rotate forward, and the left side of the synchronous wheel 5 rotates forward, because the connecting shaft 5 is connected with the synchronous wheel 5, the synchronous wheel 5, the synchronous wheel on the right side, the synchronous wheel can be driven by the synchronous wheel, and the synchronous wheel, the synchronous wheel 5, the synchronous wheel on the right side;

the vertical frame 10 is fixedly connected to the lower end of a conveying frame 12 and located between conveying belts 14, the guide column 9 is fixedly connected to the lower end of the vertical frame 10, the roller 11 is rotatably connected to one side, close to the spiral column 3, of the tail end of the vertical frame 10, the roller 11 is in rolling connection with the spiral channel on the surface of the spiral column 3, a fixing plate 7 is fixed to each of the head end and the tail end of the spiral channel on the surface of the spiral column 3 on the left side, a pressure sensor 8 is mounted on the fixing plate 7, the pressure sensor 8 is externally connected with a controller, the pressure sensor 8 is connected with the jacking motor 2 through the controller, the roller 11 rolls along the spiral channel and moves upwards due to the symmetrical arrangement of the left and right spiral columns 3, the roller 11 drives the vertical frame 10 to move upwards, the vertical frame 10 is driven by the roller 11 to drive the conveying frame 12 to move upwards, the guide column 9 moves upwards at the same time, the lower portion of the guide column 9 movably penetrates through the bottom frame 1 to play a guiding and limiting role of the vertical frame 10, when the roller 11 rolls along the spiral channel to be in contact with the pressure sensor 8 in the tail end fixing plate 7, the pressure sensor 8 sends a signal to the controller, the controller controls the lifting motor 2 to move downwards, and then the lifting sensor 7 to control the lifting sensor 7 repeatedly send the lifting sensor to control the lifting sensor 7 when the lifting sensor 7 and the lifting sensor 7 to control the lifting motor 7 to control the lifting sensor to control the lifting motor 7;

the front side and the rear side of the left end and the rear side of the inner side of the conveying frame 12 are both rotatably connected with a transmission roller 18, a conveying belt 14 is connected between the transmission rollers 18 on the left horizontal line and the right horizontal line, a transmission motor 13 is installed on the left side of the front end of the conveying frame 12, the output end of the transmission motor 13 is connected with the transmission roller 18 on the left side, the transmission motor 13 drives the transmission roller 18 to rotate while the conveying frame 12 is repeatedly lifted, the transmission roller 18 drives the conveying belt 14, and glass is conveyed on the conveying belt 14;

