CN110445964B - Imaging device and cable fault dissection system - Google Patents

Abstract

The present application relates to an imaging device and a cable fault dissection system. The camera device is used for being connected to the dissecting platform and comprises a bracket mechanism, a first fixing piece, a video camera, a second fixing piece, a microscope camera and a display screen, wherein the bracket mechanism is used for being connected to the dissecting platform; the first fixing piece is movably connected to the bracket mechanism; the video camera is connected to the first fixing piece; the second fixing piece is movably connected to the bracket mechanism; the microscope camera is connected to the second fixing piece; the display screen is respectively and electrically connected with the video camera and the microscope camera. The microscope camera can amplify and shoot the dissected position of the cable so that a dissector can clearly watch the detailed position of the fault, and if the cable has an electric leakage fault, the dissector can quickly and accurately find the specific position of the fault by observing the discharge trace of the cable through the microscope camera, thereby solving the problems of higher difficulty and error in judging the cable fault.

Description

Imaging device and cable fault dissection system

Technical Field

The application relates to the technical field of cable dissection, in particular to a camera device and a cable fault dissection system.

Background

The traditional power cable fault adopts manual dissection and directly observes and judges the position of the fault through naked eyes, the dissection environment and the position of the cable are random, and the situation of inaccurate judgment of the fault position is easy to occur, namely the problem of error judgment of the cable fault exists; in addition, the whole-course video recording cannot be performed in the dissection process, even if the images of the fault positions of the cables are shot, the fault fine positions cannot be observed according to the images, namely, the pictures of the fault fine positions cannot be shot, so that fault analysis is performed completely according to experience, and the difficulty in judging the faults of the cables is high.

Disclosure of Invention

Accordingly, it is necessary to provide an imaging device and a cable fault dissection system for solving the problems of a cable fault determination error and a high determination difficulty.

A camera device for attachment to an anatomical platform, the camera device comprising:

A support mechanism for connection to the dissection table;

the first fixing piece is movably connected to the bracket mechanism;

the video camera is connected to the first fixing piece;

the second fixing piece is movably connected to the bracket mechanism;

the microscope camera is connected with the second fixing piece;

And the display screen is respectively and electrically connected with the video camera and the microscope camera.

In one embodiment, the first fixing piece is rotatably connected to the support mechanism, so that the angle position of the first fixing piece connected with the support mechanism is adjustable, the relative angle position of the video camera and the support mechanism is adjustable, and therefore the included angle between the shooting direction of the video camera and the dissecting platform is adjustable, and shooting video recording of different angle directions of the video camera to the cable is achieved.

In one embodiment, the second fixing piece is rotatably connected to the support mechanism, so that the angle position of the second fixing piece connected with the support mechanism is adjustable, and the relative angle position of the microscope camera and the support mechanism is adjustable, so that the included angle between the shooting direction of the microscope camera and the dissecting platform is adjustable, and shooting video of different angle directions of the cable by the microscope camera is realized.

In one embodiment, the second fixing member is disposed side by side with the first fixing member, so that the first fixing member and the second fixing member are more compactly connected to the bracket mechanism.

In one embodiment, the camera device further comprises a storage module, and the storage module is electrically connected with the video camera and the microscope camera respectively so as to record the fault position and the dissection process of the cable.

In one embodiment, the bracket mechanism has at least one rotational degree of freedom, so that the bracket mechanism can be rotationally adjusted according to the requirements of the shooting angles of the video camera and the microscope camera, and the convenience of use of the shooting device is further improved.

In one embodiment, the support mechanism comprises a first connecting rod, a first mounting assembly, a second connecting rod and a second mounting assembly, wherein the first connecting rod is used for being connected with the dissection platform, the first mounting assembly is respectively connected with the first connecting rod and the second connecting rod in a rotating mode, the end portion, far away from the first mounting assembly, of the second connecting rod is connected with the second mounting assembly in a rotating mode, and the first fixing piece and the second fixing piece are both movably connected with the second mounting assembly.

In one embodiment, the camera device further comprises a light source module, and the light source module is arranged adjacent to the video camera and the microscope camera respectively, so that the light source module supplements light sources for the video camera and the microscope camera, and shooting definition of the video camera and the microscope camera is improved.

In one embodiment, the light source module includes an annular lamp housing and a plurality of lamp beads; the annular lamp shell is respectively surrounded by the video camera and the microscope camera, the annular lamp shell is connected to the first fixing piece and/or the second fixing piece, and a plurality of lamp beads are arranged in the annular lamp shell at intervals, so that the light source module surrounds the video camera and the microscope camera, and the light source module supplements light sources for all angle positions of the video camera and the microscope camera, and the video camera and the microscope camera are ensured to have better definition in any angle shooting.

A cable fault dissection system comprising a dissection platform and the camera device of any of the above embodiments, the support mechanism being connected to the dissection platform.

