CN115762902A - Irradiation crosslinking cable clamp and cable crosslinking device - Google Patents

Abstract

The invention discloses an irradiation crosslinking cable clamp and a cable crosslinking device, and particularly relates to the technical field of cables, wherein the irradiation crosslinking cable clamp comprises a clamp outer ring frame, a driving ring is arranged in the clamp outer ring frame in a rotating and clamping manner, a plurality of positioning blocks distributed in an annular array manner are arranged on the inner side of the clamp outer ring frame in a sliding and clamping manner, the opposite ends of the positioning blocks extend into the clamp outer ring frame, a planar thread protrusion is integrally formed on one side of the driving ring close to the positioning blocks, and a planar thread groove matched with the planar thread protrusion is formed on one side of the positioning blocks close to the driving ring.

Description

Irradiation crosslinking cable clamp and cable crosslinking device

Technical Field

The invention relates to the technical field of cables, in particular to an irradiation crosslinking cable clamp and a cable crosslinking device.

Background

The irradiation crosslinking cable is a wire manufactured by using an irradiation crosslinking process, the irradiation crosslinking is to bombard an insulating layer by using high-energy electron beams generated by an electron accelerator to break molecular chains to form macromolecular free radicals, and then the macromolecular free radicals are recombined into crosslinking bonds, so that the original linear molecular structure is changed into a three-dimensional reticular molecular structure to form crosslinking, and the irradiation crosslinking cable has the characteristics of environmental protection, safety, long service life and the like.

The crosslinked cable has the advantages that the actual use performance is greatly improved on the premise that the original excellent electrical performance of the crosslinked cable is maintained, the processing modes adopted by the crosslinked cable at present are various, wherein the electron beam crosslinking is a realization mode which is simple to operate, mature and stable, and a high-energy electron beam (the general energy is between 1.0 and 3.0 MeV) is adopted to irradiate the insulating layer of the wire cable, so that a high-molecular material is initiated to generate free radicals, a C-C crosslinking bond is formed, and a three-dimensional network structure is generated, so that the performance of the cable is improved.

In the process of electron beam crosslinking, a corresponding clamp is needed to meet the requirements of crosslinking operation during high-energy electron beam irradiation, and for this reason, an irradiation crosslinking cable clamp and a cable crosslinking device are provided to solve the above problems.

Disclosure of Invention

The present invention is directed to a radiation crosslinking cable clamp and a cable crosslinking apparatus, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an irradiation crosslinked cable anchor clamps, includes anchor clamps outer ring frame, it is equipped with the drive ring to rotate the card in the anchor clamps outer ring frame, the inboard slip card of anchor clamps outer ring frame is equipped with a plurality of locating pieces that annular array distributes, and is a plurality of during the back of the body end of locating piece extends to anchor clamps outer ring frame, one side integrated into one piece that the drive ring is close to the locating piece has plane screw thread protruding, and is a plurality of the plane screw thread protruding cooperation of offering and plane screw thread is used to one side that the locating piece is close to the drive ring, and plane screw thread protruding activity joint is in plane screw thread groove, and is a plurality of the equal fixed mounting in looks remote site of locating piece has the rotation frame, all rotate in the rotation frame and install the location gyro wheel, be located the rotation frame outside fixed mounting of anchor clamps outer ring frame bottom position has first motor, the drive end of first motor and the coaxial fixed mounting of corresponding location gyro wheel axle head.

Preferably, the outside bottom fixed mounting of anchor clamps outer ring frame has the drive underframe, drive underframe middle part is rotated and is installed the drive shaft, the fixed cover in the outside of drive shaft is equipped with first gear, the fixed cover in the outside of drive ring is equipped with first ring gear, the top of first gear extends to in the anchor clamps outer ring frame and is connected with first ring gear meshing.

