CN109374653A - Crimping hardware fitting detection device - Google Patents

Abstract

The invention relates to a crimping hardware fitting detection device. The crimping hardware fitting detection device comprises a support, a ray source assembly, an imaging assembly, a clamping piece and a control assembly. Wherein, be provided with the guide rail on the support, ray source subassembly and guide rail sliding fit. The imaging assembly is rotatably connected to the bracket and is used for receiving rays passing through the crimping hardware fitting. The clamping piece is arranged between the ray source assembly and the imaging assembly and used for clamping the crimping hardware fitting. The control assembly is used for controlling the radiation source assembly and processing data. The crimping hardware fitting detection device is simple and convenient in structure and can meet different field requirements. Meanwhile, the emission source assembly can be remotely controlled through the processing assembly to perform flaw detection on the crimping hardware fitting, and the safety of operators is guaranteed.

Description

Crimping armor clamp detection device

Technical field

The present invention relates to crimping armor clamp state inspection fields, more particularly to crimping armor clamp detection device.

Background technique

In overhead transmission lines, can largely using crimping armor clamp such as strain clamp and splicing sleeve etc. come connecting wire and Ground wire.Crimping armor clamp bears whole tension of route, while still through-flow conductor, therefore crimping armor clamp is to the peace of transmission line of electricity Full stable operation has significant impact.Easily cause the accident that goes offline when crimping armor clamp is not inconsistent requirement.However, crimping armor clamp is once Installation is just non-dismountable, and tradition is also only limitted to installation front and back to the quality examination of crimping armor clamp and examines to fitting apparent size It surveys.

Summary of the invention

Based on this, it is necessary in view of the above-mentioned problems, providing a kind of crimping armor clamp detection device.

A kind of crimping armor clamp detection device, for carrying out carrying out flaw detection to crimping armor clamp, comprising:

Bracket is provided with guide rail；

Ray source component is slidably matched with the guide rail；

Image-forming assembly is rotatably connected with the bracket, for receiving the ray across the crimping armor clamp；

Clamping part is set between the ray source component and image-forming assembly, for crimping armor clamp described in clamping；

Control assembly, for controlling the ray source component.

Above-mentioned crimping armor clamp structure of the detecting device is simple, convenient, is able to satisfy Different field demand.Processing group can be passed through simultaneously Part remote control emits source component and carries out carrying out flaw detection to crimping armor clamp, has ensured operator's safety.

The image-forming assembly includes imaging plate and the imaging for installing the imaging plate in one of the embodiments, Plate framework, the imaging plate framework are connected on the bracket by rotary shaft, and the imaging plate framework can be around the rotary shaft Rotation.

The imaging plate framework is provided with fixing groove in one of the embodiments, and the imaging plate is arranged described solid Determine in slot, the imaging plate being additionally provided on the imaging plate framework for the imaging plate to be fixed in the fixing groove is fixed Piece.

The guide rail is detachably connected with the bracket in one of the embodiments, and the extension side of the guide rail To the surface for being parallel to the imaging plate.

The ray source component includes ray emission instrument and radiographic source frame in one of the embodiments, described to penetrate Line transmitter is detachably connected with the radiographic source frame, and the radiographic source frame and the guide rail activity cooperate.

The ray source component further includes radiographic source fixinig plate in one of the embodiments, the radiographic source fixinig plate With curved portion and first planar portions and the second planar portions at the curved portion both ends are set, first planar portions with The radiographic source frame is fixedly connected, the table far from the radiographic source frame of second planar portions and the ray emission instrument Face abuts.

Control assembly includes control box, control unit and data acquisition unit, the control in one of the embodiments, Unit processed and the data acquisition unit are set in the control box, and the control box is fixed on the radiographic source frame On.

The control box includes box body, cover board and padlock in one of the embodiments, the cover board and the box body Connection may be reversed, the padlock includes that lock pedestal and lock ring, the lock pedestal are set on box body, and the lock ring is set to lid On plate, the lock ring can be clamped with the lock pedestal.

The clamping part includes the first part and the second part in one of the embodiments, and described first and described Second all has arc groove, and first arc groove is oppositely arranged with second arc groove, described First is fixedly connected with the bracket, and described second one end is rotatably connected by pin shaft and described first one end, Second other end is connect by fastener with first other end.

