A kind of indoor decoration based on flywheel energy storage ground bar
Art
The invention belongs to indoor decoration ground bar technical field, more particularly to a kind of indoor decoration based on flywheel energy storage
Bar.
Background technology
Current indoor decoration is often common wooden hammer and plastics hammer using ground bar;When staff rectifys to floor
Timing, ground bar is pounded to floor, can give the downward power in one, floor, while floor can also give ground one reaction force of bar;And
This reaction force can usually cause human hand by a bounce, very big impact to be caused to human hand, it is easy to injure in one's hands;
So design one kind can reduce in the correcting process of floor, ground bar is damaged to human hand, while one, floor can also be given
Appropriate power reaches the purpose on correction floor.
Bar solves as above problem to the present invention with designing a kind of indoor decoration based on flywheel energy storage.
The content of the invention
To solve drawbacks described above of the prior art, the present invention discloses a kind of indoor decoration floor based on flywheel energy storage
Hammer, it is realized using following technical scheme.
A kind of indoor decoration based on flywheel energy storage ground bar, it is characterised in that:It includes handle, hammer body, wherein handle
One end be arranged on hammer body periphery on.
Above-mentioned hammer body includes hammer shell, the hammer heart, connecting hole, the first guide groove, projection, flywheel, deep-slotted chip breaker, the second guide groove, first
Guide block, second spring, retainer ring, the 3rd spring, the first spacing breach, reset inclined-plane, limited block, the second guide block, release block, the
Four springs, limited block groove, the 5th spring, wherein being provided with a connecting hole on the periphery of hammer shell;Hammer the lower end of the inner headed face of shell into shape
Symmetrically it is provided with two the first guide grooves;The upper end of hammer shell inner headed face is symmetrically provided with two the second guide grooves;Hammer body inner headed face it is upper
End is symmetrically provided with two limited block grooves, and two limited block grooves mutually stagger with two the second guide grooves;Hammer into shape the heart periphery it is upper
End is symmetrically installed with two the first guide blocks;The upper end of the hammer heart is arranged on by the cooperation of two the first guide blocks and two the first guide grooves
Hammer the lower end of the inner headed face of shell into shape;Two the first spacing breach are symmetrically provided with the periphery for discharging block, each first is spacing scarce
The downside of mouth, which has, resets inclined-plane;The upper end of release block is uniformly provided with three deep-slotted chip breakers;Symmetrically pacify the upper end of release block periphery
Equipped with two the second guide blocks;Discharge the inner headed face that block is arranged on hammer shell by the cooperation of two the second guide blocks and two the second guide grooves
Upper end, and release block leaves gap with the upper end inside hammer shell;One end of two limited blocks is separately mounted to two limited block grooves
In;The other end of two limited blocks coordinates with the first spacing breach;Is provided between limited block and corresponding limited block groove
Five springs;And the 5th spring one end be arranged on limited block on, the other end be arranged on limited block groove inner face on;The heart is hammered into shape with releasing
Put and the 4th spring is installed between block;The upper end of 4th spring is arranged on the lower end of release block, and the lower end of the 4th spring is arranged on
Hammer the upper end of the heart into shape;Retainer ring is arranged on the inner headed face of hammer shell, and retainer ring is located between the hammer heart and release block;Retainer ring is with releasing
Circumference is uniformly provided with four the 3rd springs between putting block;And the 3rd spring one end be installed in release block lower end, it is another
End is installed in the upper end of retainer ring;It is circumferential between retainer ring and the hammer heart that four second springs are uniformly installed;And second spring
One end be installed in the upper end of the hammer heart, the other end is installed in the lower end of retainer ring;Pacified by connecting hole one end of handle shell
On hammer body;Motor is arranged on the upper end in hammer shell;One end of gear is provided with input shaft, gear it is another
One end is provided with driven shaft;Gear is connected by the rotary shaft of input shaft and motor;The upper end of flywheel be arranged on from
On moving axis;The lower end of flywheel is uniformly provided with three projections, and three projections coordinate with three deep-slotted chip breakers.
