CN208999467U - Intelligent telescopic high-altitude wiring device - Google Patents
Intelligent telescopic high-altitude wiring device Download PDFInfo
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- CN208999467U CN208999467U CN201821703135.4U CN201821703135U CN208999467U CN 208999467 U CN208999467 U CN 208999467U CN 201821703135 U CN201821703135 U CN 201821703135U CN 208999467 U CN208999467 U CN 208999467U
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- 238000012360 testing method Methods 0.000 claims description 27
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Abstract
The utility model gives a kind of intelligent telescopic high-altitude wiring device;Including collet, multi-stage expansion cylinder and pedestal;The first movement seat of collet is arranged on bottom plate by the first lead screw assembly, and the second Mobile base is arranged on first movement seat by the second lead screw assembly;The clamping screw rod of the clamp assemblies of collet is supported on the second Mobile base, clamping screw rod be divided into two regions along its length, the hand of spiral in two regions on the contrary, two gripper jaws respectively with clamping two regions of screw rod in being threadedly engaged;The wire link head of connector assembly is arranged on the second Mobile base;Multi-stage expansion cylinder upper end is fixed with collet, and multi-stage expansion cylinder lower end is fixedly connected with pedestal.Collet can be elevated to quickly through multi-stage expansion cylinder by working depth according to work on the spot locational requirement using this intelligent telescopic high-altitude wiring device, the preparation work of data acquisition is rapidly completed.
Description
Technical field
The utility model relates to a kind of intelligent telescopic high-altitude wiring devices.
Background technique
The parameter of acquisition high-voltage line is frequently necessary in electric operating, the height of the measurement bus of high-voltage line is higher, and operation is difficult
Degree is big, currently, high-altitude wiring is using segment type insulated operating rod (link rod), mounting is wanted to working face according to operating position manually
It asks, mechanism highest needs to rise to 8 meters of operating positions, and it is larger to the intensity and stability requirement of mechanism, using mechanical lead screw pair meeting
The volume and weight for forming the part are crossed to be huge, unfavorable to carry on site, and operational stability is poor.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of intelligence that is structurally reasonable, promoting collection result accuracy
Flexible formula high-altitude wiring device.
In order to solve the above technical problems, the utility model provides a kind of intelligent telescopic high-altitude wiring device;
Including collet, multi-stage expansion cylinder and pedestal;
Collet includes bottom plate, first movement seat, the second Mobile base, the first lead screw assembly, the second lead screw assembly, clamp assemblies
And connector assembly;First movement seat is arranged on bottom plate by the first lead screw assembly, and the first lead screw assembly includes the first screw rod, the
One nut and first motor, the first screw rod are supported on bottom plate, and first motor drives the rotation of the first screw rod, the first nut and first
Screw rod cooperation, the first nut are fixedly connected with first movement seat;Second Mobile base is arranged by the second lead screw assembly to be moved first
On dynamic seat, the second lead screw assembly includes the second screw rod, the second nut and the second motor, and the second screw rod is supported on first movement seat
On, the rotation of second the second screw rod of motor driven, the second nut and the second screw rod cooperate, the second nut and the fixed company of the second Mobile base
It connects;Second screw rod axis of projection and second lead screw assembly of the first screw rod axis of the first lead screw assembly on bottom plate is in bottom plate
On projection be mutually perpendicular to;
Clamp assemblies include two gripper jaws, clamping screw rod and clamping motor, and clamping screw rod is supported on the second Mobile base,
Clamping screw rod be divided into two regions along its length, the hand of spiral in two regions on the contrary, two gripper jaws respectively with folder
Being threadedly engaged in two regions of screw rod is held, with the gap of clamping test line end between two gripper jaws;
Connector assembly is arranged on the second Mobile base, and connector assembly includes at least wire link head;
Multi-stage expansion cylinder is equipped with the air inlet and venthole being connected to external air source, multi-stage expansion cylinder upper end and collet
Pedestal be fixedly connected, multi-stage expansion cylinder lower end is fixedly connected with pedestal.
