Invention content
Technical problem to be solved by the invention is to provide a kind of novel New-energy electric vehicle direct-current charging posts, can
Solve the problems in above-mentioned present technology.
The present invention is achieved through the following technical solutions:A kind of novel New-energy electric vehicle direct current of the present invention fills
Electric stake, including pile body, pile body bosom position are equipped with manipulation chamber, take-up are arranged at left and right sides of the manipulation chamber
Chamber is equipped with operating groove in the pile body outer wall on front side of the take-up chamber, and the manipulation intracavitary bottom wall is equipped with front and back extended
Sliding groove, front and back extended screw rod, the screw rod rear side end and first motor be connected by power are equipped in the sliding groove,
The movable block for upwardly extending and stretching into the manipulation intracavitary, the movable block front left side and right lateral side side are equipped in the sliding groove
It is equipped with convex sliding block at edge, drive cavity is equipped between the convex sliding block and the movable block, the movable block interposition installs
Have the second motor, second motor front and rear sides are equipped with through hole, the through hole outboard ends of front and rear sides respectively with
The drive cavity in the movable block of front and rear sides is connected setting, and inner end is equipped in the through hole of front and rear sides
The shaft being connect with second motor power, the shaft are connected with the through hole transition, the shaft outboard end
It stretches into the corresponding drive cavity and is rotatably assorted with the transmission cavity wall and connect, outside the shaft in the drive cavity
It is circumferentially fixed with first pulley on surface, the rotation for the connection that is rotatably assorted is equipped in the drive cavity in the convex sliding block
Axis is circumferentially fixed with the second belt wheel in the rotation axis, and transmission skin is equipped between the first pulley and second belt wheel
Band is each equipped with the first taper cone pulley on the inside of the convex sliding block on outer wall, and first taper cone pulley is fixed with the rotation axis to be connected
It connects, the take-up intracavitary is equipped with Wire winding shaft, and each Wire winding shaft inner end runs through the pile body wall body and stretches into the behaviour
Intracavitary is controlled, the take-up shaft end of the manipulation intracavitary is fixed with the second taper cone pulley, the take-up chamber and the operating groove
Between be equipped with through-hole and the buckling groove that is arranged between the through-hole and the operating groove, be equipped with rear side end in the operating groove
The charging pipette tips in the buckling groove are stretched into, the charging pipette tips left and right sides are simultaneously equipped with by pressure ring, the charging pipette tips
Back end surface is equipped with leads interpolating unit to be inserted into the through-hole.
Further technical solution is each equipped with take-up reel, the take-up on the Wire winding shaft of the take-up intracavitary
Disk is equipped with charging wire on disk, and the charging wire is fixedly connected with the interpolating unit rear side end of leading.
Further technical solution, described to be fixedly connected with the charging pipette tips end face outside by pressure ring inner side end, institute
It states and is fixed with lines portion by pressure ring end face outside, the trailing flank by pressure ring between the charging pipette tips is equipped with sealing
Pad.
The convex sliding block of further technical solution, movable block front left side edge is located at left side and positioned at described
The convex sliding block of the forward position of Wire winding shaft, movable block right lateral side edge is located at right side and positioned at the Wire winding shaft
Rearward position, the first taper cone pulley on the inside of the convex sliding block on outer wall are oppositely arranged with the second taper cone pulley.
Further technical solution, the convex cunning of manipulation the chamber front inner wall and movable block front left side edge
First sensor, the convex cunning for manipulating inner wall and movable block right lateral side edge on rear side of chamber are equipped in the opposite place of block
Block is equipped with second sensor in opposite place.
The operating groove inner wall of further technical solution, left side is equipped with the first indicator light, the operation on right side
Slot inner wall is equipped with the second indicator light, and first indicator light is electrically connected with the second sensor, second indicator light
It is electrically connected with the first sensor.
Further technical solution, the first sensor and the second sensor are touch sensor.
Further technical solution, the movable block in the sliding groove are connected with the screw flight.