Above-mentioned gear include clamping rings, driving ring, support annulus, first cone tooth, first rotating shaft, the second rotating shaft,
First spacing ring, the second fix bar, first gear, second gear, the second spacing ring, the second angular wheel, annulus set, annulus
Chamber, connecting rod, driven shaft, the 3rd conical ring tooth, drive shaft, the first fix bar, the 3rd spacing ring, the 3rd gear, the 6th spring,
Four retainer rings, the 4th gear, the 5th gear, speed change shell, the 5th retainer ring, manhole, shaft hole, drive shaft fix bar,
One end of three rotating shafts, wherein drive shaft is provided with shaft hole;There is internal thread on shaft hole inner headed face;Drive shaft is solid by drive shaft
Fixed pole is arranged on the inner headed face of speed change shell;One end of 3rd rotating shaft has external screw thread, and the 3rd rotating shaft passes through external screw thread and rotating shaft
The cooperation of internal thread in hole is arranged in shaft hole;One end of annulus set is provided with an annular chamber;Annulus set is arranged on driving
Axle is close to one end of the 3rd rotating shaft;It is circumferential between annular chamber that annulus is put and the 3rd rotating shaft that four the 6th bullets are uniformly installed
Spring;One end of 6th spring is arranged in the 3rd rotating shaft, and the other end is arranged on the annular chamber Inner discs on annular groove;Second cone
Shape gear is arranged in the 3rd rotating shaft, and the second angular wheel is close to annulus set;3rd spacing ring is arranged on the another of the 3rd rotating shaft
One end;First gear is arranged in the 3rd rotating shaft, and first gear is close to the 3rd spacing ring;Second rotating shaft passes through the second fix bar
On the inwall of speed change shell;One end of second rotating shaft is provided with the second spacing ring;Second gear is arranged in the second rotating shaft,
And second gear is close to the second spacing ring;Second gear is engaged with the second angular wheel;The other end of second rotating shaft is provided with
One cone tooth;First rotating shaft is arranged on by the first fix bar on the inwall of speed change shell;The two ends of first rotating shaft are separately installed with
One spacing ring and the 4th retainer ring;And first spacing ring be located at first rotating shaft on close to first gear one end;3rd gear is pacified
In first rotating shaft, and the 3rd gear is close to the first spacing ring;3rd gear is engaged with first gear;4th gear is arranged on
In first rotating shaft, and the 4th gear is close to the 4th retainer ring;3rd conical ring tooth is arranged in first rotating shaft;3rd conical ring tooth and
One cone tooth engagement;The center of support annulus end face is provided with manhole;One end of annulus is supported to be arranged on the 3rd conical ring tooth,
And support annulus is located at by manhole on the periphery of first rotating shaft;Uniformly installed on the end face of the other end of support annulus
There are three connecting rods;Three the 5th retainer rings are arranged on one end of three connecting rods;Three the 5th gears are separately mounted to three
In connecting rod;Three the 5th gears are close to the 5th retainer ring;Three the 5th gears are engaged with the 4th gear;Driving ring one end
It is provided with internal tooth;Driving ring is arranged on by clamping rings on the inwall of speed change shell;Driving ring passes through internal tooth and three the 5th gears
Engagement;The other end of driving ring is provided with driven shaft;Driven shaft and drive shaft respectively pass the two ends of speed change shell.
As the further improvement of this technology, above-mentioned 3rd conical ring tooth is arranged in first rotating shaft by bearing.
As the further improvement of this technology, above-mentioned 3rd spring is compression spring;Second spring is extension spring.
As the further improvement of this technology, the gap of above-mentioned release block and flywheel is more than distance between the hammer heart and fixed plate
Twice;Such design ensure that release block completely can fall the energy dissipation for hammering the heart into shape, serve the effect of noise reduction.
As the further improvement of this technology, above-mentioned release block is remained with limited block to be contacted.
Relative to traditional indoor decoration ground bar technology, a kind of indoor decoration based on flywheel energy storage that the present invention is designed
Bar its effect in ground is, in decorateing indoors during installation floor, can carry out correction process to floor by it.
