CN214868516U - Installation device of bearing protection pad - Google Patents

Abstract

The utility model discloses an installation device of bearing protection pad relates to bearing processing technology field. In this application, the installation device of bearing protection pad includes: the organism sets up on the plane, and the organism includes: a groove is formed in the surface of the conveying frame, a conveying belt is arranged in the groove of the conveying frame and movably connected with the conveying frame, and a bearing is placed on the surface of the conveying frame; the fixed frame is arranged on the right side of the conveying frame; the pushing device is arranged on the side surface of the fixed frame; the conveying frame is arranged on one side of the fixing frame; the collecting box is arranged on the outer side of the fixing frame; the lifting shell is arranged above the fixed frame; the extrusion device is arranged inside the lifting shell; the lifting device is arranged on the upper surface of the fixed frame; the pushing device is arranged above the lifting device; the auxiliary device is arranged below the fixing frame. The utility model is used for adopt artifical manual installation to cause the installation easily not to fasten when the protection of solving among the prior art race inner wall fills up the installation, lead to the problem that the protection pad dropped during the transportation.

Description

Installation device of bearing protection pad

Technical Field

The utility model relates to a bearing processing technology field, in particular to installation device of bearing protection pad.

Background

With the further development of industrial production technology, the use amount of various bearings is continuously increased, and a large number of bearings need to be protected by a protective pad arranged between an inner ring and an outer ring of the bearing after being cleaned in the production and manufacturing process.

And current installation all adopts in the manual circle of buckleing into the bearing of protection pad, adopts artifical spiral-lock to need artifical spiral-lock all accurate at every turn, if not there is the spiral-lock complete can drop in follow-up transportation protection pad and cause the bearing to pollute, the amount of manual labor has been increased, adopt a certain amount of lubricating oil to paint the installation that can make things convenient for protection pad more to bearing ring inner wall in the time of artifical spiral-lock, however, the condition of paining too much spilling over is caused easily to the uncontrollable use amount of manual use lubricating oil.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an installation device of bearing protection pad for adopt artifical manual installation to cause the installation easily not to fasten when solving the protection pad installation of race ring inner wall among the prior art, lead to the problem that the protection pad dropped during the transportation.

In order to achieve the above purpose, the embodiments of the present application adopt the following technical solutions: a mounting device for a bearing protection pad, comprising: the organism, this organism setting is on the plane, and this organism includes: the conveying frame is provided with a groove on the surface, a conveying belt is arranged in the groove of the conveying frame and movably connected with the conveying frame, and a bearing is placed on the surface of the conveying frame; the fixing frame is arranged on the right side of the conveying frame and fixedly connected with the conveying frame, and the upper surface of the fixing frame is flush with the upper surface of the conveying belt; the pushing device is arranged on the side surface of the fixing frame and fixedly connected with the fixing frame, and the initial position of the pushing end of the pushing device does not exceed the inner surface of the opening end of the conveying frame groove; the conveying frame is arranged on one side of the fixing frame, is fixedly connected with the fixing frame, and is arranged opposite to the pushing device; the collecting box is arranged on the outer side of the fixing frame and is connected with the conveying frame in a matching way; the lifting shell is arranged above the fixed frame and is connected with the fixed frame in a matching way; the extrusion device is arranged inside the lifting shell, is matched and connected with the lifting shell and moves up and down along the extension direction of the lifting shell; the lifting device is arranged on the upper surface of the fixed frame and is fixedly connected with the fixed frame; the pushing device is arranged above the lifting device and is movably connected with the lifting device, and the pushing device is used for transversely moving the protective cushion; the auxiliary device is arranged below the fixing frame and is movably connected with the fixing frame, and the auxiliary device and the extrusion device are in the same circle center.

In above-mentioned technical scheme, this application transports the protection to the bearing through extrusion device, pusher, elevating gear, auxiliary device with the protection pad and installs in the ball circle of bearing and prevent to have the foreign matter to get into the inside of bearing and take place the card pause when leading to follow-up use in the in-process of transportation, thereby utilize extrusion device and auxiliary device cooperation to prevent that the protection pad takes place to drop at the in-process of bearing transportation with the ball circle inside of the complete lock-in bearing of protection pad.

