CN110844356A

CN110844356A - Cable transfer mechanism for communication engineering

Info

Publication number: CN110844356A
Application number: CN201911160559.XA
Authority: CN
Inventors: 兰德英
Original assignee: 兰德英
Current assignee: ANXI COUNTY TAOZHOU TOWN TONGSHENG TEA PROFESSIONAL COOPERATIVES
Priority date: 2019-11-23
Filing date: 2019-11-23
Publication date: 2020-02-28
Anticipated expiration: 2039-11-23
Also published as: CN110844356B

Abstract

The invention discloses a cable transfer mechanism for communication engineering, which comprises a support plate, a connecting main frame, a rectangular pin cylinder, a support underframe, a bottom beam, a right connecting auxiliary frame, a left connecting auxiliary frame, a circular pin cylinder and a storage protection device, wherein the storage protection device is arranged on the support plate, a bundled cable can be orderly coiled and placed in a placing box body, six placing spaces formed by six turning plates and the placing box body are used for placing the cable in batches, the cable is convenient to sort and arrange, the arranged pushing mechanism can drive the turning plates to rotate by 90 degrees to match with the other turning plates to clamp and fix the cable, meanwhile, a protection buffer device is arranged on the turning plates, a trapezoidal spring leaf is in contact with the cable, and the expansion and contraction of a compression spring absorbs the shaking brought by the trapezoidal spring leaf, so that the cable is more stable during transportation and better protected, facilitating subsequent transportation work.

Description

Cable transfer mechanism for communication engineering

Technical Field

The invention relates to the related field of communication engineering, in particular to a cable transfer mechanism for communication engineering.

Background

The communication engineering is also called telecommunication engineering, which is called long-distance communication engineering and weak current engineering, is an important branch of electronic engineering, electronic information sub-major and one of the basic subjects, which pay attention to the principle and application of information transmission and signal processing in the communication process, and the subject learns the knowledge in the aspects of communication technology, communication system, communication network and the like, and can research, design, manufacture and operate in the communication field and develop and apply the communication technology and equipment in various departments of national economy and national defense industry.

In communication engineering, the cable is the most basic information transmission medium, in the in-process of using, some thinner cables mostly tie up into a roll and arrange, and the transportation and the transport of a large amount of cables after tying up are more difficult, the transportation of piling is carried out by the freight train usually to the current, and because current transportation mode is usually to place a roll of cable after tying up in the car hopper at will, and the place of cable transportation usually is the construction section, the road surface is comparatively uneven, lead to cable transportation usually can collide with the car hopper or with other external object and cause wearing and tearing, make the follow-up use of cable go up the safety fault or directly cause the damage of cable, can't use, cause economic loss.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides a cable transportation mechanism for communication engineering.

The invention is realized in such a way, a cable transfer mechanism for communication engineering is constructed, the device comprises a support plate, a connecting main frame, rectangular pin cylinders, a support underframe, a bottom beam, a right connecting auxiliary frame, a left connecting auxiliary frame, a round pin cylinder and a storage protection device, the connecting main frame is arranged at the front end of the support plate, the rectangular pin cylinders are respectively arranged at two sides of the rear end of the support plate, the support underframe is arranged at two sides of the bottom of the support plate, the middle part of the support underframe is fixedly connected through the bottom beam, the right connecting auxiliary frame and the left connecting auxiliary frame are respectively arranged at two sides of the front end of the support underframe, the round pin cylinders which vertically correspond to the rectangular pin cylinders are arranged at the rear end of the side edge of the support underframe, the storage protection device is arranged at the top of the support plate and is fixed through bolts, and the storage protection device consists of a placement box body, a connecting transverse rod, the utility model discloses a protection device for the storage box, including the storage box body, place the box body outside and fix with the connecting cross rod mutually through the side frame board, it is fixed mutually with the connecting cross rod to place box body outside bottom both ends, it is fixed mutually with outer frame inside through connecting the cross rod, outer frame is fixed with the backup pad top through the bolt all around, it is provided with a plurality of propelling movement fixed knot to place the inside fixed knot of box body to construct, and this propelling movement fixed knot construct with the propelling movement mechanism of placing box body left side installation is connected, install.

