CN116851288A

CN116851288A - Detection device for outer groove of bearing ring

Info

Publication number: CN116851288A
Application number: CN202310838557.1A
Authority: CN
Inventors: 王日华
Original assignee: Hai'an Yading Electromechanical Manufacturing Co ltd
Current assignee: Hai'an Yading Electromechanical Manufacturing Co ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2023-10-10
Anticipated expiration: 2043-07-10
Also published as: CN116851288B

Abstract

The invention discloses a detection device for an outer groove of a bearing ring, which relates to the technical field of bearing production and comprises a chassis and a detection assembly, wherein a conveying plate is fixedly connected above the chassis, baffle plates are symmetrically and fixedly connected on the front side and the rear side of the conveying plate, a stop lever is fixedly connected above the left part of the baffle plates, a limit plate is fixedly connected above the right part of the baffle plates, the detection assembly is arranged on the right part of the baffle plates, an interception assembly is arranged in the middle of the chassis, two material leakage holes are formed in the right part of the chassis, sliding grooves are symmetrically formed on the front side and the rear side of the upper part of the material leakage holes on the right side of the chassis, a baffle plate is connected in a sliding manner, and a push rod is fixedly connected on one side, far away from each other, of the baffle plates. When the device is used, the groove detection can be carried out while the ferrules are transported, the unprocessed grooves and unqualified ferrules with the grooves are respectively screened out, and the subsequent ferrules can be blocked during detection, so that the influence on the detection and the detection error are avoided.

Description

Detection device for outer groove of bearing ring

Technical Field

The invention relates to the technical field of bearing production, in particular to a detection device for an outer groove of a bearing ring.

Background

Bearings are an important component in contemporary mechanical devices. The main function of the device is to support the mechanical rotator, reduce the friction coefficient in the motion process and ensure the rotation precision, the bearing ring is an important component of the bearing, and is an annular part of a radial rolling bearing with one or more raceways, and the grooves of the bearing ring are often required to be detected when the bearing ring is processed.

When detecting the slot of bearing ring, most is concentrated the lasso after will a large amount of processing first to the detection device department, and the detection device is used again to detect it in proper order, and the transportation process is comparatively consuming time, if adopt the manual work to detect when transporting then probably can lead to the detection error great because of the precision of naked eye observation is lower.

In view of the above, research and improvement have been made on the conventional structure and defects, and a device for detecting the outer groove of the bearing ring has been proposed.

Disclosure of Invention

The invention aims to provide a detection device for an outer groove of a bearing ring, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a detection device of bearing ring external groove, includes chassis and detection subassembly, both sides fixedly connected with delivery board around the delivery board, and delivery board front and back both sides fixedly connected with baffle, baffle left side top fixedly connected with pin, and baffle upper right side fixedly connected with limiting plate, detection subassembly sets up in baffle right part, the chassis middle part is provided with interception subassembly, and chassis right part is provided with two material leakage mouths, spout has been seted up to both sides symmetry around material leakage mouthful upper portion on chassis right side, and sliding connection has the baffle in the spout, one side fixedly connected with push rod that the baffle kept away from each other, limiting plate top fixedly connected with crossbeam, and crossbeam left part fixedly connected with drive wheel, the drive wheel right-hand drive wheel is provided with the drive wheel, and drive wheel below fixedly connected with motor, drive wheel below fixedly connected with lifter, limiting plate left part is provided with drive assembly.

Further, the detection component comprises a bottom plate, a detection rod, a first contact and a second contact, the right part of the baffle is slidably connected with the bottom plate, the middle part of one side, close to the bottom plate, of the baffle is fixedly connected with the detection rod, the left end of the detection rod is fixedly connected with the first contact, the right part of the detection rod is symmetrically and fixedly connected with the second contact, and the second contact is electrically connected with the push rod.

Further, the detection assembly further comprises a sliding plate and a tension spring, one side, away from the bottom plate, of the bottom plate is fixedly connected with the sliding plate, the tension spring is fixedly connected between the sliding plate and the baffle, and the sliding plate is elastically connected with the baffle through the spring.

