CN217586303U - Detection apparatus for production of high accuracy thin wall deep groove ball bearing is used - Google Patents

Abstract

The utility model relates to a bearing detects technical field, especially relates to a detection apparatus of high accuracy thin wall deep groove ball bearing production usefulness. The technical scheme comprises the following steps: the motor comprises a base, a first shaft rod, a first shaft sleeve, a second shaft sleeve and a second shaft rod, wherein the first shaft rod is rotatably installed in the middle of the interior of the base, the first shaft sleeve is sleeved on the surfaces of two ends of the first shaft rod, a supporting block is fixed on the top end of the outer surface of the first shaft sleeve, a first helical gear is fixed at one end of the first shaft rod, a second helical gear is meshed on the surface of the first helical gear and fixed at the output end of a first motor, the first motor is fixed in the interior of the base, the second shaft rod is rotatably installed in the middle of the front end of the interior of the base, and the second shaft sleeve is sleeved on the surface of the second shaft rod. The utility model discloses can fix not unidimensional bearing then its rotation of motor drive detects the rotation and moves in the same direction as the smoothness degree, its easy operation detection efficiency height and the staff of being convenient for uses.

Description

Detection apparatus for production of high accuracy thin wall deep groove ball bearing is used

Technical Field

The utility model relates to a bearing detects technical field, specifically is a detection device of high accuracy thin wall deep groove ball bearing production usefulness.

Background

The original single-row radial ball bearing of the deep groove ball bearing is a rolling bearing which is most widely applied. It features small friction resistance and high rotation speed, and can be used for bearing radial load or combined load acted simultaneously in radial and axial directions, and also can be used for bearing axial load, such as small-power motor, automobile and tractor gear box, machine tool gear box, general machine and tool, etc.

The rotation of the deep groove ball bearing needs to be detected after production and manufacturing, whether the rotation is smooth or not is detected, manual rotation detection is mostly adopted in the existing detection method, and manual detection is time-consuming, labor-consuming and low in efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a detection apparatus of high accuracy thin wall deep groove ball bearing production usefulness possesses to fix not unidimensional bearing then its rotation of motor drive detects and rotates the smooth degree, and its easy operation detection efficiency is high and the advantage that the staff of being convenient for used, has solved and has adopted artifical manual rotation detection in the past more, and artifical manual detection is wasted time and energy and the problem of inefficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a detection apparatus for production of high accuracy thin wall deep groove ball bearing is used, includes frame, first axostylus axostyle, first axle sleeve, second axle sleeve and second axle rod, rotate in the middle of the inside of frame and install first axostylus axostyle, the both ends surface cover of first axostylus axostyle has first axle sleeve, and the surface top of first axle sleeve is fixed with the kicking block, the one end of first axostylus axostyle is fixed with first helical gear, and the surface meshing of first helical gear has the second helical gear, and the output at first motor is fixed to the second helical gear, and the inside at the frame is fixed to first motor, rotate in the middle of the inside front end of frame and install the second axostylus axostyle, the surface cover of second axostylus axostyle has the second axle sleeve.

Preferably, a third motor is fixed at the top end of the outer surface of the second shaft sleeve, and a roller is fixed at the output end of the third motor. Through the cooperation of third motor and gyro wheel, make the bearing after fixing can rotate the outer lane to it, reached the rotation smooth degree effect that detects the bearing.

Preferably, a first sliding sleeve is fixed on two sides of the outer surface of the first shaft sleeve, a first sliding rod is inserted into the first sliding sleeve, and the first sliding rod is fixed in the base. Through the cooperation of first sliding sleeve and first slide bar, make first axle pole rotate and take the first axle sleeve of both ends surface to carry on spacingly when removing to first axle sleeve, reached and prevented that first axle sleeve from following the effect that first axle pole rotated together.