With such a structure, collet can be increased to test lead lower position by multi-stage expansion cylinder, collet
Collet moving freely in two directions may be implemented in first lead screw assembly and the second lead screw assembly, facilitates collet and test female
Position alignment between line, clamp assemblies are clamped operation to test bus, fix the position for testing bus, connector assembly
Wire link head be used for collecting test bus parameter.
It can be according to work on the spot locational requirement quickly through multi-stage expansion using this intelligent telescopic high-altitude wiring device
Collet is elevated to working depth by cylinder, and the preparation work of data acquisition is rapidly completed.
In addition, being required according to operating position, elevating mechanism highest needs to rise to 8 meters of operating positions, to the strong of elevating mechanism
Degree and stability requirement are larger, can all form the part using mechanical lead screw pair or hydraulic mechanism lifting compared to the prior art
Volume and weight cross to be huge, unfavorable the problem of carrying on site, multi-stage expansion cylinder using gas as lifting medium, have
It imitates and simplifies structure, significantly reduce the weight of the component.
For the clearer technology contents for understanding the utility model, below by the high-altitude wiring device letter of this intelligent telescopic
Referred to as this termination.
The connector assembly of this termination further includes rotary electric machine, rotor plate, polishing motor, lifting motor and grinding head,
Rotary electric machine is fixed on rotor plate, and rotor plate is mounted on the output shaft of rotary electric machine, and lifting motor and polishing motor are all solid
Surely it is connected on rotor plate, grinding head is mounted on the output shaft of polishing motor, and wire link head is fixed on the liter of lifting motor
Boom end drops, and wire link the head length of the output shaft centre line of projector distance rotary electric machine and grinding head on rotor plate are turning
The length of the output shaft centre line of the projector distance rotary electric machine of movable plate is identical.
Test bus is in outdoor for a long time, is easy in foreign matters such as surface adhesive dusts, is directly tested with wire link head
The possible affecting parameters accuracy of the parameter of bus with such a structure can be sharp before the parameter of collecting test bus
Go out clean region to be measured for bus removing surface is tested with polishing motor and grinding head, wire link head is recycled to test bus
Parameter, guarantee the accuracy of acquisition parameter.
The first movement seat of this termination is equipped at least one first pilot hole, and bottom plate is equipped at least one first guiding
Column, the first pilot hole and the first guide post are one-to-one relationship, and the first guide post corresponding on first movement seat first is led
To Kong Peihe;
Second Mobile base is equipped at least one second pilot hole, and first movement seat is equipped at least one second guide post, the
Two pilot holes and the second guide post are one-to-one relationship, and the second guide post is matched with the second pilot hole corresponding on the second Mobile base
It closes;
Gripper jaw is equipped at least one third pilot hole, and the second Mobile base is equipped at least one third guide post, and third is led
Xiang Kongyu third guide post is one-to-one relationship, and third guide post cooperates with third pilot hole corresponding on gripper jaw.
With such a structure, the first pilot hole and the first guide post cooperate, and make first movement seat along the first guide post
Length direction steadily moves;Similarly, the second Mobile base can steadily be moved along the second guide post length direction;Gripper jaw can be along third
Guide post length direction steadily moves;Improve the stationarity when operation of collet all parts.
The gripper jaw of this termination is provided with clamping mounting hole, is equipped with Arming Assembly in clamping mounting hole, Arming Assembly is extremely
It less include safe axis and spring, installation axle one end is protruded into gripper jaw, and installation axle protrudes into the gap between two gripper jaws, bullet
Against on the mounting shaft, the spring other end is resisted against on gripper jaw for spring one end.
With such a structure, the safe axis of Arming Assembly is resisted against on test bus, makes gripper jaw to test bus
Clamping it is more firm.
