CN115575138B - Measurement and detection equipment for insurance business field evaluation - Google Patents

Abstract

The utility model discloses measurement and detection equipment for safety service field assessment, which comprises a detector and telescopic boxes, wherein two groups of telescopic boxes are respectively embedded and installed on two sides of the detector, an electric push rod is embedded and installed in the telescopic boxes, a piston rod is installed at the output end of the electric push rod, a universal ball is installed on the front surface of the piston rod, a limiting frame is installed on the outer side of the universal ball, and an extrusion positioning block is installed on the front surface of the limiting frame; an adjusting illuminating lamp is embedded and installed at the top of the detector; the coiling box is installed to the below of detector, rotatory circle is installed at coiling box's top. According to the utility model, the extrusion positioning block is arranged, when the front soft rubber plate contacts the vehicle surface, the limiting frame assembled on the outer side of the universal ball can conduct angle adjustment to a certain degree along the universal ball, so that the extrusion positioning block can contact the vehicle body through the maximum contact surface, the contact stability is improved, and the problem that the image acquisition effect is affected due to shaking is avoided.

Description

Measurement and detection equipment for insurance business field evaluation

Technical Field

The utility model relates to the technical field of damage assessment and detection of automobile insurance business, in particular to measurement and detection equipment for on-site assessment of insurance business.

Background

The automobile can bring a more convenient trip mode to people in daily life, but the automobile running on a road in daily life cannot generate traffic accidents, the collision among the automobiles can directly lead to the depression of the paint surface on the surface of the automobile, or the situation that the chassis of the automobile is scratched with the road surface is easily caused by the situation of the road surface, in order to reduce the loss of traffic accidents, the automobile generally needs to purchase insurance, when the traffic accidents happen, personnel of an insurance company can detect the surface of the automobile with the traffic accidents because of the damage condition of the traffic accidents, and then analyze the detected data to judge the amount of insurance compensation, so that the automobile needs to be detected by using the vehicle detection equipment for insurance evaluation.

The existing vehicle detection equipment has the following defects:

1. patent document CN216955749U discloses an anti-falling automobile paint surface detection device, which comprises a housin, the front end of casing is equipped with decurrent spliced pole, the outer tip of spliced pole is equipped with discoid detection cover, the bottom of detecting the cover is equipped with the opening, and detects the opening port department of cover and be equipped with the rubber abrasionproof ring that sets up along the split ring direction, the inner chamber top of detecting the cover is fixed with visual detection camera, be equipped with a plurality of LED light filling lamps on the inner chamber lateral wall of detecting the cover, be equipped with the side direction handle on the lateral wall of casing. According to the utility model, the detection cover is covered on the surface of the automobile with the paint surface to be detected when the device is used, the LED light supplementing lamp is utilized to supplement light, then the visual detection camera is utilized to pick up the paint surface condition in the area and display the paint surface condition from the display screen, so that detection personnel can conveniently detect and judge the paint surface in the area;

2. patent document CN216210226U discloses a multifunctional endoscope comprising: an endoscope body; the connecting part is arranged at one end of the endoscope body and is used for being connected with diagnostic equipment; the imaging part is arranged at the other end of the endoscope body and is used for shooting the conditions of parts in the automobile; the adapter is movably connected with the camera shooting part; according to the utility model, the aviation connector is arranged at one end of the endoscope main body, so that the endoscope main body can be connected with any diagnostic tool with an aviation female connector, is not easy to fall off due to connection and fastening, and can be conveniently carried after being disassembled; through arranging a plurality of adapters with different functions, the functions of hooking the thread ends, observing the dead angles of the side edges, sucking the dropped screws and the like can be realized in a narrow space of an automobile; the utility model has simple structure, convenient carrying, good market application value, but when the device is not used, the line for transmitting data for the endoscope can not be stored, so that the condition of winding or breakage damage is easy to occur, thereby causing loss and being inconvenient to carry;

3. patent document CN213023760U discloses a honeycomb coating distribution endoscope detector, which comprises: an imaging device provided with a liquid crystal display; a communication hose connected to the image forming apparatus; a detection head connected with the end of the communication hose; characterized by comprising the following steps: the installation boss is arranged at the end part of the communication hose, the side surface of the installation boss is provided with an installation thread, the upper end of the installation boss is provided with a first sealing table top, and the lower edge of the installation boss is provided with a second sealing table top; the first sealing ring is arranged on the first sealing table top; the second sealing ring is arranged on the second sealing table top; and the mounting seat is arranged below the detection head. According to the utility model, the mounting boss is arranged on the communication hose, the mounting seat is arranged on the detection head and is in threaded connection with the mounting boss, and the first sealing ring and the second sealing ring are arranged for sealing, so that liquid is prevented from entering the communication hose from the connection part;

