CN221319163U - Multi-station thin-wall deep groove ball bearing production equipment - Google Patents

Abstract

The utility model relates to the technical field of bearing production equipment, in particular to multi-station thin-wall deep groove ball bearing production equipment. The technical proposal comprises: the box, first cavity has been seted up on the inside top of box, and the inside one end of first cavity is equipped with first fretwork frame, and first swivel nut is installed in the one end penetration of first fretwork frame, and the inside of first swivel nut has inserted first screw rod, and the bottom mounting of first screw rod has first pinion, the inside other end of first cavity is equipped with the second fretwork frame, and the one end of second fretwork frame is run through and is installed the second swivel nut, and the inside of second swivel nut has been inserted the second screw rod. According to the utility model, the two engraving frames are arranged in the box body, the two engraving nets are driven by the single motor to perform an up-down operation, so that one engraving frame is lowered to clean the bearing placed in the box body, and the other engraving frame is lifted to air-dry the cleaned bearing in the box body by using the fan, thereby achieving the effect of quick air-drying after cleaning and convenient for staff to take.

Description

Multi-station thin-wall deep groove ball bearing production equipment

Technical Field

The utility model relates to the technical field of bearing production equipment, in particular to multi-station thin-wall deep groove ball bearing production equipment.

Background

The thin-wall deep groove ball bearing is a specially designed bearing, has the characteristic of small inner diameter relative to outer diameter, and has a thinner outer ring and inner ring structure. Such bearings are commonly used in applications requiring light weight, limited space and high speed rotation. The thin-wall deep groove ball bearing has simple structure and convenient installation, and is widely applied to the fields of automobiles, motorcycles, household appliances, industrial machinery and the like. The design of the thin-walled deep groove ball bearing enables it to withstand radial and axial loads and to maintain smooth operation at high rotational speeds. The characteristics of the bearing include low friction, low noise, high rotational speed and high reliability. It plays an important role in mechanical transmission systems and can meet some equipment with strict requirements on space and weight. Multiple devices are required to be used in the production of the thin-wall deep groove ball bearing, such as: cold header, grinding machine, heat treatment facility, assembly equipment, cleaning equipment and check out test set, wherein cleaning equipment is a bearing abluent equipment, and when the service environment of bearing was relatively poor, can be infected with many impurity foreign matters on the bearing, and these impurity foreign matters combine with the greasy dirt on the bearing, can seriously influence the result of use and the life of bearing. The application number is "CN202020049881.7" disclosed "a bearing cleaning device", and it is through specific technical structure setting, when having solved the service environment of bearing relatively poor, can be infected with many impurity foreign matters on the bearing, and these impurity foreign matters combine with the greasy dirt on the bearing, can seriously influence the problem of result of use and life of bearing, but the device still has some problems, like: the rotatable rotating frame is utilized to convey a plurality of bearings into the cleaning box for cleaning, but after the bearing is rotated out of the cleaning box, the bearing surface of the bearing can remain moisture, the bearing can be directly taken to be dropped on the ground to cause waste and pollution, and the bearing is dried by a manual taking tool, so that the operation is inconvenient.

Disclosure of utility model

The utility model aims to provide multi-station thin-wall deep groove ball bearing production equipment so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a multistation thin wall deep groove ball bearing production facility, includes the box, first cavity has been seted up on the inside top of box, and the inside one end of first cavity is equipped with first fretwork frame, and first swivel nut is installed in the one end penetration of first fretwork frame, and the inside of first swivel nut has inserted first screw rod, and the bottom mounting of first screw rod has first pinion, the inside other end of first cavity is equipped with the second fretwork frame, and the one end of second fretwork frame runs through and installs the second swivel nut, and the inside of second swivel nut has inserted the second screw rod, and the bottom mounting of second screw rod has the second pinion.

