CN207414059U - A kind of both ends shaft core single motor formula aligning mechanism - Google Patents

Abstract

The utility model provides a kind of both ends shaft core single motor formula aligning mechanism, it includes alignment portion and support portion, circular shaft part is rotationally provided on the support portion, the circular shaft part includes circular shaft and the shaft core arranged on circular shaft or so end, the alignment portion includes workbench and the motor arranged on workbench top, the workbench is internally provided with the fixation pressure head and at least two alignment pressure heads being connected with motor drive, after the fixed pressure head decline is pressed in the middle part of the circular shaft part, two alignment pressure heads, which are taken up in order of priority, to be dropped to above left axle core, above right axle core.Above-mentioned aligning mechanism drives two alignment pressure heads by single motor, is straightened the both ends shaft core of the circular shaft part successively, is straightened so as to fulfill the deformation to circular shaft part both ends, automatic detection is more efficient.

Description

A kind of both ends shaft core single motor formula aligning mechanism

Technical field

The utility model is related to circular shaft part alignment operation applied technical field more particularly to a kind of both ends shaft core single motor formulas Aligning mechanism.

Background technology

Since the deformation angle of the rear and front end shaft core of rotor is inconsistent, cause the shaft core of rear and front end cannot be carried out at the same time After alignment is, it is necessary to which the shaft core of circular shaft part wherein one end is straightened, is rotated by belt and rotor is driven to rotate to the position for needing to be straightened It puts, then carries out the alignment of other end shaft core.So as to fulfill the function of single motor alignment axle center rear and front end.

Recent year human cost is continuously improved, and automation and robot technology are constantly popularized, and automated production skill Art application causes speed of production to be substantially improved, common in industry to ensure high-accuracy product quality and improving assembling work efficiency Automation equipment improves accuracy and repeatable accuracy instead of manpower operation.

Utility model content

To solve problem above, the utility model offer is a kind of to carry out the automatic school in both ends to the Bending Deformation of product workpiece Straight device.

The technical solution of the utility model is as follows：

A kind of both ends shaft core single motor formula aligning mechanism, it is rotatable on the support portion including alignment portion and support portion Ground is provided with circular shaft part, and the circular shaft part includes circular shaft and the shaft core arranged on circular shaft or so end, and the alignment portion includes workbench With the motor arranged on workbench top, the workbench is internally provided with the fixation pressure head being connected with motor drive and at least two schools Vertical compression head, after the fixed pressure head decline is pressed in the middle part of the circular shaft part, two alignment pressure heads, which are taken up in order of priority, drops to left axle Above core, above right axle core.

In a preferred embodiment of the utility model, the alignment portion further includes synchronous pulley, synchronous belt, left-handed silk Bar, dextrorotation screw, left rail and right guide rail, the coaxially connected synchronous pulley of output terminal of the motor, the top of left-handed screw Synchronous pulley is arranged with, the top of dextrorotation screw is arranged a synchronous pulley, leads between motor, left-handed screw and dextrorotation screw three The toothed belt transmission connection being set around between three synchronous pulleys is crossed, the side panel inner wall of the workbench, which is fixed with, to be respectively arranged on A sliding block is respectively fixed on the left rail of both sides and right guide rail, left-handed screw and dextrorotation screw, the sliding block is slidably mounted on On left rail and right guide rail.

In a preferred embodiment of the utility model, the fixed pressure head quantity is two, and two fix pressure head in motor Driving under under be pressed on the middle part outer ring surface of circular shaft.

In a preferred embodiment of the utility model, the support portion includes pedestal and the V-type branch arranged on pedestal both sides Bracer.

Preferably, the V-type supporting block upper end is provided with V-groove, and protective pad is housed on the inclined-plane in V-groove.

Preferably, the aligning mechanism further includes rotating part, and the rotating part drives the circular shaft part turning in V-shaped groove It is dynamic.

It is highly preferred that the rotating part includes moving the belt pulley above circular shaft part.

The beneficial effects of the utility model are as follows：

Two alignment pressure heads are driven by single motor, the both ends shaft core of the circular shaft part are straightened successively, so as to fulfill right The deformation at circular shaft part both ends is straightened, and automatic detection is more efficient.

Description of the drawings

Below in conjunction with the accompanying drawings, by the way that specific embodiment of the present utility model is described in detail, the utility model will be made Technical solution and other beneficial effects are apparent.

Fig. 1 is a kind of both ends shaft core single motor formula aligning mechanism structure diagram；

Fig. 2 is the structure diagram for the aligning mechanism that fixed pressure head is not provided in Fig. 1；

Fig. 3 is the structure diagram that alignment portion is not provided with workbench side panel；

Fig. 4 is the structure diagram of fixed pressure head, left alignment pressure head, right alignment pressure head and support portion；

Fig. 5 is the structure diagram of fixed pressure head, left alignment pressure head, right alignment pressure head, belt pulley and support portion.

Main element symbol description：

10th, workbench；11st, motor；1111st, synchronous pulley；1112nd, synchronous belt；1121st, left rail；1122nd, right guide rail； 1131st, left-handed screw；1132nd, dextrorotation screw；12nd, fixed pressure head；131st, left alignment pressure head；132nd, right alignment pressure head；20th, bottom Seat；21st, V-type supporting block；100th, circular shaft part；41st, belt pulley.

Specific embodiment

Further to illustrate technological means and its effect that the utility model is taken, below in conjunction with the utility model Preferred embodiment and its attached drawing are described in detail.

