CN115229645A

CN115229645A - Full-automatic laser thickness measurement dry grinding abrasive belt polishing machine

Info

Publication number: CN115229645A
Application number: CN202211064272.9A
Authority: CN
Inventors: 谭义满
Original assignee: Xinjixin Guangdong Automation Technology Co ltd
Current assignee: Xinjixin Guangdong Automation Technology Co ltd
Priority date: 2022-08-31
Filing date: 2022-08-31
Publication date: 2022-10-25
Anticipated expiration: 2042-08-31
Also published as: CN115229645B

Abstract

The invention discloses a full-automatic laser thickness measuring dry grinding abrasive belt polishing machine which comprises a machine body, a transmission device, a polishing device and a lifting driving device, wherein the transmission device, the polishing device and the lifting driving device are respectively arranged in the machine body; the conveying device is provided with a polishing station, a thickness measuring device is further arranged at a position, close to the feeding port, of the conveying device, the thickness measuring device is used for measuring the thickness of the plate before the plate enters the polishing station, and the lifting driving device is used for controlling the conveying device to lift according to the measured thickness of the plate so as to adjust the relative height between the conveying device and the polishing device. According to the invention, after the thickness of the plate is measured by the thickness measuring device, the lifting driving device controls the transmission device and the polishing device to adjust the relative height, so that the effect of self-adaptive adjustment according to the actual thickness of the plate to ensure the polishing quality is achieved.

Description

Full-automatic laser thickness measurement dry grinding abrasive belt polishing machine

Technical Field

The invention relates to the technical field of polishing machines, in particular to a full-automatic laser thickness measuring dry grinding abrasive belt polishing machine.

Background

The relative height between the polishing device and the conveying device of the conventional polishing machine for metal plates is not changed, and the thickness of each metal plate is different, when a metal plate with a thickness error larger than an allowable range enters the polishing machine for polishing, if the metal plate is too thick, the metal plate is easy to collide with the polishing device, and if the metal plate is too thin, the polishing device is easy to be in insufficient contact with the metal plate, so that the polishing quality is reduced, so that the improvement is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a full-automatic laser thickness measuring dry grinding abrasive belt polishing machine.

In order to achieve the purpose, the invention adopts the technical scheme that: a full-automatic laser thickness measurement dry grinding abrasive belt polishing machine comprises a machine body, and a transmission device, a polishing device and a lifting driving device which are respectively arranged in the machine body, wherein one side of the machine body is provided with a feeding hole, the other side of the machine body is provided with a discharging hole, and the polishing device is arranged above the transmission device; the conveying device is provided with a polishing station, a thickness measuring device is further arranged at a position, close to the feeding port, of the conveying device, the thickness measuring device is used for measuring the thickness of the plate before the plate enters the polishing station, and the lifting driving device is used for controlling the conveying device to lift according to the measured thickness of the plate so as to adjust the relative height between the conveying device and the polishing device.

In the technical scheme, among the further, transmission device is including transmitting the base, double-deck transmission device and individual layer transmission device, the transmission base is located between pan feeding mouth and the discharge gate, double-deck transmission device has a plurality of transmission rollers and a plurality of transmission roller down on and, go up transmission roller and the equal symmetry of transmission roller down and locate the transmission base and be close to the pan feeding mouth, discharge gate department, the middle part of transmission base is located to individual layer transmission device, so that the middle section of transmission base is left empty the shaping and is the polishing station, go up the transmission roller and use with the transmission roller cooperation from top to bottom, be used for inputing or exporting the polishing station with the plate, burnishing device carries out polishing treatment to the plate in the polishing station.

In a further technical scheme, the single-layer transmission mechanism is provided with a first base and a first transmission module fixedly installed on the first base, the transmission base is provided with a limiting groove, the first base is accommodated in the limiting groove, and the first base is detachably assembled on the transmission base through a quick-release device.

In a further technical scheme, the quick release device comprises a pressing seat, a fixing part, a linkage part, a jacking part, a locking plate and an unlocking assembly, wherein the fixing part is hinged to the transmission base, and the pressing seat is used for pressing the transmission base so as to fix the transmission base in the limiting groove; the two ends of the linkage piece are respectively connected to the pressing seat and the fixing piece in a rotating mode, the jacking piece is located below the linkage piece and used for jacking the linkage piece, the linkage piece is used for driving the pressing seat to ascend and separate from the first base when being jacked, and the locking plate fixes the transmission base and the first base through screws.

