CN114322910A - Toughened glass surface flatness detection device - Google Patents

Abstract

The invention relates to the technical field of toughened glass detection, and discloses a toughened glass surface flatness detection device, which solves the problems that the existing toughened glass flatness detection device can only detect one side of toughened glass during detection, so that the detection efficiency is low and the detection speed is slow; this toughened glass surface roughness detection device can carry out synchronous detection to toughened glass two-sided simultaneously to stability and the fastness that can effectually keep toughened glass at the in-process that detects ensure the accuracy of detection data, thereby the effectual efficiency and the speed that has improved the toughened glass roughness and detect.

Description

Toughened glass surface flatness detection device

Technical Field

The invention belongs to the technical field of toughened glass detection, and particularly relates to a toughened glass surface flatness detection device.

Background

Tempered glass is a safety glass having strength improved by controlled heat treatment or chemical treatment of general glass; tempering causes the outer surface to be pressed and the inner surface to be pulled, and the stress can cause the broken glass to become small particle blocks instead of saw-toothed fragments like flat glass (also called annealed glass), and the possibility of damage caused by the fragments of the particle blocks can be reduced; because of its safety and strength, toughened glass is used in a variety of applications where high demands are made on material properties, including passenger car windows, shower doors, architectural glass doors and tables, refrigerator trays, mobile screen protectors, bullet-proof glass parts, diving masks, and various types of dishes and cookware.

The flatness detection needs to be carried out on the toughened glass in the production and processing process of the toughened glass, and the existing flatness detection device can only detect the single surface of the toughened glass in the detection process, so that the detection efficiency of the toughened glass is low, and the detection speed is slow; therefore, improvements are now needed in view of the current situation.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the toughened glass surface flatness detection device, which effectively solves the problems that the detection efficiency is low and the detection speed is slow because the existing toughened glass flatness detection device can only detect one side of toughened glass during detection.

In order to achieve the purpose, the invention provides the following technical scheme: a tempered glass surface flatness detection device comprises a device main body, wherein a transmission groove is formed in the middle of the device main body, rotating rollers are arranged on two sides of the middle of the transmission groove at equal distances, mounting grooves are formed in the middle of two sides of the transmission groove, supporting rotating mechanisms are arranged in the mounting grooves, clamping fixed ends are symmetrically arranged on two sides of the middle lower portion of the transmission groove, moving grooves are formed in the top and the bottom of the transmission groove, a first rotating shaft and a second rotating shaft are respectively arranged in the middle of the two moving grooves, moving ends are respectively arranged in the two moving grooves, flatness detectors are respectively arranged on opposite sides of the two moving ends, transmission cavities are respectively formed in the two sides of the device main body, transmission assemblies are respectively arranged in the two transmission cavities, one ends of the first rotating shaft and the second rotating shaft respectively extend into the two transmission cavities and are respectively connected with the two transmission assemblies, the upper parts of the two sides of the device main body are respectively provided with a motor, and the output ends of the two motors respectively extend into the two transmission cavities and are respectively connected with the two transmission components;

the two transmission assemblies respectively comprise a pair of first gears, a first chain, a first transmission gear, a second transmission gear, a first transmission mechanism and a second transmission mechanism, the pair of first gears are arranged on the upper portion and the lower portion of the transmission cavity, the first chain is arranged between the pair of first gears, the output end of the motor is connected with one of the first gears, one ends of the first rotating shaft and the second rotating shaft are connected with the other one of the first gears, the first transmission gear is arranged in the middle of the transmission cavity, the second transmission gear is arranged on one side of the first transmission gear and is connected with the first chain, and the first transmission mechanism and the second transmission mechanism are respectively arranged on two sides of the middle of the transmission cavity.

