CN205315550U - Separation and reunion speed adjustable does not have wearing and tearing clutch - Google Patents
Separation and reunion speed adjustable does not have wearing and tearing clutch Download PDFInfo
- Publication number
- CN205315550U CN205315550U CN201520966146.1U CN201520966146U CN205315550U CN 205315550 U CN205315550 U CN 205315550U CN 201520966146 U CN201520966146 U CN 201520966146U CN 205315550 U CN205315550 U CN 205315550U
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- CN
- China
- Prior art keywords
- magnet rotor
- clutch
- outer magnet
- interior magnet
- separation
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- Expired - Fee Related
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- Permanent Magnet Type Synchronous Machine (AREA)
Abstract
The utility model discloses a separation and reunion speed adjustable does not have wearing and tearing clutch, including input shaft, interior magnet rotor, outer magnet rotor, output shaft and separation and reunion thrust unit, interior magnet rotor power is connected in the output shaft, outer magnet rotor power connect in the input shaft, outer magnet rotor for the terminal surface of interior magnet rotor be provided with with the circular inner groovy of interior magnet rotor looks adaptation, the periphery of interior magnet rotor is provided with first high magnetic density magnetic sheet, circles in the inner groovy of outer magnet rotor and is provided with the high magnetic density magnetic sheet of second, separation and reunion thrust unit connects in interior magnet rotor, and the outer magnet rotor of separation and reunion thrust unit drive along input shaft axial motion makes first high magnetic density magnetic sheet and the high magnetic density magnetic sheet of second be close each other or the separation. The utility model discloses separation and reunion speed adjustable does not have wearing and tearing clutch eliminates the physics friction between initiative dish and the driven plate, prolongs the life of clutch, effectively improves deciliter control accuracy of clutch.
Description
Technical field
This utility model relates to clutch field, particularly relates to a kind of clutch speed adjustable without abrasion clutch.
Background technology
As parts conventional in machine driven system, clutch can realize the combination of power between power source with drive system or separate. At present, clutch of a great variety, several classes such as electromagnetic clutch, magnetic powder cluth and slip clutch can be divided into by principle difference.
In prior art, slip clutch generally relies on transmission power after spring force makes clutch driving plate and clutch plate combine, and makes driving disc spacing pressing and clutch plate separate interruption power transmission by separating mechanism; Electromagnetic clutch principle is similar, is simply provided separating force by electromagnetic force; For magnetic powder cluth, its principle is in that to place magnetic powder between active and driven member, and during no power, magnetic powder is in loose condition (of surface), and during energising, magnetic powder combines, and driving link and driven member rotate simultaneously, therefore it substantially there is also friction phenomenon between magnetic powder.
It is not difficult to find out, operationally there is friction and cause that wear phenomenon and temperature rise phenomenon occurs in correlated parts (particularly driving disc spacing pressing and clutch plate) in several clutches above, thus have impact on service life, further, the separation of its driving disc spacing pressing of existing clutch and clutch plate or cannot accurately regulate in conjunction with speed.
Utility model content
For solving above-mentioned technical problem, this utility model provides a kind of clutch speed adjustable without abrasion clutch, for eliminating the physical friction between driving disc spacing pressing and clutch plate, extends the service life of clutch, and improves deciliter control accuracy of clutch.
This utility model is achieved in that
A kind of clutch speed is adjustable without abrasion clutch, including: power shaft, interior magnet rotor, outer magnet rotor, output shaft and clutch pushing device;
Described interior magnet rotor power is connected to described output shaft, described outer magnet rotor power is connected to described power shaft, described interior magnet rotor and outer magnet rotor are set in turn on same axis, outer magnet rotor is provided with the circular inner groovy suitable with the cross section of interior magnet rotor relative to the end face of interior magnet rotor, the periphery of interior magnet rotor is provided with the first high-magnetic-density magnetic sheet, and the inner ring of the inner groovy of outer magnet rotor is provided with the second high-magnetic-density magnetic sheet relative with described first high-magnetic-density magnetic sheet;
Described clutch pushing device is connected to described outer magnet rotor, and clutch pushing device includes: motor, briquetting, axial thrust bearing, catch and spring;
The rotating shaft of described motor is provided with screw thread, described briquetting is threadedly connected on machine shaft, described briquetting is connected to described outer magnet rotor by described axial thrust bearing, described catch is arranged at input the tip of the axis, described spring housing is located on described power shaft, one end of spring is connected to described outer magnet rotor, and the other end is connected to described catch.
