CN222784240U

CN222784240U - A balancing machine rotor support structure

Info

Publication number: CN222784240U
Application number: CN202421569924.9U
Authority: CN
Inventors: 崔安迪; 崔树刚; 张引; 李斌
Original assignee: Liaoning Qiming Automobile Electrical Appliances Co ltd
Current assignee: Liaoning Qiming Automobile Electrical Appliances Co ltd
Priority date: 2024-07-04
Filing date: 2024-07-04
Publication date: 2025-04-22
Anticipated expiration: 2034-07-04

Abstract

The utility model discloses a rotor supporting structure of a balancing machine, which comprises a bottom frame and a guide rod, wherein the bottom frame is connected through the guide rod, a high-adaption clamping assembly and a position adjusting assembly are arranged on the bottom frame and the guide rod, and the rotor supporting structure has the advantages that the high-adaption clamping assembly can be used for automatically adjusting according to the diameter of a rotor, and meanwhile, the position adjusting assembly can be used for adjusting the supporting structure according to the transverse width of the rotor, so that the suitability of the supporting structure to the rotor can be improved.

Description

Balancing machine rotor supporting structure

Technical Field

The utility model relates to the technical field of rotor support, in particular to a rotor support structure of a balancing machine.

Background

In the manufacturing process of the motor, the rotation balance degree of the rotor needs to be tested, and a balance degree testing machine is usually needed, but the mechanism size of the balance machine for preventing the rotor is often fixed, and the rotor with various diameters cannot be used for testing.

Disclosure of utility model

The balancing machine rotor supporting structure comprises a bottom frame and a guide rod, wherein the bottom frame is connected through the guide rod, and a high-fit clamping assembly and a position adjusting assembly are arranged on the bottom frame and the guide rod;

The high-fit clamping assembly comprises a movable seat, a guide hole, a first adjusting groove, a first motor, a first positive threaded rod, a first negative threaded rod, a first sliding block, a support frame, a bottom adjusting frame, a second adjusting groove, a second motor, a second positive threaded rod, a second negative threaded rod, a second sliding block, a bottom wheel carrier, a transmission groove, a screw rod module, a lifting frame, a third adjusting groove, a third motor, a third positive threaded rod, a third negative threaded rod, a third sliding block, a side wheel carrier and a support wheel, wherein the guide hole is formed in the movable seat;

The guide hole is formed in the moving seat, the moving seat is sleeved on the guide rod through the guide hole, the first adjusting groove is formed in the bottom adjusting frame, the second motor is arranged in the second adjusting groove, the first positive threaded rod is connected with the first reverse threaded rod and is arranged in the first adjusting groove to be connected with the output end of the first motor, the first sliding block is sleeved on the first positive threaded rod and the first reverse threaded rod, the supporting frame is connected to the first sliding block, the bottom adjusting frame is arranged on the bottom frame, the second adjusting groove is formed in the bottom adjusting frame, the second motor is arranged in the second adjusting groove, the second positive threaded rod is connected with the second reverse threaded rod and is arranged in the second adjusting groove, the second sliding block is sleeved on the second positive threaded rod and the second reverse threaded rod, the bottom wheel frame is connected to the second sliding block, the transmission groove is formed in the supporting frame, the transmission groove is formed in the motor, the transmission groove is formed in the third side of the motor, the transmission groove is connected to the third threaded rod and is connected to the third side of the third lifting frame, the third lifting frame is connected to the third lifting frame, and the third lifting frame is arranged on the third side of the third lifting frame, and the lifting frame is connected to the third lifting frame, and the third lifting frame is connected to the third lifting frame, and the lifting frame.

Preferably, the position adjusting assembly comprises a motor frame, a fourth motor, a screw rod, a threaded hole and a fixing frame;

The fixed frame is connected to the movable seat, the motor frame is arranged on the underframe, the fourth motor is arranged on the motor frame, the threaded hole is formed in the fixed frame, the screw rod is connected to the underframe and the output end of the fourth motor and penetrates through the threaded hole, and the position of the motor can be adjusted according to the size of the rotor through the motor assembly.

Preferably, the first sliding block, the second sliding block and the third sliding block are provided with thread sleeves.

Preferably, a controller is arranged on the underframe.

Advantageous effects

The rotor supporting structure of the balancing machine has the following beneficial effects:

This case can independently adjust according to the diameter of rotor through high adaptation clamping assembly, can adjust bearing structure according to the transverse width of rotor simultaneously through position adjustment subassembly to can improve bearing structure to the suitability of rotor.

