CN117288789A - Portable fast moving vehicle hazardous articles X-ray detection equipment - Google Patents

Abstract

The invention discloses portable rapid moving vehicle dangerous goods X-ray detection equipment, which comprises: the device comprises a ray fixing frame, a ray generating device, a linear array fixing frame and a ray receiving device; the ray fixing frame is installed and fixed on the ground, the ray generating device is installed and arranged on the ray fixing frame, the linear array fixing frame is installed and arranged on the ground, the ray receiving device is installed and arranged on the ray fixing frame, the ray generating device and the ray receiving device are arranged in the same straight line and correspond to each other, a space for a vehicle to pass through is reserved in the middle of the ray fixing frame, the ray generating device and the ray receiving device are respectively arranged on two sides of the detected vehicle, during working, equipment is opened, the vehicle moves fast, and detection of dangerous goods of the vehicle is completed. The invention solves various defects of the prior art during the traditional manual detection and the fixed large detection equipment detection, overcomes various limitations of the prior art, has the advantages of card setting at any time, detection at any time, rapidness and flexibility, and has low cost, high detection efficiency and good applicability, thereby being suitable for wide popularization.

Description

Portable fast moving vehicle hazardous articles X-ray detection equipment

Technical Field

The invention relates to the field of security inspection equipment, in particular to portable X-ray detection equipment for dangerous goods of a fast moving vehicle.

Background

With the current popularity of motor vehicles, the amount of vehicle maintenance is increasing, as well as the availability of vehicles to some illegal personnel. Along with the increase of national striking force, dangerous goods detection work on a mobile vehicle becomes heavy, the existing mainstream detection technology on dangerous goods of the vehicle still is a parking mode, people enter the vehicle for checking, and the mode has the defects in practical application, so that a large amount of manpower is consumed, the detection speed is low, and places which cannot be observed by people cannot be checked. The other checkpoints can be provided with large-sized vehicle detection equipment, the ray generating device and the ray receiving device of the large-sized detection equipment are generally fixed on the embedded part, once the radiation generating device and the ray receiving device are installed and fixed, the radiation generating device and the radiation receiving device are not movable, the profile is huge, the required installation space is high, the additional control part of the system also needs to occupy space, the whole occupation space is very large, the limitation is very large, the application range is very small, and after the vehicle is required to be driven into a large-sized detection room for parking, the synchronous movement of the large-sized detection equipment carries out scanning transillumination detection on the vehicle, the large-sized detection equipment occupies large area, the equipment is complex, the cost is high, the radiation generating device can only be used in the installation place, the limitation is very large, the applicability is poor, and the defects of low detection speed, low detection efficiency and the like are overcome. The current detection technology cannot meet the use requirements of card setting at any time and checking at any time, is rapid and flexible, and aims at various problems encountered at present, a set of detection equipment which is convenient to move and is rapidly installed is urgently needed to meet market demands.

Disclosure of Invention

Aiming at the defects in the technology, the patent provides portable rapid moving vehicle dangerous goods X-ray detection equipment which adopts rapid paving equipment to carry out security check on moving vehicles, and has high efficiency, convenient and simple use and high reliability.

In order to achieve the purpose, the invention adopts the following technical scheme that the portable rapid moving vehicle dangerous goods X-ray detection device comprises: the device comprises a ray fixing frame, a ray generating device, a linear array fixing frame and a ray receiving device; the ray fixing frame is installed and fixed on the ground, the ray generating device is installed and arranged on the ray fixing frame, the linear array fixing frame is installed and arranged on the ground, the ray receiving device is installed and arranged on the linear array fixing frame, the ray generating device and the ray receiving device are arranged in the same straight line and correspond to each other, a space for passing vehicles is reserved in the middle of the ray generating device and the ray receiving device, and the ray generating device and the ray receiving device are respectively arranged on two sides of a detected vehicle.

