CN104390614A - Lifting-lever-free type bearing rotary mechanism - Google Patents

Abstract

Disclosed in the invention is a lifting-lever-free type bearing rotary mechanism comprising a fixed shaft, a rotating wheel, a first spring plate, a second spring plate, an intermediate connection sleeve, a bearing sleeved ring, a driving assembly and a first fixed element, a second fixed element, a third fixed element, and a fourth fixed element. The fixed shaft is installed at a rack body. The rotating wheel, the first spring plate, the intermediate connection sleeve, the second spring plate, and the bearing sleeved ring successively sleeve the fixed shaft and can rotate relatively to the fixed shaft. The driving assembly is installed at the rack body and drives the rotating wheel to make rotation. One end of the first fixed element is fixedly connected with the rotating wheel and the other end is fixedly connected with the first spring plate; one end of the second fixed element is fixedly connected with the first spring plate and the other end is fixedly connected with one end of the intermediate connection sleeve; one end of the third fixed element is fixedly connected with the other end of the intermediate connection sleeve and the other end is fixedly connected with the second spring plate; and one end of the fourth fixed element is fixedly connected with the second spring plate and the other end is fixedly connected with the bearing sleeved ring. A to-be-detected object is carried at the bearing sleeved ring. Therefore, the lifting-lever-free type bearing rotary mechanism has advantages of simple structure, flexible rotation and low cost.

Description

Without poke-rod type carrying rotating mechanism

Technical field

The present invention relates to a kind of carrying rotating mechanism, particularly relate to a kind of without poke-rod type carrying rotating mechanism.

Background technology

As everyone knows, in order to improve the anti-wear performance of circular cutter, general except in the material of circular cutter, and outside reasonably designing in the manufacturing process of circular cutter, another kind of the best way is exactly on the saw tooth of circular cutter, be welded with wear-resisting wimet weld tabs or adamas weld tabs, make the saw tooth of circular cutter more wear-resisting by this weld tabs, to reach the use cost reducing circular cutter.

Wherein, in order to whether the saw tooth detecting the circular cutter after welding reaches the requirement of standard, therefore various detections need be carried out to circular cutter, and diameter run-out detection is exactly the one in various detection.In the equipment that diameter run-out detects, be provided with for circular cutter carrying and the carrying rotating mechanism ordering about the circular cutter rotation of carrying and the testing agency that the circular cutter rotated is detected, by carrying rotating mechanism to the driving of circular cutter, thus the object of going realization to detect the circular cutter rotated by the testing agency coordinated, therefore, diameter run-out checkout equipment be unable to do without and carries and the carrying rotating mechanism rotated circular cutter.

But, existing complicated structure circular cutter being carried out to the carrying rotating mechanism carrying rotation, its rotation is also more clumsy; Just due to clumsiness, therefore need to increase revolving tooth setting mechanism moving tooth operation is carried out to circular cutter, further increase cost.

Therefore, be badly in need of wanting a kind of and overcome above-mentioned defect without poke-rod type carrying rotating mechanism.

Summary of the invention

The object of the present invention is to provide a kind of structure simple, to rotate flexibly and cost is low carries rotating mechanism without poke-rod type.

For realizing above-mentioned object, the invention provides a kind of without poke-rod type carrying rotating mechanism, to be located on support body and object to be detected to be carried and rotates, wherein, of the present invention without poke-rod type carrying rotating mechanism comprise stationary shaft, rotor wheel, the first shell fragment, the second shell fragment, intermediate connecting sleeve, the carrying collar, driven unit, the first fixture, the second fixture, the 3rd fixture and the 4th fixture.Described stationary shaft is arranged on described support body, described rotor wheel, the first shell fragment, intermediate connecting sleeve, the second shell fragment and the carrying collar are in turn sheathed on described stationary shaft along the axis of described stationary shaft, and described rotor wheel, the first shell fragment, intermediate connecting sleeve, the second shell fragment and the carrying collar all can rotate relative to described stationary shaft.Described driven unit is arranged on described support body and orders about described rotor wheel and rotates, and one end of described first fixture is fixedly connected with described rotor wheel, and the other end of described first fixture is fixedly connected with described first shell fragment; One end of described second fixture is fixedly connected with described first shell fragment, and the other end of described second fixture is fixedly connected with one end of described intermediate connecting sleeve; One end of described 3rd fixture is fixedly connected with the other end of described intermediate connecting sleeve, and the other end of described 3rd fixture is fixedly connected with described second shell fragment; One end of described 4th fixture is fixedly connected with described second shell fragment, and the other end of described 4th fixture is fixedly connected with the described carrying collar, and described object to be detected is carried on the described carrying collar.