According to the camera device and the cable fault dissecting system, the first fixing piece and the second fixing piece are both movably connected to the support mechanism, so that the first fixing piece and the second fixing piece are adjustably connected to the support mechanism, and the support mechanism is connected to the dissecting platform, so that the first fixing piece and the second fixing piece are both connected to the dissecting platform through the support mechanism; the video camera is connected with the first fixing piece, so that the relative position of the video camera and the bracket mechanism is adjustable, namely the relative position of the video camera and the dissecting platform is adjustable, so that different shooting positions of the video camera can be adjusted; similarly, the relative positions of the microscope camera and the bracket mechanism are adjustable so as to adjust different camera shooting positions of the microscope camera; the video camera can record the dissection process of the cable, so that the full-field video of the normal dissection process is realized; the microscope camera can amplify and shoot the dissected position of the cable so that a dissector can clearly watch the detailed position of the fault, and if the cable has an electric leakage fault, the dissector can quickly and accurately find the specific position of the fault by observing the discharge trace of the cable through the microscope camera, thereby solving the problems of higher difficulty and error in judging the cable fault; the display screen, the video camera and the microscope camera can be connected with an external computer, a control module in the computer respectively controls the video camera and/or the microscope camera to shoot, image data shot and collected by the video camera and the microscope camera can be transmitted into the computer to be processed and stored, and the processed or stored data can be displayed through the display screen to be dissected, photographed and live-broadcast, so that the problem that the whole-course video recording and video recording cannot be carried out due to cable faults is solved.

Drawings

FIG. 1 is a schematic diagram of a cable fault dissection system according to an embodiment;

FIG. 2 is a partial schematic view of the cable fault dissection system shown in FIG. 1;

FIG. 3 is a schematic diagram of another view of the cable fault dissection system shown in FIG. 2;

FIG. 4 is a partial schematic view of the cable fault dissection system shown in FIG. 3 from another perspective;

FIG. 5 is a partial schematic view of the cable fault dissection system shown in FIG. 3;

FIG. 6 is a cross-sectional view of the cable fault dissection system shown in FIG. 2;

FIG. 7 is a schematic diagram of another view of the cable fault dissection system shown in FIG. 2;

fig. 8 is a partial schematic view of the cable fault dissection system shown in fig. 2.

Detailed Description

In order to facilitate an understanding of the present application, the imaging device and cable fault dissection system will be described more fully below with reference to the associated drawings. A preferred embodiment of the camera device and cable fault dissection system is shown in the drawings. The camera device and cable fault dissection system may be implemented in many different forms and are not limited to the embodiments described herein. Rather, the purpose of these embodiments is to provide a more thorough and complete disclosure of the camera device and cable fault dissection system.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the camera device and cable fault dissection system is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In one embodiment, the imaging device is used for being connected to an anatomical platform, and comprises a bracket mechanism, a first fixing piece, a video camera, a second fixing piece, a microscope camera and a display screen, wherein the bracket mechanism is used for being connected to the anatomical platform; the first fixing piece is movably connected to the bracket mechanism; the video camera is connected to the first fixing piece; the second fixing piece is movably connected to the bracket mechanism; the microscope camera is connected to the second fixing piece; and the display screen is respectively and electrically connected with the video camera and the microscope camera.

As shown in fig. 1, a cable fault dissection system 10 of an embodiment includes a dissection platform 100 and a camera device 200 connected to the dissection platform. In this embodiment, the dissection platform is a working platform of the dissection cable, and can be placed on the ground when in use.

Referring also to fig. 2, in one embodiment, the camera device includes a stand mechanism 210, a first mount 220, a video camera 230, a second mount 240, a microscope camera 250, and a display screen 260. The support mechanism is connected to the dissection platform, i.e. the support mechanism is mounted on the dissection platform. In this embodiment, the support mechanism is located above the dissection table. The video camera is connected to the bracket mechanism through a first fixing piece. The microscope camera is connected to the bracket mechanism through a second fixing piece. The video camera and the microscope camera are both positioned above the dissecting platform. The display screen is connected to the support mechanism and is positioned above the dissection platform.

In one embodiment, the first fixing member is movably connected to the bracket mechanism. The video camera is connected to the first fixing piece, so that the relative position of the video camera and the bracket mechanism is adjustable. In this embodiment, the video camera performs a whole-course video recording of the cable dissection process, so as to perform a live video recording of the cable dissection.

In one embodiment, the second fixing member is movably connected to the bracket mechanism. The microscope camera is connected to the second fixing piece, so that the relative position of the microscope camera and the bracket mechanism is adjustable. In the embodiment, the microscope camera shoots the detail position of the fault position of the cable dissection so as to check the fault problem of the fine position which cannot be seen by naked eyes, and the fault of the detail position is captured. Because the video information that the video camera gathered and the photo information that the microscope camera shot, make camera device gather video and photo simultaneously to watch the position of trouble under two mode conditions, more conveniently shoot the trouble position of dissecting analysis cable, need not the manual work and follow the shooting aside, solved the problem that can't carry out whole video recording in the dissection process.

In one embodiment, the display screen is respectively connected with the video camera and the microscope camera, that is, the display screen is respectively electrically connected with the video camera and the microscope camera, so that video data collected by the video camera and photo data collected by the microscope camera are displayed through the display screen. In this embodiment, the display screen is mounted and fixed on the bracket mechanism. In other embodiments, the display may be mounted and secured to the table or other location.