Preferably, a second sliding sleeve is fixed on two sides of the outer surface of the second shaft sleeve, a second sliding rod is inserted into the second sliding sleeve, and the second sliding rod is fixed inside the base. Through the cooperation of second sliding sleeve and second slide bar, make the second axostylus axostyle rotate and take the second axle sleeve on surface to carry out spacingly when moving, reached and prevented that the second axle sleeve from following the effect that the second axle bar rotated together.

Preferably, a third helical gear is fixed at one end of the second shaft rod, a fourth helical gear is meshed with the surface of the third helical gear, the fourth helical gear is fixed at the output end of the second motor, and the second motor is fixed inside the base. Through the cooperation of the second motor, the third bevel gear and the fourth bevel gear, the second shaft rod can rotate, and the effects of power output and power transmission are achieved.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a cooperation of first axostylus axostyle and first axle sleeve all is equipped with the screw thread because of its both ends surface and internal surface, so the screw thread of its both ends surface can mesh and the screw thread of first axle sleeve internal surface after the first axostylus axostyle rotates, and two first axle sleeves of screw thread meshing can make opposite direction removal or removal dorsad at the both ends surface of first axostylus axostyle, have reached the position effect of two bracers of indirect control.

2. The utility model discloses a set up the kicker, make not unidimensional wait to detect the bearing and can be propped fixedly, reached inside and inserted and prop fixed effect, through the cooperation of first sliding sleeve and first slide bar, make the primary shaft pole spacing the primary shaft cover when the first axle sleeve of taking both ends surface rotates moves, reached and prevented that the primary shaft cover from following the same pivoted effect of primary shaft pole.

3. The utility model discloses a cooperation of first motor and first helical gear and second helical gear makes the primary shaft pole rotate, has reached the effect of power take off and transmission, and through the cooperation of second motor and third helical gear and fourth helical gear, messenger's secondary shaft pole can rotate, has reached the effect of power take off and transmission.

4. The utility model discloses a cooperation of second axostylus axostyle and second axle sleeve all is equipped with the screw thread because of its surface and internal surface, so the screw thread on its surface can mesh and the screw thread of second axle sleeve internal surface after the second axle rod rotates, and the meshing second axle sleeve of screw thread can remove on the surface of second axle rod, has reached the position effect of indirect control gyro wheel.

5. The utility model discloses a cooperation of third motor and gyro wheel makes the bearing after fixing can rotate the outer lane to it, has reached the rotation smooth degree effect of detection bearing, through the cooperation of second sliding sleeve and second slide bar, makes the second axostylus axostyle carry out spacingly to the second axle sleeve when rotating the second axle sleeve that takes the surface and move, has reached and has prevented that the second axle sleeve from following the same pivoted effect of second axostylus axostyle.

Drawings

Fig. 1 is a schematic view of the top-view appearance structure of the present invention;

fig. 2 is a schematic view of the top view of the internal structure of the present invention;

fig. 3 is a schematic view of the appearance structure of the present invention.

In the figure: 1. a machine base; 2. a first shaft lever; 3. a first bushing; 4. a support block; 5. a roller; 6. a second shaft sleeve; 7. a second shaft lever; 8. a first sliding sleeve; 9. a first slide bar; 10. a third motor; 11. a third bevel gear; 12. a fourth helical gear; 13. a second motor; 14. a second sliding sleeve; 15. a second slide bar; 16. a first helical gear; 17. a second helical gear; 18. a first motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Example one

