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CN110560613B - Cable shielding net widening mechanism using rolling steel brush - Google Patents

Cable shielding net widening mechanism using rolling steel brush Download PDF

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Publication number
CN110560613B
CN110560613B CN201910875219.9A CN201910875219A CN110560613B CN 110560613 B CN110560613 B CN 110560613B CN 201910875219 A CN201910875219 A CN 201910875219A CN 110560613 B CN110560613 B CN 110560613B
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China
Prior art keywords
steel brush
rotating
assembly
shielding net
cable
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Application number
CN201910875219.9A
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Chinese (zh)
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CN110560613A (en
Inventor
倪君权
金乙丁
陈鲁
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Jiaxing Junquan Automation Co ltd
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Jiaxing Junquan Automation Co ltd
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Priority to CN201910875219.9A priority Critical patent/CN110560613B/en
Publication of CN110560613A publication Critical patent/CN110560613A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F27/00Making wire network, i.e. wire nets
    • B21F27/02Making wire network, i.e. wire nets without additional connecting elements or material at crossings, e.g. connected by knitting
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F27/00Making wire network, i.e. wire nets
    • B21F27/12Making special types or portions of network by methods or means specially adapted therefor

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Cleaning In General (AREA)

Abstract

The invention discloses a cable shielding net widening mechanism using a rolling steel brush, relates to shielding net widening, and aims to solve the problem that a braided shielding net which is tightly braided is not easy to widen, and the technical scheme is as follows: a cable shielding net widening mechanism applying a rolling steel brush comprises a supporting component, an executing component, a telescopic component and a rotating component; the executing assembly comprises an air claw, a gap clamping block, a steel brush wheel and a steel brush motor, wherein the gap clamping block is provided with an arc groove, the executing assembly also comprises a swing control structure, the swing control structure comprises a rotating shaft and a swing cylinder, the swing cylinder is hinged with a holding block, and the holding block is clamped on the rotating shaft; the rotating assembly is connected to the gas claw, and the telescopic assembly is connected to the rotating assembly. According to the cable shielding net widening mechanism using the rolling steel brush, the steel brush wheel is adopted to stir the braided shielding net, so that the adaptability of cables with different diameters is improved, and the problem that the braided shielding net which is tightly braided is not easy to widen is effectively solved.

