CN211623982U

CN211623982U - Full-automatic equipment of notes fat gland of bearing

Info

Publication number: CN211623982U
Application number: CN201922479191.5U
Authority: CN
Inventors: 孙建丰
Original assignee: Cixi Youyou Bearing Co ltd
Current assignee: Cixi Youyou Bearing Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-10-02
Anticipated expiration: 2029-12-31

Abstract

The utility model provides a full automatic equipment of notes fat gland of bearing, includes the feeding conveyer belt, still including setting gradually: the grease filling machine comprises a flexibility detection mechanism, a grease filling front weighing mechanism, a first grease filling mechanism, a second grease filling mechanism, a grease filling rear weighing mechanism, a grease detection mechanism, a first rejecting mechanism, a first cover loading mechanism, a first cover pressing mechanism, a first cover inspecting mechanism, a second overturning mechanism, a second cover loading mechanism, a second cover pressing mechanism, a second cover inspecting mechanism, a second rejecting mechanism, a grease homogenizing mechanism and an operating mechanism. Through the full-automatic grease injection and cap filling process, grease injection and assembly efficiency is greatly improved, and product quality is guaranteed.

Description

Full-automatic equipment of notes fat gland of bearing

Technical Field

The utility model relates to a non-standard equipment, especially a full automatic equipment of notes fat gland of bearing.

Background

The patent mainly relates to a deep groove ball bearing, which is the most common one of rotating bearings and mainly relates to the large and small fields of automobiles, airplanes, engines, ceiling fans and the like.

The existing bearing is separated when injecting grease and installing a sealing cover, the upper end face and the lower end face are separately installed, the steps are complex, the phenomenon of leakage injection or leakage installation is easy to occur, the installation efficiency cannot be guaranteed, and the product quality cannot be guaranteed.

Disclosure of Invention

In order to overcome the above-mentioned not enough of prior art, the utility model provides a full automatic equipment of notes fat gland of bearing.

The technical proposal of the utility model for solving the technical problem is that: the utility model provides a full automatic equipment of notes fat gland of bearing, includes the feeding conveyer belt, still including setting gradually:

the flexibility detection mechanism is used for detecting the flexibility of the rotation of the bearing and comprises a flexibility detection support, wherein a flexibility detection air cylinder is arranged on the flexibility detection support and is connected with a flexibility detection linkage block, a flexibility detection motor is arranged at the other end of the flexibility detection linkage block, and the flexibility detection motor is connected with a rotating head;

the weighing mechanism before grease injection is used for weighing the bearing before grease injection and comprises a weighing platform before grease injection;

the first grease injection mechanism is used for injecting grease to the end face of the bearing and comprises a first grease injection support, wherein a first grease injection cylinder is arranged on the first grease injection support and connected with a first grease injection linkage block, a first grease injection motor is arranged at the other end of the first grease injection linkage block and connected with a first grease injection head;

the first turnover mechanism is used for turning over the bearing and comprises a first turnover motor, and the first turnover motor is connected with a first turnover head;

the second grease injection mechanism is used for injecting grease to the other end face of the bearing and comprises a second grease injection support, a second grease injection cylinder is arranged on the second grease injection support and connected with a second grease injection linkage block, a second grease injection motor is arranged at the other end of the second grease injection linkage block and connected with a second grease injection head;

the weighing mechanism after the grease injection is used for weighing the bearing after the grease injection and comprises a weighing platform after the grease injection;

the grease detection mechanism is used for detecting whether the position of grease injection in the bearing is correct or not, and comprises a grease detection bracket, wherein a grease detection head is arranged on the grease detection bracket;

the first removing mechanism is used for removing unqualified bearings and comprises a first removing cylinder, and the first removing cylinder is connected with a first removing support plate;

the first cover mounting mechanism is used for mounting a dust cover on the end face of the bearing, and comprises a first cover mounting support, a first cover mounting cylinder and a first cover conveying cylinder, wherein the first cover mounting support is provided with the first cover mounting cylinder which is connected with a first air suction head;

the first gland mechanism is used for compressing the mounted dust cap and comprises a first gland support, a first gland cylinder is arranged on the first gland support, and the first gland cylinder is connected with a first gland head;