It is provided with adjusting bolt in the arc groove in one of the embodiments, for adjusting the clamping part Clamping size.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the crimping armor clamp detection device of an embodiment；

Fig. 2 is the top view of crimping armor clamp detection device shown in Fig. 1.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.Many details are explained in the following description in order to fully understand this hair It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not Similar improvement is done in the case where violating intension of the present invention, therefore the present invention is not limited to the specific embodiments disclosed below.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

Referring to Fig. 1 and Fig. 2, the embodiment of the present application provides a kind of for the crimping armor clamp 200 in power grid, such as strain insulator The crimping armor clamp detection device 100 of the crimping armor clamps such as wire clamp and splicing sleeve progress carrying out flaw detection.Specifically, crimping armor clamp detection dress Setting 100 includes bracket 110, ray source component 120, image-forming assembly 130, clamping part 140 and control assembly 150.Wherein, bracket Guide rail 111 is provided on 110, and ray source component 120 is slidably matched with guide rail 111, ray source component 120 is penetrated for issuing Line, can be to whole section of crimping gold thus in 120 sliding process of ray source component to carry out flaw detection scanning to crimping armor clamp 200 Tool 200 carries out ray detection.

Image-forming assembly 130 obtains the mechanical-like of crimping armor clamp 200 with this for receiving the ray across crimping armor clamp 200 State data, and then show and be imaged for third party's display device.Further, image-forming assembly 130 is rotatably connected on bracket, To make image-forming assembly 130 preferably receive ray by the angle of fine tuning image-forming assembly 130, to reach optimal imaging effect Fruit.

Clamping part 140 is used for clamping crimping armor clamp 200, so that crimping armor clamp detection device 100 is fixed on crimping armor clamp 200 On.Specifically, clamping part 140 is fixed on bracket 110, and clamping part 140 is arranged in ray source component 120 and image-forming assembly 130 intermediate two sides, so that the radial energy issued from ray source component 120, which passes through crimping armor clamp 200, reaches image-forming assembly 130 On.

Control assembly 150 is used to control the unlatching, closing and the movement on guide rail 111 of ray source component 120.This Outside, the machine performance data for the crimping armor clamp 200 that control assembly 150 can also get image-forming assembly 130 are handled, concurrently It is sent in third party's display device for display imaging.It should be noted that data processing step can also be complete by third party device At.

Above-mentioned crimping armor clamp detection device 100 can be fixed on the crimping armor clamp 200 of power grid by clamping part 140, thus By transmitting source component 120 and image-forming assembly 130 carrying out flaw detection can be carried out to mounted crimping armor clamp 200.And it sends out Penetrating source component 120 can horizontally slip in guide rail 111, so that once fixation can detect whole section of crimping armor clamp 200, Improve detection efficiency.100 structure of fitting detection device is simple, easy to carry, is able to satisfy Different field demand.Place can be passed through simultaneously It manages 150 remote control of component transmitting source component 120 and carrying out flaw detection is carried out to crimping armor clamp 200, ensured operator's safety.

Specifically, image-forming assembly 130 includes imaging plate 131 and imaging plate framework 132 in one of the embodiments,. Imaging plate 131 is used to receive the ray of the sending of ray source component 120, and imaging plate 131 is installed on imaging plate framework 132, imaging Plate framework 132 is connected on bracket 110 by rotary shaft 1321, so that plate framework 132, which is imaged, to be rotated around rotary shaft, and then is adjusted The angle of whole imaging plate 131, to reach most preferably into effect.Meanwhile by taking out rotary shaft 1321, plate framework 132 can will be imaged Lower bracket 110 is dismantled, it is easy to carry.Further, it is imaged on plate framework 132 and is provided with fixing groove 1322, specifically, fixing groove 1322 are arranged in the left and right sides and downside of imaging plate framework 132.The size of imaging plate 131 and imaging 132 phase of plate framework Match, so that imaging plate 131 can be put into from the upside of imaging plate framework 132 and be set in fixing groove 1322.Plate framework 132 is imaged Upside be additionally provided with imaging plate fixinig plate 133, imaging plate fixinig plate 133 can connect connector by screw etc. and be fixed on imaging On plate framework 132, and imaging plate fixinig plate 133 is abutted with one end of imaging plate 131, and imaging plate 131 is fixed on fixation In slot 1322.