disclosure of Invention

The utility model aims to provide a measuring and detecting device for on-site evaluation of insurance business, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the measuring and detecting equipment for the safety service field assessment comprises a detector and telescopic boxes, wherein two groups of telescopic boxes are respectively embedded and installed on two sides of the detector, an electric push rod is embedded and installed in the telescopic boxes, a piston rod is installed at the output end of the electric push rod, a universal ball is installed on the front face of the piston rod, a limiting frame is installed on the outer side of the universal ball, and an extrusion positioning block is installed on the front face of the limiting frame;

an adjusting illuminating lamp is embedded and installed at the top of the detector;

the coiling box is installed to the below of detector, rotatory circle is installed at coiling box's top.

Preferably, the front of detector is installed the image acquisition ware, and the camera lens is installed in the front of image acquisition ware, and the mounting groove has been seted up at the top of detector, and the mounting groove is located the outside of adjusting the light, and control panel is installed to the back of detector, and display screen is installed in control panel's back embedding, and a plurality of groups of control button are installed in the back embedding of detector.

Preferably, the fixed box is installed to top and bottom of flexible box, and the inside embedding of fixed box is installed and is adjusted the pole, adjusts the inboard of pole and installs the telescopic link, and the fixed plate is installed in the left side of telescopic link, and four sets of locating bolt are installed in the right side embedding of fixed plate, and the integrated slot has been seted up in the front of flexible box, and auxiliary handle is installed on the right side of flexible box.

Preferably, the mounting plate is installed on the positive outside of electric putter, and the mounting plate is located the inboard of integrated slot, and electric putter's back-mounted has driving motor, and the flexible glue board is installed on the positive of extrusion locating piece.

Preferably, the fixing plate is positioned in the notch formed in the two sides of the detector, and when the telescopic boxes on the two sides are pulled out, the inner side surfaces of the telescopic boxes are in a flush state with the surfaces on the two sides of the detector, and the whole adjusting rod is positioned in the fixing box;

the electric putter is under shrink closed state, and the inside at the integrated slot is installed in the limit frame with the embedding, adjusts the extrusion locating piece of slope and will contact the outside of flexible box under the state of electric putter shrink, adjusts and flushes to utilize auxiliary handle to accomodate flexible box.

Preferably, the battery is installed to the bottom of regulation light, and the inner regulation support is installed to the both sides of battery, and outer regulation support is installed to the both sides of inner regulation support, and the locating shaft is installed in the inboard embedding of inner regulation support and outer regulation support, and the stop collar is installed to the both sides of outer regulation support, and the stop collar is located the inboard at detector top, and a plurality of groups lamps and lanterns are installed in the front of regulation light, and diffusion panel is installed at the top of regulation light.

Preferably, the locating plate is installed through the metal pole at the inboard top of receipts line box, and the locating plate is located the bottom of detector, and a plurality of groups of mounting bolts are installed at the top of locating plate, and a plurality of groups of gomphosis piece is installed at the top of locating plate, and the wiring mouth has been seted up to the inboard of locating plate, and the frame is dismantled to two sets of dismantlement frames of bottom movable mounting of locating plate, and the internally mounted of receipts line box has the spooler, and the transmission line is installed in the outside of spooler, and endoscope sensor is installed on the right side of transmission line, and the spring leaf swivel mount is installed on the front of receipts line box inside.

Preferably, the through hole has been seted up to the inboard of rotatory circle, and a plurality of groups of folding support are installed in the right side embedding of rotatory circle, and the gomphosis bearing is installed to the inboard of folding support, and two sets of rotatory spacing are installed to the inboard of gomphosis bearing, and the rotation axis is installed to the inside embedding of rotatory spacing, and middle part connecting piece is installed in the outside of rotation axis, and the middle part connecting piece is located the inboard of rotatory spacing, and the outside cover of rotatory spacing has the outer tube, and spacing buckle is installed on the right side of folding support.

Preferably, the working steps of the measurement and detection device are as follows:

s1, firstly, rotating and adjusting an outer adjusting support at the top of a detector along a limiting sleeve structure, then adjusting an angle of an inner adjusting support through a positioning shaft, and simultaneously adjusting an angle of a battery structure at the inner side to switch a lamp and a diffusion panel at the top to irradiate damaged parts of an automobile paint;

s2, pulling out the telescopic box, adjusting each group of electric push rods by using the control panel, and transmitting the extruded positioning blocks which push the true and the true to contact with the automobile body structure, wherein after the extruded positioning blocks contact, the device can be detected by using the detector through the image collector;

s3, an endoscope sensor is embedded and installed on the right side of the bottom wire collecting box, a transmission line inside the wire collecting box is pulled to extend, and when the wire collecting box is pulled, the inner wire collecting device synchronously rotates to detect along the detection range of the endoscope sensor, and then the wire collecting device is placed in a narrow area of an automobile to detect through the endoscope sensor;

s4, finally, when the chassis is inspected, the folding bracket is required to be detached through the inner side of the detachable outer frame, the folding bracket is detached to be aligned for splicing, and then the endoscope sensor is fixed and then the inner side of the limiting buckle is used for detecting the chassis.