Further, in the embodiment of the present invention, this extrusion device external connection has elevator motor, and this extrusion device includes: the lifting cylinder is arranged inside the lifting shell and is movably connected with the lifting shell, and one end of the lifting cylinder is connected with the lifting motor; the solution tank is arranged inside the lifting shell and is fixedly connected with the lifting shell; the built-in cylinder is arranged inside the lifting cylinder and is movably connected with the lifting cylinder, and a through hole is formed in the center of the built-in cylinder; the baffle plate is arranged in the lifting shell and is movably connected with the lifting shell, and the baffle plate is controlled to move through an external telescopic motor.

Further, in the embodiment of the present invention, the interior of the lifting cylinder is provided with a groove, and the surface of the opening end of the lifting cylinder is provided with a circulation hole; a circulation hole is formed in the lifting shell, the circulation hole of the lifting shell is blocked by the blocking plate, and the solution tank is connected with the circulation hole of the lifting shell in a matching manner; the built-in cylinder is arranged in a T shape, the built-in cylinder is movably connected with the inside of the lifting cylinder up and down, the built-in cylinder is arranged in a circular shape, and the diameter of the built-in cylinder is the same as that of the inner ring of the bearing.

Further, in the embodiment of the present invention, the lifting device includes: the lifting module is arranged on the surface of the fixing frame and fixedly connected with the fixing frame, the lifting module is movably connected with the lifting shell, and the lifting module controls the lifting shell to move up and down.

Further, in the embodiment of the present invention, the pushing device includes: the lifting frame is arranged above the lifting device and is movably connected with the lifting device; the mobile module is arranged on the lower surface of the lifting frame and is fixedly connected with the lifting frame; the pushing plate is arranged inside the moving module and is movably connected with the moving module.

Further, in the embodiment of the present invention, the surface of the pushing plate is opened with an arc surface, the arc surface end of the pushing plate is located inside the lifting shell, and the pushing plate is used for pushing the protection pad to move to the extruding device.

Further, in the embodiment of the present invention, the auxiliary device includes: the telescopic cylinder is arranged below the fixing frame and fixedly connected with the fixing frame, and the telescopic cylinder and the extrusion device form the same circle center; the auxiliary inner shaft is arranged inside the fixed frame, and the auxiliary inner shaft and the extrusion device form the same circle center; the abutting shaft is arranged inside the auxiliary inner shaft and is movably connected with the auxiliary inner shaft; the spring is arranged in the auxiliary inner shaft and is movably connected with the abutting shaft.

Further, in the embodiment of the present invention, a circular through hole is formed on the surface of the auxiliary inner shaft, the auxiliary inner shaft is disposed in a T shape, and the diameter of the protruding circle of the auxiliary inner shaft is smaller than the diameter of the bearing inner hole.

Further, in the embodiment of the present invention, one end of the tightening shaft is adapted to the inner hole arc surface of the bearing, and the other end of the tightening shaft is inclined; the flexible end of this telescopic cylinder is provided with the slope opening, and this telescopic cylinder's slope opening and this support the slope looks adaptation of tight axle.

The embodiment of the utility model provides a still disclose a bearing protection pad's installation method, including following step:

the bearing is placed in the conveying frame, the bearing is moved to the extrusion device through the conveying belt, when the bearing moves to the position right below the extrusion device, the lifting device moves downwards to drive the pushing device to move downwards, and the extrusion device matched with the lifting device also moves downwards;

the lifting shell moves downwards to be attached to the surface of a bearing through the lifting device and then stops moving, a pushing plate of a pushing device moves leftwards through a moving module, a protective pad moves leftwards through the pushing plate and is pushed into the lifting cylinder, the protective pad is located at the periphery of the built-in cylinder and moves downwards through an extruding device, a circulation hole of the lifting cylinder moves downwards for a certain distance in the moving process of the protective pad and then is matched with the circulation hole of the lifting shell, so that lubricating liquid in the solution tank flows to the periphery of the protective pad, and then the lifting cylinder is driven to move downwards through a lifting motor and simultaneously drives the built-in cylinder to move downwards so that the protective pad is attached to a ball ring of the bearing;

the lifting motor of the auxiliary device upwards extends when the protective pad is attached to the ball ring of the bearing, the lifting motor is in contact with the inner shaft in the auxiliary mode through the telescopic end of the lifting motor to support the tight shaft, the upward jacking force of the lifting motor is utilized to support the tight shaft to extend all around, the bearing inner ring is fixed through the tight shaft, and meanwhile when the protective pad is attached to the ball ring of the bearing, the auxiliary device drives the whole bearing to rotate through the external rotating motor so that the inner hole of the bearing can rotate and the extrusion device is matched to completely buckle the protective pad into the ball ring of the bearing.