a transmission box 15 is fixed at the rear end of the conveying frame 12, a push plate 16 positioned above the conveying belt 14 is arranged at the front end of the transmission box 15, vertical racks 17 are movably penetrated through the left side and the right side of the lower end of the transmission box 15, the lower end of each vertical rack 17 is fixed with the bottom frame 1, a pair of one-way transmission mechanisms connected with the vertical racks 17 are symmetrically arranged on the left side and the right side below the inner part of the transmission box 15, a vertical shaft 27 is rotatably connected at the inner bottom of the transmission box 15 and positioned between the one-way transmission mechanisms, driven bevel gears 28 connected with the one-way transmission mechanisms are fixed on the lower side of the outer part of the vertical shaft 27, each one-way transmission mechanism comprises a transverse shaft 19, a first transmission gear 20, a circular cover 21, a pawl 22, a ratchet wheel 23, a shaft lever 24, a bearing seat 25 and a driving bevel gear 26, the transverse shaft 19 is connected with a bearing on the inner wall of the transmission box 15, and the first transmission gear 20 is fixed on the outer part of the transverse shaft 19, the transmission gear I20 is positioned in front of the vertical rack 17 and is meshed with the vertical rack 17, the circular cover 21 is fixed at the tail end of the transverse shaft 19, the bearing seat 25 is positioned at one side of the circular cover 21 and is fixed at the inner bottom of the transmission case 15, the shaft rod 24 is rotationally connected with the middle part of the bearing seat 25, the ratchet wheel 23 is fixedly connected with the head end of the shaft rod 24 and is positioned at the inner side of the circular cover 21, the pawl 22 is positioned above the ratchet wheel 23 and is rotationally connected with the inner wall of the circular cover 21, the pawl 22 is connected with the ratchet wheel 23, the driving bevel gear 26 is fixed at the tail end of the shaft rod 24, the driving bevel gear 26 is meshed with the driven bevel gear 28, the transmission frame 12 drives the transmission case 15 to synchronously move downwards while repeatedly lifting, when the transmission case 15 moves downwards, the vertical rack 17 slides towards the inside of the transmission case 15 and is meshed with the transmission gear I20 through the vertical rack 17, so that the transmission gear I20 drives the transverse shaft 19 to rotate backwards and forwards, the transverse shaft 19 drives the circular cover 21 to rotate, at the moment, the circular cover 21 drives the pawl 22 to move circularly, the left pawl 22 is used for preventing the left ratchet wheel 23 from rotating from front to back, the right pawl 22 is used for preventing the right ratchet wheel 23 from rotating from back to front, at the moment, the left circular cover 21 can drive the ratchet wheel 23 to rotate from back to front, the right circular cover 21 cannot drive the right ratchet wheel 23 to rotate, the left driving bevel gear 26 drives the driven bevel gear 28 to rotate anticlockwise, the right driving bevel gear 26 does not serve as a driving part, when the vertical rack 17 slides out of the transmission box 15, the right driving bevel gear 26 drives the driven bevel gear 28 to rotate anticlockwise, the left driving bevel gear 26 does not serve as a driving part, and therefore, when the vertical rack 17 slides out or slides into the transmission box 15, the driven bevel gear 28 can be rotated anticlockwise, the effect of unidirectional movement of the driven bevel gear 28 is achieved, and the driven bevel gear 28 is prevented from repeatedly rotating;

a lower partition plate 29 is fixed inside the transmission case 15 and above the vertical shaft 27, the upper end of the vertical shaft 27 is in bearing connection with the lower partition plate 29, a planetary gear mechanism connected with the vertical shaft 27 is installed at the lower end of the lower partition plate 29, the planetary gear mechanism comprises a sun gear 30, a movable gear ring 31, a planetary gear 32 and a first rotating shaft 33, the sun gear 30 is fixed at the upper side outside the vertical shaft 27, the first rotating shaft 33 is provided with a pair of gears and is respectively and rotatably connected with two sides of the lower end of the lower partition plate 29, the planetary gear 32 is provided with a pair of gears and is fixed at the lower end of the first rotating shaft 33 in a one-to-one correspondence manner, the planetary gear 32 is positioned at two sides of the sun gear 30 and is in meshed connection with the sun gear 30, the upper end of the first rotating shaft 33 penetrates through the lower partition plate 29, an outer ring is fixed at the lower end of the lower partition plate 29 and positioned outside the vertical shaft 27, the inner side of the outer ring is rotatably connected with an inner ring, a plurality of steel balls are uniformly connected between the outer ring and the inner ring in an annular rolling manner, the movable gear ring 31 is fixed at the lower end of the inner ring, the movable gear ring 31 is positioned outside the planetary gear 32 and is meshed with the planetary gear 32, when the driven bevel gear 28 rotates anticlockwise, the vertical shaft 27 is driven to rotate anticlockwise, the vertical shaft 27 drives the sun gear 30 to rotate anticlockwise, the planetary gear 32 is driven by the sun gear 30, the planetary gear 32 drives the movable gear ring 31 to rotate, the movable gear ring 31 rotates, and the planetary gear 32 rotates automatically, so that the planetary gear 32 drives the two first rotating shafts 33 to rotate synchronously;