Further, described outer magnet rotor is connected on described power shaft by what long spline can axially slide relative, and described interior magnet rotor is connected by flat key and output shaft are fixing.
Further, on described interior magnet rotor, the number of the first high-magnetic-density magnetic sheet is equal with the number of the second high-magnetic-density magnetic sheet on outer magnet rotor.
The beneficial effects of the utility model are: this utility model utilizes high-magnetic-density magnetic sheet to realize the transmission of power, between interior magnet rotor and outer magnet rotor and contactless, therefore, it is absent from interior magnet rotor and the wear phenomenon at outer magnet rotor transmission power place, thus eliminating abrasion between the two; And the outer magnet rotor of this utility model is axially slidable being arranged on power shaft, and drives outer magnet rotor to separate and combination with outer magnet rotor by clutch pushing device, it is achieved that the accurate adjustment of clutch " separation " or " combination " speed. This utility model not only structural principle is simple, it is accurately easy to combine or separate speed governing and has the practical function without abrasion.
Accompanying drawing explanation
Fig. 1 is the adjustable section of structure without abrasion clutch of this utility model embodiment clutch speed.
Label declaration:
1, output shaft; 2, interior magnet rotor; 3, motor; 4, briquetting;
5, axial thrust bearing; 6, outer magnet rotor; 7, spring; 8, power shaft;
9, housing; 10, device is promoted; 21, the first high-magnetic-density magnetic sheet;
61, the second high-magnetic-density magnetic sheet.
Detailed description of the invention
By describing technology contents of the present utility model, structural feature in detail, being realized purpose and effect, below in conjunction with embodiment and coordinate accompanying drawing to be explained in detail.
Embodiment one
Refer to Fig. 1, this utility model embodiment one clutch speed is adjustable without abrasion clutch, and this clutch speed is adjustable to be included without abrasion clutch: power shaft 8 (i.e. power input shaft), interior magnet rotor 2, outer magnet rotor 6, output shaft 1 (i.e. power output shaft), housing 9 and clutch pushing device 10; Described interior magnet rotor 2, outer magnet rotor 6 and clutch pushing device 10 are arranged in housing 9, interior magnet rotor 2 power is connected to described output shaft 1, wherein, output shaft 1 is connected to external loading, outer magnet rotor 6 power is connected to described power shaft 8, and outer magnet rotor 6 can slide axially relative to power shaft 8 on power shaft 8. Wherein, described outer magnet rotor 6 is arranged on described power shaft 8 by long spline, and described outer magnet rotor 6 can slide axially along power shaft 8; Described interior magnet rotor is connected by flat key and output shaft are fixing.
Wherein, described interior magnet rotor 2 is the secondary part of clutch, outer magnet rotor 6 is the active part of clutch, interior magnet rotor 2 is one in front and one in back arranged on same axis with outer magnet rotor 6, outer magnet rotor 6 is relative to the end face of interior magnet rotor 2, it is provided with the circular inner groovy suitable with the cross section of interior magnet rotor 2, the periphery of interior magnet rotor 2 is provided with the first high-magnetic-density magnetic sheet 21;The inner ring of magnet rotor 6 outside, is namely provided with the second high-magnetic-density magnetic sheet 61 relative with described first high-magnetic-density magnetic sheet 21 on the medial wall of described circular containing groove.
Clutch pushing device 10 is connected to described outer magnet rotor 6, drives outer magnet rotor 6 along power shaft 8 axially-movable, makes outer magnet rotor 6 and interior magnet rotor 2 relative motion. When interior magnet rotor 2 is in released state with outer magnet rotor 6, the first high-magnetic-density magnetic sheet 21 of described interior magnet rotor 2 and the second high-magnetic-density magnetic sheet 61 of outer magnet rotor 6 from, be absent from magneticaction between the two; When the circular containing groove that clutch pushing device 10 makes interior magnet rotor 2 enter outer magnet rotor 6, the distance of described first high-magnetic-density magnetic sheet 21 and the second high-magnetic-density magnetic sheet 61 is more and more nearer, until overlapping (i.e. state shown in Fig. 1), being combined by magnetic force to magnet rotor in process 2 with outer magnet rotor 6, namely realize transmission by magnetic force.
