CN109603166A - A kind of slide - Google Patents
A kind of slide Download PDFInfo
- Publication number
- CN109603166A CN109603166A CN201910083958.4A CN201910083958A CN109603166A CN 109603166 A CN109603166 A CN 109603166A CN 201910083958 A CN201910083958 A CN 201910083958A CN 109603166 A CN109603166 A CN 109603166A
- Authority
- CN
- China
- Prior art keywords
- teeth
- spring
- arc
- shaft
- triggering
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63G—MERRY-GO-ROUNDS; SWINGS; ROCKING-HORSES; CHUTES; SWITCHBACKS; SIMILAR DEVICES FOR PUBLIC AMUSEMENT
- A63G21/00—Chutes; Helter-skelters
- A63G21/04—Chutes; Helter-skelters with fixed rails
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63G—MERRY-GO-ROUNDS; SWINGS; ROCKING-HORSES; CHUTES; SWITCHBACKS; SIMILAR DEVICES FOR PUBLIC AMUSEMENT
- A63G21/00—Chutes; Helter-skelters
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16D—COUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
- F16D43/00—Automatic clutches
- F16D43/02—Automatic clutches actuated entirely mechanically
- F16D43/04—Automatic clutches actuated entirely mechanically controlled by angular speed
- F16D43/14—Automatic clutches actuated entirely mechanically controlled by angular speed with centrifugal masses actuating the clutching members directly in a direction which has at least a radial component; with centrifugal masses themselves being the clutching members
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16D—COUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
- F16D43/00—Automatic clutches
- F16D43/02—Automatic clutches actuated entirely mechanically
- F16D43/04—Automatic clutches actuated entirely mechanically controlled by angular speed
- F16D43/14—Automatic clutches actuated entirely mechanically controlled by angular speed with centrifugal masses actuating the clutching members directly in a direction which has at least a radial component; with centrifugal masses themselves being the clutching members
- F16D2043/145—Automatic clutches actuated entirely mechanically controlled by angular speed with centrifugal masses actuating the clutching members directly in a direction which has at least a radial component; with centrifugal masses themselves being the clutching members the centrifugal masses being pivoting
Abstract
The invention belongs to slide technical field more particularly to a kind of slide, it include support shaft, belt, driving mechanism, rectangular cavity, it is rectangular climb block, supporting block, when slide work;Driving motor is powered;Driving motor drives Clutch input shaft rotation by driving motor output shaft;Clutch input shaft rotation drives the rotation of first gear axis by clutch output shaft;The rotation of first gear axis drives second gear rotation;Second gear rotation drives first gear rotation;First gear rotation drives the rotation of second gear axis;The rotation of second gear axis will make damper not play damping to first gear axis;And the rotation of first gear shaft just will drive the support shaft rotation for being located at upside in three support shafts;And then the outside for driving belt to support shaft around three rotates;Belt rotation drives the rectangular block of climbing on belt that the outside of shaft is supported to rotate around three;I.e. child can climb block and belt is played by rectangular.
Description
Technical field
The invention belongs to slide technical field more particularly to a kind of slides.
Background technique
At present the slide of amusement park must someone keep an eye on;Prevent from having when stopping working child climb up play and accidentally
Tumble injury;Thus many inconvenience are brought to amusement park and child;If occurring falling down or scratching during child is at play
Shade can be brought to the psychology of child;Influence the later growth of child;So design one kind when slide stops working if there is
Child can also be necessary to the slide that child plays a protective role when playing on slide.
The present invention design a kind of slide solve the problems, such as it is as above.
Summary of the invention
To solve drawbacks described above in the prior art, the present invention discloses a kind of slide, it, which is adopted the following technical solutions, comes
It realizes.
A kind of slide, it is characterised in that: it include support shaft, belt, driving mechanism, rectangular cavity, it is rectangular climb block, support
Block is wherein provided with rectangular cavity on the inside of the upper end of supporting block;Driving mechanism is mounted on the inside of rectangular cavity;Three support shafts are pacified respectively
On the side of supporting block;Wherein there is a support shaft to be located on the upside of other two support shaft in three support shafts,
And three support spacing between two support shafts adjacent in shafts equal;The support for being located at upside in three support shafts turns
Axle position is connect in rectangular cavity and with driving mechanism;Belt is wrapped in the outside of three support shafts;On the lateral surface of belt
It installs evenly and climbs block there are many rectangular.
Above-mentioned driving mechanism includes driving motor, clutch, clutch support, first gear, resiliency urged item, first
Support, second gear, first gear axis, ring retard, damper, second gear axis, wherein driving motor is mounted on the inside of rectangular cavity
On lower end surface;Clutch is mounted on rectangular cavity inside lower end face by clutch support;The input shaft and driving electricity of clutch
The output axis connection of machine;First gear axis and second gear axis are installed on rectangular cavity inside lower end face by the first support, and the
One gear shaft is located on the downside of second gear axis;One end of first gear axis and the output axis connection of clutch;Second gear installation
In one end of first gear axis;First gear is mounted on one end of second gear axis;First gear is engaged due to second gear;Three
A resiliency urged item is circumferentially uniformly mounted to the other end of second gear axis;Damper, which is mounted in three support shafts, to be located at
In the support shaft of upside, and it is located on the inside of rectangular cavity;It is located at the support shaft and first gear of upside in three support shafts
The junction of shaft is equipped with ring retard.
Above-mentioned damper includes pushing plate, spacing block, damping shell, the 4th spring, arc pushing block, spring retaining plate, damping
Import, damping outlet, spacing block slot, square orifice, damping slot, wherein damping shell is divided into round nose and square end;It damps above shell
The upper surface at shape end is provided with square orifice;The lower end of square orifice is provided with spacing block slot;The inside for damping round nose on shell has damping
Slot;The round nose of damping shell, which is mounted in three support shafts, to be located in the support shaft of upside;Arc pushing block is mounted on three
It supports and is located in the support shaft of upside in shaft, and be located in damping slot and cooperate with damping slot;One end of spacing block passes through side
Shape mouth is located in spacing block slot;It is located at one end on the inside of spacing block slot on spacing block and spring retaining plate is installed;Spring retaining plate
Cooperate with spacing block slot;The 4th spring is installed between spring retaining plate and spacing block slot upper surface;It installs one end of pushing plate
In the upper end of spacing block;Pushing plate cooperates with three resiliency urged items.
The two sides for being located at arc pushing block on the inside of above-mentioned damping slot are provided with damping import and damping outlet;Damp import
Diameter is the one third of the diameter of damping outlet;Damping import is connected with damping outlet by hose.
Above-mentioned clutch includes output shaft, stuck mechanism, mounting shell, angle trigger mechanism, input shaft, the first scrollwork bullet
Spring, the first spring, the second scroll spring, swings teeth, rectangular teeth, output shaft hole, limit arc slot, triggering ring, limit at drive ring
It is position ring, position limitation arc block, input shaft bore, Fixing shrink ring, drive rod, the first square groove, output disk, output cylinder, rotation axis, defeated
Enter disk, clamping rings, flexible lantern ring, teeth shaft hole, teeth drive shaft hole, triggering square groove, arc groove, arc driver slot,
Mounting circular ring, wherein the both ends of mounting shell are respectively provided with input shaft bore and output shaft hole;Input shaft is mounted in input shaft bore, and
The both ends of input shaft are located inside and outside mounting shell;Limit there are four circumferentially equably being opened on the inner headed face of drive ring one end
Position arc slot;Drive ring is mounted on mounting shell inner headed face;Input disk, which is mounted on, is not provided with limit arc slot one end on drive ring
On inner headed face;Edge far from flexible lantern ring side end face on input disk is circumferentially equably equipped with 15 rectangular teeth;
One end of flexible lantern ring is mounted on input disk;Inner headed face and input shaft on flexible lantern ring close to input shaft bore one end is upper
The angle that can postpone that transmitting is rotated between input shaft and flexible lantern ring is installed between the periphery of mounting shell inner opposite end
Trigger mechanism;There are four position limitation arc blocks for circumferential equably installation on the periphery of stop collar one end;Stop collar is mounted on input shaft
Four limit arc slots cooperate on four position limitation arc blocks and drive ring on upper and stop collar;It triggers on one end and input disk of ring
One end fits far from output shaft hole, the other end for triggering ring are connect with stop collar;It is equipped on the inside of the other end of flexible lantern ring
Clamping rings;Clamping rings is mounted on one end on input shaft far from input shaft bore;It is installed between input disk and clamping rings
First spring;Output shaft is mounted in output shaft hole, and the both ends of output shaft are located inside and outside mounting shell;Output shaft
Upper one end on the inside of mounting shell is equipped with output disk;On end face on output disk far from output shaft side there are six tools
First square groove, and six the first square grooves are circumferentially uniformly distributed in pairs;It circumferentially equably installs the one end for exporting cylinder
There are 15 rotation axis;The other end of output cylinder is mounted on the side that the first square groove is provided on output disk;Swing teeth
There are two symmetrical inclined-planes for one end tool;The other end for swinging teeth has teeth shaft hole;15 swing teeth pass through it respectively
On teeth shaft hole and 15 rotation axis are fitted on output cylinder;15 swing teeth respectively with 15 square shaped teeths
Tooth corresponds cooperation;15 sides swung in teeth with teeth shaft hole are mounted on a driving thin slice;Each drive
A teeth drive shaft hole is all had on dynamic thin slice;The inner circumferential of mounting circular ring is equably opened there are three arc groove;Three arcs
The side of shape slot is provided with an arc driver slot;Three arc driver slots are pierced by mounting circular ring;Three arc grooves it is another
Square groove is triggered there are two opening in side;Three triggering square grooves are pierced by mounting circular ring;It is circumferential equal on the inner headed face of mounting circular ring one end
15 drive rods are installed evenly;Fixing shrink ring is installed on the inner headed face of the mounting circular ring other end;Mounting circular ring passes through fixation
Ring set is mounted on output cylinder, and the teeth drive shaft hole one on 15 drive rods and 15 driving thin slices on mounting circular ring
One is corresponding;The side of triggering square groove is provided on mounting circular ring close to output disk;It is equipped between mounting circular ring and output cylinder
First scroll spring;It is fixedly mounted on the inside of first scroll spring on output cylinder;The fixed peace in the outer end of first scroll spring
On the end face that mounting circular ring is provided with triggering square groove side;Be separately installed in three arc grooves on mounting circular ring one it is right
Mounting circular ring plays the stuck mechanism of position-limiting action;One end of three stuck mechanisms is connect with drive ring respectively;Three stuck machines
The other end of structure cooperates with output disk respectively.