Further, the detection assembly further comprises a sliding rod, a base plate and an electromagnetic sheet, the left side and the right side of the sliding plate are symmetrically and slidingly connected with the sliding rod, one end of the sliding rod, which is far away from the sliding plate, is fixedly connected with the base plate, the middle part of the base plate is fixedly connected with the electromagnetic sheet, the sliding rod is fixedly connected with the baffle, and the electromagnetic sheet is electrically connected with the second contact.

Further, interception subassembly includes logical groove, underframe and electromagnetism piece, logical groove has been seted up at the delivery board middle part, and logical groove below fixedly connected with underframe, logical groove lower right side is provided with the electromagnetism piece, and electromagnetism piece and first contact electric connection.

Further, the interception assembly further comprises a spring, a pulling plate and a blocking plate, the spring is fixedly connected in the bottom frame, the pulling plate is fixedly connected to the upper end of the spring, the blocking plate is fixedly connected to the left part of the upper surface of the pulling plate, and the pulling plate is elastically connected with the bottom frame through the spring.

Further, the transmission assembly comprises a through hole, a sleeve and a ring sleeve, the limiting plate is provided with the through hole, the sleeve is connected in a sliding manner in the through hole, and the upper end of the sleeve is fixedly connected with the ring sleeve.

Further, the transmission assembly further comprises a bottom rod, a pressure spring, a pressure rod and a ring plate, wherein the bottom rod is fixedly connected in the sleeve, the pressure spring is fixedly connected above the bottom rod, the pressure rod is fixedly connected to the upper end of the pressure spring, and the ring plate is fixedly connected to the middle of the pressure rod.

Further, the transmission assembly further comprises caulking grooves, supporting plates and connecting rods, the caulking grooves are symmetrically formed in the periphery of the sleeve, the supporting plates are connected in the caulking grooves in a jogged mode, and the connecting rods are connected between the supporting plates, the bottom rods and the pressing rods in a rotating mode.

Further, the compression bar is fixedly connected with the lifting rod, the compression bar is in sliding connection with the sleeve, and the compression bar is elastically connected with the bottom rod through the pressure spring.

The invention provides a detection device for an outer groove of a bearing ring, which has the following beneficial effects: when the device is used, the groove detection can be carried out on the ferrules while the ferrules are transported, the unprocessed grooves and unqualified ferrules in groove processing are respectively screened out, and the subsequent ferrules can be blocked during detection, so that the influence on the detection is avoided, and the detection error is caused.

1. When the invention is used, the ferrule to be transported is placed at the left end of the conveying plate, the ferrule can move rightwards along the inclined plane of the conveying plate under the action of gravity, if the ferrule rolls vertically, the stop lever can stop the ferrule, so that the ferrule can topple over the surface of the conveying plate and then slide continuously, when the ferrule moves between the detection rods, the first contacts are communicated through the ferrule, so that the electromagnetic block is electrified, the pulling plate is adsorbed, the pulling plate drives the baffle to pass through the through groove, the spring is stretched, the baffle can stop the subsequent ferrule, so that the ferrule is detected sequentially, and after the detection is finished, the electromagnetic block is powered off, the pulling plate can rebound under the action of the spring and drives the baffle to slide rightwards continuously.

2. After the ferrule moves to the position between the detection rods, if a groove is not machined on the ferrule, the ferrule can extrude the detection rods, the bottom plate is driven to move and stretch the tension springs through the sliding plates, after the ferrule moves to the position above the left discharge port, the ferrule can directly leave the conveying plate from the discharge port, if the groove is formed on the ferrule, the detection rods can be clamped into the groove to limit the ferrule and guide the ferrule to move right, the ferrule is prevented from falling from the discharge port, when the ferrule moves to the right part of the detection rods, the ferrule can firstly squeeze the detection rods to separate the second contacts and drive the bottom plate to stretch the tension springs, after the ferrule moves to the position above the right discharge port, the tension springs drive the sliding plates to rebound, and accordingly the bottom plate drives the detection rods to approach each other, so that semicircular arcs at the right part of the detection rods are embedded into the groove on the ferrule, the transmission assembly drives the ferrule to rotate a circle between the detection rods, if the groove is qualified in the process, the second contacts can be clamped into the groove, the second contacts are electrified, the electromagnetic sheets are enabled to absorb the sliding plates, the sliding plates are enabled to move right, the bottom plate is enabled to be separated from the discharge port through the bottom plate, when the ferrule moves to the right side of the groove is separated from the groove, and the groove is enabled to move from the right side of the groove, and the groove is enabled to be separated from the groove, and can be enabled to slide to pass through the groove, and can be separated from the groove when the groove is enabled to pass through the groove, and can be separated from the groove and can and pass by the groove when the groove is separated.

