CN219319730U - Computer-aided industrial part surface detection device - Google Patents

Abstract

The utility model discloses a computer-aided industrial part surface detection device which comprises a fixed seat, universal wheels, a sliding door, a workbench, a computer console and a detection device. According to the utility model, the sliding device is arranged at the right end of the top of the workbench, the power transmission device at the inner side of the sliding device is used for providing power for the rotation of the gear, so that the gear is matched with the rack to rotate, the power transmission device slides along the sliding groove of the connecting seat, the part to be detected slides to a proper position after being detected, the automation of the detection device is improved, the manual use is reduced, the synchronous lifting device is arranged at the middle end of the top of the power transmission device, the two groups of threaded rods are synchronously driven to rotate by the second motor matched with the driving gear and the driven gear, the two groups of sliding blocks are synchronously driven to lift to the position right below the detector along the sliding rod, the part to be detected in the part placing groove of the two groups of sliding blocks is synchronously detected, and the detection efficiency of the part to be detected is improved.

Description

Computer-aided industrial part surface detection device

Technical Field

The utility model relates to the field of industrial parts, in particular to a computer-aided industrial part surface detection device.

Background

The parts are basic elements of the machine, and the detection and control system for ensuring the coordination work of all parts in the machine is formed by the transmission part for transmitting the motion and power of the prime mover to the execution part by the execution part for realizing the production function of the machine.

The detection device is used for detecting the quality and the quality of the product which is just produced, and judging whether the quality and the quality of the product meet the standard or not, so that the quality and the quality of the product are ensured.

Parts need to be detected before putting into use after production, and parts which can not meet the standard are possibly missed due to artificial eye fatigue in manual detection, so that the parts are put into use, the same detection device is needed, the automatic detection of the surfaces of the parts is realized through the computer-aided detection device, the cost and time of manual detection are reduced, and the efficiency and accuracy of part detection are improved.

The existing detection device is mainly used for detecting the part to be detected in the detection groove only by lifting, after detection is finished, the part to be detected in the detection groove is required to be manually conveyed to a proper position for placement, the degree of automation is low, and the efficiency is low because the part to be detected in the detection groove is mainly detected.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned shortcomings, the present utility model provides a computer-aided industrial part surface detection device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a computer-aided industrial part surface detection device, includes the fixing base, a set of universal wheel is respectively connected in fixing base bottom four corners, two storage tanks are seted up to the fixing base front end, two sets of the storage tank front end of fixing base front end is equipped with the sliding door, the fixing base top is equipped with the workstation, workstation top left end is equipped with the computer control platform, still includes detection device, detection device includes slider, workstation top right-hand member is equipped with slider, embedded power transmission device in the slider, the power transmission device top is equipped with synchronous elevating gear.

Preferably, the sliding device comprises a connecting seat, two groups of connecting seats are arranged at the right end of the top of the workbench, a connecting block is arranged at the middle end of the top of the connecting seat, a detector is arranged at the top end of the inner side of the connecting block, a group of sliding grooves are formed in the middle end of the inner side of the connecting seat, a group of racks are respectively arranged at the upper end and the lower end of each sliding groove of the connecting seat, and gears are embedded in the racks.

Preferably, the power transmission device comprises a sliding seat, two groups of connecting seats are internally provided with the sliding seat, the middle end of the back of the sliding seat is connected with a first motor box internally provided with a first motor, an output shaft of the first motor penetrates through the back of the sliding seat and is connected with the rear end of a first transmission shaft, the front end of the first transmission shaft penetrates through a guide rod and then is connected with a driving bevel gear, the left side and the right side of the front end of the driving bevel gear are connected with one end of a driven bevel gear, the other end of the driven bevel gear is connected with a corresponding connecting shaft through a second transmission shaft penetrating through the guide rod and the middle ends of the two sides of the sliding seat, and the two groups of connecting shafts are connected with corresponding gears.