When output shaft work;Input shaft certainly exists load;When input shaft work;Output shaft certainly exists load;
The elastic force of first spring is less than the first scroll spring to the positive driving force of mounting circular ring;The elastic force of first scroll spring is second
3 times of spring force.
As the further improvement of this technology, above-mentioned flexible lantern ring there is Telescopic to have transmission agency again.
As the further improvement of this technology, above-mentioned angle trigger mechanism includes limited block, trigger board, wherein flexible lantern ring
Two groups of limited blocks are symmetrically installed on the upper inner headed face far from input disk one end;Two limited blocks in every group of limited block it
Between at 6 degree of angles;Symmetrically there are two trigger boards for installation on periphery on input shaft far from input shaft bore one end;Two triggerings
Plate cooperates with two groups of limited blocks respectively;It is pressed from both sides at 3 degree between each trigger board and corresponding two limited blocks in two trigger boards
Angle.
As the further improvement of this technology, above-mentioned stuck mechanism includes stuck teeth, arc shell, second spring, third
Spring, drive shaft, second square groove, guide groove, arc guide barrel, triggering slot, triggering block, guide block, rectangular triggering block, teeth slot,
Symmetrical second square groove there are two being opened on the inside of middle arc shell;The two sides up and down of two second square grooves are symmetrically provided with two
A guide groove;Triggering slot is provided on the inside of arc shell;One end of triggering slot is pierced by arc shell;Triggering slot is communicated with two square grooves;
There are two symmetrical arc guide barrels for tool on the side of arc shell;Two arc guide barrels are communicated with two second square grooves respectively;Two
A arc guide barrel is communicated with triggering slot;Three arc shells are separately mounted in three arc grooves;Six square grooves and six triggerings
Square groove cooperation;Six arc guide barrels cooperate with three arc driver slots respectively in pairs;It is provided on the end face of rectangular triggering block
Teeth slot;There are two symmetrical inclined-planes for one end tool of stuck teeth;The other end of stuck teeth is mounted in rectangular triggering block
In teeth slot;Second spring is installed between stuck teeth and teeth slot downside;On the two sides of rectangular triggering block symmetrically
There are two guide blocks for installation;Two rectangular triggering blocks pass through the cooperation of four guide grooves on two guide blocks and arc shell thereon respectively
It is mounted on arc shell;A third is separately installed between four guide blocks and corresponding four guide grooves in two rectangular triggering blocks
Spring;One end of triggering block has inclined-plane;The other end of triggering block is equipped with a drive shaft;Three triggering blocks are separately mounted to
In three triggering slots, and three triggering blocks pass through the end face that drive shaft is mounted on close mounting circular ring side on drive ring respectively
On;Three triggering blocks cooperate with corresponding rectangular triggering block respectively.
As the further improvement of this technology, six stuck teeth are pierced by respectively on six triggering square grooves and output disk
Six the first square groove cooperations.
As the further improvement of this technology, above-mentioned first spring is compressed spring;Second spring is compressed spring;Third
Spring is extension spring.
As the further improvement of this technology, it is equipped between above-mentioned input shaft and flexible lantern ring and angle trigger mechanism is risen
The second scroll spring acted on to return;The inner end of second scroll spring is mounted on input shaft;The outer end of second scroll spring
It is mounted on the end face of flexible lantern ring.
As the further improvement of this technology, stuck teeth make stuck under the action of second spring in the initial state
It is CONTACT WITH FRICTION between teeth and output disk, and the frictional force between stuck teeth and output disk is greater than second spring
Elastic force.
As the further improvement of this technology, when stuck teeth cooperate with corresponding first direction slot, and second spring
With third spring all under free extension state;The inclined-plane of stuck teeth and the side of the first square groove are just engaged;
When stuck teeth cooperate with corresponding first direction slot, and second spring is in free extension state and third spring is in pole
It limits under tensional state;The inclined-plane of stuck teeth is fully located on the inside of the first square groove.
Relative to traditional slide technology, the slide that the present invention designs can be with by the adjusting of damper when stopping working
Guarantee safety of the child in slide play activity.
Input shaft is mounted in input shaft bore in the present invention;Drive ring is mounted on mounting shell inner headed face, and drive ring
One end is mounted on input shaft;One end of flexible lantern ring is mounted on drive ring by clamping rings close to input shaft bore one end
Inside;Be located on the inner headed face and input shaft of input shaft bore one end on flexible lantern ring mounting shell inner opposite end periphery it
Between the angle trigger mechanism that can postpone to rotate transmitting between input shaft and flexible lantern ring is installed;The other end peace of flexible lantern ring
Equipped with input disk;Edge far from flexible lantern ring side end face on input disk is circumferentially equably equipped with 15 square shaped teeths
Tooth;There are four position limitation arc blocks for circumferential equably installation on the periphery of stop collar one end;Stop collar is mounted on input shaft and limits
Four limit arc slots cooperate on four position limitation arc blocks and drive ring on the ring of position;It triggers separate defeated on one end and input disk of ring
The one end fits of shaft outlet hole, the other end for triggering ring are connect with stop collar;The first bullet is installed between input disk and clamping rings
Spring;Output shaft is mounted in output shaft hole;It is located at one end on the inside of mounting shell on output shaft and output disk is installed;Output disk
There are six the first square grooves for tool on the upper end face far from output shaft side;The one end for exporting cylinder is circumferentially equably equipped with 15
Rotation axis;The other end of output cylinder is mounted on the side that the first square groove is provided on output disk;15 swing teeth difference
Pass through being fitted on output cylinder for teeth shaft hole thereon and 15 rotation axis;15 swing teeth respectively with 15
Rectangular teeth correspond cooperation;15 sides swung in teeth with teeth shaft hole are mounted on a driving thin slice;
A teeth drive shaft hole is all had on each driving thin slice;It is circumferential on the inner headed face of mounting circular ring one end to be equably equipped with 15
A drive rod;Fixing shrink ring is installed on the inner headed face of the mounting circular ring other end;Mounting circular ring is mounted on defeated by Fixing shrink ring
The teeth drive shaft hole on 15 drive rods and 15 driving thin slices out on cylinder, and on mounting circular ring corresponds;Installation
The side of triggering square groove is provided on annulus close to output disk;The first scrollwork bullet is installed between mounting circular ring and output cylinder
Spring;It is fixedly mounted on the inside of first scroll spring on output cylinder;The outer end of first scroll spring is fixedly mounted on installation circle
Ring is provided on the end face of triggering square groove side;The lantern ring that stretches in the present invention there is Telescopic to have transmission agency again.Input
The second scroll spring for playing the role of return to angle trigger mechanism is installed between axis and flexible lantern ring;Three arcs in the present invention
Shape shell is separately mounted in three arc grooves;Teeth slot is provided on the end face of rectangular triggering block;One end of stuck teeth has two
A symmetrical inclined-plane;The other end of stuck teeth is mounted in the teeth slot in rectangular triggering block;Under stuck teeth and teeth slot
Second spring is installed between side;Symmetrically there are two guide blocks for installation on the two sides of rectangular triggering block;Two rectangular triggerings
Block passes through on two guide blocks thereon and arc shell being fitted on arc shell of four guide grooves respectively;Two rectangular triggering blocks
On four guide blocks and corresponding four guide grooves between be separately installed with a third spring;One end of triggering block has inclined-plane;
The other end of triggering block is equipped with a drive shaft;Three triggering blocks are separately mounted in three triggering slots, and three triggering blocks
It is mounted on drive ring on the end face of mounting circular ring side by drive shaft respectively;Three triggering blocks respectively with corresponding side
The cooperation of shape triggering block.Six stuck teeth are pierced by six first party on six triggering square grooves and output disk respectively in the present invention
The cooperation of shape slot.When input shaft rotation;Due to separate input disk one on the lantern ring that stretches in angle trigger mechanism in the present invention
Two groups of limited blocks are symmetrically installed on the inner headed face at end;At 6 degree of angles between two limited blocks in every group of limited block;Input
Symmetrically there are two trigger boards for installation on periphery on axis far from input shaft bore one end;Two trigger boards respectively with two groups of limits
Block cooperation;In two trigger boards it is each triggering between corresponding two limited blocks at 3 degree of angles.So input shaft is initial
Zero degree input shaft into three degree of rotation processes not will drive the rotation of telescopic ring;But be mounted on input shaft due to stop collar and
Four limit arc slots cooperate on four position limitation arc blocks and drive ring on stop collar;So input shaft will drive drive ring rotation;
Drive ring rotation drives three drive shafts around driving ring axis rotation;Three drive shaft turns can drive three triggering blocks respectively
Around driving ring axis rotation;One side triggering block rotates meeting and rotates so that being located at triggering block in corresponding two rectangular triggering blocks
One rectangular triggering block of direction side is moved along guide groove;Due in the initial state in this rectangular triggering block moving process
Stuck teeth make between stuck teeth and output disk under the action of second spring for CONTACT WITH FRICTION, and stuck teeth with it is defeated
The frictional force between disk is greater than the elastic force of second spring out;So rectangular triggering block movement can squeeze second spring;Work as triggering
Block make during rotation the compressive state of second spring reach capacity state when;Triggering block rotation will drive corresponding rectangular
Triggering block is around driving ring axis rotation;Rectangular triggering block rotation drives corresponding arc shell around driving ring axis rotation;Arc