When the multi-station thin-wall deep groove ball bearing production equipment in the technical scheme is used, a worker firstly needs to externally supply power to the equipment, the operation of the equipment is controlled through the control panel, the worker rotates to open the first box door, after the first box door rotates to open, the worker places a bearing to be cleaned in the first engraving frame, after the first box door rotates to open, the worker controls the motor to operate, the motor rotates to output a fixed main gear, the main gear rotates to engage a first auxiliary gear on one side and a second auxiliary gear on the other side, the first auxiliary gear rotates with a first screw rod, the second auxiliary gear rotates with a second screw rod, a first screw sleeve sleeved on the surface of the first screw rod moves downwards due to the threaded engagement, a second screw sleeve sleeved on the surface of the second screw rod moves upwards due to the threaded engagement after the second screw rod rotates, the first hollow frame is lowered and lifted up, the second hollow frame is lifted up, the worker can rotate to open the second box door, the bearing to be cleaned is placed in the second box door to wait for the subsequent cleaning operation, when the first hollow frame is immersed in the cleaning liquid, the worker starts the ultrasonic generator, the ultrasonic generator can send ultrasonic waves to match the cleaning liquid to clean the bearing, the worker controls the motor to rotate reversely after cleaning, the second hollow frame is lowered down and immersed in the cleaning liquid to continue the cleaning operation, the cleaned bearing is lifted up from the cleaning liquid by the first hollow frame and moves to the side of the first fan, the first fan and the second fan are started at the moment, the first fan blows air by the second fan, so that the first fan blows air to form a ventilation duct at the top end in the first cavity, the bearing placed in the first hollow frame is quickly air-dried, after air drying, the worker rotates again to open the first box door, the air-dried bearing in the first engraving frame can be taken out, and then the bearing to be cleaned is placed to complete the operation of alternate cleaning.

Preferably, the other end of the first hollow frame is provided with a first sliding sleeve in a penetrating mode, and a first sliding rod is inserted into the first sliding sleeve. Through the cooperation of first slide bar and first sliding sleeve, make first screw rod screw thread meshing first swivel nut lift and remove the first fretwork frame when stabilizing its other end, reached the lift removal effect of stable first fretwork frame.

Preferably, the other end of the second hollow frame is provided with a second sliding sleeve in a penetrating mode, and a second sliding rod is inserted into the second sliding sleeve. Through the cooperation of second slide bar and second sliding sleeve, make second screw rod screw thread engagement second swivel nut lift remove the second fretwork frame when stabilizing its other end, reached the lift removal effect of stable second fretwork frame.

Preferably, a second cavity is formed in the bottom end of the box body, a motor is fixed in the second cavity, a main gear is fixed at the output end of the motor, a first auxiliary gear is meshed with one side of the main gear, and a second auxiliary gear is meshed with the other side of the main gear. Through the cooperation of motor and main gear and first pinion and second pinion, make power transmission to in first screw rod and the second screw rod, reached power take off and transmission's effect.

Preferably, an ultrasonic generator is arranged in the rear end of the box body. Through setting up supersonic generator, make the bearing that soaks in the washing liquid in the first cavity can be by ultrasonic cleaning, reached ultrasonic cleaning's effect.

Preferably, a first fan is arranged on one side of the outer part of the box body, and a second fan is arranged on the other side of the outer part of the box body. Through the cooperation of first fan and second fan, make the inside top region of first cavity can form the circulation wind channel, reached and blown one and taken out quick effect to carrying out the air-drying to the bearing in first fretwork frame and the second fretwork frame.

Preferably, one end of the outer front surface of the box body is rotatably provided with a first box door, and the other end of the outer front surface of the box body is rotatably provided with a second box door. Through the cooperation of first chamber door and second chamber door, make to wait to wash the bearing and the bearing that has washed can get through here and put, reached and provided the position effect of getting and putting.

Compared with the prior art, the utility model has the beneficial effects that:

1. According to the utility model, the two engraving frames are arranged in the box body, the two engraving nets are driven by the single motor to perform an up-down operation, so that one engraving frame is lowered to clean the bearing placed in the box body, and the other engraving frame is lifted to air-dry the cleaned bearing in the box body by using the fan, thereby achieving the effect of quick air-drying after cleaning and convenient for staff to take.

Drawings

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

FIG. 2 is a schematic top view of the internal structure of the present utility model;

FIG. 3 is a schematic view of the front view of the present utility model;

Fig. 4 is a schematic view of the internal structure of the present utility model.

