A kind of centrifugal speed control formula rotary part middle section attachment device
Technical field
The present invention relates to middle section interconnection technique fields, specially a kind of centrifugal speed control formula rotary part middle section connection dress
It sets.
Background technique
Currently, existing middle section attachment device is all the single connecting plate type connection of structure mostly, functionality is not had,
And in some specific connecting portions, certain functionality is needed, wherein preventing speed just comprising the control action for speed
The generation of accident caused by too fast, and existing control device is all electronic equipment, cost, use cost and maintenance
Cost is relatively high, and limitation is bigger.
Summary of the invention
The purpose of the present invention is to provide a kind of centrifugal speeds to control formula rotary part middle section attachment device, above-mentioned to solve
The problem of being proposed in background technique.
To achieve the above object, the invention provides the following technical scheme: a kind of centrifugal speed controls formula rotary part middle section
Attachment device, including main rotating shaft mounting blocks and secondary rotary shaft mounting blocks, the main rotating shaft mounting blocks and secondary rotary shaft installation
The top of bottom plane brace type rotary shaft installation positioning mechanism, the main rotating shaft mounting blocks and pair are mounted on the outside of block
One end face center of rotary shaft mounting blocks is respectively arranged with driving rotation shaft mounting hole and driven rotation shaft mounting hole, the main rotation
The other end center of shaft mounting blocks and secondary rotary shaft mounting blocks is separately installed with the first rotary shaft and the second rotary shaft, described
The axis body in the first rotary shaft middle section is socketed in the inside of a main shaft body case, and the main shaft body case is provided centrally with main peace
Hole is filled, is fixedly connected between the main mounting hole and the first rotary shaft by base bearing, the side installation of the main shaft body case
There are the hinges of multiple circular array settings, the movable end of each hinges is respectively mounted a master link, described
The end of master link is equipped with heavy ball, and the body of rod in the master link middle section is connected with vice connecting rod by hinges,
The end of the vice connecting rod is mounted on the outside of a countershaft body case by hinges, and the center of the countershaft body case is set
It is equipped with secondary mounting hole, the inside of the pair mounting hole is inserted by the axis body of the first rotary shaft, one on the outside of the countershaft body case
End is mounted on the inside of a main hollow shell by base bearing, and the main hollow shell is internally provided with main hollow structure,
First rotary shaft installs a main limit plate, the end of the main hollow shell in the one end being located inside the main hollow structure
Portion install a helical spring can horizontal moving maximum rotation status transmit control mechanism, the helical spring can horizontal moving
Maximum rotation status transmitting control mechanism and the second rotary shaft are in opposite end one separate combination type rotation portion docking mechanism of installation.
Further, the bottom plane brace type rotary shaft installation positioning mechanism includes bottom plane brace type rotary shaft
Positioning mechanism bottom supporting substrate is installed, bottom plane brace type rotary shaft installs positioning mechanism first support bar, bottom
Planar supporting type rotary shaft installs positioning mechanism second support bar, bottom plane brace type rotary shaft installation positioning mechanism with the
One axle sleeve shell, bottom plane brace type rotary shaft installation the second axle sleeve shell of positioning mechanism, the rotation of bottom plane brace type
Axis installs the first centre bore of positioning mechanism, bottom plane brace type rotary shaft installs positioning mechanism the second centre bore, bottom
Planar supporting type rotary shaft installs positioning mechanism bearing, bottom plane brace type rotary shaft installs positioning mechanism third axle sleeve
Shell and bottom plane brace type rotary shaft install positioning mechanism third centre bore;The bottom plane brace type rotary shaft peace
Dress positioning mechanism is respectively mounted bottom plane brace type rotary shaft installation positioning mechanism with the two sides of bottom supporting substrate upper surface
It is installed respectively with the top of first support bar, the two bottom plane brace type rotary shaft installation positioning mechanism first support bars
There are bottom plane brace type rotary shaft installation the first axle sleeve shell of positioning mechanism and the installation of bottom plane brace type rotary shaft fixed
The second axle sleeve shell of position mechanism, the bottom plane brace type rotary shaft install positioning mechanism the first axle sleeve shell and bottom
Planar supporting type rotary shaft installs positioning mechanism and is respectively arranged with bottom plane brace type rotary shaft with the second axle sleeve interior of shell
The first centre bore of positioning mechanism is installed and bottom plane brace type rotary shaft installs the second centre bore of positioning mechanism, the bottom
Facial planes brace type rotary shaft installs the first centre bore of positioning mechanism and bottom plane brace type rotary shaft installs positioning mechanism
Bottom plane brace type rotary shaft installation positioning mechanism bearing, the bottom plane are mounted on the both ends of the second centre bore
The middle part that brace type rotary shaft installs positioning mechanism bottom supporting substrate upper surface is installed by one bottom plane brace type rotary shaft
Positioning mechanism second support bar, the top of the bottom plane brace type rotary shaft installation positioning mechanism second support bar are installed
One bottom plane brace type rotary shaft is installed, positioning mechanism third axle sleeve shell, the bottom plane brace type rotation are installed in portion
Axis installs positioning mechanism and third axle sleeve interior of shell is provided with bottom plane brace type rotary shaft installation positioning mechanism third
Centre bore.
