CN110568516B - Method for installing online security inspection system - Google Patents

Method for installing online security inspection system Download PDF

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Publication number
CN110568516B
CN110568516B CN201910760782.1A CN201910760782A CN110568516B CN 110568516 B CN110568516 B CN 110568516B CN 201910760782 A CN201910760782 A CN 201910760782A CN 110568516 B CN110568516 B CN 110568516B
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detector
source device
bearing member
ray source
guide
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CN110568516A (en
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杜小伍
邓佳为
张建强
李德强
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Nuctech Co Ltd
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Nuctech Co Ltd
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Priority to CN201910760782.1A priority Critical patent/CN110568516B/en
Publication of CN110568516A publication Critical patent/CN110568516A/en
Priority to PCT/CN2020/087996 priority patent/WO2021031611A1/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N23/00Investigating or analysing materials by the use of wave or particle radiation, e.g. X-rays or neutrons, not covered by groups G01N3/00 – G01N17/00, G01N21/00 or G01N22/00
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01VGEOPHYSICS; GRAVITATIONAL MEASUREMENTS; DETECTING MASSES OR OBJECTS; TAGS
    • G01V9/00Prospecting or detecting by methods not provided for in groups G01V1/00 - G01V8/00

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  • General Physics & Mathematics (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Health & Medical Sciences (AREA)
  • Analytical Chemistry (AREA)
  • Biochemistry (AREA)
  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Immunology (AREA)
  • Pathology (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geophysics (AREA)
  • Analysing Materials By The Use Of Radiation (AREA)

Abstract

The invention relates to an adding method of an online security inspection system, which comprises the following steps: a step of padding up: a guide assembly is arranged between a base of an original conveying assembly and a conveyor belt arranged on the base so as to heighten a supporting surface of the conveyor belt; an additional installation step: the outer periphery of the conveying assembly is covered with a frame corresponding to the guide assembly, any one of the ray source device or the detector device is arranged in the guide assembly, at least the other one of the ray source device or the detector device is arranged on the frame, and a first detection beam surface is formed between the ray source device and the detector device. The installation method reduces the deployment and modification cost of the online security inspection system and improves the convenience of construction.

Description

Method for installing online security inspection system
Technical Field
The invention relates to the technical field of security check, in particular to an installing method of an online security check system.
Background
At present, the industries of civil aviation, rail transit, customs, logistics, food, coal and the like generally need a conveying device to convey articles, if the conveyed articles need to be subjected to safety inspection, and in order to save cost, safety inspection equipment can be additionally arranged on the basis of the original conveying device. The security inspection equipment needs to guide the object to be inspected to a horizontal detection plane orthogonal to the main beam plane of the ray source and enable the object to pass through the main beam plane at a constant speed so as to complete the inspection process, wherein the detection plane is generally the plane where the conveying device is located. However, since the bearing structure of the conveying device and the like can shield the detection ray, the existing conveying device must be modified when being installed on site, the engineering quantity is large, the bearing structure of the conveying device is easy to damage, the reliability of the security inspection equipment is weakened, and even the conveying equipment is damaged.
Disclosure of Invention
The invention aims to provide an adding method of an online security inspection system, which adds the online security inspection system on the basis of not damaging the original conveying assembly, and reduces deployment and modification costs.
The invention provides an installing method of an online security inspection system, which comprises the following steps: a step of padding up: a guide assembly is arranged between a base of an original conveying assembly and a conveyor belt arranged on the base so as to heighten a supporting surface of the conveyor belt; an additional installation step: the outer periphery of the conveying assembly is covered with a rack corresponding to the guide assembly, any one of the detector device or the radiation source device is arranged in the guide assembly, any one of the radiation source device or the detector device is arranged on the rack, and a first detection beam surface is formed between the radiation source device and the detector device.
According to one aspect of an embodiment of the present invention, a guide assembly includes: the bearing component is provided with an upper surface and a lower surface which are oppositely arranged along the thickness direction of the bearing component, and the upper surface is provided with a groove which is inwards sunken and penetrates along the width direction of the bearing component; the guide member is connected with at least one end of the bearing member along the length direction of the guide member, and the guide member is provided with an inclined surface which is gradually reduced from one end connected with the bearing member to one end far away from the bearing member in the thickness direction of the guide member; the upper surface and the inclined surface form a support surface for the conveyor belt.