Block is discharged in the present invention can be made by the cooperation of the second guide block mounted thereto and the second guide groove on hammer shell
Block must be discharged to move up and down along the second guide groove;Two limited blocks are by the cooperation with the first spacing breach on release block to releasing
Put block and serve spacing effect;Retainer ring on the inside of hammer shell serves the work of support to second spring and the 3rd spring
With;The hammer heart can to hammer the heart into shape by the cooperation of two the first guide blocks on its periphery and the first guide groove on hammer shell
Moved up and down along the first guide groove;The 4th spring between release block and the hammer heart can be transmitted between release block and the hammer heart
Power;Four second springs between fixed plate and the hammer heart can be extensive to heart offer one is hammered into shape when being in compressive state
Multiple power;Four the 3rd springs between fixed plate and release block can provide one when being in extended state to release block
Restoring force;The 5th spring between limited block and limited block groove can provide one when being in compressive state to limited block
Restoring force.The upper end of flywheel is arranged on driven shaft;Driven shaft can flywheel driven rotation when rotating;Can have by gear
Effect accelerates the velocity of rotation of flywheel, and can maintain a speed operation increased;Deep-slotted chip breaker in release block is moved up thereon
During with projection contacts, flywheel drives the raised rotation being arranged on the downside of it;Projection movement hits deep-slotted chip breaker cell wall, during to being released
One downward pressure of block is put so that release block is moved down;Now flywheel also becomes its rotating speed by release one resistance of block
Slowly;After block is discharged and flywheel is completely disengaged from, flywheel rotating speed in the presence of motor and gear increases again;For under
Secondary correction work is prepared.
The 3rd rotating shaft nesting is arranged in drive shaft in the present invention;Annulus set is installed on the driving shaft, and annulus set and the
Four the 6th springs are installed between three rotating shafts;First gear and the second angular wheel are arranged in the 3rd rotating shaft;Second gear
In the second rotating shaft;One end of second rotating shaft is provided with the first cone tooth;Second gear is engaged with the second angular wheel;3rd
Gear is arranged on one end of first rotating shaft, and is engaged with first gear;3rd conical ring tooth is arranged in first rotating shaft by bearing,
And the 3rd conical ring tooth with first cone tooth engage;Annulus is supported to be arranged on one end of the 3rd conical ring tooth;Three connecting rods are arranged on branch
Hold round one end of ring;Three the 5th gears are separately mounted in three connecting rods;4th gear is arranged on the another of first rotating shaft
End;4th gear is engaged with three the 5th gears, and three the 5th gears are engaged with the internal tooth in driving ring;Driven shaft, which is arranged on, to be driven
On rotating ring;When the driving shaft rotates, annulus set is driven to rotate, annulus drives the 3rd rotating shaft to turn in the presence of being enclosed on the 6th spring
It is dynamic, and the 3rd axis of rotation speed is less than drive shaft turns speed;It is connected through a screw thread between drive shaft and the 3rd rotating shaft;So
Drive shaft turns can cause the 3rd rotating shaft to move, while the 3rd axis of rotation drives the second angular wheel and first gear to rotate;
3rd conical ring tooth, which is rotated, drives second gear to rotate;Second gear, which is rotated, drives the second axis of rotation;Second axis of rotation drives
First cone tooth is rotated;First cone cingulum moves the 3rd conical ring tooth and rotated;3rd conical ring tooth, which is rotated, drives support annulus to rotate;Branch is held round
Ring, which is rotated, drives three connecting rods to be rotated around first rotating shaft axis;Three connecting rods, which are rotated, drives three the 5th gears around the
One shaft axis are rotated;Three the 5th pinion rotations drive driving ring to rotate;First gear, which is rotated, simultaneously can drive the 3rd gear
Rotate;3rd pinion rotation drives first rotating shaft to rotate;First rotating shaft, which is rotated, drives the 4th pinion rotation;4th pinion rotation band
Move three the 5th pinion rotations;Three the 5th pinion rotations drive driving ring to rotate;Driving ring, which is rotated, drives driven shaft to rotate.This
The 3rd rotating shaft is moved while rotating in invention, and the 3rd rotating shaft can drive the second angular wheel to move on the move, by
It is being continually changing in the external diameter of the second angular wheel, so the second angular wheel on the move can cause and it while rotating
The velocity of rotation of the second gear of engagement constantly changes;Its effect of the gear that the present invention is designed is can to adjust driven
The moment of torsion of axle, while by a lower-powered motor flywheel can be driven to work;Reduce the overall weight of ground bar.
In the present invention when being engaged in second gear with the second angular wheel, the motion of driving ring is enclosed by three the 5th gears
The motion synthesis that the motion and three the 5th gears rotated around own axes rotates around first rotating shaft;Change any one motion
Speed, the movement velocity of driving ring can change.Four the 6th springs in extended state can provide one to the 3rd rotating shaft
Individual restoring force.The first spacing breach and the gradient of the contact surface of limited block that the present invention is designed are smaller;So that limited block and release
Block is not readily disengaged from;And the gradient for resetting the contact surface of inclined-plane and limited block is larger;So that limited block is easily separated from release block.