As shown in fig. 1 to fig. 3, the detecting device for producing a high-precision thin-wall deep groove ball bearing provided by the present invention comprises a machine base 1, a first shaft rod 2, a first shaft sleeve 3, a second shaft sleeve 6 and a second shaft rod 7, wherein the first shaft rod 2 is rotatably mounted in the middle of the machine base 1, the first shaft sleeve 3 is sleeved on the surfaces of the two ends of the first shaft rod 2, and through the cooperation between the first shaft rod 2 and the first shaft sleeve 3, both ends of the first shaft rod 2 are provided with threads, so that the threads on both ends of the first shaft rod 2 can be engaged with the threads on the inner surface of the first shaft sleeve 3 after rotating, the two first shaft sleeves 3 engaged with the threads can make opposite movement or back movement on both ends of the first shaft rod 2, thereby achieving the position effect of indirectly controlling the two supporting blocks 4, the supporting blocks 4 are fixed on the top end of the outer surface of the first shaft sleeve 3, and through the arrangement of the supporting blocks 4, the bearing to be detected with different sizes can be supported and fixed, the effect of internal insertion, supporting and fixing is achieved, the first sliding sleeve 8 is fixed on two sides of the outer surface of the first shaft sleeve 3, the first sliding rod 9 is inserted into the first sliding sleeve 8, the first sliding rod 9 is fixed inside the machine base 1, the first shaft sleeve 3 is limited when the first shaft sleeve 3 with two end surfaces is driven to move by the rotation of the first shaft rod 2 through the matching of the first sliding sleeve 8 and the first sliding rod 9, the effect of preventing the first shaft sleeve 3 from rotating along with the first shaft rod 2 is achieved, the first helical gear 16 is fixed at one end of the first shaft rod 2, the second helical gear 17 is meshed on the surface of the first helical gear 16, the second helical gear 17 is fixed at the output end of the first motor 18, the first motor 18 is fixed inside the machine base 1, and through the matching of the first motor 18 and the first helical gear 16 and the second helical gear 17, the first shaft lever 2 can rotate, and the effects of power output and transmission are achieved.

Example two

As shown in fig. 1 to fig. 3, the utility model provides a detection apparatus for high accuracy thin wall deep groove ball bearing production usefulness compares in embodiment one, and this embodiment still includes: the device comprises a machine base 1, a second shaft sleeve 6 and a second shaft rod 7, wherein the second shaft rod 7 is rotatably arranged in the middle of the front end in the machine base 1, the second shaft sleeve 6 is sleeved on the surface of the second shaft rod 7, threads are arranged on the surface and the inner surface of the second shaft sleeve 7 through the matching of the second shaft rod 7 and the second shaft sleeve 6, so that the threads on the surface of the second shaft rod 7 can be meshed with the threads on the inner surface of the second shaft sleeve 6 after the second shaft rod 7 rotates, the second shaft sleeve 6 can move on the surface of the second shaft rod 7 through the meshing of the threads, the position effect of indirectly controlling the roller 5 is achieved, a third motor 10 is fixed at the top end of the outer surface of the second shaft sleeve 6, the roller 5 is fixed at the output end of the third motor 10, and the fixed bearing can rotate the outer ring through the matching of the third motor 10 and the roller 5, so that the effect of detecting the rotation smoothness of the bearing is achieved, two sides of the outer surface of the second shaft sleeve 6 are fixed with a second sliding sleeve 14, a second sliding rod 15 is inserted into the second sliding sleeve 14, the second sliding rod 15 is fixed inside the machine base 1, the second shaft 7 is enabled to limit the second shaft sleeve 6 when the second shaft sleeve 6 with the surface is driven to move through the matching of the second sliding sleeve 14 and the second sliding rod 15, and the effect of preventing the second shaft sleeve 6 from rotating along with the second shaft rod 7 is achieved, one end of the second shaft rod 7 is fixed with a third bevel gear 11, the surface of the third bevel gear 11 is meshed with a fourth bevel gear 12, the fourth bevel gear 12 is fixed at the output end of a second motor 13, the second motor 13 is fixed inside the machine base 1, the second shaft rod 7 can rotate through the matching of the second motor 13, the third bevel gear 11 and the fourth bevel gear 12, and the power output and transmission effects are achieved.