According to an aspect of the embodiment of the present invention, the step of elevating further comprises: a ray-permeable flexible plate and a pair of pressing plates capable of pressing two side edges of the flexible plate are arranged on the upper surface of the bearing member corresponding to the grooves, so that the pressing plates, the flexible plate and the upper surface of the bearing member are arranged in alignment.
According to an aspect of the embodiment of the present invention, the step of elevating further comprises: a rolling element is arranged between the guide member and the bearing member, and the outer surface of the rolling element is tangential to the upper surface of the bearing member and the inclined surface of the guide member.
According to an aspect of the embodiment of the present invention, the step of elevating further comprises: the guide member is divided into more than two sub-members, the more than two sub-members are sequentially arranged on the base, and a rolling part is arranged between the sub-members close to the bearing member and the bearing member.
According to an aspect of an embodiment of the present invention, the attaching step includes: the detector device comprises a transverse detector and a vertical detector, wherein the transverse detector is arranged in a groove of the bearing member, and the vertical detector is arranged on the side part of the bearing member; a radiation source device is arranged on the stand, so that a first detection beam surface is formed between the detector device and the radiation source device.
According to an aspect of an embodiment of the present invention, the attaching step includes: a ray source device is arranged below the bearing component corresponding to the groove; the detector device comprises a transverse detector and a vertical detector, the transverse detector corresponding to the ray source device is arranged on the stand, and the vertical detector is arranged on the side part of the bearing component, so that a first detection beam surface is formed between the detector device and the ray source device.
According to an aspect of an embodiment of the present invention, the attaching step further includes: a ray source device is arranged on one side of the guide assembly; the detector device comprises a transverse detector and a vertical detector, the transverse detector is arranged on the rack, the vertical detector corresponding to the ray source device is arranged on the other side of the guide assembly, and a second detection beam surface is formed between the detector device and the ray source device.
According to an aspect of an embodiment of the present invention, the attaching step further includes: shielding door curtains are respectively arranged at the inlet and the outlet of the two ends of the rack along the extension direction of the guide assembly; and a shielding layer is arranged on the inner wall of the frame.
According to an aspect of the embodiment of the present invention, further comprising a cutting step: and slits which can transmit rays are cut on the guard plates on the two sides of the base in the width direction corresponding to the ray source device and/or the detector device.
According to the installing method of the online security inspection system, the guide assembly is arranged between the base of the original conveying assembly and the conveyor belt, so that the supporting surface of the conveyor belt is lifted, and the radiation source device and the detector device are arranged on the guide assembly and the rack covering the periphery of the guide assembly.
Drawings
Features, advantages and technical effects of exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a schematic perspective view of an on-line security inspection system according to the present invention;
FIG. 2 is a schematic side view of the online security system of FIG. 1;
FIG. 3 is a schematic view illustrating an assembly effect of a guide assembly and a conveying assembly in the on-line security inspection system shown in FIG. 1;
FIG. 4 is a partial schematic view of the guide assembly shown in direction H of FIG. 3;
FIG. 5 is a partial schematic structural view of the guide assembly shown in FIG. 3;
FIG. 6 is a side view of the guide assembly of FIG. 3;
fig. 7 is a partial structural view of the guide assembly shown in direction K in fig. 6;
FIG. 8 is a schematic flow chart diagram of an installation method of an online security inspection system provided by the invention.
Wherein:
1-a frame; s-a conveying assembly; a-a conveyor belt; b-a base; c-guard board; c1 — first opening; c2 — second opening; o-the object to be detected; 1 a-an inlet; 1 b-an outlet; 1 c-a screen door curtain;
10-a guide assembly; 11-a load-bearing member; 11 a-upper surface; 11 b-lower surface; 110-a groove; 111-a shielding layer; 112-a flexible plate; 113-a platen; 12-a guide member; 120-inclined plane; 121-a subcomponent; 13-rolling elements; 131-a protective cover; 2-a radiation source device; 3-a detector arrangement; 31-a transverse detector; 32-vertical detector.
In the drawings, like parts are provided with like reference numerals. The figures are not drawn to scale.