Please refer to Fig.1-5, a kind of both ends shaft core single motor formula aligning mechanism, including alignment portion and support portion, the branch Circular shaft part 100 is rotationally provided on support part, the circular shaft part 100 includes circular shaft and the shaft core arranged on circular shaft or so end, institute Stating alignment portion includes workbench 10 and the motor 11 arranged on 10 top of workbench, and the workbench 10 is internally provided with to be passed with motor 11 12 and at least two alignment pressure head of fixation pressure head of dynamic connection is pressed in the circular shaft part 100 in the fixed decline of pressure head 12 Behind middle part, two alignment pressure heads, which are taken up in order of priority, to be dropped to above left axle core, above right axle core.Above-mentioned aligning mechanism passes through single motor 11 drive two alignment pressure heads, the both ends shaft core of the circular shaft part 100 are straightened respectively, so as to fulfill to 100 both ends of circular shaft part Deformation is straightened, and automatic detection is more efficient.

Specifically, the alignment portion further includes synchronous pulley 1111, synchronous belt 1112, left-handed screw 1131, dextrorotation screw 1132nd, left rail 1121 and right guide rail 1122, the coaxially connected synchronous pulley 1111 of output terminal of the motor 11, left-handed screw 1131 top is arranged with synchronous pulley 1111, and the top of dextrorotation screw 1132 is arranged a synchronous pulley 1111, motor 11, left-handed It is driven between 1132 three of screw 1131 and dextrorotation screw by the synchronous belt 1112 being set around between three synchronous pulleys 1111 Connection, the side panel inner wall of the workbench 10, which is fixed with, is respectively arranged on the left rail 1121 of both sides and right guide rail 1122, left-handed A sliding block is respectively fixed on screw 1131 and dextrorotation screw 1132, the sliding block is slidably mounted on left rail 1121 and right guide rail On 1122.

In order to more firmly compress the circular shaft part 100, fixed 12 quantity of pressure head is two, and two fixation pressure heads 12 exist It is pressed under under the driving of motor 11 on the middle part outer ring surface of circular shaft.

Specifically, the support portion includes pedestal 20 and the V-type supporting block 21 arranged on 20 both sides of pedestal.Preferably, the V 21 upper end of type supporting block is provided with V-groove, and protective pad is housed on the inclined-plane in V-groove.

Preferably, the aligning mechanism further includes rotating part, and the rotating part drives the circular shaft part 100 in V-shaped groove Interior rotation.Specifically, the rotating part includes moving the belt pulley 41 above circular shaft part 100.

When being straightened operation, when fixed pressure head 12 drops to the compacted position of circular shaft part 100, left alignment pressure head 131 declines To above the left axle core of circular shaft part 100, the alignment work of left axle core is carried out, after completing the alignment work of left axle core, left alignment pressure head 131 Rise with fixed pressure head 12, right alignment pressure head 132 is dropped to above the right axle core of circular shaft part 100, and belt pulley 41 drives the circle Shaft member 100 is rotated to alignment position is treated, fixed pressure head 12 drops to 100 compacted position of circular shaft part, and right alignment pressure head 132 drops to Alignment work is carried out above the right axle core of circular shaft part 100, is sequentially completed the alignment work of the shaft core to 100 both ends of circular shaft part, school Directly more precisely.

The relatively conventional product form of circular shaft part 100 described in the utility model is rotor.

The above, for those of ordinary skill in the art, can with technical solution according to the present utility model and Technical concept makes other various corresponding changes and deformation, and all these changes and deformation should all belong to the utility model power The protection domain of profit requirement.

Claims (7)

1. a kind of both ends shaft core single motor formula aligning mechanism, which is characterized in that including alignment portion and support portion, on the support portion Circular shaft part is rotationally provided with, the circular shaft part includes circular shaft and the shaft core arranged on circular shaft or so end, and the alignment portion includes Workbench and the motor arranged on workbench top, the workbench are internally provided with the fixation pressure head that is connected with motor drive and at least Two alignment pressure heads, after the fixed pressure head decline is pressed in the middle part of the circular shaft part, two alignment pressure heads are taken up in order of priority decline Above to left axle core, above right axle core.

2. both ends shaft core single motor formula aligning mechanism according to claim 1, which is characterized in that the alignment portion further includes Synchronous pulley, synchronous belt, left-handed screw, dextrorotation screw, left rail and right guide rail, the output terminal of the motor are coaxially connected together Belt wheel is walked, the top of left-handed screw is arranged with synchronous pulley, and the top of dextrorotation screw is arranged a synchronous pulley, motor, left-handed silk It is connected between bar and dextrorotation screw three by the toothed belt transmission being set around between three synchronous pulleys；

The side panel inner wall of the workbench is fixed with the left rail for being respectively arranged on both sides and right guide rail, left-handed screw and dextrorotation silk A sliding block is respectively fixed on bar, the sliding block is slidably mounted on left rail and right guide rail.

3. both ends shaft core single motor formula aligning mechanism according to claim 2, which is characterized in that the fixed pressure head quantity For two, two fixation pressure heads under the driving of motor under be pressed on the middle part outer ring surface of circular shaft.

4. both ends shaft core single motor formula aligning mechanism according to claim 1, which is characterized in that the support portion includes bottom Seat and the V-type supporting block arranged on pedestal both sides.

5. both ends shaft core single motor formula aligning mechanism according to claim 4, which is characterized in that in the V-type supporting block It holds and is provided with V-groove, protective pad is housed on the inclined-plane in V-groove.

6. both ends shaft core single motor formula aligning mechanism according to claim 4, which is characterized in that the aligning mechanism also wraps Rotating part is included, the rotating part drives the circular shaft part to be rotated in V-shaped groove.

7. both ends shaft core single motor formula aligning mechanism according to claim 6, which is characterized in that the rotating part includes can The belt pulley being displaced into above circular shaft part.