Above-mentioned 3rd spacing ring serves spacing effect to first gear;First spacing ring serves spacing work to the 3rd gear
With;4th retainer ring serves spacing effect to the 4th gear;5th retainer ring serves spacing effect to the 5th gear.
During ground bar use, four the 6th springs are in free retracted position;First spring, second spring, the
Three springs, the 4th spring, the 5th spring are in free retracted position;The meshing point of second gear and the second angular wheel is in the
The maximum of two taper gear diameters;When staff needs to be modified floor, floor is beaten by ground bar, this
The hour hammer heart can be caused the hammer heart to move up by a reaction force on floor;The hammer heart moves up the 4th spring of drive and pressed upwards
Contracting;Second spring is compressed upwards;4th spring can promote release block to move up;Now the 3rd spring is gradually pulled open;Limited block
Moved into stopper slot;5th spring is compressed;Release block is pushed away when limited block is less than the 4th spring to the resistance for discharging block
During power, the 4th spring can push release block open, disengage it from the constraint of limited block;During release block is moved up thereon
When deep-slotted chip breaker is with projection contacts, flywheel drives raised rotate being arranged on the downside of it to depart from deep-slotted chip breaker;Projection departs from deep-slotted chip breaker mistake
To release one downward pressure of block release block is moved down in journey, counteract impulsive force of the hammer heart to release block, reduce
Noise;Hammer one downward pressure of the heart can be given while block is moved down by the 4th spring by discharging simultaneously;Now the 4th bullet
Spring keeps phase substantially in being designed to release block when hammering the anti-acceleration of the heart into shape with discharging block without departing from limited block to the active force of the hammer heart
Together;Pressure action time of the hammer heart to ground is increased by this anti-acceleration;When staff lifts ground bar, driving electricity
Machine is stopped;Release block is gradually restored on original position on the 3rd spring and flywheel under raised role;The hammer heart exists
It is gradually restored in the presence of second spring on original position;Limited block returns to original position in the presence of the 5th spring
Put;3rd rotating shaft is moved in the presence of the restoring force of the 6th spring to the direction away from drive shaft;And then cause the second tooth
The contact point of wheel and the second angular wheel returns to original position.
Brief description of the drawings
Fig. 1 is global facility schematic appearance.
Fig. 2 is hammer shell structure schematic diagram.
Fig. 3 is release block scheme of installation.
Fig. 4 is hammer heart scheme of installation.
Fig. 5 is flywheel structure schematic diagram.
Fig. 6 is curved slot arrangement schematic diagram.
Fig. 7 is gear structural representation.
Fig. 8 is gear scheme of installation.
Fig. 9 is annulus nested structure schematic diagram.
Figure 10 is the 4th gear scheme of installation.
Figure 11 is the 5th gear scheme of installation.
Figure 12 is driving ring scheme of installation.
Figure 13 is drive shaft structural representation.
Figure 14 is hammer heart Force principle schematic diagram.
Label title in figure:1st, handle;2nd, shell is hammered into shape;3rd, the heart is hammered into shape;4th, motor;6th, gear;11st, it is raised;12nd, arc
Shape groove;13rd, flywheel;17th, connecting hole;18th, the first guide groove;19th, the second guide groove;20th, the first guide block;22nd, second spring;24th, it is solid
Determine ring;25th, the 3rd spring;26th, limited block;27th, the second guide block;28th, block is discharged;32nd, the 4th spring;33rd, limited block groove;34、
5th spring;35th, clamping rings;36th, driving ring;37th, annulus is supported;38th, the first angular wheel;39th, first rotating shaft;40th,
Two rotating shafts;41st, the first spacing ring;42nd, the second fix bar;43rd, first gear;44th, second gear;45th, the second spacing ring;46、
Second angular wheel;47th, annulus set fix bar;48th, annulus set;49th, connecting rod;50th, triconic gear;51st, first fix
Bar;52nd, the 3rd spacing ring;53rd, the 3rd gear;54th, the 6th spring;55th, the 4th retainer ring;56th, the 4th gear;57th, the 5th tooth
Wheel;58th, the 5th retainer ring;59th, manhole;60th, rotating shaft guide groove;61st, shaft hole;62nd, rotating shaft guide block;63rd, the 3rd rotating shaft;
64th, handle shell;65th, hammer body;67th, the first spacing breach;68th, the second spacing breach;69th, speed change shell;70th, drive shaft;71st, drive
Axle fix bar;72nd, driven shaft.