In the further technical scheme, the unblock subassembly is provided with spiro union locking in the locking lever of transmission base and installs in the handle that the locking lever is used for the elasticity locking lever, the ejecting piece is for wearing to locate the eccentric member of locking lever, and the link has down the spring with pressing between the seat.

In a further technical scheme, the thickness measuring device comprises a first distance measuring sensor arranged on the upper portion of the transmission base and a second distance measuring sensor arranged on the lower portion of the transmission base, the upper transmission roller and the lower transmission roller are arranged in an up-and-down symmetrical mode to form a transmission channel, and measuring ends of the first distance measuring sensor and the second distance measuring sensor point to the transmission channel.

In a further technical scheme, the lifting driving device is provided with a lifting motor and a plurality of speed reducers, each speed reducer is distributed at the corner of the machine table respectively, the lifting motor is connected with one of the speed reducers in a driving mode, each speed reducer is connected with one of the speed reducers in a driving mode through a first transmission shaft, each speed reducer is connected with one linear transmission assembly in a driving mode, and the plurality of linear transmission assemblies simultaneously drive the transmission base to move up and down relative to the machine table.

In a further technical scheme, the linear transmission assembly is a screw nut mechanism meshed with the output end of the speed reducer through a first transmission gear.

In a further technical scheme, double-deck transmission device still is provided with the transmission driving source, and the transmission driving source includes driving motor, locates the initiative drive assembly of transmission base one side and locates the passive drive assembly of transmission base opposite side, and the transmission of initiative drive assembly is connected in driving motor and is used for driving each and goes up the synchronous rotation of transmission roller and a plurality of transmission roller down, and passive drive assembly is used for driving a plurality of transmission roller synchronous rotations down.

In a further technical scheme, the driving transmission assembly is a gear transmission assembly, and the driven transmission assembly is a worm and gear transmission assembly.

After adopting the structure, compared with the prior art, the invention has the advantages that:

the plate polishing device is ingenious in structural design, and after the thickness of the plate is measured by the thickness measuring device, the lifting driving device controls the transmission device and the polishing device to adjust the relative height, so that the effect of performing self-adaptive adjustment according to the actual thickness of the plate to ensure the polishing quality is achieved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic structural diagram of the machine, the conveying device and the lifting driving device;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic diagram of the structure of the transfer device;

FIG. 5 is an enlarged schematic view of the structure at B in FIG. 4;

fig. 6 is a schematic structural diagram of the thickness measuring device.

Detailed Description

The following are merely preferred embodiments of the present invention, and do not limit the scope of the present invention.

As shown in fig. 1 to 6, the full-automatic laser thickness measuring dry grinding belt sander provided by the present invention comprises a body, and a transmission device 41 and a polishing device which are respectively arranged in the body, wherein one side of the body is provided with a feeding port, the other side is provided with a discharging port, the polishing device is arranged above the transmission device 41, the transmission device 41 is provided with a polishing station 4101, the transmission device 41 is further provided with a thickness measuring device 42 near the feeding port, the thickness measuring device 42 is used for measuring the thickness of a plate before the plate enters the polishing station 4101, and the lifting driving device 44 is used for controlling the lifting of the transmission device 41 according to the measured thickness of the plate to adjust the relative height between the transmission device 41 and the polishing device.

Specifically, the machine body includes a machine cover 40 and a machine platform 43, and the machine platform 43 is disposed in the machine cover 40. The actions of the invention are as follows:

the plate is transmitted by transmission device 41, and the thickness of plate is detected by thickness measurement device 42 in transmission process, afterwards according to the plate thickness information of thickness measurement device 42 feedback, go up and down by lift drive device 44 control transmission device 41, thereby let the relative height between transmission device 41 and the burnishing device suit with the thickness of plate, guaranteed promptly when the plate passes through burnishing device, burnishing device can fully polish the plate and avoid directly taking place the rigidity collision with the plate, thereby guaranteed polishing effect and safety. In this embodiment, the transferring device 41 includes a transferring base 410, a double-layer transferring mechanism 411 and a single-layer transferring mechanism 412, the transferring base 410 is disposed between the feeding port and the discharging port, the double-layer transferring mechanism 411 has a plurality of upper transferring rollers 4110 and a plurality of lower transferring rollers 4111, the upper transferring rollers 4110 and the lower transferring rollers 4111 are symmetrically disposed on the transferring base 410 near the feeding port and the discharging port, the single-layer transferring mechanism 412 is disposed in the middle of the transferring base 410, so that the middle section of the transferring base 410 is formed into the polishing station 4101, the upper transferring rollers 4110 and the lower transferring rollers 4111 are used in a vertical matching manner, the plate is input into or output from the polishing station 4101, and the polishing device performs polishing process on the plate in the polishing station 4101.