The portable rapid moving vehicle dangerous goods X-ray detection device adopts a portable and rapid disassembly structure, and is rapidly installed and disassembled on a detection site.

The rays emitted by the ray generating device are fanned towards the direction corresponding to the ray receiving device.

The control box of the ray generating device is arranged at the bottom of the ray fixing frame, the control box of the ray receiving device is arranged at the bottom of the linear array fixing frame, an electric control unit for controlling the ray receiving device and the ray generating device and a wireless Wi-Fi receiving and transmitting device are arranged in the control box, a local area network connection is automatically completed when a power supply is connected, the ray generating device and the ray receiving device are positioned in the same local area network, a control computer is opened at a far end, and the opening and closing of the ray generating device and the working and closing of the ray receiving device can be controlled on the control computer.

Specifically, the mechanical structure scanning mode is a side scanning mode, the ray generating device is arranged on the ray fixing frame and is arranged on the left ground, the ray receiving device is hung on the linear array fixing frame and is vertically arranged on the right ground, a rocker on the linear array fixing frame is rotated, the height of the linear array fixing frame is adjusted, the hanging position of the ray receiving device is adjusted and fixed, the ray generating device and the ray receiving device form a position corresponding to the left-low right-high position, the beam output of the ray generating device is in a horizontal direction from left to right and is projected at a certain inclination angle, the ray receiving device is arranged on the horizontal right side to receive rays, the upper end of the ray receiving device forms a turning shape, and the ray transmitting angle and the ray receiving surface form a fan shape.

The linear array fixing frame is made of aluminum alloy section materials, is connected with the ray receiving device in a sectional connection assembly mode, two sections of adjacent ports of the ray receiving device are inserted into two sides of a pull pin fixing plate, a spring pull pin on the pull pin fixing plate is connected with a hook ring, a rotary spring bolt screwing-out probe further fixes two sections of devices to improve stability, the upper end of the linear array fixing frame adopts a turning structure, a turning connecting piece is used for connecting the side face of the linear array fixing frame to scan the highest two sections of ray receiving devices, the ports of the two sections of ray receiving devices are inserted into two square grooves of the turning connecting piece, meanwhile, the spring pull pin on the pull pin fixing plate is fastened in a buckling mode, the rotary spring bolt screwing-out probe further fixes the two sections of ray receiving devices to improve stability, a supporting connecting seat is fixedly arranged at the head of the linear array fixing frame, and a supporting connecting seat fixed on the side face of the turning connecting piece is arranged in the groove of the supporting clamping piece, so that the ray receiving device and the linear array fixing frame are effectively connected.

The mechanical structure scanning mode is a top scanning mode, the ray generating device is arranged on the ray fixing frame and arranged at the top end above the ground, rays irradiate downwards from the top end, the linear array fixing frame is tiled on the ground, the ray receiving device is arranged in the linear array fixing frame and emits rays downwards from the top end, and the ray receiving device receives the rays at the horizontal position of the ground to finish scanning passing vehicles.

The ray fixing frame adopts a split rapid connection structure and comprises a supporting beam and a hand-operated lifting frame, wherein the supporting beam is used for connecting and fixing a ray generating device, the hand-operated lifting frames on two sides bear the supporting beam and fix the ray generating device, the hand-operated lifting frames are manually lifted, and the height of the ray generating device is adjusted.

The support beam comprises three sections of independent tools, the adjacent two sections of tools are quickly inserted and connected by screwing the spring bolts during assembly, round fixing pieces are arranged on two sides of the support beam after the assembly of the support beam, the support beam is lifted to place the round fixing pieces on the hand-operated lifting frames on the two sides, the fixing handles on each side are screwed, a quick fixing plate of the ray generating device is arranged in the middle of the support beam, a quick inserting and fixing tool matched with the quick fixing plate is arranged on the back of the ray generating device, the ray generating device is lifted to be high with the support beam, the quick fixing plate is connected with the quick inserting and fixing tool, and therefore the ray generating device is connected with the ray fixing frame.