Further, the bottom plane brace type rotary shaft installs positioning mechanism the first centre bore and bottom plane branch
Support formula rotary shaft installs positioning mechanism and installs positioning mechanism axis with the bottom plane brace type rotary shaft inside the second centre bore
It holds inner ring and is separately installed with main rotating shaft mounting blocks and secondary rotary shaft mounting blocks.
Further, the bottom plane brace type rotary shaft installation positioning mechanism is flat with the bottom in third axle sleeve shell
Main hollow shell is installed inside face brace type rotary shaft installation positioning mechanism third centre bore, and the bottom plane supports
The structure radius that formula rotary shaft installs positioning mechanism third centre bore is greater than the main hollow shell structure radius 0.1-0.5 milli
Rice.
Further, the helical spring can horizontal moving maximum rotation status transmitting control mechanism include helical spring
Can horizontal moving maximum rotation status transmitting control mechanism hollow rod body, helical spring can horizontal moving maximum it is contorted
State transmit control mechanism connecting plate, helical spring can horizontal moving maximum rotation status transmitting control mechanism bolt hole,
Helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow structure, helical spring can horizontal moving most
Big rotation status transmitting control mechanism through-hole structure, helical spring can horizontal moving maximum rotation status transmitting control mechanisms
With strip groove structure, helical spring can horizontal moving maximum rotation status transmit control mechanism movable plate, helical spring
Can horizontal moving maximum rotation status transmitting control mechanism telescopic rod, helical spring can horizontal moving maximum rotation status
It transmits control mechanism hemisphere jut structure and helical spring can horizontal moving maximum rotation status transmitting control mechanism spiral shell
Revolve spring;The helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow rod body inside center set
Be equipped with helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow structure, the helical spring can be lateral
Mobile maximum rotation status transmitting control mechanism hollow rod body be located at the helical spring can the rotation of horizontal moving maximum
The helical spring for being internally provided with multiple circular arrays for turning state transmitting control mechanism hollow structure can horizontal moving
Maximum rotation status transmits control mechanism strip groove structure, and the helical spring can horizontal moving maximum rotation status biography
Pass control mechanism hollow rod body one end be provided centrally with helical spring can horizontal moving maximum rotation status transmitting control
Mechanism through-hole structure, the helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow structure in
Portion install a helical spring can horizontal moving maximum rotation status transmit control mechanism movable plate, the helical spring can be horizontal
Installing a helical spring to one end center of mobile maximum rotation status transmitting control mechanism movable plate can horizontal moving
Maximum rotation status transmits control mechanism telescopic rod, and the helical spring can the transmitting control of horizontal moving maximum rotation status
The body of rod of mechanism telescopic rod through helical spring can horizontal moving maximum rotation status transmit control mechanism through-hole structure,
And the helical spring can horizontal moving maximum rotation status transmitting control mechanism telescopic rod be located at helical spring can be horizontal
Installation one is in the spiral shell of compressive state on the body of rod inside mobile maximum rotation status transmitting control mechanism hollow structure
Revolve spring can horizontal moving maximum rotation status transmit control mechanism helical spring, the helical spring can horizontal moving
The helical spring that the side of maximum rotation status transmitting control mechanism movable plate is provided with multiple circular array settings can be horizontal
Control mechanism hemisphere jut structure is transmitted to mobile maximum rotation status, and helical spring can the rotation of horizontal moving maximum
The corresponding helical spring that is inserted into of state transmitting control mechanism hemisphere jut structure can the transmitting of horizontal moving maximum rotation status
The inside of control mechanism strip groove structure, the helical spring can horizontal moving maximum rotation status transmitting control mechanisms
Installing a helical spring with the end of hemisphere jut structure can the transmitting control mechanism connection of horizontal moving maximum rotation status
Plate, the helical spring can horizontal moving maximum rotation status transmitting control mechanism connecting plate be internally provided with multiple spiral shells
Revolving spring can horizontal moving maximum rotation status transmitting control mechanism bolt hole.
