CN219811350U - Horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions - Google Patents

Abstract

The utility model discloses a horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions, which comprises a tank body assembly, wherein a bracket is fixedly connected to the side surface of the tank body assembly, a source bin is arranged in the middle of the tank body assembly, one end of the interior of the source bin is movably clamped with a length compensation block, a support frame assembly is movably connected in the source bin, and a chip assembly is embedded in the source cover assembly. Adopt above-mentioned technical scheme to make a dual-purpose intelligent source jar that stores up of lying with autonomous positioning and monitoring function, set up support frame subassembly and length compensation piece in the source storehouse and carry out stable support to the sub-source assembly, through set up mechanical lock between source lid subassembly and jar body subassembly, the lock control module on the cooperation chip realizes dual safety protection, carries out real-time supervision through the cooperation of each module on the chip assembly to guarantee the storage safety of radioactive source body.

Description

Horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions

Technical Field

The utility model relates to the technical field of storage and transportation of radioactive sources, in particular to a horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions.

Background

The neutron source is a device capable of releasing neutrons, neutron radiation hazard is an important radiation damage hazard factor, so that in the transportation process of neutron-containing radioactive articles, a transportation container is needed for transportation, for example, an utility model with an authorized bulletin number of CN212647892U discloses a radioactive source tank, positioning data, metering monitoring data and remote electronic lock control requirements of the source tank can be realized by arranging an intelligent detection module on the source tank, the data can be uploaded and monitored and displayed in real time on an Internet of things platform, and can be remotely controlled and unlocked, on one hand, the source tank can only load a specific neutron source, lacks a supporting and positioning structure for the neutron source, is difficult to ensure the stability of the neutron source in the transportation process, on the other hand, a source cover of the source tank can be opened in a remote control unlocking mode, the safety is not high, and in order to ensure the stability of the source tank, the source tank can only maintain a vertical state, the use flexibility is low, and various placing requirements cannot be met. Therefore, we propose a horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions.

Disclosure of Invention

In order to solve the problems, the utility model provides the following technical scheme: the utility model provides a dual-purpose intelligent source storage jar of lying with autonomous positioning and monitoring function, includes a jar body subassembly, jar body subassembly side fixedly connected with support, the middle part is equipped with the source storehouse in the jar body subassembly, be provided with the in-tank shield between the shell of source storehouse and jar body subassembly, the inside one end activity joint of source storehouse has the length compensation piece, swing joint has a support frame subassembly in the source storehouse, place neutron source assembly in the support frame subassembly, the uncovered department swing joint of source storehouse has a source lid subassembly, the source lid subassembly passes through mechanical lock locking on jar body subassembly lateral wall, be provided with radiation monitoring sensor in the source storehouse, be provided with the display screen on the source lid subassembly lateral wall, the source lid subassembly is embedded to be equipped with the chip assembly.

Preferably, the source cover assembly is fixed on the side wall of the tank body assembly through a cross-shaped countersunk head screw matched with the hinge.

Preferably, the chip assembly comprises a microprocessor module, an RFID read-write module, a G/G antenna module, a lock control module, a Beidou positioning module, an A/D conversion module and a storage module.

Preferably, the outer side wall of the tank body assembly is provided with a logo nameplate through a cross groove pan head screw.

Preferably, the side surface of the tank body assembly is fixedly connected with a handle.

The utility model has the advantages and beneficial effects that: the utility model provides a horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions, which comprises a tank body, a tank cover and a tank cover, wherein the tank cover is arranged on the tank cover:

(1) The neutron source assembly is stably supported by arranging the support frame assembly and the length compensation block in the source bin, neutron source assemblies with different lengths can be accommodated by arranging the length compensation block, neutron source assemblies with different widths can be clamped by the support frame assembly, and the support frame assembly is of a special structure and is specially used for fixing a specific radioactive source, so that the stability of the neutron source assembly in the early transfer process is improved, and the application range of the device is enlarged;

(2) By additionally arranging a mechanical lock between the source cover assembly and the tank body assembly and matching with a lock control module on the chip, double safety protection is realized, the safety of the neutron source in storage and transportation is improved, the source cover assembly cannot be opened without a special key, and the loss probability of the radioactive source body is reduced;

(3) The support is arranged on the side surface of the tank body assembly, so that the tank body assembly can stably maintain a horizontal state besides maintaining a vertical state, various placing requirements are met, and the use flexibility is improved;

(4) Through the cooperation of each module on the chip assembly, can transmit neutron source assembly's position and radiation data to backstage monitoring service center in real time, carry out real-time supervision to guarantee the deposit safety of radioactive source body.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a side cross-sectional view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a front view of the tank assembly of the present utility model in an upright position;

fig. 4 is a schematic block diagram of a chip assembly according to the present utility model.

