CN111438110A

CN111438110A - Rotary disc type full-automatic bearing cleaning production line for mixed line production

Info

Publication number: CN111438110A
Application number: CN202010259415.6A
Authority: CN
Inventors: 陈国金; 戴顺尧; 苏少辉; 黄鑫磊; 刘加辉; 金佳杰; 彭涛
Original assignee: Hangzhou Dianzi University
Current assignee: Hangzhou Dianzi University
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-07-24
Anticipated expiration: 2040-04-03
Also published as: CN111438110B

Abstract

The invention discloses a rotating disc type full-automatic bearing cleaning production line for mixed line production, which comprises six parts of feeding, station rotating, clamping, cleaning, blow-drying and discharging, wherein the feeding part comprises a feeding cylinder, a layered feeding frame, a layered storage frame and a storage rack. The station rotating part comprises a rotating motor, a turntable, a rotating gear set and the like. The clamping part comprises a left clamping jaw, a right clamping jaw, a gear rack, a sliding rail sliding block, a locking spring, a spring fixing frame, a locking pull ring and a locking pull block clamping jaw closing control motor. The cleaning part comprises a support frame, an oil tank, a hydraulic pump, an oil inlet pipe, an oil inlet valve, a spray pipe, an upper cleaning gland, a lower cleaning gland, an oil return pipe and an oil pipe shunt. The blow-drying part comprises a fan, an air supply pipe, an air pipe frame, an upper blow-drying gland, a lower blow-drying gland, a blow-drying cylinder and an air supply pipe branching unit. The invention not only realizes the mixed line cleaning and blow-drying of bearings of different types, but also realizes the simultaneous cleaning and blow-drying of double surfaces, avoids arranging a single motor at a single station and reduces the number of the motors.

Description

Rotary disc type full-automatic bearing cleaning production line for mixed line production

Technical Field

The invention relates to the technical field of bearing production lines, in particular to a rotating disc type full-automatic bearing cleaning production line.

Background

The production line is a multi-variety production organization form which takes a certain type of part groups as object organizations. The machine equipment is necessary for completing the processing tasks of the parts of the same type, and is arranged and configured according to the process route and the working procedure labor amount proportion of most parts or main parts on a production line, so that the machine equipment can meet the requirements of various production. The production line of bearing is mostly with making and assembly as the owner, the production is implemented according to the interior outer lane cooperation of bearing to the bearing assembly production line, annotate the ball, divide the ball, press the holder, annotate fat, technological processes such as gland, generally lack abluent technology, influence follow-up assembly or use success rate and precision, and current washing production line is for adapting to the mixed line production that two-sided washing generally needs turn-over action and often can't adapt to different model bearings because of the difference of pressing from both sides and getting requirement mode etc. to independent station sets up solitary motor often in the full automatic production line of usual, design and installation are maintained complicatedly. Therefore, the bearing cleaning and blow-drying method for in-line production provided by the invention can be used for mixed line cleaning of two common bearings, is full-automatic in process, and can be used for cleaning and maintaining bearing semi-finished products and normally used finished bearings in the production process.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a rotating disc type full-automatic bearing cleaning production line which can be used for mixed line production.

The technical scheme of the invention is as follows: a rotary disc type full-automatic bearing cleaning production line for mixed line production comprises an oil tank, a shockproof foot rest, a station rack, a feeding station group, a clamping jaw opening and closing control group, a cleaning station group, a station rotating device, four same bearing clamping jaw devices, a blow-drying station group and a discharging inclined frame. The method is characterized in that: the bottom of the oil tank is provided with four shockproof foot stands for fixing, the station rack is arranged on the oil tank, the four sides of the station rack are sequentially provided with the feeding station group, the cleaning station group, the blow-drying station group and the discharging inclined frame according to the angle position of 45 degrees, the four bearing clamping jaw devices are sequentially arranged on a turntable of the station rotating device according to an angular position of 45 degrees, the station rotating device is arranged in a center hole reserved in the station rack and ensures that the height position of a clamping jaw of the upper bearing jaw device is positioned between the bottom of the layered storage cylinder of the feeding station group and the upper side of the storage rack, the clamping jaw opening and closing control group is arranged on a feeding station group on the station rack by a supporting seat, and on an angle center line of an included angle formed by the position of a discharging inclined frame and the center of the station rack, and two racks on the inner side and the outer side on the clamping jaw opening and closing control group are ensured to be respectively meshed with a clamping jaw opening and closing control gear on the discharging position and the feeding position.