The utility model provides a cable cross-linking apparatus, includes irradiation crosslinked cable anchor clamps, cable cross-linking apparatus includes the device chassis, the top middle part fixed mounting of device chassis has a section of thick bamboo in the device, irradiation crosslinked cable anchor clamps are equipped with two about a section of thick bamboo symmetric distribution in the device, two irradiation crosslinked cable anchor clamps pass through drive chassis fixed mounting on the top of device chassis, be equipped with in the device in a section of thick bamboo and encircle irradiation mechanism, it drives the mechanism altogether to encircle to be equipped with between irradiation mechanism and one of them irradiation crosslinked cable anchor clamps.

Preferably, surround irradiation mechanism and include the mechanism roof-rack, mechanism roof-rack fixed mounting is at the inboard top of a section of thick bamboo in the device, the bottom fixed mounting of mechanism roof-rack has the rotating ring frame, it is equipped with the rotating ring frame to rotate the card in the rotating ring frame, the inboard fixed mounting of rotating ring frame has the electron irradiator, one side fixed mounting of rotating ring frame has the second ring gear, the bottom fixed mounting of rotating ring frame has the seat of rotating, the middle part of rotating the seat is rotated and is installed the primary shaft, the tip fixed mounting of primary shaft has the second gear of being connected with the meshing of second ring gear.

Preferably, it includes interior auxiliary frame to drive the mechanism altogether, interior auxiliary frame and one of them the locating piece position of irradiation crosslinked cable anchor clamps bottom position corresponds, fixed mounting has the connection crossbearer between interior auxiliary frame and the corresponding locating piece, the top of interior auxiliary frame is rotated and is installed the secondary shaft, the middle part fixed mounting of secondary shaft has the supporting wheel, fixed cover is equipped with first belt pulley transmission group between the second shaft and the locating piece upper positioning roller axle head, first belt pulley transmission group includes that two belt pulleys and activity cup joint the driving belt in two belt pulley outsides, and two belt pulleys are fixed mounting respectively at the axle head of secondary shaft, correspond the axle head of locating roller on the locating piece.

Preferably, the bottom of interior auxiliary frame is rotated and is installed the third axle, fixed cover is equipped with second belt pulley transmission group between third axle, the second axle, the structure and the first belt pulley transmission group structure of second belt pulley transmission group are the same, two belt pulleys are fixed mounting respectively on third axle, second axle in the second belt pulley transmission group.

Preferably, drive mechanism still including assisting smooth frame altogether, assist one side that the lower wall is close to interior auxiliary frame in the device well section of thick bamboo of smooth frame fixed mounting, the middle part fixed mounting who assists smooth frame has the slide axle of leading, the outside of leading the slide axle is slided the cover and is equipped with the slide, one side fixed mounting that the slide is close to interior auxiliary frame has the spring, the spring cup joints in the outside of leading the slide axle, one side that the slide was kept away from to the spring supports the inboard of assisting smooth frame, the slide is close to one side fixed mounting who encircles irradiation mechanism has L type frame, one side of L type frame is rotated and is installed the fourth shaft, fixed cover is equipped with third belt pulley transmission group between fourth shaft, the third belt pulley transmission group's structure is the same with first belt pulley transmission group structure, two belt pulleys are fixed mounting respectively on fourth shaft, third shaft in the third belt pulley transmission group.

Preferably, the fixing clip on one side of the L-shaped frame adjacent to the fourth shaft is provided with a bearing, the fixing clip on the middle part of the bearing is provided with a sleeve, the outer side of the sleeve is fixedly provided with a first crown gear, and one side of the fourth shaft, which is far away from the third belt pulley transmission group, is fixedly provided with a third gear meshed with the first crown gear.

Preferably, one side of the first shaft, which is far away from the second gear, movably penetrates through the middle of the sleeve, the outer wall of one side of the first shaft, which is far away from the second gear, is integrally formed with symmetrically distributed clamping sliding strips, the inner side of the sleeve is provided with clamping sliding grooves matched with the clamping sliding strips for use, and the clamping sliding strips are slidably clamped in the corresponding clamping sliding grooves.

