CN114371129A - Appearance detection device for effectively protecting bearing - Google Patents

Abstract

The invention belongs to the technical field of bearing quality detection, and particularly relates to an appearance detection device for effectively protecting a bearing, which comprises a slideway seat, two lower mounting plates, an upper mounting plate, a bearing transverse conveying mechanism and a bearing clamping mechanism, wherein the two lower mounting plates are arranged in parallel; the output end of the bearing transverse conveying mechanism is connected with the upper mounting plate, the bearing clamping mechanism comprises a station overturning clamping plate, a clamping cylinder, a first gear and racks, the output end of the clamping cylinder is connected with one of the lower mounting plates, and the two racks are fixedly connected with the different lower mounting plates respectively. The bearing moves forwards on the smooth toughened glass on the upper surface of the slideway seat, the end surface of the bearing cannot be abraded, and in addition, when the bearing moves forwards, the bearing is clamped by the station overturning clamping plates on the two sides, the outer circular ring surface of the bearing cannot rub other parts, the bearing can be effectively protected, the bearing cannot be abraded in the forward conveying process, and the defective rate is greatly reduced.

Description

Appearance detection device for effectively protecting bearing

Technical Field

The invention belongs to the technical field of bearing detection, and particularly relates to an appearance detection device for effectively protecting a bearing.

Background

The bearing belongs to a precise part, the appearance of the bearing is required to be checked before leaving a factory, defective bearings with pits, bulges, rusty spots, burrs or microcracks on the surfaces are selected, manual selection is adopted in the traditional method, and the defective bearings need to be selected by experienced workers in the eyes, so that the phenomenon of false detection and missed detection is easy to occur, and the efficiency is low.

At present, also appeared in the market the equipment that many outward appearances to the bearing carry out automated inspection, mostly detect the flaw that the camera replaced the manual work to carry out the identification analysis bearing through CCD, general bearing is put and is transported forward on the conveyer belt, in order to realize accurate location, one side or both sides of general bearing need have the baffle to lead to, because the conveyer belt is more crude, the bottom face and the conveyer belt friction of bearing are easy with the surface mill flower of bearing, on the other hand, the in-process baffle that carries forward at the bearing also can cause wearing and tearing to the outer anchor ring face of bearing, and then increase the disability rate of bearing.

In addition, some bearing appearance detection equipment cannot perform appearance detection on the bearing in all directions, and when the back surface of the bearing needs to be turned over, the bearing is easily damaged by the turning mechanism.

Disclosure of Invention

The invention aims to overcome the defects that the bearing detection efficiency is low, the bearing is easily abraded in the detection process and the bearing appearance cannot be detected in all directions in the prior art, and provides an appearance detection device for effectively protecting the bearing without abrasion in all directions.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides an outward appearance detection device of effective protection bearing which characterized in that: the device comprises a slideway seat, two lower mounting plates which are arranged on the left side and the right side of the slideway seat and are parallel to each other, an upper mounting plate which is arranged parallel to the lower mounting plate, a bearing transverse conveying mechanism which is connected to the lower mounting plate in a sliding way, and a bearing clamping mechanism which is used for clamping a bearing; the output of bearing lateral conveying mechanism is connected go up the mounting panel, bearing fixture including fix respectively two relative settings on two last mounting panels be used for the station upset grip block of centre gripping bearing, set up the centre gripping cylinder in one of them lower mounting panel one side, set up the first gear between two lower mounting panels and around first gear both sides respectively with the two mutual parallel arrangement's of first gear engagement rack, wherein the output of centre gripping cylinder is connected with one of them lower mounting panel, two racks respectively with different lower mounting panel fixed connection.

Furthermore, one end of each of the two station overturning clamping plates, which is opposite to the other end, is provided with a bearing bayonet, and the bearing is clamped by gathering the two station overturning clamping plates towards the middle at the same time.

Further, the upper surface of the slideway seat is made of toughened glass, and the bearing is placed on the toughened glass of the slideway seat.

Further, the bearing lateral conveying mechanism comprises: the output end of the transverse conveying cylinder is connected to the upper mounting plate, and the upper mounting plate is driven to move one station at each time through the stretching of the transverse conveying cylinder.