The polishing machine is ingenious in structural design, the feeding and discharging of the plate are respectively realized by adopting an upper-layer roller mode and a lower-layer roller mode at the positions, close to the feeding port and the discharging port, of the transmission base 410, the structure of the single-layer transmission mechanism 412 is adopted at the middle section of the transmission base 410, and the polishing station 4101 is reserved at the middle section.

Preferably, the single-layer transmission mechanism 412 is provided with a first base 4120 and a first transmission module 4121 fixedly mounted on the first base 4120, the transmission base 410 has a limit groove 4100, the limit groove 4100 is accommodated in the first base 4120, the first base 4120 is detachably assembled on the transmission base 410 through a quick-release device 414, quick positioning is realized by additionally arranging the limit groove 4100, and the quick assembly of an operator is facilitated, and the assembly of the single-layer transmission mechanism 412 is assisted by additionally arranging the quick-release device 414, so that the later maintenance or the quick replacement of workshop staff is facilitated, the practicability is higher, and the overall production efficiency of the production line is improved.

Specifically, the quick release device 414 includes a pressing seat 4141, a fixing member 4146, a linkage member 4140, a jacking member 4144, and a locking plate 4143, the fixing member 4146 is hinged to the transmission base 410, and the pressing seat 4141 is used for pressing the transmission base 410 to fix the transmission base 410 in the limiting groove 4100; the two ends of the linkage member 4140 are respectively and rotatably connected to the pressing seat 4141 and the fixing member 4146, the jacking member 4144 is located below the linkage member 4140 and is used for jacking up the linkage member 4140, the linkage member 4140 is used for driving the pressing seat 4141 to ascend and separate from the first base 4120 when being jacked up, and the locking plate 4143 fixes the transmission base 410 and the first base 4120 by screws.

The jacking member 4144 comprises a locking lever 4142, an eccentric member 4144 penetrating the locking lever 4142 and used for jacking the frame 4140, and a handle 4145 mounted on the locking lever 4142 and used for loosening and tightening the locking lever 4142, the locking lever 4142 is screwed and locked on the transmission base 410, and a downward pressing spring 4147 is arranged between the linkage member 4140 and the pressing base 4141. In the initial state, the pressing spring 4147 will force the pressing seat 4141 to descend and press the transmission base 410: when needs are locked, then rotate in order to drive the eccentric part 4144 through handle 4145 control locking lever 4142 and rotate to jack-up link 4140, thereby drive eccentric part 4144 and rotate to not contact with link 4140, it rises to drive pressure seat 4141 through lever principle, thereby let first base 4120 no longer by the pinning, only need afterwards to pull down behind jam plate 4143 can pull down first base 4120 from first base 410, such structural design is for the mode of current transmission device with a plurality of conveying rollers or belt roller difference fixed mounting in the base, its structural design is ingenious, be convenient for workshop personnel later stage maintenance or quick replacement, the practicality is higher, improve the holistic production efficiency of production line.

Preferably, the thickness measuring device 42 is used to measure the thickness of the sheet prior to entering the polishing station 4101. Furthermore, the device further comprises a machine table 43 and a lifting driving device 44 installed on the machine table 43, and the machine body is covered outside the machine table 43. In practical application, before the plate enters the polishing station 4101, the thickness measuring device 42 measures the thickness of the plate, and then the lifting driving device 44 automatically drives the transmission device 41 to integrally lift or lower according to the measured data, that is, automatically adjusts the distance between the transmission device 41 and the polishing device, so that the plate achieves the best polishing effect.

Specifically, the thickness measuring device 42 includes a first distance measuring sensor 420 installed on the upper portion of the conveying base 410 and a second distance measuring sensor 421 installed on the lower portion of the conveying base 410, the upper conveying roller 4110 and the lower conveying roller 4111 are symmetrically arranged up and down to form a conveying channel, and measuring ends of the first distance measuring sensor 420 and the second distance measuring sensor 421 point to the conveying channel. In operation, first distance measuring sensor 420 measures its and the interval of plate, and second distance measuring sensor 421 measures its and the interval of plate, because first distance measuring sensor 420 and second distance measuring sensor 421 are fixed mounting in the base, promptly, the interval between first distance measuring sensor 420 and second distance measuring sensor 421 is fixed numerical value, can calculate the thickness of plate through the interval between first distance measuring sensor 40 and second distance measuring sensor 421 with the difference in interval between plate and first distance measuring sensor 420, second distance measuring sensor 421.