the left side and the right side of the upper end of the lower partition plate 29 are both provided with a double-ended universal joint component connected with a planetary gear mechanism, an upper partition plate 36 is fixed inside the transmission case 15 and positioned above the double-ended universal joint component, the left side and the right side of the upper end of the upper partition plate 36 are both provided with slide rails 41, slide seats 37 are connected inside the slide rails 41 in a sliding manner, an inner cavity 47 is arranged between the slide rails 41, a rack and pinion component connected with the slide seats 37 is installed inside the inner cavity 47, the slide seats 37 are connected with a second rotating shaft 38 in a rotating manner, the upper parts of the double-ended universal joint components are connected with the lower ends of the second rotating shafts 38, each double-ended universal joint component comprises a universal joint 34 and a telescopic rod 35, each telescopic rod 35 comprises a slide rod and a sleeve, the slide rods are connected inside the sleeve in a sliding manner, the surfaces of the slide rods are provided with raised strips, the inner walls of the sleeve are provided with grooves, the raised strips are connected with the grooves in a sliding manner, the universal joints 34 are provided with a pair and respectively fixed at the lower ends of the slide rods and the upper ends of the sleeve, the universal joints 34 are fixed at the upper ends of the first rotating shafts 33, the universal joints 34 at the lower ends of the rotating shafts 38, the sliding assemblies can rotate, the rotating shafts 37 can drive the sliding of the sliding joints 37, when the rotating shafts 35 can be extended along the rotating shafts 38, the rotating shafts 38, the rotating shafts 35, the rotating shafts can be changed, and the rotating shafts 38, so that the rotating shafts can be changed, the rotating shafts 38, the rotating shafts 35 can be changed along the rotating shafts 38, and the rotating shafts 35 can be changed;

the two ends of the front end of the sliding seat 37 are respectively provided with a guide strip, the front end and the rear end of the inner wall of the slide rail 41 are respectively provided with a guide groove, the guide strips are connected with the guide grooves in a sliding manner, a spring 42 is connected between the outer end of the sliding seat 37 and the inner wall of the slide rail 41, when the sliding seat 37 slides along the slide rail 41, the guide strips can be driven to follow the guide grooves, so that the guide and limiting effects of the sliding seat 37 can be achieved, and the arrangement of the spring 42 is favorable for the resetting of the sliding seat 37;

the gear rack assembly comprises a second transmission gear 48 and a transverse rack 49, the second transmission gear 48 is rotatably connected to the middle inside the inner cavity 47, the transverse rack 49 is connected to the upper side and the lower side of the second transmission gear 48 in a pair and symmetrical engagement mode, the tail end of the transverse rack 49 is fixed to the inner end of the sliding seat 37 on the same side, a small gear 39 is fixed to the upper end of the second rotating shaft 38, a squeezing disc 40 is fixed to the upper end of the small gear 39, a large gear 43 meshed with the small gear 39 is rotatably connected to the middle of the upper end of the upper partition plate 36, a third rotating shaft 44 is fixed to one side of the upper end of the large gear 43, a pressure wheel 45 in contact with the squeezing disc 40 is rotatably connected to the outer portion of the third rotating shaft 44, a connecting rod 46 is rotatably connected to the upper end of the third rotating shaft 44, the tail end of the connecting rod 46 extends out of the transmission case 15 and is hinged to the rear side of the push plate 16, and limiting rods 50 movably penetrating through the transmission case 15 are fixed to two sides of the rear end of the push plate 16, when the double-ended universal joint assembly drives the second rotating shaft 38 to rotate, the second rotating shaft 38 drives the small gear 39 to rotate, the small gear 39 is meshed with the large gear 43, and the two small gears 39 are meshed with the large gear 43 and are arranged opposite to one small gear 39, so that the large gear 43 can be driven in a clamping manner, because the sliding seat 37 is pushed by the spring 42 and is not in a fixed state, the stability of meshing between the two small gears 39 and the large gear 43 is good, so that the large gear 43 drives the third rotating shaft 44 to move circularly, so that the third rotating shaft 44 can push and pull the push plate 16 through the connecting rod 46, the push plate 16 pushes the glass on the conveying belt 14 to fall to the ground and then resets, so as to carry out drop-resistant detection on the glass, in the process, when the third rotating shaft 44 drives the pressing wheel 45 to push the pressing disc 40, the pressing disc 40 drives the large gears 43 and the sliding seat 37 to move together, the sliding seat 37 extrudes the spring 42, the sliding seat 37 can drive the transverse rack 49 to slide out of the inner cavity 47, so that the transverse rack 49 drives the transmission gear two 48 to rotate, the transmission gear two 48 drives the other transverse rack 49 to move in the opposite direction, the two sliding seats 37 are separated, the two pinions 39 are not meshed with the large gear 43, the large gear 43 pauses at the moment, the push plate 16 pauses, and then the spring 42 resets the pinions 39 to be meshed with the large gear 43 again when the pinch roller 45 is far away from the extrusion disc 40, but the conveying frame 12 does repeated lifting motion at the moment, so that when the push plate 16 pushes the next piece of glass, the height and the distance between the glass pushed by the push plate 16 are not fixed any more along with the increase of pause time, the dropping of the glass at different heights can be better simulated, the glass can be pushed again after the intermittent stopping of the push plate 16, the randomness is improved and is not checked any more, and the whole equipment only adopts two motors, the cost is reduced, and the practicability is better.