Specifically, guide rail 111 is detachably connected with bracket 110 in one of the embodiments, such as even by screw etc. Fitting is fixed on bracket 110, thus easy to carry after disassembly.Further, the extending direction of guide rail 111 is parallel to imaging plate 131 surface, to reach better imaging effect.

Specifically, ray source component 120 includes ray emission instrument 121 and for installing in one of the embodiments, The radiographic source frame 122 of ray emission instrument 121, radiographic source frame 122 are slidably connected with guide rail 111, the bottom of radiographic source frame 122 Portion is provided with sliding block (not shown), and sliding block is embedded in guide rail 111, so that radiographic source frame 122 can drive ray emission instrument 121 It horizontally slips on guide rail 111.Further, radiographic source frame 122 is also connected with driving member in one of the embodiments, Part.Such as motor, to drive radiographic source frame 122 to move.

Further, ray emission instrument 121 is detachably connected with radiographic source frame 122, to be convenient for carrying after disassembly.Tool Body, ray source component 120 further includes the radiographic source fixinig plate 123 for fixing ray emission instrument 121, radiographic source fixinig plate 123 have curved portion 1231 and first planar portions 1232 and the second planar portions 1233 at 1231 both ends of curved portion are arranged in. First planar portions 1232 and the second planar portions 1233 are straight panel shape, and curved portion 1231 has warp architecture, so that first Planar portions 1232 and the second planar portions 1233 are in low high two planes.Further, the first planar portions 1232 with Radiographic source frame 122 is fixedly connected, for example, the first planar portions 1232 are fixed to radiographic source frame 122 by connectors such as screws On.Second planar portions 1233 are abutted with the surface of the separate radiographic source frame 122 of ray emission instrument 121, specifically, ray emission There is handle 1201, the second planar portions 1233 are arranged in handle 1201, so that ray emission instrument 121 is fixed on instrument 121 On radiographic source frame 122.Further, ray emission instrument 121 can be X-ray emission instrument.

Specifically, in one of the embodiments, control assembly 150 include control box, control unit (not shown) and Data acquisition unit (not shown), control unit and data acquisition unit are set in control box, and control box is fixed on ray On source frame 122, so that controlling box can move together with ray emission instrument 121.Wherein, control unit is for controlling ray emission The open and close of instrument 121 are also used to control movement of the radiographic source frame 122 in guide rail 111.Data processing unit is for locating The machine performance data for the crimping armor clamp 200 that reason imaging plate 131 is got.Further, control assembly 150 is additionally provided with wirelessly Communication module, to realize remote-wireless operation and data transmission.

Further, control box includes box body 151 and matches cover board 152 with box body 151.Cover board 152 and box body 151 Connection may be reversed, i.e. cover board 152 may be reversed relative to box body 151 and open.Further, control box further includes padlock 153, padlock 153 for being fixed on box body 151 for cover board 152.Specifically, padlock 153 includes lock ring 1531 and lock pedestal 1532.Lock ring 1531 are set on cover board 151, and lock pedestal 1532 is set on box body 151, and lock ring 1531 can be clamped with lock pedestal 1532, thus Cover board 152 will be fixed on box body 151.

Clamping part 140 is V-arrangement folder or U-clamp in one of the embodiments,.Specifically, clamping part 140 includes first 141 and second 142, first 141 and second 142 V-shaped structure.Specifically, first 141 and second 142 all have arc groove 143, and first 141 arc groove 143 is set in opposite directions with second 142 arc groove 143 It sets.Specifically, it is fixedly connected with bracket 110 for first 141, and first 141 detachable with bracket 110.Second 142 One end is rotatably connected by pin shaft 144 and first 141 one end, and second 142 other end passes through fastener 145 and first The other end in portion 141 connects, to then rotate, can will be filled around pin shaft 144 by second 142 by loosening fasteners 145 Folder 140 is opened, and then is put into crimping armor clamp 200.

Further, adjusting is provided in first 141 arc groove 143 and second 142 arc groove 143 Part, to adjust the clamping size of clamping part 140, so that clamping part 140 adapts to the crimping armor clamp 200 of various sizes.Tool Body, fastener 145 is fastening bolt, and regulating part 146 is to adjust bolt.Further, clamping part 140 is two, and symmetrical The right and left of bracket 110 is arranged in ground.