The clamping mounting hole of this termination is two stages stepped hole, and clamping mounting hole runs through gripper jaw both sides of the face, folder
The first stage hole of the mounting hole gap between two gripper jaws is held, the second-order hole for clamping mounting hole is clamped far from two
Gap between pawl, the aperture in first stage hole are less than the aperture of second-order hole, clamp mounting hole far between two gripper jaws
The end face of gap side is fixedly connected with end cap;
Safe axis side wall is extended with outer bulge loop, and the outer diameter of outer bulge loop is less than the aperture of second-order hole, the outer diameter of outer bulge loop
Greater than the aperture in first stage hole, spring one end is resisted against on the outer bulge loop end face of installation axle, and the spring other end is resisted against clamping
On the end cap of pawl.
With such a structure, specifically, assembly is more convenient for the structure of Arming Assembly.
The Arming Assembly of this termination further includes shifting shaft and sliding piece, and shifting shaft is fixedly connected on safe axis side wall,
The motion track that gripper jaw corresponds to shifting shaft is provided with sliding groove, and shifting shaft end and sliding piece one end are hinged, in the middle part of sliding piece with
Gripper jaw is hinged;
When original state, sliding piece is in gripper jaw in the drop shadow spread of the second Mobile base in the projection of the second Mobile base
It is interior;When safe axis drives spring-compressed, shifting shaft drives sliding piece rotation, between the sliding piece other end protrudes between two gripper jaws
In gap.
During gripper jaw clamping test bus, gradually tested person bus acts on the installation axle of Arming Assembly, drives
Shifting shaft stretches on the upside of the gap between two gripper jaws along its middle part rotation, shifting shaft end, and then test bus lock exists
In gap between two gripper jaws.
Camera is installed, camera is directed at the gap between two gripper jaws on second Mobile base of this termination
Place;With such a structure, camera can be convenient the clamping condition that user directly observes test bus.
The multi-stage expansion cylinder two sides of this termination are equipped with several support rods;With such a structure, support rod can
It with the multi-stage expansion cylinder after problem raising, avoids shaking, influences the fixation with test bus.
It is fixed between the multi-stage expansion cylinder upper end of this termination and the bottom plate of collet by the cooperation of claw cylinder;Using
After such structure, fixation or disassembly between multi-stage expansion cylinder and collet can be rapidly completed in claw cylinder, conveniently just
It is often used.
Detailed description of the invention
Fig. 1 is the main view of this termination embodiment.
Fig. 2 is the top view of this termination embodiment collet.
Fig. 3 is Fig. 2 along sectional view along A-A.
Fig. 4 is Fig. 2 along B-B direction cross-sectional view.
Fig. 5 is the cross-sectional view of the right view of this termination embodiment connector assembly.
Fig. 6 is the cross-sectional view of the structural schematic diagram of this termination embodiment Arming Assembly.
Fig. 7 is the top view of Fig. 6.
Fig. 8 is the cross-sectional view of the main view of this termination embodiment multi-stage expansion cylinder.
Specific embodiment
As shown in Fig. 1 to Fig. 8
This termination includes collet 1000, multi-stage expansion cylinder 2000 and pedestal.
Collet 1000 includes bottom plate 1100, first movement seat 1200, the second Mobile base 1400, the first lead screw assembly, second
Lead screw assembly, clamp assemblies, Arming Assembly and connector assembly.
First movement seat 1200 is in 1100 upside of bottom plate, and first movement seat 1200 is arranged by the first lead screw assembly the bottom of at
On plate 1100, the first lead screw assembly includes the first screw rod 1310, the first nut 1330 and first motor 1320, the first screw rod 1310
Both ends are supported on bottom plate 1100, and first motor 1320 drives the rotation of the first screw rod 1310, the first nut 1330 and the first screw rod
1310 cooperations, the first nut 1330 are in 1200 downside of first movement seat, and the first nut 1330 is one with first movement seat 1200
Body structure (the first nut 1330 can also use seperated mode with first movement seat 1200, be welded and fixed therebetween).