In one embodiment, the video camera can record the dissection process of the cable, so that the full-field video of the normal dissection process is realized. The microscope camera can amplify and shoot the dissected position of the cable so that a dissector can clearly watch the detailed position of the fault, and if the cable has an electric leakage fault, the dissector can quickly and accurately find the specific position of the fault by observing the discharge trace of the cable through the microscope camera, thereby solving the problems of higher difficulty and error in judging the cable fault.

Because the first fixing piece and the second fixing piece are both movably connected to the support mechanism, the first fixing piece and the second fixing piece are adjustably connected to the support mechanism, and because the support mechanism is connected to the dissection platform, the first fixing piece and the second fixing piece are both connected to the dissection platform through the support mechanism. Because the video camera is connected to the first fixing piece, the relative position of the video camera and the bracket mechanism is adjustable, namely, the relative position of the video camera and the dissecting platform is adjustable, so that different shooting positions of the video camera can be adjusted. Similarly, the relative positions of the microscope camera and the bracket mechanism can be adjusted so as to adjust different camera shooting positions of the microscope camera. The video camera can record the dissection process of the cable, so that the whole dissection process is recorded. The microscope camera can amplify and shoot the anatomical position of the cable so that the dissector can clearly watch the detailed position of the fault, the dissector can quickly and accurately find the specific position of the fault, and the problems of higher difficulty and misjudgment of the cable fault are solved. The control module respectively controls the video camera and/or the microscope camera to shoot, and the video camera and the microscope camera shoot the image data acquired and display through the display screen so as to carry out dissection shooting live broadcast, thereby solving the problem that the cable fault can not carry out whole-course video recording.

In an embodiment, the display screen, the video camera and the microscope camera can be electrically connected with an external computer, namely, the display screen, the video camera and the microscope camera can be electrically connected with a control module of the computer, namely, the control module is respectively connected with a control end of the video camera and a control end of the microscope camera, so that the display screen, the video camera and the microscope camera are electrically connected with the control module, the control module can control the video camera and the microscope camera to shoot respectively or shoot simultaneously, the image data shot and collected by the video camera and the microscope camera can be transmitted into the computer to be processed and stored, and the processed or stored data can be displayed through the display screen to be dissected, shot and live broadcast, thereby solving the problem that the cable fault cannot carry out whole-course video recording. In this embodiment, the image data is picture data or video data.

In one embodiment, the control module controls the time length of the video camera and the microscope camera to shoot respectively according to the requirement, so that the control module has the functions of controlling the video camera to record video, the microscope camera to shoot pictures, namely, enlarging or reducing when shooting video/pictures, and the like, so that the dissection process is recorded, and the shooting time of each camera can be switched at any time. During normal live dissection of the cable, a video camera is used to record the dissection process. When the fine problems of the dissected cable are required to be observed, such as the discharge trace of the cable is observed, a microscope camera is required to be used for shooting, and the problem of fault judgment errors of the cable is solved.

In one embodiment, the camera device further comprises a storage module, wherein the storage module is respectively connected with the video camera and the microscope camera, namely, the storage module is respectively electrically connected with the video camera and the microscope camera, so that data collected by the video camera and the microscope camera can be transmitted to the storage module, and the fault position of the cable and an image of an anatomical process can be stored. In this embodiment, the storage module may be connected to a control module of an external computer, so that data processed by the control module may be stored in the storage module. It is understood that the storage module may optionally store raw data or processed data collected by the video camera and the microscope camera.

Referring again to fig. 1, in one embodiment, the camera device further includes a projection screen 270 that is electrically connected to the video camera and the microscope camera, respectively. In this embodiment, the video data collected by the video camera and the microscope camera can be transmitted to the projection screen for projection display, and rebroadcast is performed under the on-site anatomical condition, so that the convenience of use of the camera device is improved. Specifically, the projection screen is electrically connected with the outside, so that data processed or unprocessed by the control module of the computer can be transmitted to the projection screen for projection display.

It will be appreciated that in other embodiments, the display, video camera and microscope camera may not be connected to an external computer. In one embodiment, the camera device further comprises a touch module and a data processing module which are connected, wherein the touch module is respectively connected with the display screen, the video camera and the microscope camera, i.e. the touch module is respectively electrically connected with the display screen, the video camera and the microscope camera. The touch control module controls the video camera to shoot, controls the microscope camera to shoot and controls the display screen to display. The data processing module is used for respectively processing video data shot by the video camera and the microscope camera. Specifically, the touch module controls the display screen to switch and display video data shot by the video camera or the microscope camera. In one embodiment, the touch module and the data processing module are integrated on the display screen, so that the structure of the camera device is more compact. In this embodiment, the display screen has functions of displaying, touch controlling and processing image data, that is, the display screen has functions of controlling the video camera and/or the microscope camera to shoot and processing image data acquired by the video camera and/or the microscope camera in addition to the display function. The display screen may be a tablet computer.