Detailed Description
Features and exemplary embodiments of various aspects of the present invention will be described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the present invention by illustrating examples of the present invention. In the drawings and the following description, at least some well-known structures and techniques have not been shown in detail in order to avoid unnecessarily obscuring the present invention; also, the dimensions of some of the structures may be exaggerated for clarity. Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.
The following description is given with reference to the orientation words as shown in the drawings, and is not intended to limit the specific structure of the present invention. In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected. The specific meaning of the above terms in the present invention can be understood as appropriate to those of ordinary skill in the art.
For better understanding of the present invention, the method for installing an online security inspection system according to the present invention is described in detail below with reference to fig. 1 to 8.
Referring to fig. 1 and 2 together, an embodiment of the present invention provides an online security inspection system, including a conveying assembly S, the conveying assembly S including a base B having a predetermined length and a conveyor belt a disposed on the base B, wherein the online security inspection system further includes: a guide assembly 10, a gantry 1, a radiation source arrangement 2 and a detector arrangement 3.
The conveying assembly S can be equipment for conveying articles commonly used in the industries of civil aviation, rail transit, customs, logistics, food, coal and the like, wherein the base B comprises a support and a dragging plate arranged on the support, and the conveyor belt A runs around the dragging plate to convey the articles.
The guiding assembly 10 is disposed between the base B and the conveyor a to elevate the support surface of the conveyor a and establish a detection surface.
The frame 1 is disposed at the outer periphery of the conveying module S and covers the guide module 10.
The radiation source arrangement 2 is arranged at either one of the guiding assembly 10 or the gantry 1, the radiation source arrangement 2 generally comprising a radiation source and a collimating arrangement.
The detector arrangement 3 may be a portal frame structure or an L-frame structure. Taking an L-shaped frame structure as an example, the detector device 3 includes a horizontal detector 31 and a vertical detector 32, the horizontal detector 31 is disposed on the other one of the guiding assembly 10 and the rack 1, the vertical detector 32 is disposed on a side portion of the guiding assembly 10, a first detection beam surface is formed between the detector device 3 and the radiation source device 2, and the guiding assembly 10 is used for guiding the object O to be detected to pass through the first detection beam surface along the conveyor belt a.
The detection rays emitted by the ray source device 2 are distributed in a fan shape on the first detection beam surface, and can provide detection rays with a scanning range of at least 70 degrees to 120 degrees. The conveyor belt a is used as a detection reference surface of the object O, and drives the object O to be detected to gradually lift and move to the upper side of the bearing member 11 along the inclined surface 120 of the guide member 12, and to pass through the first detection beam surface at a constant speed, so as to form image information of the object O to be detected.
When the guide assembly 10 is arranged between the base B and the conveyor belt A, firstly, the conveyor belt A of the original conveying assembly S is loosened through the tensioning mechanism, the guide assembly 10 is placed on a carriage of the base B and fixed, for example, in a screw fastening mode, the guide assembly 10 is convenient to detach, the guide assembly 10 can also be welded or riveted on the carriage, and then the conveyor belt A is tensioned again and adjusted to prevent deviation.
The pallet of the base B is supported in the vertical direction without being mechanically connected to the conveyor belt a or the guide assembly 10. From this, whole transformation and installation are simple, need not set up recess etc. on base B's layer board or frame, and the transformation work volume is less, can not destroy base B's original structure, has reduced the risk of damaging original conveying component.
According to the online security inspection system provided by the invention, the guide assembly 10 is arranged between the base B of the original conveying assembly S and the conveyor belt A so as to heighten the supporting surface of the conveyor belt A, and the radiation source device 2 and the detector device 3 are arranged on the guide assembly 10 and the rack 1 covering the periphery of the guide assembly, so that the base B is not required to be grooved, the deployment and reconstruction cost of the online security inspection system is reduced, and the construction convenience is improved.
Referring to fig. 3, the guide assembly 10 includes a carrier member 11 and a guide member 12.
The bearing member 11 has an upper surface 11a and a lower surface 11b arranged oppositely in the thickness direction thereof, and the upper surface 11a is provided with a groove 110 recessed inward and penetrating in the width direction thereof. Alternatively, the load bearing member 11 is a parallelepiped structural member having a predetermined length, and is processed.