Preferably, two can dismantle the card between the drive shaft and be equipped with the axle that drives altogether, the fixed cover in the outside of driving the axle altogether is equipped with the second crown gear, the top fixed mounting of device chassis has the second motor, the drive end fixed mounting of second motor has and the meshing of second crown gear is connected with the fourth gear.

Compared with the prior art, the invention has the beneficial effects that:

1. by arranging the two irradiation crosslinking cable clamps and using the surrounding irradiation mechanism and the common driving mechanism in a matching manner, the cable can be driven to perform stable roller type clamping transmission, stable surrounding type irradiation crosslinking processing on the cable through the electronic irradiator is synchronously realized, and comprehensive irradiation crosslinking processing is performed on the cable, so that the irradiation crosslinking processing effect of the cable is improved;

2. by arranging the irradiation crosslinked cable clamp, the space between the plurality of positioning rollers can be flexibly adjusted, so that cables with different outer diameters can be conveniently positioned, and the use flexibility of the whole device is improved;

3. through setting up the supporting wheel, the cable supports the cable of transmission on the supporting wheel upper surface, further promotes the stability of the follow-up processing of cable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of an irradiation crosslinked cable clamp according to the present invention,

figure 2 is another schematic structural view of the irradiation crosslinked cable clamp of the present invention,

figure 3 is a schematic structural view of the cable crosslinking device of the present invention,

figure 4 is a schematic view of the structural connection of the cable crosslinking device according to the invention after disassembly,

figure 5 is an enlarged view of the invention at a in figure 4,

FIG. 6 is a schematic view of the structural connection of the irradiation crosslinking cable clamp, the surrounding irradiation mechanism and the co-drive mechanism in the invention,

figure 7 is an enlarged view of the invention at B in figure 6,

figure 8 is an enlarged view of the invention at C in figure 6,

FIG. 9 is a schematic view of the structural connection of the first shaft and the sleeve of the present invention.

In the figure: 1. a clamp outer ring frame; 101. a drive ring; 102. positioning blocks; 103. driving the bottom frame; 104. a first ring gear; 105. a drive shaft; 106. a first gear; 107. rotating the frame; 108. positioning the roller; 109. a first motor; 2. a device chassis; 3. a device middle cylinder; 4. a surrounding irradiation mechanism; 5. a common drive mechanism; 7. a co-driven shaft; 8. a second crown gear; 81. a second motor; 82. a fourth gear; 9. an electron irradiator; 41. a mechanism top frame; 42. rotating the ring frame; 43. rotating the ring frame; 44. a second ring gear; 45. a rotating seat; 46. a first shaft; 47. a second gear; 51. an inner auxiliary frame; 511. connecting the transverse frame; 512. a second shaft; 513. a support wheel; 514. a first pulley drive set; 52. a third axis; 521. a second pulley transmission set; 53. an auxiliary sliding frame; 531. a slide guide shaft; 532. a slide base; 533. a spring; 54. an L-shaped frame; 541. a fourth axis; 542. a third pulley drive set; 55. a bearing; 56. a sleeve; 57. a first crown gear; 571. a third gear; 58. a card slide bar; 581. a card sliding groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1-9, the present invention provides an irradiation crosslinked cable clamp, which includes a clamp outer ring frame 1, wherein a driving ring 101 is rotatably clamped in the clamp outer ring frame 1, a driving bottom frame 103 is fixedly installed at the bottom of the outer side of the clamp outer ring frame 1, a driving shaft 105 is rotatably installed in the middle of the driving bottom frame 103, a first gear 106 is fixedly sleeved on the outer side of the driving shaft 105, a first toothed ring 104 is fixedly sleeved on the outer side of the driving ring 101, the top of the first gear 106 extends into the clamp outer ring frame 1 and is engaged with the first toothed ring 104, and by driving the driving shaft 105 to rotate, the first gear 106 is driven to drive the first toothed ring 104 to rotate, so as to drive the driving ring 101 to stably rotate in the clamp outer ring frame 1;

