CN220490020U - Hub bearing clearance measuring mechanism - Google Patents

Abstract

The utility model discloses a hub bearing gap measuring mechanism which comprises a supporting frame and a top plate, wherein a jacking mechanism is fixedly arranged at the bottom of the supporting frame, a lower detecting mechanism is arranged on the jacking mechanism, a lifting mechanism is arranged at the bottom of the top plate, and two groups of enclasping mechanisms for clamping and enclasping products are arranged on the surface of the lifting mechanism. The utility model can bear the hub bearing to be detected by arranging the lower detection mechanism, then the jacking mechanism can drive the hub bearing to move upwards, then the hub bearing can be attached to the upper detection mechanism, then the hugging mechanism and the lifting mechanism can enable the hub bearing to be attached to the upper detection mechanism, then the upper detection mechanism and the lower detection mechanism are alternately pressurized, the hub bearing is driven to rotate by utilizing the lower detection mechanism and the driving mechanism, at the moment, the detection mechanism is attached to the upper detection mechanism, and the detection mechanism can read the difference value of the product when the hub bearing is pressurized up and down.

Description

Hub bearing clearance measuring mechanism

Technical Field

The utility model relates to the technical field of hub bearing detection, in particular to a hub bearing gap measuring mechanism.

Background

The main function of the hub bearing (hubbearing) is to bear the weight and provide accurate guidance for the rotation of the hub, it is a very important component that is subjected to both axial and radial loads.

A certain gap exists between the inner diameter and the outer diameter of the hub bearing, and the hub and the bearing are easy to generate heat when the gap of the hub bearing is larger, so that the normal use of the hub bearing is influenced, the gap is required to be measured after the hub bearing is manufactured, the stability and the measurement accuracy of the existing equipment are poor when the gap of the hub bearing is detected, and therefore, the hub bearing gap measuring mechanism is provided.

Disclosure of Invention

The utility model aims to provide a hub bearing clearance measuring mechanism for solving the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a hub bearing clearance measuring mechanism, includes the support frame, the top fixedly connected with roof of support frame, the bottom fixed mounting of support frame has climbing mechanism, climbing mechanism is last to be provided with down detection mechanism, the bottom of roof is provided with elevating system, elevating system's surface is provided with two sets of hugs closely the mechanism of holding the product, rotate on the roof and install detection mechanism, detection mechanism carries out pivoted actuating mechanism on the top of roof is provided with the drive, the top of roof is provided with the detection mechanism that extends to the inside detection mechanism of supreme detection mechanism.

The utility model can bear the weight of the hub bearing needing to be detected by arranging the lower detection mechanism, then the jacking mechanism can drive the hub bearing to move upwards, then the hub bearing can be attached to the upper detection mechanism, then the hugging mechanism and the lifting mechanism can enable the hub bearing to be attached to the upper detection mechanism, then the upper detection mechanism and the lower detection mechanism are used for alternately pressurizing, and the hub bearing is driven to rotate by utilizing the lower detection mechanism and the driving mechanism, at the moment, the detection mechanism is attached to the upper detection mechanism, the detection mechanism can read the difference value of the product when the hub bearing is pressurized up and down, and the detected difference value is the gap of the hub bearing product, so that the detection mode is simpler and faster, and the detection is more accurate.

Further, climbing mechanism includes first mounting panel, first gag lever post, first connecting plate and jacking cylinder, the inner wall fixedly connected with of support frame is two sets of first mounting panels, the surface sliding connection of first mounting panel has two sets of first gag lever posts, the bottom fixedly connected with first connecting plate of first gag lever post, the top fixedly connected with second connecting plate of first gag lever post, one side fixedly connected with third connecting plate of second connecting plate, fixedly mounted with jacking cylinder on the support frame, the output and the third connecting plate fixed connection of jacking cylinder.

Further, lower detection mechanism includes lower axle, material seat and first servo motor, rotate on the second connecting plate and install the lower axle, the top fixedly connected with material seat of lower axle, the top fixed mounting of first connecting plate has first servo motor, the output of first servo motor and the bottom fixed connection of lower axle.

Further, the lifting mechanism comprises a second limiting rod, a fourth connecting plate, a holding plate and a lifting cylinder, the second limiting rod is connected to the top plate in a sliding mode, the bottom of the second limiting rod is fixedly connected with the holding plate, the top of the second limiting rod is fixedly connected with the fourth connecting plate through two groups of the fourth connecting plates, the lifting cylinder is fixedly connected to the top of the top plate and located below the fourth connecting plate, and the output end of the lifting cylinder is fixedly connected with the fourth connecting plate.