Preferably, the first transmission mechanism comprises a U-shaped groove, a first transmission rod, two first bevel gears, a second transmission rod, a second bevel gear and a third transmission gear, the U-shaped groove is formed in one side of the transmission cavity, the first transmission rod is installed on the upper portion of the U-shaped groove, the two first bevel gears are installed at two ends of the first transmission rod respectively, the second transmission rod is installed between the U-shaped groove and the transmission cavity, the second bevel gear and the third transmission gear are installed at two ends of the second transmission rod respectively, the second bevel gear is connected with one of the first bevel gears, and the third transmission gear is connected with the first chain.

Preferably, the two supporting rotating mechanisms include a pair of rotating pins, a pair of second gears, a second chain, a fixed rod and a supporting rotating wheel, the pair of rotating pins are installed at two ends inside the installation groove, the pair of second gears are installed in the middle of the pair of rotating pins, the second chain is installed between the pair of second gears, the fixed rod is installed on the surface of the second chain at equal intervals, and the supporting rotating wheel is installed at the end of the fixed rod.

Preferably, the top of one of the rotation pins extends to the inside of the U-shaped groove and is provided with a third bevel gear connected with the other first bevel gear.

Preferably, two the removal end all includes movable plate, two long recesses and two racks, and the movable plate is installed in the inside of two shifting chutes, and two long recesses are seted up in one side of movable plate, and two racks are installed in the inside of two long recesses, and two third gears are all installed on the surface of first axis of rotation and second axis of rotation, and two third gears are connected with two rack toothing, and the equipartition distance in both ends of movable plate installs the removal wheel, and two roughness detectors are installed in the relative one side of two movable plates.

Preferably, two second drive mechanism includes fourth drive gear, T shape connecting block, connect the boss, lug and the spacing shelves strip of arc, the inside at the transmission chamber is installed to fourth drive gear and the spacing shelves strip of arc, and fourth drive gear is connected with first drive gear, one side at fourth drive gear is installed to the T shape connecting block, connect the one end at the T shape connecting block of boss, the arc surface at connecting the boss is installed to the lug, and fourth drive gear, the T shape connecting block, it all is located the inside of the spacing shelves strip of arc to connect boss and lug, the one end of two tight stiff ends of clamp extends to the inside in two transmission chambers respectively and is connected with being connected the boss respectively, T shape connecting block with be connected and be equipped with the link mechanism between the boss.

Preferably, a direction changing gear is arranged between the fourth transmission gear and the first transmission gear in one of the transmission cavities, the direction changing gear is installed in one of the transmission cavities, and the direction changing gear and the fourth transmission gear are meshed with the first transmission gear.

Preferably, the mechanism of cutting off includes convex groove, toper jack, buffering hole, spring and bolt, and the convex groove is seted up in one side of connecting the circle piece, and the inside at the convex groove is seted up to toper jack annular equidistance, and the inside at the convex groove is connected to the one end of T shape connecting block, and the one end at the T shape connecting block is seted up to the buffering hole, and spring and bolt are all installed in the inside of buffering hole, and the one end of spring and the one end of bolt are connected, and the other end of bolt is pegged graft in the inside of toper jack.

Preferably, two press from both sides tight stiff end and all include dwang, two L shape poles and rubber sheath, and the dwang symmetry is installed in the both sides of lower part in the transmission trough, and the one end of two dwangs all extends to the inside in transmission chamber and is connected with the opposite side of two connection knobs respectively, and the surface at the dwang is installed to two L shape poles, and the tip at L shape pole is installed to rubber sheath.

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

(1) in the work, the toughened glass surface flatness detection device can synchronously detect the two sides of toughened glass simultaneously by arranging the device main body, the transmission groove, the rotating roller, the mounting groove, the supporting rotating mechanism, the clamping fixed end, the moving groove, the first rotating shaft, the second rotating shaft, the moving end, the flatness detector, the transmission cavity, the transmission assembly and the motor, and can effectively keep the stability and the firmness of the toughened glass in the detection process and ensure the accuracy of detection data, thereby effectively improving the efficiency and the speed of the toughened glass flatness detection and effectively improving the profit of enterprises, so the practicability and the service performance of the flatness detection device can meet the use requirements of the toughened glass surface detection;

