CN114013813B - Censoring equipment and censoring system - Google Patents

Abstract

The application provides a censoring device and a censoring system, wherein the censoring device comprises: a housing assembly including a first panel adjacent to a surface of the upper cover assembly, a first sidewall surrounding the first panel, the first panel being first convex or first concave in a first direction with respect to the first sidewall; a cover assembly attached to the housing assembly, the cover assembly including a second panel adjacent to a surface of the housing assembly, a second sidewall surrounding the second panel, the second panel being second concave or second convex in a first direction relative to the second sidewall; a storage assembly attached to the housing assembly, having a receiving cavity configured to receive an item to be inspected; the lock assembly comprises a lock body arranged in the shell assembly and a lock bolt connected with the upper cover assembly, wherein the lock body is provided with an emergency unlocking component. The application can reduce the complexity and the manufacturing cost of the inspection equipment on the premise of ensuring the safety of the article transportation.

Description

Censoring equipment and censoring system

Technical Field

The application relates to the technical field of medical equipment, in particular to a censoring device and a censoring system.

Background

A screening apparatus is an apparatus for storing and transporting articles to be screened, which generally takes the form of a box. The inspection equipment is widely applied to the fields of medical treatment, biology, pharmacy, animal experiments or evidence transportation and other works or scientific researches, has wide range of application, and is a necessary transport tool in relevant work.

The items transported by the inspection device may be blood, saliva, nucleic acid, or other genetic resources, or other important evidence, such as a court trial. For such articles, security is particularly important when shipping and handling. If leakage, outflow or package falling of the articles to be inspected occur during transportation or handover, the articles to be transported may be disabled or destroyed, and in severe cases, a torch for related scientific research or evidence collection work is caused.

In the conventional technology, various improvements are made to the structure of the inspection equipment to improve the safety of the inspected articles in the conveying process, but the improvements of the conventional technology increase the complexity of the inspection equipment and improve the manufacturing cost of the equipment.

Disclosure of Invention

In view of the foregoing, it is desirable to provide a inspection apparatus and an inspection system that reduce the complexity and manufacturing cost of the inspection apparatus while ensuring the safety of the transportation of the articles.

The present application provides a censorship apparatus comprising:

a housing assembly including a first panel adjacent to a surface of the upper cover assembly, a first sidewall surrounding the first panel, the first panel being first convex or first concave in a first direction relative to the first sidewall;

a cover assembly attached to the housing assembly, the cover assembly including a second panel adjacent to a surface of the housing assembly, a second sidewall surrounding the second panel, the second panel being second recessed or second raised in a first direction relative to the second sidewall;

a storage assembly attached to the housing assembly, having a receiving cavity configured to receive an item to be inspected;

the lock assembly comprises a lock body arranged in the shell assembly and a lock bolt connected with the upper cover assembly, and the lock body is provided with an emergency unlocking component;

a camera;

circuitry configured to activate the camera upon detection of unlocking the lock assembly by the emergency unlocking component.

In one embodiment, the first panel is first convex in a first direction relative to the first sidewall and the second panel is second concave in a first direction relative to the second sidewall; the first panel and the first side wall are integrally formed, and the second panel and the second side wall are integrally formed.

In one embodiment, the first sidewall protrudes in a third direction relative to the first panel; the second side wall protrudes in a fourth direction relative to the second panel; the first protrusion, the second recess, the third protrusion, and the fourth protrusion each have a length in a range of 0.1mm to 10 mm.

In one embodiment, the housing assembly further includes a bezel secured to an outer surface of the first sidewall, the bezel configured to conceal the emergency unlocking feature.

In one embodiment, the first panel is provided with a camera receiving cavity near the attachment side of the housing assembly to the upper cover assembly;

the camera is configured within the camera receiving cavity.

In one embodiment, the first panel is provided with a first opening or first recess, and the storage assembly is disposed within the first opening or first recess;

the upper cover assembly further comprises a heat preservation layer arranged on the outer surface of the second panel, and when the inspection equipment is in a closed state, the heat preservation layer seals the accommodating cavity.

In one embodiment, the inspection apparatus further comprises:

a refrigeration assembly attached to the storage assembly configured to refrigerate the storage assembly;

a heat radiation fan;

the shell assembly further comprises a third panel far away from the surface of the upper cover assembly, the third panel is provided with a first ventilation hole, the first side wall is provided with a second ventilation hole, the first ventilation hole and the second ventilation hole are configured to form an air channel, and hot air blown by the cooling fan is discharged.