The utility model has the advantages that: firstly, the utility model discloses an installation device of bearing protection pad buckles the ball circle of bearing and protects and fills up thereby the phenomenon that takes place the card pause when leading to the fact follow-up use in preventing to have foreign matter to get into the ball of bearing in the in-process of bearing transportation, cooperation through extrusion device and auxiliary device does not need artifical the participation in the knot protection pad, thereby reduce artifical amount of labour, and can not cause the pollution of bearing to keep the cleanliness factor of bearing because of the worker's touch, thereby utilize a section of thick bamboo and built-in section of thick bamboo to carry out automatic pushing down to the protection pad and make the protection pad can cross complete spiral-lock and go into the ball circle of bearing, simultaneously in the protection pad spiral-lock in-process through solution tank with lubricating oil flow through the circulation hole of lift shell and the circulation pore of a section of thick bamboo lubricate the outer peripheral face that makes the protection pad go into the ball circle of bearing, thereby it drives the axle to laminate to the hole of bearing tightly to utilize auxiliary device's supporting in-process of protection pad spiral-lock thereby drive axle The hole of bearing rotates and drives the ball circle that the protection was filled up and was buckled into the bearing, improves the laminating effect of protection pad and bearing.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a front view of a bearing protection pad installation device according to an embodiment of the present invention.

Fig. 2 is a top view of a bearing protection pad installation device according to an embodiment of the present invention.

Fig. 3 is a schematic perspective view of a mounting device for a bearing protection pad according to an embodiment of the present invention.

Fig. 4 is an internal schematic view of a bearing protection pad installation device according to an embodiment of the present invention.

Fig. 5 is an internal schematic view of an extrusion device of a bearing protection pad installation device according to an embodiment of the present invention.

Fig. 6 is a schematic view of the pressing device and the protection pad of the installation device for bearing protection pads according to the embodiment of the present invention.

Fig. 7 is a schematic partial cross-sectional view at a in fig. 6.

Fig. 8 is a schematic view of a working process of the device for installing a bearing protection pad according to an embodiment of the present invention.

10. Machine body 101, conveying frame 102 and fixing frame

103. Pushing device 104, collecting box 105, and conveyor belt

106. Conveying frame 107 and lifting shell

20. Extrusion device 201, lifting cylinder 2011 and flow hole

202. Solution tank 203, built-in cylinder 204, and baffle plate

30. Pusher 301, remove module 302, crane

303. Push plate

40. Lifting device 401 and lifting module

50. Auxiliary device 501, telescopic cylinder 502, and auxiliary inner shaft

503. Abutment shaft 504, spring 60, bearing

70. Protective pad

Detailed Description

In order to make the objects and technical solutions of the present invention clear and fully described, and the advantages thereof more clearly understood, the embodiments of the present invention are described in further detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some, but not all, embodiments of the present invention and are not to be considered as limiting, and that all other embodiments can be made by one of ordinary skill in the art without any inventive work.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. It will be apparent, however, to one skilled in the art that the embodiments may be practiced without these specific details. In some instances, well-known methods and structures have not been described in detail so as not to unnecessarily obscure the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