In one embodiment, the data processing module is connected with the video camera and the microscope camera respectively, the data processing module is respectively and electrically connected with the video camera and the microscope camera. In one embodiment, the data processing module processes the image data acquired by the video camera and the microscope camera respectively, so as to reduce noise in the image data. In this embodiment, the image data is video data or picture data. In one embodiment, the data processing module is further connected to the display screen, that is, the data processing module is further electrically connected to the display screen, so that the data processing module transmits the processed video data or picture data to the display screen for display.

In one embodiment, the camera device further comprises a storage module, wherein the storage module is respectively connected with the video camera and the microscope camera, namely, the storage module is respectively electrically connected with the video camera and the microscope camera so as to store the fault position and the dissection process of the cable. In this embodiment, the storage module is connected to the data processing module, so that the video data or the picture data processed by the data processing module is stored in the storage module for storage.

In one embodiment, the first fixing piece is rotatably connected to the support mechanism, so that the angle position of the first fixing piece connected with the support mechanism is adjustable, the relative angle position of the video camera and the support mechanism is adjustable, and therefore the included angle between the shooting direction of the video camera and the dissecting platform is adjustable, and shooting video recording of different angle directions of the video camera to the cable is achieved. It will be appreciated that in other embodiments, the first mount is not limited to being pivotally coupled to the bracket mechanism, and the first mount may be slidably coupled to the bracket mechanism.

In one embodiment, the second fixing piece is rotatably connected to the support mechanism, so that the angle position of the second fixing piece connected with the support mechanism is adjustable, and the relative angle position of the microscope camera and the support mechanism is adjustable, so that the included angle between the shooting direction of the microscope camera and the dissecting platform is adjustable, and shooting video of different angle directions of the cable by the microscope camera is realized. It will be appreciated that in other embodiments, the second mount is not limited to being pivotally coupled to the bracket mechanism, and the second mount may be slidably coupled to the bracket mechanism.

In one embodiment, the second fixing member is disposed side by side with the first fixing member, so that the first fixing member and the second fixing member are more compactly connected to the bracket mechanism. In this embodiment, the first fixing member and the second fixing member are both rotationally connected to the bracket mechanism, and the rotation plane of the first fixing member and the rotation plane of the second fixing member are parallel to each other, so that the angle adjustment of the first fixing member and the angle adjustment of the second fixing member do not interfere with each other, thereby improving the convenience of use of the image pickup device.

In one embodiment, the bracket mechanism comprises at least one rotational degree of freedom, so that the bracket mechanism can be rotationally adjusted according to the requirements of the shooting angles of the video camera and the microscope camera, and the convenience of use of the shooting device is further improved.

As shown in fig. 3, in one embodiment, the bracket mechanism includes a first link 211, a first mounting assembly 212, a second link 213, and a second mounting assembly 214. The first connecting rod is used for being connected with the dissection platform, and the first installation component is respectively connected with the first connecting rod and the second connecting rod in a rotating mode. The end part, far away from the first installation component, of the second connecting rod is rotationally connected with the second installation component, and the first fixing piece and the second fixing piece are movably connected with the second installation component. In this embodiment, the first fixing member and the second fixing member are both rotatably connected to the second mounting assembly. Because the first installation component rotates with first connecting rod and second connecting rod respectively to be connected, the tip that keeps away from first installation component of second connecting rod rotates with the second installation component to be connected, and first mounting and second mounting all rotate to be connected in the second installation component, make bracket mechanism have two at least degrees of freedom of rotation, realize 180 degrees shooting angle adjustment.

In this embodiment, the display screen is mounted and secured to the second mounting assembly. In one embodiment, the display screen comprises a display screen body and a fixed column which are connected, and the connecting column is connected with the second installation component, so that the display screen is installed and fixed on the second installation component.

In one embodiment, as shown in fig. 3, the support mechanism further comprises a clamping assembly 215 that clamps to the dissection table. In one embodiment, the first connecting rod is rotatably connected with the clamping assembly, so that the connection angle of the first connecting rod and the clamping assembly is adjustable, and the angle adjustment of the first connecting rod and the table body is convenient. Because the first connecting rod is rotationally connected with the clamping assembly, the end part, far away from the first installation assembly, of the second connecting rod is rotationally connected with the second installation assembly, and the first fixing piece and the second fixing piece are rotationally connected with the second installation assembly, the bracket mechanism has three rotational degrees of freedom, three-axis rotation is realized, and 360-degree shooting angle adjustment is realized.

As shown in fig. 3 and 4, in one embodiment, the clamping assembly includes a clamping block 215a and a retaining member 215b. The clamping block is rotationally connected with the first connecting rod. The clamping block is provided with a clamping groove 2151 which accommodates the edge of the dissection table such that the edge portion of the dissection table is located in the clamping groove. The clamping block is provided with a threaded hole, and the locking piece is arranged in the threaded hole in a penetrating mode and is in threaded connection with the clamping block. The locking part is positioned in the clamping groove and is propped against the dissecting platform, so that the clamping assembly can be reliably clamped on the dissecting platform. In this embodiment, the clamping block is rotatably connected to the first link.

