CN102943857B - F1:2/S1:1 transmission device - Google Patents
F1:2/S1:1 transmission device Download PDFInfo
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- CN102943857B CN102943857B CN201210291400.3A CN201210291400A CN102943857B CN 102943857 B CN102943857 B CN 102943857B CN 201210291400 A CN201210291400 A CN 201210291400A CN 102943857 B CN102943857 B CN 102943857B
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Abstract
Name of the present invention is called F1:2/S1:1 transmission device, belongs to Mechanics of Machinery and technical field of hydraulic pressure.For can the unequal problem of distance of labour-saving lever A, B two ends movement under the effect of power in traditional Mechanics of Machinery, F1:2/S1:1 transmission device, with tooth section gear, power size is acted on respectively unchangeably and can hold by labour-saving lever A, the equilibrant that B end produces keeps equilibrant and increases B holding the distance moved up in the side of equilibrant by hydraulic pressure installation, gather equilibrant with tooth section gear again, thus make to hold the distance moved up in the side of equilibrant to hold the distance moved up in the side of power equal with A by labour-saving lever B.Between power engine and working machine, do transmission, mechanical force is applied.
Description
1, denomination of invention:
transmission device
F represents power, and S represents distance.
3, background technique:
2, art: (1) Mechanics of Machinery (2) hydraulics
(1) lever is mainly used to direction that is laborsaving or change power;
(2) liquid in the container of sealing, can be added in pressure size above it unchangeably to all directions transmission external force.
4, summary of the invention:
(3)
transmission device, with can labour-saving lever force-saving obtain equilibrant (resistance that can overcome), the size maintaining equilibrant with the pressure of liquid is constant, by the plasticity of the liquid of imparting pressure, increases resistance arm B and holds the distance moved up in the side of equilibrant.
(1) problem that will solve
Can labour-saving lever, the unequal problem of distance of A, B two ends (force) movement under the effect of power.
Such as:
Can labour-saving lever, power arm OA length is 2, and when resistance arm OB length is 1, its equilibrium conditions is that to hold power to be the equilibrant (resistance) of 1, B end be 2 to A; Under the effect of power, when A end (force) moves distance 1, B end (force) displacement distance is then
namely the distance of A, B two ends (force) movement is unequal.
(2) technological scheme of dealing with problems:
Dynamic action in can displacement distance 1, B be held to hold the equilibrant produced to directly act on the powered plug of seal container by labour-saving lever A, the distance of powered plug movement be that A holds displacement distance
equal the distance that B holds movement.Powered plug to the pressure of liquid by liquid transfer to flexible tube head.The cross-section area bearing pressure driving inside flexible tube head is equal with the cross-section area of powered plug liquid being applied to pressure.Because pressure size is constant, so the power of flexible tube head movement just equals the equilibrant acting on powered plug movement.The cross-section area of telescopic pipe (containing thickness of pipe wall) is the cross-section area of powered plug
the distance of telescopic pipe (head) movement is exactly 2 times of powered plug displacement distance, equals the distance 1 that lever A holds movement.The liquid of powered plug turnover zone is just filled into telescopic pipe and stretches out the space abdicated.
5, the concrete mode implementing technological scheme
(1) construct identical two uncinus section gears (being called for short tooth section wheel) two, one that holds arcuation tooth section to coordinate with lever A is motive power wheel, and another coordinates with power teeth section on driving rack, is resistance wheel.
The centre of wheel is belt grooves, the wheel rim of belt grooves both sides is respectively established tooth section and anodontia section, and tooth section is higher than anodontia section, and concavity arranges.I.e. tooth section---anodontia section---tooth section---anodontia section.Tooth section in two side flange and anodontia section stagger, and namely tooth section in side aims at anodontia section of opposite side.
The circumference of two wheels is equal.The segment length of tooth section and anodontia section respectively equals the length that lever A holds arcuation tooth section, is 1.
(2) constructing identical power arm OA length is 2, and resistance arm OB length is the lever second mate of 1.A end is arcuation tooth section, and segment length is 1, represents that lever A holds the distance of movement under dynamic action, coordinates with power gear teeth section.B end is slot-type openings shape, coordinates with the powered plug in seal container.