First movement seat 1200 is set there are two the first pilot hole (not shown), the axial direction of two the first pilot holes
Consistent with 1310 length direction of the first screw rod, bottom plate 1100 is set there are two the first guide post 1110, and the first pilot hole is led with first
It is one-to-one relationship to column 1110, the length direction of the first guide post 1110 is consistent with 1310 length direction of the first screw rod, the
One guide post 1110 cooperates with the first pilot hole corresponding on first movement seat 1200.
Second Mobile base 1400 is in 1200 upside of first movement seat, and the second Mobile base 1400 is set by the second lead screw assembly
It sets on first movement seat 1200, the second lead screw assembly includes the second screw rod 1510, the second nut 1530 and the second motor 1520,
Second screw rod, 1510 both ends are supported on first movement seat 1200, and the second motor 1520 drives the second screw rod 1510 to rotate, and second
Nut 1530 and the second screw rod 1510 cooperate, and the second nut 1530 and the second Mobile base 1400 are structure as a whole (with first movement
The structure of seat 1200 is the same, and the second nut 1530 can also use seperated mode with the second Mobile base 1400, welds therebetween
It is fixed).
Second Mobile base 1400 is set there are two the second pilot hole (not shown), the axial direction of second pilot hole
Consistent with 1510 length direction of the second screw rod, first movement seat 1200 is set there are two the second guide post 1210, the second pilot hole with
Second guide post 1210 is one-to-one relationship, 1510 length direction one of length direction and the second screw rod of the second guide post 1210
It causes, the second guide post 1210 cooperates with the second pilot hole corresponding on the second Mobile base 1400.
Second screw rod of 1310 axis of the first screw rod of first lead screw assembly in horizontal plane projection and the second lead screw assembly
1510 axis are mutually perpendicular in horizontal plane projection.
Clamp assemblies include two gripper jaws 1610, clamping screw rod 1640 and clamping motor 1630, clamp 1640 liang of screw rod
End is supported on the second Mobile base 1400, and clamping screw rod 1640 is divided into two regions, the spiral shell in two regions along its length
Line is contrary, clamping motor 1630 driving clamping screw rod 1640 rotate, two gripper jaws 1610 respectively with clamping screw rod 1640
It is threadedly engaged, with the gap 1650 of clamping test bus between two gripper jaws 1610, and two gripper jaws 1610 are distinguished
In two regions in clamping screw rod 1640.
Gripper jaw 1610 is set there are two third pilot hole (not shown), the axial direction and folder of the third pilot hole
It is consistent to hold 1640 length direction of screw rod, the second Mobile base 1400 is set there are two third guide post 1410, third pilot hole and third
Guide post 1410 is one-to-one relationship, and the length direction of third guide post 1410 is consistent with clamping 1640 length direction of screw rod,
Third guide post 1410 cooperates with third pilot hole corresponding on gripper jaw 1610.
Each gripper jaw 1610 is provided with clamping mounting hole, and clamping mounting hole is two stages stepped hole, and clamping mounting hole runs through
1610 both sides of the face of gripper jaw clamp the first stage hole 1611 of the mounting hole gap 1650 between two gripper jaws 1610,
The second-order hole (not shown) of mounting hole is clamped far from gap 1650, first stage hole between two gripper jaws 1610
1611 aperture is less than the aperture of second-order hole, clamps mounting hole far from 1650 side of gap between two gripper jaws 1610
End face has been bolted end cap 1620;
It clamps and is equipped with Arming Assembly in mounting hole, Arming Assembly includes installation axle 1710, spring 1720,1740 and of shifting shaft
Sliding piece 1730,1710 one end of installation axle are protruded into gripper jaw 1610, and installation axle 1710 protrudes between two gripper jaws 1610
In gap 1650,1710 side wall of installation axle is extended with outer bulge loop 1711, and the outer diameter of outer bulge loop 1711 is less than the hole of second-order hole
Diameter, the outer diameter of outer bulge loop 1711 are greater than the aperture in first stage hole 1611, and 1720 one end of spring is resisted against the outer of installation axle 1710
On 1711 end face of bulge loop, 1720 other end of spring is resisted against on the end cap 1620 of gripper jaw 1610.