Drawings

Fig. 1 is a schematic view of a three-dimensional appearance structure of a rotor supporting structure of a balancing machine according to the present utility model.

Fig. 2 is a schematic side sectional view of a rotor supporting structure of a balancing machine according to the present utility model.

Fig. 3-4 are schematic views of a high-fit clamping assembly of a rotor support structure of a balancing machine according to the present utility model.

1, A bottom frame, 2, a guide rod, 3, a movable seat, 4, a guide hole, 5, a fixed frame, 6, a first adjusting groove, 7, a first motor, 8, a first positive threaded rod, 9, a first negative threaded rod, 10, a first sliding block, 11, a support frame, 12, a bottom adjusting frame, 13, a second adjusting groove, 14, a second motor, 15, a second positive threaded rod, 16, a second negative threaded rod, 17, a second sliding block, 18, a bottom wheel carrier, 19, a transmission groove, 20, a screw rod module, 21, a lifting frame, 22, a third adjusting groove, 23, a third motor, 24, a third positive threaded rod, 25, a third negative threaded rod, 26, a third sliding block, 27, a side wheel carrier, 28, a supporting wheel, 29, a motor carrier, 30, a fourth motor, 31, a screw rod, 32 and a threaded hole;

Detailed Description

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. 1-4, the present utility model provides a technical solution.

The balancing machine rotor supporting structure comprises a bottom frame 1 and a guide rod 2, wherein the bottom frame 1 is connected through the guide rod 2, and a high-fit clamping assembly and a position adjusting assembly are arranged on the bottom frame 1 and the guide rod 2;

The high-fit clamping assembly comprises a movable seat 3, a guide hole 4, a first adjusting groove 6, a first motor 7, a first positive threaded rod 8, a first negative threaded rod 9, a first sliding block 10, a supporting frame 11, a bottom adjusting frame 12, a second adjusting groove 13, a second motor 14, a second positive threaded rod 15, a second negative threaded rod 16, a second sliding block 17, a bottom wheel frame 18, a transmission groove 19, a screw rod module 20, a lifting frame 21, a third adjusting groove 22, a third motor 23, a third positive threaded rod 24, a third negative threaded rod 25, a third sliding block 26, a side wheel frame 27 and a supporting wheel 28;

The guide hole 4 is arranged on the movable seat 3, the movable seat 3 is sleeved on the guide rod 2 through the guide hole 4, the first regulating groove 6 is arranged on the bottom frame 1 and the movable seat 3, the first motor 7 is arranged in the first regulating groove 6, the first positive threaded rod 8 is connected with the first reverse threaded rod 9 and is arranged in the first regulating groove 6 and is connected with the output end of the first motor 7, the first sliding block 10 is sleeved on the first positive threaded rod 8 and the first reverse threaded rod 9, the supporting frame 11 is connected on the first sliding block 10, the bottom regulating frame 12 is arranged on the bottom frame 1, the second regulating groove 13 is arranged on the bottom regulating frame 12, the second regulating groove 13 is arranged in the bottom regulating frame 12, the second motor 14 is arranged in the second regulating groove 13, the second positive threaded rod 15 is connected with the second reverse threaded rod 16 and is arranged in the second regulating groove 13 and is connected with the second motor 14, the second slider 17 is sleeved on the second positive threaded rod 15 and the second negative threaded rod 16, the bottom wheel frame 18 is connected to the second slider 17, the transmission groove 19 is formed in the support frame 11, the screw rod module 20 is installed in the transmission groove 19, the lifting frame 21 is connected to the slider on the screw rod module 20, the third adjusting groove 22 is formed in the lifting frame 21, the third motor 23 is installed in the third adjusting groove 22, the third positive threaded rod 24 is connected with the third negative threaded rod 25 and is installed in the third adjusting groove 22 and is connected with the third motor 23, the third slider 26 is sleeved on the third positive threaded rod 24 and the third negative threaded rod 25, the side wheel frame 27 is connected to the third slider 26, and the support wheel 28 is installed on the side wheel frame 27 and the bottom wheel frame 18.