Preferably, in the step S2, the method further includes the following steps:

s21, when the extrusion positioning block is adjusted, the auxiliary handle is manually grasped, the internal telescopic rod is pulled out along the inner side of the adjusting rod, so that the telescopic box is separated from the limit of the detector, the internal electric push rod is electrified to drive the piston rod of the output end to extend, the front extrusion positioning block and the flexible glue plate are driven to contact the vehicle surface through transmission, and the limiting frame is controlled to be adjusted along the universal ball under the condition of different angles of the vehicle surface after the front extrusion positioning block and the flexible glue plate are contacted, so that the detector can stably maintain the distance to acquire the picture;

in the step S4, the method further includes the following steps:

s41, when the folding support is assembled, the two groups of outer frames are disassembled, the support structure folded on the inner side is taken out, the folding supports are adjusted to be in a rod structure state through the rotating shaft, and then the two groups of folding supports can be assembled through the outer sleeve on the outer side in a sliding manner.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, when the device is used, the fixing plate structure is combined and fixed with the inner side of the main body device through the positioning bolts, the fixing plate can be used for providing a mounting position for the structure on the right side, the three groups of telescopic rods which are welded and mounted on the right side can be matched with the adjusting rods which are combined and mounted on the outer side to carry out abduction adjustment, the device can be normally stored and unfolded, the fixing box which is welded on the outer side is used for providing a mounting position for the adjusting rods in the inner side, meanwhile, the middle part of the fixing box is adhered and fixed, the right side of the telescopic box is provided with the auxiliary handle, so that the fixing block can be conveniently gripped and adjusted by a worker, the front electric push rod is mounted in the combined groove in an embedded and mounted mode, thereby the stability is improved, the electric push rod can provide power support for the device through the driving motor which is mounted on the back side in a combined mode, the piston rod of the output end can be driven to carry out telescopic adjustment, the universal ball which is driven to carry out one point, and the limiting frame which is combined and mounted on the outer side of the universal ball can carry out angle adjustment to a point degree along the universal ball when the front soft rubber plate contacts the vehicle surface, so that the pressing and the maximum contact surface can contact the vehicle body, and the shaking effect can be avoided.

2. According to the utility model, when the device is used, the positioning plate is firstly arranged at the bottom of the main body structure through the mounting bolt structure, the stability of the bottom structure is ensured, the sleeve structure is welded and arranged at the bottom for welding and assembling with the bottom wire collecting box, the outer-side-mounted dismounting frame can take out the inner folding bracket in a dismounting mode for assembling, the bottom wire collecting box can provide mounting limitation for the inner wire collecting device and can provide rotating capacity for the inner wire collecting device, the wire collecting device can release and store the externally-wound transmission wire through rotating, meanwhile, the knob structure is arranged at the bottom, so that workers can conveniently store the transmission wire, meanwhile, the spring piece rotating frame is arranged at the front side of the inner part, the spring piece rotating frame structure is extruded through the spring piece, and the transmission wire is extruded through the rotating frame, so that the transmission wire can be automatically and automatically slipped off when being wound, the specific narrow space of a vehicle can be detected and collected, and the problem that the transmission wire cannot be easily stored and damaged when the existing device is not used is effectively solved.

3. According to the utility model, the folding bracket is arranged, when the device is used, the rotating ring is sleeved on the outer side of the sleeve structure at the top of the winding box, the folding bracket on the right side can be rotated and regulated along the sleeve structure, so that the folding effect is realized, two groups of embedded shafts are assembled between the folding, the embedded bearings can provide rotation and angle regulation capability for the internal rotation limiting frame, meanwhile, the inner side of the rotation limiting frame is connected and mounted through the middle connecting piece, the rotating shaft is adopted between the structures for providing rotation regulation capability, the folding bracket can be wound on the outer side of the sleeve structure through rotation regulation, the folding bracket adopts a plurality of groups for assembly, the outer sleeve structure on the outer side can be moved after the two groups of folding brackets are flush, the positions of the two groups of folding brackets are limited, the situation of bending is avoided, the whole folding bracket presents a single rod-shaped structure, the sensor can be used for detection through fixing the endoscope sensor, the sensor structure can be fixed, the folding bracket can be directly stretched into the lower part, the sensor can always be used for observing the structure, and the chassis can be used for observing the condition of the chassis, and the chassis is convenient for a user to observe the condition.