(3) construct identical seal container two and overlap [note: full name, the hydraulic pressure installation of equivalent of 2: 1, refers in particular to: the 1. cross-section area 2 of powered plug and the ratio of the cross-section area 1 of telescopic pipe (containing thickness of pipe wall); 2. the stroke 2 of telescopic pipe and the ratio of the stroke 1 of powered plug; 3. the stroke space value of powered plug is equal with the ratio of the stroke space value of telescopic pipe, is called for short seal container or hydraulic pressure installation].Be made up of powered plug, main container body (cylinder), built-in telescopic pipe (stretching out main container body is then a part for container), the flexible tube head of interior sky, container neck.
The cross-section area of powered plug is equal with the cross-section area inside flexible tube head, and the cross-section area of telescopic pipe (containing thickness of pipe wall) is the cross-section area of powered plug
During original static, the span of the cross section of powered plug and the cross section of telescopic pipe is that lever A holds arcuation tooth segment length
equal the distance that B holds movement.
One end of flexible tube head is fixedly connected with telescopic pipe, and the other end is fixedly connected with driving rack seat.
(4) construct identical driving rack two, be made up of tooth bar and tooth bar seat.
Tooth section is established on driving rack two sides.One side coordinates with resistance gear teeth section, is power teeth section; Another side coordinates with timing reset gear, is reset tooth section.
Power teeth section is equal with the segment length of reset tooth section, also holds arcuation tooth segment length 1 isometric with lever A.
(5) timing reset gear one, is also intermediary wheel.The centre of the reset tooth section on two driving racks, coordinates two driving racks to do mutually reverse movement.Its diameter is determined according to the span between two sections of reset tooth sections.
(6) frame one pair or the transmission case one of support is with
(7) component configuration with coordinate (for frame)
Two auxiliary levers are installed on the same fulcrum shaft of frame both sides respectively;
Motive power wheel is installed in the frame of lever A end, and the tooth section in two side flange successively coordinates with the arcuation tooth section of homonymy respectively;
The container of two cover sealings is installed in the frame of lever B end respectively, and powered plug coordinates with B end slot shape opening is dynamic;
One end of flexible tube head is fixedly connected with the telescopic pipe of propelling container neck, and the other end is fixedly connected with driving rack seat;
Timing reset gear (longitudinal direction) is arranged in the frame between two driving racks, coordinates with the reset tooth section of both sides;
Resistance wheel is installed in the frame on the right side of driving rack, and the tooth section in two side flange successively coordinates with the power teeth section on the driving rack of homonymy respectively.
(8) working procedure:
Under the effect of power, dynamic action first holds arcuation tooth section to move down in the side lever A corresponding with it by the tooth section on motive power wheel (turning clockwise), at this moment the powered plug on seal container applies pressure by the effect of equilibrant to liquid, pressure is delivered to flexible tube head by liquid, flexible tube head traction telescopic pipe stretches out and pushes on driving rack and moves, and power teeth section is by transmission of power to the tooth section of resistance wheel (turning clockwise).Meanwhile, reset tooth section driving timing reseting gear, the driving rack making opposite side be positioned at anodontia section of resistance wheel moves down, telescopic pipe returns in main molten body, powered plug is delivered to the pressure that liquid applies, powered plug pushes lever B end and moves down, and makes the A being in anodontia section of motive power wheel hold arcuation tooth section to reset.Due to arcuation tooth section, the flexible stroke of telescopic pipe, power teeth section that the tooth section on motive power wheel, lever A hold, tooth section on resistance wheel, their length is all equal, so resistance wheel moves up in the side of equilibrant, move up in the side of the power distance of (rotation) of distance and the motive power wheel of (rotation) is synchronous equal.
(9) this transmission device in actual applications should two covers above (containing two covers) combine application.
(10) in denomination of invention
be only example, occur in other file
too.F1: 2 reflections be the equilibrium conditions of this lever; S1: 1, the former 1 refers to that lever A holds the distance of movement, and the latter 1 refers to the distance of telescopic pipe (head) movement under the liquid driven being endowed pressure, and getting 1: 1 is in order to the mutual correspondence between them.