Further, still include bearing tilting mechanism, bearing tilting mechanism includes: the turning device comprises two turning lifting cylinders symmetrically arranged on two upper mounting plates, a turning motor arranged at the output end of one turning lifting cylinder, a base arranged on the other turning lifting cylinder, two opposite turning clamping plates and a clamping piece arranged on the turning clamping plates, wherein the clamping piece extends towards the direction in which the turning clamping plates clamp a bearing and is used for supporting the bearing by turning the bearing; wherein the overturning clamping plate on one side is fixedly connected to an output shaft of the overturning motor, and the overturning clamping plate on the other side is rotatably connected to the base through a rotating shaft.

Furthermore, the rotating shaft is provided with a connecting seat, the connecting seat is provided with a positioning hole, the base is provided with a second positioning cylinder, the telescopic shaft of the second positioning cylinder is inserted into the positioning hole to position the bearing after the bearing is turned over, and the bearing is guaranteed to be stably prevented from being arranged on the toughened glass on the upper surface of the slide way seat.

The bearing turnover mechanism is positioned between the second detection station and the third detection station, and the first detection station is aligned to chamfers of an inner circular ring surface and an A end surface of the bearing through a first CCD detection camera; the second detection station detects that the camera is aligned to the end face A of the bearing through a second CCD; the bearing turnover mechanism turns the bearing 180 degrees; the third detection station detects that the camera is aligned to the end face B of the bearing through a third CCD; and the fourth detection station detects the chamfers of the outer annular surface and the end surface B of the bearing aligned by the camera through the fourth CCD.

Further, the first detection station comprises a circumferential rotating motor, a second pinion arranged on an output shaft of the circumferential rotating motor, a third bull gear meshed with the second pinion, a lens fixing seat fixedly connected to the third bull gear, and a glass lens fixed on the top of the lens fixing seat; the third gearwheel is a hollow gear, a second light source is fixedly mounted at the bottom of the third gearwheel, the middle of the lens fixing seat is of a hollow structure, and light of the second light source penetrates through the hollow gear and the hollow part in the middle of the lens fixing seat and is projected onto the glass lens; the lens fixing seat penetrates through the slideway seat, and the glass lens is flush with the upper surface of the slideway seat.

Further, the second detection station and the third detection station have the same structure, and the second detection station comprises: the light source mounting plate comprises a second vertical rod, a first light source mounting plate and a second light source mounting plate, wherein the second vertical rod is positioned on the outer side of the upper mounting plate; the light source lifting cylinder is arranged below the first light source mounting plate, the output end of the light source lifting cylinder is connected with the first light source mounting plate, the third light source is mounted on the first light source mounting plate, the fourth light source and the fifth light source are mounted above and below the second light source mounting plate, the third light source, the fourth light source and the fifth light source are all circular light sources and are arranged coaxially, and the diameter of the fifth light source is larger than the diameter of the fourth light source and larger than the diameter of the third light source; a second CCD detection camera is mounted at the uppermost part of the second light source mounting plate, and the central axis of the second CCD detection camera is superposed with the central axis of the fifth light source; through three light rings with diameters increasing from bottom to top, the bearing is comprehensively polished.

Still further, the fourth inspection station includes: the third vertical rod is positioned on the outer side of the upper mounting plate, a ninth light source and a lifting rod are slidably mounted on the third vertical rod, a fourth CCD detection camera and a shaft pressing cylinder positioned at the end part of the lifting rod are mounted on the lifting rod, and a positioning head is mounted at the output end of the shaft pressing cylinder; the fourth detection station also comprises a fourth detection lifting cylinder arranged below the slide way seat, a fourth detection rotating motor connected to the output end of the fourth detection lifting cylinder and a support shaft arranged on a rotating shaft of the fourth detection rotating motor; the bearing to be detected is positioned above the supporting shaft.

The appearance detection device for effectively protecting the bearing has the beneficial effects that:

1. the bearing moves forward on the smooth toughened glass on the upper surface of the slideway seat, the end surface of the bearing cannot be abraded, in addition, when the bearing moves forward, the bearing is clamped by the station overturning clamping plates on the two sides, the outer circular ring surface of the bearing cannot rub with other parts, the bearing can be effectively protected, the bearing cannot be abraded in the forward conveying process, and the defective rate is greatly reduced.