Further, the helical spring can horizontal moving maximum rotation status transmitting control mechanism strip groove knot
The construction profile and size of structure cross section and the helical spring can horizontal moving maximum rotation status transmitting control mechanism use
The construction profile and size of hemisphere jut feature cross-section correspond to identical.
Further, the helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow rod body bottom
Portion center and helical spring can horizontal moving maximum rotation status transmitting control mechanism connecting plate respectively with separate combination type
Rotation portion docking mechanism one end is fixedly connected with main hollow shell end.
Further, the separate combination type rotation portion docking mechanism includes separate combination type rotation portion docking mechanism
It is used with driving plectane, the driven plectane of separate combination type rotation portion docking mechanism, separate combination type rotation portion docking mechanism
Main shaft mounting hole, separate combination type rotation portion docking mechanism countershaft body mounting hole, the docking of separate combination type rotation portion
Mechanism semi-cylindrical hill structure and separate combination type rotation portion docking mechanism semi-circular recesses structure;The separation combination
Formula rotation portion docking mechanism is used in the one end of driving plectane and separate combination type rotation portion docking mechanism with driven plectane
The heart is respectively arranged with separate combination type rotation portion docking mechanism main shaft mounting hole and the docking of separate combination type rotation portion
Mechanism countershaft body mounting hole, the separate combination type rotation portion docking mechanism are provided with more with the other end of driving plectane
It is a about separate combination type rotation portion docking mechanism with driving plectane axial line be the center of circle circular array setting separation group
Box-like rotation portion docking mechanism semi-cylindrical hill structure, the driven plectane of the separate combination type rotation portion docking mechanism
To be provided with multiple about separate combination type rotation portion docking mechanism be the center of circle in ring with driven plectane axial line for other end
The separate combination type rotation portion docking mechanism semi-circular recesses structure of shape array setting, and each separate combination type rotation
Transfer part position docking mechanism semi-cylindrical hill structure is semicircle for being inserted into a separate combination type rotation portion docking mechanism
The inside of groove structure.
Further, the structure radius of separate combination type rotation portion docking mechanism semi-cylindrical hill structure and point
It is consistent with the structure radius of semi-circular recesses structure from Assembled rotary position docking mechanism.
Further, separate combination type rotation portion docking mechanism main shaft mounting hole and separate combination type rotation
Position docking mechanism is separately installed with helical spring with the inside of countershaft body mounting hole can horizontal moving maximum rotation status biography
Pass one end of control mechanism hollow rod body and one end of the second rotary shaft.
Compared with prior art, the beneficial effects of the present invention are: the present invention has the middle section linkage function of rotary shaft, together
When, using centrifugal principle, the maximum speed of rotary shaft when rotated can be effectively controlled, once there are excessive velocities, the dress
It sets and can be realized timely disconnection effect, prevent the generation for continuing to rotate caused accident, moreover, the device is flat with bottom
Face brace type rotary shaft installs positioning mechanism, can smoothly fix rotary shaft, to realize smoothly rotation
Transfer function, in addition, the device have helical spring can horizontal moving maximum rotation status transmit control mechanism, utilize spiral
The elasticity of spring can effectively control the maximum rotary driving force degree when rotation under the premise of realizing the transmitting of transmitting state, from
And its maximum rotative speed is controlled, in addition, the device has separate combination type rotation portion docking mechanism, it can be in different conditions
Lower realization independent assortment and isolated effect, to realize the effect of driving and pause driving.