Embodiment
As shown in figure 1, it includes handle 1, hammer body 65, wherein one end of handle 1 is arranged on the periphery of hammer body 65.
As shown in figure 3, above-mentioned hammer body 65 includes hammer shell 2, projection 11, flywheel 13, deep-slotted chip breaker 12, the hammer heart 3, the first guide groove
18th, looping pit 21, the second guide groove 19, the first guide block 20, second spring 22, retainer ring 24, the 3rd spring 25, the first spacing breach
67th, inclined-plane 68, limited block 26, the second guide block 27, release block 28, the 4th spring 32, limited block groove 33, the 5th spring 34 are resetted,
Wherein as shown in Fig. 2 being provided with a connecting hole 17 on the periphery of hammer shell 2;The lower end for hammering the inner headed face of shell 2 into shape is symmetrically provided with two
Individual first guide groove 18;The upper end of the hammer inner headed face of shell 2 is symmetrically provided with two the second guide grooves 19;The upper end of the inner headed face of hammer body 65 is symmetrical
Ground is provided with two limited block grooves 33, and two limited block grooves 33 mutually stagger with two the second guide grooves 19;As shown in figure 3, the hammer heart 3
The upper end of periphery is symmetrically installed with two the first guide blocks 20;The upper end of the hammer heart 3 passes through two the first guide blocks 20 and two first
The cooperation of guide groove 18 is arranged on the lower end of the inner headed face of hammer shell 2;As shown in fig. 6, being symmetrically provided with the periphery of release block 28
Two the first spacing breach 67, the downside of each first spacing breach 67, which has, resets inclined-plane 68;The upper end for discharging block 28 is uniform
It is provided with three deep-slotted chip breakers 12;The upper end of the release periphery of block 28 is symmetrically installed with two the second guide blocks 27;Release block 28 passes through two
The cooperation of individual second guide block 27 and two the second guide grooves 19 is arranged in the inner headed face upper end of hammer shell 2, and release block 28 and hammer shell 2
Leave gap in the upper end in portion;One end of two limited blocks 26 is separately mounted in two limited block grooves 33;Two limited blocks 26
The other end coordinates with the first spacing breach 67;As shown in figure 4, being provided between limited block 26 and corresponding limited block groove 33
Five springs 34;And the 5th spring 34 one end be arranged on limited block 26 on, the other end be arranged on limited block groove 33 inner face on;
The 4th spring 32 is installed between the hammer heart 3 and release block 28;The upper end of 4th spring 32 is arranged on the lower end of release block 28, the 4th
The lower end of spring 32 is arranged on the upper end of the hammer heart 3;Retainer ring 24 is arranged on the inner headed face of hammer shell 2, and retainer ring 24 is located at hammer
Between the heart 3 and release block 28;It is circumferential between retainer ring 24 and release block 28 that four the 3rd springs 25 are uniformly installed;And the 3rd bullet
One end of spring 25 is installed in the lower end of release block 28, and the other end is installed in the upper end of retainer ring 24;Retainer ring 24 and the hammer heart 3
Between circumferential four second springs 22 are uniformly installed;And one end of second spring 22 is installed in the upper end of the hammer heart 3, the other end
It is installed in the lower end of retainer ring 24;One end of handle shell 64 is arranged on hammer body 65 by connecting hole 17;Motor 4 is installed
Upper end in hammer shell 2;One end of gear 6 is provided with drive shaft 70, and the other end of gear 6 is provided with driven shaft
72;Gear 6 is connected by drive shaft 70 with the rotary shaft of motor 4;The upper end of flywheel 13 is arranged on driven shaft 72;
The lower end of flywheel 13 is uniformly provided with three projections 11, and three projections 11 coordinate with three deep-slotted chip breakers 12.