The working principle is as follows: before the utility model is used, a worker needs to supply power to the external power supply firstly, the operation of the utility model is controlled by a control panel, the worker places a deep groove ball bearing to be detected at the top surface of the outer part of a machine base 1, the bearing sleeve is sleeved on two supporting blocks 4, the worker controls a first motor 18 to rotate after the sleeve is sleeved, the first motor 18 rotates a second helical gear 17 fixed at the output end, the second helical gear 17 rotates a first helical gear 16 meshed with the surface, the first helical gear 16 drives a first shaft rod 2 fixed in the middle to rotate, threads arranged on the surfaces of two ends of the first shaft rod 2 after the first shaft rod 2 rotates can be meshed with threads on the inner surface of the first shaft sleeve 3, the threads are meshed with two first shaft sleeves 3 which can move in opposite directions or opposite directions on the surfaces of two ends of the first shaft rod 2, the first shaft sleeve 3 which moves with the supporting blocks 4 fixed at the top end at the outer surface, the bearing sleeved on the two supporting blocks 4 can drive a bearing fixed on the supporting block for supporting and fixing after the bearing is moved, the bearing sleeve controls a second motor 13 to rotate after the bearing sleeve is fixed, a fourth shaft sleeve 13 rotates, a fourth shaft 12 fixed at the output end of the rotating, the third shaft 7 fixed on the outer surface of the helical gear 7, the third shaft 7 moves on the outer surface of the third shaft 7, the third shaft 7 fixed on the third shaft, the third shaft 7, the outer surface of the third shaft sleeve, the third shaft 7 can move synchronous moving helical gear 7, the third motor 10 rotates the roller 5 with the output end fixed, and the roller 5 can drive the bearing attached to the surface of the roller after rotating, so as to detect the rotating smoothness of the bearing.

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

Claims (5)

1. The utility model provides a detection apparatus for production of high accuracy thin wall deep groove ball bearing is used, includes frame (1), first axle pole (2), first axle sleeve (3), second axle sleeve (6) and second axle pole (7), its characterized in that: the novel motor support is characterized in that a first shaft rod (2) is rotatably mounted in the middle of the interior of the base (1), first shaft sleeves (3) are sleeved on the surfaces of two ends of the first shaft rod (2), a supporting block (4) is fixed to the top end of the outer surface of each first shaft sleeve (3), a first helical gear (16) is fixed to one end of the first shaft rod (2), a second helical gear (17) is meshed on the surface of the first helical gear (16), the second helical gear (17) is fixed to the output end of a first motor (18), the first motor (18) is fixed to the interior of the base (1), a second shaft rod (7) is rotatably mounted in the middle of the front end of the interior of the base (1), and a second shaft sleeve (6) is sleeved on the surface of the second shaft rod (7).

2. The detection device for the production of the high-precision thin-wall deep groove ball bearing according to claim 1, is characterized in that: and a third motor (10) is fixed at the top end of the outer surface of the second shaft sleeve (6), and a roller (5) is fixed at the output end of the third motor (10).

3. The detection device for the production of the high-precision thin-wall deep groove ball bearing according to claim 1, is characterized in that: first sliding sleeves (8) are fixed on two sides of the outer surface of the first shaft sleeve (3), a first sliding rod (9) is inserted into the first sliding sleeves (8), and the first sliding rod (9) is fixed in the base (1).

4. The detection device for the production of the high-precision thin-wall deep groove ball bearing according to claim 1, is characterized in that: and second sliding sleeves (14) are fixed on two sides of the outer surface of the second shaft sleeve (6), second sliding rods (15) are inserted into the second sliding sleeves (14), and the second sliding rods (15) are fixed in the machine base (1).

5. The detection device for the production of the high-precision thin-wall deep groove ball bearing according to claim 1, is characterized in that: a third helical gear (11) is fixed at one end of the second shaft lever (7), a fourth helical gear (12) is meshed with the surface of the third helical gear (11), the fourth helical gear (12) is fixed at the output end of a second motor (13), and the second motor (13) is fixed inside the engine base (1).

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