(2) in the work, the glass supporting device is provided with a rotating pin, a second gear, a second chain, a supporting rotating wheel, a third bevel gear, a first chain, a first transmission gear, a second transmission gear, a U-shaped groove, a first transmission rod, a first bevel gear, a second transmission rod, a second bevel gear and a third transmission gear, so that the glass can be effectively supported and transmitted;

after a worker moves glass between the tops of the supporting rotating wheels through rolling of the rotating rollers, the two motors are started, the motors drive the first chains to rotate through the two first gears, the first chains can drive the third transmission gears to rotate, the second transmission rods of the third transmission gears can drive the second bevel gears to rotate through rotation of the third transmission gears, the third bevel gears can be driven to rotate through the first transmission rods and the two first bevel gears, the second chains can be driven to rotate through rotation of the third bevel gears and the pair of second gears, and the fixing rods and the supporting rotating wheels can be driven to rotate through rotation of the second chains, so that the supporting rotating wheels can effectively rotate the glass; meanwhile, the rotating movement of the fixed rod and the supporting rotating wheel does not hinder the flatness detector to detect the glass and effectively support the glass;

(3) during work, the flatness detector can be effectively moved and adjusted to be detected by arranging the moving plate, the long groove, the rack, the third gear and the moving wheel;

when the motor drives the first gear to rotate, the first gear can drive the first rotating shaft, the second rotating shaft and two third gears on the surfaces of the first rotating shaft and the second rotating shaft to rotate, the third gears can drive the racks to enable the moving plate to move in the moving groove through the moving wheels, and the moving plate can drive the flatness detector to move to enable the flatness detector to comprehensively detect the glass; when the flatness detector detects the glass in the moving process, the fixed rod and the supporting rotating wheel can rotate and move to be in contact with the bottom of the glass, so that the detection of the flatness detector is not hindered;

(4) during work, the glass can be effectively clamped and fixed to keep the stability of the glass by arranging the rotating rod, the L-shaped rod, the rubber sheath, the fourth transmission gear, the T-shaped connecting block, the connecting round block, the bump, the arc-shaped limiting stop strip, the convex groove, the conical jack, the buffer hole, the spring, the plug pin and the direction changing gear;

when the first chain rotates, the first chain drives the second transmission gear and the first transmission gear to rotate, the rotation of one first transmission gear drives one fourth transmission gear to rotate, the rotation of the other first transmission gear drives the other fourth transmission gear to rotate through the direction change gear, so that the two fourth transmission gears rotate relatively, the rotation of the fourth transmission gear drives the T-shaped connecting block, the connecting round block and the lug to rotate, when the lug moves from one end of the opening of the arc-shaped limiting blocking strip to the other end of the opening of the arc-shaped limiting blocking strip and is blocked, the lug drives the connecting round block to stop rotating, the T-shaped connecting block continues to rotate, the rotation of the T-shaped connecting block drives the bolt to rotate and move, and the bolt moves to the inside of the buffer hole and compresses the spring through the extrusion of the conical jack, the bolt continuously moves between the conical jack and the buffer hole, so that the stability of the connection round block after rotation adjustment can be effectively kept;

because two fourth drive gear rotate relatively, consequently two are connected the disk and also rotate relatively, and the rotation of connecting the disk can make the dwang rotate, therefore two dwangs also rotate relatively, and the rotation of dwang can make two L shape poles drive rubber sheath and rotate, makes L shape pole and the rubber sheath on two dwangs upper portions contradict glass's both ends and carry out the chucking fixedly to glass to keep glass's stability and fastness.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic cross-sectional view of FIG. 1 according to the present invention;

FIG. 3 is a first partial schematic view of FIG. 2 according to the present invention;

FIG. 4 is a second partial schematic view of FIG. 2 according to the present invention;

FIG. 5 is a third schematic view of the partial structure of FIG. 2 according to the present invention;

FIG. 6 is a schematic view of one of the transmission assemblies of the present invention;

FIG. 7 is a partial schematic view of another drive assembly of the present invention;