2. Detect the bearing all-round shooing detection through four detection stations to detect the back at the A terminal surface of bearing and interior anchor ring and chamfer and being detected the completion, through bearing tilting mechanism with bearing upset 180, resume again and shoot the detection to the B terminal surface of bearing and outer anchor ring and chamfer, the missed measure false-detection phenomenon can not appear, and detection efficiency is high.

3. The upside and the downside of first detection station set up first light source and second light source respectively and realize shining the abundant polishing of the interior circle anchor ring of bearing to through the rotatory 360 of circumference rotating electrical machines drive bearing, fully shoot the interior circle anchor ring of bearing.

4. The bearing clamping mechanism enables the two oppositely-arranged station overturning clamping plates to be synchronously separated towards two sides or gathered towards the middle, and the bearing is guaranteed to be positioned at the same position on the station every time.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is an overall structural view of an embodiment of the present invention;

FIG. 2 is a perspective view of a bearing feeding and positioning mechanism according to an embodiment of the present invention;

FIG. 3 is a perspective view of a bearing retainer mechanism in accordance with an embodiment of the present invention;

FIG. 4 is a perspective view of a first inspection station in accordance with an embodiment of the present invention;

FIG. 5 is a rear perspective view of a first inspection station default slide mount in accordance with an embodiment of the present invention;

FIG. 6 is a perspective view of a second inspection station in accordance with an embodiment of the present invention;

FIG. 7 is a perspective view of a bearing canting mechanism in accordance with an embodiment of the present invention;

FIG. 8 is a perspective view of another perspective view of a bearing canting mechanism in accordance with an embodiment of the present invention;

FIG. 9 is a perspective view of a fourth inspection station and outfeed station of an embodiment of the present invention;

FIG. 10 is a perspective view of a fourth inspection station in accordance with an embodiment of the present invention.

In the figure, the device comprises a bearing 1, a bearing 2, a bearing transverse conveying mechanism 21, a transverse guide rail 22, a transverse conveying cylinder 3, a bearing feeding positioning mechanism 31, a positioning frame 311, a limiting bayonet 32, a positioning cylinder 33, a push block 34, a push column 35, a guide plate 4, a bearing clamping mechanism 41, a station overturning clamping plate 411, a bearing bayonet 42, a clamping cylinder 43, a first gear 44, a rack 45, a longitudinal guide rail 5, a bearing overturning mechanism 51, an overturning lifting cylinder 52, an overturning motor 53, a base 54, a card 55, a connecting seat 551, a positioning hole 56, a second positioning cylinder 57, an overturning clamping plate 6, a first detection station 61, a first vertical rod 62, a first light source 63, a first CCD detection camera 64, a circumferential rotation motor 65, a second pinion 66, a third large gear 67, a first CCD detection station 61, a first CCD detection station 61, a first vertical rod 62, a first light source 63, a second CCD detection camera 64, a circumferential rotation motor 65, a second pinion 66, a third large gear, a third gear, a fourth gear, a fifth gear, a sixth gear, a fifth gear, a sixth gear, a sixth gear, A lens fixing seat 68, a glass lens 69, a second light source 7, a second detection station 71, a second vertical rod 72, a first light source mounting plate 73, a second light source mounting plate 74, a light source lifting cylinder 75, a fourth light source 76, a fifth light source 77, a second CCD detection camera 8, a third detection station 81, a third CCD detection camera 82, a sixth light source 83, a seventh light source 84, an eighth light source 9, a fourth detection station 91, a third vertical rod 92, a ninth light source 93, a lifting rod 94, a fourth CCD detection camera 95, a pressing shaft cylinder 96, a positioning head 97, a fourth detection lifting cylinder 98, a fourth detection rotating motor 99, a supporting shaft 10, an output station 101, a material cylinder 102, a material kicking plate 103, a material kicking column 104, a defective material dropping port 11, an upper part 12, a slide way seat 13, lower mounting plate, 14, conveying chute, 15, bottom plate.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

In the embodiment of the present invention, for the sake of convenience of distinction, the front surface of the bearing 1 is referred to as an a-end surface, and the rear surface of the bearing 1 is referred to as a B-end surface.