4. According to the utility model, the conventional device is provided with the adjusting illumination lamp, when the conventional device is used, the illumination structure cannot be adjusted generally, the illumination structure can be influenced by external light when the vehicle surface with different paint surfaces is observed, if the angle of the illumination structure cannot be adjusted, the effect of image acquisition can be directly influenced, the outer adjusting support is assembled with the top of the main body structure by utilizing the limiting sleeve, then the outer adjusting support and the inner adjusting support are assembled by utilizing the positioning shaft structure, the fixed effect can be realized, the angle adjustment can be realized along the positioning shaft, the battery arranged on the inner side can provide power support for the overall device, the adjusting illumination lamp on the top can emit illumination light through the front lamp structure, meanwhile, the illumination light can also emit illumination light through the inside of the diffusion panel on the top, but the illumination light can generate different effects, and the problem that the conventional device cannot adjust the angle of the light according to different conditions, so that the image acquisition effect is poor can be effectively solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a control panel according to the present utility model;

FIG. 3 is a schematic view of the telescopic case of the present utility model;

FIG. 4 is a schematic view of an extrusion positioning block according to the present utility model;

FIG. 5 is a schematic view of the structure of the adjusting illumination lamp of the present utility model;

FIG. 6 is a schematic view of a wire rewinding box according to the present utility model;

FIG. 7 is a schematic view of a folding stand according to the present utility model;

fig. 8 is a flow chart of the operation of the present utility model.

In the figure: 1. a detector; 101. an image collector; 102. a lens; 103. a mounting groove; 104. a control panel; 105. a display screen; 106. a control button; 2. a telescopic box; 201. a fixing plate; 202. positioning bolts; 203. a telescopic rod; 204. an adjusting rod; 205. a fixed box; 206. a combination groove; 207. an auxiliary handle; 3. extruding the positioning block; 301. a mounting plate; 302. an electric push rod; 303. a driving motor; 304. a piston rod; 305. a universal ball; 306. a limit frame; 307. a soft rubber plate; 4. adjusting an illuminating lamp; 401. a limit sleeve; 402. an outer adjustment bracket; 403. positioning a shaft; 404. an inner adjustment bracket; 405. a battery; 406. a lamp; 407. a diffusion panel; 5. a wire collecting box; 501. a positioning plate; 502. installing a bolt; 503. a fitting block; 504. a wiring port; 505. disassembling the outer frame; 506. a wire winding device; 507. a transmission line; 508. a spring piece rotating frame; 509. an endoscope sensor; 6. folding the bracket; 601. a rotating ring; 602. a through hole; 603. a chimeric bearing; 604. rotating the limiting frame; 605. a rotation shaft; 606. a middle connecting piece; 607. an outer sleeve; 608. limiting buckle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1, 2, 3, 4 and 8, an embodiment of the present utility model is provided: the measuring and detecting equipment for the on-site evaluation of insurance business comprises a detector 1, wherein an image collector 101 is arranged on the front surface of the detector 1, a lens 102 is arranged on the front surface of the image collector 101, a mounting groove 103 is formed in the top of the detector 1, the mounting groove 103 is positioned on the outer side of an adjusting illuminating lamp 4, a control panel 104 is arranged on the back surface of the detector 1, a display screen 105 is embedded in the back surface of the control panel 104, a plurality of groups of control buttons 106 are embedded in the back surface of the detector 1, the detector 1 is a main structure of the device and is used for providing mounting positions for structures on the inner side and the outer side, the stability of the device is improved, the structure of the image collector 101 and the lens 102 on the front surface can be used for realizing the effect of picture collection, the collected pictures can be analyzed on the display screen 105 on the back surface, the effect of the evaluation can be realized through the damage of depth and the paint surface, the control button 106 on the control panel 104 on the back can directly control the device, the device is convenient for staff to use, two groups of telescopic boxes 2 are respectively embedded and installed on two sides of the detector 1, a fixed box 205 is installed at the top and the bottom of the telescopic boxes 2, an adjusting rod 204 is embedded and installed in the fixed box 205, a telescopic rod 203 is installed on the inner side of the adjusting rod 204, a fixed plate 201 is installed on the left side of the telescopic rod 203, four groups of positioning bolts 202 are embedded and installed on the right side of the fixed plate 201, a combination groove 206 is formed in the front of the telescopic boxes 2, an auxiliary handle 207 is installed on the right side of the telescopic boxes 2, the fixed plate 201 is positioned in the notch formed on two sides of the detector 1, simultaneously when the telescopic boxes 2 on two sides are pulled out, the inner side of the telescopic boxes 2 is in a flush state with the surfaces on two sides of the detector 1, and meanwhile the whole adjusting rod 204 is positioned in the fixed box 205 completely, an electric push rod 302 is embedded and installed in the telescopic box 2, a piston rod 304 is installed at the output end of the electric push rod 302, a universal ball 305 is installed on the front face of the piston rod 304, a limit frame 306 is installed on the outer side of the universal ball 305, an extrusion locating block 3 is installed on the front face of the limit frame 306, a mounting plate 301 is installed on the outer side of the front face of the electric push rod 302, the mounting plate 301 is located on the inner side of the combination groove 206, a driving motor 303 is installed on the back face of the electric push rod 302, a flexible rubber plate 307 is installed on the front face of the extrusion locating block 3, the limit frame 306 is embedded and installed in the combination groove 206 in a contracted and closed state, the inclined extrusion locating block 3 is regulated to be flush with the outer side of the telescopic box 2 in a contracted state of the electric push rod 302, so that the telescopic box 2 is stored by using an auxiliary handle 207, firstly, a fixing plate 201 structure is combined and fixed with the inner side of a main device through a locating bolt 202, the fixing plate 201 can be used for providing a mounting position for a right side structure, three groups of telescopic rods 203 welded and mounted on the right side can be matched with an adjusting rod 204 assembled and mounted on the outer side to carry out abduction adjustment, the device can be normally stored and unfolded, a fixing box 205 welded and mounted on the outer side is used for providing a mounting position for the adjusting rod 204 inside, meanwhile, the middle part of the fixing box 2 is bonded and fixed, an auxiliary handle 207 is mounted on the right side of the telescopic box 2, the fixing plate is convenient for a worker to grasp and adjust, a front electric push rod 302 is mounted in the combined groove 206 in an embedded mounting mode, so that stability is improved, the electric push rod 302 can provide power support for the device through a driving motor 303 assembled and mounted on the back, a piston rod 304 at an output end can be driven to carry out telescopic adjustment through electrifying, and the transmission will drive a universal ball 305 welded and mounted on the front side to carry out a bit, when the front soft rubber plate 307 contacts the vehicle surface, the limiting frame 306 assembled and installed on the outer side of the universal ball 305 can conduct angle adjustment to a certain degree along the universal ball 305, so that the extrusion positioning block 3 can contact the vehicle body through the maximum contact surface, the contact stability is improved, and the problem that the shaking influences the image acquisition effect is avoided.