FIG. 8 is a schematic cross-sectional view of a T-shaped connecting block and connecting round block of the present invention;

FIG. 9 is a schematic top view of two support rotation mechanisms of the present invention;

FIG. 10 is a schematic bottom view of two U-shaped slots of the present invention;

FIG. 11 is a schematic top view of two clamping attachment ends of the present invention;

in the figure: 1. a device main body; 2. a transmission slot; 3. a rotating roller; 4. mounting grooves; 5. a support rotation mechanism; 501. a rotation pin; 502. a second gear; 503. a second chain; 504. supporting the rotating wheel; 505. a third bevel gear; 6. clamping the fixed end; 601. rotating the rod; 602. an L-shaped rod; 603. a rubber sheath; 7. a moving groove; 8. a first rotating shaft; 9. a second rotating shaft; 10. a mobile terminal; 1001. moving the plate; 1002. a long groove; 1003. a rack; 1004. a third gear; 1005. a moving wheel; 11. a flatness detector; 12. a transmission cavity; 13. a transmission assembly; 14. a motor; 15. a first gear; 16. a first chain; 17. a first drive gear; 18. a second transmission gear; 19. a U-shaped groove; 20. a first drive lever; 21. a first bevel gear; 22. a second transmission rod; 23. a second bevel gear; 24. a third transmission gear; 25. a fourth transmission gear; 26. a T-shaped connecting block; 27. connecting the round blocks; 28. a bump; 29. an arc-shaped limiting stop strip; 30. a convex groove; 31. a tapered receptacle; 32. a buffer hole; 33. a spring; 34. a bolt; 35. a direction change gear.

Detailed Description

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

In the first embodiment, as shown in fig. 1 to 7 and fig. 9 and 10, the present invention includes a device main body 1, a transmission groove 2 is formed in the middle of the device main body 1, rotating rollers 3 are mounted on two sides of the middle of the transmission groove 2 at equal distances, mounting grooves 4 are formed in the middle of two sides of the transmission groove 2, supporting and rotating mechanisms 5 are mounted inside the mounting grooves 4, clamping and fixing ends 6 are symmetrically mounted on two sides of the middle lower portion of the transmission groove 2, moving grooves 7 are formed in the top and the bottom of the transmission groove 2, first rotating shafts 8 and second rotating shafts 9 are mounted in the middle of the two moving grooves 7, moving ends 10 are mounted inside the two moving grooves 7, flatness detectors 11 are mounted on opposite sides of the two moving ends 10, transmission cavities 12 are formed in the inner portions of two sides of the device main body 1, transmission assemblies 13 are mounted inside the two transmission cavities 12, and one ends of the first rotating shafts 8 and the second rotating shafts 9 extend into the two transmission cavities 12 and respectively correspond to the two transmission cavities 12 The transmission assemblies 13 are connected, the upper parts of two sides of the device main body 1 are respectively provided with a motor 14, and the output ends of the two motors 14 respectively extend into the two transmission cavities 12 and are respectively connected with the two transmission assemblies 13;

the two transmission assemblies 13 respectively comprise a pair of first gears 15, a first chain 16, a first transmission gear 17, a second transmission gear 18, a first transmission mechanism and a second transmission mechanism, the pair of first gears 15 are arranged at the upper part and the lower part of the transmission cavity 12, the first chain 16 is arranged between the pair of first gears 15, the output end of the motor 14 is connected with one of the first gears 15, one ends of the first rotating shaft 8 and the second rotating shaft 9 are connected with the other one of the first gears 15, the first transmission gear 17 is arranged in the middle of the transmission cavity 12, the second transmission gear 18 is arranged at one side of the first transmission gear 17, the second transmission gear 18 is connected with the first chain 16, and the first transmission mechanism and the second transmission mechanism are respectively arranged at two sides of the middle of the transmission cavity 12, so that rotation and transmission can be effectively carried out;