as shown in fig. 1, 2 and 3, the present embodiment discloses a mounting device for a bearing protection pad, comprising: body 10, body 10 sets up on the plane, and body 10 includes: the conveying device comprises a conveying frame 101, wherein a groove is formed in the surface of the conveying frame 101, a conveying belt 105 is arranged in the groove of the conveying frame 101, the conveying belt 105 is movably connected with the conveying frame 101, and a bearing 60 is placed on the surface of the conveying frame 101; the fixing frame 102 is arranged on the right side of the conveying frame 101, the fixing frame 102 is fixedly connected with the conveying frame 101, and the upper surface of the fixing frame 102 is flush with the upper surface of the conveying belt 105; the pushing device 103 is arranged on the side surface of the fixing frame 102, the pushing device 103 is fixedly connected with the fixing frame 102, and the initial position of the pushing end of the pushing device 103 does not exceed the inner surface of the opening end of the groove of the conveying frame 101; the conveying frame 106, the conveying frame 106 is arranged at one side of the fixed frame 102, the conveying frame 106 is fixedly connected with the fixed frame 102, and the conveying frame 106 and the pushing device 103 are arranged oppositely; the collecting box 104 is arranged on the outer side of the fixing frame 102, and the collecting box 104 is connected with the conveying frame 106 in a matching way; the lifting shell 107 is arranged above the fixed frame 102, and the lifting shell 107 is connected with the fixed frame 102 in a matching way; the extrusion device 20 is arranged inside the lifting shell 107, the extrusion device 20 is connected with the lifting shell 107 in a matching way, and the extrusion device 20 moves up and down along the extension direction of the lifting shell 107; the lifting device 40 is arranged on the upper surface of the fixing frame 102, and the lifting device 40 is fixedly connected with the fixing frame 102; the pushing device 30 is arranged above the lifting device 40, the pushing device 30 is movably connected with the lifting device 40, and the pushing device 30 is used for transversely moving the protective pad 70; the auxiliary device 50 is arranged below the fixing frame 102, the auxiliary device 50 is movably connected with the fixing frame 102, and the auxiliary device 50 and the extrusion device 20 are in the same circle center.

As shown in fig. 3, 5 and 6, the extrusion device 20 is externally connected with a lifting motor 501, and the extrusion device 20 includes: the lifting cylinder 201 is arranged inside the lifting shell 107, the lifting cylinder 201 is movably connected with the lifting shell 107, and one end of the lifting cylinder 201 is connected with the lifting motor 501; the solution tank 202, the solution tank 202 is arranged inside the lifting shell 107, and the solution tank 202 is fixedly connected with the lifting shell 107; the built-in cylinder 203, the built-in cylinder 203 is arranged inside the lifting cylinder 201, the built-in cylinder 203 is movably connected with the lifting cylinder 201, and a through hole is formed in the center of the built-in cylinder 203; the baffle plate 204 is arranged inside the lifting shell 107, the baffle plate 204 is movably connected with the lifting shell 107, and the baffle plate 204 is controlled to move by an external telescopic motor.

A groove is formed in the lifting cylinder 201, and a flow hole 2011 is formed in the surface of the opening end of the lifting cylinder 201; a flow hole 2011 is formed in the lifting shell 107, the flow hole 2011 of the lifting shell 107 is blocked by the blocking plate 204, and the solution tank 202 is connected with the flow hole 2011 of the lifting shell 107 in a matching manner; the built-in cylinder 203 is arranged in a T shape, the built-in cylinder 203 is movably connected up and down in the lifting cylinder 201, the built-in cylinder 203 is arranged in a circle, and the diameter of the built-in cylinder 203 is the same as that of the inner ring of the bearing 60. The cleanliness of the bearing 60 is improved by the automated installation of the protection pad 70 by the pressing device 20, thereby eliminating the need to manually install the protection pad 70, without the need to manually contact the bearing 60.

As shown in fig. 3, the lifting device 40 includes: the lifting module 401 is arranged on the surface of the fixing frame 102, the lifting module 401 is fixedly connected with the fixing frame 102, the lifting module 401 is movably connected with the lifting shell 107, and the lifting module 401 controls the lifting shell 107 to move up and down.

As shown in fig. 4, the pushing device 30 includes: the lifting frame 302 is arranged above the lifting device 40, and the lifting frame 302 is movably connected with the lifting device 40; the mobile module 301, the mobile module 301 is arranged on the lower surface of the lifting frame 302, and the mobile module 301 is fixedly connected with the lifting frame 302; a pushing plate 303, the pushing plate 303 is disposed inside the moving module 301, and the pushing plate 303 is movably connected to the moving module 301.

The surface of the pushing plate 303 is provided with an arc surface, the end of the arc surface of the pushing plate 303 is located inside the lifting shell 107, and the pushing plate 303 is used for pushing the protection pad 70 to move towards the pressing device 20. The protection pad 70 is automatically fed by the feeding device 30 so as to prevent the surface of the protection pad 70 from being attached to foreign matters, and the protection pad can be more easily buckled when being installed into the ball ring of the bearing 60.