Detailed description of the invention
Fig. 1 is the complete section structural schematic diagram that a kind of centrifugal speed of the present invention controls formula rotary part middle section attachment device;
Fig. 2 is that a kind of centrifugal speed of the present invention controls bottom plane brace type rotary shaft peace in the attachment device of formula rotary part middle section
Fill the structural schematic diagram of positioning mechanism;
Fig. 3 be a kind of centrifugal speed of the present invention control in the attachment device of formula rotary part middle section helical spring can horizontal moving most
The structural schematic diagram of big rotation status transmitting control mechanism;
Fig. 4 is that a kind of centrifugal speed of the present invention controls separate combination type rotation portion docking in the attachment device of formula rotary part middle section
The structural schematic diagram of mechanism;
In figure: 1, main rotating shaft mounting blocks, 2, secondary rotary shaft mounting blocks, 3, driving rotation shaft mounting hole, 4, driven rotary shaft peace
Fill hole, 5, the first rotary shaft, 6, the second rotary shaft, 7, bottom plane brace type rotary shaft installation positioning mechanism, 71, bottom plane
Brace type rotary shaft installation positioning mechanism bottom supporting substrate, 72, bottom plane brace type rotary shaft is installed positioning mechanism and is used
First support bar, 73, bottom plane brace type rotary shaft installation positioning mechanism second support bar, 74, bottom plane brace type
Rotary shaft installation the first axle sleeve shell of positioning mechanism, 75, bottom plane brace type rotary shaft installs the second axis of positioning mechanism
Set shell, 76, bottom plane brace type rotary shaft installation the first centre bore of positioning mechanism, 77, the rotation of bottom plane brace type
Axis installation the second centre bore of positioning mechanism, 78, bottom plane brace type rotary shaft installation positioning mechanism bearing, 79, bottom
Planar supporting type rotary shaft installation positioning mechanism third axle sleeve shell, 710, bottom plane brace type rotary shaft installs localization machine
Structure third centre bore, 8, main limit plate, 9, main shaft body case, 11, main mounting hole, 12, base bearing, 13, hinges, 14,
Master link, 15, heavy ball, 16, countershaft body case, 17, secondary mounting hole, 18, vice connecting rod, 19, main hollow shell, 20 are main
Hollow structure, 21, helical spring can horizontal moving maximum rotation status transmit control mechanism, 211, helical spring can move laterally
Dynamic formula maximum rotation status transmitting control mechanism hollow rod body, 212, helical spring can horizontal moving maximum rotation status biography
Pass control mechanism connecting plate, 213, helical spring can horizontal moving maximum rotation status transmit control mechanism bolt hole,
214, helical spring can horizontal moving maximum rotation status transmit control mechanism hollow structure, 215, helical spring can be lateral
Mobile maximum rotation status transmitting control mechanism through-hole structure, 216, helical spring can horizontal moving maximum rotation status
Transmitting control mechanism strip groove structure, 217, helical spring can horizontal moving maximum rotation status transmitting control mechanism use
Movable plate, 218, helical spring can horizontal moving maximum rotation status transmit control mechanism telescopic rod, 219, helical spring
Can horizontal moving maximum rotation status transmit control mechanism hemisphere jut structure, 2110, helical spring can horizontal moving
Maximum rotation status transmits control mechanism helical spring, 22, and helical spring can the transmitting control of horizontal moving maximum rotation status
Mechanism processed, 221, separate combination type rotation portion docking mechanism driving plectane, 222, separate combination type rotation portion docking machine
The driven plectane of structure, 223, separate combination type rotation portion docking mechanism main shaft mounting hole, 224, separate combination type rotation
Position docking mechanism countershaft body mounting hole, 225, separate combination type rotation portion docking mechanism semi-cylindrical hill structure,
226, separate combination type rotation portion docking mechanism semi-circular recesses structure.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Referring to Fig. 1, a kind of embodiment provided by the invention: including main rotating shaft mounting blocks 1 and secondary rotary shaft mounting blocks
2, the outside of the main rotating shaft mounting blocks 1 and secondary rotary shaft mounting blocks 2 is mounted on bottom plane brace type rotary shaft installation
One end face center of the top of positioning mechanism 7, the main rotating shaft mounting blocks 1 and secondary rotary shaft mounting blocks 2 is respectively arranged with drive
Dynamic rotation shaft mounting hole 3 and driven rotation shaft mounting hole 4, the main rotating shaft mounting blocks 1 are another with secondary rotary shaft mounting blocks 2
End face center is separately installed with the first rotary shaft 5 and the second rotary shaft 6, and the axis body in 5 middle section of the first rotary shaft is socketed in one
The inside of main shaft body case 9, and the main shaft body case 9 is provided centrally with main mounting hole 11, the main mounting hole 11 and
It is fixedly connected between one rotary shaft 5 by base bearing 12, the side of the main shaft body case 9 is equipped with multiple circular arrays and sets
The hinges 13 set, the movable end of each hinges 13 are respectively mounted a master link 14, the master link 14
End is equipped with heavy ball 15, and the body of rod in 14 middle section of master link is connected with vice connecting rod 18, institute by hinges 13
The end for stating vice connecting rod 18 is mounted on the outside of a countershaft body case 16 by hinges 13, the countershaft body case 16
It is provided centrally with secondary mounting hole 17, the inside of the pair mounting hole 17 is inserted by the axis body of the first rotary shaft 5, and the countershaft is external
The one end in 16 outside of shell is mounted on the inside of a main hollow shell 19, and the inside of the main hollow shell 19 by base bearing 12
It is provided with main hollow structure 20, first rotary shaft 5 installs a main limit in the one end being located inside the main hollow structure 20
Position plate 8, a helical spring is installed in the end of the main hollow shell 19 can horizontal moving maximum rotation status transmitting control machine
Structure 21, the helical spring can horizontal moving maximum rotation status transmitting control mechanism 21 and the second rotary shaft 6 in opposite end
One separate combination type rotation portion docking mechanism 22 is installed.
