A kind of electrical hybrid power rotor arrangement of liquid
Technical field
The present invention relates to technical field of automation equipment more particularly to a kind of electrical hybrid power rotor arrangements of liquid.
Background technique
Raising with modern part manufacturing and detection to required precision has the characteristics that clean and high-precision gas-static
Supporting technology is used widely, and power rotor is the key element in accurate measurement and process equipment, but used at present dynamic
Its sealing performance of power rotor and torsion performance are unstable, are easy to produce leakage, and when providing high current, heat dissipation effect is poor, sternly
It is stable that ghost image rings slip ring.It transfers to solve the problems, such as that rotor is dynamic with quiet rotation, electricity is driven into part and Hydraulically and pneumatically segment set
Be combined, however it is such design it is inconvenient there are equipment coiling the problems such as, while rotor rotation when cannot realize liquid gas simultaneously
The transmission of electricity.
Summary of the invention
Technical problem solved by the invention is to provide a kind of electrical hybrid power rotor arrangement of liquid, to solve above-mentioned back
Disadvantage in scape technology.
Technical problem solved by the invention is realized using following technical scheme:
A kind of electrical hybrid power rotor arrangement of liquid, including hydraulic-pneumatic control portion, slip ring signal portion, conductive power part, conductive big electricity
Stream portion and rotor flange, wherein rotor flange is connect with conductive high current portion, and conductive high current portion is arranged in conductive power part
On, hydraulic-pneumatic control portion is fastenedly connected with slip ring signal portion upper end, and slip ring signal subordinate end is fastenedly connected with conductive power part, each portion
Divide specific structure as follows:
In hydraulic-pneumatic control portion, hydraulic-pneumatic control axis is mounted in hydraulic-pneumatic control shell, and the axial centre of gyration of hydraulic-pneumatic control axis with
The axial centre of gyration of hydraulic-pneumatic control shell is overlapped, and the control shaft lower platen fastening for being limited to entire rotor uplink is set
It sets in hydraulic-pneumatic control axis bottom end, stator outer circle and the complete machine stator bearing of hydraulic-pneumatic control axis lower part are coupled, hydraulic-pneumatic control limit
Position end cap is securedly mounted to hydraulic-pneumatic control housing bottom, and hydraulic-pneumatic control limit end cap is sleeved on hydraulic-pneumatic control axis lower end simultaneously;
Liquid gas first passage inside groove and liquid gas second channel inside groove are provided in hydraulic-pneumatic control axis, and in the annular body of hydraulic-pneumatic control axis
Liquid gas channel is arranged in parallel in the upper and rotary axial of hydraulic-pneumatic control axis, two liquid gas channels bottom end is respectively arranged with radial logical
Road, two radial passages respectively with corresponding liquid gas channel connect, and two radial passages respectively with liquid gas first passage
Inside groove, liquid gas second channel inside groove are connected;Liquid gas shell first passage and liquid gas shell second are provided on hydraulic-pneumatic control shell
Channel, liquid gas shell first passage and liquid gas first passage inside groove are connected, in liquid gas shell second channel and liquid gas second channel
Slot is connected, and liquid gas shell first passage, liquid gas shell second channel are separately connected pneumatic motive power pipeline;
In slip ring signal portion, hydraulic-pneumatic control axis is connect with slip ring mandrel, and slip ring mandrel one end is fixedly installed the insulation of slip ring lower end
Ring, the slip ring mandrel other end are fixedly installed slip ring support copper ring, and slip ring lower end dead ring is arranged in slip ring step, sliding
Ring supports copper ring to be arranged in slip ring top chock, and slip ring bottom end bearing is mounted in slip ring step, slip ring shell one end
It is mounted on slip ring top chock, the slip ring shell other end is mounted on slip ring step, and slip ring insulator part and slip ring are conductive
Ring is separately mounted on slip ring mandrel, and slip ring insulator part is in be spaced apart from each other to be superimposed cloth on slip ring mandrel with slip ring conducting ring
It sets, brush filament plate is arranged in the circular passage that slip ring insulator part and slip ring shell are formed about slip ring mandrel bilateral symmetry distribution;
The through-hole passed through for rotor line is provided in slip ring mandrel, thus the problems such as coiling effectively in solving device;
In conductive power part, slip ring mandrel is connect with power bottom plate, and the inward flange of power bottom plate and power top plate is sleeved on power