As shown in fig. 7, the assisting apparatus 50 includes: the telescopic cylinder is arranged below the fixing frame 102 and is fixedly connected with the fixing frame 102, and the telescopic cylinder and the extrusion device 20 are in the same circle center; the auxiliary inner shaft 502 is arranged inside the fixing frame 102, and the auxiliary inner shaft 502 and the extrusion device 20 are in the same circle center; the abutting shaft 503 is arranged inside the auxiliary inner shaft 502, and the abutting shaft 503 is movably connected with the auxiliary inner shaft 502; and a spring 504, wherein the spring 504 is arranged inside the auxiliary inner shaft 502, and the spring 504 is movably connected with the abutting shaft 503.

The surface of the auxiliary inner shaft 502 is provided with a circular through hole, the auxiliary inner shaft 502 is arranged in a T shape, and the diameter of a protruding circle of the auxiliary inner shaft 502 is smaller than the diameter of an inner hole of the bearing 60.

One end of the abutting shaft 503 is matched with the inner hole arc surface of the bearing 60, and the other end of the abutting shaft 503 is inclined; the telescopic end of the telescopic cylinder is provided with an inclined opening, and the inclined opening of the telescopic cylinder is matched with the inclination of the abutting shaft 503. The bearing 60 is positioned through the auxiliary device 50, so that the bearing 60 and the extrusion device 20 are in the same circle center, then the inner hole of the bearing 60 is rotated when the bearing 60 is buckled with the protection pad 70 through the auxiliary device 50, so that the protection pad 70 is more conveniently buckled, and the installation fitting degree of the protection pad 70 and the bearing 60 is improved.

In the above technical scheme, this application is through extrusion device 20, pusher 30, elevating gear 40, auxiliary device 50 with protection pad 70 install in the ball circle of bearing 60 transport the protection to bearing 60 and prevent that there is the foreign matter to get into the inside of bearing 60 and take place the card pause when leading to follow-up use in the in-process of transportation, thereby utilize extrusion device 20 and auxiliary device 50 cooperation with the complete ball circle of buckling into bearing 60 of protection pad 70 inside prevent that protection pad 70 from taking place to drop in the in-process of bearing 60 transportation.

Example two:

as in the first embodiment, as shown in fig. 5 and 6, the lift protection device further includes an L-shaped blocking plate 204, five flow holes 2011 are provided in the lift shell 107, the two flow holes 2011 at the end of the lift shell 107 are blocked by the lateral plate of the blocking plate 204, three flow holes 2011 in the lift shell 107 are blocked by the vertical transverse plate of the blocking plate 204, when the blocking plate 204 blocks the flow holes 2011 in the lift shell 107, the three flow holes 2011 in the lift shell 107 are first released, and when the protection pad 70 reaches the inside of the main city ring, the blocking plate 204 releases the limitation on the two flow holes 2011 at the end of the lift shell 107. Through setting up separation plate 204 into the L shape, earlier remove the wall to the circulation hole 2011 of lift shell 107 with the vertical board of separation plate 204 when separation plate 204 inwards retrieves, carry out derivation of lubricating oil with the three circulation hole 2011 of lift shell 107 earlier and carry out partial lubrication to protection pad 70, thereby the circulation of control lubricating oil prevents that lubricating oil from flowing out too much and causing lubricating oil extravagant, separation plate 204 retrieves here and thoroughly removes the wall to five circulation holes 2011 of lift shell 107 behind protection pad 70 removes the last two circulation holes 2011 of lift shell 107 through extrusion device 20 and makes lubricating oil lubricate protection pad 70, and make the hole of bearing 60 rotate and improve the installation laminating degree of protection pad 70 and bearing 60 through auxiliary device 50 when lubricated, protection pad 70 can be more convenient detained protection pad 70 in the ball circle of bearing 60 through rotatory ability owing to extrusion device 20's application of force can with the bearing 60 laminating when bearing 60 is rotatory.