Referring to fig. 5 and 8, an embodiment of the present utility model is provided: the utility model provides a measurement check out test set that insurance business field evaluation used, includes detector 1, the top embedding of detector 1 is installed and is adjusted light 4, battery 405 is installed to the bottom of adjusting light 4, interior regulation support 404 is installed to the both sides of battery 405, outer regulation support 402 is installed to the both sides of interior regulation support 404 and the inboard embedding of outer regulation support 402 are installed location axle 403, the stop collar 401 is installed to the both sides of outer regulation support 402, and the stop collar 401 is located the inboard at detector 1 top, a plurality of groups lamps and lanterns 406 are installed to the front of adjusting light 4, diffusion panel 407 is installed at the top of adjusting light 4, utilize stop collar 401 and major structure's top to assemble outer regulation support 402 through location axle 403 structure, the installation can be fixed effect with outer regulation support 402 and interior regulation support 404, and can be along location axle 403 to carry out the angle adjustment, the battery 405 of inboard installation can provide electric power support for whole device, the illumination light can be sent out through the lamps and lanterns 406 structure of front, and lanterns 407 inside through top, and the diffusion panel 407 of top can also send out illumination panel 407, but can not produce the different effect to the different light of the device according to the different position that can not cause the difference of the traditional light to adjust the effect, can not be the effect of the light to the picture is adjusted.