To avoid rocking of the clamping assembly relative to the dissection table, in one embodiment the clamping assembly further comprises a set screw. The clamping block is provided with a positioning screw hole communicated with the clamping groove, the positioning screw rod penetrates through the positioning screw hole and is in threaded connection with the clamping block, and the positioning screw rod is partially positioned in the clamping groove and is abutted against the dissecting platform. In this embodiment, the positioning screw includes the portion of gripping and the screw portion that is connected, is formed with a plurality of archs on the perisporium of gripping to the problem that skidding appears in the in-process of twisting the portion of gripping, so that the positioning screw of elasticity better carries out, and the screw portion wears to locate in the positioning screw and with grip block threaded connection, and screw portion butt in dissecting the platform, so as to avoid the clamping assembly swing for dissecting the platform, makes the clamping assembly position in dissecting the platform better.

As shown in fig. 4, in one embodiment, the clamp block includes a clamp block body 2152, a first connection post 2153, and two first mounting plates 2154 that are parallel to one another. Clamping groove, screw hole and location screw all offer in the grip block body. The two first mounting plates are fixed on the same side of the clamping block body. The first connecting column is located between the two first mounting plates, and the first connecting column is connected with the two first mounting plates respectively. The first connecting rod is rotationally connected to the first connecting column, so that the clamping block is rotationally connected with the first connecting rod. In this embodiment, the clamping block body is welded with the two first mounting plates respectively, so that the two first mounting plates are firmly connected to the clamping block body. In other embodiments, the clamping block body and the two first mounting plates may be integrally formed, so that the clamping block is compact in structure.

As shown in fig. 4, in one embodiment, the first mounting assembly includes a second connection post 212a and two second mounting plates 212b parallel to each other, the second connection post being connected to the two second mounting plates, respectively. The first connecting rod and the second connecting rod are both rotationally connected with the second connecting column, so that the first installation component is rotationally connected with the first connecting rod and the second connecting rod respectively. In this embodiment, the number of the second connection posts is at least two, and the two second connection posts are disposed in parallel. The first connecting rod is rotatably connected to one of the second connecting columns, and the second connecting rod is rotatably connected to the other second connecting column.

In one embodiment, as shown in fig. 5, the second mounting assembly includes a third connection post 214a and two sets of mounting plates 214b that are parallel to each other, the third connection post being connected to each set of mounting plates. The second connecting rod, the first fixing piece and the second fixing piece are rotationally connected with the third connecting column, so that the second installation component is rotationally connected with the second connecting rod, the first fixing piece and the second fixing piece respectively. The number of the third connecting columns is at least two, and the two third connecting columns are arranged in parallel. The second connecting rod is rotationally connected to one of the third connecting columns, and the first fixing piece and the second fixing piece are both rotationally connected to the other third connecting column. In this embodiment, the mounting board group includes two mounting board units disposed parallel to each other.

As shown in fig. 5, in one embodiment, the camera device further includes a light source module 270, where the light source modules are disposed adjacent to the video camera and the microscope camera respectively, so that the light source modules supplement the light sources for the video camera and the microscope camera, and the shooting definition of the video camera and the microscope camera is improved.

In one embodiment, the light source module includes an annular lamp housing and a plurality of lamp beads. The annular lamp housing is arranged around the video camera and the microscope camera respectively. The annular lamp shell is connected to the first fixing piece and/or the second fixing piece, and the lamp beads are arranged in the annular lamp shell at intervals, so that the light source module surrounds the video camera and the microscope camera, and the light source module supplements light sources for all angle positions of the video camera and the microscope camera, and ensures that the video camera and the microscope camera have better definition in any angle shooting. In this embodiment, the lamp beads are LED lamp beads, so that the light source module has better brightness and lower energy consumption. The annular lamp housing is connected to the second fixing piece.

In one embodiment, the camera device further comprises a control switch, and the control switch is arranged on the annular lamp housing. The control switch is electrically connected with the lamp beads respectively so as to control the switch of the lamp beads. In one embodiment, the control switch is further used for controlling the light source size of each lamp bead, so that the light source size of each lamp bead is finely controlled, and the brightness of the light source module is adjusted by the control switch according to the requirement.

As shown in fig. 1 and 2, in one embodiment, the dissection table includes a table body 110, a positioning mechanism 120, a occlusion seat 130, and a cleaning assembly 140. In one embodiment, the table body is provided with a working surface 111, and the working surface is provided with a garbage dumping opening 111a. In this embodiment, the working surface is located on the top surface of the table body. In one embodiment, the platform body is provided with a guide groove 113 communicated with the garbage dumping opening, and the inner wall of the guide groove is provided with a guide inclined plane. When in use, the trash basket can be placed at the position corresponding to the outlet of the guide groove below the table body. Because the inner wall of the guide groove is provided with the guide inclined plane, the debris garbage entering through the garbage dumping opening can slide into the garbage basket under the guide action of the guide inclined plane.