the first cover detection mechanism is used for detecting whether the dustproof cover is pressed tightly and comprises a first cover detection support, a first cover detection cylinder is arranged on the first cover detection support, and the first cover detection cylinder is connected with a first cover detection head;

the second turnover mechanism is used for turning over the bearing and comprises a second turnover motor, and the second turnover motor is connected with a second turnover head;

the second cover mounting mechanism is used for mounting a dust cover on the other end face of the bearing, and comprises a second cover mounting support, a second cover mounting cylinder is arranged on the second cover mounting support and connected with a second air suction head, and a second cover conveying cylinder connected with a second cover conveying positioning block;

the second gland mechanism is used for compressing the dust cap installed on the other end face of the bearing and comprises a second gland support, a second gland cylinder is arranged on the second gland support, and the second gland cylinder is connected with a second gland head;

the second cover detection mechanism is used for detecting whether the dustproof cover on the other end face of the bearing is pressed or not, and comprises a second cover detection support, wherein a second cover detection cylinder is arranged on the second cover detection support, and the second cover detection cylinder is connected with a second cover detection head;

the second removing mechanism is used for removing unqualified bearings and comprises a second removing cylinder, and the second removing cylinder is connected with a second removing support plate;

the grease homogenizing mechanism is used for uniformly distributing grease in the bearing and comprises a grease homogenizing support, a grease homogenizing cylinder is arranged on the grease homogenizing support and connected with a grease homogenizing linkage block, a grease homogenizing motor is arranged at the other end of the grease homogenizing linkage block and connected with a grease homogenizing rotating head;

the operation mechanism gradually operates the bearing to each station, and comprises a transverse operation cylinder and a vertical operation cylinder, wherein the vertical operation cylinder is connected with an operation frame, and an operation clamping head is arranged on the operation frame.

Preferably, the rotating head is provided with a positioning chuck matched with the bearing inner ring.

Preferably, the first turnover head and the second turnover head are both provided with transverse grooves matched with the bearings.

Preferably, the first cap feeding positioning block and the second cap feeding positioning block are internally provided with positioning circular grooves matched with the bearings.

Preferably, the operation chuck is provided with a positioning inclined groove matched with the bearing.

Preferably, the number of the vertical operation cylinders is two, and the two vertical operation cylinders are respectively arranged at the left side and the right side of the operation frame.

The beneficial effects of the utility model reside in that: through the full-automatic grease injection and cap filling process, grease injection and assembly efficiency is greatly improved, and product quality is guaranteed.

Drawings

Fig. 1 is a top view of the assembly of the present invention.

Fig. 2 is an assembly isometric view of the present invention.

Fig. 3 is an enlarged view of a of fig. 2 according to the present invention.

Fig. 4 is an enlarged view B of fig. 2 according to the present invention.

Fig. 5 is an enlarged view of C of fig. 2 according to the present invention.

Fig. 6 is a D enlarged view of fig. 2 of the present invention.

Fig. 7 is a structural diagram of the first capping mechanism or the second capping mechanism of the present invention.

Fig. 8 is an enlarged view E of fig. 2 according to the present invention.

Fig. 9 is an enlarged view F of fig. 2 according to the present invention.

Fig. 10 is an enlarged G view of fig. 2 according to the present invention.

Fig. 11 is a plan view of the operation mechanism of the present invention.

Detailed Description

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

Referring to fig. 1-11, a full-automatic equipment of notes fat gland of bearing, including feeding conveyer belt 1, still including setting gradually:

referring to fig. 3, the flexibility detection mechanism 2 is used for detecting the flexibility of the rotation of the bearing, and includes a flexibility detection support 20, the flexibility detection support 20 is provided with a flexibility detection cylinder 21, the flexibility detection cylinder 21 is connected with a flexibility detection linkage block 22, the other end of the flexibility detection linkage block 22 is provided with a flexibility detection motor 23, and the flexibility detection motor 23 is connected with a rotation head 24; the flexibility detection cylinder 21 drives the flexibility detection motor 23 to move downwards through the flexibility detection linkage block 22, so that the rotating head 24 is abutted to the outer ring of the bearing, then the flexibility detection motor 23 rotates to drive the rotating head 24 to rotate, so that the rotating head 24 drives the outer ring of the bearing to rotate, and the flexibility of the bearing rotation is detected.