the first transmission mechanism comprises a U-shaped groove 19, a first transmission rod 20, two first bevel gears 21, a second transmission rod 22, a second bevel gear 23 and a third transmission gear 24, the U-shaped groove 19 is arranged at one side of the transmission cavity 12, the first transmission rod 20 is arranged at the upper part of the U-shaped groove 19, the two first bevel gears 21 are respectively arranged at two ends of the first transmission rod 20, the second transmission rod 22 is arranged between the U-shaped groove 19 and the transmission cavity 12, the second bevel gear 23 and the third transmission gear 24 are respectively arranged at two ends of the second transmission rod 22, the second bevel gear 23 is connected with one first bevel gear 21, the third transmission gear 24 is connected with the first chain 16, the two supporting and rotating mechanisms 5 comprise a pair of rotating pins 501, a pair of second gears 502, a second chain 503, a fixed rod and a supporting rotating wheel 504, the pair of rotating pins 501 are arranged at two ends inside the mounting groove 4, the pair of second gears 502 are arranged at the middle parts of the pair of rotating pins 501, the second chain 503 is installed between the pair of second gears 502, the fixed rod is installed on the surface of the second chain 503 at equal distance, the supporting rotating wheel 504 is installed on the end of the fixed rod, so that the glass can be effectively supported and transmitted, wherein the top of one rotating pin 501 extends to the inside of the U-shaped groove 19 and is provided with a third bevel gear 505, and the third bevel gear 505 is connected with the other first bevel gear 21, so that the supporting rotating mechanism 5 can effectively rotate to transmit the glass and the supporting rotating mechanism 5 does not prevent the two flatness detecting instruments 11 from detecting the glass;

after a worker moves glass between the tops of the supporting rotating wheels 504 through rolling of the rotating rollers 3, the two motors 14 are started, the motors 14 drive the first chains 16 to rotate through the two first gears 15, rotation of the first chains 16 drives the third transmission gears 24 to rotate, rotation of the third transmission gears 24 drives the second bevel gears 23 to rotate through the second transmission rods 22, rotation of the second bevel gears 23 drives the third bevel gears 505 to rotate through the first transmission rods 20 and the two first bevel gears 21, rotation of the third bevel gears 505 drives the second chains 503 to rotate through the pair of rotating pins 501 and the pair of second bevel gears 502, rotation of the second chains 503 drives the fixing rods and the supporting rotating wheels 504 to rotate, and accordingly the supporting rotating wheels 504 can effectively rotate the glass; meanwhile, the rotation movement of the fixing rod and the supporting rotating wheel 504 does not hinder the flatness detector 11 from detecting the glass and effectively supports the glass;

in the second embodiment, based on the first embodiment, as shown in fig. 3, each of the two moving ends 10 includes a moving plate 1001, two long grooves 1002 and two racks 1003, the moving plate 1001 is installed inside the two moving grooves 7, the two long grooves 1002 are opened at one side of the moving plate 1001, the two racks 1003 are installed inside the two long grooves 1002, two third gears 1004 are installed on the surfaces of the first rotating shaft 8 and the second rotating shaft 9, the two third gears 1004 are engaged with the two racks 1003, moving wheels 1005 are installed at equal distances at two ends of the moving plate, and the two flatness detectors 11 are installed at opposite sides of the two moving plates 1001, so that the two flatness detectors 11 can be effectively moved, and the two flatness detectors 11 can perform flatness detection on two sides of glass;

when the motor 14 drives the first gear 15 to rotate, the first gear 15 drives the first rotating shaft 8, the second rotating shaft 9 and two third gears 1004 on the surface of the first rotating shaft and the second rotating shaft to rotate, the rotation of the third gears 1004 drives the rack 1003 to enable the moving plate 1001 to move inside the moving groove 7 through the moving wheel 1005, and the movement of the moving plate 1001 drives the flatness detector 11 to move, so that the flatness detector 11 can comprehensively detect the glass; when the flatness detecting apparatus 11 detects glass in the moving process, the fixing rod and the supporting wheel 504 rotate and move to contact with the bottom of the glass, so that the detection of the flatness detecting apparatus 11 is not hindered.