In the figure: 1. a case; 2. a second cavity; 3. a motor; 4. a second pinion; 5. a main gear; 6. a first pinion gear; 7. a first cavity; 8. a first fan; 9. a first sliding sleeve; 10. a first stencil; 11. a first screw sleeve; 12. a first slide bar; 13. a first screw; 14. a second screw; 15. a second slide bar; 16. a second fan; 17. the second sliding sleeve; 18. a second stencil; 19. a second screw sleeve; 20. an ultrasonic generator.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the production device for the multi-station thin-wall deep groove ball bearing provided by the utility model comprises a box body 1, wherein a first cavity 7 is formed in the top end of the interior of the box body 1, a first hollow frame 10 is arranged at one end of the interior of the first cavity 7, a first screw sleeve 11 is installed at one end of the first hollow frame 10 in a penetrating manner, a first screw rod 13 is inserted into the interior of the first screw sleeve 11, a first pinion 6 is fixed at the bottom end of the first screw rod 13, a second hollow frame 18 is arranged at the other end of the interior of the first cavity 7, a second screw sleeve 19 is installed at one end of the second hollow frame 18 in a penetrating manner, a second screw rod 14 is inserted into the interior of the second screw sleeve 19, and a second pinion 4 is fixed at the bottom end of the second screw rod 14.

The working personnel need to externally supply power to the utility model, the working personnel control the operation of the utility model through the control panel, the working personnel rotate to open the first box door, the working personnel place the bearing to be cleaned inside the first engraving frame 10 after the first box door rotates to open, the working personnel control the motor 3 to operate after the bearing is placed inside, the motor 3 rotates the main gear 5 with fixed output end, the main gear 5 rotates to engage the first pinion 6 on one side and the second pinion 4 on the other side, the first pinion 6 rotates with the first screw rod 13, the second pinion 4 rotates with the second screw rod 14, the first screw sleeve 11 sleeved on the surface of the first screw rod 13 descends and moves with the first engraving frame 10 due to the threaded engagement after the first screw rod 13 rotates, the second screw sleeve 19 sleeved on the surface of the second screw rod 14 ascends and moves with the second engraving frame 18 due to the threaded engagement after the second screw rod 14 rotates, the first hollow frame 10 is lowered and lifted up, the second hollow frame 18 is lifted up, the worker can rotate to open the second box door, the bearing to be cleaned next is placed in the bearing to wait for the subsequent cleaning operation, when the first hollow frame 10 is immersed in the cleaning liquid, the worker starts the ultrasonic generator 20, the ultrasonic generator 20 sends ultrasonic waves to match the cleaning liquid to clean the bearing, the worker controls the motor 3 to rotate reversely after cleaning, the second hollow frame 18 is lowered and immersed in the cleaning liquid to continue the cleaning operation, the cleaned bearing is lifted up from the cleaning liquid by the first hollow frame 10 and moved to the side of the first fan 8, the first fan 8 and the second fan 16 are started at the moment, the first fan 8 blows air to the second fan 16, a ventilation duct is formed at the inner top end of the first cavity 7 by one blowing, the bearing of placing in the first fretwork frame 10 is air-dried fast, and the staff rotates once more after the air-drying and opens first chamber door and can give the bearing of having air-dried in the first fretwork frame 10 and take out, then places the operation that the bearing of waiting to wash accomplished the alternate washing again.

Example two

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the present utility model provides a production apparatus for a multi-station thin-wall deep groove ball bearing, which further includes: the other end of first fretwork frame 10 runs through and installs first sliding sleeve 9, first slide bar 12 has been inserted to the inside of first sliding sleeve 9, second sliding sleeve 17 has been installed in the other end of second fretwork frame 18 runs through, second slide bar 15 has been inserted to the inside of second sliding sleeve 17, second cavity 2 has been seted up to the inside bottom of box 1, the inside of second cavity 2 is fixed with motor 3, the output of motor 3 is fixed with master gear 5, the meshing of one side of master gear 5 has first pinion 6, the meshing of the opposite side of master gear 5 has second pinion 4, the inside supersonic generator 20 that is equipped with of rear end of box 1, outside one side of box 1 is equipped with first fan 8, the outside opposite side of box 1 is equipped with second fan 16, the outside front surface one end rotation of box 1 installs first chamber door, the outside front surface other end rotation of box 1 installs the second chamber door.