Preferably, the synchronous lifting device comprises a second motor case, a group of connecting seats are respectively arranged at the left end and the right end of the top of the sliding seat, the middle ends of the top of the connecting seats are connected through a shell, the left end of the top of the shell is connected with a second motor case internally provided with a second motor, an output shaft of the second motor penetrates through the left end of the top of the shell and then is connected with a driving gear, the outer side of the driving gear is connected with a driven gear, three groups of square grooves are formed in the outer side of the connecting seats at equal intervals, threaded rods are embedded in the square grooves of the middle ends of the outer sides of the connecting seats, a group of guide rods are respectively embedded in the square grooves of the front end and the rear end of the outer sides of the connecting seats, the threaded rods of the middle ends of the two groups of connecting seats are respectively inserted into the driving gear and the driven gear, and the connecting seats are connected with a sliding block through the two groups of guide rods and the threaded rods on the outer sides.

Preferably, the width of the connecting seat is smaller than that of the workbench, and the gear and the rack are meshed with each other.

Preferably, the width of the sliding seat is one third of the width of the connecting seat, and the height of the sliding seat is smaller than the height of the connecting seat.

Preferably, the part placing groove is formed in the top of the sliding block, and the length and the width of the part placing groove are smaller than those of the detector.

Preferably, the length of the housing is equal to the length of the two sets of sockets plus the spacing of the two sets of sockets.

The utility model has the beneficial effects that:

according to the utility model, the sliding device is arranged at the right end of the top of the workbench, and the power transmission device at the inner side of the sliding device is used for providing power for the rotation of the gear, so that the gear is matched with the rack to rotate, the power transmission device slides along the sliding groove of the connecting seat, the part to be detected slides to a proper position after the detection is finished, the automation of the detection device is improved, and the manual use is reduced.

According to the utility model, the synchronous lifting device is arranged at the middle end of the top of the power transmission device, the second motor is matched with the driving gear and the driven gear to synchronously drive the two groups of threaded rods to rotate, the two groups of sliding blocks are synchronously driven to lift to the position right below the detector along the sliding rods, the parts to be detected in the part placing grooves of the two groups of sliding blocks are synchronously detected, and the detection efficiency of the parts to be detected is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the detecting device of the present utility model;

FIG. 3 is a schematic view of a sliding device according to the present utility model;

FIG. 4 is a schematic view of the power transmission device of the present utility model;

FIG. 5 is a schematic view of the synchronous lifting device of the present utility model;

fig. 6 is a schematic diagram of the inner part of the synchronous lifting device.

Wherein: the device comprises a fixed seat-1, universal wheels-2, a sliding door-3, a workbench-4, a computer control desk-5, a detection device-6, a sliding device-61, a power transmission device-62, a synchronous lifting device-63, a connecting seat-611, a connecting block-612, a detector-613, a rack-614, a gear-615, a sliding seat-621, a first motor box-622, a first motor-623, a first transmission shaft-624, a guide rod-625, a driving bevel gear-626, a driven bevel gear-627, a second transmission shaft-628, a connecting shaft-629, a second motor box-631, a second motor-632, a shell-633, a connecting seat-634, a driving gear-635, a driven gear-636, a threaded rod-637, a sliding rod-638 and a sliding block-639.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1, the utility model provides a computer-aided industrial part surface detection device, which comprises a fixed seat 1, a universal wheel 2, a sliding door 3, a workbench 4, a computer console 5 and a detection device 6;

wherein, a set of universal wheel 2 of fixing base 1 bottom four corners respectively through bolt fixed connection, conveniently remove this device suitable position, two storage tanks are seted up to fixing base 1 front end, be used for accomodating the motor case, repair tools etc., the storage tank front end of two sets of fixing base 1 front ends passes through rotary rod connection sliding door 3, be used for sheltering from the quick-witted case and the repair tools in the storage tank, fixing base 1 top is through gas flame welding table 4, table 4 top left end is through gas flame welding computer control platform 5, detection device 6 includes slider 61, slider 61 has been welded to table 4 top right-hand member, embedded power transmission device 62 in the slider 61 carries out power transmission for slider 61, synchronous elevating gear 63 has been welded at power transmission device 62 top.