The embodiment of the appearance inspection device for effectively protecting a bearing according to the present invention as shown in fig. 1 to 10 includes: the device comprises a bottom plate 15, a slideway seat 12 installed on the bottom plate 15, a lower mounting plate 13 which is longitudinally and slidably connected with the bottom plate 15 and is arranged in parallel, an upper mounting plate 11 which is transversely and slidably connected with the lower mounting plate 13 and is arranged in parallel, a bearing feeding positioning mechanism 3, a bearing clamping mechanism 4, a bearing turnover mechanism 5 and a bearing transverse conveying mechanism 2. The appearance detection device for effectively protecting the bearing is divided into four detection stations, and each station is used for detecting whether defects such as salient points, black points, rusty spots, burrs, microcracks and the like exist at different parts of the bearing 1; the first detection station 6 is used for detecting the chamfer and the inner ring circumferential surface of the end surface A of the bearing 1, the second detection station 7 is used for detecting the end surface A of the bearing 1, the third detection station 8 is used for detecting the end surface B of the bearing 1, and the fourth detection station 9 is used for detecting the chamfer and the outer ring circumferential surface of the end surface B of the bearing 1.

The upper surface of the slide way seat 12 is made of toughened glass, the feeding end of the slide way seat 12 is provided with a feeding groove 14, and the bearing 1 enters the bearing feeding positioning mechanism 3 through the feeding groove 14. The bearing 1 is loaded on the toughened glass of the slideway block 12.

Bearing material loading positioning mechanism 3 includes: the positioning frame 31 fixed on one of the upper mounting plates 11, the positioning cylinder 32 mounted on the slideway seat 12, and the pushing block 33 fixedly connected with the output end of the positioning cylinder 32, the end of the positioning frame 31 is provided with a limit bayonet 311, the pushing block 33 is fixedly connected with a pushing column 34 and a guide plate 35, a space for accommodating the bearing 1 is arranged between the pushing column 34 and the guide plate 35, the positioning cylinder 32 extends, and the pushing column 34 and the guide plate 35 push the bearing 1 into the limit bayonet 311, so that the loading positioning of the bearing 1 is realized.

The bearing holding mechanism 4 includes: the bearing overturning device comprises two oppositely arranged station overturning clamping plates 41 which are respectively fixed on two upper mounting plates 11 and used for clamping a bearing 1, a clamping cylinder 42 arranged on one side of one lower mounting plate 13, a first gear 43 which is rotatably connected on the bottom plate 15, and two racks 44 which are arranged in parallel and are respectively meshed with the first gear 43 on the front side and the rear side of the first gear 43, wherein the output end of the clamping cylinder 42 is connected with one lower mounting plate 13, the two racks 44 are respectively and fixedly connected with different lower mounting plates 13, one opposite ends of the two station overturning clamping plates 41 are provided with bearing bayonets 411, and the bearing 1 is clamped by simultaneously gathering the two station overturning clamping plates 41 towards the middle. Two longitudinal guide rails 45 arranged in parallel are fixed on the bottom plate 15, and the lower mounting plate 13 is connected to the two longitudinal guide rails 45 in a sliding manner. Wherein the first gear 43 is arranged between the two lower mounting plates 13.

Specifically, the clamping cylinder 42 extends to push the lower mounting plate 13 and the rack 44 connected with the clamping cylinder to move towards the middle, meanwhile, the rack 44 on the side of the clamping cylinder 42 drives the first gear 43 to rotate, the first gear 43 rotates to further drive the rack 44 on the other side to move, the lower mounting plate 13 on the other side is synchronously gathered towards the middle, and then the two-station overturning clamping plate 41 is made to be gathered towards the middle for butt joint. When the clamping cylinder 42 contracts, the lower mounting plate 13 synchronously moves longitudinally towards two sides, so that the two station turnover clamping plates 41 are separated, and the bearing 1 is loosened.

The lower mounting plate 13 has transverse rails 21 thereon, and the upper mounting plate 11 is slidably attached to the lower mounting plate 13.

The bearing lateral transfer mechanism 2 includes: the output end of the transverse conveying cylinder 22 is connected to the upper mounting plate 11, and the upper mounting plate 11 is driven to move one station at a time through the extension and contraction of the transverse conveying cylinder 22.