As shown in fig. 7, above-mentioned gear 6 include clamping rings 35, driving ring 36, support annulus 37, first cone tooth 38,
First rotating shaft 39, the second rotating shaft 40, the first spacing ring 41, the second fix bar 42, first gear 43, second gear 44, second are limited
Position ring 45, the second angular wheel 46, annulus set 48, annulus chamber 60, connecting rod 49, driven shaft 72, the 3rd conical ring tooth 50, drive shaft
70th, the first fix bar 51, the 3rd spacing ring 52, the 3rd gear 53, the 6th spring 54, the 4th retainer ring 55, the 4th gear 56,
Five gears 57, speed change shell 69, the 5th retainer ring 58, manhole 59, shaft hole 61, drive shaft fix bar 71, the 3rd rotating shaft 63,
Wherein as shown in figure 13, one end of drive shaft 70 is provided with shaft hole 61;There is internal thread on the inner headed face of shaft hole 61;Drive shaft 70
On the inner headed face that speed change shell 69 is arranged on by drive shaft fix bar 71;One end of 3rd rotating shaft 63 has external screw thread, the 3rd turn
Axle 63 is arranged in shaft hole 61 by the cooperation of the internal thread in external screw thread and shaft hole 61;As shown in figure 9, annulus set 48
One end is provided with an annular chamber 75;Annulus set 48 is arranged on drive shaft 70 close to one end of the 3rd rotating shaft 63;On annulus set 48
It is circumferential between the rotating shaft 63 of annular chamber 75 and the 3rd that four the 6th springs 54 are uniformly installed;One end of 6th spring 54 is arranged on the
In three rotating shafts 63, the other end is arranged on the Inner discs of annular chamber 75 on annular groove;Second angular wheel 46 is arranged on the 3rd turn
On axle 63, and the second angular wheel 46 is close to annulus set 48;As shown in figure 8, the 3rd spacing ring 52 is arranged on the 3rd rotating shaft 63
The other end;First gear 43 is arranged in the 3rd rotating shaft 63, and first gear 43 is close to the 3rd spacing ring 52;Second rotating shaft 40 is led to
The second fix bar 42 is crossed on the inwall of speed change shell 69;One end of second rotating shaft 40 is provided with the second spacing ring 45;Second
Gear 44 is arranged in the second rotating shaft 40, and second gear 44 is close to the second spacing ring 45;The conical tooth of second gear 44 and second
Wheel 46 is engaged;The other end of second rotating shaft 40 is provided with the first cone tooth 38;First rotating shaft 39 is arranged on by the first fix bar 51
On the inwall of speed change shell 69;The two ends of first rotating shaft 39 are separately installed with the first spacing ring 41 and the 4th retainer ring 55;And first
Spacing ring 41 is located in first rotating shaft 39 close to one end of first gear 43;3rd gear 53 is arranged in first rotating shaft 39, and
3rd gear 53 is close to the first spacing ring 41;3rd gear 53 is engaged with first gear 43;As shown in Figure 10, the 4th gear 56 is pacified
In first rotating shaft 39, and the 4th gear 56 is close to the 4th retainer ring 55;3rd conical ring tooth 50 is arranged in first rotating shaft 39;
3rd conical ring tooth 50 is engaged with the first cone tooth 38;The center of the support end face of annulus 37 is provided with manhole 59;Support annulus 37
One end be arranged on the 3rd conical ring tooth 50 on, and support annulus 37 by manhole 59 be located at first rotating shaft 39 periphery
On;As shown in figure 11, three connecting rods 49 uniformly are installed on the end face of the other end of support annulus 37;Three the 5th retainer rings
58 are arranged on one end of three connecting rods 49;Three the 5th gears 57 are separately mounted in three connecting rods 49;Three the 5th teeth
Wheel 57 is close to the 5th retainer ring 58;As shown in figure 12, three the 5th gears 57 are engaged with the 4th gear 56;Driving ring 36 1
End is provided with internal tooth;Driving ring 36 is arranged on by clamping rings 35 on the inwall of speed change shell 69;Driving ring 36 passes through internal tooth and three
Individual 5th gear 57 is engaged;The other end of driving ring 36 is provided with driven shaft 72;Driven shaft 72 and drive shaft 70 are respectively passed
The two ends of speed change shell 69.
Above-mentioned 3rd conical ring tooth 50 is arranged in first rotating shaft 39 by bearing.
Above-mentioned 3rd spring 25 is compression spring;Second spring 22 is extension spring.
The gap of above-mentioned release block 28 and flywheel 13 is more than twice of distance between the hammer heart 3 and fixed plate.
Above-mentioned release block 28 is remained with limited block 26 to be contacted.
In summary:
A kind of indoor decoration based on the energy storage of flywheel 13 that the present invention is designed bar its effect be indoors decoration in install ground
Correction process can be carried out to floor by it during plate.