The rotation of shape shell will drive mounting circular ring rotation;Another aspect triggering block rotates meeting so that another in corresponding two rectangular triggering blocks
One rectangular triggering block drives rectangular triggering block to move along corresponding guide groove under the action of output disk extruding force;Rectangular
Third spring is compressed in triggering block moving process;Finally make stuck teeth and rectangular triggering slot in second spring, third spring
Reach equilibrium state under the action of frictional force between stuck teeth and output disk;It will drive 15 when mounting circular ring rotation
Drive rod is rotated around mounting circular ring axis;15 drive rod rotations drive 15 driving thin slices to turn around mounting circular ring axis
It is dynamic;15 driving thin slice rotations drive 15 swing teeth to swing around corresponding rotation axis;In swinging teeth swing process;
When the inclined-plane for swinging teeth is parallel with the side of corresponding rectangular teeth;Positioned at triggering block rotation direction side stuck teeth just
It is moved to well on the outside of the first square groove corresponding on output disk;At this time under the action of second spring;Stuck teeth can quilt
It is extruded into the first square groove;Due in the present invention when stuck teeth cooperate with corresponding first direction slot, and second spring and
Third spring is all under free extension state;The inclined-plane of stuck teeth and the side of the first square groove are just engaged;When
When stuck teeth cooperate with corresponding first direction slot, and second spring is in free extension state and third spring is in the limit
Under tensional state;The inclined-plane of stuck teeth is fully located on the inside of the first square groove;So stuck teeth can be by first direction slot card
Extremely;I.e. mounting circular ring is stuck by output disk;It is stuck to swing the mounted disk of teeth;And the trigger board on input shaft is being just at this time
It is good to be contacted with limited block;So input shaft rotation just will drive the rotation of telescopic ring;Flexible lantern ring rotation drives input disk to turn
It is dynamic;Inputting disk rotational drives 15 rectangular teeth around input disk axis rotation;15 rectangular teeth rotations drive 15
Teeth are swung around input disk axis rotation;15 swing teeth rotations drive output cylinder rotation;It exports cylinder and rotates band
Dynamic output disk rotation;Output disk rotation drives output shaft rotation;I.e. input shaft can drive output shaft to rotate;Work as input shaft
When stopping operating;Input shaft first inverts certain angle;In input shaft rotation process;It is certain that input shaft will drive drive ring rotation
Angle;Drive ring drives three drive shafts around driving ring axis rotation;Three drive shaft turns certain angles make three drives
Moving axis drives three triggering blocks to be restored on original position;The lantern ring that stretches at this time is restored under the action of the second scroll spring
On position originally;Mounting circular ring can be restored to original position under the action of the first scroll spring;Restore in mounting circular ring
In the process;Mounting circular ring will drive 15 swing teeth and be restored on the position of principle;Rectangular triggering block is in third spring simultaneously
Under the action of be restored on original position;Due to when stuck teeth cooperate with corresponding first direction slot, and second spring
With third spring all under free extension state;The inclined-plane of stuck teeth and the side of the first square groove are just engaged;
So mounting circular ring rotation just will drive stuck teeth and be restored to original position;When output shaft rotation;Output shaft will drive
Teeth are swung to rotate around output shaft axis;Since positive driving force of first scroll spring to mounting circular ring is greater than the first spring
Elastic force;So on the one hand rectangular teeth can be squeezed by swinging teeth rotation;So that rectangular teeth to close to input shaft bore side
It is mobile;It is mobile that square shaped teeth Tooth movement will drive input disk;It inputs mobile drive of disk and triggers ring movement;Trigger the mobile drive of ring
Stop collar is mobile;Stop collar movement will make position limitation arc block and limit arc slot disengage;Simultaneously because mounting circular ring is at this time
Stationary state;So output shaft rotation will to swing teeth swing certain angle;And this angle is pushing away swing teeth
It is more smooth in the process to move rectangular teeth;When rectangular teeth are pushed to teeth disengaging is swung;Swing the rotation of teeth just
Input disk rotational is not will drive;And then it would not be rotated with driven input shaft;And output shaft can pass through after turning an angle
First scroll spring drives mounting circular ring rotation;Mounting circular ring rotation will drive drive ring rotation by drive shaft;Due at this time
Position limitation arc block has been disengaged with limit arc slot;So drive ring rotation not will drive stop collar rotation;It not will drive input shaft
Rotation;Thin slice is driven in the present invention, and it can guarantee when mounting circular ring is when driving swing teeth to swing;Mounting circular ring will not be with
Teeth are swung to interfere.
Three support shafts are separately mounted on the side of supporting block in the present invention;Wherein there is one in three support shafts
Support shaft is located on the upside of other two support shaft, and spacing phase between two support shafts adjacent in three support shafts
Deng;The support shaft for being located at upside in three support shafts is located in rectangular cavity and connect with driving mechanism;Belt is wrapped in three
The outside of a support shaft;It is equably installed on the lateral surface of belt and climbs block there are many rectangular;Driving motor is mounted on rectangular cavity
On inside lower end face;The input shaft of clutch and the output axis connection of driving motor;One end of first gear axis and clutch
Export axis connection;Second gear is mounted on one end of first gear axis;First gear is mounted on one end of second gear axis;First
Gear is engaged with second gear;Three resiliency urged items are circumferentially uniformly mounted to the other end of second gear axis;Three supports
Ring retard is installed positioned at the support shaft of upside and the junction of first gear shaft in shaft;Damp the round nose installation of shell
It is supported in the support shaft for being located at upside in shaft at three;Arc pushing block is mounted on the branch for being located at upside in three support shafts
It supports in shaft, and is located in damping slot and cooperates with damping slot;One end of spacing block passes through square orifice and is located in spacing block slot;Isolation
It is located at one end on the inside of spacing block slot on block and spring retaining plate is installed;Spring retaining plate and spacing block slot cooperate;Spring is fixed
The 4th spring is installed between plate and spacing block slot upper surface;One end of pushing plate is mounted on the upper end of spacing block;Pushing plate with
Three resiliency urged item cooperations;The two sides for being located at arc pushing block on the inside of damping slot are provided with damping import and damping outlet;Damp into
Mouthful diameter be damping export diameter one third;Damping import is connected with damping outlet by hose;When slide work
When making;Driving motor is powered;Driving motor drives Clutch input shaft rotation by driving motor output shaft;Clutch input shaft
Rotation drives the rotation of first gear axis by clutch output shaft;The rotation of first gear axis drives second gear rotation;Second tooth
Wheel rotation drives first gear rotation;First gear rotation drives the rotation of second gear axis;The rotation of second gear axis drives three
Resiliency urged item is rotated around second gear shaft axis;Three resiliency urged items are during rotation under the influence of centrifugal force
It can be contacted with pushing plate and pushing plate is pushed to move up;Pushing plate, which moves up, drives spacing block to move up;Spacing block to
Upper movement will make the fluid communication for being located at arc pushing block two sides in damping slot;Damper is ineffective;And then damper is not
Damping can be played to first gear axis;And the rotation of first gear shaft just will drive in three support shafts and be located at upside
Support shaft rotation;And then the outside for driving belt to support shaft around three rotates;Belt rotation drives rectangular on belt
Climb block supports the outside of shaft to rotate around three;I.e. child can climb block and belt is played by rectangular;It is set in the present invention
The effect for counting ring retard is to prevent three resiliency urged items first gear shaft before pushing pushing plate from just will drive three branch
Support the support shaft rotation for being located at upside in shaft;So that damper plays damping action to first gear shaft;It influences
The normal work of three support shafts;When slide stops working;Driving motor stops working;Damper is to first gear at this time
Shaft has effect;When have child climb to it is rectangular climb play on block when;Under child's gravity;Belt will receive one downwards
Pressure;This pressure will drive belt and the outside of shaft supported to rotate around three;It is located at the branch of upside in three support shafts
Support shaft rotation just will drive the rotation of first gear shaft;And damper has damping action to first gear shaft at this time;So
The velocity of rotation of first gear shaft will be relatively slow;This speed will not make child out of hand on slide;And due to clutch
The effect first gear shaft rotation of device will not impact driving motor;So when slide stops operating;Child is in cunning
Child will not be damaged by playing on ladder.
When the slide that people are designed using the present invention;When slide work;Driving motor is powered;Driving motor passes through drive
Dynamic motor output shaft drives Clutch input shaft rotation;Clutch input shaft rotation drives first gear by clutch output shaft
Axis rotation;The rotation of first gear axis drives second gear rotation;Second gear rotation drives first gear rotation;First gear turns
It is dynamic to drive the rotation of second gear axis;The rotation of second gear axis drives three resiliency urged items to turn around second gear shaft axis
It is dynamic;Three resiliency urged items can contact with pushing plate during rotation and push pushing plate to moving up under the influence of centrifugal force
It is dynamic;Pushing plate, which moves up, drives spacing block to move up;Spacing block, which moves up, will to push away in damping slot positioned at arc
The fluid communication of block two sides;Damper is ineffective;And then damper will not play damping to first gear axis;And first
Rotary gear shaft rotation just will drive the support shaft rotation for being located at upside in three support shafts;And then drive belt around three
Support the outside rotation of shaft;Belt rotation drives the rectangular block of climbing on belt that the outside of shaft is supported to rotate around three;I.e.
Child can climb block and belt is played by rectangular.
Detailed description of the invention
Fig. 1 is global facility appearance diagram.
Fig. 2 is driving mechanism structure schematic diagram.