When the balancing machine supports the rotor, the rotors at two ends are placed on the supporting wheels 28 of the bottom wheel frame 18, the first positive threaded rod 8 and the first negative threaded rod 9 are driven to rotate simultaneously through the first motor 7, so that the first sliding block 10 drives the supporting frame 11 to move inwards, the supporting wheels 28 on the side wheel frames 27 are attached to two sides of the rotor, clamping and mounting of the rotor are completed, when the balancing machine operates, the rotor rotates, the supporting wheels 28 also rotate along with the rotor, so that the generated friction is prevented from damaging the surface of the rotor, meanwhile, according to different diameters of the rotor, the second positive threaded rod 15 and the second negative threaded rod 16 can be driven to rotate simultaneously, then the second sliding block 17 drives the bottom wheel frame 18 to move, the distance between the bottom wheel frames 18 is adjusted, the lead screw module 20 can drive the side wheel frames 27 to move up and down, the third positive threaded rod 24 and the third negative threaded rod 25 are driven to move through the third motor 23, the distance between the side wheel frames 27 is adjusted, and the supporting structure can adapt to the rotors with various diameters through various adjustments.

Preferably, the position adjusting assembly comprises a motor frame 29, a fourth motor 30, a screw rod 31, a threaded hole 32 and a fixing frame 5;

the fixed frame 5 is connected to the movable seat 3, the motor frame 29 is mounted on the bottom frame 1, the fourth motor 30 is mounted on the motor frame 29, the threaded hole 32 is formed in the fixed frame 5, and the screw rod 31 is connected to the output ends of the bottom frame 1 and the fourth motor 30 and penetrates through the threaded hole 32.

Before the rotor is placed and supported, the screw rod 31 is driven by the fourth motor 30 to rotate in the threaded hole 32, so that the fixing frame 5 drives the movable seat 3 to move and adjust on the guide rod 2, and the distance between the movable seat 3 and the bottom frame 1 is adjusted according to the size of the rotor.

Preferably, further, the first slider 10, the second slider 17 and the third slider 26 are provided with threaded sleeves.

It should be noted that the threaded sleeve may ensure that the first slider 10, the second slider 17, and the third slider 26 may be movably adjusted thereon along with the rotation of the first positive threaded rod 8, the first negative threaded rod 9, the second positive threaded rod 15, the second negative threaded rod 16, the third positive threaded rod 24, and the third negative threaded rod 25.

Preferably, the mounting head is provided with a controller on the chassis 1.

The controller is used for controlling the supporting structure.

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

1. The balancing machine rotor supporting structure comprises a bottom frame and a guide rod, wherein the bottom frame is connected through the guide rod, and the balancing machine rotor supporting structure is characterized in that a high-fit clamping assembly and a position adjusting assembly are arranged on the bottom frame and the guide rod;

The guide hole is formed in the moving seat, the moving seat is sleeved on the guide rod through the guide hole, the first adjusting groove is formed in the bottom adjusting frame, the second motor is arranged in the second adjusting groove, the first positive threaded rod is connected with the first reverse threaded rod and is arranged in the first adjusting groove to be connected with the output end of the first motor, the first sliding block is sleeved on the first positive threaded rod and the first reverse threaded rod, the supporting frame is connected to the first sliding block, the bottom adjusting frame is arranged on the bottom frame, the second adjusting groove is formed in the bottom adjusting frame, the second motor is arranged in the second adjusting groove, the second positive threaded rod is connected with the second reverse threaded rod and is arranged in the second adjusting groove, the second sliding block is sleeved on the second positive threaded rod and the second reverse threaded rod, the bottom wheel frame is connected to the second sliding block, the transmission groove is formed in the supporting frame, the transmission groove is formed in the motor, the transmission groove is connected to the third threaded rod, the third lifting frame is connected to the third lifting frame and the third lifting frame, and the third lifting frame is connected to the third lifting frame, and the third lifting frame is arranged on the third lifting frame.

2. The balancing machine rotor support structure of claim 1, wherein the position adjustment assembly comprises a motor frame, a fourth motor, a screw rod, a threaded hole, and a fixing frame;

The fixed frame is connected to the movable seat, the motor frame is arranged on the underframe, the fourth motor is arranged on the motor frame, the threaded hole is formed in the fixed frame, and the screw rod is connected to the underframe and the output end of the fourth motor and penetrates through the threaded hole.

3. The balancing machine rotor support structure of claim 1, wherein the first slider, the second slider, and the third slider are provided with threaded sleeves.

4. The balancing machine rotor support structure of claim 1, wherein the chassis is provided with a controller.