Description

Cable shielding net widening mechanism using rolling steel brush
Technical Field
The invention relates to the widening of a shielding net, in particular to a cable shielding net widening mechanism using a rolling steel brush.
Background
Known cables with shields typically include a shield surrounding one or more inner conductors beyond the conductors. The shield is typically provided by a braided shield, which is a tubular braided mesh formed from conductive wires. A coaxial cable is an example of a cable having a braided shield that includes an inner conductor surrounded by an insulating material. The insulating material of the inner conductor is surrounded in a coaxial manner by an outer conductor in the form of a braid (braided shield). The braided shield is further surrounded (covered) by another layer of insulating material (outer insulation). In order to mount the electrical connector on the end portion of the coaxial cable, it is necessary to remove the outer insulation surrounding the braided shield and then push back the end portion of the braided shield (which covers the inner insulation) by a predetermined length in a direction substantially perpendicular to the extending direction of the inner conductor while widening (expanding) it.
In the prior art, the widening of the braided shielding net is generally realized by filling compressed air jet flow between the internal insulation and the braided shielding net, but because the air pressure value is not easy to control, the problem that the braided shielding net with a tighter braiding is not easy to widen exists; therefore, a new solution is needed to solve this problem.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide a cable shielding net widening mechanism using a rolling steel brush, wherein a steel brush wheel is adopted to shift a braided shielding net, so that the adaptability of cables with different diameters is improved, and the problem that the braided shielding net which is braided more tightly is not easy to widen is effectively solved.
The technical purpose of the invention is realized by the following technical scheme: a cable shielding net widening mechanism applying a rolling steel brush comprises a supporting component, an executing component, a telescopic component and a rotating component; the executing assembly comprises an air claw, two gap clamping blocks arranged on the air claw, a steel brush wheel and a steel brush motor used for driving the steel brush wheel, wherein the two gap clamping blocks are respectively provided with an arc groove for exposing a cable and embedding the steel brush wheel; the rotating assembly is connected to the air claw and used for controlling the execution assembly to rotate, and the telescopic assembly is connected to the rotating assembly and used for controlling the execution assembly and the rotating assembly to telescope.
By adopting the technical scheme, when the cable expanding device works normally, a cable to be expanded is right opposite to the space between the two gap clamping blocks, the telescopic component drives the execution component to extend forwards until the cable is positioned in the clamping openings of the two gap clamping blocks, and the gap clamping blocks are driven to fold by the air claws so as to realize gap clamping of the cable; after the gap clamping of the cable is completed, a piston rod of the swing air cylinder extends out, the rotating shaft is pushed to rotate through the holding block, so that the steel brush wheel is forced to be embedded into the arc groove, the steel brush motor is started to drive the steel brush wheel to rotate, the steel brush wheel stirs the braided shielding net to be turned up and widened in the rotating process, and meanwhile, the rotating assembly drives the executing assembly to rotate, so that the turning up and widening of the braided shielding net in the whole circumferential direction are completed; after the weaving shielding net is turned and widened, the rotating assembly stops driving the executing assembly to rotate, the steel brush motor stops driving the steel brush wheel, the swing cylinder applies pulling force to the holding block to force the steel brush motor and the steel brush wheel to tilt until the steel brush wheel is separated from the arc groove, the air claw drives the gap clamping block to loosen gap clamping on the cable, and finally the telescopic assembly pulls the executing assembly to retract until the gap clamping block is far away from the cable; to sum up, the invention adopts the steel brush wheel to stir the braided shielding net, thereby realizing the turning and widening of the cable, and drives the execution component to rotate through the rotating component, thereby realizing the turning and widening of the whole circumferential direction of the cable, it needs to be explained that the gap clamping block is clamped on the cable at the gap, thereby ensuring the relative rotation capability of the execution component and the cable under the premise of realizing the limitation of the cable, the swing control mechanism drives the steel brush motor and the steel brush wheel to swing, thereby being capable of controlling the embedding amount of the steel brush wheel in the arc groove, further improving the adaptability to the cables with different diameters, it needs to be explained that the rigidity of the part of the steel brush wheel which is closer to the circle center is higher, therefore, when weaving the more compact braided shielding net, the embedding amount of the steel brush wheel in the arc groove can be improved, further the braided shielding net is suitable for the compact braided, compressed air is utilized to force the turning and widening of the braided shielding net in the prior art, the problem that the woven shielding net which is woven more tightly is not easy to widen is effectively solved.