In one embodiment, the inspection apparatus further comprises:

a lock sensor for detecting whether the lock assembly is unlocked by the emergency unlocking means;

a wireless communication unit configured to communicate with an external device;

the circuitry is configured to activate the camera and the wireless communication unit upon the lock sensor detecting unlocking of the lock assembly by the emergency unlocking component.

In one embodiment, the inspection apparatus further comprises:

a temperature sensor configured to detect a temperature of the storage assembly;

the circuit is configured to activate the camera and the wireless communication unit upon detecting that the temperature detected by the temperature sensor is below a preset temperature threshold.

A censoring system, comprising:

the inspection apparatus according to any one of the above embodiments;

an item to be inspected is configured to be received within the receiving cavity of the storage assembly.

Foretell censorship equipment and censorship system through with the sunken design of first panel, the protruding design of second panel, perhaps with the protruding design of first panel, the sunken design of second panel can make when casing subassembly and upper cover subassembly lid, can withstand first panel or second panel when can't stretch into with the instrument from both gaps to can not stretch into sufficient degree of depth and remove violent sled and open censorship equipment, improved violent sled's the degree of difficulty, and then improved the security that censorship equipment transported.

By configuring the emergency unlocking component for the lock assembly, when the equipment is in special conditions such as incapability of normally unlocking or forgetting to unlock the password, the equipment can be unlocked through the emergency unlocking component, and meanwhile, by further configuring the camera and the circuit, when the circuit receives an event of unlocking by adopting the emergency unlocking component, the camera is activated to take a picture or video of the current environment, and the implementation condition is recorded. Therefore, when the emergency unlocking function is provided, the on-site situation of emergency unlocking can be recorded through the camera, and the rationality and the safety of equipment use are ensured.

Drawings

FIG. 1 is a perspective view of a inspection apparatus according to one embodiment;

FIG. 2 is a partial perspective view of a inspection apparatus including a cover assembly according to one embodiment;

FIG. 3 is a partial perspective view of a portion of a casing assembly of an inspection apparatus according to one embodiment;

FIG. 4 is a perspective view of a portion of a screening apparatus including a storage assembly according to one embodiment;

FIG. 5 is a perspective view of a portion of a inspection apparatus including a refrigeration component according to one embodiment;

fig. 6 is an enlarged view at a in fig. 2.

Detailed Description

Hereinafter, embodiments of the present application will be described with reference to the accompanying drawings. It should be understood that the description is only illustrative and is not intended to limit the scope of the application. In addition, in the following description, descriptions of well-known structures and techniques are omitted so as not to unnecessarily obscure the present application.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The words "a", "an", and "the" as used herein are also intended to include the meaning of "a plurality", etc., unless the context clearly indicates otherwise. Furthermore, the terms "comprises," "comprising," and the like, as used herein, specify the presence of stated features, steps, operations, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, or components.

All terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. It should be noted that the terms used herein should be construed to have meanings consistent with the context of the present specification and should not be construed in an idealized or overly formal manner.

As shown in connection with fig. 1-6, the present application provides a screening apparatus 100, the apparatus 100 including a housing assembly 10, a cover assembly 20, a storage assembly 30, a lock assembly, a camera 50, and circuitry (not shown).

Wherein the upper cover assembly 20 is used to cover the housing assembly 10, which is attached thereto. Specifically, the upper cover assembly 20 is attached to the attachment side of the housing assembly 10 and is rotatable relative to the attached side to form a closure or opening with the housing assembly. The connection between the housing assembly 10 and the upper cover assembly 10 may be hinged.

The housing assembly 10 defines a hollow cavity therein within which the storage assembly 30, lock assembly, circuitry, etc., are wholly or partially housed. The lock assembly comprises a lock body 41 and a lock bolt 42, wherein the lock body 41 is fixed in a cavity of the shell assembly 10, the lock bolt 42 is fixed on the upper cover assembly 20, and when the upper cover assembly 20 and the shell assembly 10 are closed, the lock bolt 42 and the lock body 41 are mutually buckled, so that the inspection equipment is in a locking state.

The housing assembly 10 includes a first panel 11 and a first sidewall 12. The number of first side walls 12 may include 4, each in the front-back-left-right direction of the inspection apparatus, the first side walls 12 surrounding the first panel 11, the first panel 11 being above, i.e., adjacent to the surface of the upper cover assembly 20. The first side wall has a height, viewed in the first direction, that is higher than the height of the first panel, i.e. the first panel protrudes in the first direction relative to the first side wall. The first direction may be an up-down direction shown in fig. 1, i.e. a Z-axis direction.