Shifting shaft 1740 is welded on the evagination side wall of installation axle 1710, and shifting shaft 1740 stretches out on gripper jaw 1610 upwards
End face, the motion track of the corresponding shifting shaft 1740 of gripper jaw 1610 are provided with sliding groove (not shown), and sliding groove and clamping are pacified
Dress hole communicates, and the groove cooperated with shifting shaft 1740 is provided on sliding piece 1730, sliding piece 1730 is protruded into 1740 end of shifting shaft
Groove in, the middle part of sliding piece 1730 passes through that pin shaft is hinged, and 1740 movement of shifting shaft can drive sliding piece with gripper jaw 1610
1730 rotations;
When original state, sliding piece 1730 is in gripper jaw 1610 in the second Mobile base in the projection of the second Mobile base 1400
In 1400 drop shadow spread;When installation axle 1710 drives spring 1720 to compress, shifting shaft 1740 drives sliding piece 1730 to rotate, and dials
1730 other end of movable plate protrudes between two gripper jaws 1610 in gap 1650.
Connector assembly is arranged on the second Mobile base 1400, and connector assembly includes wire link head 1860, rotary electric machine
1810, rotor plate 1820, polishing motor 1840, lifting motor 1830 and grinding head 1850, rotary electric machine 1810 are fixed on rotation
On plate 1820, rotor plate 1820 is mounted on the output shaft of rotary electric machine 1810, and lifting motor 1830 and polishing motor 1840 are all
It is welded on rotor plate 1820, grinding head 1850 is mounted on the output shaft of polishing motor 1840, and wire link head 1860 is fixed
In the lifting boom end of lifting motor 1830, the projector distance rotary electric machine 1810 on rotor plate 1820 of wire link head 1860
The length of output shaft is identical in the length of output shaft of projector distance rotary electric machine 1810 of rotor plate 1820 as grinding head 1850.
Camera shooting 1900 is installed, between imaging between 1900 alignments, two gripper jaws 1610 on the second Mobile base 1400
At gap 1650.
Multi-stage expansion cylinder 2000 is level Four telescopic cylinder, and 2000 bottom of multi-stage expansion cylinder is equipped with and is connected to external air source
Air inlet 2200 and venthole 2300, pass through claw between 2000 upper end of multi-stage expansion cylinder and the bottom plate 1100 of collet 1000
The cooperation of cylinder 2400 is fixed, and 2000 lower end of multi-stage expansion cylinder is bolted with pedestal 3000, multi-stage expansion cylinder 2000
Two sides are equipped with two support rods 2100, and 2100 one end of support rod is fixed with 2000 side wall of multi-stage expansion cylinder, and support rod 2100 is another
One end is fixed with ground.
In use, this termination is placed on the downside of test bus to be measured, pedestal 3000 and support rod 2100 respectively with
Ground is fixed, and multi-stage expansion cylinder 2000 is connected to external air source, acts on multi-stage expansion cylinder 2000, is driven on collet 1000
It rises to close to test bus lower position;
First lead screw assembly drives first movement seat 1200 mobile, and the second lead screw assembly drives the second Mobile base 1400 to move
It is dynamic, it is final to adjust the second Mobile base 1400 to alignment and test the positive lower position of bus, restart multi-stage expansion cylinder 2000 together with
Collet 1000 rises, and test bus is in the gap 1650 between two gripper jaws 1610 of clamp assemblies, starting clamping motor
1630, and cooperate the region that two hand of spiral are opposite on clamping screw rod 1640, two gripper jaws 1610 are moved towards, until
Two gripper jaws 1610 are against test bus, and in the process, gradually tested person bus acts on the installation axle 1710 of Arming Assembly,
Pin shaft rotation of the shifting shaft 1740 in the middle part of it is driven, the gap between two gripper jaws 1610 is stretched in 1740 end of shifting shaft
1650 upsides will then test bus lock in the gap 1650 between two gripper jaws 1610;
The rotary electric machine 1810 for starting connector assembly turns to grinding head 1850 below test bus, starting polishing motor
1840, grinding head 1850 cleans out one piece of region to be tested for bus lower end is tested, and is again started up rotary electric machine 1810 for conducting wire
Chain joint 1860 turns to below the region to be tested of test bus, starts lifting motor 1830, drives wire link head 1860
Uplink and with test bus contact, the parameter of last collecting test bus.