When the bearing transverse conveying mechanism 2 moves forwards, the bearing clamping mechanism 4 clamps the bearing to move forwards synchronously, and when the bearing transverse conveying mechanism 2 moves backwards, the bearing clamping mechanism 4 releases the bearing.

The bearing turning mechanism 5 includes: the bearing overturning device comprises two overturning lifting cylinders 51 symmetrically installed on the two upper installation plates 11, an overturning motor 52 installed at the output end of one of the overturning lifting cylinders 51, a base 53 installed on the other overturning lifting cylinder 51, two overturning clamping plates 57 oppositely arranged, and a clamping piece 54 arranged on the overturning clamping plate 57, wherein the clamping piece 54 extends towards the direction in which the overturning clamping plate 57 clamps the bearing 1, specifically, in the embodiment, a bearing bayonet of the clamping piece 54 overturning clamping plate 57 extends to overturn the bearing 1 so as to support the bearing 1. The overturning clamping plate 57 on one side is fixedly connected to an output shaft of the overturning motor 52, the overturning clamping plate 57 on the other side is rotatably connected to the base 53 through a rotating shaft, the rotating shaft is provided with a connecting seat 55, the connecting seat 55 is provided with a positioning hole 551, the base 53 is provided with a second positioning cylinder 56, and a telescopic shaft of the second positioning cylinder 56 is inserted into the positioning hole 551 to position the bearing 1 after overturning, so that the bearing 1 is ensured to be stably prevented from being arranged on the toughened glass on the upper surface of the slideway base 12.

Specifically, when the bearing 1 is conveyed to the turning station, the bearing 1 is clamped by the two turning clamping plates 57 of the turning station, the turning lifting cylinder 51 extends, the turning clamping plates 57 and the bearing 1 are supported to be away from the toughened glass on the slideway seat 12 for a certain distance, then the turning motor 52 rotates, and after the turning clamping plates 57 and the bearing 1 are turned for 180 degrees, the bearing 1 is put down onto the toughened glass.

A first vertical rod 61 is arranged on the bottom plate 15 of the first detection station 6, and a first light source 62 is connected to the first vertical rod 61 in a vertical sliding manner; but first CCD detects camera 63 angle regulation and height-adjusting's installation on first montant 61, and first CCD detects camera 63 and aims at bearing 1 on first detection station 6.

The first detection station 6 is provided with a circumferential rotation mechanism for driving the bearing 1 to rotate, and the circumferential rotation mechanism comprises a circumferential rotation motor 64, a second pinion 65 arranged on an output shaft of the circumferential rotation motor 64, a third bull gear 66 meshed with the second pinion 65, a lens fixing seat 67 fixedly connected to the third bull gear 66 and a glass lens 68 fixed on the top of the lens fixing seat 67; the third gearwheel 66 is a hollow gear, a second light source 69 is fixedly mounted at the bottom of the third gearwheel 66, the middle of the lens fixing seat 67 is of a hollow structure, and light of the second light source 69 passes through the hollow gear and the hollow part in the middle of the lens fixing seat 67 and is projected onto the glass lens 68; the lens fixing seat 67 passes through the slideway seat 12, and the glass lens 68 is flush with the toughened glass on the upper surface of the slideway seat 12.

Because the first CCD detection camera 63 is located at one side of the bearing 1, the bearing 1 located on the glass lens 68 is driven by the circumferential rotating motor 64 to rotate slowly, and 360-degree shooting of chamfers of the outer circular surface and the front surface of the bearing 1 is completed.

The second detection station 7 and the third detection station 8 are provided with upper polishing mechanisms with the same structure, each upper polishing mechanism comprises a second upper polishing mechanism positioned on the second detection station 7 and a third upper polishing mechanism positioned on the third detection station 8, and each second upper polishing mechanism comprises a second vertical rod 71 positioned on the outer side of the upper mounting plate 11, a first light source mounting plate 72 slidably mounted on the second vertical rod 71 and a second light source mounting plate 73 fixed on the upper part of the second vertical rod 71; the light source lifting cylinder 74 is arranged below the first light source mounting plate 72, the output end of the light source lifting cylinder 74 is connected with the first light source mounting plate 72, the third light source is mounted on the first light source mounting plate 72, the second light source mounting plate 73 is a hole plate, the second light source mounting plate 73 is provided with a fourth light source 75 and a fifth light source 76 from top to bottom, the third light source, the fourth light source 75 and the fifth light source 76 are all circular light sources and are arranged coaxially, and the diameter of the fifth light source 76 is larger than that of the fourth light source 75 and larger than that of the third light source. A second CCD detection camera 77 is mounted on the uppermost portion of the second light source mounting plate 73, and the center axis of the second CCD detection camera 77 coincides with the center axis of the fifth light source 76. The bearing 1 is completely polished by the three light rings with diameters increasing from bottom to top.