In one embodiment, the positioning mechanism is arranged on the working surface and is used for positioning the cable, so that the cable is fixedly positioned on the working surface through the positioning mechanism, and the problem of running of the cable in the process of dissection is avoided, so that the cable is dissected. In an embodiment, the blocking seat covers the garbage dumping opening, and the blocking seat is detachably connected with the table body. In this embodiment, the plugging seat is connected to the table body in a plugging manner, so that the plugging seat plugs the garbage dumping opening. Specifically, the blocking seat is of a rubber plug structure, so that the blocking seat can be tightly blocked at the garbage dumping opening. In other embodiments, the occlusion mount may also be threadably coupled to the table body. In one embodiment, the outer wall of the blocking seat is provided with a first thread, and the inner wall of the garbage dumping opening is provided with a second thread, and the first thread is in threaded connection with the second thread, so that the blocking seat is in threaded connection with the table body. As shown in fig. 2, in order to improve the convenience of taking and placing the plugging seat, in an embodiment, a taking and placing groove 132 is formed on the plugging seat. When the blocking seat needs to be taken out, a worker can extend fingers into the taking and placing groove to pull out the blocking seat. Similarly, when the blocking seat is blocked in the garbage dumping opening, a worker can stretch fingers into the taking and placing groove to better hold the blocking seat, so that the use convenience of the blocking seat is improved.

As shown in fig. 1 and 2, in one embodiment, the cleaning assembly includes a connection rope 141 and a brush body 143, one end of the connection rope is connected to the brush body, and the other end of the connection rope is connected to the table body, so that the brush body is connected to the table body through the connection rope. The brush body is used for brushing off scraps. In this embodiment, the connecting rope is an elastic rubber strip, so that the connecting rope has elasticity. In order to improve the convenience of use of the brush body, in one embodiment, the connecting rope is an elastic rope, so that the connecting rope has elastic expansion performance, and when the brush body is held and garbage is cleaned, the brush body is pulled to any position of the tabletop to clean the garbage, so that the convenience of use of the brush body is improved.

In order to make the connecting rope occupy less space of the tabletop and make the structure of the connecting rope more compact, in one embodiment, the connecting rope is of a wavy winding structure, so that the connecting rope can be rapidly stretched and shortened, and meanwhile, the connecting rope occupies less space of the tabletop and the structure of the connecting rope is more compact.

When the dissecting platform and the cable fault dissecting system are used, a worker can stand beside the platform body and dissect the cable at the working face, a chair can be placed beside the platform body and the cable can be dissected by sitting on the chair, so that the dissecting platform is more in accordance with human engineering, the cable is dissected more humanized, the traditional seat-to-seat dissecting mode is changed, and therefore, the scrap garbage generated in the dissecting process is concentrated on the working face, and the problem of higher scrap sweeping difficulty in an office environment is solved; in daily dissection operation, the blockage seat cover is arranged at the garbage dumping opening, and at the moment, the debris garbage generated in the cable dissection process stays on the working surface and cannot enter the garbage dumping opening. When the cable is dissected, the scrap garbage on the working surface can be cleaned, at the moment, the garbage basket can be firstly placed below the table body at a position corresponding to the outlet of the guide groove, and then the blocking seat is opened; then the brush body is held to clean the garbage on the table top to the garbage dumping opening, so that the garbage slides into the garbage basket through the garbage dumping opening and the guide groove, and the garbage is cleaned, so that the working surface is clean and fresh. The brush body is connected with the table body through the connecting rope, so that the brush body is always connected with the table body, the problem that the brush body is easy to lose is solved, meanwhile, a worker can conveniently find the brush body quickly, and the cleaning speed of garbage is improved; when the garbage is cleaned, the blocking seat cover is arranged at the garbage dumping opening.

In order to improve the convenience of use of the dissection table, in one embodiment, the brush body is arranged adjacent to the garbage dumping opening, so that after the blockage seat is opened, the brush body can be rapidly held and garbage can be cleaned to the garbage dumping opening, and the convenience of use of the dissection table is improved.

As shown in fig. 2, to enable the brush body to brush out debris, in one embodiment, the brush body includes a grip 143a, a connecting portion 143b, and a bristle sub-assembly 143c. The grab handle is connected with the connecting rope, so that the brush body is connected to the table body through the connecting rope. The connecting part is respectively connected with the grab handle and the bristle component. The bristle sub-assembly is used for brushing off the scraps, so that the brush body can brush off the scraps.

In one embodiment, as shown in fig. 2, the dissection table further comprises a storage holder 150, which is connected to the table body. In one embodiment, the grab handle is detachably connected to the storage seat, so that the grab handle is fixed on the storage seat, and meanwhile, the brush body is prevented from being placed everywhere in the use process, so that workers can find the grab handle quickly, and the use convenience of the dissecting platform is improved. In one embodiment, the grab handle is buckled and connected with the object placing seat, so that the grab handle is quickly fixed on the object placing seat, quick picking and placing of the grab handle are realized, and the use convenience of the anatomical platform is further improved. In one embodiment, the storage seat is provided with the clamping groove 152, and the clamping handle is clamped into the clamping groove, so that the clamping handle is quickly fixed on the storage seat, and meanwhile, the brush body is prevented from being placed everywhere in the use process, so that staff can quickly find the clamping handle, and the convenience in use of the dissection platform is improved. Because the grab handle is fixed on the object placing seat in a clamping way, the grab handle is quickly taken and placed, and the use convenience of the anatomical platform is further improved.