The feeding station group comprises a cylinder frame, a feeding cylinder, a layered feeding frame, a layered storage barrel and a storage frame. The feeding cylinder is fixed on the cylinder frame, the layered feeding frame is fixedly connected with the feeding cylinder shaft, and the transverse side baffle plates respectively penetrate through corresponding gaps of the layered storage cylinder. The feeding cylinder is a double-acting cylinder.

The clamping jaw opening and closing control group comprises an opening and closing motor bracket, a motor shaft, a sliding rail sliding block A, a gear A, a rack A, a supporting seat and an opening and closing control motor. The opening and closing control motor is fixedly connected with the lower part of the supporting seat through a motor support, and the supporting seat is arranged at the position on the station rack.

The cleaning station group comprises a hydraulic pump, an upper cleaning gland, a lower cleaning gland, a cleaning cylinder, an oil inlet valve, an oil inlet pipe branching unit, an oil inlet pipe, an oil inlet header pipe, a spray pipe, an oil return port, an oil return pipe, a supporting frame, an oil return pipe branching unit and an oil return header pipe. The oil inlet and outlet of the hydraulic pump are respectively communicated with the oil outlet and the oil return port of the oil tank through an oil inlet main pipe and an oil return main pipe, the oil inlet main pipe is communicated with the upper cleaning gland and the spray pipe on the lower cleaning gland through an oil inlet valve and an oil inlet pipe branching unit, the oil return main pipe is communicated with the oil return port on the lower cleaning gland through an oil return pipe and an oil return pipe branching unit, the upper cleaning gland is fixedly connected with a cleaning cylinder fixed on a support frame, and the lower cleaning gland is fixed on the support frame. The cleaning cylinder is a single-action cylinder.

The station rotating device comprises a driven shaft bearing group, a driven shaft, a driven gear, a station turntable, a driving gear, a driving shaft, a coupler, a rotating motor, a motor support and a turntable connecting sleeve. The rotary motor is arranged on the station rack through a motor support, a motor shaft is connected with a driving shaft through a coupling and is assembled with a driving gear, the lower part of the driven shaft is rotatably assembled with a driven shaft bearing set, the upper part of the driven shaft is assembled with a turntable connecting sleeve and is fixedly installed with a station turntable, and a driven gear assembled on the driven shaft is meshed with the driving gear.

The bearing clamping jaw device comprises a pulley sliding block B arranged on a square base, and a left clamping plate support and a right clamping plate support which are symmetrically fixed on the inner side of the sliding block and are fixedly connected with a left clamping plate and a right clamping plate respectively, and two racks B meshed with the central gear B are symmetrically fixed on the upper inner side of the sliding block. The upper outer side of the sliding block is fixedly connected with the pulling block and is connected with the locking spring through a pulling ring sleeved on the pulling block, and the other side of the locking spring is connected with a spring fixing frame fixed on the square base. The left clamping plate and the right clamping plate are of mirror symmetry structures and are provided with compression springs, variable-diameter clamping blocks, lower clamping plates and clamping plate covers. The central gear B is assembled on the clamping plate central shaft and penetrates through the clamping plate central shaft at the other end of the square base, and a clamping jaw opening and closing control gear is fixed on the clamping plate central shaft, and the installation height of the clamping jaw opening and closing control gear is the same as that of a rack in the clamping jaw opening and closing control group.