Claims

1. The utility model provides a glass production intelligent manufacturing check out test set, includes the chassis, its characterized in that:

the left side and the right side of the upper part of the bottom frame are both provided with jacking mechanisms, the left part of the bottom end of the inner side of the bottom frame is provided with a jacking motor, the output end of the jacking motor is connected with the left side of the jacking mechanism, a double-sided tooth synchronous belt is connected between the lower parts of the jacking mechanisms, a conveying frame is arranged between the upper parts of the jacking mechanisms, the front side and the rear side of the left side and the right side of the inner side of the conveying frame are both rotatably connected with driving rollers, a conveying belt is connected between the driving rollers on the same horizontal line on the left side and the right side, the left side of the front end of the conveying frame is provided with a transmission motor, and the output end of the transmission motor is connected with the driving roller on the left side;

the inside baffle that just is located double-end universal joint subassembly top of transmission case is fixed with, it has all opened the slide to go up baffle upper end left and right sides, the inside sliding connection of slide has the slide, be equipped with the inner chamber between the slide, inner chamber internally mounted has the rack and pinion subassembly of being connected with the slide, the inside rotation of slide is connected with pivot two, double-end universal joint subassembly upper portion is connected with two lower extremes of pivot, two upper ends of pivot are fixed with the pinion, the pinion upper end is fixed with the stripper plate, it is connected with the gear wheel with little gear engagement to go up to rotate in the middle of the baffle upper end, gear wheel upper end one side is fixed with pivot three, three outside rotations in pivot are connected with the pressurized wheel with the stripper plate contact, three upper ends of pivot rotate and are connected with the connecting rod, the connecting rod end extends the transmission case and articulates with the push pedal rear, push pedal rear end both sides all are fixed with the gag lever that runs through with the transmission case activity.

2. The intelligent manufacturing and detecting equipment for glass production according to claim 1, characterized in that: the jacking mechanism comprises a spiral column, a connecting shaft, a synchronizing wheel, a guide pillar, a vertical frame and a roller, the spiral column is rotatably connected with the bottom frame, the connecting shaft is fixed at the lower end of the spiral column, the lower end of the connecting shaft penetrates through the bottom frame, the synchronizing wheel is fixed at the lower end of the connecting shaft, the jacking motor is connected with the lower end of the connecting shaft on the left side, the double-sided tooth synchronizing belt is connected between the synchronizing wheel in a cross-meshing mode, and the spiral column is arranged symmetrically on the left side and the right side.

3. The intelligent manufacturing and detecting equipment for glass production according to claim 2, characterized in that: the vertical frame is fixedly connected to the lower end of the conveying frame and located between the conveying belts, the guide pillar is fixedly connected to the lower end of the vertical frame, the roller is rotatably connected to one side, close to the spiral column, of the tail end of the vertical frame, and the roller is in rolling connection with the spiral channel on the surface of the spiral column.