The invention is further configured to: the supporting component comprises a bottom plate, a supporting mounting plate fixed on the bottom plate and a slip ring mounting plate.
By adopting the technical scheme, the support assembly realizes the assembly of the invention and equipment through the bottom plate, and the support mounting plate and the sliding ring mounting plate realize the support of the telescopic assembly, so that the support of the rotary assembly and the actuating assembly is completed through the telescopic assembly.
The invention is further configured to: the support mounting panel is provided with two guide bars between the sliding ring mounting panel, flexible subassembly includes the frame that slides of being connected with two guide bars to and fixed mounting is in the telescopic cylinder of bottom plate, telescopic cylinder's tailpiece of the piston rod and the frame fixed connection that slides.
By adopting the technical scheme, when the execution assembly needs to be controlled by the telescopic assembly to extend forwards, the piston rod of the telescopic cylinder gradually extends out, so that the sliding frame is pushed to slide towards the supporting and mounting plate along the guide rod; when the telescopic assembly is required to control the executing assembly to retract, the piston rod of the telescopic cylinder gradually retracts, so that the sliding frame is pulled to slide towards the sliding ring mounting plate along the guide rod; in conclusion, the control of the forward extension and the retraction of the actuating mechanism can be realized only by controlling the extension and the retraction of the telescopic cylinder, and the technical effect of more convenient control is achieved.
The invention is further configured to: and a linear bearing is arranged between the guide rod and the sliding frame.
Through adopting above-mentioned technical scheme, utilize linear bearing to reduce the characteristic of frictional force, effectively reduce the frictional resistance between guide bar and the frame that slides to improve the smooth and easy nature of sliding of frame that slides.
The invention is further configured to: the rotating assembly comprises a rotating fixed shaft which is horizontally and rotatably connected to the sliding frame, a rotating motor which is coaxially fixed at one end of the rotating fixed shaft, and a rotating mounting plate which is fixed at the other end of the rotating fixed shaft through a flange, wherein the gas claw is fixedly mounted on the rotating mounting plate.
Through adopting above-mentioned technical scheme, rotating assembly's rotatory fixed axle rotates to be connected in the frame that slides to the technical requirement of the protraction and the retraction of realization by the subassembly control rotating assembly and executive component that slides, rotatory fixed axle one end and rotating electrical machines coaxial coupling, its other end is fixed with the gas claw via rotatory mounting panel, thereby rotating electrical machines can be directly rotatory via rotatory fixed axle drive executive component, reaches the rotatory more convenient technological effect of control executive component.
The invention is further configured to: the sliding frame is provided with a motor mounting seat, and the rotating motor is fixedly mounted on the motor mounting seat.
Through adopting above-mentioned technical scheme, utilize the motor mount pad to realize the assembly of rotating electrical machines and sliding frame to ensure rotating electrical machines's installation stability.
The invention is further configured to: two rotary bearings are arranged between the rotary fixed shaft and the sliding frame.
Through adopting above-mentioned technical scheme, utilize swivel bearing to reduce the frictional resistance between rotatory fixed axle and the frame that slides on the one hand to improve the smooth and easy nature of rotation of rotatory fixed axle, on the other hand is by the gliding activity of swivel bearing restriction rotatory fixed axle along the axis direction, thereby ensures the stability of rotatory fixed axle.
The invention is further configured to: the steel brush wheel is coaxially fixed with a transmission shaft, the transmission shaft is provided with a driven bevel gear, and an output shaft of the steel brush motor is provided with a driving bevel gear meshed with the driven bevel gear.
By adopting the technical scheme, the steel brush motor drives the driving bevel gear to synchronously rotate, and the driving bevel gear drives the driven bevel gear by using the meshing force in the rotating process, so that the torque force is applied to the transmission shaft to drive the steel brush wheel to rotate.