The blowing-drying station group comprises an air supply cylinder, an air pipe frame, an air pipe branching device, an air supply hose, an upper air supply gland, a lower air supply gland, an air nozzle, an air supply station support, a main air supply pipe and a fan. The fan is communicated with the air nozzle on the upper air supply gland and the lower air supply gland through the main air supply pipe, the air pipe frame, the air supply hose, the upper air supply gland and the air supply cylinder fixed on the air supply station support, and the lower air supply gland is fixed on the air supply station support. The air supply cylinder is a single-action cylinder.

Compared with the prior art, the invention has the beneficial effects that: the bearing to be cleaned entering the layered storage cylinder can be subjected to production line processes of feeding, cleaning, blow-drying and discharging, so that automation is realized; the feeding part provides a layered feeding method for feeding the gathered material to a plurality of specific positions for subsequent operation; the clamping part is provided with a variable-diameter clamping block according to the size difference of common 6202 and 6203 bearings so as to clamp different types of bearings, and mixed line production is realized; a clamping jaw clamping mode without a motor is arranged, so that the situation that an independent motor is deployed at an independent station is avoided; the bearing can be cleaned on two sides, the turnover process is avoided, the production line efficiency is high, and the practicability is high.

Drawings

FIG. 1 is a schematic diagram of the overall structure and rotating disk type full-automatic bearing cleaning production line which can be used for mixed line production according to the present invention;

FIG. 2 is a schematic structural view of a clamping jaw opening and closing control group of the invention;

FIG. 3 is a schematic structural view of a station rotating group according to the present invention;

FIG. 4 is a schematic structural view of a feeding station of the present invention;

FIG. 5 is a cross-sectional view of the structure of the layered loading method of the present invention in the loading state of the loading station;

FIG. 6 is a schematic view of a portion of the bearing jaw assembly of the present invention;

FIG. 7 is a schematic view of the construction of the bearing jaw assembly of the present invention;

FIG. 8 is a schematic view of the cleaning station of the present invention;

in the figure: 1-oil tank, 2-shockproof foot stand, 3-station rack, 4-feeding station group, 41-feeding cylinder rack, 42-feeding cylinder, 43-layered feeding rack, 44-layered storage barrel, 45-storage rack, 5-clamping jaw opening and closing control group, 51-opening and closing motor rack, 52-sliding rail slider A, 53-motor shaft, 54-gear A, 55-rack A, 56-motor base, 57-opening and closing control motor, 6-cleaning station group, 61-hydraulic pump, 62-lower cleaning gland, 63-upper cleaning gland, 64-cleaning cylinder, 65-oil inlet valve, 66-oil inlet pipe splitter, 67-oil inlet pipe, 68-oil inlet header, 69-shower pipe, 610-oil return port, 611-oil return pipe, 612-support bracket, 613-oil return pipe branching unit, 614-oil return manifold, 7-station rotating group, 71-driven shaft bearing group, 72-driven shaft, 73-driven gear, 74-station turntable, 75-driving gear, 76-driving shaft, 77-coupling, 78-rotating motor, 8-bearing clamping jaw device, 81-spring fixing frame, 82-locking spring, 83-square base, 84-rack B, 85-lower clamping plate, 86-clamping spring, 87-diameter-changing clamping block, 88-clamping plate cover, 89-right clamping plate bracket, 810-left clamping plate bracket, 811-clamping plate central shaft, 812-gear B, 813-sliding rail sliding block B, 814-pulling block, 815-pulling ring, 816-splint opening and closing control gear, 817-fixed shaft sleeve, 9-blow-drying station group, 91-air supply pneumatic cylinder, 92-air pipe frame, 93-air pipe branching unit, 94-air supply hose, 95-upper air supply gland, 96-lower air supply gland, 97-air nozzle, 98-air supply station support, 99-main air supply pipe, 910-fan and 10-discharge inclined frame.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