the inner side of the clamp outer ring frame 1 is slidably clamped with a plurality of positioning blocks 102 distributed in an annular array, opposite ends of the positioning blocks 102 extend into the clamp outer ring frame 1, one side of the driving ring 101, which is close to the positioning blocks 102, is integrally formed with a planar thread protrusion, one side of the positioning blocks 102, which is close to the driving ring 101, is provided with a planar thread groove used in cooperation with the planar thread protrusion, the planar thread protrusion is movably clamped in the planar thread groove, the driving ring 101 stably rotates, the planar thread protrusion is movably clamped in the planar thread groove in cooperation, the positioning blocks 102 are synchronously driven to slide in opposite directions, opposite ends of the positioning blocks 102 are fixedly provided with rotating frames 107, positioning rollers 108 are rotatably mounted in the rotating frames 107, when the clamp is used, a cable needing irradiation crosslinking processing is placed between the positioning rollers 108, so as to drive the rotating frames 107 and the positioning rollers 108 to synchronously move in opposite directions, until the positioning rollers 108 and the outer side of the cable contact, the cable needing irradiation crosslinking processing is positioned, the subsequent cable is stably clamped and stably processed by a roller, and the clamp outer side of the rotating motor 109, and the distance of the rotating rollers 108 can be adjusted so as to be conveniently, and the outer side of the rotating motor for stably clamping the first positioning roller 109, and the rotating motor for clamping the first positioning roller 109, and the second positioning roller for clamping the second positioning roller for the clamp for stably clamping transmission.

The utility model provides a cable cross-linking device, irradiation crosslinked cable anchor clamps that include, cable cross-linking device includes device chassis 2, the top middle part fixed mounting of device chassis 2 has a section of thick bamboo 3 in the device, irradiation crosslinked cable anchor clamps are equipped with two about a section of thick bamboo 3 symmetric distribution in the device, the cable that will need irradiation crosslinking processing is arranged in two irradiation crosslinked cable anchor clamps and is corresponded between a plurality of positioning roller 108 and pass a section of thick bamboo 3 in the device, two irradiation crosslinked cable anchor clamps are through the top of driving underframe 103 fixed mounting at device chassis 2, be equipped with in the device in the section of thick bamboo 3 and encircle irradiation mechanism 4, encircle and be equipped with between irradiation mechanism 4 and one of them irradiation crosslinked cable anchor clamps and drive mechanism 5 altogether.

The surrounding irradiation mechanism 4 comprises a mechanism top frame 41, the mechanism top frame 41 is fixedly installed at the top of the inner side of the middle cylinder 3 of the device, a rotating ring frame 42 is fixedly installed at the bottom end of the mechanism top frame 41, a rotating ring frame 43 is arranged in the rotating ring frame 42 in a rotating and clamping mode, an electronic irradiator 9 is fixedly installed on the inner side of the rotating ring frame 43, a cable needing irradiation crosslinking processing penetrates through the rotating ring frame 43, the electronic irradiator 9 is started to perform irradiation crosslinking processing on the cable, a second gear ring 44 is fixedly installed on one side of the rotating ring frame 43, a rotating seat 45 is fixedly installed at the bottom of the rotating ring frame 42, a first shaft 46 is rotatably installed in the middle of the rotating seat 45, a second gear 47 meshed with the second gear ring 44 is fixedly installed at the end of the first shaft 46, the first shaft 46 is driven to rotate synchronously, the second gear 47 can be driven to drive the second gear ring 44, the rotating ring frame 43 and the electronic irradiator 9 to rotate along the axis of the rotating ring frame 42, so that the cable is subjected to surrounding irradiation crosslinking processing comprehensively, and the irradiation processing effect of the cable is improved.