In conclusion, the invention has the following beneficial effects: the steel brush wheel is adopted to stir the braided shielding net, so that the turning and the widening of the cable are realized, and the rotating component drives the executing component to rotate, so that the turning and the widening of the whole circumferential direction of the cable are realized; the clearance clamping block clamps the cable in a clearance mode, so that the relative rotation capacity of the execution assembly and the cable is ensured on the premise that the cable is limited; the swing control mechanism drives the steel brush motor and the steel brush wheel to swing, so that the embedding amount of the steel brush wheel embedded in the arc groove can be controlled, and the adaptability to cables with different diameters is improved; the rigidity of the part of the steel brush wheel, which is closer to the circle center, is higher, so that the embedding amount of the steel brush wheel in the arc groove can be increased when the braided shielding net is braided more tightly, and the braided shielding net is suitable for tightly braiding; the supporting assembly realizes the assembly of the invention and equipment through the bottom plate, and the supporting mounting plate and the sliding ring mounting plate realize the support of the telescopic assembly, so that the telescopic assembly can support the rotating assembly and the executing assembly; the control of the forward extension and the retraction of the actuating mechanism can be realized only by controlling the extension and the retraction of the telescopic cylinder, so that the technical effect of more convenient control is achieved; the characteristic that the linear bearing reduces the friction force is utilized, the friction resistance between the guide rod and the sliding frame is effectively reduced, and therefore the sliding smoothness of the sliding frame is improved; the rotating motor can directly drive the execution assembly to rotate through the rotating fixed shaft, so that the technical effect of more convenient rotation control of the execution assembly is achieved; the assembly of the rotating motor and the sliding frame is realized by utilizing the motor mounting seat, so that the mounting stability of the rotating motor is ensured; the friction resistance between the rotating fixed shaft and the sliding frame is reduced by using the rotating bearing, so that the rotating smoothness of the rotating fixed shaft is improved; the steel brush motor drives the driving bevel gear to synchronously rotate, and the driving bevel gear drives the driven bevel gear by using meshing force in the rotating process, so that the torque is applied to the transmission shaft to drive the steel brush wheel to rotate.
Drawings
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a view showing the fitting relationship between the gas claw and the cable according to the present invention;
FIG. 3 is a schematic view of the telescoping and rotating assemblies of the present invention;
FIG. 4 is a diagram showing the relationship between the steel brush wheel and the steel brush motor according to the present invention.
Description of the drawings: 11. a base plate; 12. supporting the mounting plate; 13. a slip ring mounting plate; 14. a guide bar; 21. a pneumatic claw; 22. a gap clamping block; 23. a steel brush wheel; 24. a steel brush motor; 25. an arc groove; 26. a rotating shaft; 27. a swing cylinder; 28. a hugging block; 29. a drive shaft; 291. a driven bevel gear; 292. a drive bevel gear; 31. a sliding frame; 32. a telescopic cylinder; 33. a linear bearing; 41. rotating the fixed shaft; 42. a rotating electric machine; 43. rotating the mounting plate; 44. a motor mounting seat; 45. and a rotating bearing.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
A cable shielding net widening mechanism using a rolling steel brush, as shown in fig. 1 and 2, comprises a supporting component, an executing component, a telescopic component and a rotating component; the executing assembly comprises an air claw 21, two gap clamping blocks 22 fixed on the air claw 21 through bolts, a steel brush wheel 23, a steel brush motor 24 used for driving the steel brush wheel 23, wherein the two gap clamping blocks 22 are respectively provided with an arc groove 25 for exposing a cable and embedding the steel brush wheel 23, the executing assembly further comprises a swing control structure, the swing control structure comprises a rotating shaft 26 and a swing cylinder 27, one end of the rotating shaft 26 is fixed on the steel brush motor 24 and is rotatably connected with the air claw 21, the swing cylinder 27 is rotatably connected with the air claw 21, a piston rod end of the swing cylinder 27 is hinged with a holding block 28, and the holding block 28 is tightly clamped at the other end of the rotating shaft 26; the rotating assembly is connected to the air claw 21 and used for controlling the execution assembly to rotate, and the telescopic assembly is connected to the rotating assembly and used for controlling the execution assembly and the rotating assembly to telescope.
When the cable expanding device works normally, a cable to be expanded is right opposite to the space between the two gap clamping blocks 22, the telescopic component drives the executing component to extend forwards until the cable is positioned in the clamping openings of the two gap clamping blocks 22, and the two gap clamping blocks 22 are driven to fold by the air claw 21 to realize the gap clamping of the cable; after the gap clamping of the cable is completed, a piston rod of the swing air cylinder 27 extends out, the rotating shaft 26 is pushed to rotate through the holding block 28, so that the steel brush wheel 23 is forced to be embedded into the arc groove 25, the steel brush motor 24 is started to drive the steel brush wheel 23 to rotate, the steel brush wheel 23 stirs the braided shielding net to be turned up and widened in the rotating process, and meanwhile, the rotating assembly drives the executing assembly to rotate, so that the turning up and widening of the braided shielding net in the whole circumferential direction are completed; after the weaving shielding net is turned and widened, the rotating assembly stops driving the executing assembly to rotate, the steel brush motor 24 stops driving the steel brush wheel 23, the swinging air cylinder 27 applies a pulling force to the clasping block 28 to force the steel brush motor 24 and the steel brush wheel 23 to tilt until the steel brush wheel 23 is separated from the