Referring to fig. 6, 7 and 8, an embodiment of the present utility model provides: the utility model provides a measurement and detection equipment for insurance business field evaluation, including detector 1, take-up box 5 is installed to the below of detector 1, take-up box 5 installs locating plate 501 through the metal pole at the top of inboard, and locating plate 501 is located the bottom of detector 1, a plurality of sets of mounting bolts 502 are installed at the top of locating plate 501, a plurality of sets of gomphosis piece 503 are installed at the top of locating plate 501, wiring mouth 504 has been seted up to the inboard of locating plate 501, two sets of dismantlement frames 505 of movable mounting in the bottom of locating plate 501, take-up unit 506 is installed to take-up box 5's internally mounted, transmission line 507 is installed in take-up unit 506's outside, endoscope sensor 509 is installed on transmission line 507's right side, spring leaf swivel mount 508 is installed in take-up box 5 inside front, at first install locating plate 501 at the bottom of major structure through mounting bolt 502 structure, guarantee bottom structure's stability, the bottom is welded and installed with a sleeve structure for welding and assembling with the bottom wire receiving box 5, the outer side-installed dismounting outer frame 505 can take out the inner folding bracket 6 for assembling in a dismounting way, the bottom wire receiving box 5 can provide installation limit for the inner wire receiving device 506 and can provide rotation capacity for the inner wire receiving device, the wire receiving device 506 can release and store the outer side-wound transmission wire 507 through rotation, meanwhile, the bottom is installed with a knob structure which can facilitate workers to store the transmission wire 507, meanwhile, the inner front side is provided with a spring piece rotating frame 508, the spring piece is used for extruding the rotating frame structure, the transmission wire 507 is extruded by the rotating frame, so that the transmission wire 507 can automatically realize slipping off when being wound, the endoscope sensor 509 on the right side of the drawing can detect and collect pictures in a specific narrow space of a vehicle, the problem that the transmission line 507 cannot be stored when the existing device is not used is effectively solved by utilizing the winding box 5, so that winding and damage are easy to occur, a rotating ring 601 is arranged at the top of the winding box 5, through holes 602 are formed in the inner side of the rotating ring 601, a plurality of groups of folding brackets 6 are embedded and mounted on the right side of the rotating ring 601, embedded bearings 603 are mounted on the inner sides of the folding brackets 6, two groups of rotating limiting brackets 604 are mounted on the inner sides of the embedded bearings 603, a rotating shaft 605 is mounted in the inner sides of the rotating limiting brackets 604, a middle connecting piece 606 is mounted on the outer sides of the rotating shafts 605, the middle connecting piece 606 is positioned on the inner sides of the rotating limiting brackets 604, an outer sleeve 607 is sleeved on the outer sides of the rotating limiting brackets 604, limiting buckles 608 are mounted on the right sides of the folding brackets 6, the rotating ring 601 is sleeved on the outer sides of the sleeve structure of the top of the winding box 5, the right side of the folding brackets 6 can be rotatably adjusted along the sleeve structure, accordingly, two groups of embedded bearings 603 are mounted on the inner sides of the folding brackets 6, two groups of embedded bearings 603 can provide a rotating limiting angle adjusting capability for the rotating limiting brackets 604 and angle adjusting brackets 604, the rotating angle adjusting capability of the rotating brackets 604 can be improved, and the rotating brackets 6 can be adjusted by adopting the rotating brackets 6 to take up the whole structure to be adjusted by adopting the folding structure, and the combined structure can be reduced, and the outer sleeve 6 can be made to be in a single situation, and the situation can be prevented by adopting a single adjusting structure, and the folding structure can be combined to be made to be adjusted by adopting a single sleeve structure and a folding structure and a single adjusting structure. The endoscope sensor 509 is fixed, so that the sensor can be used for detection, the sensor structure can be fixed through the folding bracket 6, the folding bracket 6 can be directly stretched into the lower part of the chassis for observation, the sensor structure can always ensure the state of the vertical chassis, and the device is convenient for staff to use.

The working steps of the measuring and detecting device are as follows:

s1, firstly, an outer adjusting bracket 402 at the top of a detector 1 is rotationally adjusted along a limit sleeve 401 structure, then an inner adjusting bracket 404 is angularly adjusted through a positioning shaft 403, and meanwhile, the angle of a battery 405 structure at the inner side is adjusted to switch a lamp 406 and a diffusion panel 407 at the top to irradiate damaged parts of an automobile paint;

s2, pulling out the telescopic box 2, adjusting each group of electric push rods 302 by using the control panel 104, and transmitting the extruded positioning blocks 3 which push the true position to be contacted with the automobile body structure, wherein after the extruded positioning blocks are contacted, the device can be detected by using the detector 1 through the image collector 101;

s3, the endoscope sensor 509 is embedded and installed on the right side of the bottom wire collecting box 5, the transmission wire 507 in the pulling is transmitted to be stretched, and when the pulling is performed, the inner wire collecting device 506 synchronously rotates to be along the detection range of the endoscope sensor 509, and then the endoscope sensor 509 is placed into a narrow area of an automobile to be detected;

and S4, finally, when the chassis is inspected, the folding bracket 6 needs to be detached through the inner side of the detachable outer frame 505, the folding bracket is detached to be aligned for splicing, and then the endoscope sensor 509 is fixed and then the inner side of the limiting buckle 608 is used for detecting the chassis.