In cooperation with the housing assembly 10, the upper cover assembly 20 includes a second panel 21 and a second side wall 22. The second side wall 22 surrounds the second panel 21, and the second panel 21 is located above, i.e., adjacent to the surface of the upper cover assembly. The second side wall 22 has a height, seen in the first direction, lower than the height of the second panel 21, i.e. the second panel 21 is recessed in the second direction relative to the second side wall 22. Or the first panel 11 is first concave in a first direction relative to the first side wall 12 and the second panel 21 is second convex in a first direction relative to the second side wall 22. The second direction may be a horizontal direction shown in fig. 1, i.e., an X-axis direction and/or a Y-axis direction.

Through with first panel 11 concave design, second panel 21 protrusion design, perhaps with first panel 11 protrusion design, second panel 21 concave design can make when casing subassembly and upper cover subassembly lid, can not stretch into with the instrument from both gaps in, can withstand first panel 11 or second panel 21 to can not stretch into sufficient degree of depth and remove violent sled and open the censoring equipment, improved violent sled degree of difficulty, and then improved the security of censoring equipment transportation.

In one embodiment, the first side wall 12 protrudes in a third direction with respect to the first panel 11, as seen in the second direction; the second side wall 22 projects fourth in the second direction with respect to the second panel 21.

The edge shapes of the first side wall 12, the first panel 11 and the second side wall 22, the second panel 21 are similar to the shape of an upright or inverted "ㄣ" or "step", and the included angle of the first side wall 12, the first panel 11, the second side wall 22, the second panel 21 or the connection is a right angle or close to a right angle.

In one embodiment, the first protrusion, the second protrusion, the first recess, the second recess, the third protrusion, and the fourth protrusion each have a length in the range of 0.1mm to 10 mm. Preferably, the length may range from 1mm to 3mm. Specifically, any length of 0.1mm, 0.5mm, 1mm, 1.5mm, 2mm, 2.5mm, 3mm, 3.5mm, 4mm, 4.5mm, 5mm, 5.5mm, 6mm, 6.5mm, 7mm, 7.5mm, 8mm, 8.5mm, 9mm, 9.5mm, 10mm, etc. is possible. The lengths of the first protrusion, the second protrusion, the first recess, the second recess, the third protrusion, and the fourth protrusion may be the same or different. Such a design further increases the difficulty of violent prying.

In one embodiment, the inspection apparatus is generally in a rectangular or substantially rectangular parallelepiped form, and the surfaces of the first and second side walls 12, 22 are substantially flat planes, which may be 4 in number, in the front-back, left-right direction of the inspection apparatus.

The shape of the "ㄣ" or "step" may be one or more of the 4 directions. Such as on the first side wall 12, the second side wall 22 in the front, or on the first side wall 12, the second side wall 22 in the front and left-right directions.

The inspection apparatus may be in the form of a cylinder, an elliptical cylinder, a semi-cylinder, or an approximately cylindrical shape, in which case the surfaces or portions of the surfaces of the first and second side walls 12, 22 are substantially flat curved surfaces.

In one embodiment, the first panel 11 and the first sidewall 12 on the housing assembly 10 are integrally formed; the second panel 21 and the second side wall 22 of the upper cover assembly 20 are also integrally formed. The first panel 11, the first side wall 12, the second panel 21, the second side wall 22 may be metal or plastic.

In one embodiment, the storage assembly 30 of the inspection apparatus 100 is for receiving an article to be inspected, and the inspection apparatus is formed with a receiving cavity that can receive the article to be inspected. The object to be inspected can be a biological sample of human or animal, or some evidence, etc., and the biological sample can be blood, saliva, accounting, etc. The object to be inspected may include a sample body, i.e. a body such as the biological sample or the evidence, for example, a blood sample, a urine sample, a saliva sample, or the like, and a sample container, i.e. a test tube or a packaging bag for holding the sample body.

The lock component may be an intelligent lock, such as an electromagnetic lock, a bluetooth lock, a fingerprint lock. Coded locks, etc. When the lock assembly is in a locking state, the lock assembly can be normally unlocked when the correct unlocking password, unlocking fingerprint and other unlocking information are detected to be input. The lock body 41 further comprises an emergency unlocking member which can unlock the lock bolt from the lock body by physical means.

The inspection device further includes a camera 50, a power source operable to power the camera, circuitry, etc., and circuitry configured to activate the camera upon detection of unlocking of the lock assembly by the emergency unlocking feature.