Further, go up detection mechanism and include upper shaft, connecting seat and last frock, the upper shaft rotates and installs on the roof, the bottom of upper shaft is through connecting seat fixedly connected with frock.

Further, detection mechanism includes first mounting bracket and measuring pen, the top of roof just corresponds the position fixed mounting of upper shaft and has first mounting bracket, be provided with the measuring pen on the first mounting bracket.

Further, actuating mechanism includes second mounting bracket and second servo motor, the top fixed mounting of roof has the second mounting bracket, one side fixed mounting of second mounting bracket has the second servo motor, the output fixedly connected with first belt pulley of second servo motor, the surface fixedly connected with second belt pulley of upper shaft, first belt pulley and second belt pulley pass through the hold-in range and connect.

Further, the enclasping mechanism comprises a fixing base and an enclasping air cylinder, wherein the fixing base is fixedly arranged at the top of the enclasping plate, the top of the fixing base is fixedly arranged on the enclasping air cylinder, the clamping plate is connected to the inside of the fixing base in a sliding manner, the output end of the enclasping air cylinder is fixedly connected with the clamping plate through a connecting seat, and one end of the clamping plate is fixedly connected with an enclasping ring.

Further, the lower shaft and the upper shaft are identical in structure and comprise sleeves and movable cylinders, and the movable cylinders are arranged on the inner walls of the sleeves.

Further, the surface sliding connection of first gag lever post has first limit sleeve, first limit sleeve's top fixed mounting is in the bottom of first mounting panel, the surface sliding connection of second gag lever post has second limit sleeve, second limit sleeve's top fixed mounting is in the bottom of roof.

Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, the hub bearing to be detected can be borne by the lower detection mechanism, then the hub bearing can be driven to move upwards by the jacking mechanism, then the hub bearing can be attached to the upper detection mechanism, then the hugging mechanism and the lifting mechanism can enable the hub bearing to be attached to the upper detection mechanism, then the upper detection mechanism and the lower detection mechanism are alternately pressurized, the hub bearing is driven to rotate by the lower detection mechanism and the driving mechanism, at the moment, the detection mechanism is attached to the upper detection mechanism, the detection mechanism can read the difference value of the product when the hub bearing is pressurized up and down, the detected difference value is the gap of the hub bearing product, and the detection mode is simpler and faster, and can enable the detection to be more accurate.

Drawings

FIG. 1 is a schematic diagram of a first perspective view of the present utility model;

FIG. 2 is a schematic diagram of a second perspective view of the present utility model;

FIG. 3 is a schematic perspective view of the enclasping mechanism of the present utility model;

FIG. 4 is an enlarged schematic view of the structure A of the present utility model;

FIG. 5 is a schematic top view of the upper and lower shafts of the present utility model.

In the figure: 1 supporting frame, 2 top plate, 3 jacking mechanism, 4 lower detection mechanism, 5 lifting mechanism, 6 holding mechanism, 7 detection mechanism, 8 upper detection mechanism, 9 driving mechanism, 10 first mounting plate, 11 first spacing rod, 12 first connecting plate, 13 second connecting plate, 14 third connecting plate, 15 jacking cylinder, 16 lower shaft, 17 material seat, 18 first servo motor, 19 second spacing rod, 20 fourth connecting plate, 21 holding plate, 22 lifting cylinder, 23 upper shaft, 24 connecting seat, 25 upper fixture, 26 first mounting frame, 27 measuring pen, 28 second mounting frame, 29 second servo motor, 30 first belt pulley, 31 second belt pulley, 32 synchronous belt, fixed seat, 34 holding cylinder, 35 clamping plate, 36 connecting seat, 37 holding ring, 38 sleeve, 39 moving cylinder, 40 first spacing sleeve, 41 second spacing sleeve.

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.

Referring to fig. 1, the present utility model provides a technical solution: the utility model provides a hub bearing clearance measuring mechanism, includes support frame 1, the top fixedly connected with roof 2 of support frame 1, the bottom fixed mounting of support frame 1 has climbing mechanism 3, be provided with down detection mechanism 4 on the climbing mechanism 3, the bottom of roof 2 is provided with elevating system 5, elevating system 5's surface is provided with two sets of hugging mechanism 6 that hold the product tightly, detection mechanism 8 is installed in the rotation on roof 2, detection mechanism 8 carries out pivoted actuating mechanism 9 in the top of roof 2 is provided with the drive, the top of roof 2 is provided with and extends to the inside detection mechanism 7 of supreme detection mechanism 8.