In some embodiments, the transverse probe 31 is disposed within the recess 110, and the vertical probe 32 is disposed at a side of the load bearing member 11; the radiation source device 2 is disposed on the gantry 1 such that a first detection beam plane is formed between the detector device 3 and the radiation source device 2. Because the occupied space of the transverse detector 31 is small, the supporting surface of the conveyor belt A only needs to be higher by a small size, namely the height of the bearing member 11 in the vertical direction is small, so that the whole volume of the online security inspection system is small.
In some embodiments, the radiation source device 2 is disposed below the carrier 11 corresponding to the recess 110, the transverse detector 31 is disposed on the gantry 1, and the vertical detector 32 is disposed at a side of the carrier 11, such that a first detection beam plane is formed between the detector device 3 and the radiation source device 2.
The guide member 12 is connected to at least one end of the bearing member 11 in the length direction thereof, the guide member 12 has an inclined surface 120 tapered from the end connected to the bearing member 11 to the end distant from the bearing member 11 in the thickness direction thereof, and the upper surface 11a and the inclined surface 120 form a support surface of the conveyor belt a. The guide member 12 has an inclination angle θ, which is wedge-shaped as a whole, and is determined according to the height of the carrier member 11 and the technical parameters of the conveyor belt a.
In addition, the carrier member 11 and the guide member 12 may be both thin-walled structures to reduce the weight of the guide assembly 10 while increasing the rigidity and strength of the guide assembly 10.
Referring to fig. 4 to 7, the upper surface 11a of the supporting member 11 is provided with a radiolucent flexible plate 112 corresponding to the groove 110 and a pair of pressing plates 113 capable of pressing two side edges of the flexible plate 112, and the pressing plates 113 and the flexible plate 112 are aligned with the upper surface 11a of the supporting member 11.
The flexible board 112 is typically a carbon fiber board with a small thickness, but other flexible materials, such as Polyvinyl Chloride (PVC) polymer film, may be used instead. For the conditions of higher bearing surface quality requirement and better flatness, rigid materials which can penetrate through rays, such as metal films and the like, can also be directly adopted.
The flexible plate 112 can flexibly joint the bearing members 11 on two sides of the groove 110, compensate for height difference generated on the bearing surface of the conveyor belt A due to unevenness of the supporting plate of the base B, ensure that an object to be detected stably passes through, protect security inspection equipment, enhance adaptability of the equipment and improve detection stability.
The platen 113 may be a metal plate with rounded edges. The pressure plate 113 may on the one hand prevent the flexible plate 112 from being damaged by the moving conveyor belt a, and on the other hand the pressure plate 113 may serve as a fixed point of force for the flexible plate 112 on the carrier member 11. The mounting rear platen 113, the flexible sheet 112 and the upper surface 11a of the carrier member 11 are arranged in alignment to ensure that the conveyor belt S passes smoothly through the guide assembly 10.
Further, one side of either one of the guide member 12 and the carrier member 11 toward the other is provided with a fixed shaft extending in the width direction, on which a roller 13 is provided, and an outer surface of the roller 13 is provided tangentially to the upper surface 11a of the carrier member 11 and the inclined surface 120 of the guide member 12, so that the conveyor belt a is smoothly changed from the climbing motion at the guide member 12 to the horizontal motion at the carrier member 11.
Specifically, one side of either one of the guide member 12 and the carrier member 11 toward the other is provided with a fixed shaft extending in the width direction, on which the roller 13 is provided, and the outer surface of the roller 13 is disposed in alignment with the upper surface 11a of the carrier member 11. The rolling member 13 may be a roller shaft or a plurality of rollers so as to generate sliding friction with the conveyor belt a, and the rolling member 13 may convert the sliding friction into rolling friction, thereby reducing the wear of the conveyor belt a and prolonging the service life of the conveyor belt a. When the rolling member 13 is a roller, a protective cover 131 is provided at an end thereof to prevent a gap from being generated between the edge of the conveyor belt a and the guide member, prevent foreign materials from entering the gap to damage the conveyor belt a, prevent a person from being injured by the nip, and prevent the object from being damaged by the nip.
When the length of the guide member 12 is long, the guide member 12 may include more than two sub-members 121 disposed in stages from the end connected to the carrier member 11 to the end distant from the carrier member 11. More than two sub-members 121 are segmented to form the guide member 12 for ease of operation and maintenance.