The beneficial effects of the invention are as follows:
1. setting front and back extended sliding groove by manipulating intracavitary bottom wall, front and back extended spiral shell is set in sliding groove
Bar, screw rod rear side end and first motor be connected by power, the movable block in sliding groove are connected with screw flight, to realize from
The back-and-forth motion work of dynamic control movable block, while movable block right lateral side edge is realized by the mobile movable block of front and back control
The first taper cone pulley on the inside of convex sliding block engages the convex cunning of connection and movable block front left side edge with second taper cone pulley on right side
The switching that the first taper cone pulley on the inside of block engages connection with second taper cone pulley in left side is adjusted.
2. being all provided with convex sliding block by movable block front left side and right lateral side edge, transmission is all provided between convex sliding block and movable block
Chamber, movable block interposition install the second motor, and the second motor front and rear sides are all provided with through hole, the through hole outboard end of front and rear sides
Be connected with the drive cavity in the movable block of front and rear sides setting respectively, and inner end and the second electricity are set in the through hole of front and rear sides
The shaft of mechanomotive force connection, shaft and through hole transition are connected, shaft outboard end stretch into corresponding drive cavity and with biography
Dynamic cavity wall is rotatably assorted connection, circumferentially fixed on the shaft outer surface in drive cavity to set first pulley, the transmission in convex sliding block
Intracavitary sets the rotation axis for the connection that is rotatably assorted, circumferentially fixed in rotation axis to set the second belt wheel, between first pulley and the second belt wheel
If driving belt, it is all provided with the first taper cone pulley on outer wall on the inside of each convex sliding block, the first taper cone pulley and the are automatically controlled to realize
The transmission work of two taper cone pulleies makes the second taper cone pulley that take-up reel rotation be driven to complete take-up work.
3. first sensor is set by manipulating in chamber front inner wall place opposite with the convex sliding block of movable block front left side edge,
It manipulates and sets second sensor on rear side of chamber in inner wall place opposite with the convex sliding block of movable block right lateral side edge, in the operating groove in left side
The first indicator light is set on wall, the second indicator light is set on the operating groove inner wall on right side, and the first indicator light electrically connects with second sensor
It connects, the second indicator light is electrically connected with first sensor, to tangible intelligent control and instruction work, improves staff's operation
Efficiency and accuracy.
4. the configuration of the present invention is simple, intelligent prompt control is easy to operate, reduction infrastructure construction, energy conservation and environmental protection, simultaneously
Automatic takeup work can be completed, prevents charging wire damage and electric shock accidents from occurring.
Specific implementation mode
As shown in Fig. 1-Fig. 7, a kind of novel New-energy electric vehicle direct-current charging post of the invention, including pile body 6, it is described
6 bosom position of pile body is equipped with manipulation chamber 7, is arranged with take-up chamber 8 at left and right sides of the manipulation chamber 7, before the take-up chamber 8
Operating groove 9 is equipped in 6 outer wall of the pile body of side, manipulation 7 inner bottom wall of chamber is equipped with front and back extended sliding groove 71, institute
It states and is equipped with front and back extended screw rod 710 in sliding groove 71,710 rear side end of the screw rod and 711 be connected by power of first motor,
Be equipped with the movable block 72 for upwardly extending and stretching into the manipulation chamber 7 in the sliding groove 71,72 front left side of the movable block with
Right lateral side edge is equipped with convex sliding block 73, and drive cavity 721 is equipped between the convex sliding block 73 and the movable block 72, described
72 centre position of movable block is equipped with the second motor 722, and 722 front and rear sides of the second motor are equipped with through hole 723, and front and back two
723 outboard end of the through hole of side is connected with the drive cavity 721 in the movable block 72 of front and rear sides respectively to be set
It sets, the shaft 724 of inner end and 722 be connected by power of the second motor is equipped in the through hole 723 of front and rear sides, it is described
Shaft 724 is connected with 723 transition of the through hole, and 724 outboard end of the shaft stretches into the corresponding drive cavity 721
And be rotatably assorted and connect with 721 inner wall of the drive cavity, it is circumferentially solid on 724 outer surface of the shaft in the drive cavity 721
Surely it is equipped with first pulley 7210, the rotation axis for the connection that is rotatably assorted is equipped in the drive cavity 721 in the convex sliding block 73
7211, the second belt wheel 7212, the first pulley 7210 and second belt wheel are circumferentially fixed in the rotation axis 7211
It is equipped with driving belt 7213 between 7212, is equipped with the first taper cone pulley 731 on each 73 inside outer wall of the convex sliding block, described the
One taper cone pulley 731 is fixedly connected with the rotation axis 7211, and Wire winding shaft 81, each Wire winding shaft are equipped in the take-up chamber 8
81 inner ends are run through 6 wall body of the pile body and are stretched into the manipulation chamber 7,81 end of the Wire winding shaft in the manipulation chamber 7
End is fixed with the second taper cone pulley 83, and through-hole 910 is equipped between the take-up chamber 8 and the operating groove 9 and is arranged described
Buckling groove 911 between through-hole 910 and the operating groove 9, the operating groove 9 is interior to stretch into the buckling groove 911 equipped with rear side end
Interior charging pipette tips 91,91 left and right sides of charging pipette tips are simultaneously equipped with by pressure ring 90,91 rear side end of charging pipette tips
Face is equipped with leads interpolating unit 92 to be inserted into the through-hole 910, to facilitate charging pipette tips 91 to withdraw and place.