The supporting beam is made of stainless steel, adopts a hollow structure, can be used for arranging cables of the ray generating device by utilizing the hollow structure, and is provided with round holes at the periphery.

The radiation receiving device is spliced and connected into a straight line and is arranged in the linear array fixing frame and fixed on the ground right below a radiation window of the radiation generating device, and speed reduction bridges with slope-shaped inclined planes are arranged on the front side and the rear side of the radiation receiving device.

The space width of the reduction axle is an adjustable structure so as to ensure that the reduction axle is applicable to various wheel space widths.

The beneficial technical effects of the invention are as follows: by adopting the technology, the defects and the defects of the prior art are well overcome, the manual operation detection is replaced by an automatic scanning mode, the portable rapid installation scanning detection equipment is used for solving various defects in the detection of the existing fixed large detection equipment, various limitations of the prior art are overcome, and the portable rapid installation scanning detection equipment has the advantages of card setting at any time, inspection at any time, rapid detection, low cost, high detection efficiency, good applicability, convenience in operation and the like, and is suitable for wide popularization.

Drawings

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

FIG. 2 is a top scan schematic of the present invention;

FIG. 3 is a schematic diagram of a connection structure of a ray receiving device according to the present invention;

FIG. 4 is a schematic diagram of a corner structure of the ray receiving device according to the present invention;

FIG. 5 is a schematic view of the structure of the support beam of the present invention;

FIG. 6 is a schematic diagram showing the connection structure of the support beam and the radiation generating device in the present invention

FIG. 7 is a schematic view of the structure of the supporting beam and the hand-operated lifting frame in the present invention

1. The device comprises a ray fixing frame, 2, a ray generating device, 3, a linear array fixing frame, 4, a ray receiving device, 11, a supporting beam, 12, a hand-operated lifting frame, 13, spring bolts, 14, a round fixing piece, 15, a fixed handle, 16, a quick fixing plate, 17, a quick-inserting fixing tool 31, a pull pin fixing plate, 32, a spring pull pin, 33, a hook ring, 34, a spring bolt, 35, a crutch type connecting piece, 36, a supporting connecting seat, 37, a supporting clamping piece, 38 and a speed reduction bridge.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

As shown, a portable rapid movement vehicle hazardous material X-ray detection apparatus, comprising: a ray fixing frame 1, a ray generating device 2, a linear array fixing frame 3 and a ray receiving device 4; the ray fixing frame 1 is fixedly arranged on the ground, the ray generating device 2 is arranged on the ray fixing frame, the linear array fixing frame 3 is arranged on the ground, the ray receiving device 4 is arranged on the linear array fixing frame, the ray generating device 2 and the ray receiving device 4 are correspondingly arranged on the same straight line, a space for passing vehicles is reserved in the middle, and the ray generating device 2 and the ray receiving device 4 are respectively arranged on two sides of a detected vehicle. The multi-dimensional detection can be carried out on the security inspection vehicle, and the detection dead angle is reduced.

Further, a portable quick travel vehicle hazardous articles X-ray detection equipment adopts portable, quick dismantlement's structure, carries out quick installation and dismantlement at the detection scene, is convenient for in any place that needs the vehicle security check, arranges the equipment and accomplishes vehicle security check operation, improves equipment convenience.

Further, the radiation emitted by the radiation generating device 2 is fanned out towards the corresponding radiation receiving device 4.

The control box of the ray generating device 2 is arranged at the bottom of the ray fixing frame 1, the control box of the ray receiving device 4 is arranged at the bottom of the linear array fixing frame 3, an electric control unit for controlling the ray receiving device and the ray generating device is arranged in the control box, a control cable is connected, and a power supply of the control box is started.