The pre-grease-injection weighing mechanism 3 is used for weighing the bearing before grease injection, comprises a pre-grease-injection weighing platform 25, and can detect the whole weight by placing the bearing on the pre-grease-injection weighing platform 25;

referring to fig. 4, the first grease injecting mechanism 4 is used for injecting grease to the end surface of the bearing, and includes a first grease injecting support 26, a first grease injecting cylinder 27 is disposed on the first grease injecting support 26, the first grease injecting cylinder 27 is connected to a first grease injecting linkage block 28, a first grease injecting motor 29 is disposed at the other end of the first grease injecting linkage block 28, the first grease injecting motor 29 is connected to a first grease injecting head 30, the first grease injecting cylinder 27 drives the first grease injecting motor 29 to move downwards through the first grease injecting linkage block 28, so as to drive the first grease injecting head 30 to extend into the bearing, and then the first grease injecting motor 29 operates to inject grease in the first grease injecting head 30 into the bearing;

referring to fig. 5, the first turnover mechanism 5 is used for turning over the bearing, and includes a first turnover motor 31, the first turnover motor 31 is connected to a first turnover head 32, and the first turnover motor 31 rotates to drive the bearing clamped in the first turnover head 32 to turn over for 180 degrees;

referring to fig. 3 (the second grease injecting mechanism 6 has the same structure as the first grease injecting mechanism 4, and therefore is not repeatedly shown), the second grease injecting mechanism 6 is used for injecting grease to the other end surface of the bearing, and includes a second grease injecting support 33, a second grease injecting cylinder 34 is arranged on the second grease injecting support 33, the second grease injecting cylinder 34 is connected with a second grease injecting linkage block 35, a second grease injecting motor 36 is arranged at the other end of the second grease injecting linkage block 35, the second grease injecting motor 36 is connected with a second grease injecting head 37, the second grease injecting cylinder 34 drives the second grease injecting motor 36 to move downwards through the second grease injecting linkage block 35, so as to drive the second grease injecting head 37 to extend into the bearing, and then the second grease injecting motor 36 operates to inject grease in the second grease injecting head 37 into the bearing;

the post-grease-injection weighing mechanism 7 is used for weighing the bearings after grease injection, comprises a post-grease-injection weighing platform 38, the bearings are placed on the post-grease-injection weighing platform 38, the overall weight can be detected, then the overall weight before weighing is compared, the difference value is the total weight of the grease injection, and when the total weight of the grease injection is too much or too little, unqualified bearings can be removed through the subsequent first removing mechanism 9;

referring to fig. 6, the grease detection mechanism 8, which is used for detecting whether the position of grease injection in the bearing is correct, includes a grease detection bracket 39, and a grease detection head 40 is arranged on the grease detection bracket 39;

the first removing mechanism 9 is used for removing unqualified bearings and comprises a first removing cylinder 41, the first removing cylinder 41 is connected with a first removing support plate 42, the first removing cylinder 41 can remove unqualified flexibility detection, unqualified grease amount and unqualified grease injection positions, and the first removing support plate 42 is driven to move by the first removing cylinder 41 during work, so that the bearings on a production line are removed;

referring to fig. 7, the first cap installing mechanism 10 is used for installing a dust cap on an end surface of a bearing, and includes a first cap installing support 43, a first cap installing cylinder 44 is arranged on the first cap installing support 43, the first cap installing cylinder 44 is connected with a first suction head 45, and further includes a first cap conveying cylinder 46, the first cap conveying cylinder 46 is connected with a first cap conveying positioning block 47, the first cap conveying positioning block 47 is driven by the first cap conveying cylinder 46 to be directly below the first suction head 45, then the first cap installing cylinder 44 drives the first suction head 45 to move downwards to suck up the dust cap in the first cap conveying positioning block 47, then the first suction head 45 is driven by the first cap installing cylinder 44 to be close to the bearing, and then the first suction head 45 stops sucking air to place the dust cap into the bearing;