As shown in fig. 6, in one embodiment, the dissection platform further comprises a drawer box 160. The drawer box is connected with the table body in a sliding way. The drawer box can be used for placing tools related to dissecting cables, so that after cable dissection is finished, the related tools are placed in the drawer box, and the situation that the tools are randomly placed on a working surface to sweep garbage into a garbage dumping opening along with garbage in the garbage cleaning process is avoided. The related tools are intensively placed in the drawer box, so that the tools which are mixed with other tools for other purposes are prevented from being placed in a timely manner, and the cable dissection efficiency is improved. When a tool is needed, the drawer box is pulled open to remove the tool associated with the dissection cable. In this embodiment, the drawer box is disposed below the working surface of the table body, so that the structure of the dissection table is more compact.

In one embodiment, as shown in fig. 6, the dissection table further comprises a guide plate 170, which is obliquely arranged to the table body. The guide inclined plane extends to the guide plate, so that the debris can slide to the guide plate through the guide inclined plane of the guide groove and slide into the trash basket through the guide of the guide plate, and the situation that the scattering amplitude is large when the debris directly slides into the trash basket through the guide inclined plane of the guide groove is avoided, so that the debris can slide into the trash basket completely is avoided.

As shown in fig. 6, in view of the limited space below the table body, the trash basket is not easily accommodated, and in one embodiment, the dissecting table further includes a trash collection bucket (not shown). The table body is provided with a containing cavity 115 communicated with the guide groove, and the chip collecting barrel is positioned in the containing cavity. Specifically, the platform body is provided with a collecting box, the collecting box is provided with a containing cavity, and the containing cavity is communicated with the guide groove. The opening of collection bits bucket sets up towards the through-hole, makes the work face dissect the piece accessible rubbish dumping mouth and the guide inclined plane that the cable in-process produced slide into collection bits bucket in to in the piece is scattered everywhere, is unfavorable for sweeping, influences sanitation.

As shown in fig. 7, in order to prevent dust generated in the dust collecting barrel from sliding into the dust collecting barrel from falling to the periphery of the table body to affect the physical health of an dissector, in one embodiment, the dissecting platform further comprises a door body 180, the door body is rotatably connected to the table body, and the door body seals the accommodating cavity, specifically, one end of the door body is rotatably connected with one side of the collecting box, the collecting box is provided with a cavity opening, the cavity opening is communicated with the accommodating cavity, and the door body movably seals the cavity opening to enable the dust collecting barrel to be accommodated in the accommodating cavity, so that dust generated in the dust collecting barrel from sliding into the dust collecting barrel is prevented from falling to the periphery of the table body to affect the physical health of the dissector.

In one embodiment, the dissection table further comprises an air suction mechanism, and the air suction mechanism is arranged in the containing cavity. The induced draft mechanism is used for carrying out the convulsions to holding the chamber, avoids the piece to fall into the dust in the collection bits bucket better and lifts up and influence the healthy problem of people, makes the environment around the dissecting cable comparatively clean.

In one embodiment, as shown in fig. 8, the positioning mechanism includes a hoop 121. The anchor ear comprises a first connecting part 121a, a tightening part 121b and a second connecting part 121c, wherein two ends of the tightening part are respectively connected with the first connecting part and the second connecting part. The first connecting part and the second connecting part are both connected to the working surface, so that the tightening part is fixedly connected to the working surface. The tightening part is used for fixing the cable. When the cable is used, the cable is arranged on the tightening part in a penetrating manner, so that the tightening part is pressed and positioned on the working surface, and the cable is fixedly positioned on the working surface by the positioning mechanism. In this embodiment, the tightening part is provided with an arc-shaped arch structure, and the arc-shaped arch structure is formed with an accommodating space, so that the cable is threaded into the accommodating space, and the cable is fixed to the tightening part.

As shown in fig. 8, in one embodiment, the positioning mechanism further includes a first locking member 123 and a second locking member 125. In one embodiment, the first connection portion is provided with a first through hole, and the second connection portion is provided with a second through hole. In one embodiment, the working surface is provided with a first threaded hole and a second threaded hole. In one embodiment, the first locking member is respectively disposed through the first through hole and the first threaded hole, so that the first connecting portion is fixedly connected to the working surface. In one embodiment, the second locking member is respectively disposed through the second through hole and the second threaded hole, so that the second connecting portion is fixedly connected to the working surface. In this embodiment, the first locking member and the second locking member are both screws. When the cable is required to be fixed and positioned, the first locking piece and the second locking piece are firstly loosened respectively, so that the cable can easily pass through the tightening part; the first locking member and the second locking member are then locked respectively to hold down and position the cable on the work surface.