3. According to the invention, after the ferrule reaches the upper part of the material leakage hole on the right side, the lifting rod drives the pressure rod to descend so as to drive the sleeve to move downwards in the through hole, after the annular sleeve is contacted with the limiting plate, the sleeve stops moving, the pressure rod continues to descend so as to compress the pressure spring, the supporting plate is driven by the connecting rod to move out of the caulking groove to expand, the supporting plate is contacted with the inner wall of the ferrule so as to clamp the inner side of the ferrule, the motor drives the driving wheel to rotate so as to drive the sleeve to rotate through the supporting plate, the groove is detected, after detection is completed, the lifting rod drives the pressure rod to move upwards, the supporting plate is far away from the ferrule and is embedded in the caulking groove, and after the annular plate is contacted with the inner wall of the sleeve, the pressure rod continues to move upwards so as to move the sleeve out of the ferrule for resetting, and the sleeve is prevented from obstructing the movement of the ferrule.

Drawings

FIG. 1 is a schematic diagram of a front view, in whole section, of a device for detecting an outer groove of a bearing ring according to the present invention;

FIG. 2 is an enlarged schematic view of the detecting device for the outer groove of the bearing ring in FIG. 1;

FIG. 3 is a schematic top view of a conveying plate of a detection device for an outer groove of a bearing ring;

FIG. 4 is a schematic perspective view of a bottom plate of a device for detecting an outer groove of a bearing ring according to the present invention;

FIG. 5 is an enlarged view of the structure of the detecting device of the outer groove of the bearing ring shown in FIG. 1;

FIG. 6 is a schematic structural view of a device for detecting an outer groove of a bearing ring according to the present invention;

fig. 7 is an enlarged schematic view of the structure of fig. 6C of a device for detecting an outer groove of a bearing ring according to the present invention.

In the figure: 1. a chassis; 2. a conveying plate; 3. a baffle; 4. a stop lever; 5. a limiting plate; 6. a detection assembly; 601. a bottom plate; 602. a detection rod; 603. a first contact; 604. a second contact; 605. a slide plate; 606. a tension spring; 607. a slide bar; 608. a backing plate; 609. an electro-magnetic sheet; 7. an interception component; 701. a through groove; 702. a bottom frame; 703. an electromagnetic block; 704. a spring; 705. pulling a plate; 706. a baffle; 8. a material leakage port; 9. a chute; 10. a partition plate; 11. a push rod; 12. a cross beam; 13. a driving wheel; 14. a driving wheel; 15. a motor; 16. a lifting rod; 17. a transmission assembly; 1701. a through hole; 1702. a sleeve; 1703. a ring sleeve; 1704. a bottom bar; 1705. a pressure spring; 1706. a compression bar; 1707. a ring plate; 1708. a caulking groove; 1709. a supporting plate; 1710. and a connecting rod.

Detailed Description

Referring to fig. 1 to 7, the present invention provides the following technical solutions: the utility model provides a detection device of bearing ring external groove, including chassis 1 and detection subassembly 6, chassis 1 top fixedly connected with delivery board 2, and the both sides symmetry fixedly connected with baffle 3 around delivery board 2, baffle 3 left portion top fixedly connected with pin 4, and baffle 3 upper right side fixedly connected with limiting plate 5, detection subassembly 6 sets up in baffle 3 right part, chassis 1 middle part is provided with interception subassembly 7, and chassis 1 right part is provided with two material leakage mouths 8, spout 9 has been seted up to the both sides symmetry around the material leakage mouths 8 upper portion on chassis 1 right side, and sliding connection has baffle 10 in spout 9, one side fixedly connected with push rod 11 that baffle 10 kept away from each other, limiting plate 5 top fixedly connected with crossbeam 12, and crossbeam 12 left part fixedly connected with drive wheel 13, drive wheel 13 right side is provided with drive wheel 14, and drive wheel 14 below fixedly connected with motor 15, drive wheel 13 below fixedly connected with lifter 16, limiting plate 5 left part is provided with drive assembly 17.