as shown in fig. 1-8, the turntable type full-automatic bearing cleaning production line for mixed line production comprises an oil tank 1, a shockproof foot stand 2, a station rack 3, a feeding station group 4, a clamping jaw opening and closing control group 5, a cleaning station group 6, a station rotating device 7, four identical bearing clamping jaw devices 8, a blow-drying station group 9 and a discharging inclined frame 10. The method is characterized in that: four shockproof foot stands 2 are installed at the bottom of the oil tank 1 for fixation, the station rack 3 is installed on the oil tank 1, four sides of the station rack are sequentially installed and fixed on the feeding station group 4, the cleaning station group 6, the blow-drying station group 7 and the discharging inclined frame 10 according to the angle position of 45 degrees, the four bearing clamping jaw devices 8 are sequentially installed on a rotary disc of the station rotating device 7 according to the angle position of 45 degrees, the station rotating device 7 is installed in a reserved central hole of the station rack 3 and ensures that the height position of a clamping jaw of the bearing clamping jaw device 8 is positioned between the bottom of a layered storage barrel 44 of the feeding station group 4 and the upper side of the storage rack 45, the clamping jaw opening and closing control group 5 is installed on an angle central line of an included angle formed by the position of the feeding station group 4 and the discharging inclined frame 10 on the station rack 3 and the center of the station rack 3 by a motor base 56, and ensures that two racks A at the inner side 816 are engaged.

As shown in fig. 3, when the rotation motor 78 in the station rotation device 7 is started, so that the motor shaft rotates, the driven shaft 72 and the station turntable 74 fixed on the station turntable through the turntable connecting sleeve are driven to rotate by the meshing action of the driving gear 75 and the driven gear 73, so that the bearing clamping jaw devices 8 sequentially installed on the station turntable 74 at 45-degree angle positions rotate along with the station turntable 74, the rotation of the stations is realized, the continuity of the process flow is ensured, different processes are performed simultaneously, and the cooperativity of the processes is ensured.

As shown in fig. 6, the bearing clamping jaw device 8 is provided with five clamping positions, and the left clamping plate and the right clamping plate are in mirror symmetry. The clamping side profile of the variable-diameter clamping block 87 is formed by intersecting two circles with different diameters, the middle part is suitable for clamping a 6202 bearing, the outer diameter of the 6202 bearing is 35mm, the two sides are suitable for clamping a 6203 bearing, the outer diameter of the 6203 bearing is 40mm, and each variable-diameter clamping block 87 is connected with two clamping springs 86 and is fixed between the left inner side and the right inner side of the lower clamping plate 85. When the bearing is clamped, the clamping spring applies tension to clamp the bearing between the two variable-diameter clamping blocks 87, when the 6202 bearing is clamped, the bearing is tightly attached to the middle of the clamping block 87, and when the 6203 bearing is clamped, the bearing is tightly attached to the left side and the right side of the clamping block 87.

As shown in fig. 2 and 7, when the station turntable 74 rotates, the opening/closing control motor 57 rotates clockwise to retract the both-side rack a55 so as not to affect the rotation path of the bearing jaw device 8. When the two bearing clamping jaw devices 8 rotate to the feeding fixing position and the discharging fixing position shown in fig. 1 respectively, the opening and closing control motor 57 rotates anticlockwise until the racks a55 on the two sides are meshed with the clamping jaw opening and closing control gears 816 at the two fixing positions, and the clamping jaw opening and closing control gears 816 rotate anticlockwise, so that the clamping plate central shaft 811 in the bearing clamping jaw devices 8 drives the gear B812 to rotate anticlockwise, the gear B812 is meshed with the rack B84, and when the torque is greater than the tensile force of the locking spring 82, the racks B84 on the two sides move linearly along the direction of the sliding rail in the opposite direction, and the clamping plate is loosened. After the action of the corresponding station is completed, the opening and closing control motor 57 rotates clockwise until the racks a55 on the two sides are not meshed with the two clamping jaw opening and closing control gears 816 any more, in the process, the gear B812 rotates clockwise, the racks B84 on the two sides move linearly in opposite directions along the direction of the sliding rail due to the meshing effect of the gears and the racks, the clamping plate is clamped at the moment, and the clamping plate realizes self-locking due to the pulling force effect of the locking springs 82 on the two sides, can enter the next station, and does not need the motor action any more to maintain the clamping.