The lifting driving device 44 is provided with a lifting motor 440 and a plurality of speed reducers 441, each speed reducer 441 is respectively distributed at a corner of the machine platform 43, the lifting motor 440 is connected to one of the speed reducers 441 in a driving manner, each speed reducer 441 is connected to the first transmission shaft 442 in a driving manner, each speed reducer 441 is connected to a linear transmission assembly 443 in a driving manner, and the plurality of linear transmission assemblies 443 simultaneously drive the transmission base 410 to move up and down relative to the machine platform 43.

Preferably, the linear transmission assembly 443 is a screw nut mechanism engaged with the output end of the speed reducer 441 through a first transmission gear.

Preferably, at least one of the speed reducers 441 is in transmission connection with a manual adjustment mechanism 445, the manual adjustment mechanism 445 includes a hand wheel 4450 and a second transmission shaft 4451 mounted on the hand wheel 4450, the second transmission shaft 4451 is in transmission connection with the speed reducer 441 through a second transmission gear, in actual work, the manual adjustment mechanism 445 is arranged on the speed reducer 441 connected with the lifting motor 440, and a user can also manually adjust the speed reducer according to requirements to realize coarse adjustment and lifting of the transmission device 41.

Preferably, the double-layer transmission mechanism 411 is further provided with a transmission driving source, the transmission driving source comprises a driving motor 30, a driving transmission assembly arranged on one side of the transmission base 410 and a driven transmission assembly arranged on the other side of the transmission base 410, the driving transmission assembly is connected to the driving motor 30 and used for driving each upper transmission roller 4110 and the plurality of lower transmission rollers 4111 to synchronously rotate, and the driven transmission assembly is used for driving the plurality of lower transmission rollers 4111 to synchronously rotate.

The driving transmission assembly is a gear transmission assembly, the gear transmission assembly is provided with a plurality of upper transmission gears correspondingly mounted on the upper transmission rollers 4410 and a plurality of lower transmission gears correspondingly mounted on the lower transmission rollers 4411, one upper transmission gear is meshed with one lower transmission gear, and the output end of the driving motor is in driving connection with at least one lower transmission gear.

The passive transmission assembly is a worm and gear transmission assembly. The gear transmission assembly is provided with a plurality of upper transmission gears correspondingly mounted on the upper transmission rollers 4410 and a plurality of lower transmission gears correspondingly mounted on the lower transmission rollers 4411, one upper transmission gear is meshed with one lower transmission gear, the output end of the driving motor is in driving connection with at least one lower transmission gear, the worm gear transmission assembly is provided with a worm and a plurality of worm wheels, the worm extends along the transmission direction of the metal plate and is provided with a plurality of transmission ends arranged at intervals, and each transmission end of the worm drives each lower transmission roller to rotate through each worm wheel. Of course, in other embodiments, the passive transmission assembly may be a gear transmission system independently provided to each of the upper and lower transmission rollers 4410 and 4411.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims

1. The utility model provides a full-automatic laser thickness measurement dry grinding abrasive band burnishing machine which characterized in that: the polishing machine comprises a machine body, a transmission device (41), a polishing device and a lifting driving device (44), wherein the transmission device, the polishing device and the lifting driving device are respectively arranged in the machine body, one side of the machine body is provided with a feeding port, the other side of the machine body is provided with a discharging port, and the polishing device is arranged above the transmission device (41); the conveying device (41) is provided with a polishing station (4101), the conveying device (41) is further provided with a thickness measuring device (42) close to the feeding port, the thickness measuring device (42) is used for measuring the thickness of the plate before the plate enters the polishing station (4101), and the lifting driving device (44) is used for controlling the lifting of the conveying device (41) according to the measured thickness of the plate so as to adjust the relative height between the conveying device (41) and the polishing device.