Fig. 3 is resiliency urged scheme of installation.
Fig. 4 is damper structure schematic diagram.
Fig. 5 is pushing plate scheme of installation.
Fig. 6 is damping shell structure schematic diagram.
Fig. 7 is ring retard structural schematic diagram.
Fig. 8 is clutch appearance diagram.
Fig. 9 is clutch schematic cross-sectional view.
Figure 10 is mounting shell structural schematic diagram.
Figure 11 is mounting circular ring scheme of installation.
Figure 12 is output disk structural schematic diagram.
Figure 13 is drive ring structural schematic diagram.
Figure 14 is mounting circular ring structural schematic diagram.
Figure 15 is input disk scheme of installation.
Figure 16 is angle trigger mechanism scheme of installation.
Figure 17 is trigger board scheme of installation.
Figure 18 is to swing teeth scheme of installation.
Figure 19 is drive shaft scheme of installation.
Figure 20 is stuck structure scheme of installation.
Figure 21 is stuck mechanism structure schematic diagram.
Figure 22 is arc shell structure schematic diagram.
Figure 23 is triggering block scheme of installation.
Figure 24 is stuck teeth scheme of installation.
Figure 25 is that stuck teeth and the first square groove cooperate schematic diagram.
Figure 26 is to swing teeth operation principle schematic diagram.
Figure 27 is stuck mechanical work principle schematic diagram.
Figure 28 is stuck mechanism return schematic illustration.
Figure 29 is angle trigger mechanism operation principle schematic diagram.
Figure 30 is mounting circular ring operation principle schematic diagram.
Figure 31 is triggering ring structure schematic diagram.
Figure 32 is stop collar scheme of installation.
Figure label title: 1, output shaft;2, stuck mechanism;3, mounting shell;4, angle trigger mechanism;5, input shaft;6,
First scroll spring;7, drive ring;8, the first spring;9, the second scroll spring;10, teeth are swung;11, rectangular teeth;12, defeated
Shaft outlet hole;13, input shaft bore;14, drive rod;15, thin slice is driven;16, the first square groove;17, output disk;18, output circle
Column;19, rotation axis;20, disk is inputted;21, clamping rings;22, limited block;23, stretch lantern ring;24, trigger board;25, teeth
Shaft hole;26, teeth drive shaft hole;27, stuck teeth;28, arc shell;29, second spring;30, third spring;31, it drives
Axis;32, second square groove;33, guide groove;34, arc guide barrel;35, slot is triggered;36, triggering block;37, guide block;38, rectangular triggering
Block;39, teeth slot;40, square groove is triggered;41, arc groove;42, arc driver slot;43, mounting circular ring;44, Fixing shrink ring;45,
Limit arc slot;46, ring is triggered;47, stop collar;48, position limitation arc block;49, supporting block;50, driving motor;51, clutch;52,
Clutch support;53, first gear;54, resiliency urged item;55, pushing plate;56, spacing block;57, the first support;58, second
Gear;59, first gear axis;60, ring retard;61, damper;62, second gear axis;63, the 4th spring;64, arc pushing block;
65, spring retaining plate;66, import is damped;67, damping outlet;68, spacing block slot;69, damping slot;70, rectangular fearness block;71, it hinders
Buddhist nun's shell;72, square orifice;73, shaft is supported;74, belt;75, driving mechanism;76, rectangular cavity.
Specific embodiment
As shown in Figure 1, it includes support shaft 73, belt 74, driving mechanism 75, rectangular cavity 76, rectangular climbs block, supporting block
49, wherein as shown in Figure 1, being provided with rectangular cavity 76 on the inside of the upper end of supporting block 49;Driving mechanism 75 is mounted on 76 inside of rectangular cavity;
Three support shafts 73 are separately mounted on the side of supporting block 49;Wherein there is a support shaft 73 in three support shafts 73
Positioned at other two 73 upside of support shaft, and three support spacing phase between two support shafts 73 adjacent in shafts 73
Deng;The support shaft 73 for being located at upside in three support shafts 73 is located in rectangular cavity 76 and connect with driving mechanism 75;Belt
74 are wrapped in the outside of three support shafts 73;It is equably installed on the lateral surface of belt 74 and climbs block there are many rectangular.
As shown in Fig. 2, above-mentioned driving mechanism 75 includes driving motor 50, clutch 51, clutch support 52, first gear
53, resiliency urged item 54, first supports 57, second gear 58, first gear axis 59, ring retard 60, damper 61, second gear
Axis 62, wherein driving motor 50 is mounted on 76 inside lower end face of rectangular cavity;Clutch 51 is mounted on by clutch support 52
On 76 inside lower end face of rectangular cavity;The input shaft 5 of clutch 51 is connect with the output shaft 1 of driving motor 50;First gear axis 59
It is installed on 76 inside lower end face of rectangular cavity with second gear axis 62 by the first support 57, and first gear axis 59 is located at the second tooth
62 downside of wheel shaft;One end of first gear axis 59 is connect with the output shaft 1 of clutch 51;Second gear 58 is mounted on first gear
One end of axis 59;First gear 53 is mounted on one end of second gear axis 62;First gear 53 is engaged due to second gear 58;Such as
Shown in Fig. 3, the circumferential other end for being uniformly mounted to second gear axis 62 of three resiliency urged items 54;Damper 61 is mounted on three
It is located in the support shaft 73 of upside in a support shaft 73, and is located at 76 inside of rectangular cavity;As shown in fig. 7, three supports turn
Ring retard 60 is installed positioned at the support shaft 73 of upside and the junction of 53 shaft of first gear in axis 73.
As shown in figure 4, above-mentioned damper 61 includes pushing plate 55, spacing block 56, damping shell 71, the 4th spring 63, arc
Pushing block 64, spring retaining plate 65, damping import 66, damping outlet 67, spacing block slot 68, square orifice 72, damping slot 69, wherein such as
Shown in Fig. 6, damping shell 71 divides for round nose and square end;The upper surface of square end is provided with square orifice 72 on damping shell 71;It is rectangular
The lower end of mouth 72 is provided with spacing block slot 68;The inside for damping round nose on shell 71 has damping slot 69;Damp the round nose of shell 71
It is mounted in three support shafts 73 and is located in the support shaft 73 of upside;Arc pushing block 64 is mounted in three support shafts 73
In the support shaft 73 of upside, and it is located in damping slot 69 and cooperates with damping slot 69;One end of spacing block 56 passes through rectangular
Mouth 72 is located in spacing block slot 68;As shown in figure 5, the one end for being located at 68 inside of spacing block slot on spacing block 56 is equipped with spring and consolidates
Fixed board 65;Spring retaining plate 65 and spacing block slot 68 cooperate;Spring retaining plate 65 and spacing block slot are equipped between 68 upper surface
4th spring 63;One end of pushing plate 55 is mounted on the upper end of spacing block 56;Pushing plate 55 and three resiliency urged items 54 cooperate.
Two sides on the inside of above-mentioned damping slot 69 positioned at arc pushing block 64 are provided with damping import 66 and damping outlet 67;Damping
Import 66 diameter be damping outlet 67 diameter one third;It damps import 66 and damping outlet 67 is connected by hose
It connects.