On screw rod, circumferential direction of the power screw respectively along power top plate, power bottom plate is uniformly distributed, and sets between power bottom plate and power top plate
Be equipped with power copper ring, kinetic insulation circle, power copper ring and kinetic insulation circle are stacked in being spaced apart from each other, kinetic insulation circle it is interior
Edge is set on power screw, and motive power pipe is independently set on power screw, the height of each motive power pipe it is identical and
Lower end is respectively with power top plate contact, and power rotor flange sleeve is on the motive power pipe and power rotor flange lower end surface and dynamic
Power support tube upper-end contact, the axial centre of gyration of power rotor flange are overlapped with the axial centre of gyration of power top plate, power
The axial centre of gyration of support tube is overlapped with the axial centre of gyration of power screw, power copper ring, power bottom plate, kinetic insulation
The axial centre of gyration of circle, the axial centre of gyration of power top plate and power screw is parallel to each other;
In conductive high current portion, high current screw rod is vertically set on power rotor flange, the inward flange of conducting heavy current copper ring
It is sleeved on high current screw rod, high current screw rod is circumferentially uniformly distributed along conducting heavy current copper ring, and high current support tube is sleeved on big electricity
It flows on screw rod, conducting heavy current copper ring is spaced apart from each other with high current support tube and is stacked, the high current support in bottommost
Pipe lower end is contacted with the upper end of power rotor flange contact and the high current support tube with conducting heavy current copper ring, is in topmost
High current support tube lower end contacted with conducting heavy current copper ring, high current partition support tube be sleeved on high current screw rod, greatly
Current rotor top board is sleeved on high current screw rod, and high current screw rod upper end is connect with rotor flange, is pressed on high current rotor
Plate upper surface is contacted with the bottom end face of rotor flange, and power rotor flange, conducting heavy current copper ring are pressed on high current rotor
Plate, rotor flange the axial centre of gyration overlap.
In the present invention, rotor flange includes rotor flange support outer circle and rotor flange positive stop lug boss, high current rotor
Top board setting supports outer circle side in rotor flange, and rotor flange positive stop lug boss is located at the rotor flange support outer circle other side,
Rotor flange support outer circle is used to install the bearing of supporting drive rotor flange rotation, and rotor flange positive stop lug boss and high current turn
Sub- top board is for limiting bearing.
In the present invention, it is respectively arranged with fixed rotation stop piece on hydraulic-pneumatic control shell and slip ring shell, fixed rotation stop piece is solid
It is scheduled in brush holder support support plate, to reach rotation stop effect.
In the present invention, hydraulic-pneumatic control axis one end is mounted in hydraulic-pneumatic control shell by hydraulic-pneumatic control bottom end bearing, liquid
The gas control shaft other end is installed in hydraulic-pneumatic control shell by hydraulic-pneumatic control upper end bearing, and is arranged in hydraulic-pneumatic control shell
There is control shaft block ring, to limit axial position of the hydraulic-pneumatic control axis with respect to hydraulic-pneumatic control shell.
In the present invention, liquid gas first passage inside groove and liquid gas second channel inside groove two sides are located in hydraulic-pneumatic control shell
It is respectively arranged with recessed grain, and is provided with hydraulic-pneumatic control sealing ring in the groove.
In the present invention, slip ring bottom end bearing is installed on the dead ring of slip ring lower end, cunning is installed on slip ring support copper ring
Ring upper end bearing, slip ring upper end bearing are mounted in slip ring top chock, and slip ring bottom end bearing is mounted in slip ring step.
In the present invention, slip ring step tightens Guan County equipped with slip ring rotation stop body.
In the present invention, high current screw rod runs through be set with for separating high current screw rod and high current support tube up and down
The high current insulation tube for simultaneously separating high current screw rod and conducting heavy current copper ring.
In the present invention, high current partition support tube both ends are respectively arranged with high current felt pad, high current insulation cushion cover
On high current screw rod, and the high current support tube upper end in topmost is contacted with high current felt pad, high current rotor
Top board lower end surface is contacted with the high current felt pad for being located at high current partition support tube top.