referring to fig. 8, the first gland mechanism 11 is used for compressing the mounted dust cap, and includes a first gland support 48, a first gland cylinder 49 is disposed on the first gland support 48, the first gland cylinder 49 is connected to a first gland head 50, and the first gland cylinder 49 drives the first gland head 50 to move downward so as to compress the dust cap in the bearing;

referring to fig. 9, the first cover inspection mechanism 12 is used for detecting whether the dust cover is pressed, and includes a first cover inspection bracket 51, a first cover inspection cylinder 52 is disposed on the first cover inspection bracket 51, the first cover inspection cylinder 52 is connected to a first cover inspection detection head 53, and when detecting, the first cover inspection cylinder 52 drives the first cover inspection detection head 53 to be close to the dust cover, so as to achieve the purpose of detection;

the second turnover mechanism 13 is used for turning over the bearing and comprises a second turnover motor 54, the second turnover motor 54 is connected with a second turnover head 55, and the second turnover motor 54 drives the second turnover head 55 so as to turn over the bearing for 180 degrees;

referring to fig. 7 (since the second capping mechanism 14 has the same structure as the first capping mechanism 10, it will not be repeated), a second capping mechanism 14 for mounting a dust cap on the other end surface of the bearing, includes a second capping bracket 56, the second cover installing support 56 is provided with a second cover installing cylinder 57, the second cover installing cylinder 57 is connected with a second suction head 58, the second cover installing support also comprises a second cover conveying cylinder 59, the second cap feeding cylinder 59 is connected with a second cap feeding positioning block 60, the second cap feeding positioning block 60 is driven to be positioned under the second suction head 58 through the second cap feeding cylinder 59, then the second cover mounting cylinder 57 drives the second suction head 58 to move downwards to suck up the dust cap in the second cover feeding positioning block 60, and then the second suction head 58 is driven to a position close to the bearing by the second cover mounting cylinder 57, then the second suction head 58 stops sucking air so as to place the dust cap into the other end face of the bearing;

referring to fig. 8 (since the second gland mechanism 15 has the same structure as the first gland mechanism 11, it is not shown repeatedly), the second gland mechanism 15 is used for compressing the dust cap mounted on the other end surface of the bearing, and includes a second gland bracket 61, a second gland cylinder 62 is arranged on the second gland bracket 61, the second gland cylinder 62 is connected with a second gland head 63, and the second gland cylinder 62 drives the second gland head 63 to move downward so as to compress the dust cap on the other end surface of the bearing;

referring to fig. 9 (since the second cover inspecting mechanism 12 has the same structure as the first cover inspecting mechanism 16, it is not shown repeatedly), the second cover inspecting mechanism 16 is used for detecting whether the dust-proof cover on the other end surface of the bearing is pressed, and includes a second cover inspecting bracket 64, a second cover inspecting cylinder 65 is disposed on the second cover inspecting bracket 64, the second cover inspecting cylinder 65 is connected with a second cover inspecting detecting head 66, and when detecting, the second cover inspecting cylinder 65 drives the second cover inspecting detecting head 66 to approach the dust-proof cover, so as to achieve the purpose of detection;

the second removing mechanism 17 is used for removing unqualified bearings and comprises a second removing cylinder 67, the second removing cylinder 67 is connected with a second removing support plate 68, products with the dust covers not in place mounted on the two end faces of the middle bearing can be removed, and the first removing support plate 42 is driven to move by the first removing cylinder 41 during work, so that the bearings on the production line are removed;

referring to fig. 10, the grease homogenizing mechanism 18 is used for uniformly distributing grease in a bearing, and includes a grease homogenizing support 69, a grease homogenizing cylinder 70 is arranged on the grease homogenizing support 69, the grease homogenizing cylinder 70 is connected with a grease homogenizing linkage block 71, a grease homogenizing motor 72 is arranged at the other end of the grease homogenizing linkage block 71, the grease homogenizing motor 72 is connected with a grease homogenizing rotor 73, the grease homogenizing cylinder 70 drives the grease homogenizing motor 72 to move downwards through the grease homogenizing linkage block 71, so that the grease homogenizing rotor 73 extends into the bearing, then the grease homogenizing motor 72 rotates, and the grease homogenizing rotor 73 stirs the grease in the bearing, thereby realizing the function of homogenizing the grease;