This utility model embodiment utilizes high magnetic magnetic sheet to realize the transmission of power, between interior magnet rotor and outer magnet rotor and contactless. Therefore, it is absent from interior magnet rotor and the wear phenomenon at outer magnet rotor transmission power place, has possessed the effect without abrasion.
In the present embodiment, described clutch pushing device 10 specifically includes: motor 3, briquetting 4, axial thrust bearing 5, catch and spring 7;
The rotor of described motor 3 is provided with screw thread, described briquetting 4 is provided with the screwed hole suitable with described screw thread, briquetting 4 is threadedly connected on the rotor of motor 3 by described screwed hole, axial thrust bearing 5 is arranged between briquetting 4 and outer magnet rotor 6, described briquetting 4 is connected to described outer magnet rotor 6 by described axial thrust bearing 5, described catch is arranged at power shaft end, described spring 7 is sheathed on described power shaft, one end of spring is connected to described outer magnet rotor 6, and the other end is connected to described catch.
(1) in the present embodiment, clutch from " separation " to " combination " process is: when motor 3 rotates clockwise and its rotating speed is n, utilize thread mechanism guide effect can realize briquetting 4 translational motion to the right (the corresponding briquetting that rotates clockwise setting rotor moves right), and the rotating speed that the speed of this translational motion is motor 3 is multiplied by the pitch of screw thread. When briquetting 4 moves to right, briquetting 4 promotes thrust bearing 5 and interior magnet rotor 2 to move right successively, in this process screw thread pressurized and make interior magnet rotor 2 and briquetting 4 laminating motion. So, the relative area of the magnetic sheet on interior magnet rotor 2 and outer magnet rotor 6 will be on the increase, thus causing that the magnetic force of the interphase interaction of interior magnet rotor and outer magnet rotor constantly increases. Assume that designed clutch magnetic force maximum is more than the power incoming from power shaft, then finally achieve power from interior magnet rotor to the transmission of outer magnet rotor. Thus achieving the power transmission between power shaft and output shaft, clutch completes and changes from " separation " to the duty of " combination ". Especially, utilizing the latching characteristics of thread transmission, when briquetting moves right appointment position, briquetting can be securely fixed in this position.
(2) clutch from " combination " to " separation " process is: when motor 3 rotates counterclockwise and its rotating speed is n, utilize thread mechanism guide effect can realize briquetting 4 translational motion to the left (what set rotor rotates counterclockwise corresponding briquetting to left movement), and the rotating speed that the speed of this translational motion is motor 3 is multiplied by the pitch of screw thread. Further, under the effect of the elastic force of spring 7, interior magnet rotor 2 is fitted along power shaft 1 to left movement and with briquetting 4.So, the relative area of the magnetic sheet of interior magnet rotor 2 and outer magnet rotor 6 will constantly reduce, thus causing that the magnetic force of the interphase interaction of interior magnet rotor and outer magnet rotor constantly reduces. When interior magnet rotor moves on to limit on the left position, power transmission will be interrupted, and clutch completes and changes from " combination " to the duty of " separation ". Especially, utilizing the latching characteristics of thread transmission and the effect of spring force, when briquetting 4 moves right appointment position, briquetting can be securely fixed in this position.
In the present embodiment, fix at spring force and thread pitch one, utilize motor speed can accurately adjust speed and the displacement of briquetting translational motion to the left or to the right, namely achieve the accurate adjustment of clutch " separation " or " combination " speed; And utilizing the latching characteristics of thread transmission and the effect of spring force, when briquetting moves right appointment position, briquetting can be securely fixed in this position, so that clutch has the control accuracy of long-term stability.