In the present invention, multiple conducting heavy current copper rings are provided in conductive high current portion, when power high current is provided, by
The conducting heavy current copper ring of respective channels number contacts transmission with high current support tube, effectively optimizes the heat dissipation knot in conductive high current portion
Structure, to ensure conducting heavy current copper ring long-term stable work.
In the present invention, hydraulic-pneumatic control axis and slip ring mandrel are cooperatively connected by inside and outside circle, slip ring mandrel and power bottom plate
It is cooperatively connected by inside and outside circle, power bottom plate and power top plate are sleeved on power screw, and motive power pipe sleeve is mounted in power spiral shell
On bar, and motive power pipe lower end and power top plate contact support, and power rotor flange sleeve is loaded on motive power pipe and power
Rotor flange lower end surface and motive power pipe upper-end contact, high current support tube lower end and power rotor flange in bottommost
The upper end of contact and the high current support tube contacts support with conducting heavy current copper ring, and high current screw rod is vertically installed in power and turns
On sub- flange, the inward flange of conducting heavy current copper ring is set on high current screw rod, and high current screw rod is along conducting heavy current copper ring
Circumferential uniformly distributed, high current support tube is set on high current screw rod, and the setting of high current rotor top board is outer in rotor flange support
Circle side, is contacted with conducting heavy current copper ring by high current support tube and is transmitted, so that optimized heat radiation structure ensures high current
Conductive copper long-term stable work, by high current screw rod be set with high current insulation tube, for by high current screw rod with
High current support tube separates while separating high current screw rod and conducting heavy current copper ring, when component relatively rotates, promotes electricity
Brush is contacted with the surface of conducting heavy current copper ring always, and then realizes rotation linkage function.
The utility model has the advantages that being provided with multiple conducting heavy current copper rings in conductive high current portion in the present invention, provide power big electricity
When stream, transmission is contacted with high current support tube by conducting heavy current copper ring, effectively optimizes the radiator structure in conductive high current portion, with
Ensure conducting heavy current copper ring long-term stable work, by being set with high current insulation tube on high current screw rod, being used for will be big
Electric current screw rod separates with high current support tube and simultaneously separates high current screw rod and conducting heavy current copper ring, when component relatively rotates
When, promote brush to contact always with the surface of conducting heavy current copper ring, and then realize rotation linkage function;And in slip ring mandrel
It is provided with the through-hole passed through for rotor line, thus the problems such as coiling effectively in solving device;In hydraulic-pneumatic control portion and slip ring
It is respectively arranged with shell in signal section, with the sealing performance and torsion of enhancement device, prevents gas from revealing, and then realizes liquid
Electrical one transmission.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of presently preferred embodiments of the present invention.
Fig. 2 is the main view of presently preferred embodiments of the present invention.
Fig. 3 is the cross-sectional view of presently preferred embodiments of the present invention.
Fig. 4 is the hydraulic-pneumatic control portion cross-sectional view in presently preferred embodiments of the present invention.
Fig. 5 is the slip ring signal portion cross-sectional view in presently preferred embodiments of the present invention.
Fig. 6 is the slip ring signal portion top view in presently preferred embodiments of the present invention.
Fig. 7 is the conductive power part cross-sectional view in presently preferred embodiments of the present invention.
Fig. 8 is the conductive high current portion cross-sectional view in presently preferred embodiments of the present invention.
Specific embodiment
In order to be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, tie below
Conjunction is specifically illustrating, and the present invention is further explained.