The lower detection mechanism 4 is arranged to bear the hub bearing to be detected, the lifting mechanism 3 can drive the hub bearing to move upwards, the hub bearing can be attached to the upper detection mechanism 8, the hugging mechanism 6 and the lifting mechanism 5 can enable the hub bearing to be attached to the upper detection mechanism 8, the upper detection mechanism 8 and the lower detection mechanism 4 are pressurized alternately, the lower detection mechanism 4 and the driving mechanism 9 are utilized to drive the hub bearing to rotate, at the moment, the detection mechanism is attached to the upper detection mechanism 8, the detection mechanism 7 can read the difference value of the product when the hub bearing is pressurized up and down, the detected difference value is the gap of the hub bearing product, and the detection mode is simpler and faster, and the detection can be more accurate.

Referring to fig. 1 and 2, the jacking mechanism 3 includes a first mounting plate 10, a first limit rod 11, a first connecting plate 12 and a jacking cylinder 15, two groups of first mounting plates 10 are fixedly connected to the inner wall of the support frame 1, two groups of first limit rods 11 are slidably connected to the surface of the first mounting plate 10, a first connecting plate 12 is fixedly connected to the bottom of the first limit rod 11, a second connecting plate 13 is fixedly connected to the top of the first limit rod 11, a third connecting plate 14 is fixedly connected to one side of the second connecting plate 13, a jacking cylinder 15 is fixedly mounted on the support frame 1, an output end of the jacking cylinder 15 is fixedly connected with the third connecting plate 14, the lower detection mechanism 4 includes a lower shaft 16, a material seat 17 and a first servo motor 18, a lower shaft 16 is rotatably mounted on the second connecting plate 13, a material seat 17 is fixedly connected to the top of the lower shaft 16, a first servo motor 18 is fixedly connected to the top of the first connecting plate 12, and an output end of the first servo motor 18 is fixedly connected to the bottom of the lower shaft 16.

Firstly, the hub bearing is placed above the material seat 17, then the jacking cylinder 15 is started to operate, the jacking cylinder 15 can drive the second connecting plate 13, the first limiting rod 11 and the third connecting plate 14 to move along the first mounting plate 10, and then the hub bearing inside the material seat 17 can be pushed to move upwards to the detection mechanism 8.

Referring to fig. 1, 2 and 3, the lifting mechanism 5 includes a second limiting rod 19, a fourth connecting plate 20, a holding plate 21 and a lifting cylinder 22, the second limiting rod 19 is slidably connected to the top plate 2, the bottom of the second limiting rod 19 is fixedly connected with the holding plate 21, the top of the second limiting rod 19 is fixedly connected to the lifting cylinder 22 through two groups of fourth connecting plates 20, the top of the top plate 2 is fixedly connected to the lifting cylinder 22 below the fourth connecting plate 20, the output end of the lifting cylinder 22 is fixedly connected to the fourth connecting plate 20, the upper detecting mechanism 8 includes an upper shaft 23, a connecting seat 24 and an upper tool 25, the upper shaft 23 is rotatably mounted on the top plate 2, the bottom of the upper shaft 23 is fixedly connected to the upper tool 25 through the connecting seat 24, the holding mechanism 6 includes a fixing seat 33 and a holding cylinder 34, the fixing seat 33 is fixedly mounted on the top of the holding plate 21, the top of the fixing seat 33 is fixedly mounted on the holding cylinder 34, a clamping plate 35 is slidably connected to the inside of the fixing seat 33, and the output end of the clamping plate 35 is fixedly connected to one end of the clamping plate 35 through the connecting seat 37.

After the hub bearing contacts with the upper tool 25, the enclasping cylinder 34 is started to operate, the enclasping cylinder 34 can utilize the connecting seat 36 to push the clamping plate 35 and the enclasping ring 37 to move along the fixing seat 33, at this time, the hub bearing can be enclasped and fixed by utilizing the two groups of enclasping rings 37, then the lifting cylinder 22 is started to operate, the lifting cylinder 22 can drive the second limiting rod 19 and the enclasping plate 21 to move, and at this time, the hub bearing enclasped by the enclasping mechanism 6 can be attached to the bottom of the upper tool 25.

Referring to fig. 1 and 5, the detection mechanism 7 includes a first mounting frame 26 and a measuring pen 27, the top of the top plate 2 is fixedly provided with the first mounting frame 26 corresponding to the position of the upper shaft 23, the measuring pen 27 is disposed on the first mounting frame 26, the lower shaft 16 and the upper shaft 23 have the same structure and each include a sleeve 38 and a moving cylinder 39, and the inner wall of the sleeve 38 is provided with the moving cylinder 39.