It will be appreciated that in other embodiments, the positioning mechanism is not limited to a hoop structure. In one embodiment, the positioning mechanism comprises a fixed seat and a locking piece. The fixing seat is connected to the working face, and a first groove is formed in the fixing seat. One end of the locking piece is rotationally connected to the fixing seat, and the other end of the locking piece is buckled to the fixing seat. The locking piece is formed with a second groove communicated with the first groove, and the first groove and the second groove form a fixing hole for positioning the cable. Because the locking piece is fastened with the fixing seat, the locking piece and the fixing seat can be quickly locked and connected, and the cable can be conveniently and quickly clamped, fixed and detached. When the cable needs to be fixed and positioned, the cable is firstly placed in the first groove, and then the clamping locking piece is clamped in the fixing seat, so that the cable is fixedly positioned in the fixing hole, and the cable is dissected. When the positioning cable is not required to be fixed, one end of the locking piece is firstly opened, the other end of the locking piece is rotated by a preset angle relative to the fixing seat, and then the cable is taken out.

In one embodiment, the working surface is provided with a flame-retardant layer, so that the working surface is not easy to burn and has flame-retardant effect. In one embodiment, the side of the flame retardant layer, which faces away from the working surface, is provided with an antifouling layer, so that the flame retardant layer has good dirt resistance, and the problem that dust or pollutants pollute the flame retardant layer to cause the working surface to be dirty easily is avoided. It will be appreciated that in other embodiments, the entire surface of the table body may be provided with a flame retardant layer and an anti-fouling layer, and is not limited to being provided on a work surface. Of course, both the flame retardant layer and the stain resistant layer may be omitted. In one embodiment, the material of the table body has better flame retardance and antifouling property, so that the table body is not easy to burn and is not easy to dirty.

In one embodiment, as shown in fig. 2, a material blocking table edge 116 is arranged along the periphery of the working surface of the table body in a surrounding manner, so that the periphery of the working surface is higher than the middle position of the working surface, and the scraps produced by the cable in the dissection process are not easy to splash out of the material blocking table edge, so that the scraps produced by the dissection are all positioned on the working surface. In order to avoid the influence of the material blocking table edge on the cable to be installed on the positioning mechanism, in one embodiment, the two opposite table edges of the material blocking table edge are provided with the avoidance grooves 116a, when the cable is fixedly positioned on the positioning mechanism, the cable is simultaneously penetrated in the avoidance grooves, the problem that the cable is difficult to position through the positioning mechanism due to the height difference between the material blocking table edge and the middle position of the working surface is avoided, and meanwhile, the problem that the cable is positioned in a bent shape on the whole of the positioning mechanism, so that the anatomical precision of the cable is lower is avoided.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the claims. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of the application should be assessed as that of the appended claims.

Claims (10)

1. An imaging device for attachment to an anatomical platform, the imaging device comprising:

A support mechanism for connection to the dissection table;

the first fixing piece is movably connected to the bracket mechanism;

The video camera is connected to the first fixing piece, so that the relative position of the video camera and the bracket mechanism is adjustable;

the second fixing piece is movably connected to the bracket mechanism;

The microscope camera is connected to the second fixing piece, so that the relative position of the microscope camera and the bracket mechanism is adjustable;

the display screen is respectively and electrically connected with the video camera and the microscope camera;

The video camera is used for recording the dissection process of the cable, so that the full-field video of the normal dissection process is realized; the microscope camera is used for amplifying and shooting the anatomical position of the cable so that an dissector can clearly watch the detailed position of the fault;

The display screen, the video camera and the microscope camera can be electrically connected with a control module of an external computer, image data shot and collected by the video camera and the microscope camera are transmitted into the computer for processing and storage, and the processed or stored data can be displayed through the display screen for dissection, photographing and live broadcasting; the control module controls the time length of shooting respectively by the video camera and the microscope camera according to the requirement so as to record the dissection process and switch the shooting time at any time.

2. The image capturing apparatus of claim 1, wherein the first securing member is rotatably coupled to the bracket mechanism.

3. The image capturing apparatus of claim 2, wherein the second mount is rotatably coupled to the bracket mechanism.

4. The image pickup apparatus according to claim 1, wherein the second fixing member is provided side by side with the first fixing member.

5. The image capturing apparatus of claim 1, further comprising a memory module electrically connected to the video camera and the microscope camera, respectively.

6. The image pickup apparatus according to any one of claims 1 to 5, wherein the bracket mechanism has at least one rotational degree of freedom.

7. The imaging apparatus according to claim 6, wherein the bracket mechanism includes a first link, a first mounting assembly, a second link, and a second mounting assembly, the first link being configured to be coupled to the anatomical platform, the first mounting assembly being rotatably coupled to the first link and the second link, respectively, an end of the second link distal from the first mounting assembly being rotatably coupled to the second mounting assembly, the first fastener and the second fastener each being movably coupled to the second mounting assembly.

8. The image capturing apparatus of any of claims 1-5, further comprising a light source module disposed adjacent to the video camera and the microscope camera, respectively.

9. The camera device of claim 8, wherein the light source module comprises an annular lamp housing and a plurality of lamp beads; the annular lamp housing is arranged around the video camera and the microscope camera respectively, the annular lamp housing is connected to the first fixing piece and/or the second fixing piece, and a plurality of lamp beads are arranged in the annular lamp housing at intervals.

10. A cable fault dissection system comprising an dissection platform and the camera device of any one of claims 1 to 9, the support mechanism being connected to the dissection platform.