Referring to a kind of electrical hybrid power rotor arrangement of liquid of FIG. 1 to FIG. 8, including hydraulic-pneumatic control portion 1, slip ring signal portion 2,
Conductive power part 3, conductive high current portion 4 and rotor flange 5, wherein rotor flange 5 is connect with conductive high current portion 4, conductive big
Electric current portion 4 is arranged on conductive power part 3, and hydraulic-pneumatic control portion 1 is fastenedly connected with 2 upper end of slip ring signal portion, under slip ring signal portion 2
End is fastenedly connected with conductive power part 3, and each section specific structure is as follows:
Hydraulic-pneumatic control portion 1 includes hydraulic-pneumatic control axis 1-1, hydraulic-pneumatic control shell 1-2, hydraulic-pneumatic control limit end cap 1-3, hydraulic-pneumatic control
Bottom end bearing 1-4, hydraulic-pneumatic control upper end bearing 1-5, hydraulic-pneumatic control sealing ring 1-6, control shaft block ring 1-7, control shaft push
Plate 1-8, liquid gas first passage inside groove 1-9, liquid gas second channel inside groove 1-10, liquid gas shell first passage 1-11 and liquid gas shell
Second channel 1-12, hydraulic-pneumatic control axis 1-1 are installed on by hydraulic-pneumatic control bottom end bearing 1-4 and hydraulic-pneumatic control upper end bearing 1-5
In hydraulic-pneumatic control shell 1-2, and hydraulic-pneumatic control axis 1-1 is limited with respect to hydraulic-pneumatic control shell 1-2's by control shaft block ring 1-7
Axial position, while the axial centre of gyration of hydraulic-pneumatic control axis 1-1 is overlapped with the axial centre of gyration of hydraulic-pneumatic control shell 1-2,
The bottom end hydraulic-pneumatic control axis 1-1 is provided with axial internal screw thread, and control shaft lower platen 1-8 is set to liquid gas by soket head cap screw fastening
In the axial internal screw thread of the bottom end control shaft 1-1, the stator outer circle and complete machine stator bearing fit of the lower part hydraulic-pneumatic control axis 1-1 are pacified
Dress, and limited by control shaft lower platen 1-8, thus the uplink of entire rotor is limited, hydraulic-pneumatic control limits end cap 1-3
It is fastened on the bottom end hydraulic-pneumatic control shell 1-2, and hydraulic-pneumatic control limit end cap 1-3 is to hydraulic-pneumatic control bottom end bearing 1-4 axial direction
Limit, hydraulic-pneumatic control limit end cap 1-3 are set in the hydraulic-pneumatic control lower end axis 1-1 installation hydraulic-pneumatic control bottom end bearing 1-4's simultaneously
In end cap outer circle and hydraulic-pneumatic control limits end cap 1-3 and this outer circle clearance fit, is provided with liquid gas first in hydraulic-pneumatic control axis 1-1
Channel inside groove 1-9 and liquid gas second channel inside groove 1-10, in the annular body of hydraulic-pneumatic control axis 1-1 with hydraulic-pneumatic control axis 1-1
Rotary axial on be arranged in parallel with liquid gas channel, and be respectively arranged with radial passage, two diameters in two liquid gas channels bottom end
To channel respectively with corresponding liquid gas channel connect, and two radial passages respectively with liquid gas first passage inside groove 1-9, liquid
Gas second channel inside groove 1-10 is corresponding to be connected;Liquid gas shell first passage 1-11 and liquid gas are provided on hydraulic-pneumatic control shell 1-2
Shell second channel 1-12, liquid gas shell first passage 1-11 and liquid gas first passage inside groove 1-9 are connected, and liquid gas shell second is logical
Road 1-12 and liquid gas second channel inside groove 1-10 is connected, and liquid gas shell first passage 1-11, liquid gas shell second channel 1-12 points
Not Lian Jie pneumatic motive power pipeline, while it is logical to be located in hydraulic-pneumatic control shell 1-2 liquid gas first passage inside groove 1-9 and liquid gas second
The road two sides inside groove 1-10 are respectively arranged with recessed grain and in being respectively arranged with hydraulic-pneumatic control sealing ring 1-6 in the groove;
Slip ring signal portion 2 includes slip ring mandrel 2-1, slip ring shell 2-2, slip ring upper end bearing 2-3, slip ring bottom end bearing 2-4, brush
Filament plate 2-5, slip ring step 2-6, slip ring lower end dead ring 2-7, slip ring support copper ring 2-8, slip ring top chock 2-9, cunning