As shown in fig. 4 and 5, the feeding station includes a feeding cylinder frame 41, a feeding cylinder 42, a layered feeding frame 43, a layered storage cylinder 44, and a stock frame 45. The bottom mounting height of the layered storage cylinder 44 is about 2-4 mm higher than the upper part of the clamping plate cover 88, and the top mounting height of the storage rack 45 is about 1-3 mm lower than the bottom of the lower clamping plate 85. The layered storage cylinder 44 can be divided into a storage area, a pre-buffer area, a buffer area and a loading area from top to bottom according to four separated layers. In a default state, the exit of the storage area and the exit of the buffer area are blocked by the layered loading frame 43, and the pre-buffer area is not blocked. At the first feeding, the feeding cylinder 42 pushes forward a distance of the width of the discharge port, at which time only the exit of the pre-buffer is blocked, and since the height of the pre-buffer is set to the height of five bearings, when the feed cylinder 42 is retracted to the default position, only the exit of the stocker and the buffer are blocked, the bearings of the stocker do not enter the pre-buffer, all five bearings of the pre-buffer enter the buffer, the first bearing will temporarily stay and fill the empty space when entering the first position of the buffer, the second bearing will roll into the second empty space due to the gradient of the buffer, and so on until all five empty spaces are filled, when the feeding cylinder 42 moves forward the distance, only the pre-buffer outlet is blocked and the bearings are to be cleaned, the bearings in the buffer enter the feeding area at an angle to the vertical and are moved into a specific position of the storage rack 45 to be gripped. The circulation of the feeding and pre-feeding states can be realized by repeating the actions of the feeding cylinder 43.

As shown in fig. 8, the structure of the cleaning station group is that the upper installation height of the lower cleaning gland 62 is consistent with the upper installation height of the material storage rack 45, and five spray pipes 69 and five oil return ports 610 are installed in a staggered manner. The upper cleaning gland 63 is evenly distributed with five spray pipes 69. When the bearing clamping device rotates to the station position, the cleaning cylinder 64 pushes the upper cleaning gland 63 down to be closed with the fixed lower cleaning gland 62, the upper and lower glands are provided with parallel slender positioning strips at each bearing position to fix the positions, at the moment, the oil inlet valve 65 is opened, the cleaning agent completes the cleaning action through the oil tank 1, the hydraulic pump 61, the oil inlet header 68, the oil inlet valve 65, the oil inlet pipe branching unit 66, the respective oil inlet pipe 67 and the spray pipe 69, and the sprayed cleaning agent returns to the oil tank through the respective oil return port 610, the respective oil return pipe 611, the oil return pipe branching unit 613 and the oil return header 614 from the oil return port of the oil tank 1 to be reused. After the cleaning is completed, the oil feed valve 65 is closed, and the cleaning cylinder 64 is returned to its original position, at which time the cleaning is completed. As shown in fig. 1, the upper mounting height of the lower blowing hood 96 is identical to the upper mounting height of the lower cleaning hood 62 in the blowing station. The upper air supply gland 95 has the same structure as the lower air supply gland 96, and five air nozzles 97 are uniformly distributed on each air nozzle. When the action is executed, the air supply cylinder 91 pushes down the upper air supply gland 95, the upper gland and the lower gland are provided with parallel slender positioning strips at each bearing position to fix the position of the upper gland and the lower gland, the fan 910 is started, and the air supply cylinder 91 returns to the initial position after the drying is finished.