Referring to fig. 1 to 4 and 6 to 7, the detecting assembly 6 includes a bottom plate 601, a detecting rod 602, a first contact 603 and a second contact 604, the right part of the baffle 3 is slidably connected with the bottom plate 601, the middle part of one side of the bottom plate 601 close to the bottom plate is fixedly connected with the detecting rod 602, the left end of the detecting rod 602 is fixedly connected with the first contact 603, the right part of the detecting rod 602 is symmetrically and fixedly connected with the second contact 604, the second contact 604 is electrically connected with the push rod 11, the detecting assembly 6 further includes a sliding plate 605 and a tension spring 606, one side of the bottom plate 601 far from the bottom plate 601 is fixedly connected with the sliding plate 605, a tension spring 606 is fixedly connected between the sliding plate 605 and the baffle 3, the sliding plate 605 is elastically connected with the baffle 3 through a spring 704, the detecting assembly 6 further includes a sliding rod 607, a backing plate 608 and an electromagnetic sheet 609, the left side and the right side of the sliding plate 605 are symmetrically and slidably connected with the sliding rod 607, the end, far away from the sliding plate 605, of the sliding rod 607 is fixedly connected with a backing plate 608, the middle part of the backing plate 608 is fixedly connected with an electromagnetic sheet 609, the sliding rod 607 is fixedly connected with a baffle 3, the electromagnetic sheet 609 is electrically connected with a second contact 604, the interception component 7 comprises a through groove 701, a bottom frame 702 and an electromagnetic block 703, the through groove 701 is formed in the middle part of the conveying plate 2, the bottom frame 702 is fixedly connected with the bottom frame 701 below the through groove 701, the electromagnetic block 703 is arranged below the right part of the through groove 701, the electromagnetic block 703 is electrically connected with the first contact 603, the interception component 7 further comprises a spring 704, a pull plate 705 and a blocking plate 706, the spring 704 is fixedly connected in the bottom frame 702, the pull plate 705 is fixedly connected with the pull plate 705 at the upper left part of the upper surface of the pull plate 705, and the blocking plate 706 is elastically connected with the bottom frame 702 through the spring 704;

the specific operation is that, when in use, the ferrule to be transferred is placed at the left end of the conveying plate 2, the ferrule can move rightwards along the inclined plane of the conveying plate 2 under the action of gravity, if the ferrule rolls vertically, the stop lever 4 can block the ferrule, so that the ferrule can topple over the surface of the conveying plate 2 and slide continuously, when the ferrule moves between the detection rods 602, the first contacts 603 are communicated through the ferrule, thereby energizing the electromagnetic block 703, adsorbing the pull plate 705, making the pull plate 705 drive the baffle 706 to pass through the through groove 701, stretching the spring 704, so that the baffle 706 blocks the subsequent ferrule, thereby detecting the ferrule in turn, after detection is completed, the electromagnetic block 703 is deenergized, the pull plate 705 can rebound under the action of the spring 704 and drive the baffle 706 to reset, so that the subsequent ferrule can slide rightwards continuously, after the ferrule moves between the detection rods 602, if the groove is not processed on the collar, the ferrule can squeeze the detection rod 602 to drive the bottom plate 601 to move and stretch the tension spring 606 through the slide plate 605, when the ferrule moves to the upper side of the left material leakage opening 8, the ferrule can directly leave the conveying plate 2 from the material leakage opening 8, if a groove is formed in the ferrule, the detection rod 602 can be clamped into the groove to limit the ferrule, the ferrule is guided to move rightwards to avoid the ferrule falling from the material leakage opening 8, when the ferrule moves to the right part of the detection rod 602, the ferrule firstly presses the detection rod 602 to separate the second contacts 604, the bottom plate 601 is driven to stretch the tension spring 606 through the slide plate 605, after the ferrule moves to the upper side of the right material leakage opening 8, the tension spring 606 drives the slide plate 605 to rebound, so that the detection rods 602 are driven to approach each other through the bottom plate 601, the semicircle at the right part of the detection rod 602 is embedded into the groove of the ferrule, the transmission assembly 17 drives the ferrule to rotate between the detection rods 602 for a circle, if the groove is processed to be qualified, the second contacts 604 continuously contact each other in the rotation process, the second contacts 604 electrify the electromagnetic pieces 609, so that the electromagnetic pieces 609 absorb the sliding plate 605, the sliding plate 605 drives the detecting rod 602 to be far away from the ferrule through the bottom plate 601, the clamping between the detecting rod 602 and the groove is released, the ferrule is separated from the right end of the conveying plate 2, if separation exists between the second contacts 604 in the rotation process, the groove processing of the ferrule is not qualified, the second contacts 604 electrify the push rod 11, the push rod 11 drives the baffle plate 10 to slide in the chute 9, the material leakage opening 8 on the right side is opened, meanwhile, the baffle plate 10 can push the sliding plate 605 to move, the detecting rod 602 is separated from the groove, the ferrule can fall from the material leakage opening 8 on the right side, and the ferrules falling from the material leakage openings 8 on the left side and the right side can be respectively sent back by an operator for reworking.