Preferably, the pushing and fixing structure is composed of a turning plate, a turning shaft rod, a left shaft seat and a right shaft seat, the bottom of the turning plate is fixed to the top of the turning shaft rod, the left shaft seat is installed on the left end face of the placing box body, the right shaft seat is installed on the right end face of the placing box body, two ends of the turning shaft rod penetrate through the placing box body and are respectively connected and fixed with bearings in the middle of the left shaft seat and the right shaft seat, and the left shaft seat is connected with the pushing mechanism.

Preferably, pushing mechanism comprises side link, last connecting axle, coupling plate, lower connecting axle, electric putter, push rod fixing base, connector and external connection line, the side link rotates with the coupling plate upper end through last connecting axle to be connected, coupling plate bottom and left axle bed rotate through lower connecting axle to be connected fixedly, the electric putter rear side is fixed mutually with outer frame through the push rod fixing base, the piston rod head and the connector one end of electric putter front end are fixed mutually, the connector other end rotates with the side link end to be connected, the electric putter rear side is equipped with the external connection line.

Preferably, protection buffer comprises mounting panel, first buffer structure, second buffer structure, third buffer structure and fourth buffer structure, the terminal surface before the board is installed in overturning, first buffer structure, second buffer structure, third buffer structure and fourth buffer structure are arranged from a left side to right equidistance and are installed in the preceding terminal surface of mounting panel.

Preferably, first buffer structure comprises trapezoidal spring leaf, compression spring, first guide post, first location swivel nut, second guide post and second location swivel nut, trapezoidal spring leaf is provided with compression spring and fixes mutually with the terminal surface before the mounting panel through compression spring, trapezoidal spring leaf both sides respectively are equipped with a through-hole, the through-hole that first guide post runs through trapezoidal spring leaf right side is fixed mutually with the terminal surface before the mounting panel, first guide post head portion is equipped with the external screw thread and fixes with the inboard interior screw-thread fit of first location swivel nut, the second guide post runs through the left through-hole of trapezoidal spring leaf and fixes mutually with the terminal surface before the mounting panel, second guide post head portion is equipped with the external screw thread and fixes with the interior screw-thread fit of second location swivel nut.

Preferably, the pushing and fixing structures are provided with six pushing and fixing structures which are arranged in the placing box body at equal intervals and are connected with the side link through six corresponding lower connecting shafts.

Preferably, the number of the protection buffer devices is six, and the protection buffer devices are respectively installed on the front end faces of the six pushing and fixing structures.

Preferably, the range of the rotation angle of the coupling plate is as follows: 0 to 90 degrees.

Preferably, the first buffer structure, the second buffer structure, the third buffer structure and the fourth buffer structure are all the same structure.

Preferably, the first guide column and the second guide column have the same structure and are symmetrical to each other.

Preferably, the box cover can be installed on the placing box body according to actual conditions and used for sealing the placing box body to protect the transportation of cables inside the placing box body.

Preferably, the turning plate is made of stainless steel.

Preferably, the trapezoidal spring piece is made of a stainless steel cold-rolled strip.

Preferably, the compression spring is made of stainless spring steel wires.

The invention has the following advantages: the invention provides a cable transfer mechanism for communication engineering through improvement, which has the following improvement compared with the same type of equipment:

the method has the advantages that: according to the cable transfer mechanism for the communication engineering, the storage protection device is mounted on the supporting plate, a bundled cable can be placed in the placing box body in a winding and tidy mode, six placing spaces formed by the six turning plates and the placing box body are used for placing the cable in batches, classification and arrangement are convenient, meanwhile, the arranged pushing mechanism can drive the turning plates to rotate 90 degrees to be matched with the other turning plates to clamp and fix the cable, and therefore stability of the cable transfer mechanism during transportation is improved.