In the third embodiment, based on the first embodiment, as shown in fig. 4 to 8 and 11, the two second transmission mechanisms include a fourth transmission gear 25, a T-shaped connection block 26, a connection circular block 27, a protruding block 28 and an arc-shaped limit stop strip 29, the fourth transmission gear 25 and the arc-shaped limit stop strip 29 are installed inside the transmission cavity 12, the fourth transmission gear 25 is connected with the first transmission gear 17, the T-shaped connection block 26 is installed at one side of the fourth transmission gear 25, the connection circular block 27 is installed at one end of the T-shaped connection block 26, the protruding block 28 is installed on the arc surface of the connection circular block 27, the fourth transmission gear 25, the T-shaped connection block 26, the connection circular block 27 and the protruding block 28 are all located inside the arc-shaped limit stop strip 29, one end of the two clamping and fixing ends 6 respectively extend into the two transmission cavities 12 and are respectively connected with the connection circular block 27, a connection mechanism is arranged between the T-shaped connection block 26 and the connection circular block 27, thereby effectively carrying out transmission; a direction change gear 35 is arranged between the fourth transmission gear 25 and the first transmission gear 17 in one of the transmission cavities 12, the direction change gear 35 is installed in one of the transmission cavities 12, and the direction change gear 35 and the fourth transmission gear 25 are meshed with the first transmission gear 17, so that the two clamping and fixing ends 6 can rotate relatively to clamp and fix the glass, and the stability and firmness of the glass are maintained; the connection and disconnection mechanism comprises a convex groove 30, a conical jack 31, a buffer hole 32, a spring 33 and a bolt 34, wherein the convex groove 30 is arranged on one side of the connection round block 27, the conical jack 31 is annularly and equidistantly arranged in the convex groove 30, one end of the T-shaped connection block 26 is connected in the convex groove 30, the buffer hole 32 is arranged at one end of the T-shaped connection block 26, the spring 33 and the bolt 34 are both arranged in the buffer hole 32, one end of the spring 33 is connected with one end of the bolt 34, and the other end of the bolt 34 is inserted in the conical jack 31, so that rotation and separation adjustment can be effectively carried out;

when the first chain 16 rotates, it will drive the second transmission gear 18 and the first transmission gear 17 to rotate, the rotation of one of the first transmission gears 17 will drive one of the fourth transmission gears 25 to rotate, and the rotation of the other one of the first transmission gears 17 will drive the other one of the fourth transmission gears 25 to rotate through the direction changing gear 35, so that the two fourth transmission gears 25 rotate relatively, the rotation of the fourth transmission gear 25 will drive the T-shaped connecting block 26, the connecting round block 27 and the bump 28 to rotate, when the bump 28 is blocked from the open end of the arc-shaped limiting blocking bar 29 to the other end, the bump 28 will drive the connecting round block 27 to stop rotating, the T-shaped connecting block 26 will continue to rotate, the rotation of the T-shaped connecting block 26 will drive the plug pin 34 to rotate, and through the extrusion of the tapered insertion hole 31, the bolt 34 is moved to the inside of the buffer hole 32 and compresses the spring 33, and the bolt 34 continuously moves between the conical insertion hole 31 and the buffer hole 32, so that the stability of the connection round block 27 after rotation adjustment can be effectively kept;

the two clamping fixed ends 6 respectively comprise a rotating rod 601, two L-shaped rods 602 and a rubber sheath 603, the rotating rods 601 are symmetrically arranged at two sides of the middle lower part of the transmission groove 2, one ends of the two rotating rods 601 respectively extend into the transmission cavity 12 and are respectively connected with the other sides of the two connecting round blocks 27, the two L-shaped rods 602 are arranged on the surface of the rotating rods 601, and the rubber sheath 603 is arranged at the end part of the L-shaped rods 602, so that glass can be effectively clamped and fixed;

because two fourth drive gear 25 rotate relatively, consequently two are connected the rounding block 27 and also are rotated relatively, and the rotation of connecting rounding block 27 can make dwang 601 rotate, therefore two dwang 601 also relatively rotate, the rotation of dwang 601 can make two L shape poles 602 drive rubber sheath 603 and rotate, make L shape pole 602 and rubber sheath 603 on two dwang 601 upper portions contradict and carry out the chucking fixedly to glass's both ends, thereby keep glass's stability and fastness.