Wherein, it is equipped with take-up reel 82 on the Wire winding shaft 81 in each take-up chamber 8, disk on the take-up reel 82
Equipped with charging wire 821, the charging wire 821 is fixedly connected with 92 rear side end of interpolating unit of leading.
Wherein, described to be fixedly connected with 91 end face outside of charging pipette tips by 90 inner side end of pressure ring, it is described to press pressure ring
90 end face outsides are fixed with lines portion 913, and the trailing flank by pressure ring 90 between the charging pipette tips 91 is equipped with close
Packing 913, it is described to pick and place the better point of applications of Shi Nengyou for the charging pipette tips 91 by pressure ring 90, existed by setting
The lines portion 913 by 90 end face outside of pressure ring can be effectively increased frictional force when being contacted with hand when picking and placeing, and prevent from skidding
The generation of phenomenon can increase the sealing after the charging pipette tips 91 are clamped with the buckling groove 911 by the gasket 913
Property, it prevents dust or water stain influences the normal operation of equipment by the way that grafting gap enters inside equipment.
Wherein, the convex sliding block 73 of 72 front left side edge of the movable block is located at left side and is located at the Wire winding shaft 81
Forward position, the convex sliding block 73 of 72 right lateral side edge of the movable block is located at right side and positioned at the Wire winding shaft 81
Rearward position, the first taper cone pulley 731 on 73 inside outer wall of the convex sliding block is oppositely arranged with the second taper cone pulley 83, to realize
Transmission driving work, improves working efficiency.
Wherein, manipulation 7 front inner wall of chamber is opposite with the convex sliding block 73 of 72 front left side edge of the movable block
First sensor 75, the convex cunning of the manipulation 7 rear side inner wall of chamber and 72 right lateral side edge of the movable block are equipped in place
Block 73 is equipped with second sensor 74 in opposite place.
Wherein, 9 inner wall of the operating groove in left side is equipped with the first indicator light 901, on 9 inner wall of the operating groove on right side
Equipped with the second indicator light 902, first indicator light 901 is electrically connected with the second sensor 74, second indicator light
902 are electrically connected with the first sensor 75, to tangible intelligent control and instruction work.
Wherein, the first sensor 75 and the second sensor 74 are touch sensor.
Wherein, the movable block 72 in the sliding groove 71 is connect with 710 screw-thread fit of the screw rod, to realize certainly
Back-and-forth motion work of the dynamic control movable block 72 along sliding groove 71.
When original state, movable block 72 is located at the centre position in sliding groove 71, meanwhile, movable block 72 is located at manipulation chamber 7
Interior centre position, at this point, 73 lateral wall of convex sliding block of 72 front left side edge of movable block is far from first sensor 75, meanwhile,
73 lateral wall of convex sliding block of 72 right lateral side edge of movable block is far from second sensor 74, at this point, 73 inside of each convex sliding block is outer
The first taper cone pulley 731 on wall far from the second taper cone pulley 83, meanwhile, charging 91 rear side end of pipette tips complete be inserted into buckling groove 911 in,
It is utmostly stretched into through-hole 910 at this point, leading interpolating unit 92, meanwhile, charging wire 821 is utmostly coiled on take-up reel 82, this
When, the first indicator light 901 and the second indicator light 902 in the operating groove 9 of the left and right sides are in OFF state.