Referring to fig. 1 and fig. 5 to fig. 6, the transmission assembly 17 includes a through hole 1701, a sleeve 1702 and a ring 1703, the limiting plate 5 is provided with the through hole 1701, the sleeve 1702 is connected in a sliding manner in the through hole 1701, the ring 1703 is fixedly connected to the upper end of the sleeve 1702, the transmission assembly 17 further includes a bottom rod 1704, a compression spring 1705, a compression rod 1706 and a ring 1707, the bottom rod 1704 is fixedly connected in the sleeve 1702, the compression spring 1705 is fixedly connected above the bottom rod 1704, the compression rod 1706 is fixedly connected to the upper end of the compression spring 1705, the ring 1707 is fixedly connected to the middle part of the compression rod 1706, the transmission assembly 17 further includes a caulking groove 1708, a supporting plate 1709 and a connecting rod 1710, the caulking groove 1708 is symmetrically provided around the sleeve 1702, the supporting plate 1709 is connected in a jogging manner in the caulking groove 1708, the connecting rod 1710 is connected in a rotating manner between the supporting plate 1709 and the bottom rod 1704, the compression rod 1706 is fixedly connected to the lifting rod 16, the compression rod 1706 is connected in a sliding manner to the sleeve 1702, and the compression rod 1706 is elastically connected to the bottom rod through the compression spring 1705;

the operation is that, after the ferrule reaches the upper side of the material leakage hole 8 on the right side, the lifting rod 16 drives the compression rod 1706 to descend, thereby driving the sleeve 1702 to move downwards in the through hole 1701, after the ring 1703 contacts with the limiting plate 5, the sleeve 1702 stops moving, the compression rod 1706 continues to descend to compress the pressure spring 1705, and drives the support plate 1709 to move out of the caulking groove 1708 to expand through the connecting rod 1710, the support plate 1709 can clamp the inner side of the ferrule after contacting with the inner wall of the ferrule, the motor 15 drives the driving wheel 13 to rotate through the driving wheel 14, the sleeve 1702 drives the ferrule to rotate through the support plate 1709 to detect the groove, after the detection is completed, the lifting rod 16 drives the compression rod 1706 to move upwards, so that the support plate 1709 is far away from the ferrule and is embedded in the caulking groove 1708, after the ring plate contacts with the inner wall of the sleeve 1702, the compression rod 1706 continues to move upwards to move the sleeve 1702 to reset from the inner side of the ferrule, and the sleeve 1702 is prevented from blocking the movement of the ferrule.