Above-described is only a kind of embodiment of the utility model, it is noted that for the ordinary skill of this field
For personnel, without departing from the principle of this utility model, several variations and modifications can also be made, these also should be regarded as
Belong to the protection scope of the utility model.
Claims (9)
1. a kind of intelligent telescopic high-altitude wiring device, it is characterized in that:
Including collet, multi-stage expansion cylinder and pedestal;
Collet includes bottom plate, first movement seat, the second Mobile base, the first lead screw assembly, the second lead screw assembly, clamp assemblies and connects
Line component;First movement seat is arranged on bottom plate by the first lead screw assembly, and the first lead screw assembly includes the first screw rod, the first spiral shell
Female and first motor, the first screw rod are supported on bottom plate, and first motor drives the rotation of the first screw rod, the first nut and the first screw rod
Cooperation, the first nut are fixedly connected with first movement seat;Second Mobile base is arranged by the second lead screw assembly in first movement seat
On, the second lead screw assembly includes the second screw rod, the second nut and the second motor, and the second screw rod is supported on first movement seat, the
The rotation of two the second screw rods of motor driven, the second nut and the second screw rod cooperate, and the second nut is fixedly connected with the second Mobile base, the
Second screw rod axis of projection and second lead screw assembly of the first screw rod axis of one lead screw assembly on bottom plate is on bottom plate
Projection is mutually perpendicular to;
Clamp assemblies include two gripper jaws, clamping screw rod and clamping motor, and clamping screw rod is supported on the second Mobile base, clamps
Screw rod is divided into two regions along its length, the hand of spiral in two regions on the contrary, two gripper jaws respectively with clamping silk
Being threadedly engaged in two regions of bar, with the gap of clamping test line end between two gripper jaws;
Connector assembly is arranged on the second Mobile base, and connector assembly includes at least wire link head;
Multi-stage expansion cylinder is equipped with the air inlet and venthole being connected to external air source, the bottom of multi-stage expansion cylinder upper end and collet
Seat is fixedly connected, and multi-stage expansion cylinder lower end is fixedly connected with pedestal.
2. intelligent telescopic high-altitude wiring device according to claim 1, it is characterized in that:
The connector assembly further includes that rotary electric machine, rotor plate, polishing motor, lifting motor and grinding head, rotary electric machine are fixed
On rotor plate, rotor plate is mounted on the output shaft of rotary electric machine, and lifting motor and polishing motor are all fixedly connected on rotation
On plate, grinding head is mounted on the output shaft of polishing motor, and wire link head is fixed on the lifting boom end of lifting motor, conducting wire
Chain joint on rotor plate projector distance rotary electric machine output shaft centre line length and grinding head rotor plate projection away from
The length of output shaft centre line from rotary electric machine is identical.
3. intelligent telescopic high-altitude wiring device according to claim 1, it is characterized in that:
First movement seat be equipped at least one first pilot hole, bottom plate be equipped at least one first guide post, the first pilot hole with
First guide post is one-to-one relationship, and the first guide post cooperates with the first pilot hole corresponding on first movement seat;
Second Mobile base is equipped at least one second pilot hole, and first movement seat is equipped at least one second guide post, and second leads
The second guide post of Xiang Kongyu is one-to-one relationship, and the second guide post cooperates with the second pilot hole corresponding on the second Mobile base;
Gripper jaw is equipped at least one third pilot hole, and the second Mobile base is equipped at least one third guide post, third pilot hole
It is one-to-one relationship with third guide post, third guide post cooperates with third pilot hole corresponding on gripper jaw.