Referring to fig. 2-3, the utility model provides a computer-aided industrial part surface detection device, a sliding device 61 comprises a connecting seat 611, two groups of connecting seats 611 are welded at the right end of the top of a workbench 4, the width of the connecting seat 611 is smaller than that of the workbench 4, the sliding range of the sliding device 61 is ensured to be in the workbench 4, the middle end of the top of the connecting seat 611 is welded with a connecting block 612 through gas flame, the top end of the inner side of the connecting block 612 is welded with a detector 613, a part to be detected is detected, the middle end of the inner side of the connecting seat 611 is provided with a group of sliding grooves, a group of racks 614 are welded at the upper end and the lower end of each sliding groove of the connecting seat 611, gears 615 are embedded in the racks 614, the gears 615 are meshed with the racks 614, and the gears 615 move back and forth in the sliding grooves along with the rotation of the racks 614.

Referring to fig. 4, the power transmission device 62 includes a slide 621, a slide 621 is disposed inside two sets of connection seats 611, a first motor case 622 having a first motor 623 disposed inside is welded at a middle end of a back of the slide 621, an output shaft of the first motor 623 is tightly inserted into a rear end of the first transmission shaft 624 through the back of the slide 621, the first motor 623 is started to drive the first transmission shaft 624 to rotate, a front end of the first transmission shaft 624 is tightly inserted into a drive bevel gear 626 after penetrating a guide rod 625 providing stabilization and guiding functions, the first transmission shaft 624 rotates to drive the drive bevel gear 626 to rotate, left and right sides of a front end of the drive bevel gear 626 are meshed with one end 625 of a driven bevel gear 627, the drive bevel gear 626 rotates to drive the two sets of driven bevel gears 627, and the other end of the driven bevel gear 627 is connected with a corresponding connection shaft 629 through a second transmission shaft 628 penetrating the guide rod and at two sides of the slide 621, and the driven bevel gear 627 rotates to drive the connection shaft 629 through the second transmission shaft 628;

wherein, two sets of connecting shafts 629 are tightly inserted into the corresponding gears 615, and the connecting shafts 629 drive the corresponding gears 615 to rotate along the racks 614, so as to drive the sliding seat 621 to slide back and forth along the sliding grooves of the connecting seat 611, and the width of the sliding seat 621 is one third of the width of the connecting seat 611, so that the part to be detected is conveniently detected by the detector 613, the height of the sliding seat 621 is smaller than that of the connecting seat 611, and the sliding seat 621 can be ensured to stably and smoothly move back and forth along the connecting seat 611.

Referring to fig. 5-6, the synchronous lifting device 63 includes a second motor case 631, two groups of connecting seats 634 are welded at the left and right ends of the top of the sliding seat 621, the middle ends of the tops of the two groups of connecting seats 634 are connected through a housing 633, the second motor case 631 with a second motor 632 is welded at the left end of the top of the housing 633, an output shaft of the second motor 632 is tightly inserted into a driving gear 635 after penetrating through the left end of the top of the housing 633, the second motor 632 is started to drive the driving gear 635 to rotate, the outer side of the driving gear 635 is meshed with a driven gear 636, the driving gear 635 rotates to drive the driven gear 636 to rotate, three groups of square grooves are equidistantly formed on the outer side of the connecting seats 634, square grooves at the middle ends of the outer sides of the connecting seats 634 are embedded into threaded rods 637, a group of sliding rods 638 are respectively embedded into square grooves at the front and rear ends of the outer sides of the connecting seats 634 to guide sliding of the sliding blocks 639, the threaded rods 637 at the middle ends of the two groups of connecting seats 634 are respectively inserted into the driving gear 636 and the driven gear 636, the driving gear 635 and the driven gear 636 rotate, and the driven gear 637 are driven by the driving gear 635;