In this embodiment, as shown in fig. 1, 2 and 4, through the cooperation of the first slide rod 12 and the first sliding sleeve 9, the first screw rod 13 is made to be in threaded engagement with the first threaded sleeve 11 to stabilize the other end of the first threaded sleeve 11 when the first hollow frame 10 is lifted and moved, so as to achieve the effect of stabilizing the lifting and moving of the first hollow frame 10;

As shown in fig. 1, 2 and 4, the second screw rod 14 is meshed with the second screw sleeve 19 by the cooperation of the second slide rod 15 and the second slide sleeve 17 to stabilize the other end of the second screw rod 14 when the second hollow frame 18 moves up and down, so that the effect of stabilizing the up and down movement of the second hollow frame 18 is achieved;

As shown in fig. 1, the motor 3 and the main gear 5 are matched with the first auxiliary gear 6 and the second auxiliary gear 4, so that power can be transmitted into the first screw 13 and the second screw 14, and the effects of power output and transmission are achieved;

As shown in fig. 2, by arranging the ultrasonic generator 20, the bearing immersed in the cleaning liquid in the first cavity 7 can be ultrasonically cleaned, thereby achieving the effect of ultrasonic cleaning;

As shown in fig. 1 and fig. 3, through the cooperation of the first fan 8 and the second fan 16, the inner top end area of the first cavity 7 can form a ventilation duct, so that the effect of quickly airing the bearings in the first hollow frame 10 and the second hollow frame 18 by blowing and sucking is achieved;

as shown in fig. 3, by matching the first door and the second door, the bearing to be cleaned and the cleaned bearing can be taken and placed through the bearing, so that the effect of providing the taking and placing position is achieved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a multistation thin wall deep groove ball bearing production facility, includes box (1), its characterized in that: the inside top of box (1) has seted up first cavity (7), and the inside one end of first cavity (7) is equipped with first fretwork frame (10), and first swivel nut (11) are run through to the one end of first fretwork frame (10), and first screw rod (13) have been inserted to the inside of first swivel nut (11), and the bottom mounting of first screw rod (13) has first pinion (6), the inside other end of first cavity (7) is equipped with second fretwork frame (18), and second swivel nut (19) are run through to the one end of second fretwork frame (18), and second screw rod (14) have been inserted to the inside of second swivel nut (19), and the bottom mounting of second screw rod (14) has second pinion (4).

2. The multi-station thin-wall deep groove ball bearing production equipment according to claim 1, wherein: the other end of the first engraving frame (10) is provided with a first sliding sleeve (9) in a penetrating mode, and a first sliding rod (12) is inserted into the first sliding sleeve (9).

3. The multi-station thin-wall deep groove ball bearing production equipment according to claim 1, wherein: the other end of the second hollow frame (18) is provided with a second sliding sleeve (17) in a penetrating mode, and a second sliding rod (15) is inserted into the second sliding sleeve (17).

4. The multi-station thin-wall deep groove ball bearing production equipment according to claim 1, wherein: the novel electric power box is characterized in that a second cavity (2) is formed in the bottom end of the inside of the box body (1), a motor (3) is fixed in the second cavity (2), a main gear (5) is fixed at the output end of the motor (3), a first auxiliary gear (6) is meshed with one side of the main gear (5), and a second auxiliary gear (4) is meshed with the other side of the main gear (5).

5. The multi-station thin-wall deep groove ball bearing production equipment according to claim 1, wherein: an ultrasonic generator (20) is arranged in the rear end of the box body (1).

6. The multi-station thin-wall deep groove ball bearing production equipment according to claim 1, wherein: a first fan (8) is arranged on one side of the outside of the box body (1), and a second fan (16) is arranged on the other side of the outside of the box body (1).

7. The multi-station thin-wall deep groove ball bearing production equipment according to claim 1, wherein: the first box door is rotatably installed at one end of the outer front surface of the box body (1), and the second box door is rotatably installed at the other end of the outer front surface of the box body (1).