CN101634332B

CN101634332B - Rotating device

Info

Publication number: CN101634332B
Application number: CN 200810303083
Authority: CN
Inventors: 黄登聪; 李俊杰; 胡耀; 胡永兵; 郑亮; 曹飞; 余国俊
Original assignee: Kangzhun Electronic Technology Kunshan Co Ltd; Hon Hai Precision Industry Co Ltd
Current assignee: Kangzhun Electronic Technology Kunshan Co Ltd; Hon Hai Precision Industry Co Ltd
Priority date: 2008-07-25
Filing date: 2008-07-25
Publication date: 2013-07-17
Anticipated expiration: 2028-07-25
Also published as: CN101634332A

Abstract

The invention discloses a rotating device used for rotating a pivoting assembly, comprising a clamping module and a driving module, wherein, the clamping module comprises a first clamp holder and a second clamp holder; the first clamp holder and the second clamp holder are respectively clamped on one end needing to be fixed and rotate of the pivoting assembly; the driving module comprises a driving unit, and the driving unit is connected to the second clamp holder and can drive the second clamp holder to rotate together; the driving unit is started to drive the second clamp holder to rotate, so that the rotary end of the pivoting assembly rotates relatively to the fixed end thereof; before the pivoting assembly is assembled and leaves factories, the rotating device is used to carry out grinding-in processing in advance so as to improve the precision degree of the pivoting assembly, so that the rotating device can perform favourable performance and lower interference noise without a grinding-in period when the pivoting assembly is used.

Description

Slewing gear

Technical field

The present invention relates to a kind of slewing gear.

Background technique

General pivot assembly such as pivot device, dispatches from the factory immediately after making and assembles, and makes the screen of electronic equipment can be pivotally fixed in the base of electronic equipment.

Yet, because the trueness error in each element manufacturing processing of pivot assembly easily causes the cooperation running not smooth at the initial stage of its mutual chimeric rotation, and cause the loss of transmission of power to reach phenomenons such as easily producing noise.Therefore, a new pivot assembly needs to arrive best running state one period running-in period.

Summary of the invention

In view of this, be necessary to provide a kind of and can carry out the slewing gear that break-in is in advance handled to pivot assembly.

A kind of for the slewing gear that rotates a pivot assembly, it comprises a clamping module and a driver module, described clamping module comprises one first clamp holder and one second clamp holder, described first, second clamp holder is held on the end that rotation need be fixed and need to described pivot assembly respectively, described driver module comprises a driver element, described driver element is connected in described second clamp holder, and can drive described second clamp holder and rotatablely move together, described clamping module also comprises a regulation unit, described regulation unit is connected in described first, second clamp holder, described regulation unit comprises a horizontal position adjuster and a vertical position regulator, and described horizontal position adjuster and described vertical position regulator are used for adjusting described first, the level of second clamp holder and vertical position.

Slewing gear of the present invention is fixing respectively with the two ends of described pivot assembly by described first, second clamp holder, described driver element drives described second clamp holder rotation, thereby simulate described pivot assembly running state in use, pivot assembly is carried out the precision that break-in handles to promote pivot assembly.

Description of drawings

The invention will be further described in conjunction with embodiment with reference to the accompanying drawings.

Fig. 1 is the structured flowchart of slewing gear preferred embodiments of the present invention.

Fig. 2 is the use flow chart of Fig. 1.

Fig. 3 is the structured flowchart of other mode of execution of slewing gear of the present invention.

Embodiment

Please refer to Fig. 1, the preferred embodiments of slewing gear of the present invention comprises a clamping module 10, a driver module 20.

Clamping module 10 comprises that one first clamp holder 12, one second clamp holder 14, a regulation unit 16 and are connected in the control unit 18 of regulation unit 16.

This first clamp holder 12 is used for clamping an end of a pivot assembly 30 that needs break-in, and this second clamp holder 14 is used for the other end of this pivot assembly 30 of clamping.This first,

second clamp holder

12,14 can be respectively two gas pawls by cylinder control that are oppositely arranged, cylinder can control two gas pawls in opposite directions or opposing motion with clamping or the respective end of unclamping this pivot assembly 30.In order to regulate the air pressure of cylinder, a pressure valve can also be set be used for regulating multiple different force value, and this pressure valve connects a pressure gauge to show force value.Certainly, this first,

second clamp holder

12,14 all can change, and can follow according to the pivot assembly 30 of different size and change.

This regulation unit 16 is used for adjusting this first,

second clamp holder

12,14 position, so that correct position is adjusted at the two ends of this pivot assembly 30, and then reaches the operating condition that the electronic equipment of this pivot assembly 30 is used in perfect simulation.This regulation unit 16 comprises a horizontal position adjuster 160 and a vertical position regulator 162.

In the present embodiment, this horizontal position adjuster 160 comprises two groups of slide rails that are the criss-crossing setting, can vertically reach horizontal position regulation to this first, second clamp holder 12,14.This vertical position regulator 162 comprises a screw rod that vertically arranges, and can adjust this first,

second clamp holder

12,14 vertical position by adjusting screw rod.This horizontal position adjuster 160 is adjusted control with this vertical position regulator 162 by control unit 18, can certainly be by manually adjusting.

Control unit 18 can utilize cylinder or motor to control this regulation unit 16.In the present embodiment, control unit 18 is controlled by a cylinder 40.

Driver module 20 comprises a driver element 22, a controller 24 and a motor 26.