Claims (1)
1.
transmission device, F represents power, and S represents distance;
F1:2 reflection be the equilibrium conditions of lever; S1:1, the former 1 refers to that lever A holds the distance of movement, and the latter 1 refers to the distance of the flexible tube head movement under the liquid driven being endowed pressure;
Construct identical two uncinus section gears two, one that holds arcuation tooth section to coordinate with lever A is motive power wheel, and another coordinates with power teeth section on driving rack, is resistance wheel;
Constructing identical power arm OA length is 2, and resistance arm OB length is the lever second mate of 1, and lever A holds as arcuation tooth section, coordinates with power gear teeth section, and lever B holds as slot-type openings shape, coordinates with the powered plug in seal container;
Construct identical seal container two to overlap, be made up of powered plug, main container body cylinder, built-in telescopic pipe, the flexible tube head of interior sky, container neck;
The cross-section area of powered plug is equal with the cross-section area inside flexible tube head, and telescopic pipe is the cross-section area of powered plug containing the cross-section area of thickness of pipe wall
During original static, the span of the cross section of powered plug and the cross section of telescopic pipe is that lever A holds arcuation tooth segment length
equal the distance that lever B holds movement;
Construct identical driving rack two, be made up of tooth bar and tooth bar seat, tooth section is established on tooth bar two sides, and one side coordinates with resistance gear teeth section, is power teeth section; Another side coordinates with timing reset gear, is reset tooth section;
Timing reset gear one, is also intermediary wheel, the centre of the reset tooth section on two driving racks, coordinates two driving racks to do mutually reverse movement;
Two auxiliary levers are installed on the same fulcrum shaft of frame both sides respectively;
Motive power wheel is installed in the frame of lever A end, and the tooth section in two side flange successively coordinates with the arcuation tooth section of homonymy respectively;
The container of two cover sealings is installed in the frame of lever B end respectively, and powered plug coordinates with lever B end slot shape opening is dynamic;
One end of flexible tube head is connected with telescopic pipe, and the other end is connected with driving rack seat;
Timing reset gear is longitudinally arranged in the frame between two driving racks, coordinates with the reset tooth section of both sides;
Resistance wheel is installed in the frame on the right side of driving rack, and the tooth section in two side flange successively coordinates with the power teeth section on the driving rack of homonymy respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201210291400.3A CN102943857B (en) | 2012-08-08 | 2012-08-08 | F1:2/S1:1 transmission device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210291400.3A CN102943857B (en) | 2012-08-08 | 2012-08-08 | F1:2/S1:1 transmission device |
Publications (2)
Publication Number | Publication Date |
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CN102943857A CN102943857A (en) | 2013-02-27 |
CN102943857B true CN102943857B (en) | 2016-02-03 |
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ID=47726827
Family Applications (1)
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CN201210291400.3A Expired - Fee Related CN102943857B (en) | 2012-08-08 | 2012-08-08 | F1:2/S1:1 transmission device |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1224117A (en) * | 1998-11-23 | 1999-07-28 | 邱金和 | Power unit |
CN1409004A (en) * | 2001-10-01 | 2003-04-09 | 姚实现 | Machine for using buoyancy and gravity |
CN202048158U (en) * | 2011-04-25 | 2011-11-23 | 唐树成 | Damping device |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100391644B1 (en) * | 2000-12-28 | 2003-07-12 | 현대자동차주식회사 | shift control system for automatic transmission |
US20060060016A1 (en) * | 2004-09-20 | 2006-03-23 | Mazza Gerald P | Power conversion system |
-
2012
- 2012-08-08 CN CN201210291400.3A patent/CN102943857B/en not_active Expired - Fee Related
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1224117A (en) * | 1998-11-23 | 1999-07-28 | 邱金和 | Power unit |
CN1409004A (en) * | 2001-10-01 | 2003-04-09 | 姚实现 | Machine for using buoyancy and gravity |
CN202048158U (en) * | 2011-04-25 | 2011-11-23 | 唐树成 | Damping device |
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Granted publication date: 20160203 Termination date: 20210808 |