Preferably, of the present invention without poke-rod type carrying rotating mechanism also comprise clutch shaft bearing and the second bearing, described clutch shaft bearing is sheathed on described stationary shaft, and described clutch shaft bearing along the radial direction of this stationary shaft between described rotor wheel and described stationary shaft, described second bearing holder (housing, cover) is located at described stationary shaft, and described second bearing along the radial direction of this stationary shaft between the described carrying collar and described stationary shaft.

Preferably, axial arranged all along described stationary shaft of described first fixture, the second fixture, the 3rd fixture and the 4th fixture, and described first fixture and described second fixture sequence, described 3rd fixture and described 4th fixture sequence,

Preferably, described first fixture is separated along the axis of described stationary shaft mutually with described intermediate connecting sleeve, and described second fixture is separated along the axis of described stationary shaft mutually with described rotor wheel.

Preferably, described 3rd fixture is separated along the axis of described stationary shaft mutually with the described carrying collar, and described 4th fixture is separated along the axis of described stationary shaft mutually with described intermediate connecting sleeve.

Preferably, described first shell fragment parallels with described second shell fragment.

Preferably, described intermediate connecting sleeve comprises sleeve body and radially outward prolongs first the formed collar and second collar by the two ends of described sleeve body respectively along described sleeve body, described second fixture is fixedly connected with described first collar, and described 3rd fixture is fixedly connected with described second collar.

Preferably, of the present invention without poke-rod type carrying rotating mechanism also comprise magnetic absorption part, described magnetic absorption part is arranged on the described carrying collar along the circumferencial direction of the described carrying collar.

Preferably, described stationary shaft axially stretches out the described carrying collar along it and forms the location division for described article cover setting position to be detected.

Preferably, described driven unit comprises motor, driving wheel and mediation member, described motor is arranged on described support body, and described driving wheel is arranged on the output shaft of described motor and corresponding with described rotor wheel, and described mediation member is sheathed on described driving wheel and rotor wheel.

Compared with prior art, because rotor wheel of the present invention, the first shell fragment, intermediate connecting sleeve, the second shell fragment and the carrying collar are sheathed on stationary shaft and five all can rotate relative to stationary shaft, therefore when driven unit orders about rotor wheel rotation, rotational power is delivered to the first shell fragment by the first fixture by rotor wheel, make the first shell fragment produce torsional deformation and being driven, realizing the first shell fragment relative to stationary shaft rotates; Again because intermediate connecting sleeve is fixedly connected with the first shell fragment by the second fixture, therefore rotational power is passed to intermediate connecting sleeve by the first shell fragment rotated, and drives intermediate connecting sleeve to rotate relative to stationary shaft; Because intermediate connecting sleeve is fixedly connected with the second shell fragment by the 3rd fixture, therefore rotational power is delivered to the second shell fragment place by the intermediate connecting sleeve rotated, and makes the second shell fragment produce torsional deformation and being driven, and realizes the second shell fragment relative to stationary shaft to rotate; Again because the carrying collar is fixedly connected with the second shell fragment by the 4th fixture, therefore the second shell fragment rotated drives the carrying collar to rotate, thus realize rotor wheel, the first shell fragment, intermediate connecting sleeve, the second shell fragment and this coordination reliability of rotating relative to stationary shaft of the carrying collar, thus realize carrying and the object rotated the object to be detected of carrying.Just driven by the first shell fragment generation torsional deformation by rotor wheel because rotor wheel drives intermediate connecting sleeve to do coordination rotation, and intermediate connecting sleeve drives the carrying collar to do the rotation coordinated to produce torsional deformation by intermediate connecting sleeve by the second shell fragment and drive, therefore the rotation without poke-rod type carrying rotating mechanism of the present invention is more flexible, rotation is more steady, cost is lower and structure simple, and eliminate moving tooth structure.