Driver element 22 is connected with second clamp holder 14 of clamping module 10, and can drive this second clamp holder 14 and be rotated motion together.

Motor 26 is connected between driver element 22 and the controller 24.

Controller 24 utilizes 22 runnings of motor 26 control driver elements, and the various Operational Limitss of control driver element 22, control namely that driver element 22 begins, stops, low speed, run up, rotation angle and number of revolutions.The various Operational Limitss of driver element 22 are sent instruction by controller 24, and are sent to motor 26, thereby control driver element 22 turns round according to the parameter of these settings.This controller 24 comprises a sensor 240 and a control panel 242.This sensor 240 is installed on driver element, is used for the number of revolutions of induction and record driver element 22.

Start button, low speed button, high speed button, stop button and cylinder button etc. are set on this control panel 242.By controlling these buttons on this control panel 242 with steering controller 24.The effect of these buttons on this control panel 242 is respectively:

Start button: click this button, these driver element 22 entrys into service;

The low speed button: click this button, then driver element 22 is to slowly run;

The high speed button: click this button, then driver element 22 is with high speed rotating

Stop button: in the time need interrupting break-in midway, click this button, then driver element 22 shuts down;

Cylinder button: the button of control cylinder 40 actions.

Please refer to Fig. 2, it is for the use flow chart of slewing gear of the present invention.

Step S1 is fixed in this clamping module 10 with this pivot assembly 30.

Connect power supply, start slewing gear, according to the specification of different pivot assemblies 30, select first and second suitable clamp holder 12,14.The horizontal position adjuster 160 of control unit 18 by control regulation unit 16 and vertical position regulator 162 are regulated this first,

second clamp holder

12,14 position, this first,

second clamp holder

12,14 is adjusted to the position of simulation electronic device running.Need a fixing end to be held on first clamp holder 12 this pivot assembly 30, need an end of rotation to be held on second clamp holder 14 this pivot assembly 30.

Step S2 arranges the Operational Limits of this driver element 22.

According to the needs of this pivot assembly 30, set the Operational Limits of this driver element 22 by controller 24.Wherein, the Operational Limits of driver element 22 comprises driver element 22 high speed rotating speed, the speed that slowly runs, rotation angle and number of revolutions etc.

Step S3 starts driver element 22, makes it be rotated motion by demand.

According to the needs that break-in is handled, selects the start button of different running statees, driver element 22 drives second clamp holder 14 and rotates together, the running state when simulating these pivot assembly 30 uses and this pivot assembly 30 of break-in.

Step S4 is by the number of revolutions of controller 24 monitoring driver elements 22, after finishing this number of revolutions, controller 24 will be finished this instruction of number of revolutions and be sent to motor 26, thereby motor 26 is shut down, thereby this driver element 22 stops automatically, take off this pivot assembly 30.At this moment, the break-in of this pivot assembly 30 is finished.

Please refer to Fig. 3, in other the mode of execution of the present invention, can also utilize an industrial computer 60 to be connected in controller 24, be used for arranging the various Operational Limitss of this driver element 22.Industrial computer 60 comprises main frame, display device, keyboard and mouse etc.This industrial computer 60 uses window control system (being the Windows system), and in industrial computer 60 specific setting program is installed.Arrange by the Operational Limits of operation setting program in the Windows system to this driver element 22, and these parameters can be presented to operator by display device.This industrial computer 60 also can be stored all parameter data.

Claims

1. slewing gear, be used for rotating a pivot assembly, it comprises a clamping module and a driver module, described clamping module comprises one first clamp holder and one second clamp holder, described first, second clamp holder be used for respectively the described pivot assembly of clamping need fix and need the rotation an end, described driver module comprises a driver element, described driver element is connected in described second clamp holder, and can drive described second clamp holder and rotatablely move together, described clamping module also comprises a regulation unit, described regulation unit is connected in described first, second clamp holder, described regulation unit comprises a horizontal position adjuster and a vertical position regulator, and described horizontal position adjuster and described vertical position regulator are used for adjusting described first, the level of second clamp holder and vertical position.

2. slewing gear as claimed in claim 1, it is characterized in that: described clamping module comprises that also one is connected in the control unit of described regulation unit, and described control unit utilizes a cylinder to control described regulation unit.

3. slewing gear as claimed in claim 1 is characterized in that: described horizontal position adjuster comprises and is two groups of slide rails that criss-crossing arranges, and can vertically reach horizontal position regulation to described first, second clamp holder.

4. slewing gear as claimed in claim 1 is characterized in that: described vertical position regulator comprises a screw rod that vertically arranges, and can adjust the vertical position of described first, second clamp holder by adjusting screw rod.

5. slewing gear as claimed in claim 1, it is characterized in that: described driver module comprises that one is connected in the controller of described driver element, described controller is used for controlling described driver element running.

6. slewing gear as claimed in claim 5, it is characterized in that: described driver module also comprises a motor, described controller is controlled the action of this driver element by controlling described motor.

7. slewing gear as claimed in claim 5, it is characterized in that: described controller comprises a control panel, described control panel arranges some buttons for this driver element running of control.

8. slewing gear as claimed in claim 5, it is characterized in that: described controller comprises a sensor, described sensor is installed on described driver element, is used for monitoring the number of revolutions of described driver element.

9. slewing gear as claimed in claim 1, it is characterized in that: the various Operational Limitss of described driver element are set by an industrial computer.