arc groove 25, the air claw 21 drives the two gap clamping blocks 22 to loosen the gap clamping on the cable, and finally the telescopic assembly pulls the executing assembly to retract until the gap clamping blocks 22 are far away from the cable; in summary, the steel brush wheel 23 is adopted to stir the braided shielding net, so as to realize the turning and widening of the cable, and the rotating component is used to drive the executing component to rotate, so as to realize the turning and widening of the whole circumferential direction of the cable, it is noted that the gap clamping block 22 is clamped on the cable at a gap, so as to ensure the relative rotation capability of the executing component and the cable on the premise of realizing the limitation of the cable, the swinging control mechanism drives the steel brush motor 24 and the steel brush wheel 23 to swing, so as to control the embedding amount of the steel brush wheel 23 in the arc groove 25, and further improve the adaptability to cables with different diameters, it is noted that the higher the rigidity of the steel brush wheel 23 is closer to the center of the circle, so that when a tighter braided shielding net is braided, the embedding amount of the steel brush wheel 23 in the arc groove 25 can be improved, and further the braided shielding net is adapted to the tightly braided shielding net, compared with the prior art in which compressed air is used for forcing the turning-up and widening of the braided shielding net, the problem that the braided shielding net which is tightly braided is not easy to widen is effectively solved.
The specific structure of the supporting assembly is as follows, as shown in fig. 1, the supporting assembly comprises a bottom plate 11, a supporting mounting plate 12 fixed on the bottom plate 11 by bolts and a slip ring mounting plate 13, so that the supporting assembly realizes the assembly of the invention and the equipment through the bottom plate 11, and realizes the support of the telescopic assembly by the supporting mounting plate 12 and the slip ring mounting plate 13, thereby completing the support of the rotating assembly and the actuating assembly through the telescopic assembly.
The specific structure of the telescopic assembly is as follows, as shown in fig. 1 and fig. 3, two guide rods 14 are fixed between the support mounting plate 12 and the slip ring mounting plate 13 by bolts, the telescopic assembly comprises a sliding frame 31 connected with the two guide rods 14 in a sliding manner, and a telescopic cylinder 32 fixedly mounted on the bottom plate 11, and the piston rod end of the telescopic cylinder 32 is fixedly connected with the sliding frame 31; when the actuator assembly needs to be controlled to extend forwards by the telescopic assembly, the piston rod of the telescopic cylinder 32 gradually extends out, so that the sliding frame 31 is pushed to slide towards the support mounting plate 12 along the guide rod 14; when the retraction of the actuating assembly is required to be controlled by the telescopic assembly, the piston rod of the telescopic cylinder 32 is gradually retracted, so that the sliding frame 31 is pulled to slide along the guide rod 14 towards the sliding ring mounting plate 13; in conclusion, the control of the forward extension and the retraction of the actuating mechanism can be realized only by controlling the extension and the retraction of the telescopic cylinder 32, so that the technical effect of more convenient control is achieved.
In order to improve the sliding smoothness of the sliding frame 31, as shown in fig. 3, a linear bearing 33 is disposed between the guide rod 14 and the sliding frame 31, a flange is disposed at one end of the linear bearing 33, the flange is bolted to the sliding frame 31, and the inner circumferential surface of the linear bearing 33 is slidably sleeved with the guide rod 14, so that the frictional force is reduced by the characteristic of the linear bearing 33, the frictional resistance between the guide rod 14 and the sliding frame 31 is effectively reduced, and the sliding smoothness of the sliding frame 31 is improved.
The specific structure of the rotating assembly is as follows, as shown in fig. 1 and 3, the rotating assembly comprises a rotating fixed shaft 41 horizontally and rotatably connected to the sliding frame 31, a rotating motor 42 coaxially fixed at one end of the rotating fixed shaft 41, and a rotating mounting plate 43 flange-fixed at the other end of the rotating fixed shaft 41, the gas claw 21 is fixedly mounted on the rotating mounting plate 43; the rotating fixed shaft 41 of the rotating assembly is rotatably connected to the sliding frame 31, so that the technical requirements of controlling the forward extension and the retraction of the rotating assembly and the executing assembly by the sliding assembly are met, one end of the rotating fixed shaft 41 is coaxially connected with the rotating motor 42, and the other end of the rotating fixed shaft is fixed with the air claw 21 through the rotating mounting plate 43, so that the rotating motor 42 can directly drive the executing assembly to rotate through the rotating fixed shaft 41, and the technical effect of controlling the executing assembly to rotate more conveniently is achieved.
The rotating electrical machine 42 is mounted on the sliding frame 31 in such a way that, as shown in fig. 3, a motor mounting seat 44 is fixed to the sliding frame 31 by bolts, the rotating electrical machine 42 is fixed to the motor mounting seat 44, it should be noted that the motor mounting seat 44 is in a horizontal penetrating structure, an output shaft of the rotating electrical machine 42 is located in a hollow inner cavity of the motor mounting seat 44, and a coupling is provided between the output shaft and the rotating fixed shaft 41 for connection.