When needing charging pipette tips 91 on the right side of use and recycling, pass through the charging pipette tips 91 pulled in east side operation slot 9
The charging pipette tips 91 on right side are made to progressively disengage the buckling groove 911 on right side, meanwhile, so that the interpolating unit 92 of leading on right side is progressively disengaged right side
Through-hole 910 pulls on the buckling groove 911 that the charging pipette tips 91 on right side make the charging pipette tips 91 on right side completely disengage right side, together
When, make the side movement outwardly of charging wire 821 led interpolating unit 92 and drive right side on right side, until the charging pipette tips on right side as shown in Figure 2
91 drive the charging wire 821 for leading 92 rear side end of interpolating unit for leading interpolating unit 92 and right side on right side to be completely pulled out the operating groove 9 on right side
Outside, the charging pipette tips 91 for then proceeding to pull right side, make the charging pipette tips 91 on right side be connect with automobile charging interface, when having charged
It screw rod 710 is controlled by first motor 711 rotates forward at rear, drive movable block 72 along sliding groove 71 to Forward from screw rod 710
It is dynamic, until 72 front end face of movable block as shown in Figure 3 is abutted against with sliding groove 71 and manipulation 7 front inner wall of chamber, at this point, mobile
First taper cone pulley 731 of 73 inside of convex sliding block of 72 right lateral side edge of block engages connection with second taper cone pulley 83 on right side, together
When, 73 lateral wall of convex sliding block of 72 front left side edge of movable block touches first sensor 75, and first sensor 75 is made to send out
Signal simultaneously controls the second indicator light 902 and lights, at this point, the first taper of the inside of convex sliding block 73 of 72 front left side edge of movable block
Then second taper cone pulley 83 of the wheel 731 utmostly far from left side controls shaft 724 by the second motor 722 and rotates, by shaft
724 drive first pulley 7210 to rotate, and drive the second belt wheel 7212 to rotate by the driving belt 7213 in first pulley 7210,
At this point, the first taper cone pulley 731 of 73 inside of convex sliding block of 72 right lateral side edge of movable block drives second taper cone pulley 83 on right side
Rotation drives the Wire winding shaft 81 on right side to rotate by the second taper cone pulley 83, and the Wire winding shaft 81 on right side drives the receipts in right side take-up chamber 8
Drum 82 rotates, until the interpolating unit 92 of leading on right side utmostly stretches into the through-hole 910 on right side, at this point, the charging pipette tips on right side
91 rear side ends are completed to be inserted into the buckling groove 911 on right side, meanwhile, the charging wire 821 on right side is utmostly coiled in the receipts on right side
On drum 82, at this point, the second motor 722 of control stops operating, then controls first motor 711 and screw rod 710 is driven to invert, until
Movable block 72 is moved to sliding groove 71 and manipulates the centre position in chamber 7, so that movable block 72 is restored to initial position, finally controls
First motor 711, which stops operating, can be completed right side take-up work;
When needing charging pipette tips 91 on the left of use and recycling, pass through the charging pipette tips 91 pulled in left-hand operation slot 9
Charging pipette tips 91 are made to progressively disengage the buckling groove 911 in left side, meanwhile, make the through-hole led interpolating unit 92 and progressively disengage left side in left side
910, the buckling groove 911 that the charging pipette tips 91 in left side make charging pipette tips 91 completely disengage left side is pulled on, meanwhile, make left side
It leads the drive of interpolating unit 92 charging wire 821 to move side outwardly, until interpolating unit is led in the drive of charging pipette tips 91 left side on the left of as shown in Figure 4
92 and left side lead 92 rear side end of interpolating unit charging wire 821 be completely pulled out left side operating groove 9 outside, then proceed to pull left side
Charge pipette tips 91, so that left side charging pipette tips 91 is connect with automobile charging interface, is controlled by first motor 711 after charging complete
Screw rod 710 inverts, and drives movable block 72 to be moved backward along sliding groove 71 by screw rod 710, until 72 rear side of movable block as shown in Figure 5
End face is abutted against with sliding groove 71 and manipulation 7 rear side inner wall of chamber, at this point, in the convex sliding block 73 of 72 front left side edge of movable block
First taper cone pulley 731 of side engages connection with second taper cone pulley 83 in left side, meanwhile, the convex cunning of 72 right lateral side edge of movable block
73 lateral wall of block touches second sensor 74, make second sensor 74 send out signal and control the first indicator light 901 light, this