Referring to Fig. 2, the bottom plane brace type rotary shaft installation positioning mechanism 7 is rotated including bottom plane brace type
Axis installs positioning mechanism bottom supporting substrate 71, bottom plane brace type rotary shaft installs positioning mechanism first support bar
72, bottom plane brace type rotary shaft installation positioning mechanism second support bar 73, the installation of bottom plane brace type rotary shaft are fixed
The first axle sleeve shell 74 of position mechanism, bottom plane brace type rotary shaft install positioning mechanism the second axle sleeve shell 75, bottom
Planar supporting type rotary shaft installs the first centre bore 76 of positioning mechanism, bottom plane brace type rotary shaft installation positioning mechanism is used
Second centre bore 77, bottom plane brace type rotary shaft installation positioning mechanism bearing 78, bottom plane brace type rotary shaft peace
It fills positioning mechanism third axle sleeve shell 79 and bottom plane brace type rotary shaft installs positioning mechanism third centre bore 710;
The bottom plane brace type rotary shaft installation positioning mechanism is respectively mounted a bottom with the two sides of 71 upper surface of bottom supporting substrate
Planar supporting type rotary shaft installs positioning mechanism first support bar 72, the two bottom plane brace type rotary shaft installation positioning
Mechanism is separately installed with bottom plane brace type rotary shaft installation the first axle sleeve of positioning mechanism with the top of first support bar 72
Shell 74 and bottom plane brace type rotary shaft install the second axle sleeve shell 75 of positioning mechanism, the bottom plane brace type rotation
Shaft installs the first axle sleeve shell 74 of positioning mechanism and bottom plane brace type rotary shaft installs the second axle sleeve of positioning mechanism
Bottom plane brace type rotary shaft installation positioning mechanism the first centre bore 76 and bottom plane are respectively arranged with inside shell 75
Brace type rotary shaft installs the second centre bore 77 of positioning mechanism, and the bottom plane brace type rotary shaft installation positioning mechanism is used
First centre bore 76 and bottom plane brace type rotary shaft install positioning mechanism and are mounted on bottom with the both ends of the second centre bore 77
Facial planes brace type rotary shaft installs positioning mechanism bearing 78, and the bottom plane brace type rotary shaft installation positioning mechanism is used
One bottom plane brace type rotary shaft is installed, positioning mechanism second support bar is installed in the middle part of 71 upper surface of bottom supporting substrate
73, bottom plane support is installed at the top of the bottom plane brace type rotary shaft installation positioning mechanism second support bar 73
Formula rotary shaft installs positioning mechanism third axle sleeve shell 79, and bottom plane brace type rotary shaft installation positioning mechanism is with the
Three axle sleeve shells 79 are internally provided with bottom plane brace type rotary shaft installation positioning mechanism third centre bore 710;The bottom
Facial planes brace type rotary shaft installs the first centre bore 76 of positioning mechanism and bottom plane brace type rotary shaft installs localization machine
Structure is separately installed with the bottom plane brace type rotary shaft installation positioning mechanism inside the second centre bore 77 with 78 inner ring of bearing
Main rotating shaft mounting blocks 1 and secondary rotary shaft mounting blocks 2;The bottom plane brace type rotary shaft installs positioning mechanism third axis
It is equipped with inside bottom plane brace type rotary shaft installation positioning mechanism third centre bore 710 in set shell 79 main hollow outer
Shell 9, and the structure radius of bottom plane brace type rotary shaft installation positioning mechanism third centre bore 710 is greater than the master
0.1-0.5 millimeters of 9 structure radius of hollow shell, main function is: can be to main rotating shaft mounting blocks 1 and secondary rotary shaft installation
Block 2 is defined effect, meanwhile, and main hollow shell 9 can be prevented to be detached from.
