CN208872683U - A kind of power cable connector non-destructive testing bracket - Google Patents

Abstract

The utility model discloses a kind of power cable connector non-destructive testing brackets, including horizontal movement module, ascending motion module, base motions module, electrical cabinet, wherein, ascending motion module side is fixedly connected with base motions module, pass through metalwork and electrical cabinet rigid connection on the right side of base motions module, side of the ascending motion module far from base motions module is fixedly connected with horizontal movement module, the utility model mainly solves the problems, such as that the quick assembly and disassembly of cable tunnel narrow space inner cable and connector X-ray non-destructive testing device are inconvenient, realize the three-dimensional motion of x-ray detection system, quickly positioning and continuous scanning imaging, the device includes horizontal movement module, ascending motion module, base motions module and electrical cabinet, support X-ray nondestructive detection system smooth motion, realize that quickly positioning is to cable and connector X-ray check, electrical cabinet provides power supply, and guarantees entire support system balance as counterweight.

Description

A kind of power cable connector non-destructive testing bracket

Technical field

The utility model relates to power transmission and transforming equipment technical field of nondestructive testing more particularly to a kind of power cable connector are lossless Bracket is used in detection.

Background technique

As the degree of Urban Electric Network Cabling is continuously improved, the requirement to cable power supply reliability is also continuously improved, quasi- Cable internal state is really grasped, corresponding maintenance countermeasure is formulated, cable is can effectively avoid and connector accident occurs, it is particularly significant.

At present to the method for operation cable progress live detection mostly based on ultrasonic wave, high frequency partial discharge detection, such method Larger by live interference effect, the temperature-detecting devices such as temperature sensing cable, optical fiber temperature-measurement cannot give warning in advance, and after the accident can only Could recall reason by disintegrating, X-ray non-destructive testing can realize that the interior visualization of cable and connector diagnoses, provide cable and The intuitive foundation of internal defect of joint.But cable tunnel narrow space, X ray non-destructive detecting device is heavy, needs friendly branch The quick assembly and disassembly of frame mechanism support x-ray detection system.

Utility model content

The utility model is intended to solve at least some of the technical problems in related technologies.For this purpose, this reality It is to propose a kind of power cable connector non-destructive testing bracket with a novel purpose, in cable tunnel narrow space It is rack-mounted to provide a kind of non-destructive testing branch for the problem of the quick assembly and disassembly inconvenience of cable and connector X-ray non-destructive testing device It sets, realizes the quick despatch, three-dimensional space motion and quickly positioning of x-ray detection system, reduce X-ray non-destructive testing The time of journey ensures personal equipment safety in detection process.

According to a kind of power cable connector non-destructive testing bracket of the utility model embodiment, including horizontal movement mould Block, ascending motion module, base motions module, electrical cabinet, wherein fix and connect with base motions module below ascending motion module It connects, passes through metalwork and electrical cabinet rigid connection, ascending motion module front side and horizontal movement module on the left of base motions module It is fixedly connected.

In some embodiments of the utility model, horizontal movement module includes linear moving module, the first fixing seat, angle Spend seat, locating rod, nondestructive detection system, wherein linear moving module connects by the way that the first fixing seat and ascending motion module are fixed It connects, angle seat is fixed on linear moving module top, and nondestructive detection system, nondestructive detection system and angle is arranged in front of angle seat Seat is fixedly connected by locating rod.

In some embodiments of the utility model, nondestructive detection system includes L shape pin shaft, x-ray source, receiver box, X Radiographic source is fixedly mounted on front side of angle seat by locating rod, and receiver box is arranged below x-ray source, and locating rod offers positioning Hole, receiver box are fixedly mounted on locating rod location hole by L shape pin shaft.