The third inspection station 8 has a third CCD inspection camera 81, a sixth light source 82, a seventh light source 83, and an eighth light source 84.

Fourth detection station 9 is including being located the third montant 91 in the mounting panel 11 outside, and slidable mounting has ninth light source 92 and lifter 93 on third montant 91, install fourth CCD on the lifter 93 and detect camera 94 and be located the last pressure axle cylinder 95 of lifter 93 tip, location head 96 is installed to the output of pressure axle cylinder 95. The fourth detection station 9 further includes a fourth detection lifting cylinder 97 installed below the slide rail seat 12, a fourth detection rotating motor 98 connected to an output end of the fourth detection lifting cylinder 97, and a support shaft 99 installed on a rotating shaft of the fourth detection rotating motor 98.

The fourth detects the station 9 rear and is export station 10, and the good product promotes the bearing 1 in the place ahead through the bearing 1 of constantly carrying earlier and moves the output forward, and the substandard product is kicked out through kicking the material mechanism.

The output station 10 is located the end of the slide way seat, the kicking mechanism comprises a kicking cylinder 101 arranged on the side face of the end of the slide way seat 12, the output end of the kicking cylinder 101 is connected with a kicking plate 102, a kicking column 103 is arranged below the kicking plate 102, the kicking column 10 kicks out defective products through the extension of the kicking cylinder 101, and the defective products fall from a defective product blanking port 104 on one side of the slide way seat 12.

Specifically, the working principle of the appearance detection device for effectively protecting the bearing provided by the invention is as follows:

firstly, a bearing 1 is placed on toughened glass on a slide rail seat 12 through a material conveying groove 14, a positioning air cylinder 32 extends out to push the bearing 1 to enter a limiting bayonet 311 at the end part of a positioning frame 31, the bearing 1 of each station is clamped through a bearing clamping mechanism 4 at the moment, a transverse conveying air cylinder 22 contracts to drive the bearings 1 on all stations to move to the next station on the toughened glass, then the bearing clamping mechanism 4 loosens the bearing 1, and the transverse conveying air cylinder 22 extends to enable a turnover clamping plate 41 of each station to retreat to the previous station for continuously clamping the next bearing 1. After the bearing 1 is loosened by the station overturning clamping plate 41, the bearing 1 of the first detection station 6 is positioned on the glass mirror surface, the first CCD detection camera 63 aims at the outer annular surface and the front chamfer of the bearing 1 to take a picture, meanwhile, the circumferential rotating motor 64 drives the bearing 1 positioned on the glass lens 68 to slowly rotate for 360 degrees, after the detection of the first detection station 6 is finished, the bearing 1 is continuously conveyed forwards to the second detection station 7, and the second CCD detection camera 77 on the second detection station 7 aims at the A end surface of the bearing 1 on the station to take a picture for detection; after the second detection station 7 finishes photographing, the bearing 1 is continuously conveyed forward to one station to turn over the bearing 1, specifically, the two station turning clamping plates 41 of the turning stations clamp the bearing 1, the two turning lifting cylinders 51 extend simultaneously, the station turning clamping plates 41 and the bearing 1 are lifted up to be away from the toughened glass for a certain distance, the turning motor 52 rotates, after the bearing 1 is turned over for 180 degrees, the turning lifting cylinders 51 contract to place the bearing 1 on the toughened glass, then the bearing 1 is conveyed forward to a third detection station 8 through a transverse conveying mechanism, the bearing clamping mechanism 4 loosens the bearing 1, and each station turning clamping plate 41 returns to the previous station; the third detection station 8 photographs and detects the end face of the turned bearing 1B; then the transverse conveying mechanism continuously conveys the bearing 1 to the supporting shaft 99 of the fourth detection station 9, the fourth detection lifting cylinder 97 extends to lift the bearing 1, the shaft pressing cylinder 95 extends, the positioning head 96 presses the inner ring of the bearing 1, then the fourth detection rotating motor 98 rotates the bearing 1 by 360 degrees, and the fourth CCD detection camera 94 photographs the oblique chamfer and the circumferential surface of the outer ring of the end surface of the bearing 1B.