Cooperation of the block 28 by the second guide block 27 and the second guide groove 19 on hammer shell 2 mounted thereto is discharged in the present invention
Release block 28 can be caused to be moved up and down along the second guide groove 19;Two limited blocks 26 by with it is first spacing on release block 28
The cooperation of breach 67 serves spacing effect to release block 28;Retainer ring 24 installed in the inner side of hammer shell 2 is to second spring 22
The effect of support is served with the 3rd spring 25;Hammer the heart 3 into shape and pass through two the first guide blocks 20 and hammer shell 2 on its periphery
On the first guide groove 18 cooperation can cause hammer the heart 3 moved up and down along the first guide groove 18;Installed in release block 28 and the hammer heart 3
Between the 4th spring 32 can transmit release block 28 and hammer the heart 3 between power;Four between fixed plate and the hammer heart 3
Individual second spring 22 can provide a restoring force when being in compressive state to the hammer heart 3;Installed in fixed plate with release block 28 it
Between four the 3rd springs 25 be in extended state when can to release block 28 provide a restoring force;Installed in limited block 26 with
The 5th spring 34 between limited block groove 33 can provide a restoring force when being in compressive state to limited block 26.Flywheel 13
Upper end is arranged on driven shaft 72;Meeting flywheel driven 13 is rotated when driven shaft 72 is rotated;Can be in the short time by gear 6
The interior velocity of rotation for accelerating flywheel;When the deep-slotted chip breaker 12 in discharging block 28 and moving up thereon is contacted with projection 11, flywheel 13
The projection 11 being arranged on the downside of it is driven to rotate;Projection 11 gives release 28 1 downward pressure of block during departing from deep-slotted chip breaker 12
So that release block 28 is moved down;Now flywheel 13 is also made its rotating speed slack-off by release 28 1 resistances of block;When release block 28
After being completely disengaged from flywheel 13, its rotating speed in the presence of motor 4 and gear 6 of flywheel 13 is increased again;For under it
Secondary correction work is prepared.
The 3rd rotating shaft 63 is nested in the present invention is arranged in drive shaft 70;Annulus set 48 is arranged in drive shaft 70, and circle
Four the 6th springs 54 are installed between the rotating shaft 63 of ring set 48 and the 3rd;The angular wheel 46 of first gear 43 and second is arranged on the
In three rotating shafts 63;Second gear 44 is arranged in the second rotating shaft 40;One end of second rotating shaft 40 is provided with the first cone tooth 38;Second
Gear 44 is engaged with the second angular wheel 46;3rd gear 53 is arranged on one end of first rotating shaft 39, and is nibbled with first gear 43
Close;3rd conical ring tooth 50 is arranged in first rotating shaft 39 by bearing, and the 3rd conical ring tooth 50 is engaged with the first cone tooth 38;Support
Annulus 37 is arranged on one end of the 3rd conical ring tooth 50;Three connecting rods 49 are arranged on one end of support annulus 37;Three the 5th teeth
Wheel 57 is separately mounted in three connecting rods 49;4th gear 56 is arranged on the other end of first rotating shaft 39;4th gear 56 with
Three the 5th gears 57 are engaged, and three the 5th gears 57 are engaged with the internal tooth in driving ring 36;Driven shaft 72 is arranged on driving ring
On 36;When drive shaft 70 is rotated, annulus can be driven to cover 48 and rotated, annulus set 48 drives the 3rd in the presence of the 6th spring 54
Rotating shaft 63 is rotated, and the velocity of rotation of the 3rd rotating shaft 63 is less than the velocity of rotation of drive shaft 70;Between the rotating shaft 63 of drive shaft 70 and the 3rd
It is connected through a screw thread;So drive shaft 70 is rotated the 3rd rotating shaft 63 can be caused to move, while the 3rd rotating shaft 63, which is rotated, drives second
Angular wheel 46 and first gear 43 are rotated;3rd conical ring tooth 50, which is rotated, drives second gear 44 to rotate;Second gear 44 is rotated
The second rotating shaft 40 is driven to rotate;Second rotating shaft 40, which is rotated, drives the first cone tooth 38 to rotate;First cone tooth 38 drives the 3rd conical ring tooth
50 rotate;3rd conical ring tooth 50, which is rotated, drives support annulus 37 to rotate;Support annulus 37 rotate drive three connecting rods 49 around
The axis of first rotating shaft 39 is rotated;Three connecting rods 49, which are rotated, drives three the 5th gears 57 to be rotated around the axis of first rotating shaft 39;
Three the 5th gears 57, which are rotated, drives driving ring 36 to rotate;First gear 43, which is rotated, simultaneously drives the 3rd gear 53 to rotate;3rd
Gear 53, which is rotated, drives first rotating shaft 39 to rotate;First rotating shaft 39, which is rotated, drives the 4th gear 56 to rotate;4th gear 56 is rotated
Three the 5th gears 57 are driven to rotate;Three the 5th gears 57, which are rotated, drives driving ring 36 to rotate;Driving ring 36 rotate drive from
Moving axis 72 is rotated.The 3rd rotating shaft 63 is moved while rotating in the present invention, and the 3rd rotating shaft 63 can drive the on the move
Two angular wheels 46 are moved, because the outer warp of the second angular wheel 46 is being continually changing, so the second angular wheel on the move
46 can cause the velocity of rotation of the second gear 44 engaged constantly to change while rotating;The change that the present invention is designed
Its effect of fast mechanism 6 is can to adjust the moment of torsion of driven shaft 72, while can be winged to drive by a lower-powered motor
Wheel 13 works;And then reduce the overall weight of ground bar.