In particular, the inspection apparatus 100 is an apparatus for storing and dispensing an article to be inspected, such as a blood sample inspection instrument. The inspection equipment comprises a display screen 85, and the display screen 85 can display one or more parameters of the switch state in the inspection equipment, the temperature of a refrigerator in the equipment, the network state, the electric quantity, the voltage, the use state and the like. The using state comprises a standby state and a delivery state. The inspection apparatus is in a standby state when the inspection apparatus is not used or stores the articles to be inspected only as a storage box. The delivery state indicates a state in which the inspection apparatus is in a state of transporting the article to be inspected, and the delivery state may specifically include a warehouse-in state of transporting the article to be inspected to a predetermined storage point, and an inspection state of transporting the article to be inspected from the storage point to a predetermined inspection point. The inspection apparatus 100 detects a touch operation of a user on the display screen 85, and responds to enter a corresponding standby state or delivery state.

Taking a blood sample sending and detecting instrument as an example, the blood sample sending and detecting instrument can be used for taking collected blood of a user as an object to be sent and detected, and sending the collected blood to a hospital blood warehouse for storage, or taking the blood to be sent and detected from the hospital blood warehouse as the object to be sent and detected, and sending the blood to a sending and detecting center and the like.

Wherein the camera 50 is not activated when in a standby state or in a dispensing state in general, and the circuit is operable to activate the camera 50 to take a picture or video of the current environment when unlocking of the lock assembly by the emergency unlocking means is detected, recording the implementation.

According to the inspection equipment 100, the emergency unlocking component is configured for the lock assembly, so that the equipment can be unlocked through the emergency unlocking component when the equipment cannot be normally unlocked or the special conditions such as unlocking passwords are forgotten, meanwhile, the camera and the circuit are further configured, and when the circuit receives an event of unlocking through the emergency unlocking component, the camera is activated to take a picture or video of the current environment, and the implementation condition is recorded. Therefore, when the emergency unlocking function is provided, the on-site situation of emergency unlocking can be recorded through the camera, and the rationality and the safety of equipment use are ensured.

In one embodiment, the housing assembly 10 further includes a bezel 14 secured to the first sidewall outer surface, the bezel 14 being configured to conceal the emergency unlocking feature.

The baffle 14 may be a square, rectangular or circular sheet of any shape, and may have a thickness ranging from 0.1mm to 5mm, preferably from 0.5mm to 2mm, for example, from 0.1mm, 0.5mm, 1mm, 1.5mm, 2mm, 2.5mm, 3mm, or the like. The outer surface of the baffle is basically flat, the adopted material can be plastic or glass, and the glass can be non-transparent glass, so that a user cannot see the shielded emergency unlocking component through the glass, and the shielding and hiding of the emergency unlocking component are formed. The material and thickness of the barrier 14 may be such that it is moderately strong, but may be destructive without undue effort, thereby exposing the emergency unlocking feature.

In one embodiment, the baffle 14 is secured to the outer surface of the first sidewall 12, which is the sidewall distal from the side of the housing assembly to which the upper cover assembly is attached, and is not movable. The first side wall is provided with a groove or an opening, the baffle is embedded in the opening or the groove, and the embedded baffle and the exposed outer surface of the first side wall are integrally kept on the same plane so as to improve the aesthetic property.

In one embodiment, a handle 15 is further provided on the first side wall, and a projection of the handle 15 in the X direction coincides with a projection of the baffle. Information such as brand LOGO of the inspection equipment can be displayed on the baffle plate.

In one embodiment, the first panel 11 has a plurality of openings, grooves or cavities formed therein. Specifically, the camera housing cavity, the first opening or the first groove, the second opening or the second groove, and the like may be included, and the cavity, the opening or the groove may be located at any suitable position on the first panel. Preferably, the camera receiving cavity may be adjacent to the attachment side, the second opening 11-2 or the second groove 11-2 is distant from the attachment side, the first opening or the first groove is located between the camera receiving cavity, the second opening 11-2 or the second groove 11-2, and an area of the first opening or the first groove is larger than an area of the camera receiving cavity, the second opening 11-2 or the second groove 11-2.

Wherein the camera 50 is arranged in the camera receiving cavity. The storage assembly 30 is disposed in the second opening 11-2 or the second recess 11-2. The lock pin 42 may pass through the second opening 11-2 or the second recess 11-2 when the inspection device is closed. The camera 50 is inclined with respect to the first panel 11 by such an angle that a user can photograph face information when the inspection apparatus is opened. In the first direction, the camera 50 may protrude relative to the first panel 11 in order to maximize the capture of useful information. When the camera 50 protrudes, a cavity 21-2 matched with the accommodating cavity of the camera 50 is arranged on the second panel 20, and the cavity coincides with the projection of the accommodating cavity of the camera 50 in the first direction, so that when the inspection equipment is closed, a closed accommodating space is formed by the camera 50.