In the invention, the bearing 1 is clamped and conveyed by the station overturning clamping plate 41 when being conveyed forwards, the bearing 1 is not abraded due to the contact friction between the outer ring surface of the bearing 1 and the guide plate 35 in the traditional conveying mode, and meanwhile, the contact between the lower parts of the end surfaces A and B of the bearing 1 is the smooth toughened glass, so that the friction of the traditional rough conveying belt is avoided.

It should be understood that the above-described specific embodiments are merely illustrative of the present invention and are not intended to limit the present invention. Obvious variations or modifications which are within the spirit of the invention are possible within the scope of the invention.

Claims (10)

1. The utility model provides an outward appearance detection device of effective protection bearing which characterized in that: the device comprises a slideway seat (12), two lower mounting plates (13) which are arranged on the left side and the right side of the slideway seat (12) and are arranged in parallel, an upper mounting plate (11) which is arranged in parallel with the lower mounting plates (13), a bearing transverse conveying mechanism (2) which is connected to the lower mounting plates (13) in a sliding way, and a bearing clamping mechanism (4) which is used for clamping a bearing (1); the output end of the bearing transverse conveying mechanism (2) is connected with the upper mounting plate (11), the bearing clamping mechanism (4) comprises two oppositely-arranged station overturning clamping plates (41) which are fixed on the two upper mounting plates (11) respectively and used for clamping the bearing (1), a clamping cylinder (42) arranged on one side of one of the lower mounting plates (13), a first gear (43) arranged between the two lower mounting plates (13) and two mutually-parallel-arranged racks (44) which are meshed with the first gear (43) respectively on the front side and the rear side of the first gear (43), wherein the output end of the clamping cylinder (42) is connected with one of the lower mounting plates (13), and the two racks (44) are fixedly connected with the different lower mounting plates (13) respectively.

2. The appearance inspection device for effectively protecting the bearing according to claim 1, wherein: and one end of each of the two station overturning clamping plates (41) opposite to each other is provided with a bearing bayonet (411), and the two station overturning clamping plates (41) are gathered towards the middle simultaneously to clamp the bearing (1).

3. The appearance inspection device for effectively protecting the bearing according to claim 1, wherein: the upper surface of the slideway seat (12) is made of toughened glass, and the bearing (1) is placed on the toughened glass of the slideway seat (12).

4. The appearance inspection device for effectively protecting the bearing according to claim 3, wherein: the bearing transverse conveying mechanism (2) comprises: the horizontal conveying cylinder (22) is installed on the lower installation plate (13), the output end of the horizontal conveying cylinder (22) is connected to the upper installation plate (11), and the upper installation plate (11) is driven to move by one station each time through the stretching of the horizontal conveying cylinder (22).

5. The appearance inspection device for effectively protecting the bearing according to claim 1, wherein: still include bearing tilting mechanism (5), bearing tilting mechanism (5) include: the bearing overturning and clamping device comprises two overturning and lifting cylinders (51) symmetrically arranged on two upper mounting plates (11), an overturning motor (52) arranged at the output end of one overturning and lifting cylinder (51), a base (53) arranged on the other overturning and lifting cylinder (51), two overturning and clamping plates (57) oppositely arranged, and a clamping piece (54) arranged on the overturning and clamping plate (57), wherein the clamping piece (54) extends towards the direction of clamping the bearing (1) by the overturning and clamping plate (57) and is used for overturning the bearing (1) to support the bearing (1); wherein, the overturning clamping plate (57) at one side is fixedly connected on the output shaft of the overturning motor (52), and the overturning clamping plate (57) at the other side is rotatably connected on the base (53) through a rotating shaft.