Accompanying drawing explanation

Fig. 1 is the perspective view without poke-rod type carrying rotating mechanism of the present invention.

Fig. 2 is the stereo decomposing structural representation without poke-rod type carrying rotating mechanism shown in Fig. 1.

Fig. 3 is the planar structure schematic diagram without poke-rod type carrying rotating mechanism shown in Fig. 1.

Fig. 4 is the planar structure schematic diagram carried circular cutter without poke-rod type carrying rotating mechanism shown in Fig. 3.

Embodiment

In order to describe technology contents of the present invention, structural attitude in detail, accompanying drawing is coordinated to be described further below in conjunction with embodiment.

Refer to Fig. 1 to Fig. 4, of the present invention without poke-rod type carrying rotating mechanism 100 be assemblied on support body 200, and object to be detected carries out carrying and rotating, particularly, as shown in Figure 4, of the present invention is carry circular cutter 300 and rotate without poke-rod type carrying rotating mechanism 100, certainly, in other embodiments, can also the object to be detected of other except circular cutter 300 be carried and be rotated, therefore not be limited with above-mentioned citing.Wherein, of the present invention without poke-rod type carrying rotating mechanism 100 comprise stationary shaft 10, rotor wheel 20, first shell fragment 31, second shell fragment 32, intermediate connecting sleeve 40, carrying the collar 50, driven unit 60, first fixture 71, second fixture 72, the 3rd fixture 73 and the 4th fixture 74.Stationary shaft 10 is arranged on support body 200, makes stationary shaft 10 be fixed on support body 200, and preferably, stationary shaft 10 is along being installed on support body 200 perpendicular to the direction of support body 200, with make stationary shaft 10 better to external world object support.Rotor wheel 20, first shell fragment 31, intermediate connecting sleeve 40, second shell fragment 32 and the carrying collar 50 are in turn sheathed on stationary shaft 10 along the axis of stationary shaft 10, and rotor wheel 20, first shell fragment 31, intermediate connecting sleeve 40, second shell fragment 32 and the carrying collar 50 all can rotate relative to stationary shaft 10.Driven unit 60 is arranged on support body 200 and orders about rotor wheel 20 and rotates, particularly, in the present embodiment, driven unit 60 comprises motor 61, driving wheel 62 and mediation member 63, motor 61 is arranged on support body 200, driving wheel 62 is arranged on the output shaft of motor 61 and corresponding with rotor wheel 20, and mediation member 63 is sheathed on driving wheel 62 and rotor wheel 20, to make motor 61 more reliably and rotor wheel 20 can be driven more reposefully to rotate; Selectively, driving wheel 62 and rotor wheel 20 are a belt wheel, accordingly, mediation member 63 is chosen as a driving-belt, certainly, in other embodiments, driving wheel 62 and rotor wheel 20 can also be chosen as sprocket wheel, and accordingly, mediation member 63 is chosen as a chain.One end of first fixture 71 is fixedly connected with rotor wheel 20, and the other end of the first fixture 71 is fixedly connected with the first shell fragment 31; One end of second fixture 72 is fixedly connected with the first shell fragment 31, and the other end of the second fixture 72 is fixedly connected with one end of intermediate connecting sleeve 40; One end of 3rd fixture 73 is fixedly connected with the other end of intermediate connecting sleeve 40, and the other end of the 3rd fixture 73 is fixedly connected with the second shell fragment 32; One end of 4th fixture 74 is fixedly connected with the second shell fragment 32, and the other end of the 4th fixture 74 is fixedly connected with the carrying collar 50, and object to be detected (as circular cutter 300) is carried on the carrying collar 50.When driven unit 60 order about rotor wheel 20 rotate time, rotational power is delivered to the first shell fragment 31 by the first fixture 71 by the rotor wheel 20 rotated, first shell fragment 31 is produced reverse and be driven, realize the first shell fragment 31 and follow rotor wheel 20 and do rotation in the same way together; Be fixed by the second fixture 72 and intermediate connecting sleeve 40 by the first shell fragment 31 again, therefore the first shell fragment 31 doing rotating in same direction just drive intermediate connecting sleeve 40 to follow the rotation that the first shell fragment 31 does synchronous coordination; Again because intermediate connecting sleeve 40 is fixedly connected with the second shell fragment 32 by the 3rd fixture 73, therefore the intermediate connecting sleeve 40 rotated will walk around power transmission to the second shell fragment 32 place, the second shell fragment 32 is made to produce torsional deformation and be driven, realize the second shell fragment 32 to follow intermediate connecting sleeve 40 and rotate together, and the second shell fragment 32 rotated is driven carry together with the collar 50 because being fixedly connected with the carrying collar 50 by the 4th fixture 74 and does the rotation coordinated, thus realize driving the object of circular cutter 300 rotation be carried on the carrying collar 50.And in the process rotated at circular cutter 300, because rotor wheel 20 is fixed by the first fixture 71 and the first shell fragment 31, fixed with intermediate connecting sleeve 40 again by the second fixture 72 by the first shell fragment 31 again, instead of rotor wheel 20, first shell fragment 31 and intermediate connecting sleeve 40 three are directly fixed together by the first fixture 71 and the second fixture 72; In like manner, intermediate connecting sleeve 40, second shell fragment 32 and the carrying collar 50 three neither directly be fixed together by the 3rd fixture 73 and the 4th fixture 74, therefore, circular cutter 300 just can do suitable moving up and down along the axis of stationary shaft 10 in circular cutter 300 rotation process also under its own weight.More specifically, as follows:

Comparatively the superior, of the present invention without poke-rod type carrying rotating mechanism 100 also comprise clutch shaft bearing 81 and the second bearing 82, clutch shaft bearing 81 is sheathed on stationary shaft 10, and clutch shaft bearing 81 along the radial direction of this stationary shaft 10 between rotor wheel 20 and stationary shaft 10, second bearing 82 is sheathed on stationary shaft 10, and the second bearing 82 along this stationary shaft 10 radial direction carrying the collar 50 and stationary shaft 10 between, to make rotor wheel 20 and the carrying collar 50 rotate relative to stationary shaft 10 more reliably, and make this rotation more flexible.

Meanwhile, axial arranged all along stationary shaft 10 of the first fixture 71, second fixture 72, the 3rd fixture 73 and the 4th fixture 74 is compacter to make to arrange.And the first fixture 71 and the second fixture 72 sequence, 3rd fixture 73 and the 4th fixture 74 sequence, more flexibility and reliability be delivered to the carrying collar 50 place to make rotor wheel 20 by the first fixture 71, first shell fragment 31, second fixture 72, intermediate connecting sleeve 40, the 3rd fixture 73, second shell fragment 32 and the 4th fixture 74 by rotational power.Particularly, first fixture 71 is separated along the axis of stationary shaft 10 mutually with intermediate connecting sleeve 40, second fixture 72 is separated along the axis of stationary shaft 10 mutually with rotor wheel 20,3rd fixture 73 is separated along the axis of stationary shaft 10 mutually with the carrying collar 50,4th fixture 74 is separated along the axis of stationary shaft 10 mutually with intermediate connecting sleeve 40, further improve rotor wheel 20 reliably and neatly rotational power is passed to carrying the collar 50 place.