This toughened glass surface roughness detection device can be simultaneously to the two-sided synchronous detection that carries on of toughened glass to stability and fastness that can effectually keep toughened glass at the in-process that detects ensure the accuracy of testing data, thereby the effectual efficiency and the speed that has improved the toughened glass roughness and detect, also the effectual profit that improves the enterprise, consequently, this roughness detection device's practicality and performance can satisfy the user demand that the toughened glass surface detected.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (9)

1. The utility model provides a toughened glass surface flatness detection device, includes device main part (1), its characterized in that: the device is characterized in that a transmission groove (2) is formed in the middle of a device main body (1), rotating rollers (3) are installed on two sides of the middle of the transmission groove (2) at equal distances, mounting grooves (4) are formed in the middle of two sides of the transmission groove (2), supporting rotating mechanisms (5) are installed inside the mounting grooves (4), clamping fixed ends (6) are symmetrically installed on two sides of the middle lower portion of the transmission groove (2), moving grooves (7) are formed in the top and the bottom of the transmission groove (2), a first rotating shaft (8) and a second rotating shaft (9) are installed in the middle of the two moving grooves (7), moving ends (10) are installed inside the two moving grooves (7), a flatness detector (11) is installed on the opposite side of each moving end (10), transmission cavities (12) are formed in the inner portions of two sides of the device main body (1), and transmission assemblies (13) are installed in the inner portions of the two transmission cavities (12), one ends of the first rotating shaft (8) and the second rotating shaft (9) extend into the two transmission cavities (12) respectively and are connected with the two transmission assemblies (13) respectively, the upper parts of the two sides of the device main body (1) are provided with motors (14), and the output ends of the two motors (14) extend into the two transmission cavities (12) respectively and are connected with the two transmission assemblies (13) respectively;

the two transmission assemblies (13) respectively comprise a pair of first gears (15), a first chain (16), a first transmission gear (17), a second transmission gear (18), a first transmission mechanism and a second transmission mechanism, the pair of first gears (15) are arranged at the upper part and the lower part of the transmission cavity (12), the first chain (16) is arranged between the pair of first gears (15), the output end of the motor (14) is connected with one of the first gears (15), one ends of the first rotating shaft (8) and the second rotating shaft (9) are connected with the other one of the first gears (15), the first transmission gear (17) is arranged at the middle part of the transmission cavity (12), the second transmission gear (18) is arranged at one side of the first transmission gear (17), and the second transmission gear (18) is connected with the first chain (16), and the first transmission mechanism and the second transmission mechanism are respectively arranged at two sides of the middle part of the transmission cavity (12).

2. The tempered glass surface flatness detecting device according to claim 1, wherein: the first transmission mechanism comprises a U-shaped groove (19), a first transmission rod (20), two first bevel gears (21), a second transmission rod (22), a second bevel gear (23) and a third transmission gear (24), the U-shaped groove (19) is formed in one side of the transmission cavity (12), the first transmission rod (20) is installed on the upper portion of the U-shaped groove (19), the two first bevel gears (21) are installed at two ends of the first transmission rod (20) respectively, the second transmission rod (22) is installed between the U-shaped groove (19) and the transmission cavity (12), the second bevel gear (23) and the third transmission gear (24) are installed at two ends of the second transmission rod (22) respectively, the second bevel gear (23) is connected with one of the first bevel gears (21), and the third transmission gear (24) is connected with the first chain (16).