The method has the advantages that: according to the cable transfer mechanism for the communication engineering, the protective buffering device is arranged on the turnover plate, the first buffering structure, the second buffering structure, the third buffering structure and the fourth buffering structure which are identical in structure are respectively arranged on the mounting plate, the trapezoidal spring piece in the first buffering structure is in contact with the cable, and meanwhile, the shaking caused by the trapezoidal spring piece is absorbed by the extension and contraction of the compression spring, so that the cable is more stable during storage and transportation, the cable is better protected, and the subsequent transportation work is facilitated.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of the storage protective device of the present invention;

FIG. 4 is a schematic view of a push fixture of the present invention;

FIG. 5 is a schematic structural view of the pushing mechanism of the present invention;

FIG. 6 is a schematic view of the protection buffer device of the present invention;

FIG. 7 is a schematic side view of the protective bumper of the present invention;

fig. 8 is an enlarged view of a portion a of fig. 6 according to the present invention.

Wherein: a supporting plate-1, a connecting main frame-2, a rectangular pin cylinder-3, a supporting underframe-4, a bottom beam-5, a right connecting auxiliary frame-6, a left connecting auxiliary frame-7, a round pin cylinder-8, a storage protection device-9, a placing box-91, a connecting cross rod-92, an outer frame-93, a side frame plate-94, a pushing and fixing structure-95, a pushing mechanism-96, a protection buffer device-97, a turning plate-951, a turning shaft rod-952, a left shaft seat-953, a right shaft seat-954, a connecting frame-961, an upper connecting shaft-962, a connecting shaft-963, a lower connecting shaft-964, an electric push rod-965, a push rod fixing seat-966, a connecting head-967, an external connecting line-968, a mounting plate-971, a push rod fixing seat-966, the buffer structure comprises a first buffer structure-972, a second buffer structure-973, a third buffer structure-974, a fourth buffer structure-975, a trapezoidal spring piece-9721, a compression spring-9722, a first guide column-9723, a first positioning screw sleeve-9724, a second guide column-9725 and a second positioning screw sleeve-9726.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 8, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

The invention provides a cable transfer mechanism for communication engineering through improvement, which comprises a support plate 1, a connecting main frame 2, rectangular pin cylinders 3, a support underframe 4, a bottom beam 5, a right connecting auxiliary frame 6, a left connecting auxiliary frame 7, a circular pin cylinder 8 and a storage protection device 9, wherein the connecting main frame 2 is arranged at the front end of the support plate 1, the rectangular pin cylinders 3 are respectively arranged at two sides of the rear end of the support plate 1, the support underframe 4 is arranged at two sides of the bottom of the support plate 1, the middle part of the support underframe 4 is fixedly connected through the bottom beam 5, the right connecting auxiliary frame 6 and the left connecting auxiliary frame 7 which are symmetrical are respectively arranged at two sides of the front end of the support underframe 4, the circular pin cylinders 8 which are vertically corresponding to the rectangular pin cylinders 3 are arranged at the rear end of the side edge of the support underframe 4, the storage protection device 9 is arranged at the top of the support plate 1 and is fixed through bolts, and, A pushing and fixing structure 95, a pushing mechanism 96 and a protecting and buffering device 97, the outer side of the placing box body 91 is fixed with the connecting cross bar 92 through the side frame plate 94, the stability of the placing box body 91 and the connecting cross rod 92 is increased by fixing the side frame plate 94, the two ends of the bottom of the outer side of the placing box body 91 are fixed with the inner side of the outer frame 93 by the connecting cross rod 92, the placing box body 91 is fixed with an outer frame 93 through a connecting cross rod 92 to increase the stability, the periphery of the outer frame 93 is fixed with the top of the supporting plate 1 through bolts, a plurality of pushing and fixing structures 95 are arranged inside the placing box body 91, the interior of the placing box body 91 can be divided into a plurality of spaces, which is convenient for batch classification placing of cables, and the pushing fixing structure 95 is connected with a pushing mechanism 96 arranged on the left side of the placing box body 91, a protection buffer device 97 is arranged on the pushing fixing structure 95, and the arranged protection buffer device 97 is convenient for protecting the cable.