Above-mentioned clutch is as shown in figure 8, include output shaft 1, stuck mechanism 2, mounting shell 3, angle trigger mechanism 4, input
Axis 5, drive ring 7, the first spring 8, the second scroll spring 9, swings teeth 10, rectangular teeth 11, output at first scroll spring 6
Axis hole 12, limit arc slot 45, triggering ring 46, stop collar 47, position limitation arc block 48, input shaft bore 13, Fixing shrink ring 44, drive rod
14, the first square groove 16, output disk 17, output cylinder 18, rotation axis 19, input disk 20, clamping rings 21, flexible lantern ring
23, teeth shaft hole 25, teeth drive shaft hole 26, triggering square groove 40, arc groove 41, arc driver slot 42, mounting circular ring 43,
In as shown in figure 11, the both ends of mounting shell 3 are respectively provided with input shaft bore 13 and output shaft hole 12;As shown in figure 9, input shaft 5 is pacified
In input shaft bore 13, and the both ends of input shaft 5 are located inside and outside mounting shell 3;As shown in figure 13, drive ring 7
Arc slot 45 is limited there are four circumferentially equably opening on the inner headed face of one end;Drive ring 7 is mounted on 3 inner headed face of mounting shell;Such as Fig. 9
Shown, input disk 20 is mounted on the inner headed face for not being provided with limit 45 one end of arc slot on drive ring 7;As shown in figure 16, it inputs
Edge far from flexible 23 1 side end face of lantern ring on disk 20 is circumferentially equably equipped with 15 rectangular teeth 11;Such as Figure 15 institute
Show, one end of flexible lantern ring 23 is mounted on input disk 20;Close to the inner headed face of 13 one end of input shaft bore on flexible lantern ring 23
Be located between the periphery of 3 inner opposite end of mounting shell on input shaft 5 be equipped with can postpone input shaft 5 and flexible lantern ring 23 it
Between rotate the angle trigger mechanism 4 of transmitting;As shown in figure 31, circumferential on the periphery of 47 one end of stop collar to be equably equipped with four
A position limitation arc block 48;As shown in figure 32, stop collar 47 be mounted on four position limitation arc blocks 48 on input shaft 5 and on stop collar 47 with
Four limit arc slots 45 cooperate on drive ring 7;As shown in figure 9, far from output shaft on one end of triggering ring 46 and input disk 20
The other end of the one end fits in hole 12, triggering ring 46 is connect with stop collar 47;As shown in figure 17, it stretches in the other end of lantern ring 23
Side is equipped with clamping rings 21;Clamping rings 21 is mounted on one end on input shaft 5 far from input shaft bore 13;Input disk 20 with
First spring 8 is installed between clamping rings 21;As shown in figure 9, output shaft 1 is mounted in output shaft hole 12, and the two of output shaft 1
End is located inside and outside mounting shell 3;As shown in figure 12, it is equipped on output shaft 1 positioned at one end of 3 inside of mounting shell defeated
Disk 17 out;First square groove 16 there are six tools on end face on output disk 17 far from 1 side of output shaft, and six first party
Shape slot 16 is circumferential in pairs to be uniformly distributed;The one end for exporting cylinder 18 is circumferentially equably equipped with 15 rotation axis 19;Output
The other end of cylinder 18 is mounted on the side that the first square groove 16 is provided on output disk 17;As shown in figure 18, teeth 10 are swung
One end tool there are two symmetrical inclined-plane;The other end for swinging teeth 10 has teeth shaft hole 25;15 swing teeth 10 are divided
Not being fitted on output cylinder 18 by teeth shaft hole 25 and 15 rotation axis 19 thereon;15 swing teeth 10
It corresponds and cooperates with 15 rectangular teeth 11 respectively;As shown in figure 19, there is teeth shaft hole 25 in 15 swing teeth 10
Side be mounted on a driving thin slice 15;A teeth drive shaft hole 26 is all had on each driving thin slice 15;Such as Figure 14
Shown, the inner circumferential of mounting circular ring 43 is equably opened there are three arc groove 41;The side of three arc grooves 41 is provided with one
Arc driver slot 42;Three arc driver slots 42 are pierced by mounting circular ring 43;There are two the other side of three arc grooves 41 is opened
Trigger square groove 40;Three triggering square grooves 40 are pierced by mounting circular ring 43;As shown in figure 19, on the inner headed face of 43 one end of mounting circular ring
It is circumferential that 15 drive rods 14 are equably installed;Fixing shrink ring 44 is installed on the inner headed face of 43 other end of mounting circular ring;Installation
Annulus 43 is mounted on output cylinder 18 by Fixing shrink ring 44, and 15 drive rods 14 and 15 driving on mounting circular ring 43
Teeth drive shaft hole 26 on thin slice 15 corresponds;As shown in figure 9, the side for being provided with triggering square groove 40 on mounting circular ring 43 is leaned on
Nearly output disk 17;First scroll spring 6 is installed between mounting circular ring 43 and output cylinder 18;First scroll spring 6 it is interior
Side is fixedly mounted on output cylinder 18;The outer end of first scroll spring 6 is fixedly mounted on mounting circular ring 43 and is provided with triggering square groove
On the end face of 40 sides;As shown in figure 20, one is separately installed in three arc grooves 41 on mounting circular ring 43 to justify installation
Ring 43 plays the stuck mechanism 2 of position-limiting action;As shown in Figure 11,25, one end of three stuck mechanisms 2 connects with drive ring 7 respectively
It connects;The other end of three stuck mechanisms 2 cooperates with output disk 17 respectively.
When output shaft 1 works;Input shaft 5 certainly exists load;When input shaft 5 works;Output shaft 1 certainly exists negative
Lotus;The elastic force of first spring 8 is less than the first scroll spring 6 to the positive driving force of mounting circular ring 43;The bullet of first scroll spring 6
Power is 3 times of 29 elastic force of second spring.
Above-mentioned flexible lantern ring 23 there is Telescopic to have transmission agency again.
Above-mentioned angle trigger mechanism 4 includes limited block 22, trigger board 24, wherein as shown in figure 16, it is remote on the lantern ring 23 that stretches
Two groups of limited blocks 22 are symmetrically installed on inner headed face from input 20 one end of disk;Two limited blocks in every group of limited block 22
At 6 degree of angles between 22;As shown in figure 17, it is symmetrically equipped on the periphery on input shaft 5 far from 13 one end of input shaft bore
Two trigger boards 24;Two trigger boards 24 cooperate with two groups of limited blocks 22 respectively;In two trigger boards 24 each trigger board 24 with
At 3 degree of angles between corresponding two limited blocks 22.
Above-mentioned as shown in figure 21, stuck mechanism 2 includes stuck teeth 27, arc shell 28, second spring 29, third spring
30, drive shaft 31, second square groove 32, guide groove 33, arc guide barrel 34, triggering slot 35, triggering block 36, guide block 37, rectangular triggering
Block 38, teeth slot 39, wherein as shown in figure 22, the inside of arc shell 28 opens that there are two symmetrical second square grooves 32;Two
It symmetrically opens there are two guide groove 33 two sides up and down of two square grooves 32;The inside of arc shell 28 is provided with triggering slot 35;Trigger slot
35 one end is pierced by arc shell 28;Triggering slot 35 is communicated with two square grooves;There are two symmetrical for tool on the side of arc shell 28
Arc guide barrel 34;Two arc guide barrels 34 are communicated with two second square grooves 32 respectively;Two arc guide barrels 34 and triggering slot 35
It communicates;Three arc shells 28 are separately mounted in three arc grooves 41;Six square grooves and six triggering square grooves 40 cooperate;Six
Arc guide barrel 34 cooperates with three arc driver slots 42 respectively in pairs;As shown in figure 24, on the end face of rectangular triggering block 38
It is provided with teeth slot 39;There are two symmetrical inclined-planes for one end tool of stuck teeth 27;The other end of stuck teeth 27 is mounted on rectangular
In teeth slot 39 in triggering block 38;Stuck teeth 27 and teeth slot are equipped with second spring 29 between 39 downside;Rectangular touching
Send out guide block 37 there are two symmetrically installing on the two sides of block 38;Two rectangular triggering blocks 38 pass through two guide blocks thereon respectively
37 are fitted on arc shell 28 with four guide grooves 33 on arc shell 28;Four guide blocks in two rectangular triggering blocks 38
A third spring 30 is separately installed between 37 and corresponding four guide grooves 33;As shown in figure 23, one end of triggering block 36 has
Inclined-plane;The other end of triggering block 36 is equipped with a drive shaft 31;Three triggering blocks 36 are separately mounted in three triggering slots 35,
And three triggering blocks 36 are mounted on drive ring 7 on the end face of 43 side of mounting circular ring by drive shaft 31 respectively;Three
Triggering block 36 cooperates with corresponding rectangular triggering block 38 respectively.
Six stuck teeth 27 are pierced by six the first square grooves 16 on six triggering square grooves 40 and output disk 17 respectively
Cooperation.
Above-mentioned first spring 8 is compressed spring;Second spring 29 is compressed spring;Third spring 30 is extension spring.
The second whirlpool for playing the role of return to angle trigger mechanism 4 is installed between above-mentioned input shaft 5 and flexible lantern ring 23
Coil spring 9;The inner end of second scroll spring 9 is mounted on input shaft 5;The outer end of second scroll spring 9 is mounted on flexible lantern ring
On 23 end face.
Stuck teeth 27 make stuck teeth 27 and output disk 17 under the action of second spring 29 in the initial state
Between be CONTACT WITH FRICTION, and the frictional force between stuck teeth 27 and output disk 17 be greater than second spring 29 elastic force.
When stuck teeth 27 cooperate with corresponding first direction slot, and second spring 29 and third spring 30 are all in certainly
By under retracted position;The inclined-plane of stuck teeth 27 and the side of the first square groove 16 are just engaged;When stuck teeth 27 with
When corresponding first direction slot cooperates, and second spring 29 is in free extension state and third spring 30 is in ultimate elongation shape
Under state;The inclined-plane of stuck teeth 27 is fully located at 16 inside of the first square groove.
The slide that the present invention designs can guarantee that child played in slide by the adjusting of damper when stopping working
Safety in journey.
Input shaft 5 is mounted in input shaft bore 13 in the present invention;Drive ring 7 is mounted on 3 inner headed face of mounting shell, and is driven
One end of ring 7 is mounted on input shaft 5;One end of flexible lantern ring 23 is mounted on drive ring 7 by clamping rings 21 close to defeated
Enter the inside of 13 one end of axis hole;It is located at installation on the inner headed face and input shaft 5 of 13 one end of input shaft bore on flexible lantern ring 23
The angle touching that can postpone to rotate transmitting between input shaft 5 and flexible lantern ring 23 is installed between the periphery of 3 inner opposite end of shell
Send out mechanism 4;The other end of flexible lantern ring 23 is equipped with input disk 20;It inputs on disk 20 far from flexible 23 1 side end face of lantern ring
Edge 15 rectangular teeth 11 are equably circumferentially installed;It is circumferential on the periphery of 47 one end of stop collar to be equably equipped with
Four position limitation arc blocks 48;Stop collar 47 is mounted on four position limitation arc blocks 48 on input shaft 5 and on stop collar 47 and drive ring 7
Four limit arc slots 45 cooperate;Trigger the one end fits far from output shaft hole 12 on one end and input disk 20 of ring 46, triggering
The other end of ring 46 is connect with stop collar 47;First spring 8 is installed between input disk 20 and clamping rings 21;Output shaft 1 is pacified
In output shaft hole 12;The one end for being located at 3 inside of mounting shell on output shaft 1 is equipped with output disk 17;On output disk 17
There are six the first square grooves 16 for tool on end face far from 1 side of output shaft;The one end for exporting cylinder 18 is circumferentially equably equipped with
15 rotation axis 19;The other end of output cylinder 18 is mounted on the side that the first square groove 16 is provided on output disk 17;15
Swing being fitted on output cylinder 18 by teeth shaft hole 25 and 15 rotation axis 19 thereon respectively of teeth 10;15
A swing teeth 10 are corresponded with 15 rectangular teeth 11 respectively to be cooperated;There is teeth shaft hole 25 in 15 swing teeth 10
Side be mounted on a driving thin slice 15;A teeth drive shaft hole 26 is all had on each driving thin slice 15;Installation circle
It is circumferential on the inner headed face of 43 one end of ring that 15 drive rods 14 are equably installed;It is installed on the inner headed face of 43 other end of mounting circular ring
There is Fixing shrink ring 44;Mounting circular ring 43 is mounted on output cylinder 18 by Fixing shrink ring 44, and 15 on mounting circular ring 43
Drive rod 14 and 15 drives the teeth drive shaft hole 26 on thin slice 15 to correspond;Triggering square groove 40 is provided on mounting circular ring 43
Side close to output disk 17;First scroll spring 6 is installed between mounting circular ring 43 and output cylinder 18;First scrollwork bullet
The inside of spring 6 is fixedly mounted on output cylinder 18;The outer end of first scroll spring 6 is fixedly mounted on mounting circular ring 43 and is provided with touching
On the end face of 40 side of originating party slot;The lantern ring 23 that stretches in the present invention there is Telescopic to have transmission agency again.Input shaft 5 with
The second scroll spring 9 for playing the role of return to angle trigger mechanism 4 is installed between flexible lantern ring 23;Three arcs in the present invention
Shape shell 28 is separately mounted in three arc grooves 41;Teeth slot 39 is provided on the end face of rectangular triggering block 38;Stuck teeth 27
There are two symmetrical inclined-planes for one end tool;The other end of stuck teeth 27 is mounted in the teeth slot 39 in rectangular triggering block 38;Card
Second spring 29 is installed between dead 39 downside of teeth 27 and teeth slot;It is symmetrically installed on the two sides of rectangular triggering block 38
There are two guide blocks 37;Two rectangular triggering blocks 38 pass through four guide grooves 33 on two guide blocks 37 thereon and arc shell 28 respectively
It is fitted on arc shell 28;Between four guide blocks 37 and corresponding four guide grooves 33 in two rectangular triggering blocks 38 respectively
One third spring 30 is installed;One end of triggering block 36 has inclined-plane;The other end of triggering block 36 is equipped with a drive shaft
31;Three triggering blocks 36 are separately mounted in three triggering slots 35, and three triggering blocks 36 are mounted on by drive shaft 31 respectively
On drive ring 7 on the end face of 43 side of mounting circular ring;Three triggering blocks 36 cooperate with corresponding rectangular triggering block 38 respectively.