In other embodiments of the utility model, ascending motion module includes servo motor A, fixed plate, shaft coupling A, lifter plate A, linear bearing A, ball bearing A, guide rod A, ball screw A, bearing block A, servo motor B, shaft coupling B, liter Drop plate B, linear bearing B, ball bearing B, guide rod B, ball screw B, bearing block B, ascending motion module by fixed plate with Base motions module is fixedly connected, and servo motor A is fixed below fixed plate, and lifter plate A, lifter plate A are arranged above fixed plate Lower section is fixedly installed with servo motor B, and the nested setting linear bearing A of lifter plate A bilateral symmetry, the lower end linear bearing A is fixed on In fixed plate, the upper end linear bearing A is connect with guide rod A, and ball bearing A is arranged in the middle part of lifter plate A, and servo motor A passes through connection Axis device A is connect with the lower end ball bearing A, and the upper end ball bearing A is connected with ball screw A, and the upper end ball screw A connects bearing Lifter plate B is set above seat A, lifter plate A, and symmetrical nested setting linear bearing B before and after lifter plate B, linear bearing B are fixed lower end On lifter plate A, the upper end linear bearing B is connect with guide rod B, and ball bearing B is arranged among lifter plate B, and servo motor B is logical It crosses shaft coupling B to connect with the lower end ball bearing B, the upper end ball bearing B is connect with ball screw B, the upper end ball screw B connecting shaft A B is held, lifter plate B is connect with horizontal movement module.

In other embodiments of the utility model, base motions module include servo motor, shaft coupling, motor cabinet, Linear bearing, ball bearing, guide rod, ball screw, left mounting base, right mounting base, pedestal, left mounting base are fixedly mounted on bottom Seat left side, left mounting base left side are fixedly installed with servo motor, and right mounting base is fixedly mounted on base right side, linear bearing left end It is connect with left mounting base, linear bearing right end is connect with guide rod, and guide rod right end is connect with right mounting base, and motor cabinet is fixed on On guide rod, ball bearing is set, servo motor is connect by shaft coupling with ball bearing left end, ball bearing in the middle part of motor cabinet Right end is connect with ball screw, and ball screw right end is connected with right mounting base.

In other embodiments of the utility model, the nut of adjustable locating rod angle is provided on angle seat.

In other embodiments of the utility model, offer on L shape pin shaft for adjusting receiver box and X ray The limit hole of source spacing, receiver box are mounted on L shape pin shaft by limit hole.

In other embodiments of the utility model, be provided with the second fixing seat on front side of lifter plate B, the second fixing seat with Horizontal movement module is fixedly connected.

In other embodiments of the utility model, there are four height-adjustable lower margins for the setting of pedestal lower part.

Beneficial effect in the utility model is: a kind of power cable connector non-destructive testing bracket, realizes the inspection of X ray Quick despatch, three-dimensional motion and quickly positioning of the examining system in cable duct one kind small space, accelerate X-ray non-destructive testing Process ensures that personal equipment safety, the present apparatus push X-ray non-destructive testing technology answering in field of power detection in detection process With realization effectively reduces the failure accident by cable and internal defect of joint generation, guarantee to the state-detection of cable and connector The safe and reliable operation of cable and connector.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 be the utility model proposes a kind of power cable connector non-destructive testing bracket structural schematic diagram；

Fig. 2 be the utility model proposes horizontal movement modular structure schematic diagram；

Fig. 3 be the utility model proposes ascending motion modular structure schematic diagram；

Fig. 4 be the utility model proposes base motions modular structure schematic diagram.