Referring again to fig. 1, the online security inspection system may be provided with a multi-view security inspection apparatus to obtain image information of a plurality of views. For example, the radiation source device 2 may be disposed on one side of the guiding assembly 10, and a target point of the radiation source is coplanar with the detection plane, and the frame 1 is further disposed with the horizontal detector 31, and the other side of the guiding assembly 10 is disposed with the vertical detector 32 corresponding to the radiation source device 2, so that a second detection beam plane is formed between the detector device 3 and the radiation source device 2; the first detection beam surface and the second detection beam surface acquire image information of the object to be detected O from different angles, and the reliability of security inspection is improved.
In addition, in order to avoid the radiation source device 2 and the detector device 3 from radiating the surrounding environment, the gantry 1 has an inlet 1a and an outlet 1b at both ends of the guiding assembly 10 in the extending direction, and a shielding curtain 1c is disposed at the inlet 1a and the outlet 1b, respectively, and the shielding curtain 1c may be, for example, but not limited to, a rubber curtain containing lead, as shown in fig. 1.
In addition, a shield layer 111 is provided on the inner wall of the chassis 1, as shown in fig. 4. The shielding layer 111 may be, for example, but not limited to, a shielding material containing lead. For an environment with low radiation protection requirement, the shielding layer 111 may not be added on the inner wall of the groove 110.
In some embodiments, the original conveying assembly S further includes shielding plates C located on both sides of the width direction of the base B, the shielding plates C can prevent the object to be detected O from falling off the conveyor belt a, and the radiation source device 2 or the detector device 3 is disposed on one side of the shielding plates C away from the guiding assembly 10, so that the shielding plates C can block the radiation between the radiation source device 2 and the detector device 3. In order not to destroy the original transport assembly, only the shield C is provided with a radiation-permeable aperture at a position corresponding to the radiation source device 2 and/or the detector device 3.
From this, when setting up guide assembly 10 between base B and conveyer belt A, at first need remove backplate C, loosen the conveyer belt A of original conveying assembly S through straining device, put into guide assembly 10 on base B' S the planker and fixed, then tensioning conveyer belt A again, cut required gap that can see through the ray on backplate C simultaneously, install backplate C to base B again.
Specifically, when the transverse detector 31 of the detector device 3 is disposed in the groove 110 of the bearing member 11 or on the machine frame 1, a first opening C1 through which the radiation can pass is disposed on the shield C corresponding to the vertical detector 32, and the first opening C1 is in the form of a slit so that the radiation can pass through the shield C.
When the radiation source device 2 is disposed at the side of the bearing member 11, the shield C is provided with a second opening C2 capable of transmitting radiation corresponding to the radiation source device 2, and the second opening C2 is in a slit shape, so that the detector device 3 and the radiation source device 2 form different angle detection beam planes.
Referring to fig. 8, an embodiment of the present invention further provides an installation method of the online security inspection system, which includes:
step S1 of raising: a guide component 10 is arranged between a base B of an original conveying component S and a conveyor belt A arranged on the base B so as to heighten the supporting surface of the conveyor belt A.
An adding step S2: a frame 1 is provided on the outer periphery of the transport unit S corresponding to the guide unit 10, either the radiation source device 2 or the detector device 3 is provided in the guide unit 10, the other of the radiation source device 2 or the detector device 3 is provided on the frame 1, and a first detection beam surface is formed between the radiation source device 2 and the detector device 3.
According to the installing method of the online security inspection system, the guide assembly 10 is arranged between the base B of the original conveying assembly S and the conveyor belt A to heighten the supporting surface of the conveyor belt A, and the guide assembly 10 and the rack 1 covering the periphery of the guide assembly are provided with the security inspection equipment, so that the installation is carried out on the basis of not damaging the original conveying assembly S, the deploying and modifying cost of the online security inspection system is reduced, and the construction convenience is improved.
Further, the guide assembly 10 comprises a carrier member 11 and a guide member 12.
The bearing member 11 has an upper surface 11a and a lower surface 11b arranged oppositely in the thickness direction thereof, and the upper surface 11a is provided with a groove 110 recessed inward and penetrating in the width direction thereof.