Six stuck teeth 27 are pierced by six the first square grooves 16 on six triggering square grooves 40 and output disk 17 respectively in the present invention
Cooperation.When input shaft 5 rotates;Due to separate input disk 20 on the lantern ring 23 that stretches in angle trigger mechanism 4 in the present invention
Two groups of limited blocks 22 are symmetrically installed on the inner headed face of one end;At 6 degree between two limited blocks 22 in every group of limited block 22
Angle;Symmetrically there are two trigger boards 24 for installation on periphery on input shaft 5 far from 13 one end of input shaft bore;Two trigger boards
24 cooperate with two groups of limited blocks 22 respectively;In two trigger boards 24 it is each triggering between corresponding two limited blocks 22 at 3
Spend angle.As shown in Figure 29 a, so input shaft 5 is in initial zero degree, the input shaft 5 into three degree of rotation processes not will drive telescopic
Ring 23 rotates;But four position limitation arc blocks 48 and drive ring 7 on input shaft 5 and on stop collar 47 are mounted on due to stop collar 47
Upper four limit arcs slot 45 cooperates;So input shaft 5 will drive the rotation of drive ring 7;The rotation of drive ring 7 drives three drive shafts 31
It is rotated around 7 axis of drive ring;As shown in Figure 27 a, three rotations of drive shaft 31 can drive three triggering blocks 36 around drive respectively
The rotation of 7 axis of rotating ring;One side triggering block 36 rotates meeting so that being located at 36 turns of triggering block in corresponding two rectangular triggering blocks 38
One rectangular triggering block 38 of dynamic direction side is moved along guide groove 33;Due to first in this rectangular 38 moving process of triggering block
Stuck teeth 27 make to connect between stuck teeth 27 and output disk 17 for friction under the action of second spring 29 under beginning state
Touching, and the frictional force between stuck teeth 27 and output disk 17 is greater than the elastic force of second spring 29;So rectangular triggering block 38
Movement can squeeze second spring 29;When triggering block 36 makes the compressive state of second spring 29 reach capacity shape during rotation
When state;As shown in figure 27b, the rotation of triggering block 36 will drive corresponding rectangular triggering block 38 and rotate around 7 axis of drive ring;It is rectangular
The rotation of triggering block 38 drives corresponding arc shell 28 to rotate around 7 axis of drive ring;The rotation of arc shell 28 will drive mounting circular ring
43 rotations;Another aspect triggering block 36 rotates meeting so that another rectangular triggering block 38 in corresponding two rectangular triggering blocks 38
Rectangular triggering block 38 is driven to move under the action of 17 extruding force of output disk along corresponding guide groove 33;In rectangular triggering block 38
Third spring 30 is compressed in moving process;Finally make stuck teeth 27 and rectangular triggering slot 35 in second spring 29, third bullet
Reach equilibrium state under the action of frictional force between spring 30 and stuck teeth 27 and output disk 17;When mounting circular ring 43 rotates
It will drive 15 drive shafts 31 to rotate around 43 axis of mounting circular ring;The rotation of 15 drive shafts 31 drive 15 driving thin slices 15 around
43 axis of mounting circular ring rotation;15 driving thin slice 15 rotations drive 15 swing teeth 10 to put around corresponding rotation axis 19
It is dynamic;In swinging 10 swing process of teeth;When the inclined-plane for swinging teeth 10 is parallel with the side of corresponding rectangular teeth 11;Such as figure
Shown in 27c, the stuck teeth 27 positioned at 36 rotation direction side of triggering block are just moved to corresponding on output disk 17
One square groove, 16 outside;At this time under the action of second spring 29;Stuck teeth 27 can be pressed against in the first square groove 16;Due to
In the present invention when stuck teeth 27 cooperate with corresponding first direction slot, and second spring 29 and third spring 30 are all in certainly
By under retracted position;The inclined-plane of stuck teeth 27 and the side of the first square groove 16 are just engaged;When stuck teeth 27 with
When corresponding first direction slot cooperates, and second spring 29 is in free extension state and third spring 30 is in ultimate elongation shape
Under state;The inclined-plane of stuck teeth 27 is fully located at 16 inside of the first square groove;So stuck teeth 27 can be by first direction slot card
Extremely;I.e. mounting circular ring 43 is stuck by output disk 17;I.e. it is stuck to be mounted disk for swing teeth 10;As shown in Figure 29 b, and at this time
Trigger board 24 on input shaft 5 is just contacted with limited block 22;So the rotation of input shaft 5 just will drive the rotation of telescopic ring 23;
As shown in Figure 30 a, the rotation of lantern ring 23 of stretching drives input disk 20 to rotate;It inputs the rotation of disk 20 and drives 15 rectangular teeth 11
Around input 20 axis of disk rotation;As according to fig. 30b, 15 rectangular rotations of teeth 11 drive 15 swing teeth 10 around defeated
Enter the rotation of 20 axis of disk;15 swing teeth 10 rotations drive output cylinder 18 to rotate;It exports the rotation of cylinder 18 and drives output
Disk 17 rotates;The rotation of output disk 17 drives output shaft 1 to rotate;I.e. input shaft 5 can drive output shaft 1 to rotate;Work as input
When axis 5 stops operating;As shown in figure 28 a, input shaft 5 first inverts certain angle;In 5 rotation process of input shaft;5 meeting of input shaft
Drive ring 7 is driven to turn an angle;As depicted in fig. 28b, drive ring 7 drives three drive shafts 31 to turn around 7 axis of drive ring
It is dynamic;As shown in Figure 28 c, three drive shafts 31 turn an angle so that three drive shafts 31 drive three triggering blocks 36 to be restored to
On position originally;The lantern ring 23 that stretches at this time is restored on original position under the action of the second scroll spring 9;Mounting circular ring
43 can be restored to original position under the action of the first scroll spring 6;In 43 recovery process of mounting circular ring;Mounting circular ring
43, which will drive 15 swing teeth 10, is restored on the position of principle;Rectangular triggering block 38 is under the action of third spring 30 simultaneously
It is restored on original position;Due to when stuck teeth 27 cooperate with corresponding first direction slot, and second spring 29 and
Three springs 30 are all under free extension state;The inclined-plane of stuck teeth 27 is just contacted with the side of the first square groove 16 matches
It closes;So the rotation of mounting circular ring 43 just will drive stuck teeth 27 and be restored to original position;When output shaft 1 rotates;Such as figure
Shown in 26a, output shaft 1, which will drive, swings teeth 10 around the rotation of 1 axis of output shaft;Due to 6 pairs of installation circles of the first scroll spring
The positive driving force of ring 43 is greater than the elastic force of the first spring 8;As illustrated in figure 26b, so on the one hand swinging the rotation of teeth 10 can squeeze
Press rectangular teeth 11;So that rectangular teeth 11 are to close to the movement of the side of input shaft bore 13;The rectangular movement of teeth 11 will drive defeated
It is mobile to enter disk 20;It inputs mobile drive of disk 20 and triggers the movement of ring 46;It is mobile to trigger the mobile drive stop collar 47 of ring 46;Limit
47 movement of ring will make position limitation arc block 48 and limit arc slot 45 disengage;Simultaneously because mounting circular ring 43 is in static shape at this time
State;So the rotation of output shaft 1 will to swing the swing certain angle of teeth 10;And this angle is pushing swing teeth 10
During rectangular teeth 11 more smoothly;When rectangular teeth 11 are pushed to the disengaging of teeth 10 is swung;Swing teeth 10
Rotation would not drive input disk 20 to rotate;And then it would not be rotated with driven input shaft 5;And output shaft 1 is rotating certain angle
Mounting circular ring 43 can be driven to rotate by the first scroll spring 6 after degree;The rotation of mounting circular ring 43 will drive drive by drive shaft 31
Rotating ring 7 rotates;Since position limitation arc block 48 at this time and limit arc slot 45 have disengaged;So the rotation of drive ring 7 not will drive limit
Ring 47 rotates;The rotation of input shaft 5 is not will drive;Thin slice 15 is driven in the present invention, and it can guarantee driving when mounting circular ring 43
When swinging the swing of teeth 10;Mounting circular ring 43 will not be interfered with teeth 10 are swung.