referring to fig. 11, the operation mechanism 19, which gradually operates the bearings to each station, includes a horizontal operation cylinder 74 and a vertical operation cylinder 75, the vertical operation cylinder 75 is connected with an operation frame 76, the operation frame 76 is provided with an operation chuck 77, when the mechanism is in operation, the vertical operation cylinder 75 drives the operation frame 76 to move forward, so that the operation chuck 77 on the operation frame 76 is clamped with the bearings, then the horizontal operation cylinder 74 transports the bearings to the next station, and then the vertical operation cylinder 75 and the horizontal operation cylinder 74 reset.

In this embodiment, the rotating head 24 is provided with a positioning chuck 78 adapted to the inner ring of the bearing. When the flexibility is detected, the bearing inner ring can be clamped through the positioning clamping head 78, so that the rotation of the bearing outer ring is ensured, and the flexibility detection function is realized.

In this embodiment, the first flipping head 32 and the second flipping head 55 are both provided with a transverse groove 79 adapted to the bearing. During overturning, the bearing is clamped in the transverse groove 79 to realize positioning and overturning.

In this embodiment, the first cap feeding positioning block 47 and the second cap feeding positioning block 60 are provided with positioning circular grooves 80 adapted to the bearings. The accuracy of conveying the positions of the dust caps by the first cap conveying positioning block 47 and the second cap conveying positioning block 60 at each time is ensured through the positioning circular grooves 80 of the positioning bearings.

In this embodiment, the operation chuck 77 is provided with a positioning inclined groove 81 adapted to the bearing. The inclined groove 81 ensures that the bearing is always locked in the operation chuck 77 during the transportation process, and prevents the bearing from being separated and failing to operate during the transportation process.

In this embodiment, there are two vertical operating cylinders 75 respectively disposed on the left and right sides of the operating frame 76. In order to ensure the stability of the operation mechanism 19 during operation, two vertical operation cylinders 75 are provided and are symmetrically arranged.

The whole working process of the equipment is as follows:

1) the bearings are conveyed by a feed conveyor belt 1.

2) The flexibility detection cylinder 21 drives the flexibility detection motor 23 to move downwards through the flexibility detection linkage block 22, so that the rotating head 24 is abutted to the outer ring of the bearing, then the flexibility detection motor 23 rotates to drive the rotating head 24 to rotate, so that the rotating head 24 drives the outer ring of the bearing to rotate, and the flexibility of the bearing rotation is detected. The vertical operation cylinder 75 drives the operation frame 76 to move forward, so that the operation chuck 77 on the operation frame 76 is clamped with the bearing, and the bearing is conveyed to the next station through the transverse operation cylinder 74.

3) The bearing is placed on a weighing platform 25 before grease injection to detect the whole weight, and the operation mechanism 19 continues to operate the bearing to the next station.

4) The first grease injecting cylinder 27 drives the first grease injecting motor 29 to move downwards through the first grease injecting linkage block 28, so as to drive the first grease injecting head 30 to extend into the bearing, then the first grease injecting motor 29 operates to inject grease in the first grease injecting head 30 into the bearing, and the operation mechanism 19 continues to operate the bearing to the next station.

5) The first turnover motor 31 rotates to drive the bearing clamped in the first turnover head 32 to turn over for 180 degrees, and the operation mechanism 19 continues to operate the bearing to the next station.

6) The second grease injecting cylinder 34 drives the second grease injecting motor 36 to move downwards through the second grease injecting linkage block 35, so as to drive the second grease injecting head 37 to extend into the bearing, then the second grease injecting motor 36 operates to inject grease in the second grease injecting head 37 into the bearing, and the operating mechanism 19 continues to operate the bearing to the next station.

7) The bearing is placed on the weighing platform 38 after grease injection to detect the overall weight, then the overall weight before weighing is compared, the phase difference value is the total weight of the grease injection, when the total weight of the grease injection is too much or too little, unqualified bearings can be removed through the subsequent first removing mechanism 9, and the operation mechanism 19 continues to operate the bearings to the next station.