Referring to Fig. 3, the helical spring can horizontal moving maximum rotation status transmitting control mechanism 21 include spiral
Spring can horizontal moving maximum rotation status transmitting control mechanism hollow rod body 211, helical spring can horizontal moving most
Big rotation status transmitting control mechanism connecting plate 212, helical spring can horizontal moving maximum rotation status transmitting control machines
Structure bolt hole 213, helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow structures 214, spiral
Spring can horizontal moving maximum rotation status transmitting control mechanism through-hole structure 215, helical spring can horizontal moving most
Big rotation status transmitting control mechanism strip groove structure 216, helical spring can the transmitting of horizontal moving maximum rotation status
Control mechanism movable plate 217, helical spring can horizontal moving maximum rotation status transmitting control mechanism telescopic rod 218,
Helical spring can horizontal moving maximum rotation status transmitting control mechanism hemisphere jut structure 219 and helical spring can be lateral
Mobile maximum rotation status transmits control mechanism helical spring 2110;The helical spring can the rotation of horizontal moving maximum
The helical spring that is provided centrally with that state transmits inside control mechanism hollow rod body 211 can horizontal moving maximum rotation status
Control mechanism hollow structure 214 is transmitted, the helical spring can horizontal moving maximum rotation status transmitting control mechanism use
Hollow rod body 211 be located at the helical spring can horizontal moving maximum rotation status transmit control mechanism hollow structure
214 helical spring for being internally provided with multiple circular arrays can horizontal moving maximum rotation status transmitting control mechanism use
Strip groove structure 216, the helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow rod bodies 211
One end be provided centrally with helical spring can horizontal moving maximum rotation status transmitting control mechanism through-hole structure 215, institute
State helical spring can horizontal moving maximum rotation status transmitting control mechanism hollow structure 214 inside install a spiral bullet
Spring can horizontal moving maximum rotation status transmit control mechanism movable plate 217, the helical spring can horizontal moving most
A helical spring is installed at one end center of big rotation status transmitting control mechanism movable plate 217 can the rotation of horizontal moving maximum
State transmits control mechanism telescopic rod 218, and the helical spring can horizontal moving maximum rotation status transmitting control mechanism
It can horizontal moving maximum rotation status transmitting control mechanism through-hole structure through helical spring with the body of rod of telescopic rod 218
215, and the helical spring can horizontal moving maximum rotation status transmitting control mechanism telescopic rod 218 be located at spiral bullet
Spring can horizontal moving maximum rotation status transmitting control mechanism hollow structure 214 inside the body of rod on installation one in compress
The helical spring of state can horizontal moving maximum rotation status transmit control mechanism helical spring 2110, the helical spring
Can horizontal moving maximum rotation status transmitting control mechanism the side of movable plate 217 be provided with multiple circular arrays be arranged
Helical spring can horizontal moving maximum rotation status transmit control mechanism hemisphere jut structure 219, and helical spring can
The horizontal moving maximum rotation status transmitting correspondence of control mechanism hemisphere jut structure 219, which is inserted into helical spring, laterally to move
Dynamic formula maximum rotation status transmits the inside of control mechanism strip groove structure 216, and the helical spring can horizontal moving
A helical spring is installed in the end of maximum rotation status transmitting control mechanism hemisphere jut structure 219 can horizontal moving maximum
Rotation status transmits control mechanism connecting plate 212, and the helical spring can the transmitting control of horizontal moving maximum rotation status
Multiple helical springs that are internally provided with of mechanism connecting plate 212 can horizontal moving maximum rotation status transmitting control mechanism use
Bolt hole 213;The helical spring can 216 cross of horizontal moving maximum rotation status transmitting control mechanism strip groove structure
The construction profile and size in section and the helical spring can horizontal moving maximum rotation status transmitting control mechanism spherical shapes
The construction profile and size of 219 cross section of bulge-structure correspond to identical;The helical spring can horizontal moving maximum it is contorted
State transmits 211 bottom centre of control mechanism hollow rod body and helical spring can the transmitting control of horizontal moving maximum rotation status
Company is fixed with 11 one end of separate combination type rotation portion docking mechanism and 19 end of main hollow shell respectively with connecting plate 212 by mechanism
It connects, main function is: since helical spring can horizontal moving maximum rotation status transmitting control mechanism helical spring
2110 be compressive state, so can offset with the centrifugal force of generation, when centrifugal force be less than helical spring can horizontal moving most
When the elasticity of big rotation status transmitting control mechanism helical spring 2110, all parts are worked normally, conversely, then separating combination
Formula rotation portion docking mechanism 22 separates, and disconnects transmitting effect.