The common driving mechanism 5 comprises an inner auxiliary frame 51, the inner auxiliary frame 51 corresponds to a positioning block 102 at the bottom of one irradiation cross-linked cable clamp, a connecting cross frame 511 is fixedly installed between the inner auxiliary frame 51 and the corresponding positioning block 102, when the positioning block 102 slides in opposite directions, the corresponding inner auxiliary frame 51 is synchronously driven to move upwards through the connecting cross frame 511, a second shaft 512 is rotatably installed at the top of the inner auxiliary frame 51, a supporting wheel 513 is fixedly installed in the middle of the second shaft 512, the cable is supported on the upper surface of the supporting wheel 513, the stability of subsequent processing of the cable is further improved, a first belt pulley transmission set 514 is fixedly sleeved between the second shaft 512 and the shaft end of a positioning roller 108 on the corresponding positioning block 102, the first belt pulley transmission set 514 comprises two belt pulleys and a transmission belt movably sleeved on the outer sides of the two belt pulleys, the two belt pulleys are respectively and fixedly installed at the shaft end of the second shaft 512 and the shaft end of the positioning roller 108 on the corresponding positioning block 102, the positioning roller 108 rotates, and the first belt pulley transmission set 514 is used in cooperation to synchronously drive the second shaft 512 to rotate so as to drive the supporting wheel 513 to rotate.

The bottom of interior auxiliary frame 51 rotates installs third axle 52, and fixed cover is equipped with second belt pulley transmission group 521 between third axle 52, the second axle 512, and the structure of second belt pulley transmission group 521 is the same with first belt pulley transmission group 514 structure, and two belt pulleys are fixed mounting respectively on third axle 52, second axle 512 in the second belt pulley transmission group 521, and second axle 512 rotates, and the cooperation uses second belt pulley transmission group 521, and synchronous drive third axle 52 rotates.

The common driving mechanism 5 further comprises an auxiliary sliding frame 53, the auxiliary sliding frame 53 is fixedly installed on one side, close to the inner auxiliary frame 51, of the inner lower wall of the middle cylinder 3, a guide sliding shaft 531 is fixedly installed in the middle of the auxiliary sliding frame 53, a sliding seat 532 is slidably sleeved on the outer side of the guide sliding shaft 531, the sliding seat 532 can stably translate on the outer side of the guide sliding shaft 531, a spring 533 is fixedly installed on one side, close to the inner auxiliary frame 51, of the sliding seat 532, the spring 533 is sleeved on the outer side of the guide sliding shaft 531, one side, far away from the sliding seat 532, of the spring 533 abuts against the inner side of the auxiliary sliding frame 53, an L-shaped frame 54 is fixedly installed on one side, close to the irradiation mechanism 4, of the sliding seat 532, a fourth shaft 541 is rotatably installed on one side of the L-shaped frame 54, a third belt pulley transmission set 542 is fixedly installed between the fourth shaft 541 and the third shaft 52, and the third belt pulley transmission set 542 has the same structure as the first belt pulley transmission set 514, two belt pulleys in a third belt pulley transmission set 542 are respectively fixedly installed on a fourth shaft 541 and a third shaft 52, the third shaft 52 rotates, the third belt pulley transmission set 542 is used in a matching manner to synchronously drive the fourth shaft 541 to rotate, when the positioning block 102 slides oppositely or reversely to adjust the spacing, the connecting transverse frame 511 synchronously drives the corresponding inner auxiliary frame 51 and the third shaft 52 to move up and down, due to the connection of the third belt pulley transmission set 542, the corresponding fourth shaft 541, the L-shaped frame 54 and the sliding seat 532 stably translate on the outer side of the sliding guide shaft 531, and the spring 533 is pressed or reset by the spring 533, so that the sliding seat 532, the L-shaped frame 54 and the fourth shaft 541 are stably and reversely translated on the outer side of the sliding guide shaft 531, the fourth shaft 541 and the third shaft 52 are always in transmission connection through the third belt pulley transmission set 542, the rotation of the third shaft 52 is not influenced, and the fourth shaft 541 is synchronously driven to rotate.