The application scenarios of crimping armor clamp detection device 100 are described further below:

In use, crimping armor clamp detection device 100 is assembled first.Specifically, pass through rotary shaft 1321 Imaging plate framework 132 is installed on to one end of bracket 110, and imaging plate 131 is put into the fixing groove 1322 of imaging plate framework 132 It is interior, imaging plate fixinig plate 133 then is installed at the top of imaging plate framework 132.Upper rail is installed in the other end of bracket 110 111, and make guide rail 111 parallel with the surface of imaging plate 131, then radiographic source frame 122 is installed on guide rail 111, by ray Transmitter 121 is placed on radiographic source frame 122, and one end of radiographic source fixinig plate 123 is passed through to the handle of ray emission instrument 121 1201, while the other end of radiographic source fixinig plate 123 is screwed on radiographic source frame 122.By two clamping parts 140 Be respectively arranged in the left and right sides of bracket 110, and make clamping part 140 be located at imaging plate 131 and ray emission instrument 121 it Between.After being completed, according to the position of tested crimping armor clamp, by 100 clamping of crimping armor clamp detection device in tested crimping armor clamp Suitable position, adjust regulating part 146, make crimping armor clamp be clamped.Fastener 145 is adjusted, crimping armor clamp inspection is further fixed Survey device 100.131 angle of imaging plate and 121 position of ray emission instrument are finely tuned, best imaging effect is reached.By long-range It controls ray emission instrument 121 and carrying out flaw detection is carried out to crimping armor clamp inside, finally obtain testing result.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of crimping armor clamp detection device, for carrying out carrying out flaw detection to crimping armor clamp characterized by comprising

Bracket is provided with guide rail；

Ray source component is slidably matched with the guide rail；

Image-forming assembly is rotatably connected with the bracket, for receiving the ray across the crimping armor clamp；

Clamping part is set between the ray source component and image-forming assembly, for crimping armor clamp described in clamping；

Control assembly, for controlling the ray source component.

2. crimping armor clamp detection device according to claim 1, which is characterized in that the image-forming assembly include imaging plate with And the imaging plate framework for installing the imaging plate, the imaging plate framework are connected on the bracket by rotary shaft, institute Stating imaging plate framework can rotate around the rotary shaft.

3. crimping armor clamp detection device according to claim 2, which is characterized in that the imaging plate framework is provided with fixation Slot, the imaging plate are arranged in the fixing groove, are additionally provided on the imaging plate framework for fixing the imaging plate In the imaging plate fixinig plate in the fixing groove.

4. crimping armor clamp detection device according to claim 2, which is characterized in that the guide rail and the bracket are detachable Connection, and the extending direction of the guide rail is parallel to the surface of the imaging plate.

5. crimping armor clamp detection device according to claim 1, which is characterized in that the ray source component includes ray hair Penetrate instrument and radiographic source frame, the ray emission instrument is detachably connected with the radiographic source frame, the radiographic source frame with The guide rail activity cooperation.

6. crimping armor clamp detection device according to claim 5, which is characterized in that the ray source component further includes ray Source fixinig plate, the radiographic source fixinig plate have curved portion and first planar portions and the at the curved portion both ends are arranged in Two planar portions, first planar portions are fixedly connected with the radiographic source frame, second planar portions and the ray emission The surface far from the radiographic source frame of instrument abuts.

7. crimping armor clamp detection device according to claim 1, which is characterized in that control assembly includes control box, control Unit and data acquisition unit, described control unit and the data acquisition unit are set in the control box, described Control box is fixed on the radiographic source frame.

8. crimping armor clamp detection device according to claim 7, which is characterized in that the control box includes box body, cover board And connection may be reversed in padlock, the cover board and the box body, the padlock includes that lock pedestal and lock ring, the lock pedestal are set It is placed on box body, the lock ring is set on cover board, and the lock ring can be clamped with the lock pedestal.

9. crimping armor clamp detection device according to claim 1, which is characterized in that the clamping part include first and Second, described first and described second all has arc groove, and first arc groove and described second The arc groove in portion is oppositely arranged, and described first is fixedly connected with the bracket, described second one end by pin shaft with Described first one end is rotatably connected, and second other end is connected by fastener and first other end It connects.

10. crimping armor clamp detection device according to claim 9, which is characterized in that be provided with tune in the arc groove Part is saved, for adjusting the clamping size of the clamping part.