6. The appearance inspection device for effectively protecting the bearing according to claim 5, wherein: the rotating shaft is provided with a connecting seat (55), the connecting seat (55) is provided with a positioning hole (551), the base (53) is provided with a second positioning cylinder (56), and the telescopic shaft of the second positioning cylinder (56) is inserted into the positioning hole (551) to position the bearing (1) after overturning, so that the bearing (1) is stably prevented from being arranged on the toughened glass on the upper surface of the slide way seat (12).

7. The appearance inspection device for effectively protecting the bearing according to claim 2, wherein: the bearing turnover mechanism comprises a first detection station (6), a second detection station (7), a third detection station (8) and a fourth detection station (9) which are sequentially arranged from left to right, wherein a bearing turnover mechanism (5) is positioned between the second detection station (7) and the third detection station (8), and the first detection station (6) is aligned to an inner circle ring surface of a bearing (1) and a chamfer angle of an A end surface through a first CCD (charge coupled device) detection camera (63); the second detection station (7) is aligned to the end face A of the bearing (1) through a second CCD detection camera (77); the bearing turnover mechanism (5) turns the bearing (1) for 180 degrees; the third detection station (8) is aligned to the end face B of the bearing (1) through a third CCD detection camera (81); and the fourth detection station (9) is aligned to the outer annular surface of the bearing (1) and the chamfer of the end surface B through a fourth CCD detection camera (94).

8. The appearance inspection device for effectively protecting the bearing according to claim 7, wherein: the first detection station (6) comprises a circumferential rotating motor (64), a second pinion (65) arranged on an output shaft of the circumferential rotating motor (64), a third large gear (66) meshed with the second pinion (65), a lens fixing seat (67) fixedly connected to the third large gear (66) and a glass lens (68) fixed to the top of the lens fixing seat (67); the third large gear (66) is a hollow gear, a second light source (69) is fixedly mounted at the bottom of the third large gear (66), the middle of the lens fixing seat (67) is of a hollow structure, and light of the second light source (69) penetrates through the hollow gear and the hollow part in the middle of the lens fixing seat (67) and is projected onto the glass lens (68); the lens fixing seat (67) penetrates through the slideway seat (12), and the glass lens (68) is flush with the upper surface of the slideway seat (12).

9. The appearance inspection device for effectively protecting the bearing according to claim 8, wherein: the second detection station (7) and the third detection station (8) are identical in structure, and the second detection station (7) comprises: the light source mounting device comprises a second vertical rod (71) positioned on the outer side of an upper mounting plate (11), a first light source mounting plate (72) slidably mounted on the second vertical rod (71), and a second light source mounting plate (73) fixed to the upper portion of the second vertical rod (71); the light source lifting cylinder (74) is arranged below the first light source mounting plate (72), the output end of the light source lifting cylinder (74) is connected with the first light source mounting plate (72), the third light source is mounted on the first light source mounting plate (72), the fourth light source (75) and the fifth light source (76) are mounted on the second light source mounting plate (73) vertically, the third light source, the fourth light source (75) and the fifth light source (76) are all circular light sources and are arranged coaxially, and the diameter of the fifth light source (76) is larger than that of the fourth light source (75) and larger than that of the third light source; a second CCD detection camera (77) is arranged at the uppermost part of the second light source mounting plate (73), and the central axis of the second CCD detection camera (77) is overlapped with the central axis of the fifth light source (76); the bearing (1) is completely polished by the three light rings with diameters increasing from bottom to top.

10. The appearance inspection device for effectively protecting the bearing according to claim 7, wherein: the fourth inspection station (9) comprises: a ninth light source (92) and a lifting rod (93) are slidably mounted on the third vertical rod (91) outside the upper mounting plate (11), a fourth CCD detection camera (94) and a shaft pressing cylinder (95) located at the end of the lifting rod (93) are mounted on the lifting rod (93), and a positioning head (96) is mounted at the output end of the shaft pressing cylinder (95); the fourth detection station (9) further comprises a fourth detection lifting cylinder (97) arranged below the slide rail seat (12), a fourth detection rotating motor (98) connected to the output end of the fourth detection lifting cylinder (97) and a support shaft (99) arranged on a rotating shaft of the fourth detection rotating motor (98); the bearing (1) to be detected is positioned above the supporting shaft (99).

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