Further, propelling movement fixed knot constructs 95 by turn over board 951, upset axostylus axostyle 952, left axle bed 953 and right axle bed 954 and constitutes, turn over the board 951 bottom and turn over the axostylus axostyle 952 top and be fixed mutually, left side axle bed 953 is installed in putting box 91 left end face, right side axle bed 954 is installed in putting box 91 right end face, it is fixed with the bearing connection at left axle bed 953 and right axle bed 954 middle part respectively to run through putting box 91 at upset axostylus axostyle 952 both ends, left side axle bed 953 is connected with push mechanism 96, and it is fixed to cooperate all the other upset boards 951 to carry out the centre gripping through the board 951 that turns over in the propelling movement fixed knot structure 95 that sets up after the upset.

Further, the pushing mechanism 96 is composed of a link 961, an upper connecting shaft 962, a link plate 963, a lower connecting shaft 964, an electric push rod 965, a push rod fixing seat 966, a connector 967 and an external connection line 968, the link 961 is rotatably connected to the upper end of the link plate 963 through the upper connecting shaft 962, the bottom of the link plate 963 is rotatably connected to the left shaft base 953 through the lower connecting shaft 964, the rear side of the electric push rod 965 is fixed to the outer frame 93 through the push rod fixing seat 966, the piston rod head at the front end of the electric push rod 965 is fixed to one end of the connector 967, the other end of the connector 967 is rotatably connected to the tail end of the link 961, the external connection line 968 is arranged at the rear side of the electric push rod 965, and the external connection line 96 is used for providing a power source for the pushing fixing structure 95.

Further, protection buffer 97 comprises mounting panel 971, first buffer structure 972, second buffer structure 973, third buffer structure 974 and fourth buffer structure 975, mounting panel 971 installs in the preceding terminal surface of turning over movable plate 951, first buffer structure 972, second buffer structure 973, third buffer structure 974 and fourth buffer structure 975 turn right the equidistance from a left side and arrange in the preceding terminal surface of mounting panel 971, and the protection buffer 97 that sets up is used for cushioning the shock attenuation to the cable, rocks when reducing the transportation and protects the cable.

Further, the first buffer structure 972 is composed of a trapezoidal spring piece 9721, a compression spring 9722, a first guide post 9723, a first positioning screw 9724, a second guide post 9725 and a second positioning screw 9726, the trapezoid spring piece 9721 is provided with a compression spring 9722 and is fixed with the front end face of the mounting plate 971 through the compression spring 9722, two sides of the trapezoidal spring piece 9721 are respectively provided with a through hole, the first guide column 9723 penetrates through the through hole on the right side of the trapezoidal spring piece 9721 and is fixed with the front end face of the mounting plate 971, the head of the first guiding column 9723 is provided with external threads and is matched and fixed with the internal threads at the inner side of the first positioning screw sleeve 9724, the second guiding column 9725 penetrates through a through hole at the left side of the trapezoidal spring piece 9721 and is fixed with the front end surface of the mounting plate 971, the head of the second guide post 9725 is provided with an external thread and is matched and fixed with an internal thread of the second positioning screw sleeve 9726, and the single bundled cable is buffered and damped through the first buffer structure 972.

Furthermore, the propelling movement fixed knot constructs 95 and is provided with six altogether, is the equidistance and arranges in putting box 91 to be connected with side link 961 through setting up six corresponding lower connecting axle 964, will place box 91 internal partitioning into six spaces through six propelling movement fixed knot constructs 95 that set up, be convenient for classify the batch to the cable and place, be convenient for better arrangement.