The wireless Wi-Fi receiving and transmitting device is arranged in the control box, and the local area network connection is automatically completed when the power supply is switched on, so that the ray generating device 2 and the ray receiving device 4 are positioned in the same local area network. The control computer is opened at the far end, and the radiation generating device 2 can be controlled to be opened and closed and the radiation receiving device 4 can be operated and closed on the control computer.

The ray receiving device 4 is of a split quick-release structure and is formed by connecting, splicing and connecting a plurality of independent short linear array receivers, and the plurality of linear array receivers are connected through a linear array fixing frame 3 to form the required ray receiving device 4.

Specifically, the mechanical structure scanning mode is a side scanning mode, the ray generating device 2 is installed on the ray fixing frame 1 and is arranged on the left ground, the ray receiving device 4 is hung on the linear array fixing frame 3 and is vertically arranged on the right ground, a rocker on the linear array fixing frame 3 is rotated, the height of the linear array fixing frame 3 is adjusted, the hanging position of the ray receiving device 4 is adjusted and fixed, the ray generating device 2 and the ray receiving device 4 form a position corresponding to the left-right height, the beam output of the ray generating device 2 is horizontal from left to right and is projected at a certain inclination angle, the ray receiving device 4 is arranged on the horizontal right side to receive rays, the upper end of the ray receiving device 4 forms a turning shape, and the ray emitting angle and the ray receiving surface form a fan.

As shown in fig. 3, the linear array fixing frame 3 is made of an aluminum alloy section material and is connected with the ray receiving device 4 in a sectional connection assembly mode. Two adjacent sections of ports of the ray receiving device 4 are inserted into two sides of the pull pin fixing plate 31, a spring pull pin 32 on the pull pin fixing plate 31 is connected with a hook ring 33, and a rotary spring bolt 34 is screwed out of the probe to further fix the two sections of devices, so that stability is improved.

As shown in fig. 4, the upper end of the linear array fixing frame 3 adopts a turning structure, a turning connecting piece 35 is used for connecting two sections of radiation receiving devices 4 with the highest side scanning, the ports of the two sections of radiation receiving devices 4 are inserted into two square grooves of the turning connecting piece 35, meanwhile, a spring pull pin 32 on a pull pin fixing plate 31 is fastened, a rotary spring bolt 34 is screwed out of a probe to further fix the two sections of radiation receiving devices 4 to improve stability, a supporting connecting seat 36 is fixedly arranged at the head of the linear array fixing frame 3, and the supporting connecting seat 36 fixed at the side of the turning connecting piece 35 is placed in the groove of a supporting clamping piece 37, so that the radiation receiving devices 4 are effectively connected with the linear array fixing frame 3.

In other embodiments, the mechanical structure scanning mode is a top scanning mode, the ray generator 2 is mounted on the ray holder 1, the ray generator is arranged at the top end above the ground, the ray irradiates downwards from the top end, the linear array holder 3 is tiled on the ground, the ray receiver 4 is mounted in the linear array holder 3, the ray generator 2 emits the ray downwards from the top end, and the ray receiver 4 receives in the ground horizontal position, so as to complete the scanning of the passing vehicle.

As shown in fig. 2, 5, 6 and 7, the radiation fixing frame 1 adopts a split quick connection structure, and comprises a supporting beam 11 and a hand-operated lifting frame 12. The supporting beam 11 is used for connecting the fixed ray generating device 2, the hand-operated lifting frames 12 on two sides bear the supporting beam 11 and the fixed ray generating device 2, and the height of the ray generating device 2 is adjusted by manually lifting.