The guide member 12 is connected to at least one end of the bearing member 11 in the length direction thereof, the guide member 12 has an inclined surface 120 tapered from the end connected to the bearing member 11 to the end distant from the bearing member 11 in the thickness direction thereof, and the upper surface 11a and the inclined surface 120 form a support surface of the conveyor belt a. The guide member 12 has an inclination angle θ, which is wedge-shaped as a whole, and is determined according to the height of the carrier member 11 and the technical parameters of the conveyor belt a.
Further, the step of raising S1 further includes:
step S11: a radiolucent flexible plate 112 and a pair of pressing plates 113 capable of pressing both side edges of the flexible plate 112 are provided on the upper surface 11a of the bearing member 11 corresponding to the groove 110, so that the pressing plates 113, the flexible plate 112 are disposed in alignment with the upper surface 11a of the bearing member 11.
The step of raising S1 further includes:
step S12: the rollers 13 are provided between the guide member 12 and the bearing member 11, and the outer surfaces of the rollers 13 are provided tangentially to the upper surface 11a of the bearing member 11, the inclined surface 120 of the guide member 12, so that the conveyor belt a is smoothly changed from the climbing motion at the guide member 12 to the horizontal motion at the bearing member 11.
Further, the step of raising S1 further includes:
step S13: the guide member 12 is divided into two or more sub-members 121, the two or more sub-members 121 are sequentially disposed on the base, and the rolling members 13 are disposed between the sub-members 121 adjacent to the carrier member 11 and the carrier member 11. When the length of the guide member 12 is long, the guide member 12 includes two or more sub-members 121 that are provided in stages from the end connected to the carrier member 11 to the end away from the carrier member 11. More than two sub-members 121 are segmented to form the guide member 12 for ease of operation and maintenance.
As an alternative embodiment, the adding step S2 includes:
step S21: the detector device 3 comprises a transverse detector 31 and a vertical detector 32, wherein the transverse detector 31 is arranged in the groove 110 of the bearing member 11;
step S22: a radiation source arrangement 2 is arranged on the gantry 1 such that a first detection beam plane is formed between the detector arrangement 3 and the radiation source arrangement 2.
As an alternative embodiment, the adding step S2 includes:
step S21': the radiation source device 2 is arranged below the bearing member 11 corresponding to the groove 110;
step S22': the detector device 3 comprises a transverse detector 31 and a vertical detector 32, the transverse detector 31 corresponding to the radiation source device 2 is arranged on the machine frame 1, and the vertical detector 32 is arranged at the side part of the bearing member 11, so that a first detection beam surface is formed between the detector device 3 and the radiation source device 2.
In some embodiments, the adding step S2 further includes:
step S23: a radiation source device 2 is arranged on one side of the guide assembly 10;
step S24: the detector device 3 comprises a transverse detector 31 and a vertical detector 32, the transverse detector 31 is arranged on the frame 1, and the vertical detector 32 corresponding to the radiation source device 2 is arranged on the other side of the guide assembly 10, so that a second detection beam surface is formed between the detector device 3 and the radiation source device 2.
In some embodiments, the original conveying assembly S further includes guard plates C located on both sides of the width direction of the base B, and since the guard plates C are located on both sides of the conveyor belt a to prevent the object to be detected O from falling off the conveyor belt a, the radiation source device 2 or the detector device is located outside the guard plates C and blocks the radiation between the radiation source device 2 and the detector device 3.
In order to not destroy the original conveying assembly, the adding method of the online security check system of the embodiment of the invention further comprises the following steps:
cutting step S3: slits through which radiation can pass are cut in the shield plates C on both sides of the base B in the width direction, corresponding to the radiation source device 2 and/or the detector device 3.
Specifically, the first opening C1 that is transparent to radiation may be cut out on the shield C corresponding to the vertical detector 32, or the second opening C2 that is transparent to radiation may be cut out on the shield C corresponding to the radiation source device 2, or the first opening C1 and the second opening C2 may be cut out on the shield C at the same time.
Further, in order to avoid the security inspection apparatus radiating the surrounding environment, the adding step S2 further includes:
step S25: the two ends of the frame 1 along the extending direction of the guide assembly 10 are respectively provided with an inlet 1a and an outlet 1b, and shielding door curtains 1c are respectively arranged at the inlet 1a and the outlet 1 b;
step S26: a shield layer 111 is provided on the inner wall of the chassis 1.