Embodiment two
Being different in that with embodiment one, in the present embodiment, described clutch pushing device includes hydraulic cylinder, briquetting axial thrust bearing and spring;
Hydraulic cylinder is connected to high-pressure oil pump by high-pressure oil pipe, described briquetting is arranged at the end of the push rod of hydraulic cylinder, described briquetting is connected to described outer magnet rotor by described axial thrust bearing, described spring housing is located on described power shaft, one end of spring is connected to described outer magnet rotor, and the other end is connected to the catch of power shaft end. When the push rod that high-pressure oil pump drives hydraulic cylinder is flexible, in driving magnet rotor relatively close with outer magnet rotor with separate, thus realizing combining and the function separated.
Relative to embodiment one, in the present embodiment, adopting hydraulic cylinder is the driving device promoting device, and the mechanical stability that hydraulic cylinder is higher relative to motor, namely in the idle situation of high-pressure oil pump, the position of the push rod of hydraulic cylinder is difficult to be changed by external force, therefore, adjustable adjustable without abrasion clutch not only deciliter speed in present embodiment deciliter speed, and without abrasion function, and there is high stability, thus ensure the control accuracy of clutch.
The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to make or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, all in like manner include in scope of patent protection of the present utility model.
Claims (3)
1. a clutch speed is adjustable without abrasion clutch, it is characterised in that including: power shaft, interior magnet rotor, outer magnet rotor, output shaft and clutch pushing device;
Described interior magnet rotor power is connected to described output shaft, described outer magnet rotor power is connected to described power shaft, described interior magnet rotor and outer magnet rotor are set in turn on same axis, outer magnet rotor is provided with the circular inner groovy suitable with the cross section of interior magnet rotor relative to the end face of interior magnet rotor, the periphery of interior magnet rotor is provided with the first high-magnetic-density magnetic sheet, and the inner ring of the inner groovy of outer magnet rotor is provided with the second high-magnetic-density magnetic sheet relative with described first high-magnetic-density magnetic sheet;
Described clutch pushing device is connected to described outer magnet rotor, and clutch pushing device includes: motor, briquetting, axial thrust bearing, catch and spring;
The rotating shaft of described motor is provided with screw thread, described briquetting is threadedly connected on machine shaft, described briquetting is connected to described outer magnet rotor by described axial thrust bearing, described catch is arranged at input the tip of the axis, described spring housing is located on described power shaft, one end of spring is connected to described outer magnet rotor, and the other end is connected to described catch.
2. clutch speed according to claim 1 is adjustable without abrasion clutch, it is characterised in that described outer magnet rotor is connected on described power shaft by what long spline can axially slide relative, and described interior magnet rotor is connected by flat key and output shaft are fixing.
3. clutch speed according to claim 1 is adjustable without abrasion clutch, it is characterised in that on described interior magnet rotor, the number of the first high-magnetic-density magnetic sheet is equal with the number of the second high-magnetic-density magnetic sheet on outer magnet rotor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520966146.1U CN205315550U (en) | 2015-11-27 | 2015-11-27 | Separation and reunion speed adjustable does not have wearing and tearing clutch |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520966146.1U CN205315550U (en) | 2015-11-27 | 2015-11-27 | Separation and reunion speed adjustable does not have wearing and tearing clutch |
Publications (1)
Publication Number | Publication Date |
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CN205315550U true CN205315550U (en) | 2016-06-15 |
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Family Applications (1)
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CN201520966146.1U Expired - Fee Related CN205315550U (en) | 2015-11-27 | 2015-11-27 | Separation and reunion speed adjustable does not have wearing and tearing clutch |
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CN (1) | CN205315550U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115674097A (en) * | 2022-10-24 | 2023-02-03 | 韶关学院 | Temporary fastener based on rigid expansion sleeve |
-
2015
- 2015-11-27 CN CN201520966146.1U patent/CN205315550U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115674097A (en) * | 2022-10-24 | 2023-02-03 | 韶关学院 | Temporary fastener based on rigid expansion sleeve |
CN115674097B (en) * | 2022-10-24 | 2023-09-01 | 韶关学院 | Temporary fastener based on rigid expansion sleeve |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160615 Termination date: 20161127 |
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CF01 | Termination of patent right due to non-payment of annual fee |