The supporting beam 11 is composed of three sections of independent tools, the spring bolts 13 are screwed up to connect two adjacent sections of tools in a quick inserting mode during assembly, the spring bolts 13 are screwed down, round fixing pieces 14 are arranged on two sides of the supporting beam 11 after assembly is completed, the supporting beam 11 is lifted up to place the round fixing pieces 14 on the two sides of the hand-operated lifting frames 12, and the fixed handles 15 on each side are screwed. The middle section of the supporting beam is provided with a quick fixing plate 16 of the ray generating device 2, the back of the ray generating device 2 is provided with a quick inserting fixing tool 17 matched with the quick fixing plate 16, the ray generating device 2 is lifted to be at the same height with the supporting beam 11, and the quick fixing plate 16 is connected with the quick inserting fixing tool 17. Thereby connecting the radiation generating device 2 to the radiation fixing frame 1. After the lifting frame of the ray machine is lifted, the stability of the ray generating device 2 is ensured.

As shown in fig. 6, in which the supporting beam 11 has a hollow structure, the cable of the radiation generating device 2 can be arranged by using the hollow. Round holes are formed in the periphery of the supporting cross beam, so that the weight reduction and ventilation effects are achieved. Wherein the supporting beam 11 is made of stainless steel.

The ray receiving devices 4 are spliced and connected to form a straight line and are placed in the linear array fixing frame 3, the straight line is fixed on the ground right below a ray window of the ray generating device 2, and speed reduction bridges 38 with slope-shaped inclined planes are arranged on the front side and the rear side of the ray receiving devices 4, so that vehicles can be guaranteed to pass slowly, and the ray receiving devices 4 are prevented from being damaged.

The pitch width of the reduction axle 38 is an adjustable structure, so as to ensure that the reduction axle is applicable to various wheel-pitch widths.

While the invention has been described with reference to a preferred embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention, and in particular, the technical features set forth in the various embodiments may be combined in any manner so long as there is no structural conflict. The present invention is not limited to the specific embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.

In the description of the present invention, terms such as "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like, which indicate directions or positional relationships, are based on the directions or positional relationships shown in the drawings, are merely for convenience of description, and do not indicate or imply that the devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus are not to be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either 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 invention can be understood by those skilled in the art according to the specific circumstances.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme and the concept of the present invention, and should be covered by the scope of the present invention.

Claims (9)

1. A portable quick travel vehicle hazardous articles X-ray detection equipment, its characterized in that: comprising the following steps: the device comprises a ray fixing frame, a ray generating device, a linear array fixing frame and a ray receiving device; the ray fixing frame is installed and fixed on the ground, the ray generating device is installed and arranged on the ray fixing frame, the linear array fixing frame is installed and arranged on the ground, the ray receiving device is installed and arranged on the linear array fixing frame, the ray generating device and the ray receiving device are arranged in the same straight line and correspond to each other, a space for passing vehicles is reserved in the middle of the ray generating device and the ray receiving device, and the ray generating device and the ray receiving device are respectively arranged on two sides of a detected vehicle.

2. A portable fast moving vehicle hazardous article X-ray detection apparatus according to claim 1, wherein: adopt portable, quick dismantlement's structure, carry out quick installation and dismantlement at the detection scene.

3. A portable fast moving vehicle hazardous article X-ray detection apparatus according to claim 1, wherein: the control box of the ray generating device is arranged at the bottom of the ray fixing frame, the control box of the ray receiving device is arranged at the bottom of the linear array fixing frame, an electric control unit for controlling the ray receiving device and the ray generating device and a wireless Wi-Fi receiving and transmitting device are arranged in the control box, a local area network connection is automatically completed when a power supply is connected, the ray generating device and the ray receiving device are located in the same local area network, a control computer is opened at a far end, the opening and closing of the ray generating device and the working and closing of the ray receiving device can be controlled on the control computer.

4. A portable fast moving vehicle hazardous article X-ray detection apparatus according to claim 1, wherein: the mechanical structure scanning mode is a side scanning mode, the ray generating device is arranged on the ray fixing frame and arranged on the left ground, the ray receiving device is hung on the linear array fixing frame and vertically arranged on the right ground, a rocker on the linear array fixing frame is rotated, the height of the linear array fixing frame is adjusted, the hanging position of the ray receiving device is adjusted and fixed, the ray generating device and the ray receiving device form a position corresponding to the left low height and the right high height, the beam output of the ray generating device is in a horizontal direction from left to right and is projected at a certain inclined angle, the ray receiving device is arranged on the horizontal right side to receive rays, the upper end of the ray receiving device forms a turning shape, and the ray transmitting angle and the ray receiving surface form a fan.