In summary, when the detection device for the outer groove of the bearing ring is used, firstly, the ring to be transported is placed at the left end of the conveying plate 2, the ring can move rightward along the inclined plane of the conveying plate 2 under the action of gravity, if the ring rolls vertically, the stop lever 4 can stop the ring to enable the ring to topple over the surface of the conveying plate 2 and slide continuously, when the ring moves between the detection rods 602, the first contacts 603 are communicated through the ring, so as to electrify the electromagnetic block 703, adsorb the pull plate 705, enable the pull plate 705 to drive the baffle 706 to pass through the through groove 701, stretch the spring 704, enable the baffle 706 to stop the subsequent ring, so as to detect the ring sequentially, after detection is completed, the electromagnetic block 703 is powered off, the pull plate 705 can rebound under the action of the spring 704 and drive the baffle 706 to reset, so that the subsequent ring can slide continuously rightward, after the ferrule moves between the detection rods 602, if a groove is not machined on the ferrule, the ferrule can squeeze the detection rods 602, the bottom plate 601 is driven to move and the tension spring 606 is stretched through the slide plate 605, after the ferrule moves above the left leakage hole 8, the ferrule can directly leave the conveying plate 2 from the leakage hole 8, if the groove is formed on the ferrule, the detection rods 602 can be blocked in the groove to limit the ferrule and guide the ferrule to move rightwards, the ferrule is prevented from falling from the leakage hole 8, when the ferrule moves to the right of the detection rods 602, the ferrule can firstly squeeze the detection rods 602 to separate the second contacts 604 and drive the bottom plate 601 to stretch the tension spring 606 through the slide plate 605, after the ferrule moves above the right leakage hole 8, the tension spring 606 drives the slide plate 605 to rebound, thereby the detection rods 602 are driven to approach each other through the bottom plate 601, semicircular arcs on the right of the detection rods 602 are embedded in the groove on the ferrule, the transmission component 17 drives the ferrule to rotate for a circle between the detection rods 602, after the ferrule reaches the upper side of the material leakage hole 8 on the right side, the lifting rod 16 drives the compression rod 1706 to descend, thereby driving the sleeve 1702 to move downwards in the through hole 1701, after the annular sleeve 1703 contacts with the limiting plate 5, the sleeve 1702 stops moving, the compression rod 1706 can continue descending to compress the pressure spring 1705, the supporting plate 1709 is driven to move out of the caulking groove 1708 to expand through the connecting rod 1710, the supporting plate 1709 can clamp the inner side of the sleeve 1708 after contacting the inner wall of the ferrule, the motor 15 drives the driving wheel 13 to rotate through the driving wheel 14, the sleeve 1702 can drive the ferrule to rotate through the supporting plate 1709 to detect the groove, after detection is completed, the lifting rod 16 drives the compression rod 1706 to move upwards, the supporting plate 1709 is far away from the ferrule and is embedded into the caulking groove 1708, and after the annular plate 1707 contacts the inner wall of the sleeve 1702, the sleeve 1702 is moved out from the inner side of the ferrule to reset after the compression bar 1706 moves upwards, the sleeve 1702 is prevented from blocking the movement of the ferrule, if the groove is processed to be qualified, the second contacts 604 can continuously contact with each other in the rotating process, the second contacts 604 electrifies the electromagnetic sheets 609 to enable the electromagnetic sheets 609 to absorb the sliding plate 605, so that the sliding plate 605 drives the detection rod 602 to be far away from the ferrule through the bottom plate 601, the clamping between the detection rod 602 and the groove is released, the ferrule is separated from the right end of the conveying plate 2, if the second contacts 604 are separated excessively in the rotating process, the condition that the groove of the ferrule is processed to be unqualified is indicated, the second contacts 604 electrifies the push rod 11 to enable the push rod 11 to drive the baffle plate 10 to slide in the chute 9, the material leakage opening 8 on the right side is opened, meanwhile, the baffle plate 10 can push the sliding plate 605 to move, the detection rod 602 is separated from the groove, the ferrule can fall from the material leakage opening 8 on the right side at the moment, the ferrules falling from the left and right material leakage openings 8 can be returned to the operator for reworking.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a detection device of bearing ring external groove, its characterized in that includes chassis (1) and detection subassembly (6), chassis (1) top fixedly connected with delivery board (2), and delivery board (2) front and back both sides symmetry fixedly connected with baffle (3), baffle (3) left part top fixedly connected with pin (4), and baffle (3) upper right side fixedly connected with limiting plate (5), detection subassembly (6) set up in baffle (3) right part, chassis (1) middle part is provided with interception subassembly (7), and chassis (1) right part is provided with two weeping mouths (8), spout (9) have been seted up to weeping mouths (8) upper portion front and back bilateral symmetry on chassis (1) right side, and sliding connection has baffle (10) in spout (9), one side fixedly connected with push rod (11) that baffle (10) kept away from each other, limiting plate (5) top fixedly connected with crossbeam (12), and crossbeam (12) left part fixedly connected with drive wheel (13), drive wheel (13) are provided with motor (14) right side, drive wheel (16) are connected with drive wheel (13) below fixedly connected with drive wheel (16), the left part of the limiting plate (5) is provided with a transmission assembly (17).