The upper cover assembly 20 further includes a thermal insulation layer 23 disposed on an outer surface of the second panel 21, the thermal insulation layer sealing the receiving cavity when the inspection apparatus is in the closed condition. The heat preservation comprises heat preservation material, and the heat preservation can paste and locate the second panel surface, and its thickness scope can be 0.1mm to 5mm, and is preferably, can be 0.5mm to 2mm, for example can be 0.1mm, 0.5mm, 1mm, 1.5mm, 2mm, 2.5mm, 3mm etc. arbitrary thickness. When the inspection apparatus 100 is in the closed state, the heat insulating layer 23 may be attached to the outer surface of the second panel 11. The projected area of the insulating layer 23 in the first direction is larger than the projected area of the storage assembly 30 to form a cover and seal for the storage assembly 30.

The storage assembly 30 includes a case 31 forming a receiving cavity for receiving an object to be inspected, and an envelope layer 33 or a heat insulating layer 33 surrounding the case 31, wherein the case 31 may be a metal or an alloy having a strong heat conductive property, and the envelope layer 33 or the heat insulating layer 33 may be a sponge or the like having a poor heat conductive property.

In one embodiment, the inspection apparatus 100 further includes a refrigeration assembly and a cooling fan 70, wherein the refrigeration assembly is attached below the storage assembly 30. Specifically, it may be attached to the bottom surface of the case 31 of the storage assembly to cool the storage assembly 30. The surrounding layer 33 or the heat insulating layer 33 may form a notch at a portion of the cooling assembly attached to the bottom surface of the box body 31, so that the cooling assembly is directly attached to the bottom surface of the box body 31 and is partially surrounded by the surrounding layer or the heat insulating layer.

The housing assembly 10 further includes a third panel 13 remote from the surface of the upper cover assembly 20, the third panel 13 being provided with first ventilation holes, wherein one or more of the first side walls 12 are provided with second ventilation holes, the first ventilation holes and the second ventilation holes being configured to form an air duct for discharging hot air blown by the heat radiation fan. The second vent may be located proximate to the storage assembly, such as above the first side wall 12b as shown in fig. 1. The first ventilation holes and the second ventilation holes can be hole arrays formed by a plurality of holes, the shapes of the holes can be round, rectangular and the like, and the formed hole arrays can be any shapes such as round, rectangular and the like.

In one embodiment, the inspection apparatus 100 further comprises: a lock sensor for detecting whether the lock assembly is unlocked by the emergency unlocking means; a wireless communication unit configured to communicate with an external device; the circuitry is configured to activate the camera and the wireless communication unit upon the lock sensor detecting unlocking of the lock assembly by the emergency unlocking component.

The lock sensor and the wireless communication unit are both located within a cavity formed by the housing assembly 10. The lock sensor may be a proximity sensor or the like, and may be used to directly or indirectly detect whether an event has occurred to unlock the lock assembly via the emergency unlocking feature. The indirect detection may be detecting whether the barrier is broken and determining that the lock assembly is unlocked by the emergency unlocking member when the barrier is detected to be broken.

The inspection device 100 further comprises a temperature sensor configured to detect a temperature of the storage assembly, the circuit being configured to activate the camera and the wireless communication unit upon detecting that the temperature detected by the temperature sensor is below a preset temperature threshold.

The temperature sensor is also disposed within the cavity formed by the housing assembly 10, and in particular may be affixed to the case 31 of the storage assembly to improve the accuracy of the temperature detection. The temperature sensor may have a plurality of locations, such as may be attached to the storage assembly housing 31.

The circuit is configured to activate the camera and/or the wireless communication unit when the temperature detected by the temperature sensor is detected to be below a preset temperature threshold, or when the lock sensor detects that the lock assembly is unlocked by the emergency unlocking component, while the inspection device 100 is in the dispensing state.