Three support shafts 73 are separately mounted on the side of supporting block 49 in the present invention;In three support shafts 73 wherein
There is a support shaft 73 to be located at other two 73 upside of support shaft, and two supports adjacent in three support shafts 73 turn
Spacing is equal between axis 73;The support shaft 73 for being located at upside in three support shafts 73 is located in rectangular cavity 76 and and driving machine
Structure 75 connects;Belt 74 is wrapped in the outside of three support shafts 73;Equably there are many sides for installation on the lateral surface of belt 74
Shape climbs block;Driving motor 50 is mounted on 76 inside lower end face of rectangular cavity;The input shaft 5 of clutch 51 is defeated with driving motor 50
Shaft 1 connects;One end of first gear axis 59 is connect with the output shaft 1 of clutch 51;Second gear 58 is mounted on first gear
One end of axis 59;First gear 53 is mounted on one end of second gear axis 62;First gear 53 is engaged with second gear 58;Three
The circumferential other end for being uniformly mounted to second gear axis 62 of resiliency urged item 54;It is located at the branch of upside in three support shafts 73
The junction of support shaft 73 and 53 shaft of first gear is equipped with ring retard 60;The round nose of damping shell 71 is mounted on three supports
In shaft 73 in the support shaft 73 of upside;Arc pushing block 64 is mounted on the support for being located at upside in three support shafts 73
In shaft 73, and it is located in damping slot 69 and cooperates with damping slot 69;One end of spacing block 56 passes through square orifice 72 and is located at spacing block
In slot 68;The one end for being located at 68 inside of spacing block slot on spacing block 56 is equipped with spring retaining plate 65;Spring retaining plate 65 with every
Cooperate from block slot 68;Spring retaining plate 65 and spacing block slot are equipped with the 4th spring 63 between 68 upper surface;The one of pushing plate 55
End is mounted on the upper end of spacing block 56;Pushing plate 55 and three resiliency urged items 54 cooperate;It is pushed away on the inside of damping slot 69 positioned at arc
The two sides of block 64 are provided with damping import 66 and damping outlet 67;Damping import 66 diameter be damping export 67 diameter
One third;Damping import 66 is connected with damping outlet 67 by hose;When slide work;Driving motor 50 is powered;Driving
Motor 50 drives the rotation of 51 input shaft 5 of clutch by 50 output shaft 1 of driving motor;51 input shaft 5 of clutch rotation by from
51 output shaft 1 of clutch drives first gear axis 59 to rotate;The rotation of first gear axis 59 drives second gear 58 to rotate;Second gear
58 rotations drive first gear 53 to rotate;The rotation of first gear 53 drives second gear axis 62 to rotate;Second gear axis 62 rotates
Three resiliency urged items 54 are driven to rotate around 58 shaft axis of second gear;Three resiliency urged items under the influence of centrifugal force
54 can contact with pushing plate 55 during rotation and pushing plate 55 is pushed to move up;Pushing plate 55 moves up drive isolation
Block 56 moves up;Spacing block 56 moves up the fluid communication that will make to be located at 64 two sides of arc pushing block in damping slot 69;
Damper 61 is ineffective;And then damper 61 will not play damping to first gear axis 59;And 53 shaft of first gear
Rotation just will drive the rotation of support shaft 73 for being located at upside in three support shafts 73;And then drive belt 74 around three branch
Support the outside rotation of shaft 73;The rotation of belt 74 drives the rectangular block of climbing on belt 74 that the outside of shaft 73 is supported to turn around three
It is dynamic;I.e. child can climb block and belt 74 is played by rectangular;It is to prevent three that the effect of ring retard 60 is designed in the present invention
53 shaft of first gear before pushing pushing plate 55 of resiliency urged item 54, which just will drive, is located at upside in three support shafts 73
Support shaft 73 rotate;So that damper 61 plays damping action to 53 shaft of first gear;Three supports are influenced to turn
The normal work of axis 73;When slide stops working;Driving motor 50 stops working;Damper 61 is to 53 turns of first gear at this time
Axis has effect;When have child climb to it is rectangular climb play on block when;Under child's gravity;Belt 74 will receive one downwards
Pressure;This pressure will drive belt 74 and the outside of shaft 73 supported to rotate around three;It is located in three support shafts 73 upper
The rotation of support shaft 73 of side just will drive the rotation of 53 shaft of first gear;And damper 61 has 53 shaft of first gear at this time
Damping action;So the velocity of rotation of 53 shaft of first gear will be relatively slow;This speed will not make child lose on slide
Control;And since the rotation of 53 shaft of effect first gear of clutch 51 will not impact driving motor 50;So when sliding
When ladder stops operating;Child plays on slide to damage child.
Specific embodiment: when people using the slide that designs of the present invention constantly;When slide work;Driving motor 50 is logical
Electricity;Driving motor 50 drives the rotation of 51 input shaft 5 of clutch by 50 output shaft 1 of driving motor;The rotation of 51 input shaft 5 of clutch
First gear axis 59 is driven to rotate by 51 output shaft 1 of clutch;The rotation of first gear axis 59 drives second gear 58 to rotate;The
The rotation of two gears 58 drives first gear 53 to rotate;The rotation of first gear 53 drives second gear axis 62 to rotate;Second gear axis
62 rotations drive three resiliency urged items 54 to rotate around 58 shaft axis of second gear;Three elasticity under the influence of centrifugal force
Push item 54 that can contact with pushing plate 55 during rotation and pushing plate 55 is pushed to move up;Pushing plate 55 moves up band
Dynamic spacing block 56 moves up;Spacing block 56 moves up the liquid that will make to be located at 64 two sides of arc pushing block in damping slot 69
It communicates;Damper 61 is ineffective;And then damper 61 will not play damping to first gear axis 59;And first gear 53
Shaft rotation just will drive the rotation of support shaft 73 for being located at upside in three support shafts 73;And then drive belt 74 around three
The outside rotation of a support shaft 73;The rotation of belt 74 drives the rectangular block of climbing on belt 74 to support the outer of shaft 73 around three
Side rotation;I.e. child can climb block and belt 74 is played by rectangular.
Claims (7)
1. a kind of slide, it is characterised in that: it include support shaft, belt, driving mechanism, rectangular cavity, it is rectangular climb block, support
Block is wherein provided with rectangular cavity on the inside of the upper end of supporting block;Driving mechanism is mounted on the inside of rectangular cavity;Three support shafts are pacified respectively
On the side of supporting block;Wherein there is a support shaft to be located on the upside of other two support shaft in three support shafts,
And three support spacing between two support shafts adjacent in shafts equal;The support for being located at upside in three support shafts turns
Axle position is connect in rectangular cavity and with driving mechanism;Belt is wrapped in the outside of three support shafts;On the lateral surface of belt
It installs evenly and climbs block there are many rectangular;
Above-mentioned driving mechanism include driving motor, clutch, clutch support, first gear, resiliency urged item, first support,
Second gear, first gear axis, ring retard, damper, second gear axis, wherein driving motor is mounted on rectangular cavity inside lower end
On face;Clutch is mounted on rectangular cavity inside lower end face by clutch support;The input shaft of clutch and driving motor
Export axis connection;First gear axis and second gear axis are installed on rectangular cavity inside lower end face by the first support, and the first tooth
Wheel shaft is located on the downside of second gear axis;One end of first gear axis and the output axis connection of clutch;Second gear is mounted on
One end of one gear shaft;First gear is mounted on one end of second gear axis;First gear is engaged due to second gear;Three bullets
Property push item to be circumferentially uniformly mounted to the other end of second gear axis;Damper, which is mounted in three support shafts, is located at upside
Support shaft on, and be located at rectangular cavity on the inside of;It is located at the support shaft and first gear shaft of upside in three support shafts
Junction ring retard is installed;
Above-mentioned damper include pushing plate, spacing block, damping shell, the 4th spring, arc pushing block, spring retaining plate, damping import,
Outlet, spacing block slot, square orifice, damping slot are damped, wherein damping shell is divided into round nose and square end;Damp square end on shell
Upper surface is provided with square orifice;The lower end of square orifice is provided with spacing block slot;The inside for damping round nose on shell has damping slot;Damping
The round nose of shell, which is mounted in three support shafts, to be located in the support shaft of upside;Arc pushing block is mounted on three support shafts
In be located at upside support shaft on, and be located at damping slot in damping slot cooperate;One end of spacing block is located at across square orifice
In spacing block slot;It is located at one end on the inside of spacing block slot on spacing block and spring retaining plate is installed;Spring retaining plate and spacing block
Slot cooperation;The 4th spring is installed between spring retaining plate and spacing block slot upper surface;One end of pushing plate is mounted on spacing block
Upper end;Pushing plate cooperates with three resiliency urged items;
The two sides for being located at arc pushing block on the inside of above-mentioned damping slot are provided with damping import and damping outlet;Damp import diameter
For the one third of the diameter of damping outlet;Damping import is connected with damping outlet by hose;
Above-mentioned clutch includes output shaft, stuck mechanism, mounting shell, angle trigger mechanism, input shaft, the first scroll spring, drives
Rotating ring, the first spring, the second scroll spring, swing teeth, rectangular teeth, output shaft hole, limit arc slot, triggering ring, stop collar,
Position limitation arc block, input shaft bore, Fixing shrink ring, drive rod, the first square groove, output disk, output cylinder, rotation axis, input circle
Disk, clamping rings, flexible lantern ring, teeth shaft hole, teeth drive shaft hole, triggering square groove, arc groove, arc driver slot, installation
Annulus, wherein the both ends of mounting shell are respectively provided with input shaft bore and output shaft hole;Input shaft is mounted in input shaft bore, and is inputted
The both ends of axis are located inside and outside mounting shell;Arc is limited there are four circumferentially equably opening on the inner headed face of drive ring one end