The moving cylinder 39 can rotate inside the sleeve 38 and move in the up-down direction, the hub bearing can contact with the moving cylinder 39 after being fixed, then the inside of the sleeve 38 of the upward detection mechanism 8 is pressurized, the inner ring of the hub bearing is contacted with the sleeve 38, the measuring pen 27 can read corresponding values after being pressurized, then the inside of the sleeve 38 of the downward detection mechanism 4 is pressurized, the measuring pen 27 can read corresponding values, the measuring pen 27 can read the difference value of products when the hub bearing is pressurized up and down, and the detected difference value is the gap of the hub bearing products.

Referring to fig. 1, 2 and 4, the driving mechanism 9 includes a second mounting frame 28 and a second servo motor 29, the top of the top plate 2 is fixedly provided with the second mounting frame 28, one side of the second mounting frame 28 is fixedly provided with the second servo motor 29, the output end of the second servo motor 29 is fixedly connected with a first belt pulley 30, the outer surface of the upper shaft 23 is fixedly connected with a second belt pulley 31, and the first belt pulley 30 and the second belt pulley 31 are connected through a synchronous belt 32.

When the upper detecting mechanism 8 and the lower detecting mechanism 4 perform the pressurization detection, the first servo motor 18 can drive the lower shaft 16 and the material seat 17 to rotate, and the second servo motor 29 can drive the second belt pulley 31 and the upper shaft 23 to rotate by utilizing the first belt pulley 20 and the synchronous belt 32, so that the use effect of the inner ring of the hub bearing can be simulated.

Referring to fig. 1, the outer surface of the first stop lever 11 is slidably connected with a first stop sleeve 40, the top of the first stop sleeve 40 is fixedly mounted at the bottom of the first mounting plate 10, the outer surface of the second stop lever 19 is slidably connected with a second stop sleeve 41, and the top of the second stop sleeve 41 is fixedly mounted at the bottom of the top plate 2.

Wherein, the setting of first stop collar 40 and second stop collar 41 can be spacing first gag lever post 1 and second gag lever post 19, rocks when preventing first gag lever post 1 and second gag lever post 19 removal.

When the device is used, firstly, the hub bearing is placed above the material seat 17, then the jacking cylinder 15 is started to operate, the jacking cylinder 15 can drive the second connecting plate 13, the first limiting rod 11 and the third connecting plate 14 to move along the first mounting plate 10, then the hub bearing in the material seat 17 can be pushed to move upwards to the detection mechanism 8, after the hub bearing is contacted with the upper tool 25, the enclasping cylinder 34 is started to operate, the connecting seat 36 is utilized to push the clamping plate 35 and the enclasping ring 37 to move along the fixed seat 33, at the moment, the two groups of enclasping rings 37 can be utilized to enclasp and fix the hub bearing, then the lifting cylinder 22 is started to operate, the lifting cylinder 22 can drive the second limiting rod 19 and the enclasping plate 21 to move, at the moment, the hub bearing enclasped by the enclasping mechanism 6 can be attached to the bottom of the upper tool 25, the moving cylinder 39 can rotate inside the sleeve 38 and move in the up-down direction, the hub bearing can contact with the moving cylinder 39 after being fixed, then the inside of the sleeve 38 of the upward detection mechanism 8 is pressurized, the inner ring of the hub bearing is contacted with the sleeve 38, the measuring pen 27 can read corresponding values after being pressurized, then the inside of the sleeve 38 of the downward detection mechanism 4 is pressurized, the measuring pen 27 can read corresponding values, the measuring pen 27 can read the difference value of products when the hub bearing is pressurized up and down, the detected difference value is the gap of the hub bearing products, the first servo motor 18 can drive the lower shaft 16 and the material seat 17 to rotate when the upward detection mechanism 8 and the downward detection mechanism 4 perform pressurized detection, the rotation of the second servo motor 29 can drive the second belt pulley 31 and the upper shaft 23 to rotate by utilizing the first belt pulley 20 and the synchronous belt 32, so that the effect of the inner ring of the hub bearing during use can be simulated.

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 (10)

1. The utility model provides a wheel hub bearing clearance measuring mechanism, includes support frame (1), the top fixedly connected with roof (2) of support frame (1), its characterized in that: the lifting mechanism is characterized in that a jacking mechanism (3) is fixedly arranged at the bottom of the supporting frame (1), a lower detection mechanism (4) is arranged on the jacking mechanism (3), a lifting mechanism (5) is arranged at the bottom of the top plate (2), two groups of enclasping mechanisms (6) for clamping and enclasping products are arranged on the surface of the lifting mechanism (5), an upper detection mechanism (8) is rotatably arranged on the top plate (2), a driving mechanism (9) for driving the upper detection mechanism (8) to rotate is arranged at the top of the top plate (2), and a detection mechanism (7) extending to the inner part of the upper detection mechanism (8) is arranged at the top of the top plate (2).