the connection base 634 is connected with the sliding block 639 through two groups of sliding bars 638 and the threaded rod 637 on the outer side, the threaded rod 637 is connected with the sliding block 639 through threads, the sliding block 639 is moved by the rotating threaded rod 637 to slide up and down along the two groups of sliding bars 638, a part placing groove is formed in the top of the sliding block 639, the length and the width of the part placing groove are smaller than the length and the width of the detector 613, parts to be detected are placed in the part placing groove, the parts in the groove can be synchronously detected by the detector, the length of the shell 633 is equal to the length of the two groups of connection bases 634, the distance between the two groups of connection bases 634 is increased, and the second motor 632 can conveniently and synchronously drive the two groups of threaded rods 637 to synchronously rotate.

The working principle is as follows:

the device is moved to a proper position through the universal wheel 2, the sliding door 3 at the front end of the fixed seat 1 is pulled open, and the electric box in the storage groove is started to start the computer control desk 5 at the left end of the workbench 4;

then, the part to be detected is placed in a part placing groove at the top end of a sliding block 639 of the synchronous lifting device 63, a first motor 623 in a first motor box 622 of the power transmission device 62 is started to drive a first transmission shaft 624 to rotate, the first transmission shaft 624 penetrates through a guide rod 625 and then drives a drive bevel gear 626 to rotate, the drive bevel gear 626 rotates and then drives a driven bevel gear 627 to rotate, and the driven bevel gear 627 rotates and drives a connecting shaft 629 to rotate through a second transmission shaft 628, so that a gear 615 is driven to rotate along a rack 614;

the sliding seat 621 moves to the position right below the detector 613 at the upper end of the inner side of the connecting block 612 along the inside of the sliding groove of the connecting seat 611, then the second motor 632 in the second motor box 631 is started, the driving gear 635 in the shell 633 is rotated, the driving gear 635 is rotated to drive the driven gear 636 to rotate, the threaded rod 637 at the middle end of the outer side of the connecting seat 634 is driven to rotate, the sliding block 639 is driven to slide up and down by matching with the sliding rod 638, the part to be detected moves to the position right below the detector 613, and the part to be detected is detected;

after the part detection is finished, the synchronous lifting device 63 is started to slide the sliding block 639 to the original horizontal plane, then the power transmission device 62 of the detection device 6 is started again, the sliding device 61 is operated, and the part to be detected is slid to a proper position and taken down.

The utility model provides a computer-assisted industrial part surface detection device, which is characterized in that a sliding device 61 is arranged at the right end of the top of a workbench 4, a power transmission device 62 at the inner side of the sliding device 61 is used for providing power for the rotation of a gear 615, so that the gear 615 is matched with a rack 614 to rotate, the power transmission device 62 slides along a chute of a connecting seat 611, a part to be detected slides to a proper position after being detected, automation of the detection device is improved, manual use is reduced, a synchronous lifting device 63 is arranged at the middle end of the top of the power transmission device 62, a second motor 632 is matched with a driving gear 635 and a driven gear 636 to synchronously drive two groups of threaded rods 637 to rotate, two groups of sliding blocks 639 are synchronously driven to lift to the position right below a detector 613 along a sliding rod 638, the part to be detected in a part placing groove of the two groups of sliding blocks 639 is synchronously detected, and detection efficiency of the part to be detected is improved.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a computer-aided industrial part surface detection device, includes fixing base (1), a set of universal wheel (2) are respectively connected in fixing base (1) bottom four corners, two storage slots are seted up to fixing base (1) front end, two sets of storage slots front end of fixing base (1) is equipped with sliding door (3), fixing base (1) top is equipped with workstation (4), workstation (4) top left end is equipped with computer control platform (5);

the method is characterized in that: still include detection device (6), detection device (6) include slider (61), power transmission device (62) and synchronous elevating gear (63), workstation (4) top right-hand member is equipped with slider (61), embedded power transmission device (62) in slider (61), power transmission device (62) top is equipped with synchronous elevating gear (63).