Referring to Fig. 4, the separate combination type rotation portion docking mechanism 22 is docked including separate combination type rotation portion
Mechanism driving plectane 221, separate combination type rotation portion docking mechanism driven plectane 222, separate combination type rotation portion
Docking mechanism main shaft mounting hole 223, separate combination type rotation portion docking mechanism countershaft body mounting hole 224, separation group
Box-like rotation portion docking mechanism semi-cylindrical hill structure 225 and separate combination type rotation portion docking mechanism are semicircle recessed
Slot structure 226;Separate combination type rotation portion docking mechanism driving plectane 221 and the docking of separate combination type rotation portion
Mechanism is respectively arranged with separate combination type rotation portion docking mechanism with the one end center of driven plectane 222 and is installed with main shaft
Hole 223 and separate combination type rotation portion docking mechanism countershaft body mounting hole 224, the separate combination type rotation portion docking
Mechanism is provided with multiple about separate combination type rotation portion docking mechanism driving plectane with the other end of driving plectane 221
221 axial lines are the separate combination type rotation portion docking mechanism semi-cylindrical hill structure 225 of center of circle circular array setting,
The separate combination type rotation portion docking mechanism is provided with multiple about separate combination type with the other end of driven plectane 222
The rotation portion docking mechanism separate combination type rotation portion pair that driven 222 axial line of plectane is that center of circle circular array is arranged
Connection mechanism semi-circular recesses structure 226, and each separate combination type rotation portion docking mechanism semi-cylindrical hill knot
Structure 225 is for being inserted into the inside of a separate combination type rotation portion docking mechanism semi-circular recesses structure 226;The separation
The structure radius and separate combination type rotation portion docking machine of Assembled rotary position docking mechanism semi-cylindrical hill structure 225
Structure is consistent with the structure radius of semi-circular recesses structure 226;The separate combination type rotation portion docking mechanism is pacified with main shaft
It fills hole 223 and separate combination type rotation portion docking mechanism and is separately installed with helical spring with the inside of countershaft body mounting hole 224
Can horizontal moving maximum rotation status transmitting control mechanism hollow rod body 211 one end and the second rotary shaft 6 one end,
Main function is: separate combination type rotation portion docking mechanism semi-cylindrical hill structure 225 and separate combination type rotation portion
Docking mechanism at the time of contact, is able to carry out turning effort with semi-circular recesses structure 226, when the two separation, then can not carry out
Rotation transmitting.
Specifically used mode: in present invention work, by main rotating shaft mounting blocks 1 and pair rotary shaft mounting blocks 2 respectively with drive
The end of dynamic rotary shaft and driven rotary shaft is fixedly mounted, when driving rotary shaft work, under the transmitting effect of component dynamics,
Driven rotary shaft can be driven quickly to rotate by the device, when rotation speed is too fast, under the influence of centrifugal force, Ge Gechong
It is mobile to regulation of longitudinal angle that object ball 15 drives master link 21, while under the action of vice connecting rod 18, and countershaft is driven to cover shell 16
It is mobile to side with main hollow shell 19, at this point, separate combination type rotation portion docking mechanism 22 realizes separation, it can not be further
Driving effect is carried out, after rotation speed reduces, weight sphere 15 is dynamic to transverse part displacement under gravity, similarly separates
Assembled rotary position docking mechanism 22 reconfigures, and realizes transmitting effect.
It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie
In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power
Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims
Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.