A bearing 55 is fixedly clamped on one side of the L-shaped frame 54 adjacent to the fourth shaft 541, a sleeve 56 is fixedly clamped in the middle of the bearing 55, a first crown gear 57 is fixedly sleeved on the outer side of the sleeve 56, a third gear 571 meshed with the first crown gear 57 is fixedly mounted on one side of the fourth shaft 541 away from the third belt pulley transmission set 542, and the fourth shaft 541 rotates to drive the third gear 571 to drive the first crown gear 57 and the sleeve 56 to synchronously rotate.

The first shaft 46 is far away from the second gear 47 and movably penetrates through the middle of the sleeve 56, the outer wall of the first shaft 46 far away from the second gear 47 is integrally formed with symmetrically distributed clamping and sliding strips 58, the inner side of the sleeve 56 is provided with clamping and sliding grooves 581 matched with the clamping and sliding strips 58, the clamping and sliding strips 58 are slidably clamped in the corresponding clamping and sliding grooves 581, and through the arrangement of the clamping and sliding strips 58, the clamping and sliding strips 58 are slidably clamped in the corresponding clamping and sliding grooves 581.

Can dismantle the card between two drive shafts 105 and be equipped with and drive axle 7 altogether, drive the outside fixed cover of axle 7 altogether and be equipped with second crown gear 8, the top fixed mounting of device chassis 2 has second motor 81, the drive end fixed mounting of second motor 81 has and is connected with fourth gear 82 with the meshing of second crown gear 8, during the use, open second motor 81 and drive fourth gear 82 drive second crown gear 8, drive axle 7 synchronous rotation altogether to drive the drive shaft 105 synchronous rotation in the both sides irradiation crosslinked cable anchor clamps.

The working principle is as follows: when the device is used, a cable needing irradiation crosslinking processing is placed between the corresponding positioning rollers 108 in the two irradiation crosslinking cable clamps and penetrates through the middle drum 3 of the device, the cable needing irradiation crosslinking processing penetrates through the rotating ring frame 43, and the cable is arranged on the upper surface of the supporting wheel 513 to support the transmitted cable;

then, a second motor 81 is started to drive a fourth gear 82 to drive a second crown gear 8 and a common drive shaft 7 to synchronously rotate, so as to drive a drive shaft 105 in the irradiation crosslinking cable clamp on two sides to synchronously rotate, drive a first gear 106 to drive a first toothed ring 104 to rotate, so as to drive a drive ring 101 to stably rotate in an outer ring frame 1 of the clamp, and the drive ring is clamped in a plane thread groove in a matching manner by using a plane thread convex activity, so as to synchronously drive a plurality of positioning blocks 102 to slide oppositely, so as to drive a plurality of rotating frames 107 and positioning rollers 108 to synchronously move oppositely until the plurality of positioning rollers 108 contact with the outer side of the cable, so as to position the cable needing irradiation crosslinking processing;

when the positioning block 102 slides oppositely or reversely to adjust the spacing, the connecting cross frame 511 synchronously drives the corresponding inner auxiliary frame 51 and the third shaft 52 to move up and down, due to the connection of the third belt pulley transmission set 542, the corresponding fourth shaft 541, the L-shaped frame 54 and the sliding seat 532 are pulled to stably translate on the outer side of the sliding guide shaft 531, the spring 533 is extruded, or the spring 533 is reset, the sliding seat 532, the L-shaped frame 54 and the fourth shaft 541 are driven to stably translate in the opposite direction on the outer side of the sliding guide shaft 531, the fourth shaft 541 and the third shaft 52 are always in transmission connection through the third belt pulley transmission set 542, the rotation of the third shaft 52 is not influenced, and the fourth shaft 541 is synchronously driven to rotate; the sleeve 56 stably translates outside the first shaft 46, the rotation of the sleeve 56 is not affected all the time, and the first shaft 46 is driven to rotate synchronously;

then, the electronic irradiator 9 is started to perform irradiation cross-linking processing on the cable, and the first motor 109 is started to drive the positioning roller 108 corresponding to the bottom position to rotate so as to drive the cable to perform stable roller type clamping transmission;