Ring rotation stop body 2-10, slip ring insulator part 2-11, slip ring conducting ring 2-12, the both ends slip ring mandrel 2-1 are fixedly installed slip ring respectively
Lower end dead ring 2-7 and slip ring support copper ring 2-8, are equipped with slip ring bottom end bearing 2-4, slip ring on the dead ring 2-7 of slip ring lower end
Slip ring upper end bearing 2-3 is installed on support copper ring 2-8, slip ring upper end bearing 2-3 is installed in slip ring top chock 2-9, sliding
Ring bottom end bearing 2-4 is installed in slip ring step 2-6, and the both ends slip ring shell 2-2 are respectively arranged in slip ring top chock 2-9
Limit is fastened on slip ring step 2-6 and by screw, slip ring insulator part 2-11 is installed respectively with slip ring conducting ring 2-12
In on slip ring mandrel 2-1 and slip ring insulator part 2-11 is spaced apart from each other with slip ring conducting ring 2-12 and is stacked, brush filament plate 2-5 about
The 2-1 bilateral symmetry distribution of slip ring mandrel is set in the circular passage that slip ring insulator part 2-11 and slip ring shell 2-2 is formed, slip ring
Rotation stop body 2-10 is fastened on slip ring step 2-6 by screw;
Hydraulic-pneumatic control portion 1 is realized by the inside and outside circle cooperation being arranged on hydraulic-pneumatic control axis 1-1 and slip ring mandrel 2-1 and slip ring
The connection of signal section 2 is simultaneously fastened by screw, and disassembly can work independently, convenient for installation and maintenance;
Conductive power part 3 includes power rotor flange 3-1, motive power pipe 3-2, power copper ring 3-3, power screw 3-4, power
The inward flange of bottom plate 3-5, kinetic insulation circle 3-6 and power top plate 3-7, power bottom plate 3-5 and power top plate 3-7 are set in power
On screw rod 3-4, power screw 3-4 is circumferentially uniformly distributed along power top plate 3-7, power bottom plate 3-5 respectively, in power bottom plate 3-5 and moves
It is mutual that dynamic copper ring 3-3, kinetic insulation circle 3-6, power copper ring 3-3 and kinetic insulation circle 3-6 are set between power top plate 3-7
Every being stacked, the inward flange of kinetic insulation circle 3-6 is set on power screw 3-4, power copper ring 3-3 be set to two it is adjacent
Kinetic insulation circle 3-6 between, and kinetic insulation circle 3-6 be used for power copper ring 3-3 limited support, power copper ring 3-3, power
The axial centre of gyration of bottom plate 3-5, kinetic insulation circle 3-6 and power top plate 3-7 are overlapped, and motive power pipe 3-2 is independently set in
On power screw 3-4, the height of each motive power pipe 3-2 is identical and lower end contacts support with power top plate 3-7 respectively, and power turns
Sub- flange 3-1 is set on motive power pipe 3-2 and the power rotor lower end surface flange 3-1 and motive power pipe 3-2 upper-end contact,
The axial centre of gyration of power rotor flange 3-1 is overlapped with the axial centre of gyration of power top plate 3-7, the both ends power screw 3-4
It is fastened by nut, the axial centre of gyration of motive power pipe 3-2 is overlapped with the axial centre of gyration of power screw 3-4, power
The axis of the axial centre of gyration and power screw 3-4 of copper ring 3-3, power bottom plate 3-5, kinetic insulation circle 3-6, power top plate 3-7
It is parallel to each other to the centre of gyration;
Slip ring signal portion 2 passes through the inside and outside circle cooperation being arranged on slip ring mandrel 2-1 and power bottom plate 3-5 and conductive power part
3 connections are simultaneously fastened by screw;
Conductive high current portion 4 includes conducting heavy current copper ring 4-1, high current support tube 4-2, high current rotor top board 4-3, big
Electrical insulation pipe 4-4, high current screw rod 4-5, high current separate support tube 4-6, high current felt pad 4-7, high current screw rod 4-5
It is vertically installed on power rotor flange 3-1, the inward flange of conducting heavy current copper ring 4-1 is set on high current screw rod 4-5, greatly
Electric current screw rod 4-5 is circumferentially uniformly distributed along conducting heavy current copper ring 4-1, and high current support tube 4-2 is set on high current screw rod 4-5,
High current insulation tube 4-4 or more, which runs through, to be set on high current screw rod 4-5, and high current insulation tube 4-4 is by high current screw rod 4-5