In the step S2, the method further includes the following steps:

s21, when the extrusion positioning block 3 is adjusted, the auxiliary handle 207 is manually gripped, the internal telescopic rod 203 is pulled out along the inner side of the adjusting rod 204, so that the telescopic box 2 is separated from the limit of the detector 1, the internal electric push rod 302 is electrified to drive the piston rod 304 at the output end to stretch, the front extrusion positioning block 3 and the flexible glue plate 307 are driven to contact the vehicle surface by transmission, and the limiting frame 306 is controlled to be adjusted along the universal ball 305 under the condition of different angles of the vehicle surface after contact, so that the detector 1 can stably keep the distance for collecting the images;

in the step S4, the method further includes the following steps:

s41, when the folding bracket 6 is assembled, the two groups of outer frames 505 are disassembled, the bracket structure folded on the inner side is taken out, the folding bracket 6 is adjusted to be in a rod structure state through the rotary shaft 605, and then the two groups of folding brackets 6 can be assembled through sliding the outer sleeve 607 on the outer side.

Working principle: firstly, the outer adjusting bracket 402 at the top of the detector 1 is rotationally adjusted along the structure of the limit sleeve 401, then the angle of the inner adjusting bracket 404 is adjusted through the positioning shaft 403, meanwhile, the angle of the inner battery 405 structure is adjusted, the lamp 406 and the diffusing panel 407 at the top are switched to irradiate the damaged part of the automobile paint surface, then the telescopic box 2 is pulled out, the control panel 104 is utilized to adjust each group of electric push rods 302, the extrusion positioning block 3 which pushes the true bottom is in contact with the automobile body structure, the detector 1 can be utilized to detect the device through the image collector 101 after the contact, the inner transmitting wire 507 is pulled through pulling the right side of the bottom wire collecting box 5, the inner wire collecting device 506 is synchronously rotated to detect the range along the inner wire collecting device 509, the inner wire collecting device 509 is placed into the narrow region of the automobile for detection through the inner wire collecting device 509, finally, the inner side of the folding bracket 6 is required to be disassembled through disassembly and alignment for splicing when the chassis inspection is carried out, and then the inner wire collecting device 509 is fixed and then the chassis 608 is required to be detected.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (2)

1. The utility model provides a measurement check out test set that insurance business field evaluation used, includes detector (1) and flexible box (2) its characterized in that: two groups of telescopic boxes (2) are respectively embedded and installed on two sides of the detector (1), an electric push rod (302) is embedded and installed in the telescopic boxes (2), a piston rod (304) is installed at the output end of the electric push rod (302), a universal ball (305) is installed on the front face of the piston rod (304), a limiting frame (306) is installed on the outer side of the universal ball (305), and an extrusion positioning block (3) is installed on the front face of the limiting frame (306);

an adjusting illuminating lamp (4) is embedded and installed at the top of the detector (1);

a wire collecting box (5) is arranged below the detector (1), and a rotating ring (601) is arranged at the top of the wire collecting box (5);

the front of the detector (1) is provided with an image collector (101), the front of the image collector (101) is provided with a lens (102), the top of the detector (1) is provided with a mounting groove (103), the mounting groove (103) is positioned at the outer side of the adjusting illuminating lamp (4), the back of the detector (1) is provided with a control panel (104), the back of the control panel (104) is embedded with a display screen (105), and the back of the detector (1) is embedded with a plurality of groups of control buttons (106);

the top and the bottom of the telescopic box (2) are provided with a fixed box (205), the inside of the fixed box (205) is embedded with an adjusting rod (204), the inner side of the adjusting rod (204) is provided with a telescopic rod (203), the left side of the telescopic rod (203) is provided with a fixed plate (201), the right side of the fixed plate (201) is embedded with four groups of positioning bolts (202), the front of the telescopic box (2) is provided with a combination groove (206), and the right side of the telescopic box (2) is provided with an auxiliary handle (207);

the mounting disc (301) is mounted on the outer side of the front face of the electric push rod (302), the mounting disc (301) is located on the inner side of the combination groove (206), the driving motor (303) is mounted on the back face of the electric push rod (302), and the soft rubber plate (307) is mounted on the front face of the extrusion positioning block (3);

the fixing plate (201) is positioned in the notch formed in the two sides of the detector (1), when the telescopic boxes (2) on the two sides are pulled out, the inner side surfaces of the telescopic boxes (2) are in a flush state with the surfaces on the two sides of the detector (1), and the whole adjusting rod (204) is positioned in the fixing box (205);

the electric push rod (302) is in a contracted and closed state, the limiting frame (306) is embedded and installed in the combined groove (206), the inclined extrusion positioning block (3) is adjusted to be in contact with the outer side of the telescopic box (2) in a contracted state of the electric push rod (302), and the telescopic box (2) is adjusted and leveled, so that the telescopic box (2) is stored by the aid of the auxiliary handle (207);