when the positioning roller 108 rotates, the first belt pulley transmission set 514 is used in cooperation, the second shaft 512 is synchronously driven to rotate, the supporting wheel 513 is driven to rotate, the second belt pulley transmission set 521 is used in cooperation, the third shaft 52 is synchronously driven to rotate, the third belt pulley transmission set 542 is used in cooperation, the fourth shaft 541 is synchronously driven to rotate, the fourth shaft 541 rotates to drive the third gear 571 to drive the first crown gear 57 and the sleeve 56 to synchronously rotate, the sleeve 56 rotates to synchronously drive the first shaft 46 to rotate, the second gear 47 is driven to drive the second gear ring 44, the rotating ring frame 43 and the electronic irradiator 9 to rotate along the axis of the rotating ring frame 42, so that the cable is subjected to surrounding type irradiation cross-linking processing through the electronic irradiator 9, the cable is subjected to comprehensive irradiation cross-linking processing, and the irradiation cross-linking processing effect of the cable is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an irradiation crosslinked cable anchor clamps, includes anchor clamps outer ring frame (1), its characterized in that: it is equipped with drive ring (101) to rotate the card in anchor clamps outer ring frame (1), the inboard slip card of anchor clamps outer ring frame (1) is equipped with a plurality of locating pieces (102) that the annular array distributes, and is a plurality of in the back of the body end of locating piece (102) extends to anchor clamps outer ring frame (1), one side integrated into one piece that drive ring (101) are close to locating piece (102) has plane screw thread protruding, and is a plurality of plane screw thread protruding cooperation plane screw thread recess that uses is seted up to one side that locating piece (102) are close to drive ring (101), and plane screw thread protruding activity joint is in plane screw thread recess, and is a plurality of the equal fixed mounting in looks remote site of locating piece (102) has rotation frame (107), all rotate in rotation frame (107) and install location gyro wheel (108), be located the rotation frame (107) outside fixed mounting of anchor clamps outer ring frame (1) bottom position has first motor (109), the drive end of first motor (109) and the coaxial fixed mounting of corresponding location gyro wheel (108) axle head.

2. The irradiation crosslinked cable clamp of claim 1, wherein: the utility model discloses a clamp for the automobile engine, including anchor clamps outer ring frame (1), the outside bottom fixed mounting of anchor clamps outer ring frame (1) has drive underframe (103), drive underframe (103) middle part is rotated and is installed drive shaft (105), the fixed cover in the outside of drive shaft (105) is equipped with first gear (106), the fixed cover in the outside of drive ring (101) is equipped with first ring gear (104), the top of first gear (106) extends to in anchor clamps outer ring frame (1) and is connected with first ring gear (104) meshing.

3. A cable crosslinking apparatus comprising the radiation crosslinking cable clamp of any one of claims 1 to 2, characterized in that: the cable cross-linking device comprises a device underframe (2), wherein a middle device barrel (3) is fixedly mounted in the middle of the top end of the device underframe (2), the irradiation cross-linking cable clamps are provided with two symmetrical distributed barrels (3) in the device, the irradiation cross-linking cable clamps are fixedly mounted on the top end of the device underframe (2) through a driving underframe (103), a surrounding irradiation mechanism (4) is arranged in the middle device barrel (3), and a common driving mechanism (5) is arranged between the surrounding irradiation mechanism (4) and one of the irradiation cross-linking cable clamps.

4. A cable crosslinking apparatus according to claim 3, wherein: surround irradiation mechanism (4) and include mechanism roof-rack (41), the inboard top of a section of thick bamboo (3) in the device is fixed mounting to mechanism roof-rack (41), the bottom fixed mounting of mechanism roof-rack (41) has rotating ring frame (42), it is equipped with rotating ring frame (43) to rotate the card in rotating ring frame (42), the inboard fixed mounting of rotating ring frame (43) has electron irradiator (9), one side fixed mounting of rotating ring frame (43) has second ring gear (44), the bottom fixed mounting of rotating ring frame (42) has rotating seat (45), the rotation of the middle part of rotating seat (45) installs primary shaft (46), the tip fixed mounting of primary shaft (46) has second gear (47) of being connected with second ring gear (44) meshing.