By activating the wireless communication unit, the wireless communication unit can communicate with the equipment management end and/or the article management end, report the current state of the sending and detecting equipment, or send video or image information shot by the camera. The article management end is used for managing articles to be distributed and can be a terminal or a server, an article monitoring platform is arranged at the article management end, and article management staff can know article information distributed by the inspection equipment through the monitoring platform. The equipment management end is also provided with an equipment management platform, and can monitor and manage the states of the inspection equipment in real time according to the received parameters of the inspection equipment, for example, the position information of each inspection equipment can be monitored in real time. The device management end can receive the reported related information of the inspection device through the cloud end, and can also directly receive the related information. Similarly, the article management end can also receive the reported related information of the inspection equipment through the cloud end or directly receive the related information. The cloud end can also store related information reported by the inspection equipment.

In one embodiment, the inspection device 100 further includes a power switch attached to a surface of the first panel 10. Specifically, the surface of the first panel and/or the surface of the second panel is formed with a switch accommodating cavity so that the inspection apparatus accommodates the power switch therein when closed. By arranging the power switch on the first panel, the power switch is prevented from being directly exposed to the periphery of the inspection equipment to cause mistaken power failure.

In one embodiment, a biopsy system is provided, the system comprising a biopsy device as described in any of the embodiments above; also included is an item to be inspected configured to be received within the receiving cavity of the storage assembly. The article to be inspected may be a biological sample of a human or animal, or some evidence, etc., and the biological sample may be blood, saliva, accounting, etc. The object to be inspected may include a sample body, i.e. a body such as the biological sample or the evidence, for example, a blood sample, a urine sample, a saliva sample, or the like, and a sample container, i.e. a test tube or a packaging bag for holding the sample body.

In one embodiment, and as illustrated in connection with fig. 1-6, the inspection apparatus 100 includes a housing assembly 10, a cover assembly 20, a storage assembly 30, a lock assembly, a camera 50, a refrigeration assembly, a cooling fan 70, a power assembly 80, a circuit board 90, and circuitry (not shown).

The second panel of the upper cover assembly 20 is a shielding plate 21, the upper cover assembly 20 further comprises a top plate positioned on the opposite side of the shielding plate 21, the second side wall 22 comprises upper side plates 22a, 22b, 22c and 22d, a third opening 21-1 or a third groove 21-1 is formed in the middle part of the shielding plate 21 close to the upper side plate 22a, a fourth opening or a fourth groove for accommodating the lock bolt 42 is formed in the middle part of the shielding plate 21 close to the upper side plate 22b, and a fifth groove 21-2 or a fifth opening 21-2 for accommodating the camera 50 is formed in the middle part of the shielding plate close to the upper side plate 22 d. The third opening 21-1 or the third recess 21-1 is filled with a heat insulating layer 23, which may be heat insulating cotton, for sealing and insulating the article accommodating chamber when the upper cover assembly 20 is closed with the housing assembly 10, and the heat insulating cotton may be attached to the third opening 21-1 or the third recess 21-1. The cover 21, the top plate, and the upper side plates 22a, 22b, 22c, and 22d may be surrounded by a substantially hollow case, which may be integrally formed, or may be assembled and spliced by fixing them with screws or the like. The adjacent upper side plates 22a, 22b, 22c, 22d may be connected by chamfering or right angles.

The housing assembly 10 includes a first panel 11 adjacent a surface of the upper cover assembly, a third panel 13 remote from the surface of the upper cover assembly, and a first sidewall 12 surrounding the first and third panels. The first side wall 12 includes a lower back plate 12d hinged to the upper cover assembly 20, a lower face plate 12b opposite to the lower back plate, a lower side plate 12c connecting the lower back plate 12d and the lower face plate 12a, and a third face plate 13. The bottom plate 13 may be provided with a first vent hole, and one or more of the first side walls 12 may be provided with a second vent hole, such as vent hole 12-1 on the lower panel 12b and vent hole 12-2 on the lower back panel 12 d. The lower back plate, the lower face plate and the lower side plate can be surrounded to form a box body which is approximately hollow, the box body can be integrally formed, and the box body can also be assembled and spliced by fixing in a screw mode, for example, fixing through a keel structure. The adjacent upper side plates 22a, 22b, 22c, 22d may be connected by chamfering or right angles. An antenna 95 is also provided on the lower back plate 12 d.

The storage assembly 30 includes a high thermal conductivity case 31, which case 31 may be made of metal or alloy, and an opening is formed at an upper end of the case 31, and a raised sealing strip 32 is provided at a side edge of the case 31. The sealing strip 32 may be raised with respect to the first panel 11 by a height of 0.1mm to 5mm, preferably 0.5mm to 2mm, such as any raised height of 0.1mm, 0.2mm, 0.5mm, 1mm, 1.5mm, 2mm, 2.5mm, 3mm, etc. The box side 31-1 and the bottom 31-2 are surrounded by a thermal insulation layer 33, and the thermal insulation layer 33 and the sealing strip 32 may be low thermal conductivity thermal insulation cotton. The insulating layer 23 on the cover assembly 20 may seal against the cassette formation when the inspection apparatus 100 is in the closed position. The shape of the case 31 may be substantially square, cylindrical, or any other shape suitable for storing the inspection items.