In figure: 1- horizontal movement module, 1-1- linear moving module, the first fixing seat of 1-2-, 1-3- angle seat, 1-4- Locating rod, 1-5- nondestructive detection system, 1-6-L shape pin shaft, 1-7-X radiographic source, 1-8- receiver box, 2- ascending motion module, 2-1- servo motor A, 2-2- fixed plate, 2-3- shaft coupling A, 2-4- lifter plate A, 2-5- linear bearing A, 2-6- ball bearing A, 2-7- guide rod A, 2-8- ball screw A, 2-9- bearing block A, 2-10- servo motor B, 2-11- shaft coupling B, 2-12- liter The second fixing seat of plate B, 2-13-, 2-14- linear bearing B, 2-15- ball bearing B, 2-16- guide rod B, 2-17- ball wire drop Bar B, 2-18 bearing block B, 3- base motions module, 3-1- servo motor, 3-2- shaft coupling, 3-3- motor cabinet, 3-4- linear axis It holds, 3-5- ball bearing, 3-6- guide rod, 3-7- ball screw, the left mounting base of 3-8-, the right mounting base of 3-9-, the bottom 3-10- Seat, 4- electrical cabinet.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Examples of the embodiments are shown in the accompanying drawings, and in which the same or similar labels are throughly indicated identical or classes As element or element with the same or similar functions.The embodiments described below with reference to the accompanying drawings are exemplary, purport It is being used to explain the utility model, and should not be understood as limiting the present invention.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is orientation based on the figure Or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning or Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limit to the utility model System.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

Referring to Fig.1, a kind of power cable connector non-destructive testing of the utility model with bracket include 1 horizontal movement module, on Motion module 2, base motions module 3 and electrical cabinet 4 are risen, realizes the three-dimensional motion and quickly positioning of X-ray detection, electrical cabinet 4 It is installed on 3 tail portion of base motions module, as the entire support system of stabilized, right peace in electrical cabinet 4 and base motions module 3 Seat 3-9 is filled by metalwork rigid connection, spacing is adjustable, meets live counterweight requirements.

Referring to Figures 1 and 2, horizontal movement mould 1 include linear moving module 1-1, the first fixing seat 1-2, angle seat 1-3, Locating rod 1-4, nondestructive detection system 1-5；Nondestructive detection system 1-5 includes L shape pin shaft 1-6, x-ray source 1-7, receiver box 1-8, angle seat 1-3 are connect with linear moving module 1-1, and the nut location by adjusting angle seat 1-3 setting adjusts straight line fortune Dynamic model block 1-1 movement angle adapts to on-the-spot test environmental requirement, and x-ray source 1-7 is connect with locating rod 1-4, receiver box 1-8 It is connect with L shape pin shaft 1-6, locating rod 1-4 is equipped with location hole, and L shape pin shaft 1-6 is equipped with multiple limit holes, fixed by locating rod 1-4 The adjustment of position hole and L shape pin shaft 1-6 limit hole changes the spacing of receiver box 1-8 and x-ray source 1-7, adapts to practical X ray Non-destructive testing test, linear moving module 1-1 are equipped with lifter plate B2-12 in the first fixing seat 1-2 and ascending motion module 2 and connect It connects, completes horizontal rectilinear motion.

Referring to Figure 1 and Figure 3, ascending motion module 2 includes servo motor A2-1, fixed plate 2-2, shaft coupling A2-3, lifting Plate A2-4, linear bearing A2-5, ball bearing A2-6, guide rod A2-7, ball screw A2-8, bearing block A2-9, servo motor B2-10, shaft coupling B2-11, lifter plate B2-12, the second fixing seat 2-13, linear bearing B2-14, ball bearing B2-15, guiding Bar B2-16, ball screw B2-17, bearing block B2-18, ascending motion module 2 use two groups of mechanism kinematics of Double Motor Control, fit Cable tunnel space is answered, fixed plate 2-2 fixed servo motor A2-1, fixed plate 2-2 connect the motor of base motions module 3 simultaneously Seat 3-3 supports 2 other component of ascending motion module, the front side lifter plate A2-4 fixed servo motor B 2-10, lifter plate B2-12 Equipped with the second fixing seat 2-13, for connecting and supporting horizontal movement module 1, lifter plate A2-4 left and right sides is equipped with linear bearing It is equipped with ball bearing A2-6 among A2-5, lifter plate A2-4, linear bearing A2-5 is connect with guide rod A2-7, ball screw A2- 8 lower ends are connect with ball bearing A2-6, and the upper end ball screw A2-8 is connect with bearing block A2-9, and side is set before and after lifter plate B2-12 There is linear bearing B2-14, is equipped with ball bearing B2-15, linear bearing B2-14 and guide rod B2-16 among lifter plate B2-12 Connection, the lower end ball screw B2-17 are connect with ball bearing B2-15, and the upper end ball screw B2-17 and bearing block B2-18 connect It connects；Servo motor A2-1 selects medium/high inertia motor, while being equipped with speed reducer, increases torque output, and servo motor A2-1 is logical It crosses shaft coupling A2-3 to connect with ball bearing A2-6, servo motor A2-1 drives ball screw A2-8 rotation, makes lifter plate A2-4 It is vertically moved along the direction guide rod A2-7, lifter plate A2-4 fixes similar servo motor B 2-10, and servo motor B 2-10 passes through Shaft coupling B2-11 is connect with ball bearing B2-15, and servo motor B 2-10 drives ball screw B2-17 rotation, makes lifter plate B2- 12 are vertically moved along the direction guide rod B2-16；The extension the lifter plate B2-12 is connect with horizontal movement module 1.