Further, six protection buffer devices 97 are arranged, and are respectively installed on the front end faces of the six pushing and fixing structures 95, so as to buffer the cables in the six separated spaces.

Further, the range of the rotation angle of the coupling plate 963 is: the angle of the cable clamp is 0-90 degrees, so that the cable can be better clamped and fixed.

Furthermore, the first buffer structure 972, the second buffer structure 973, the third buffer structure 974 and the fourth buffer structure 975 are all the same structure, and can clamp and fix four bundled cables at the same time.

Further, the first guide post 9723 and the second guide post 9725 have the same structure and are symmetrical left and right, so that the trapezoidal spring piece 9721 can be guided better to prevent the position deviation.

Further, the tilting plate 951 is made of stainless steel.

Further, the trapezoidal spring piece 9721 is made of a stainless steel cold-rolled strip.

Further, the compression spring 9722 is made of a stainless spring steel wire.

According to the above table, the flipping plate 951 of the present invention is made of stainless steel; the trapezoidal spring piece 9721 is made of a stainless steel cold-rolled steel strip; compression spring 9722 adopts the stainless spring steel wire material, can make its corrosion resistance improve, and difficult the corrosion rusts, has increased its life.

The invention provides a cable transfer mechanism for communication engineering through improvement, and the working principle is as follows;

firstly, a supporting underframe 4 is installed at the bottom of a supporting plate 1, the supporting underframe 4 is transversely fixed through a bottom beam 5, a connecting main frame 2 installed at the front end of the supporting plate 1 and two right connecting sub-frames 6 and a left connecting sub-frame 7 installed at the front end of the supporting underframe 4 are respectively in butt joint with a main connecting structure on a transport vehicle, and meanwhile, a rectangular pin cylinder 3 arranged at the rear end of the supporting plate 1 and a circular pin cylinder 8 arranged at the rear end of the supporting underframe 4 can insert a pin for auxiliary fixing;

secondly, the storage protection device 9 is installed at the upper end of the supporting plate 1, the outer side of the placing box body 91 is fixed with the connecting cross rod 92 through the side frame plate 94 and is fixed with the outer frame 93 through the connecting cross rod 92, the outer frame 93 is directly fixed with the top of the supporting plate 1, six pushing and fixing structures 95 are installed inside the placing box body 91 and are divided into six spaces, meanwhile, a pushing mechanism 96 is installed at the left side of the placing box body 91 and is connected with the pushing and fixing structures 95, and a protection buffer device 97 is installed at the front end of each pushing and fixing structure 95;

thirdly, a bundled cable is placed in six spaces formed by six pushing fixing structures 95 in the placing box body 91, the bottom of a turning plate 951 in each pushing fixing structure 95 is fixed with a turning shaft rod 952, and the left side and the right side of the turning shaft rod 952 are respectively connected and fixed with a left shaft seat 953 and a right shaft seat 954 in a rotating mode;

fourthly, an external connection 968 is connected with an external power supply and a controller, after the external controller starts an electric push rod 965, a piston rod at the front end of the external controller is pushed outwards, a connecting head 967 drives a connecting rod 961 to push forwards, a connecting shaft plate 963 is connected with the connecting rod 961 through an upper connecting shaft 962 and is connected with a left shaft seat 953 through a lower connecting shaft 964, after the connecting rod 961 pushes forwards, a turnover shaft rod 952 is driven to rotate through the connecting shaft plate 963, then the turnover plate 951 is driven to push the cable to incline, the cable is clamped and fixed by matching with other inclined turnover plates 951, and when the cable needs to be loosened, the external controller controls the electric push rod 965 to work reversely to withdraw the piston rod;

fifthly, a protection buffer device 97 is installed on the front end face of the turning plate 951, a first buffer structure 972, a second buffer structure 973, a third buffer structure 974 and a fourth buffer structure 975 in the protection buffer device 97 are respectively fixed with the turning plate 951 through an installation plate 971, and when the turning plate 951 is turned, the first buffer structure 972, the second buffer structure 973, the third buffer structure 974 and the fourth buffer structure 975 are directly contacted with the bundled cables;