During the use, the station process action of four bearing clamping jaw devices 8 is carried out in step, and the following steps are taken for the complete process taking the same bearing clamping jaw device 8 as a station:

(1) the rotating motor 78 rotates anticlockwise to bring the bearing clamping jaw device 8 to a feeding position;

(2) the opening and closing control motor 57 rotates counterclockwise until the bearing jaw device 8 is released;

(3) the feeding cylinder 42 acts to complete feeding;

(4) the opening and closing control motor 57 rotates clockwise until the bearing clamping jaw device 8 clamps;

(5) the rotating motor 78 rotates counterclockwise to bring the bearing jaw assembly 8 to the cleaning position;

(6) the cleaning cylinder 64 and the oil inlet valve 65 act to complete cleaning;

(7) the rotating motor 78 rotates anticlockwise to enable the bearing clamping jaw device 8 to be in a drying position;

(8) the air supply cylinder 91 and the fan 910 complete drying;

(9) the rotating motor 78 rotates anticlockwise to enable the bearing clamping jaw device 8 to be in a discharging position;

(10) the opening and closing control motor 57 rotates anticlockwise until the bearing clamping jaw device 8 is loosened, and the bearing slides out from the discharging inclined frame 10 for subsequent use or on-line production and assembly;

(11) the opening and closing control motor 57 rotates clockwise until the bearing clamping jaw device 8 clamps;

(12) if the operation is finished, if so, emptying the station; and (4) if not, turning to the step (1).

Claims

1. Can be used to full-automatic bearing of carousel formula of mixed line production and wash production line, including oil tank (1), foot rest (2), station frame (3), material loading station group (4), clamping jaw switching control group (5) take precautions against earthquakes, wash station group (6), station rotating device (7), four bearing clamping jaw devices (8), weather station group (9), ejection of compact sloping frame (10), its characterized in that: the four shockproof foot stands (2) are installed at the bottom of the oil tank (1) to be fixed, the station rack (3) is installed on the oil tank (1), four sides of the station rack are sequentially and fixedly installed on the feeding station group (4), the cleaning station group (6), the blowing station group (9) and the discharging inclined frame (10) according to the angle position of 45 degrees, the four bearing clamping jaw devices (8) are sequentially installed on a station turntable (74) of the station rotating device (7) according to the angle position of 45 degrees, the station rotating device (7) is installed in a reserved center hole of the station rack (3), the height position of a clamping jaw of the bearing clamping jaw device (8) on the station rotating device (7) is located between the bottom of a layered storage barrel (44) of the feeding station group (4) and the upper side of the storage rack (45), and the clamping jaw opening and closing control group (5) is installed on the feeding station rack (3) through a motor seat (56), An angle central line of an included angle formed by the position of the discharging inclined frame (10) and the center of the station rack (3) and two racks A (55) on the inner side and the outer side of the clamping jaw opening and closing control group (5) are respectively meshed with a clamping jaw opening and closing control gear (816) at the discharging position and the feeding position.

2. The rotating disc type full-automatic bearing cleaning production line for mixed line production according to claim 1, characterized in that: the feeding station group (4) comprises a feeding cylinder rack (41), a feeding cylinder (42), a layered feeding frame (43), a layered storage barrel (44) and a storage rack (45), wherein the feeding cylinder (42) is fixed on the cylinder rack (41), the layered feeding frame (43) is fixedly connected with the feeding cylinder (42) through a shaft, transverse side baffles respectively penetrate through corresponding gaps of the layered storage barrel, and the feeding cylinder (42) is a double-acting cylinder.

3. The rotating disc type full-automatic bearing cleaning production line for mixed line production according to claim 1, characterized in that: the clamping jaw opening and closing control group (5) comprises an opening and closing motor bracket (51), a sliding rail slide block A (52), a motor shaft (53), a gear A (54), a rack A (55), a motor base (56) and an opening and closing control motor (57); the opening and closing control motor (57) is fixedly connected with the lower part of the motor base (56) through a motor support (51), and the motor base (56) is arranged at the position on the station rack (3).