It separates with high current support tube 4-2 and simultaneously separates high current screw rod 4-5 and conducting heavy current copper ring 4-1, conducting heavy current copper
Ring 4-1 is spaced apart from each other with high current support tube 4-2 and is stacked, the high current lower end support tube 4-2 and power in bottommost
The upper end of rotor flange 3-1 contact and high current support tube 4-2 contact support with conducting heavy current copper ring 4-1, in most upper
The high current lower end support tube 4-2 in portion contacted with conducting heavy current copper ring 4-1 support and the upper end of high current support tube 4-2 with
High current felt pad 4-7 contact, high current felt pad 4-7 are set on high current screw rod 4-5, and high current separates support tube 4-6
It is set on high current screw rod 4-5, and high current felt pad 4-7 is set to the high current partition both ends support tube 4-6, high current turns
Sub- top board 4-3 is set on high current screw rod 4-5, and the high current rotor lower end surface top board 4-3 separates with high current is located at
The high current felt pad 4-7 on the top support tube 4-6 is contacted, and the high current upper end screw rod 4-5 is connect by screw thread with rotor flange 5,
The high current rotor upper surface top board 4-3 is contacted with the bottom end face of rotor flange 5, power rotor flange 3-1, conducting heavy current
Copper ring 4-1, high current rotor top board 4-3, rotor flange 5 the axial centre of gyration overlap, the lower end high current screw rod 4-5
It is fastened by nut;
Rotor flange 5 includes rotor flange support outer circle 5-1 and rotor flange positive stop lug boss 5-2, high current rotor top board 4-3
Setting supports the side outer circle 5-1 in rotor flange, and it is another that rotor flange positive stop lug boss 5-2 is located at rotor flange support outer circle 5-1
Side, rotor flange support outer circle 5-1 are used to install the bearing of the rotation of supporting drive rotor flange 5, rotor flange positive stop lug boss 5-2
With high current rotor top board 4-3 for being limited to bearing.
In the present embodiment, it is respectively arranged with fixed rotation stop piece on hydraulic-pneumatic control shell 1-2 and slip ring shell 2-2, it is fixed
Rotation stop piece is fixed in brush holder support support plate, to reach rotation stop effect.
In the present embodiment, it is provided with the through-hole passed through for rotor line in slip ring mandrel 2-1, thus effective solving device
In coiling the problems such as.
In the present embodiment, hydraulic-pneumatic control axis 1-1 and slip ring mandrel 2-1 is cooperatively connected by inside and outside circle, slip ring mandrel 2-1
It being cooperatively connected with power bottom plate 3-5 by inside and outside circle, power bottom plate 3-5 and power top plate 3-7 are sleeved on power screw 3-4,
Motive power pipe 3-2 is sleeved on power screw 3-4, and the motive power lower end pipe 3-2 contacts support with power top plate 3-7, is moved
Power rotor flange 3-1 is set on motive power pipe 3-2 and the power rotor lower end surface flange 3-1 and the upper end motive power pipe 3-2
Contact, the high current lower end support tube 4-2 in bottommost is contacted with power rotor flange 3-1 and high current support tube 4-2
Upper end support is contacted with conducting heavy current copper ring 4-1, high current screw rod 4-5 is vertically installed on power rotor flange 3-1, greatly
The inward flange of current conduction copper ring 4-1 is set on high current screw rod 4-5, and high current screw rod 4-5 is along conducting heavy current copper ring 4-1
Circumferential uniformly distributed, high current support tube 4-2 is set on high current screw rod 4-5, and high current rotor top board 4-3 is arranged in rotor method
The orchid support side outer circle 5-1, is contacted with conducting heavy current copper ring 4-1 by high current support tube 4-2 and is transmitted, so that optimization dissipates
Heat structure ensures conducting heavy current copper ring 4-1 long-term stable work, by being set with high current insulation on high current screw rod 4-5
Pipe 4-4, for separating simultaneously high current screw rod 4-5 and high current support tube 4-2 by high current screw rod 4-5 and conducting heavy current
Copper ring 4-1 is separated, and when component relatively rotates, promotes brush to contact always with the surface of conducting heavy current copper ring 4-1, Jin Ershi
Now rotate linkage function.