5. A cable crosslinking device according to claim 4, characterized in that: the utility model discloses a radiation cross-linked cable anchor clamps, including co-drive mechanism (5), interior auxiliary frame (51) and one of them location piece (102) position of radiation cross-linked cable anchor clamps bottom position corresponds, fixed mounting has between interior auxiliary frame (51) and the corresponding locating piece (102) and connects crossbearer (511), the top of interior auxiliary frame (51) is rotated and is installed second shaft (512), the middle part fixed mounting of second shaft (512) has supporting wheel (513), fixed cover between location gyro wheel (108) axle head on second shaft (512) and the corresponding locating piece (102) is equipped with first belt pulley transmission group (514), first belt pulley transmission group (514) include two belt pulleys and the activity cup joint the driving belt in two belt pulley outsides, and two belt pulleys are fixed mounting respectively at the axle head of second shaft (512), correspond the axle head of location gyro wheel (108) on locating piece (102).

6. A cable crosslinking device according to claim 5, characterized in that: the bottom of interior auxiliary frame (51) is rotated and is installed third axle (52), fixed cover is equipped with second belt pulley transmission group (521) between third axle (52), secondary shaft (512), the structure and the first belt pulley transmission group (514) structure of second belt pulley transmission group (521) are the same, two belt pulleys are fixed mounting respectively on third axle (52), secondary shaft (512) in the second belt pulley transmission group (521).

7. A cable crosslinking device according to claim 6, characterized in that: the utility model provides a drive mechanism (5) altogether still includes and assists sliding frame (53), assist sliding frame (53) fixed mounting in the device in section of thick bamboo (3) lower wall be close to one side of interior auxiliary frame (51), the middle part fixed mounting who assists sliding frame (53) has lead slide shaft (531), the outside slip cover of leading slide shaft (531) is equipped with slide (532), one side fixed mounting that slide (532) are close to interior auxiliary frame (51) has spring (533), spring (533) cup joint in the outside of leading slide shaft (531), one side that slide (532) were kept away from in spring (533) supports the inboard of assisting sliding frame (53), slide (532) are close to one side fixed mounting who encircles irradiation mechanism (4) has L type frame (54), one side of L type frame (54) is rotated and is installed fourth shaft (541), fixed cover is equipped with third drive pulley group (542) between fourth shaft (541), third shaft (52), the structure and the first belt pulley drive group (514) of third belt pulley group are the same, install on two fixed pulley groups (541), fourth shaft (52) respectively.

8. A cable crosslinking apparatus according to claim 7, wherein: a bearing (55) is fixedly clamped on one side of the L-shaped frame (54) adjacent to the fourth shaft (541), a sleeve (56) is fixedly clamped in the middle of the bearing (55), a first crown gear (57) is fixedly sleeved on the outer side of the sleeve (56), and a third gear (571) meshed with the first crown gear (57) is fixedly mounted on one side, away from the third belt pulley transmission set (542), of the fourth shaft (541).

9. A cable crosslinking apparatus according to claim 8, wherein: the middle part of a sleeve (56) is penetrated through in the activity of first axle (46) one side of keeping away from second gear (47), first axle (46) keep away from second gear (47) one side outer wall integrated into one piece have the card draw runner (58) of symmetric distribution, card spout (581) that cooperate with card draw runner (58) and use are seted up to the inboard of sleeve (56), card draw runner (58) slip joint is in corresponding card spout (581).

10. A cable crosslinking apparatus according to claim 3, wherein: two can dismantle the card between drive shaft (105) and be equipped with common driving shaft (7), the fixed cover in the outside of common driving shaft (7) is equipped with second crown gear (8), the top fixed mounting of device chassis (2) has second motor (81), the drive end fixed mounting of second motor (81) has and second crown gear (8) meshing is connected with fourth gear (82).

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