Example three:

finally, as shown in fig. 8, there is provided a method for mounting a mounting device for a protective pad 70 of a bearing 60, comprising the steps of:

the bearing 60 is placed in the conveying frame 101, the bearing 60 is moved to the extrusion device 20 through the conveying belt 105, when the bearing 60 moves to the position right below the extrusion device 20, the lifting device 40 moves downwards to drive the pushing device 30 to move downwards, and the extrusion device 20 matched with the lifting device 40 also moves downwards;

the lifting shell 107 moves downwards to be attached to the surface of the bearing 60 through the lifting device 40 and then stops moving, the pushing plate 303 of the pushing device 30 moves leftwards through the moving module 301, the protection pad 70 moves leftwards through the pushing plate 303 and is pushed into the lifting cylinder 201, the protection pad 70 is located on the periphery of the built-in cylinder 203 and moves downwards through the extruding device 20, the circulation hole 2011 of the lifting cylinder 201 moves downwards for a certain distance in the moving process of the protection pad 70 and then is matched with the circulation hole 2011 of the lifting shell 107, so that lubricating liquid in the solution tank 202 flows to the periphery of the protection pad 70, and then the lifting cylinder 201 is driven by the lifting motor 501 to move downwards and simultaneously drives the built-in cylinder 203 to move downwards so that the protection pad 70 is attached to the ball ring of the bearing 60;

the lifting motor 501 of the auxiliary device 50 extends upwards when the protective pad 70 is attached to the ball ring of the bearing 60, the telescopic end of the lifting motor 501 contacts the pressing shaft 503 inside the auxiliary inner shaft 502, the pressing shaft 503 extends outwards by utilizing the upward jacking force of the lifting motor 501, the inner ring of the bearing 60 is fixed by the pressing shaft 503, and meanwhile, when the protective pad 70 is attached to the ball ring of the bearing 60, the auxiliary device 50 drives the whole body to rotate through the external rotating motor so that the inner hole of the bearing 60 rotates to be matched with the extrusion device 20 to completely buckle the protective pad 70 into the ball ring of the bearing 60.

The utility model discloses a mounting device of bearing 60 protection pad 70 buckles the ball circle of bearing 60 and protects pad 70 thereby prevents to have the foreign matter to get into the ball of bearing 60 in the in-process of bearing 60 transportation and causes the phenomenon that the card is pause when follow-up use, does not need artifical the participation when buckling protection pad 70 through the cooperation of extrusion device 20 and auxiliary device 50, thereby reduces artifical amount of labour, and can not cause the pollution of bearing 60 because of the worker's touch and keep the cleanliness factor of bearing 60, utilize lift cylinder 201 and built-in section of thick bamboo 203 to press down protection pad 70 automatically so that protection pad 70 can pass complete the knot and pack into the ball circle of bearing 60, simultaneously in the in-process of protection pad 70 spiral-lock through solution case 202 with the lubricating oil flow through the circulation hole 2011 of lift shell 107 and the outer peripheral face of lift cylinder 201 lubricate the protection pad 70 make protection pad 70 more easily buckle into the ball circle of bearing 60, and the tight axle 503 of support that utilizes auxiliary device 50 is laminated the hole of bearing 60 thereby the hole that drives bearing 60 rotates and drives the ball circle of protective pad 70 lock-in bearing 60 at the in-process of protective pad 70 lock-in, improves the laminating effect of protective pad 70 and bearing 60.

Although the illustrative embodiments of the present application have been described above to enable those skilled in the art to understand the present application, the present application is not limited to the scope of the embodiments, and various modifications within the spirit and scope of the present application defined and determined by the appended claims will be apparent to those skilled in the art from this disclosure.

Claims (9)

1. A mounting device for a bearing protection pad, comprising:

the organism, the organism sets up on the plane, the organism includes:

the conveying frame is provided with a groove on the surface, a conveying belt is arranged in the groove of the conveying frame and movably connected with the conveying frame, and a bearing is placed on the surface of the conveying frame;

the fixing frame is arranged on the right side of the conveying frame and fixedly connected with the conveying frame, and the upper surface of the fixing frame is flush with the upper surface of the conveying belt;

the pushing device is arranged on the side surface of the fixing frame and fixedly connected with the fixing frame, and the initial position of the pushing end of the pushing device does not exceed the inner surface of the opening end of the conveying frame groove;