2. A computer-aided industrial part surface inspection device according to claim 1, wherein: the sliding device (61) comprises a connecting seat (611), a connecting block (612), a detector (613), racks (614) and gears (615), two groups of connecting seats (611) are arranged at the right end of the top of the workbench (4), the connecting block (612) is arranged at the middle end of the top of the connecting seat (611), the detector (613) is arranged at the top end of the inner side of the connecting block (612), a group of sliding grooves are formed in the middle end of the inner side of the connecting seat (611), a group of racks (614) are respectively arranged at the upper end and the lower end of each sliding groove of the connecting seat (611), and the gears (615) are embedded in the racks (614).

3. A computer-aided industrial part surface inspection device according to claim 2, wherein: the power transmission device (62) comprises a sliding seat (621), a first motor case (622), a first motor (623), a first transmission shaft (624), a guide rod (625), a driving bevel gear (626), a driven bevel gear (627), a second transmission shaft (628) and a connecting shaft (629), wherein the sliding seat (621) is arranged on the inner side of the connecting seat (611), the first motor case (622) with the first motor (623) arranged inside is connected to the middle end of the back of the sliding seat (621), an output shaft of the first motor (623) penetrates through the back of the sliding seat (621) and is connected with the rear end of the first transmission shaft (624), the front end of the first transmission shaft (624) penetrates through the guide rod (625) and then is connected with the driving bevel gear (626), the left side and the right side of the front end of the driving bevel gear (626) are connected with one end of the driven bevel gear (627), the other end of the driven bevel gear (627) is connected with the corresponding connecting shaft (629) through the second transmission shaft (625) penetrating through the guide rod (625) on the middle ends of the two sides of the sliding seat (621).

4. A computer-aided industrial part surface inspection device according to claim 3, wherein: the synchronous lifting device (63) comprises a second motor box (631), a second motor (632), a shell (633), a connecting seat (634), a driving gear (635), a driven gear (636), a threaded rod (637), a sliding rod (638) and a sliding block (639), wherein a group of connecting seats (634) are respectively arranged at the left end and the right end of the top of the sliding seat (621), the middle ends of the tops of the connecting seats (634) are connected through the shell (633), the second motor box (631) with the second motor (632) is arranged inside the left end of the top of the shell (633), an output shaft of the second motor (632) penetrates through the left end of the top of the shell (633) and then is connected with the driving gear (635), the outer side of the driving gear (635) is connected with the driven gear (636), three groups of square grooves are formed in the outer side of the connecting seat (634) at equal intervals, the square grooves of the middle ends of the outer side of the connecting seat (634) are embedded into the threaded rod (637), a group of connecting seats (638) are respectively embedded into the square grooves of the front end and the rear end of the outer side of the connecting seat (634), the two groups of connecting seats (634) are respectively inserted into the two groups of the sliding rod (638) through the threaded rod (636) and the driven gear (636) The threaded rod (637) is connected to the slider (639).

5. A computer-aided industrial part surface inspection device according to claim 2, wherein: the width of the connecting seat (611) is smaller than that of the workbench (4), and the gear (615) is meshed with the rack (614).

6. A computer-aided industrial part surface inspection device according to claim 3, wherein: the width of the sliding seat (621) is one third of the width of the connecting seat (611), and the height of the sliding seat (621) is smaller than the height of the connecting seat (611).

7. A computer-aided industrial part surface inspection apparatus according to claim 4, wherein: part placing grooves are formed in the tops of the sliding blocks (639), and the length and the width of the part placing grooves are smaller than those of the detector (613).

8. A computer-aided industrial part surface inspection apparatus according to claim 4, wherein: the length of the shell (633) is equal to the length of the two sets of engagement seats (634) plus the spacing between the two sets of engagement seats (634).

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