The heat preservation 23 and the sealing strip 32 have certain elasticity, the heat preservation 23 is raised relative to the second panel 21, and/or the sealing strip 32 is raised relative to the first panel, so that after the shell component and the upper cover component are closed and locked, the shell component and the upper cover component are tightly attached together due to pressure, and the shell component and the upper cover component can further form a compression state, so that the shell component and the upper cover component are prevented from shaking due to the fact that the shell component and the upper cover component are not tightly closed.

The lock body 41, refrigeration assembly, power assembly 80 including a power source, circuit board 90 are within the generally enclosed space formed by the housing assembly 20, or within the generally enclosed space formed by the housing assembly 20 and the storage assembly 30. The power supply assembly may be located on the underside of the circuit board, i.e. in the Z-direction, and the refrigeration assembly may be located on the right side of the power supply assembly, i.e. in the Y-direction. The refrigeration assembly is attached below the storage assembly, i.e., in the Z-direction. The refrigerating assembly comprises one, two, three or more conducting blocks 61, wherein the upper surface of the conducting block 61 is clung to the bottom surface of the box body 31, the lower surface is clung to the refrigerating heat-insulating sheet 62, the lower surface of the refrigerating heat-insulating sheet 62 is clung with a radiator 63, and the radiator consists of a plurality of radiating strips 63-1 or radiating sheets 63-1 in a matrix form, so that a part of an air duct is formed. The space between the conductive block 61 and the refrigerating and heat insulating sheet is filled with heat insulating cotton 33, and the conductive block 61 may be any shape such as a square body, a cylinder, etc. The refrigeration assembly is electrically connected to the circuit board 90 and the power assembly 80 by wires to control the refrigeration of the storage assembly by the refrigeration assembly through the electrical circuit.

The lock assembly 40 includes a latch 42 fixed to the shutter 21 and a lock body 41 fixed in the lower panel 12 b. A baffle 14 is provided directly in front of the lock body, the baffle 14 being located on the outer surface of the lower panel 12b to form a shield for the lock body. A handle 15 is further arranged right in front of the baffle 14, the handle 15 can be fixed on the lower panel 12b, and the handle 15 is arranged right in front of the baffle 14 to prevent the baffle from being broken due to careless collision.

Camera 50 may be coupled to the housing assembly via camera mount 55. The center of the camera mount 55 is provided with a camera hole, the camera 50 can be located in the camera hole, and a certain included angle is formed between the camera 50 and the first panel 11, so that when the inspection equipment is horizontally placed and opened, the camera can shoot facial information through the camera hole. The camera mount 55 may be fixed to the lower back plate 12d by screws or the like, the camera mount 55 protrudes with respect to the first face plate 11, and a fifth opening 21-2 or a fifth groove 21-2 is provided at a corresponding position of the shutter 21, so that the camera is protected when the case is closed.

The heat dissipation fan 70 may be fixed on any one of the first side walls, such as the lower back plate 12d, or may be fixed on the bottom plate 13, or one or more heat dissipation fans 70 are fixed on the first side wall and the bottom plate 13, where the heat dissipation fan 70 may be air-out or air-out inwards, so that the first ventilation hole and the second ventilation hole are configured to form an air channel, and the hot air blown by the heat dissipation fan is discharged.

Reference is made to the schematic illustration of part a, wherein a side of the second side wall adjacent to the housing assembly is convex with respect to the shutter, i.e. the second panel is second concave in a first direction with respect to the second side wall, and correspondingly the first panel is first convex in a first direction with respect to the first side wall. Conversely, a side of the second side wall adjacent to the housing assembly may be recessed relative to the shroud, i.e., the second panel is second raised relative to the second side wall in a first direction, and correspondingly, the first panel is first recessed relative to the first side wall in the first direction. Thus, the user can be prevented from violently prying open the inspection apparatus.

Although example embodiments have been described, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the inventive concept. Accordingly, it should be understood that the above-described example embodiments are not limiting, but rather illustrative.