the bottom of the adjusting illuminating lamp (4) is provided with a battery (405), two sides of the battery (405) are provided with an inner adjusting bracket (404), two sides of the inner adjusting bracket (404) are provided with an outer adjusting bracket (402), the inner sides of the inner adjusting bracket (404) and the outer adjusting bracket (402) are embedded and provided with a positioning shaft (403), two sides of the outer adjusting bracket (402) are provided with a limiting sleeve (401), the limiting sleeve (401) is positioned on the inner side of the top of the detector (1), the front of the adjusting illuminating lamp (4) is provided with a plurality of groups of lamps (406), and the top of the adjusting illuminating lamp (4) is provided with a diffusion panel (407);

the wire collecting box is characterized in that a locating plate (501) is arranged at the top of the inner side of the wire collecting box (5) through a metal rod, the locating plate (501) is located at the bottom of the detector (1), a plurality of groups of mounting bolts (502) are arranged at the top of the locating plate (501), a plurality of groups of embedded blocks (503) are arranged at the top of the locating plate (501), a wiring port (504) is formed in the inner side of the locating plate (501), two groups of dismounting outer frames (505) are movably arranged at the bottom of the locating plate (501), a wire collecting device (506) is arranged in the wire collecting box (5), a transmission line (507) is arranged at the outer side of the wire collecting device (506), an endoscope sensor (509) is arranged at the right side of the transmission line (507), and a spring piece rotating frame (508) is arranged on the front side of the inner side of the wire collecting box (5);

through holes (602) are formed in the inner side of the rotary ring (601), a plurality of groups of folding brackets (6) are embedded in the right side of the rotary ring (601), a chimeric bearing (603) is arranged in the inner side of the folding brackets (6), two groups of rotary limiting frames (604) are arranged in the inner side of the chimeric bearing (603), a rotary shaft (605) is arranged in the inner side of the rotary limiting frames (604), a middle connecting piece (606) is arranged in the outer side of the rotary shaft (605), the middle connecting piece (606) is located in the inner side of the rotary limiting frames (604), an outer sleeve (607) is sleeved in the outer side of the rotary limiting frames (604), and limiting buckles (608) are arranged on the right side of the folding brackets (6).

2. The method of using a measurement and detection device for on-site assessment of insurance business according to claim 1, wherein the working steps of the measurement and detection device are as follows:

s1, firstly, an outer adjusting support (402) at the top of a detector (1) is rotationally adjusted along a limit sleeve (401) structure, then an inner adjusting support (404) is angularly adjusted through a positioning shaft (403), and meanwhile, the angle of a battery (405) structure at the inner side is adjusted, so that a lamp (406) and a diffusion panel (407) at the top are switched to irradiate damaged parts of an automobile paint surface;

s2, pulling out the telescopic box (2), adjusting each group of electric push rods (302) by using the control panel (104), and conveying to push the extrusion positioning blocks (3) on the front to be in contact with the automobile body structure, wherein after the extrusion positioning blocks are in contact, the device can be detected by using the detector (1) through the image collector (101);

s3, an endoscope sensor (509) is embedded and installed on the right side of the bottom wire collecting box (5) in a pulling mode, a transmission wire (507) in the pulling mode is transmitted to stretch, and when the wire is pulled, the inner wire collecting device (506) rotates synchronously to detect along the detection range of the endoscope sensor (509), and then the wire is placed in a narrow area of an automobile through the endoscope sensor (509) to detect;

s4, when the chassis is inspected finally, the folding bracket (6) is detached through the inner side of the detachable outer frame (505), the folding bracket is detached, aligned and spliced, and then the endoscope sensor (509) is fixed on the inner side of the limiting buckle (608) to detect the chassis;

in the step S2, the method further includes the following steps:

s21, when the extrusion positioning block (3) is adjusted, the inner telescopic rod (203) is pulled out along the inner side of the adjusting rod (204) through manual grasping of the auxiliary handle (207), so that the telescopic box (2) is separated from the limit of the detector (1), the inner electric push rod (302) is electrified to drive the piston rod (304) of the output end to extend, the transmission is used for driving the extrusion positioning block (3) and the flexible glue plate (307) on the front to contact the vehicle surface, and the limiting frame (306) is controlled to be adjusted along the universal ball (305) under the condition of different angles of the vehicle surface after the contact, so that the detector (1) can stably keep the distance for acquiring the images;

in the step S4, the method further includes the following steps:

s41, when the folding support (6) is assembled, the two groups of outer frames (505) are disassembled, the support structure folded on the inner side is taken out, the folding support (6) is adjusted to be in a rod structure state through the rotating shaft (605), and then the two groups of folding supports (6) can be assembled through the outer sleeve (607) on the outer side in a sliding mode.