sixthly, the first buffer structure 972 and the second buffer structure 973, the third buffer structure 974 and the fourth buffer structure 975 are the same structure, after the trapezoidal spring piece 9721 in the first buffer structure 972 contacts the cable, move to the mounting plate 971, compress the compression spring, make it carry out telescopic motion, simultaneously, the through-hole that the trapezoidal spring piece 9721 runs through the left and right sides of the trapezoidal spring piece 9721 is fixed with the mounting plate 971 by the first guide post 9723 and the second guide post 9725, simultaneously, fix by the first positioning swivel nut 9724 and the second positioning swivel nut 9726, cushion the shock absorption with the trapezoidal spring piece 9721 after contacting the cable, reduce the damage to the cable of rocking that the transmission comes during transportation, reach the effect of protection.

The invention provides a cable transfer mechanism for communication engineering through improvement, a storage protection device 9 is arranged on a support plate 1, a bundled cable can be orderly placed in a placing box body 91 in a rolling mode, six placing spaces formed by six turning plates 951 and the placing box body 91 are used for placing the cable in batches, classification and arrangement are convenient, meanwhile, a push mechanism 96 can drive the turning plates 951 to rotate by 90 degrees and match with the other turning plates 951 to clamp and fix the cable, and therefore the stability of the cable during transportation is improved; through installed protection buffer 97 on upset board 951, install the same first buffer structure 972 of structure on mounting panel 971 respectively, second buffer structure 973, third buffer structure 974 and fourth buffer structure 975, trapezoidal spring piece 9721 and cable contact in its first buffer structure 972, the rocking that trapezoidal spring piece 9721 brought is absorbed by compression spring 9722's flexible simultaneously, make the cable more stable when depositing the transportation, better protect the cable, be convenient for subsequent transportation work.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the cable connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The cable transfer mechanism for the communication engineering comprises a supporting plate (1), a connecting main frame (2), rectangular pin cylinders (3), a supporting chassis (4), a bottom beam (5), a right connecting auxiliary frame (6), a left connecting auxiliary frame (7) and circular pin cylinders (8), wherein the connecting main frame (2) is installed at the front end of the supporting plate (1), the rectangular pin cylinders (3) are respectively installed on two sides of the rear end of the supporting plate (1), the supporting chassis (4) are installed on two sides of the bottom of the supporting plate (1), the middle parts of the supporting chassis (1) are fixedly connected through the bottom beam (5), the symmetrical right connecting auxiliary frame (6) and the symmetrical left connecting auxiliary frame (7) are respectively installed on two sides of the front end of the supporting chassis (4), and the circular pin cylinders (8) which vertically correspond to the rectangular pin cylinders (3) are installed at the rear ends of the side edges of the supporting;

the method is characterized in that: the novel storage box is characterized by further comprising a storage protection device (9), the top of the support plate (1) is provided with the storage protection device (9) and fixed through bolts, the storage protection device (9) is composed of a placement box body (91), a connecting transverse rod (92), an outer frame (93), side frame plates (94), pushing fixing structures (95), a pushing mechanism (96) and a protection buffer device (97), the outer side of the placement box body (91) is fixed with the connecting transverse rod (92) through the side frame plates (94), two ends of the bottom of the outer side of the placement box body (91) are fixed with the inner side of the outer frame (93) through the connecting transverse rod (92), the periphery of the outer frame (93) is fixed with the top of the support plate (1) through bolts, a plurality of pushing fixing structures (95) are arranged inside the placement box body (91), and the pushing fixing structures (95) are connected with the pushing mechanism (96) installed on the left side, and a protection buffer device (97) is arranged on the pushing fixing structure (95).