In the present invention when being engaged in second gear 44 with the second angular wheel 46, the motion of driving ring 36 is by three the 5th
The motion synthesis that the motion and three the 5th gears 57 that gear 57 rotates around own axes rotate around first rotating shaft 39;It is in
Four the 6th springs 54 of extended state can provide a restoring force to the 3rd rotating shaft 63.The first spacing breach that the present invention is designed
67 is smaller with the gradient of the contact surface of limited block 26;So that limited block 26 is not readily disengaged from release block 28;And reset inclined-plane 68
Gradient with the contact surface of limited block 26 is larger;So that limited block 26 is easily separated from release block 28.Above-mentioned 3rd spacing ring 52
Spacing effect is served to first gear 43;First 41 pair the 3rd of spacing ring gear 53 serves spacing effect;4th consolidates
Determine 55 pair of the 4th gear 56 of ring and serve spacing effect;5th 58 pairs of retainer ring thing gear serves spacing effect.
Embodiment:During ground bar use, four the 6th springs 54 are in free retracted position;First bullet
Spring 15, second spring 22, the 3rd spring 25, the 4th spring 32, the 5th spring 34 are in free retracted position;Second gear 44 with
The meshing point of second angular wheel 46 is in the maximum of the diameter of the second angular wheel 46;When staff needs to carry out floor
During amendment, ground bar beats floor, and this hour hammer heart 3 can be caused the hammer heart 3 to move up by the reaction force on a ground;Hammer
The heart 3 moves up the compression upwards of spring 32 of drive the 4th;Second spring 22 is compressed upwards;4th spring 32 can promote release block
28 move up;Now the 3rd spring 25 is gradually pulled open;Limited block 26 is moved into stopper slot;5th spring 34 is compressed;When
When the resistance of 26 pairs of release blocks 28 of limited block is less than the thrust of 32 pairs of release blocks 28 of the 4th spring, the 4th spring 32 can will discharge block
28 push open, disengage it from the constraint of limited block 26;As shown in figures 14a, it were it not for the effect of impact of flywheel, then when release block
After release, the pressure on ground is reduced rapidly.As shown in the b in Figure 14, collided after release block release by flywheel, work as release
When deep-slotted chip breaker 12 thereon is contacted with projection 11 during block 28 is moved up, flywheel 132 drives the projection being arranged on the downside of it
11 rotate the shock cell wall of deep-slotted chip breaker 12;During to release 28 1 downward pressure of block cause release block 28 move down, plus
Time of the hammer heart 3 to ground handling is grown;The design of release block reduces noise;Meeting while 28 pieces of release is moved down simultaneously
Hammer 3 one downward pressure of the heart are given by the 4th spring 32;Now the 4th spring 32 is to the anti-acceleration and release block 28 for hammering the heart 3 into shape
Essentially identical increased by this acceleration of active force that block 28 is discharged during without departing from limited block 26 to the hammer heart 3 hammers the heart 3 into shape to ground
Pressure;When staff lifts ground bar, motor 4 is stopped;Discharge block 28 the 3rd spring 25 effect under by
Gradually return on original position;The hammer heart 3 is gradually restored in the presence of second spring 22 on original position;Limited block 26
Returned in the presence of the 5th spring 34 on original position;3rd rotating shaft 63 is in the presence of the restoring force of the 6th spring 54
Moved to the direction away from drive shaft 70;And then cause the contact point of the angular wheel 46 of second gear 44 and second to return to original
The position come.