Claims (9)

1. A censoring apparatus, comprising:

a housing assembly including a first panel adjacent to a surface of the upper cover assembly, a first sidewall surrounding the first panel, the first panel being first convex or first concave in a first direction relative to the first sidewall;

a cover assembly attached to the housing assembly, the cover assembly including a second panel adjacent to a surface of the housing assembly, a second sidewall surrounding the second panel, the second panel being second recessed or second raised in a first direction relative to the second sidewall;

the first side wall protrudes in a third direction relative to the first panel, the second side wall protrudes in a fourth direction relative to the second panel, the first direction is the vertical direction in which the inspection device is positioned when the upper cover assembly is horizontally arranged upwards, and the second direction is the horizontal direction in which the inspection device is positioned when the upper cover assembly is horizontally arranged upwards;

the edge shapes of the first side wall and the first panel 11 and the edge shapes of the second side wall and the second panel are similar to the shapes of an upright or inverted 'ㄣ' or 'step';

the first bulge or the first concave and the second bulge form an anti-prying structure when the shell component and the upper cover component are covered;

a storage assembly attached to the housing assembly, having a receiving cavity configured to receive an item to be inspected;

the lock assembly comprises a lock body arranged in a cavity of the shell assembly and a lock bolt connected with the upper cover assembly, the lock body is provided with an emergency unlocking component, and the lock bolt is fixed on the second panel;

a camera;

circuitry configured to activate the camera upon detecting unlocking of the lock assembly by the emergency unlocking component;

the housing assembly further includes a bezel secured to an outer surface of the first sidewall, the bezel configured to conceal the emergency unlocking feature;

the storage assembly comprises a box body, a raised sealing strip is arranged on the side edge of the box body, the upper cover assembly further comprises a heat preservation layer arranged on the outer surface of the second panel, the projection area of the heat preservation layer in the first direction is larger than that of the storage assembly, when the inspection equipment is in a closed state, the heat preservation layer forms sealing with the accommodating cavity, the heat preservation layer and the sealing strip are elastic, the heat preservation layer is raised relative to the second panel, and/or the sealing strip is raised relative to the first panel, so that after the shell assembly and the upper cover assembly are closed and locked, the shell assembly and the upper cover assembly form a compression state.

2. The inspection apparatus of claim 1, wherein the first panel is first convex in a first direction relative to the first sidewall and the second panel is second concave in a first direction relative to the second sidewall; the first panel and the first side wall are integrally formed, and the second panel and the second side wall are integrally formed.

3. The inspection apparatus of claim 1, wherein the first, second, third, and fourth protrusions each have a length in the range of 0.1mm to 10 mm.

4. The inspection apparatus of claim 1, wherein the first panel is provided with a camera receiving cavity proximate an attachment side of the housing assembly to which the upper cover assembly is attached;

the camera is configured within the camera receiving cavity.

5. The inspection apparatus of claim 1, further comprising:

a refrigeration assembly attached to the storage assembly configured to refrigerate the storage assembly;

a heat radiation fan;

the shell assembly further comprises a third panel far away from the surface of the upper cover assembly, the third panel is provided with a first ventilation hole, the first side wall is provided with a second ventilation hole, the first ventilation hole and the second ventilation hole are configured to form an air channel, and hot air blown by the cooling fan is discharged.

6. The inspection apparatus of claim 5, wherein the storage assembly further comprises an enclosure or insulation layer surrounding the box, the refrigeration assembly comprising a conductive block, a refrigeration insulation sheet, and a heat sink;

the upper surface of the conduction block is clung to the bottom surface of the box body, the lower surface of the conduction block is clung to the refrigeration heat-insulating sheet, the lower surface of the refrigeration heat-insulating sheet is clung to the radiator, and the radiator consists of a plurality of radiating strips or radiating sheets in a matrix form, so that a part of the air duct is formed.

7. The inspection apparatus of claim 1, further comprising:

a lock sensor for detecting whether the lock assembly is unlocked by the emergency unlocking means, and determining that the lock assembly is unlocked by the emergency unlocking means when the barrier is detected to be broken;

a wireless communication unit configured to communicate with an external device;

the circuitry is configured to activate the camera and the wireless communication unit upon the lock sensor detecting unlocking of the lock assembly by the emergency unlocking component.

8. The inspection apparatus of claim 7, further comprising:

a temperature sensor configured to detect a temperature of the storage assembly;

the circuit is configured to activate the camera and the wireless communication unit upon detecting that the temperature detected by the temperature sensor is below a preset temperature threshold.

9. A censoring system, comprising:

the inspection apparatus of any one of claims 1 to 8;

an item to be inspected is configured to be received within the receiving cavity of the storage assembly.