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. In particular, the technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. It is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (9)

1. An installing method of an online security check system is characterized by comprising the following steps:
a step of padding up: at base (B) of original conveying component (S), set up in set up guide assembly (10) between conveyer belt (A) on base (B) to with the holding surface bed hedgehopping of conveyer belt (A), guide assembly (10) include:
the bearing component (11) is provided with an upper surface (11a) and a lower surface (11b) which are oppositely arranged along the thickness direction of the bearing component, and the upper surface (11a) is provided with a groove (110) which is inwards sunken and penetrates along the width direction of the bearing component;
a guide member (12) connected to at least one end of the bearing member (11) in a length direction thereof, the guide member (12) having an inclined surface (120) tapered from the end connected to the bearing member (11) to an end distant from the bearing member (11) in a thickness direction thereof;
said upper surface (11a) and said inclined surface (120) forming said support surface of said conveyor belt (A);
an additional installation step: a frame (1) is covered on the periphery of the conveying assembly (S) corresponding to the guide assembly (10), any one of a ray source device (2) or a detector device (3) is arranged in the guide assembly (10), the other one of the ray source device (2) or the detector device (3) is arranged on the frame (1), and a first detection beam surface is formed between the ray source device (2) and the detector device (3).
2. The retrofitting method according to claim 1, wherein said step of raising further comprises:
a radiolucent flexible plate (112) and a pair of pressing plates (113) capable of pressing both side edges of the flexible plate (112) are provided on the upper surface (11a) of the bearing member (11) in correspondence with the groove (110) so that the pressing plates (113), the flexible plate (112) and the upper surface (11a) of the bearing member (11) are arranged in alignment.
3. The retrofitting method according to claim 1, wherein said step of raising further comprises:
a roller (13) is arranged between the guide member (12) and the carrier member (11), and an outer surface of the roller (13) is arranged tangentially to the upper surface (11a) of the carrier member (11), the inclined surface (120) of the guide member (12).
4. The retrofitting method according to claim 3, wherein said step of raising further comprises:
the guide member (12) is segmented into more than two sub-members (121), the more than two sub-members (121) are sequentially arranged on the base, and the rolling piece (13) is arranged between the sub-members (121) close to the bearing member (11) and the bearing member (11).
5. The retrofitting method according to claim 1, wherein said retrofitting step comprises:
the detector device (3) comprises a transverse detector (31) and a vertical detector (32), the transverse detector (31) is arranged in the groove (110) of the bearing member (11), and the vertical detector (32) is arranged at the side part of the bearing member (11);
the radiation source device (2) is arranged on the machine frame (1) so that the first detection beam surface is formed between the detector device (3) and the radiation source device (2).
6. The retrofitting method according to claim 1, wherein said retrofitting step comprises:
-arranging said radiation source arrangement (2) below said carrier member (11) in correspondence of said recess (110);
the detector device (3) comprises a transverse detector (31) and a vertical detector (32), the transverse detector (31) corresponding to the ray source device (2) is arranged on the stand (1), and the vertical detector (32) is arranged on the side of the bearing member (11), so that the first detection beam surface is formed between the detector device (3) and the ray source device (2).
7. The charging method according to claim 1, wherein the charging step further comprises:
arranging the radiation source device (2) at one side of the guiding assembly (10);
the detector device (3) comprises a transverse detector (31) and a vertical detector (32), the transverse detector (31) is arranged on the rack (1), and the vertical detector (32) corresponding to the ray source device (2) is arranged on the other side of the guide assembly (10), so that a second detection beam surface is formed between the detector device (3) and the ray source device (2).
8. The charging method according to claim 1, wherein the charging step further comprises:
shielding door curtains (1c) are respectively arranged at an inlet (1a) and an outlet (1b) at two ends of the rack (1) along the extension direction of the guide assembly (10);
and a shielding layer (111) is arranged on the inner wall of the frame (1).
9. The retrofitting method according to claim 1, further comprising:
cutting: and slits which can be penetrated by rays are cut on the guard plates (C) on the two sides of the base (B) in the width direction corresponding to the ray source device (2) and/or the detector device (3).
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