8) Whether the position of grease injection in the bearing is correct is detected through the grease detecting head 40, and the operation mechanism 19 continues to operate the bearing to the next station.

9) The unqualified flexibility detection, the unqualified grease amount and the unqualified grease injection position are eliminated, the first eliminating support plate 42 is driven to move through the first eliminating cylinder 41 during work, so that the bearings on the production line are eliminated, and the operation mechanism 19 continues to operate the bearings to the next station.

10) Firstly, the first cover conveying positioning block 47 is driven to be under the first air suction head 45 through the first cover conveying cylinder 46, then the first cover installing cylinder 44 drives the first air suction head 45 to move downwards to suck up the dust-proof cover in the first cover conveying positioning block 47, then the first air suction head 45 is driven to be close to the position of the bearing through the first cover installing cylinder 44, then the first air suction head 45 stops sucking air to place the dust-proof cover in the bearing, and the running mechanism 19 continues to run the bearing to the next station.

11) The first gland cylinder 49 drives the first gland head 50 downwards to compress the dust cap in the bearing, and the operation mechanism 19 continues to operate the bearing to the next station.

12) The first cover detection cylinder 52 drives the first cover detection head 53 to be close to the dust cover, so that whether the dust cover is pressed correctly is detected, and the operation mechanism 19 continues to operate the bearing to the next station.

13) The second turnover motor 54 drives the second turnover head 55, so that the bearing is turned over by 180 degrees, and the operation mechanism 19 continues to operate the bearing to the next station.

14) The second cover conveying positioning block 60 is driven to be under the second air suction head 58 by the second cover conveying cylinder 59, then the second cover installing cylinder 57 drives the second air suction head 58 to move downwards to suck up the dust-proof cover in the second cover conveying positioning block 60, then the second air suction head 58 is driven to be close to the bearing by the second cover installing cylinder 57, then the second air suction head 58 stops sucking air to place the dust-proof cover in the other end face of the bearing, and the running mechanism 19 continues to run the bearing to the next station.

15) The second gland cylinder 62 drives the second gland head 63 to move downwards so as to compress the dustproof cover in the other end face of the bearing, and the operation mechanism 19 continues to operate the bearing to the next station.

16) The second cover detection cylinder 65 drives the second cover detection head 66 to be close to the dust-proof cover, so that whether the dust-proof cover is pressed correctly or not is detected, and the operation mechanism 19 continues to operate the bearing to the next station.

17) Products with the dust covers which are not in place and are arranged on the two end faces of the middle bearing are removed, the first removing support plate 42 is driven to move through the first removing cylinder 41 during working, so that the bearings on the production line are removed, and the operation mechanism 19 continues to operate the bearings to the next station.

18) The grease homogenizing cylinder 70 drives the grease homogenizing motor 72 to move downwards through the grease homogenizing linkage block 71, so that the grease homogenizing rotating head 73 extends into the bearing, the grease homogenizing motor 72 rotates, the grease homogenizing rotating head 73 stirs grease in the bearing, the function of homogenizing grease is achieved, and the operation mechanism 19 continues to operate the bearing to the external storage box.

19) The above steps are repeated.

This embodiment is only one of the preferable embodiments of this patent, and any changes made without departing from the scope of this patent are within the scope of this patent.

Claims

1. The utility model provides a full automatic equipment of notes fat gland of bearing, includes the feeding conveyer belt, its characterized in that still includes and sets gradually:

2. The full-automatic grease injection and capping device for the bearing according to claim 1, wherein: and a positioning chuck matched with the bearing inner ring is arranged on the rotating head.

3. The full-automatic grease injection and capping device for the bearing according to claim 1, wherein: the first turnover head and the second turnover head are both provided with transverse grooves matched with the bearings.

4. The full-automatic grease injection and capping device for the bearing according to claim 1, wherein: and the first cap conveying positioning block and the second cap conveying positioning block are internally provided with positioning circular grooves matched with the bearings.

5. The full-automatic grease injection and capping device for the bearing according to claim 1, wherein: and the operation clamping head is provided with a positioning chute matched with the bearing.

6. The full-automatic grease injection and capping device for the bearing according to claim 1, wherein: the two vertical operation cylinders are respectively arranged at the left side and the right side of the operation frame.