2. A hub bearing clearance measurement mechanism according to claim 1 wherein: the lifting mechanism (3) comprises a first mounting plate (10), a first limiting rod (11), a first connecting plate (12) and a lifting cylinder (15), wherein two groups of first mounting plates (10) are fixedly connected to the inner wall of the supporting frame (1), two groups of first limiting rods (11) are connected to the surface of the first mounting plate (10) in a sliding mode, the first connecting plate (12) is fixedly connected to the bottom of the first limiting rod (11), a second connecting plate (13) is fixedly connected to the top of the first limiting rod (11), a third connecting plate (14) is fixedly connected to one side of the second connecting plate (13), the lifting cylinder (15) is fixedly mounted on the supporting frame (1), and the output end of the lifting cylinder (15) is fixedly connected with the third connecting plate (14).

3. A hub bearing clearance measurement mechanism according to claim 2 wherein: lower detection mechanism (4) are including lower axle (16), material seat (17) and first servo motor (18), rotate on second connecting plate (13) and install lower axle (16), the top fixedly connected with material seat (17) of lower axle (16), the top fixed mounting of first connecting plate (12) has first servo motor (18), the output of first servo motor (18) and the bottom fixed connection of lower axle (16).

4. A hub bearing clearance measurement mechanism according to claim 3 wherein: lifting mechanism (5) are including second gag lever post (19), fourth connecting plate (20), hold tight board (21) and lift cylinder (22), sliding connection has second gag lever post (19) on roof (2), the bottom fixedly connected with of second gag lever post (19) holds tight board (21), the top of second gag lever post (19) is through two sets of fourth connecting plate (20) fixed connection, the top of roof (2) just is located the below fixedly connected with lift cylinder (22) of fourth connecting plate (20), the output and the fourth connecting plate (20) fixed connection of lift cylinder (22).

5. A hub bearing clearance measurement mechanism as claimed in claim 4 wherein: the upper detection mechanism (8) comprises an upper shaft (23), a connecting seat (24) and an upper tool (25), wherein the upper shaft (23) is rotatably installed on the top plate (2), and the bottom of the upper shaft (23) is fixedly connected with the upper tool (25) through the connecting seat (24).

6. A hub bearing clearance measurement mechanism as claimed in claim 5 wherein: the detection mechanism (7) comprises a first mounting frame (26) and a measuring pen (27), the first mounting frame (26) is fixedly mounted at the top of the top plate (2) and corresponds to the position of the upper shaft (23), and the measuring pen (27) is arranged on the first mounting frame (26).

7. A hub bearing clearance measurement mechanism as claimed in claim 6 wherein: the driving mechanism (9) comprises a second mounting frame (28) and a second servo motor (29), the second mounting frame (28) is fixedly mounted at the top of the top plate (2), the second servo motor (29) is fixedly mounted at one side of the second mounting frame (28), a first belt pulley (30) is fixedly connected with the output end of the second servo motor (29), a second belt pulley (31) is fixedly connected with the outer surface of the upper shaft (23), and the first belt pulley (30) and the second belt pulley (31) are connected through a synchronous belt (32).

8. A hub bearing clearance measurement mechanism as claimed in claim 7 wherein: the enclasping mechanism (6) comprises a fixed seat (33) and an enclasping air cylinder (34), the fixed seat (33) is fixedly arranged at the top of the enclasping plate (21), the top of the fixed seat (33) is fixedly arranged on the enclasping air cylinder (34), a clamping plate (35) is connected to the inside of the fixed seat (33) in a sliding manner, the output end of the enclasping air cylinder (34) is fixedly connected with the clamping plate (35) through a connecting seat (36), and one end of the clamping plate (35) is fixedly connected with an enclasping ring (37).

9. A hub bearing clearance measurement mechanism according to claim 8 wherein: the lower shaft (16) and the upper shaft (23) are identical in structure and comprise a sleeve (38) and a moving cylinder (39), and the inner wall of the sleeve (38) is provided with the moving cylinder (39).

10. A hub bearing clearance measurement mechanism according to claim 9 wherein: the outer surface sliding connection of first gag lever post (11) has first spacing sleeve (40), the top fixed mounting of first spacing sleeve (40) is in the bottom of first mounting panel (10), the surface sliding connection of second gag lever post (19) has second spacing sleeve (41), the top fixed mounting of second spacing sleeve (41) is in the bottom of roof (2).