2. The full-automatic laser thickness measuring dry grinding belt sander according to claim 1, characterized in that: transmission device (41) is including transmitting base (410), double-deck transmission mechanism (411) and individual layer transmission mechanism (412), transmission base (410) is located between pan feeding mouth and the discharge gate, double-deck transmission mechanism (411) have a plurality of transmission roller (4110) and a plurality of transmission roller (4111) down on transmit roller (4110) and transmission roller (4111) down all the symmetry locate transmission base (410) be close to the pan feeding mouth, discharge gate department, the middle part of transmission base (410) is located in individual layer transmission mechanism (412), so that the middle section of transmission base (410) is left empty the shaping and is done polishing station (4101), upper and lower cooperation use of transmission roller (4110) and lower transmission roller (4111) is used for with plate input or output polishing station (4101), polishing device polishes the plate in polishing station (4101).

3. The full-automatic laser thickness measuring dry grinding belt sander according to claim 2, characterized in that: the single-layer transmission mechanism (412) is provided with a first base (4120) and a first transmission module (4121) fixedly mounted on the first base (4120), the transmission base (410) is provided with a limiting groove (4100), the first base (4120) is accommodated in the limiting groove (4100), and the first base (4120) is detachably assembled on the transmission base (410) through a quick-release device (414).

4. The full-automatic laser thickness measuring dry grinding belt sander according to claim 3, wherein: the quick-release device (414) comprises a pressing seat (4141), a fixing part (4146), a linkage part (4140), a jacking part (4144), a locking plate (4143) and an unlocking assembly, wherein the fixing part (4146) is hinged to the transmission base (410), and the pressing seat (4141) is used for pressing the transmission base (410) so as to fix the transmission base (410) in the limiting groove (4100); the two ends of the linkage piece (4140) are respectively and rotatably connected with the pressing seat (4141) and the fixing piece (4146), the jacking piece (4144) is positioned below the linkage piece (4140) and used for jacking up the linkage piece (4140), the linkage piece (4140) is used for driving the pressing seat (4141) to ascend and separate from the first base (4120) when jacked up, the locking plate (4143) is used for fixing the transmission base (410) and the first base (4120) through screws, and the unlocking assembly is used for driving the jacking piece (4144).

5. The full-automatic laser thickness measuring dry grinding belt sander according to claim 4, wherein: the unlocking assembly is provided with a lock rod (4142) which is screwed and locked on the transmission base (410) and a handle (4145) which is arranged on the lock rod (4142) and used for loosening the lock rod (4142), the jacking piece (4144) is an eccentric piece (4144) which penetrates through the lock rod (4142), and a downward pressing spring (4147) is arranged between the linkage piece (4140) and the pressing seat (4141).

6. The full-automatic laser thickness measuring dry grinding belt sander according to claim 1, characterized in that: the thickness measuring device (42) comprises a first distance measuring sensor (420) arranged on the upper portion of a transmission base (410) and a second distance measuring sensor (421) arranged on the lower portion of the transmission base (410), an upper transmission roller (4110) and a lower transmission roller (4111) are arranged in an up-and-down symmetrical mode to form a transmission channel, and measuring ends of the first distance measuring sensor (420) and the second distance measuring sensor (421) point to the transmission channel.

7. The full-automatic laser thickness measuring dry grinding belt sander according to claim 1, characterized in that: the lifting driving device (44) is provided with a lifting motor (440) and a plurality of speed reducers (441), each speed reducer (441) is distributed at the corner of the machine body respectively, the lifting motor (440) is connected to one of the speed reducers (441) in a driving mode, each speed reducer (441) is connected through a first transmission shaft (442) in a transmission mode, each speed reducer (441) is connected with a linear transmission assembly (443) in a transmission mode, and the linear transmission assemblies (443) simultaneously drive the transmission base (410) to move up and down relative to the machine table (43).

8. The full-automatic laser thickness measuring dry grinding belt sander according to claim 7, wherein: the linear transmission assembly (443) is a screw-nut mechanism which is meshed with the output end of the speed reducer (441) through a first transmission gear.

9. The full-automatic laser thickness measuring dry grinding belt sander according to claim 1, characterized in that: the double-deck transmission device (411) still is provided with the transmission driving source, and the transmission driving source includes driving motor (30), locate the initiative transmission subassembly of transmission base (410) one side and locate the passive transmission subassembly of transmission base (410) opposite side, and the transmission of initiative transmission subassembly is connected in driving motor (30) and is used for driving each and goes up transmission roller (4110) and a plurality of transmission roller (4111)) synchronous revolution down, and the passive transmission subassembly is used for driving a plurality of transmission roller (4111)) synchronous revolution down.

10. The full-automatic laser thickness measuring dry grinding belt sander according to claim 8, wherein: the driving transmission assembly is a gear transmission assembly, and the driven transmission assembly is a worm and gear transmission assembly.