5. The portable rapid movement vehicle hazard X-ray detection apparatus of claim 4, wherein: the linear array fixing frame is made of aluminum alloy section materials, is connected with the ray receiving device in a sectional connection assembly mode, two adjacent sections of ports of the ray receiving device are inserted into two sides of a pull pin fixing plate, a spring pull pin on the pull pin fixing plate is connected with a hook ring, a rotary spring bolt screwing-out probe further fixes two sections of devices to improve stability, the upper end of the linear array fixing frame adopts a turning structure, a turning connecting piece is used for connecting the side face of the linear array fixing frame to scan the highest two sections of ray receiving devices, the ports of the two sections of ray receiving devices are inserted into two square grooves of the turning connecting piece, meanwhile, the spring pull pin on the pull pin fixing plate is fastened in a buckling mode, the rotary spring bolt screwing-out probe further fixes the two sections of ray receiving devices to improve stability, a supporting connecting seat is fixedly arranged at the head of the linear array fixing frame, and a supporting connecting seat fixed on the side face of the turning connecting piece is arranged in a groove of the supporting clamp, so that the ray receiving device and the linear array fixing frame are effectively connected.

6. A portable fast moving vehicle hazardous article X-ray detection apparatus according to claim 1, wherein: the mechanical structure scanning mode is a top scanning mode, the ray generating device is arranged on the ray fixing frame and arranged at the top end above the ground, rays irradiate downwards from the top end, the linear array fixing frame is tiled on the ground, the ray receiving device is arranged in the linear array fixing frame and emits rays downwards from the top end, and the ray receiving device receives the rays at the ground horizontal position to finish scanning passing vehicles.

7. The portable rapid movement vehicle hazard X-ray detection apparatus of claim 6, wherein: the ray fixing frame adopts a split quick connection structure and comprises a supporting beam and a hand-operated lifting frame, wherein the supporting beam is used for connecting and fixing a ray generating device, the hand-operated lifting frames on two sides bear the supporting beam and fix the ray generating device, the hand-operated lifting frames are manually lifted, and the height of the ray generating device is adjusted.

8. The portable rapid movement vehicle hazard X-ray detection apparatus of claim 7, wherein: the supporting beam is composed of three sections of independent tools, the two adjacent sections of tools are quickly inserted and connected by screwing the spring bolts during assembly, round fixing pieces are arranged on two sides of the supporting beam after the assembly of the supporting beam is completed, the supporting beam is lifted to place the round fixing pieces on the hand-operated lifting frames on the two sides, the fixing handles on each side are screwed, a quick fixing plate of a ray generating device is arranged in the middle of the supporting beam, a quick inserting and fixing tool matched with the quick fixing plate is arranged on the back of the ray generating device, the ray generating device is lifted to be at the same height as the supporting beam, the quick fixing plate is connected with the quick inserting and fixing tool, the ray generating device is connected with the ray fixing frame, stainless steel is adopted as the supporting beam, a hollow structure is adopted, cables of the ray generating device can be arranged by utilizing the hollow, and round holes are formed in the periphery of the supporting beam.

9. The portable rapid movement vehicle hazard X-ray detection apparatus of claim 6, wherein: the radiation receiving device is spliced and connected into a straight line and is arranged in the linear array fixing frame and fixed on the ground right below a radiation window of the radiation generating device, and a speed reduction bridge with slope-shaped inclined planes is arranged on the front side and the rear side of the radiation receiving device; the space width of the reduction axle is an adjustable structure so as to ensure that the reduction axle is applicable to various wheel space widths.