As shown in fig. 3, two rotation bearings 45 are provided between the rotation fixing shaft 41 and the sliding frame 31, an inner ring of each rotation bearing 45 is fixedly sleeved with the rotation fixing shaft 41, and an outer ring of each rotation bearing 45 is fixedly engaged with the sliding frame 31, so that on one hand, the rotation bearings 45 are used to reduce the frictional resistance between the rotation fixing shaft 41 and the sliding frame 31, thereby improving the rotation smoothness of the rotation fixing shaft 41, and on the other hand, the rotation bearings 45 are used to limit the sliding motion of the rotation fixing shaft 41 in the central axis direction, thereby ensuring the stability of the rotation fixing shaft 41.
The steel brush motor 24 drives the steel brush wheel 23 in the following way, as shown in fig. 4, the circle center of the steel brush wheel 23 is inserted and nut-fastened with a transmission shaft 29, a driven bevel gear 291 is fixed on a keyway of the transmission shaft 29, and a driving bevel gear 292 meshed with the driven bevel gear 291 is fixed on a keyway of an output shaft of the steel brush motor 24; the steel brush motor 24 drives the driving bevel gear 292 to rotate synchronously, and the driving bevel gear 292 drives the driven bevel gear 291 by using mesh force during rotation, so that the steel brush wheel 23 is driven to rotate by applying torque force to the transmission shaft 29.
The specific embodiments are only for explaining the present invention, and the present invention is not limited thereto, and those skilled in the art can make modifications without inventive contribution to the present embodiments as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides an application rolling steel brush's cable shield net expands wide mechanism which characterized in that: comprises a supporting component, an executing component, a telescopic component and a rotating component; the executing assembly comprises an air claw (21), two gap clamping blocks (22) arranged on the air claw (21), a steel brush wheel (23) and a steel brush motor (24) used for driving the steel brush wheel (23), wherein the two gap clamping blocks (22) are respectively provided with an arc groove (25) for exposing a cable and embedding the steel brush wheel (23), the executing assembly further comprises a swinging control structure, the swinging control structure comprises a rotating shaft (26) and a swinging cylinder (27), one end of the rotating shaft is fixed on the steel brush motor (24) and is rotatably connected with the air claw (21), the swinging cylinder (27) is rotatably connected with the air claw (21), the end of a piston rod of the swinging cylinder (27) is hinged with a holding block (28), and the holding block (28) is clamped at the other end of the rotating shaft (26); the rotating assembly is connected with the air claw (21) and is used for controlling the execution assembly to rotate, and the telescopic assembly is connected with the rotating assembly and is used for controlling the execution assembly and the rotating assembly to telescope; the steel brush wheel (23) is coaxially fixed with a transmission shaft (29), the transmission shaft (29) is provided with a driven bevel gear (291), and an output shaft of the steel brush motor (24) is provided with a driving bevel gear (292) meshed with the driven bevel gear (291).
2. The cable shielding net widening mechanism applying the rolling steel brush as recited in claim 1, wherein: the supporting component comprises a bottom plate (11), a supporting mounting plate (12) fixed on the bottom plate (11) and a sliding ring mounting plate (13).
3. The cable shielding net widening mechanism applying the rolling steel brush as recited in claim 2, wherein: be provided with two guide bar (14) between support mounting panel (12) and sliding ring mounting panel (13), flexible subassembly includes the frame (31) that slides of being connected with two guide bar (14) to and fixed mounting in telescopic cylinder (32) of bottom plate (11), the tailpiece of the piston rod of telescopic cylinder (32) and frame (31) fixed connection that slides.
4. The cable shielding net widening mechanism applying the rolling steel brush as recited in claim 3, wherein: a linear bearing (33) is arranged between the guide rod (14) and the sliding frame (31).
5. The cable shielding net widening mechanism applying the rolling steel brush as recited in claim 3, wherein: the rotating assembly comprises a rotating fixed shaft (41) which is horizontally and rotatably connected to the sliding frame (31), a rotating motor (42) which is coaxially fixed at one end of the rotating fixed shaft (41), and a rotating mounting plate (43) which is fixed at the other end of the rotating fixed shaft (41) through a flange, wherein the gas claw (21) is fixedly mounted on the rotating mounting plate (43).
6. The cable shielding net widening mechanism applying the rolling steel brush as recited in claim 5, wherein: the sliding frame (31) is provided with a motor mounting seat (44), and the rotating motor (42) is fixedly mounted on the motor mounting seat (44).
7. The cable shielding net widening mechanism applying the rolling steel brush as recited in claim 5, wherein: two rotary bearings (45) are arranged between the rotary fixed shaft (41) and the sliding frame (31).
CN201910875219.9A 2019-09-17 2019-09-17 Cable shielding net widening mechanism using rolling steel brush Active CN110560613B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201910875219.9A CN110560613B (en) 2019-09-17 2019-09-17 Cable shielding net widening mechanism using rolling steel brush