the conveying frame is arranged on one side of the fixing frame, the conveying frame is fixedly connected with the fixing frame, and the conveying frame and the pushing device are oppositely arranged;

the collecting box is arranged on the outer side of the fixing frame and is connected with the conveying frame in a matched mode;

the lifting shell is arranged above the fixed frame and is in matched connection with the fixed frame;

the extrusion device is arranged inside the lifting shell, the extrusion device is connected with the lifting shell in a matching way, and the extrusion device moves up and down along the extension direction of the lifting shell;

the lifting device is arranged on the upper surface of the fixing frame and is fixedly connected with the fixing frame;

the pushing device is arranged above the lifting device and is movably connected with the lifting device, and the pushing device is used for transversely moving the protective cushion;

the auxiliary device is arranged below the fixing frame and movably connected with the fixing frame, and the auxiliary device and the extrusion device are in the same circle center.

2. The mounting device for the bearing protection pad according to claim 1, wherein the extrusion device is externally connected with a lifting motor, and the extrusion device comprises:

the lifting cylinder is arranged inside the lifting shell and is movably connected with the lifting shell, and one end of the lifting cylinder is connected with the lifting motor;

the solution tank is arranged inside the lifting shell and is fixedly connected with the lifting shell;

the built-in cylinder is arranged inside the lifting cylinder and is movably connected with the lifting cylinder, and a through hole is formed in the center of the built-in cylinder;

the barrier plate is arranged inside the lifting shell and movably connected with the lifting shell, and the barrier plate is controlled to move through an external telescopic motor.

3. The mounting device for the bearing protection pad according to claim 2, wherein the inside of the lifting cylinder is provided with a groove, and the open end surface of the lifting cylinder is provided with a flow hole;

a circulation hole is formed in the lifting shell, the circulation hole of the lifting shell is blocked by the blocking plate, and the solution tank is connected with the circulation hole of the lifting shell in a matched manner;

the built-in cylinder is arranged in a T shape, the built-in cylinder is movably connected with the inside of the lifting cylinder up and down, the built-in cylinder is arranged in a circular shape, and the diameter of the built-in cylinder is the same as that of the inner ring of the bearing.

4. A bearing protection pad mounting device in accordance with claim 1, wherein said lifting device comprises:

the lifting module is arranged on the surface of the fixing frame and fixedly connected with the fixing frame, the lifting module is movably connected with the lifting shell, and the lifting module controls the lifting shell to move up and down.

5. A bearing protection pad mounting device in accordance with claim 1, wherein said pushing device comprises:

the lifting frame is arranged above the lifting device and is movably connected with the lifting device;

the moving module is arranged on the lower surface of the lifting frame and is fixedly connected with the lifting frame;

the pushing plate is arranged inside the moving module and is movably connected with the moving module.

6. The mounting device for the bearing protection pad of claim 5, wherein the surface of the pushing plate is provided with an arc-shaped surface, the end of the arc-shaped surface of the pushing plate is positioned inside the lifting shell, and the pushing plate is used for pushing the protection pad to move towards the extruding device.

7. A bearing protection pad mounting device in accordance with claim 1, wherein said auxiliary device comprises:

the telescopic cylinder is arranged below the fixing frame and fixedly connected with the fixing frame, and the telescopic cylinder and the extrusion device form the same circle center;

the auxiliary inner shaft is arranged inside the fixed frame, and the auxiliary inner shaft and the extrusion device form the same circle center;

the abutting shaft is arranged inside the auxiliary inner shaft and is movably connected with the auxiliary inner shaft;

the spring is arranged in the auxiliary inner shaft and is movably connected with the abutting shaft.

8. The mounting device for the bearing protection pad of claim 7, wherein the surface of the auxiliary inner shaft is provided with a circular through hole, the auxiliary inner shaft is arranged in a T shape, and the protruding circle diameter of the auxiliary inner shaft is smaller than the diameter of the bearing inner hole.

9. The mounting device for the bearing protection pad according to claim 7, wherein one end of the abutting shaft is matched with the inner hole arc surface of the bearing, and the other end of the abutting shaft is arranged to be inclined;

the telescopic end of the telescopic cylinder is provided with an inclined opening, and the inclined opening of the telescopic cylinder is matched with the inclination of the abutting shaft.

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