4. intelligent telescopic high-altitude wiring device according to claim 1, it is characterized in that:
The gripper jaw is provided with clamping mounting hole, and Arming Assembly is equipped in clamping mounting hole, and Arming Assembly includes at least safe axis
And spring, installation axle one end are protruded into gripper jaw, installation axle protrudes into the gap between two gripper jaws, and spring one end is resisted against
In installation axle, the spring other end is resisted against on gripper jaw.
5. intelligent telescopic high-altitude wiring device according to claim 4, it is characterized in that:
The clamping mounting hole is two stages stepped hole, and clamping mounting hole runs through gripper jaw both sides of the face, clamps the of mounting hole
Single order hole gap between two gripper jaws, clamps the second-order hole of mounting hole far from gap between two gripper jaws,
The aperture in first stage hole is less than the aperture of second-order hole, clamps end of the mounting hole far from gap side between two gripper jaws
Face is fixedly connected with end cap;
Safe axis side wall is extended with outer bulge loop, and the outer diameter of outer bulge loop is less than the aperture of second-order hole, and the outer diameter of outer bulge loop is greater than
The aperture in first stage hole, spring one end are resisted against on the outer bulge loop end face of installation axle, and the spring other end is resisted against gripper jaw
On end cap.
6. intelligent telescopic high-altitude wiring device according to claim 5, it is characterized in that:
Arming Assembly further includes shifting shaft and sliding piece, and shifting shaft is fixedly connected on safe axis side wall, and gripper jaw corresponds to shifting shaft
Motion track be provided with sliding groove, shifting shaft end and sliding piece one end are hinged, hinged with gripper jaw in the middle part of sliding piece;
When original state, sliding piece is in gripper jaw in the drop shadow spread of the second Mobile base in the projection of the second Mobile base;Peace
When holoaxial drives spring-compressed, shifting shaft drives sliding piece rotation, and the sliding piece other end protrudes between two gripper jaws in gap.
7. intelligent telescopic high-altitude wiring device according to claim 1, it is characterized in that:
Camera is installed, camera is directed at the gap location between two gripper jaws on the second Mobile base.
8. intelligent telescopic high-altitude wiring device according to claim 1, it is characterized in that:
Multi-stage expansion cylinder two sides are equipped with several support rods.
9. intelligent telescopic high-altitude wiring device according to claim 1, it is characterized in that:
It is fixed between multi-stage expansion cylinder upper end and the bottom plate of collet by the cooperation of claw cylinder.
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CN201821703135.4U CN208999467U (en) | 2018-10-20 | 2018-10-20 | Intelligent telescopic high-altitude wiring device |
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CN201821703135.4U CN208999467U (en) | 2018-10-20 | 2018-10-20 | Intelligent telescopic high-altitude wiring device |
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Cited By (4)
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CN109142812A (en) * | 2018-10-20 | 2019-01-04 | 国网安徽省电力有限公司蚌埠供电公司 | Intelligent telescopic high-altitude wiring device |
CN115152394A (en) * | 2022-08-02 | 2022-10-11 | 西藏自治区农牧科学院蔬菜研究所 | Annular fertilizing device and method for plateau open-field peach cultivation |
CN115383528A (en) * | 2022-09-30 | 2022-11-25 | 云南电网有限责任公司红河供电局 | Intelligent polishing equipment for polishing overhead bare conductor and operation method thereof |
CN115488738A (en) * | 2022-09-30 | 2022-12-20 | 云南电网有限责任公司红河供电局 | Intelligent electrified polishing device for removing oxidation layer of core of overhead conductor |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109142812A (en) * | 2018-10-20 | 2019-01-04 | 国网安徽省电力有限公司蚌埠供电公司 | Intelligent telescopic high-altitude wiring device |
CN109142812B (en) * | 2018-10-20 | 2023-11-17 | 国网安徽省电力有限公司蚌埠供电公司 | Intelligent telescopic high-altitude wiring device |
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