Referring to Fig.1 and Fig. 4, base motions module 3 include servo motor 3-1, shaft coupling 3-2, motor cabinet 3-3, linear axis Hold 3-4, ball bearing 3-5, guide rod 3-6, ball screw 3-7, left mounting base 3-8, right mounting base 3-9, pedestal 3-10, pedestal 3-10 supports entire support system, and there are four height-adjustable lower margin, the ground of appropriate cable tunnel bumps, left installations for setting Seat 3-8 is fixedly mounted on the left of pedestal 3-10, and right mounting base 3-9 is fixedly mounted on the right side of pedestal 3-10, the left end linear bearing 3-4 It is connect with left mounting base 3-8, linear bearing 3-4 right end is connect with guide rod 3-6, and guide rod 3-6 right end and right mounting base 3-9 connect Connect, motor cabinet 3-3 is fixed on guide rod 3-6, ball bearing 3-5 is set in the middle part of motor cabinet 3-3, the left end ball bearing 3-5 with Shaft coupling 3-2 connection, the left end shaft coupling 3-2 are connect with servo motor 3-1, and servo motor 3-1 is fixedly mounted on left mounting base 3-8 On, ball bearing 3-5 right end and ball screw 3-7, which are rolled, to be connected, and servo motor 3-1 drives ball screw to rotate 3-7 when work, Motor cabinet 3-3 is directed to bar 3-6 and fixes simultaneously, can not rotate with ball screw 3-7, can only make straight line along the direction guide rod 3-6 Movement, guide rod 3-6 tail end is equipped with right mounting base 3-9, convenient to connect with electrical cabinet.

Horizontal movement module 1, ascending motion module 2, base motions module 3 and electrical cabinet 4 in entire support system is equal For modularized design, quick assembling, detection and disassembly when on-site test are realized, the specific steps are as follows:

1. assembling

Base motions module 3 is put into cable to be detected or joint location by operating personnel, is carried out by adjusting four lower margins Adapting to convex-concave ground then will be in ascending motion module 2 with fixing bolt by electrical cabinet 4 and 3 rigid connection of base motions module Fixed plate 1-2 is connected with motor cabinet 3-3 in base motions module 3, then by 1 first fixing seat 1-2 of horizontal movement module It is connected with lifter plate B2-12 in ascending motion module 2.

2. positioning

Height adjusts: after equipment is powered, pressing servo motor A2-1 button switch, at this time servo in ascending motion module 2 Motor A2-1 rotation drives ball screw A2-8 rotation, is vertically moved lifter plate A2-4 along the direction guide rod A2-7, reaches It is automatically stopped when to 500mm, if be not able to satisfy cable to be detected or joint location height, presses servo motor B 2-10 button Switch, servo motor B 2-10 is rotated in ascending motion module 2 at this time, is driven ball screw B217 rotation, is made lifter plate B2-12 It is vertically moved along the direction guide rod B2-16, stops after meeting lifting height；

Horizontal adjustment: it presses horizontal into button switch, the at this time movement of horizontal movement module 1, drive x-ray source 1-7, reception Device box 1-8 movement after meeting site requirement distance, presses stop button stopping；

Fine tuning: by L shape pin shaft 1-6, locating rod 1-4 in horizontal movement module 1 by x-ray source 1-7 and receiver box 1-8 Spacing meets the distance of cable and connector demand to be detected, by adjusting angle seat 1-3 setting nut to x-ray source 1-7 with Receiver box 1-8 entirety angle is finely adjusted, until meeting field demand.