4. The rotating disc type full-automatic bearing cleaning production line for mixed line production according to claim 1, characterized in that: the cleaning station group (6) comprises a hydraulic pump (61), a lower cleaning gland (62), an upper cleaning gland (63), a cleaning cylinder (64), an oil inlet valve (65), an oil inlet pipe branching device (66), an oil inlet pipe (67), an oil inlet header pipe (68), a spray pipe (69), an oil return port (610), an oil return pipe (611), a support frame (612), an oil return pipe branching device (613) and an oil return header pipe (614); the business turn over hydraulic pump (61) the hydraulic fluid port respectively by oil feed house steward (68) and oil return house steward (614) with the oil-out and the oil return opening intercommunication of oil tank (1), wash shower (69) on gland (63) and lower washing gland (62) on oil feed house steward (614) through oil feed valve (65) and oil feed pipe branching unit (66) intercommunication, oil return house steward (614) is by wasing oil return opening (610) on gland (62) down through oil return pipe (611), oil return pipe branching unit (613) intercommunication, go up washing gland (63) and fix washing cylinder (64) fixed connection on supporting rack (612), wash gland (62) down and fix on supporting rack (612), it is the single-action cylinder to wash cylinder (64).

5. The rotating disc type full-automatic bearing cleaning production line for mixed line production according to claim 1, characterized in that: the station rotating device (7) comprises a driven shaft bearing group (71), a driven shaft (72), a driven gear (73), a station turntable (74), a driving gear (75), a driving shaft (76), a coupler (77), a rotating motor (78), a motor support and a turntable connecting sleeve; the rotary motor (78) is installed on the station rack (3) through a motor support, a motor shaft is connected with a driving shaft (76) through a coupler (77) and is assembled with a driving gear (75), the lower part of a driven shaft (72) is rotatably assembled with a driven shaft bearing group (71), a turntable connecting sleeve is assembled on the upper part of the driven shaft (72) and is fixedly installed with a station turntable (74), and a driven gear (73) assembled on the driven shaft (72) is meshed with the driving gear (75).

6. The rotating disc type full-automatic bearing cleaning production line for mixed line production according to claim 1, characterized in that: the bearing clamping jaw device (8) comprises a pulley sliding block B (813) arranged on a square base (83), two racks B (84) meshed with a central gear B (812) are symmetrically fixed on the inner side of the sliding block, the upper sides of the racks B (84) are respectively and fixedly connected with a left clamping plate bracket (810) and a right clamping plate bracket (89) of a left clamping plate and a right clamping plate, the outer side of the sliding block is fixedly connected with a pull block (814) and connected with a locking spring (86) through a pull ring (815) sleeved on the pull block, and the other side of the locking spring (82) is connected with a spring fixing frame (81) fixed on the square base (83); the left clamping plate and the right clamping plate are of mirror symmetry structures and are provided with clamping springs (86), variable-diameter clamping blocks (87), lower clamping plates (85) and clamping plate covers (88), a central gear B (812) is assembled on a clamping plate central shaft (811) and penetrates through the clamping plate central shaft (811) at the other end of the square base (83), and a clamping jaw opening and closing control gear (816) is fixed on the clamping plate central shaft (811) at the other end of the square base (83), and the installation height of the clamping jaw opening and closing control gear is identical to that of a rack A (55) in the.

7. The rotating disc type full-automatic bearing cleaning production line for mixed line production according to claim 1, wherein the blow-drying station group (9) comprises an air supply cylinder (91), an air pipe frame (92), an air pipe branching device (93), an air supply hose (94), an upper air supply gland (95), a lower air supply gland (96), an air nozzle (97), an air supply station support (98), a main air supply pipe (99) and a fan (910); the air blower (910) is communicated with an upper air supply gland (95) and an air nozzle (97) on a lower air supply gland (96) through a main air supply pipe (99), an air pipe frame (92) and an air supply hose (94), the upper air supply gland (95) is fixedly connected with an air supply cylinder (91) fixed on an air supply station support (98), the lower air supply gland (96) is fixed on the air supply station support (98), and the air supply cylinder (91) is a single-action cylinder.