2. The cable transfer mechanism for communication engineering according to claim 1, wherein: propelling movement fixed knot constructs (95) and constitutes by turning board (951), upset axostylus axostyle (952), left axle bed (953) and right axle bed (954), it is fixed mutually with upset axostylus axostyle (952) top to turn over board (951) bottom, left side axle bed (953) is installed in putting box (91) left end face, right axle bed (954) is installed in putting box (91) right end face, upset axostylus axostyle (952) both ends are run through and are put box (91) and be connected fixedly with the bearing at left axle bed (953) and right axle bed (954) middle part respectively, left side axle bed (953) is connected with push mechanism (96).

3. The cable transfer mechanism for communication engineering according to claim 1, wherein: the pushing mechanism (96) is composed of a connecting rod (961), an upper connecting shaft (962), a connecting shaft plate (963), a lower connecting shaft (964), an electric push rod (965), a push rod fixing seat (966), a connector (967) and an external connecting wire (968), wherein the connecting rod (961) is rotatably connected with the upper end of the connecting shaft plate (963) through the upper connecting shaft (962), the bottom of the connecting shaft plate (963) and a left shaft seat (953) are rotatably connected and fixed through the lower connecting shaft (964), the rear side of the electric push rod (965) is fixed with an outer frame (93) through the push rod fixing seat (966), the head of a piston rod at the front end of the electric push rod (965) is fixed with one end of the connector (967), the other end of the connector (967) is rotatably connected with the tail end of the connecting rod (961), and the external connecting wire (968) is arranged at the rear side of the electric.

4. The cable transfer mechanism for communication engineering according to claim 1, wherein: protection buffer (97) comprises mounting panel (971), first buffer structure (972), second buffer structure (973), third buffer structure (974) and fourth buffer structure (975), terminal surface before turning over movable plate (951) is installed in mounting panel (971), first buffer structure (972), second buffer structure (973), third buffer structure (974) and fourth buffer structure (975) turn right equidistance from a left side and arrange and install in the preceding terminal surface of mounting panel (971).

5. The cable transfer mechanism for communication engineering according to claim 4, wherein: the first buffer structure (972) is composed of a trapezoidal spring piece (9721), a compression spring (9722), a first guide column (9723), a first positioning screw sleeve (9724), a second guide column (9725) and a second positioning screw sleeve (9726), the trapezoidal spring piece (9721) is provided with a compression spring (9722) and is fixed with the front end surface of the mounting plate (971) through the compression spring (9722), two sides of the trapezoidal spring piece (9721) are respectively provided with a through hole, the first guide column (9723) penetrates through the through hole on the right side of the trapezoidal spring piece (9721) and is fixed with the front end face of the mounting plate (971), the head of the first guide post (9723) is provided with an external thread and is matched and fixed with the internal thread at the inner side of the first positioning screw sleeve (9724), the second guide post (9725) penetrates through the through hole at the left side of the trapezoidal spring piece (9721) and is fixed with the front end surface of the mounting plate (971), the head of the second guide column (9725) is provided with an external thread and is matched and fixed with the internal thread of the second positioning screw sleeve (9726).

6. The cable transfer mechanism for communication engineering according to claim 1, wherein: the six pushing fixing structures (95) are arranged in the placing box body (91) at equal intervals and are connected with the side link (961) through six corresponding lower connecting shafts (964).

7. The cable transfer mechanism for communication engineering according to claim 1, wherein: the number of the protection buffer devices (97) is six, and the protection buffer devices are respectively installed on the front end faces of the six pushing and fixing structures (95).

8. The cable transfer mechanism for communication engineering according to claim 3, wherein: the range of the rotation angle of the coupling plate (963) is as follows: 0 to 90 degrees.

9. The cable transfer mechanism for communication engineering according to claim 4, wherein: the first buffer structure (972), the second buffer structure (973), the third buffer structure (974) and the fourth buffer structure (975) are all the same structure.

10. The cable transfer mechanism for communication engineering according to claim 5, wherein: the first guide column (9723) and the second guide column (9725) have the same structure and are symmetrical left and right.