Left and right adjustment: left-right position adjustment is realized by base motions module 3, servo motor 3-1 drives ball when work Screw rod rotates 3-7, while motor cabinet 3-3 is directed to bar 3-6 and fixes, and can not rotate with ball screw 3-7, can only be along guide rod Left and right linear motion is made in the direction 3-6, and guide rod 3-6 tail end is equipped with right mounting base 3-9, convenient to connect with electrical cabinet.

3. detecting

Power cable connector non-destructive testing bracket is triggered by long-range host computer, starts base motions module 3, when work Servo motor 3-1 drives ball screw to rotate 3-7, while motor cabinet 3-3 is directed to bar 3-6 and fixes, can not be with ball screw 3-7 Rotation, can only make left and right linear motion along the direction guide rod 3-6, and upper computer software scans and recognizes continuous imaging and repeats to detect And record storage, after the completion, closing system simultaneously detects X-ray dosage, after dose measurement is normal, operating personnel be allowed for access scene into Row disassembly.

In the present invention unless specifically defined or limited otherwise, fisrt feature is in the second feature " on " or " down " It can be that the first and second features directly contact or the first and second features are by intermediary mediate contact.Moreover, first is special Sign can be fisrt feature above the second feature " above ", " above " and " above " and be directly above or diagonally above the second feature, or only Indicate that first feature horizontal height is higher than second feature.Fisrt feature under the second feature " below ", " below " and " below " can be with It is that fisrt feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term Stating may not refer to the same embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be It can be combined in any suitable manner in any one or more embodiment or examples.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (9)

1. a kind of power cable connector non-destructive testing bracket, it is characterised in that: including horizontal movement module (1), ascending motion Module (2), base motions module (3), electrical cabinet (4), wherein solid with base motions module (3) below ascending motion module (2) Fixed connection, by metalwork and electrical cabinet (4) rigid connection on the left of base motions module (3), on front side of ascending motion module (2) with Horizontal movement module (1) is fixedly connected.

2. a kind of power cable connector non-destructive testing bracket according to claim 1, it is characterised in that: horizontal movement mould Block (1) includes linear moving module (1-1), the first fixing seat (1-2), angle seat (1-3), locating rod (1-4), non-destructive testing system It unites (1-5), wherein linear moving module (1-1) is fixedly connected by the first fixing seat (1-2) with ascending motion module (2), angle Degree seat (1-3) is fixed on the top linear moving module (1-1), nondestructive detection system (1-5) is arranged in front of angle seat (1-3), nothing Damage detection system (1-5) is fixedly connected with angle seat (1-3) by locating rod (1-4).

3. a kind of power cable connector non-destructive testing bracket according to claim 2, it is characterised in that: non-destructive testing system System (1-5) includes L shape pin shaft (1-6), x-ray source (1-7), receiver box (1-8), and x-ray source (1-7) passes through locating rod (1- 4) it is fixedly mounted on front side of angle seat (1-3), receiver box (1-8) is set below x-ray source (1-7), locating rod (1-4) opens up There is location hole, receiver box (1-8) is fixedly mounted on locating rod (1-4) location hole by L shape pin shaft (1-6).