Moreover the first shell fragment 31 parallels with the second shell fragment 32, is preferably, first shell fragment 31 and the second shell fragment 32 are all square structure, as square structure, rectangle structure or prismatic structure etc., and can also rounded structure etc., certainly, all right structure triangular in shape etc., but not as limit.

Then, intermediate connecting sleeve 40 comprises sleeve body 41 and radially outward prolongs first the formed collar 42 and second collar 43 by the two ends of sleeve body 41 respectively along sleeve body 41.Second fixture 72 is fixedly connected with first collar 42, and the 3rd fixture 73 is fixedly connected with second collar 43, so that the installation of the first shell fragment 31 and the second shell fragment 32 and intermediate connecting sleeve 40; Preferably, the first fixture 71, second fixture 72, the 3rd fixture 73 and the 4th fixture 74 are bolt structure, to simplify their structure and to reduce costs.

Finally, of the present invention without poke-rod type carrying rotating mechanism 100 also comprise magnetic absorption part 90, magnetic absorption part 90 is arranged on the carrying collar 50 along the circumferencial direction of the carrying collar 50, carries out fast firm object with the circular cutter 300 that the mode of magnetic absorption is opposite on the carrying collar 50.In order to position circular cutter 300 more quickly, therefore stationary shaft 10 axially stretches out the carrying collar 50 along it and forms the location division 11 for object to be detected (as circular cutter 300) sheathed location.

Compared with prior art, because rotor wheel 20, first shell fragment 31 of the present invention, intermediate connecting sleeve 40, second shell fragment 32 and the carrying collar 50 are sheathed on stationary shaft 10 and five all can rotate relative to stationary shaft 10, therefore driven unit 60 order about rotor wheel 20 rotate time, rotational power is delivered to the first shell fragment 31 by the first fixture 71 by rotor wheel 20, make the first shell fragment 31 produce torsional deformation and be driven, realize the first shell fragment 31 and rotate relative to stationary shaft 10; Again because intermediate connecting sleeve 40 is fixedly connected with the first shell fragment 31 by the second fixture 72, therefore rotational power is passed to intermediate connecting sleeve 40 by the first shell fragment 31 rotated, and drives intermediate connecting sleeve 40 to rotate relative to stationary shaft 10; Because intermediate connecting sleeve 40 is fixedly connected with the second shell fragment 32 by the 3rd fixture 73, therefore rotational power is delivered to the second shell fragment 32 place by the intermediate connecting sleeve 40 rotated, make the second shell fragment produce torsional deformation and being driven, realizing the second shell fragment 32 relative to stationary shaft 10 rotates; Again because the carrying collar 50 is fixedly connected with the second shell fragment 32 by the 4th fixture 74, therefore the second shell fragment 32 rotated drives the carrying collar 50 to rotate, thus realize rotor wheel 20, first shell fragment 31, intermediate connecting sleeve 40, second shell fragment 32 and this coordination reliability of rotating relative to stationary shaft 10 of the carrying collar 50, thus realize carrying and the object rotated the circular cutter 300 of carrying.Just produce torsional deformation by rotor wheel 20 by the first shell fragment 31 because rotor wheel 20 drives intermediate connecting sleeve 40 to do to coordinate to rotate and drive, and intermediate connecting sleeve 40 drives the carrying collar 50 to do the rotation coordinated and produce torsional deformation by intermediate connecting sleeve 40 by the second shell fragment 32 and drive, therefore the rotation without poke-rod type carrying rotating mechanism of the present invention more flexibly, more reliable, cost is lower and structure simple, and eliminates moving tooth structure.

Above disclosedly be only preferred embodiments of the present invention, certainly can not limit the interest field of the present invention with this, therefore according to the equivalent variations that the claims in the present invention are done, still belong to the scope that the present invention is contained.