2. The device for detecting the outer groove of the bearing ring according to claim 1, wherein the detecting component (6) comprises a bottom plate (601), a detecting rod (602), a first contact (603) and a second contact (604), the right part of the baffle plate (3) is slidably connected with the bottom plate (601), the detecting rod (602) is fixedly connected with the middle part of one side, close to the bottom plate (601), of the baffle plate, the left end of the detecting rod (602) is fixedly connected with the first contact (603), the right part of the detecting rod (602) is symmetrically and fixedly connected with the second contact (604), and the second contact (604) is electrically connected with the push rod (11).

3. The device for detecting the outer groove of the bearing ring according to claim 2, wherein the detecting assembly (6) further comprises a sliding plate (605) and a tension spring (606), the sliding plate (605) is fixedly connected to one side, away from the bottom plate (601), of the bottom plate (601), the tension spring (606) is fixedly connected between the sliding plate (605) and the baffle (3), and the sliding plate (605) is elastically connected with the baffle (3) through the spring (704).

4. A device for detecting an outer groove of a bearing ring according to claim 3, wherein the detecting component (6) further comprises a sliding rod (607), a base plate (608) and an electromagnetic sheet (609), the sliding rod (607) is symmetrically connected to the left side and the right side of the sliding plate (605) in a sliding manner, one end of the sliding rod (607) away from the sliding plate (605) is fixedly connected with the base plate (608), the electromagnetic sheet (609) is fixedly connected to the middle part of the base plate (608), the sliding rod (607) is fixedly connected with the baffle (3), and the electromagnetic sheet (609) is electrically connected with the second contact (604).

5. The device for detecting the outer groove of the bearing ring according to claim 2, wherein the interception component (7) comprises a through groove (701), a bottom frame (702) and an electromagnetic block (703), the through groove (701) is formed in the middle of the conveying plate (2), the bottom frame (702) is fixedly connected below the through groove (701), the electromagnetic block (703) is arranged below the through groove (701) on the right, and the electromagnetic block (703) is electrically connected with the first contact (603).

6. The device for detecting the outer groove of the bearing ring according to claim 5, wherein the interception component (7) further comprises a spring (704), a pull plate (705) and a baffle (706), the spring (704) is fixedly connected in the bottom frame (702), the pull plate (705) is fixedly connected to the upper end of the spring (704), the baffle (706) is fixedly connected to the left part of the upper surface of the pull plate (705), and the pull plate (705) is elastically connected with the bottom frame (702) through the spring (704).

7. The device for detecting the outer groove of the bearing ring according to claim 1, wherein the transmission assembly (17) comprises a through hole (1701), a sleeve (1702) and a ring sleeve (1703), the limiting plate (5) is provided with the through hole (1701), the sleeve (1702) is slidably connected in the through hole (1701), and the upper end of the sleeve (1702) is fixedly connected with the ring sleeve (1703).

8. The device for detecting the outer groove of the bearing ring according to claim 7, wherein the transmission assembly (17) further comprises a bottom rod (1704), a pressure spring (1705), a pressure rod (1706) and a ring plate (1707), the bottom rod (1704) is fixedly connected in the sleeve (1702), the pressure spring (1705) is fixedly connected above the bottom rod (1704), the pressure rod (1706) is fixedly connected to the upper end of the pressure spring (1705), and the ring plate (1707) is fixedly connected to the middle of the pressure rod (1706).

9. The device for detecting the outer groove of the bearing ring according to claim 8, wherein the transmission assembly (17) further comprises a caulking groove (1708), a supporting plate (1709) and a connecting rod (1710), the caulking groove (1708) is symmetrically formed in the periphery of the sleeve (1702), the supporting plate (1709) is connected in the caulking groove (1708) in a jogged mode, and the connecting rod (1710) is rotationally connected between the supporting plate (1709) and the bottom rod (1704) and between the supporting plate (1706) and the connecting rod.

10. The device for detecting the outer groove of the bearing ring according to claim 9, wherein the pressing rod (1706) is fixedly connected with the lifting rod (16), the pressing rod (1706) is slidably connected with the sleeve (1702), and the pressing rod (1706) is elastically connected with the bottom rod (1704) through a pressure spring (1705).