4. a kind of power cable connector non-destructive testing bracket according to claim 1, it is characterised in that: ascending motion mould Block (2) include servo motor A (2-1), fixed plate (2-2), shaft coupling A (2-3), lifter plate A (2-4), linear bearing A (2-5), Ball bearing A (2-6), guide rod A (2-7), ball screw A (2-8), bearing block A (2-9), servo motor B (2-10), shaft coupling Device B (2-11), lifter plate B (2-12), linear bearing B (2-14), ball bearing B (2-15), guide rod B (2-16), ball wire Bar B (2-17), bearing block B (2-18), ascending motion module (2) connect by the way that fixed plate (2-2) and base motions module (3) is fixed It connects, servo motor A (2-1) is fixed below fixed plate (2-2), lifter plate A (2-4) is arranged above fixed plate (2-2), lifter plate It is fixedly installed with servo motor B (2-10) below A (2-4), the nested setting linear bearing A (2- of lifter plate A (2-4) bilateral symmetry 5), the lower end linear bearing A (2-5) is fixed on fixed plate (2-2), and the upper end (2-5) linear bearing A and guide rod A (2-7) are even It connects, ball bearing A (2-6) is set in the middle part of lifter plate A (2-4), servo motor A (2-1) passes through shaft coupling A (2-3) and ball axis The connection of the lower end (2-6) A is held, the upper end (2-6) ball bearing A is connected with ball screw A (2-8), the upper end ball screw A (2-8) It connects bearing block A (2-9), lifter plate B (2-12) is set above lifter plate A (2-4), it is symmetrical nested before and after lifter plate B (2-12) It is arranged linear bearing B (2-14), the lower end linear bearing B (2-14) is fixed on lifter plate A (2-4), on linear bearing B (2-14) End is connect with guide rod B (2-16), and ball bearing B (2-15) is arranged among lifter plate B (2-12), and servo motor B (2-10) is logical It crosses shaft coupling B (2-11) to connect with the lower end ball bearing B (2-15), the upper end (2-15) ball bearing B and ball screw B (2-17) Connection, the upper end (2-17) ball screw B connect bearing block B (2-18), and lifter plate B (2-12) is connect with horizontal movement module (1).

5. a kind of power cable connector non-destructive testing bracket according to claim 1, it is characterised in that: base motions mould Block (3) includes servo motor (3-1), shaft coupling (3-2), motor cabinet (3-3), linear bearing (3-4), ball bearing (3-5), leads To bar (3-6), ball screw (3-7), left mounting base (3-8), right mounting base (3-9), pedestal (3-10), left mounting base (3-8) It is fixedly mounted on the left of pedestal (3-10), is fixedly installed with servo motor (3-1) on the left of left mounting base (3-8), right mounting base (3- 9) it is fixedly mounted on the right side of pedestal (3-10), the linear bearing left end (3-4) is connect with left mounting base (3-8), linear bearing (3-4) Right end is connect with guide rod (3-6), and guide rod (3-6) right end is connect with right mounting base (3-9), and motor cabinet (3-3), which is fixed on, leads To on bar (3-6), ball bearing (3-5) is set in the middle part of motor cabinet (3-3), servo motor (3-1) passes through shaft coupling (3-2) and rolling The connection of the pearl bearing left end (3-5), ball bearing (3-5) right end connect with ball screw (3-7), ball screw (3-7) right end and Right mounting base (3-9) is connected.

6. a kind of power cable connector non-destructive testing bracket according to claim 2, it is characterised in that: angle seat (1- 3) nut of adjustable locating rod (1-4) angle is provided on.

7. a kind of power cable connector non-destructive testing bracket according to claim 3, it is characterised in that: L shape pin shaft (1- 6) limit hole for adjusting receiver box (1-8) Yu x-ray source (1-7) spacing is offered on, receiver box (1-8) passes through limit Position hole is mounted on L shape pin shaft (1-6).

8. a kind of power cable connector non-destructive testing bracket according to claim 4, it is characterised in that: lifter plate B (2- 12) front side is provided with the second fixing seat (2-13), and the second fixing seat (2-13) is fixedly connected with horizontal movement module (1).

9. a kind of power cable connector non-destructive testing bracket according to claim 5, it is characterised in that: pedestal (3-10) There are four height-adjustable lower margins for lower part setting.