Slot;Drive ring is mounted on mounting shell inner headed face;Input disk is mounted on the inner circle for not being provided with limit arc slot one end on drive ring
On face;Edge far from flexible lantern ring side end face on input disk is circumferentially equably equipped with 15 rectangular teeth;It is flexible
One end of lantern ring is mounted on input disk;It is located at peace on the inner headed face and input shaft of input shaft bore one end on flexible lantern ring
Fill the angle triggering for being equipped between the periphery of shell inner opposite end and capable of postponing to rotate transmitting between input shaft and flexible lantern ring
Mechanism;There are four position limitation arc blocks for circumferential equably installation on the periphery of stop collar one end;Stop collar be mounted on input shaft and
Four limit arc slots cooperate on four position limitation arc blocks and drive ring on stop collar;Trigger ring one end with input disk on it is separate
The one end fits of output shaft hole, the other end for triggering ring are connect with stop collar;Fixation is installed on the inside of the other end of flexible lantern ring
Annulus;Clamping rings is mounted on one end on input shaft far from input shaft bore;First is installed between input disk and clamping rings
Spring;Output shaft is mounted in output shaft hole, and the both ends of output shaft are located inside and outside mounting shell;Output shaft is upper
One end on the inside of mounting shell is equipped with output disk;There are six first for tool on end face on output disk far from output shaft side
Square groove, and six the first square grooves are circumferentially uniformly distributed in pairs;The one end for exporting cylinder is circumferentially equably equipped with 15
A rotation axis;The other end of output cylinder is mounted on the side that the first square groove is provided on output disk;Swing one end of teeth
There are two symmetrical inclined-planes for tool;The other end for swinging teeth has teeth shaft hole;15 swing teeth pass through thereon respectively
Teeth shaft hole and 15 being fitted to for rotation axis export on cylinder;15 swing teeth respectively with 15 rectangular teeth one
One corresponding matching;15 sides swung in teeth with teeth shaft hole are mounted on a driving thin slice;Each driving is thin
On piece all has a teeth drive shaft hole;The inner circumferential of mounting circular ring is equably opened there are three arc groove;Three arc grooves
Side be provided with an arc driver slot;Three arc driver slots are pierced by mounting circular ring;The other side of three arc grooves is equal
Square groove is triggered there are two opening;Three triggering square grooves are pierced by mounting circular ring;On the inner headed face of mounting circular ring one end circumferentially equably
15 drive rods are installed;Fixing shrink ring is installed on the inner headed face of the mounting circular ring other end;Mounting circular ring passes through Fixing shrink ring
It is mounted on output cylinder, and the teeth drive shaft hole one on 15 drive rods and 15 driving thin slices on mounting circular ring is a pair of
It answers;The side of triggering square groove is provided on mounting circular ring close to output disk;First is equipped between mounting circular ring and output cylinder
Scroll spring;It is fixedly mounted on the inside of first scroll spring on output cylinder;The outer end of first scroll spring is fixedly mounted on
Mounting circular ring is provided on the end face of triggering square groove side;One is separately installed with to installation in three arc grooves on mounting circular ring
Annulus plays the stuck mechanism of position-limiting action;One end of three stuck mechanisms is connect with drive ring respectively;Three stuck mechanisms
The other end cooperates with output disk respectively;
When output shaft work;Input shaft certainly exists load;When input shaft work;Output shaft certainly exists load;First
The elastic force of spring is less than the first scroll spring to the positive driving force of mounting circular ring;The elastic force of first scroll spring is second spring
3 times of elastic force;
Above-mentioned angle trigger mechanism includes limited block, trigger board, wherein the inner headed face far from input disk one end on flexible lantern ring
On two groups of limited blocks are symmetrically installed;At 6 degree of angles between two limited blocks in every group of limited block;Far from defeated on input shaft
Enter trigger board there are two symmetrically installing on the periphery of axis hole one end;Two trigger boards cooperate with two groups of limited blocks respectively;Two
At 3 degree of angles between each trigger board and corresponding two limited blocks in a trigger board;
Above-mentioned stuck mechanism include stuck teeth, arc shell, second spring, third spring, drive shaft, second square groove, guide groove,
Arc guide barrel, triggering slot, triggering block, guide block, rectangular triggering block, teeth slot, wherein open that there are two symmetrical on the inside of arc shell
Second square groove;It symmetrically opens there are two guide groove the two sides up and down of two second square grooves;Triggering is provided on the inside of arc shell
Slot;One end of triggering slot is pierced by arc shell;Triggering slot is communicated with two square grooves;There are two symmetrical for tool on the side of arc shell
Arc guide barrel;Two arc guide barrels are communicated with two second square grooves respectively;Two arc guide barrels are communicated with triggering slot;Three arcs
Shape shell is separately mounted in three arc grooves;Six square grooves and six triggering square grooves cooperate;Six arc guide barrels are in pairs
Cooperate respectively with three arc driver slots;Teeth slot is provided on the end face of rectangular triggering block;There are two one end tools of stuck teeth
Symmetrical inclined-plane;The other end of stuck teeth is mounted in the teeth slot in rectangular triggering block;On the downside of stuck teeth and teeth slot
Second spring is installed between face;Symmetrically there are two guide blocks for installation on the two sides of rectangular triggering block;Two rectangular triggering blocks
Being fitted on arc shell by four guide grooves on two guide blocks and arc shell thereon respectively;Two rectangular triggering blocks
On four guide blocks and corresponding four guide grooves between be separately installed with a third spring;One end of triggering block has inclined-plane;Touching
The other end of hair block is equipped with a drive shaft;Three triggering blocks are separately mounted in three triggering slots, and three triggering blocks point
It is not mounted on drive ring on the end face of mounting circular ring side by drive shaft;Three triggering blocks respectively with it is corresponding rectangular
Triggering block cooperation.
2. a kind of slide according to claim 1 again, it is characterised in that: above-mentioned flexible lantern ring there is Telescopic to have
Transmission agency.
3. a kind of slide according to claim 1, it is characterised in that: six stuck teeth are pierced by six triggering square grooves respectively
Cooperate with six the first square grooves on output disk.
4. a kind of slide according to claim 1, it is characterised in that: above-mentioned first spring is compressed spring;Second spring
For compressed spring;Third spring is extension spring.
5. a kind of slide according to claim 1, it is characterised in that: be equipped between above-mentioned input shaft and flexible lantern ring pair
Angle trigger mechanism plays the role of the second scroll spring of return;The inner end of second scroll spring is mounted on input shaft;Second
The outer end of scroll spring is mounted on the end face of flexible lantern ring.
6. a kind of slide according to claim 1, it is characterised in that: stuck teeth are in second spring in the initial state
So that being CONTACT WITH FRICTION between stuck teeth and output disk under effect, and the frictional force between stuck teeth and output disk
Greater than the elastic force of second spring.
7. a kind of slide according to claim 1, it is characterised in that: when stuck teeth cooperate with corresponding first direction slot
When, and second spring and third spring are all under free extension state;The side on the inclined-plane of stuck teeth and the first square groove
Just it is engaged;When stuck teeth cooperate with corresponding first direction slot, and second spring be in free extension state and
Third spring is under ultimate elongation state;The inclined-plane of stuck teeth is fully located on the inside of the first square groove.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201910083958.4A CN109603166A (en) | 2017-09-01 | 2017-09-01 | A kind of slide |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710778769.XA CN107320968B (en) | 2017-09-01 | 2017-09-01 | A kind of slide based on bidirectional clutch |
CN201910083958.4A CN109603166A (en) | 2017-09-01 | 2017-09-01 | A kind of slide |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201710778769.XA Division CN107320968B (en) | 2017-09-01 | 2017-09-01 | A kind of slide based on bidirectional clutch |
Publications (1)
Publication Number | Publication Date |
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CN109603166A true CN109603166A (en) | 2019-04-12 |
Family
ID=60204241
Family Applications (3)
Application Number | Title | Priority Date | Filing Date |
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CN201910083953.1A Active CN109667851B (en) | 2017-09-01 | 2017-09-01 | Slide using bidirectional clutch |
CN201910083958.4A Withdrawn CN109603166A (en) | 2017-09-01 | 2017-09-01 | A kind of slide |
CN201710778769.XA Expired - Fee Related CN107320968B (en) | 2017-09-01 | 2017-09-01 | A kind of slide based on bidirectional clutch |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
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CN201910083953.1A Active CN109667851B (en) | 2017-09-01 | 2017-09-01 | Slide using bidirectional clutch |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
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CN201710778769.XA Expired - Fee Related CN107320968B (en) | 2017-09-01 | 2017-09-01 | A kind of slide based on bidirectional clutch |
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Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108317202B (en) * | 2018-02-05 | 2018-12-14 | 杭州富阳新远新能源有限公司 | A kind of automobile absorber based on variable friction damper |
CN108553157B (en) * | 2018-05-16 | 2020-10-09 | 义乌飞思科技有限公司 | Orthopedics backup pad that disabled patient of leg used |
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Also Published As
Publication number | Publication date |
---|---|
CN107320968B (en) | 2019-03-08 |
CN107320968A (en) | 2017-11-07 |
CN109667851A (en) | 2019-04-23 |
CN109667851B (en) | 2020-05-12 |
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Application publication date: 20190412 |
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