When, the second cone of the first taper cone pulley 731 of the inside of convex sliding block 73 of 72 right lateral side edge of movable block utmostly far from right side
Then shape wheel 83 controls shaft 724 by the second motor 722 and rotates, drives first pulley 7210 to rotate by shaft 724, and by
Driving belt 7213 in first pulley 7210 drives the rotation of the second belt wheel 7212, at this point, 72 front left side edge of movable block
First taper cone pulley 731 of 73 inside of convex sliding block drives the second taper cone pulley 83 rotation in left side, and left side is driven by the second taper cone pulley 83
Wire winding shaft 81 rotate, the Wire winding shaft 81 in left side drives the take-up reel 82 in left side take-up chamber 8 to rotate, until interpolating unit is led in left side
92 utmostly stretch into the through-hole 910 in left side, at this point, 91 rear side end of charging pipette tips in left side completes the buckling groove for being inserted into left side
In 911, meanwhile, the charging wire 821 in left side is utmostly coiled on the take-up reel 82 in left side, at this point, the second motor 722 of control
It stops operating, then controls first motor 711 and screw rod 710 is driven to rotate forward, until movable block 72 is moved to 71 He of sliding groove
The centre position in chamber 7 is manipulated, movable block 72 is made to be restored to initial position, first motor 711 is finally controlled and stops operating
Complete left side take-up work.
The beneficial effects of the invention are as follows:
1. setting front and back extended sliding groove by manipulating intracavitary bottom wall, front and back extended spiral shell is set in sliding groove
Bar, screw rod rear side end and first motor be connected by power, the movable block in sliding groove are connected with screw flight, to realize from
The back-and-forth motion work of dynamic control movable block, while movable block right lateral side edge is realized by the mobile movable block of front and back control
The first taper cone pulley on the inside of convex sliding block engages the convex cunning of connection and movable block front left side edge with second taper cone pulley on right side
The switching that the first taper cone pulley on the inside of block engages connection with second taper cone pulley in left side is adjusted.
2. being all provided with convex sliding block by movable block front left side and right lateral side edge, transmission is all provided between convex sliding block and movable block
Chamber, movable block interposition install the second motor, and the second motor front and rear sides are all provided with through hole, the through hole outboard end of front and rear sides
Be connected with the drive cavity in the movable block of front and rear sides setting respectively, and inner end and the second electricity are set in the through hole of front and rear sides
The shaft of mechanomotive force connection, shaft and through hole transition are connected, shaft outboard end stretch into corresponding drive cavity and with biography
Dynamic cavity wall is rotatably assorted connection, circumferentially fixed on the shaft outer surface in drive cavity to set first pulley, the transmission in convex sliding block
Intracavitary sets the rotation axis for the connection that is rotatably assorted, circumferentially fixed in rotation axis to set the second belt wheel, between first pulley and the second belt wheel
If driving belt, it is all provided with the first taper cone pulley on outer wall on the inside of each convex sliding block, the first taper cone pulley and the are automatically controlled to realize
The transmission work of two taper cone pulleies makes the second taper cone pulley that take-up reel rotation be driven to complete take-up work.
3. first sensor is set by manipulating in chamber front inner wall place opposite with the convex sliding block of movable block front left side edge,
It manipulates and sets second sensor on rear side of chamber in inner wall place opposite with the convex sliding block of movable block right lateral side edge, in the operating groove in left side
The first indicator light is set on wall, the second indicator light is set on the operating groove inner wall on right side, and the first indicator light electrically connects with second sensor
It connects, the second indicator light is electrically connected with first sensor, to tangible intelligent control and instruction work, improves staff's operation
Efficiency and accuracy.
4. the configuration of the present invention is simple, intelligent prompt control is easy to operate, reduction infrastructure construction, energy conservation and environmental protection, simultaneously
Automatic takeup work can be completed, prevents charging wire damage and electric shock accidents from occurring.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention
Protection domain should be determined by the scope of protection defined in the claims.