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Application Number Priority Date Filing Date Title
CN201910875219.9A CN110560613B (en) 2019-09-17 2019-09-17 Cable shielding net widening mechanism using rolling steel brush

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CN110560613B true CN110560613B (en) 2020-11-03

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Publication number Priority date Publication date Assignee Title
JP7181243B2 (en) * 2020-02-06 2022-11-30 矢崎総業株式会社 Braid folding device and braid folding method
CN113059094A (en) * 2021-04-23 2021-07-02 嘉兴君权自动化设备有限公司 Shielding silk brush trimmer

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JPH01177810A (en) * 1988-01-01 1989-07-14 Tadashi Takizawa Method and apparatus for process of end of shielded wire
JP2000184548A (en) * 1998-12-11 2000-06-30 Harness Syst Tech Res Ltd Inverting method and device for external conductor of coaxial line terminal
CN1428794A (en) * 2001-12-26 2003-07-09 富士康(昆山)电脑接插件有限公司 Method for separating metal woven layer from inner layer wire of coaxial cable and its equipment
EP2117089A1 (en) * 2008-05-05 2009-11-11 Curti Costruzioni Meccaniche S.p.A. Device and process for folding over braids of coaxial cables
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CN108963720A (en) * 2018-07-17 2018-12-07 吉林省中赢高科技有限公司 A kind of cable shielding net turnover device
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Denomination of invention: Cable Shield Widening Mechanism Using Rolling Steel Brush

Effective date of registration: 20220919

Granted publication date: 20201103

Pledgee: Zhejiang Hecheng Rural Commercial Bank Co.,Ltd.

Pledgor: JIAXING JUNQUAN AUTOMATION Co.,Ltd.

Registration number: Y2022330002340