4. The intelligent manufacturing and detecting equipment for glass production according to claim 3, characterized in that: the left side the first end both ends of helical coiled passage on spiral post surface all are fixed with the fixed plate, install pressure sensor on the fixed plate, the external controller of pressure sensor, pressure sensor passes through the controller and is connected with jacking motor.

5. The intelligent manufacturing and detecting equipment for glass production according to claim 1, characterized in that: the one-way transmission mechanism comprises a cross shaft, a first transmission gear, a circular cover, a pawl, a ratchet wheel, a shaft rod, a bearing seat and a driving bevel gear, the cross shaft is connected with a bearing on the inner wall of the transmission box, the first transmission gear is fixed outside the cross shaft, the first transmission gear is positioned in front of the vertical rack and meshed with the vertical rack, and the circular cover is fixed at the tail end of the cross shaft.

6. The intelligent manufacturing and detecting equipment for glass production according to claim 5, wherein: the bearing seat is positioned on one side of the circular cover and fixed at the bottom in the transmission box, the shaft rod is rotatably connected to the middle of the bearing seat, the ratchet wheel is fixedly connected to the head end of the shaft rod and positioned on the inner side of the circular cover, the pawl is positioned above the ratchet wheel and rotatably connected with the inner wall of the circular cover, the pawl is connected with the ratchet wheel, the driving bevel gear is fixed at the tail end of the shaft rod, and the driving bevel gear is meshed with the driven bevel gear.

7. The intelligent manufacturing and detecting equipment for glass production according to claim 1, characterized in that: planetary gear mechanism includes sun gear, movable gear ring, planetary gear and pivot one, sun gear fixes at the outside upside of vertical axis, pivot one has a pair ofly and rotates respectively and connect baffle lower extreme both sides under, planetary gear has a pair ofly and the one-to-one to fix at a pivot lower extreme, planetary gear is located the sun gear both sides and is connected with the sun gear meshing, a pivot upper end runs through baffle down, the baffle lower extreme just is located the vertical axis outside and is fixed with the outer lane down, the inboard rotation in outer lane is connected with the inner circle, it has many steel balls to be the even roll connection of annular between outer lane and the inner circle, movable gear ring fixes at the inner circle lower extreme, movable gear ring is located the planetary gear outside and is connected with the planetary gear meshing.

8. The intelligent manufacturing and detecting equipment for glass production according to claim 7, characterized in that: the double-ended universal joint assembly comprises a universal joint and a telescopic rod, the telescopic rod comprises a slide bar and a sleeve, the slide bar is slidably connected inside the sleeve, a convex strip is arranged on the surface of the slide bar, a groove is formed in the inner wall of the sleeve, the convex strip is slidably connected with the groove, the universal joint is provided with a pair of parts and is fixed at the lower end of the slide bar and the upper end of the sleeve respectively, the universal joint at the lower end of the slide bar is fixed at the upper end of a rotating shaft, and the universal joint at the upper end is fixed at the lower end of a rotating shaft.

9. The intelligent manufacturing and detecting equipment for glass production according to claim 1, characterized in that: the slide is characterized in that guide strips are arranged at two ends of the front end of the slide, guide grooves are formed in the front end and the rear end of the inner wall of the slide respectively, the guide strips are connected with the guide grooves in a sliding mode, and springs are connected between the outer ends of the slide and the inner wall of the slide.

10. The intelligent manufacturing and detecting equipment for glass production according to claim 1, characterized in that: the gear rack assembly comprises a second transmission gear and a cross rack, the second transmission gear is rotatably connected to the middle inside the inner cavity, the cross rack is provided with a pair of gears and symmetrically meshed with the upper side and the lower side of the second transmission gear, and the tail end of the cross rack is fixed with the inner end of the sliding seat at the same side.