Claims (10)

1. without a poke-rod type carrying rotating mechanism, to be located on support body and object to be detected to be carried and rotates, it is characterized in that, describedly carrying rotating mechanism without poke-rod type and comprise stationary shaft, rotor wheel, first shell fragment, second shell fragment, intermediate connecting sleeve, the carrying collar, driven unit, first fixture, second fixture, 3rd fixture and the 4th fixture, described stationary shaft is arranged on described support body, described rotor wheel, first shell fragment, intermediate connecting sleeve, second shell fragment and the carrying collar are in turn sheathed on described stationary shaft along the axis of described stationary shaft, and described rotor wheel, first shell fragment, intermediate connecting sleeve, second shell fragment and the carrying collar all can rotate relative to described stationary shaft, described driven unit is arranged on described support body and orders about described rotor wheel and rotates, one end of described first fixture is fixedly connected with described rotor wheel, the other end of described first fixture is fixedly connected with described first shell fragment, one end of described second fixture is fixedly connected with described first shell fragment, the other end of described second fixture is fixedly connected with one end of described intermediate connecting sleeve, one end of described 3rd fixture is fixedly connected with the other end of described intermediate connecting sleeve, the other end of described 3rd fixture is fixedly connected with described second shell fragment, one end of described 4th fixture is fixedly connected with described second shell fragment, the other end of described 4th fixture is fixedly connected with the described carrying collar, described object to be detected is carried on the described carrying collar.

2. as claimed in claim 1 without poke-rod type carrying rotating mechanism, it is characterized in that, also comprise clutch shaft bearing and the second bearing, described clutch shaft bearing is sheathed on described stationary shaft, and described clutch shaft bearing along the radial direction of this stationary shaft between described rotor wheel and described stationary shaft, described second bearing holder (housing, cover) is located at described stationary shaft, and described second bearing along the radial direction of this stationary shaft between the described carrying collar and described stationary shaft.

3. as claimed in claim 1 or 2 without poke-rod type carrying rotating mechanism, it is characterized in that, axial arranged all along described stationary shaft of described first fixture, the second fixture, the 3rd fixture and the 4th fixture, and described first fixture and described second fixture sequence, described 3rd fixture and described 4th fixture sequence.

4. as claimed in claim 3 without poke-rod type carrying rotating mechanism, it is characterized in that, described first fixture is separated along the axis of described stationary shaft mutually with described intermediate connecting sleeve, and described second fixture is separated along the axis of described stationary shaft mutually with described rotor wheel.

5. as claimed in claim 3 without poke-rod type carrying rotating mechanism, it is characterized in that, described 3rd fixture is separated along the axis of described stationary shaft mutually with the described carrying collar, and described 4th fixture is separated along the axis of described stationary shaft mutually with described intermediate connecting sleeve.

6., as claimed in claim 1 or 2 without poke-rod type carrying rotating mechanism, it is characterized in that, described first shell fragment parallels with described second shell fragment.

7. as claimed in claim 1 or 2 without poke-rod type carrying rotating mechanism, it is characterized in that, described intermediate connecting sleeve comprises sleeve body and radially outward prolongs first the formed collar and second collar by the two ends of described sleeve body respectively along described sleeve body, described second fixture is fixedly connected with described first collar, and described 3rd fixture is fixedly connected with described second collar.

8., as claimed in claim 1 or 2 without poke-rod type carrying rotating mechanism, it is characterized in that, also comprise magnetic absorption part, described magnetic absorption part is arranged on the described carrying collar along the circumferencial direction of the described carrying collar.

9. as claimed in claim 8 without poke-rod type carrying rotating mechanism, it is characterized in that, described stationary shaft axially stretches out the described carrying collar along it and forms the location division for described article cover setting position to be detected.

10. as claimed in claim 1 without poke-rod type carrying rotating mechanism, it is characterized in that, described driven unit comprises motor, driving wheel and mediation member, described motor is arranged on described support body, described driving wheel is arranged on the output shaft of described motor and corresponding with described rotor wheel, and described mediation member is sheathed on described driving wheel and rotor wheel.