3. The tempered glass surface flatness detecting device according to claim 2, wherein: the two supporting rotating mechanisms (5) comprise a pair of rotating pins (501), a pair of second gears (502), a second chain (503), a fixed rod and a supporting rotating wheel (504), the pair of rotating pins (501) are installed at two ends inside the installation groove (4), the pair of second gears (502) are installed in the middle of the pair of rotating pins (501), the second chain (503) is installed between the pair of second gears (502), the fixed rod is installed on the surface of the second chain (503) at equal intervals, and the supporting rotating wheel (504) is installed at the end part of the fixed rod.

4. The tempered glass surface flatness detecting device according to claim 3, wherein: the top of one of the rotating pins (501) extends to the inside of the U-shaped groove (19) and is provided with a third bevel gear (505), and the third bevel gear (505) is connected with the other first bevel gear (21).

5. The tempered glass surface flatness detecting device according to claim 1, wherein: two removal end (10) all include movable plate (1001), two long recess (1002) and two rack (1003), movable plate (1001) are installed in the inside of two shifting chutes (7), one side at movable plate (1001) is seted up in two long recess (1002), the inside at two long recess (1002) is installed in two rack (1003), two third gear (1004) are all installed on the surface of first axis of rotation (8) and second axis of rotation (9), two third gear (1004) are connected with two rack (1003) meshing, removal wheel (1005) are installed to the equal distance in both ends of movable plate (1001), install in the relative one side of two movable plates (1001) two roughness detector (11).

6. The tempered glass surface flatness detecting device according to claim 1, wherein: the two second transmission mechanisms comprise a fourth transmission gear (25), a T-shaped connecting block (26), a connecting round block (27), a convex block (28) and an arc-shaped limiting stop bar (29), the fourth transmission gear (25) and the arc-shaped limiting stop bar (29) are arranged inside the transmission cavity (12), the fourth transmission gear (25) is connected with the first transmission gear (17), the T-shaped connecting block (26) is arranged on one side of the fourth transmission gear (25), the connecting round block (27) is arranged at one end of the T-shaped connecting block (26), the convex block (28) is arranged on the arc surface of the connecting round block (27), the fourth transmission gear (25), the T-shaped connecting block (26), the connecting round block (27) and the convex block (28) are all located inside the arc-shaped limiting stop bar (29), one ends of the two clamping fixed ends (6) respectively extend to the insides of the two transmission cavities (12) and are respectively connected with the connecting round block (27), a connecting and disconnecting mechanism is arranged between the T-shaped connecting block (26) and the connecting round block (27).

7. The tempered glass surface flatness detecting device according to claim 6, wherein: a direction changing gear (35) is arranged between a fourth transmission gear (25) in one of the transmission cavities (12) and the first transmission gear (17), the direction changing gear (35) is installed in one of the transmission cavities (12), and the direction changing gear (35) and the fourth transmission gear (25) are meshed with the first transmission gear (17) and connected.

8. The tempered glass surface flatness detecting device according to claim 6, wherein: the mechanism of cutting off includes convex groove (30), toper jack (31), buffer hole (32), spring (33) and bolt (34), one side in connecting circle piece (27) is seted up in convex groove (30), the inside in convex groove (30) is seted up to toper jack (31) annular equidistance, the inside in convex groove (30) is connected to the one end of T shape connecting block (26), the one end in T shape connecting block (26) is seted up in buffer hole (32), the inside in buffer hole (32) is all installed in spring (33) and bolt (34), and the one end of spring (33) and the one end of bolt (34) are connected, the other end of bolt (34) is pegged graft in the inside of toper jack (31).

9. The tempered glass surface flatness detecting device according to claim 8, wherein: two press from both sides tight stiff end (6) and all include dwang (601), two L shape pole (602) and rubber sheath (603), the both sides of lower part in transmission groove (2) are installed to dwang (601) symmetry, and the one end of two dwang (601) all extends to the inside of transmission chamber (12) and is connected with the opposite side of two connection knobs (27) respectively, and the surface at dwang (601) is installed in two L shape poles (602), and the tip at L shape pole (602) is installed in rubber sheath (603).

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