In the figure: the device comprises a bracket 1, a tank body assembly 2, a tank inner shielding body 3, a source bin 4, a length compensation block 5, a support frame assembly 6, a neutron source assembly 7, a chip assembly 8, a source cover assembly 9, a cross-shaped slot countersunk head screw 10, a mechanical lock 11, a cross-shaped slot countersunk head screw 12 and a handle 13.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings and examples. The following examples are only for more clearly illustrating the technical aspects of the present utility model, and are not intended to limit the scope of the present utility model.

As shown in fig. 1-4, the utility model relates to a horizontal and vertical dual-purpose intelligent source storage tank with an autonomous positioning and monitoring function, which comprises a tank body assembly 2, wherein a bracket 1 is fixedly connected to the side surface of the tank body assembly 2, the tank body assembly 2 is made of 06Cr19Ni10 stainless steel materials, the rigidity and strength of the tank body assembly 2 are ensured, the bracket 1 is connected to the side surface of the tank body assembly 2 in a welding manner, as shown in fig. 1, the tank body assembly 2 is kept in a horizontal state by the side view, at the moment, the bracket 1 is positioned at the bottom end, and a stable support is provided for the tank body assembly 2, so that the tank body assembly 2 can be kept in a horizontal state, as shown in fig. 3, and the tank body assembly 2 is kept in a vertical state by the side view, therefore, the tank body assembly 2 can realize two horizontal and vertical stable states by the arrangement of the bracket 1, the flexibility of the tank body assembly 2 is improved, and different placing requirements are met;

the handle 13 is fixedly connected to the side face of the tank assembly 2, as shown in fig. 2 and 3, the handle 13 is convenient for carrying the whole tank assembly 2, and portability is improved;

the identification nameplate is arranged on the outer side wall of the tank body assembly 2 through the cross groove pan head screw 12, the cross groove pan head screw 12 is detachable, the identification nameplate is convenient to detach and replace, and the identification nameplate can be used for identifying an internal radioactive source;

the middle part is provided with a source bin 4 in the tank body assembly 2, an in-tank shielding body 3 is arranged between the source bin 4 and the shell of the tank body assembly 2, as shown in fig. 1, the source bin 4 is a hollow cavity and is arranged in the middle part of the tank body assembly 2 and used for accommodating a radioactive source, one end of the source bin 4 penetrates through one side of the tank body assembly 2, so that one side of the tank body assembly 2 is open, the radioactive source is conveniently placed into the source bin 4 from the open position, and the in-tank shielding body 3 is made of a boron-containing high polymer material, so that the radioactive source can be effectively prevented from being diffused, and the safety is improved;

the length compensation block 5 is movably clamped at one end inside the source bin 4, the support frame component 6 is movably connected in the source bin 4, the neutron source assembly 7 is arranged in the support frame component 6, the length compensation block 5 is movably clamped with the source bin 4, the length compensation block 5 is convenient to take out and replace, the outer diameter of the length compensation block 5 is consistent with the inner diameter of the source bin 4, the length compensation block 5 can be stably clamped in the source bin 4, the specific length of the length compensation block 5 can be replaced, the neutron source assembly 7 with different lengths is adapted, the neutron source assembly is prevented from being laterally displaced in the source bin 4 (the lateral direction is the lateral direction with reference to the azimuth shown in figure 1), the support frame component 6 is of a special structure and is specially used for fixing the specific neutron source assembly 7, the neutron source assembly 7 is prevented from vertically displacing in the source bin 4 (the vertical direction refers to the vertical direction in the azimuth shown in fig. 1), the support frame assembly 6 can be inserted into the source bin 4, a specific radiation source radiation shielding material is filled between the support frame assembly 6 and the side wall of the source bin 4, the shielding material can be selected according to specific use requirements, the shielding material is not limited in particular, when the neutron source assembly 7 is placed in the source bin 4, the length compensation block 5 with the proper length is selected according to the length of the neutron source assembly 7 to be clamped into one end of the source bin 4, the support frame assembly 6 arranged according to the specific neutron source assembly 7 is connected with the neutron source assembly 7, and the support frame assembly 6 and the neutron source assembly 7 are placed into the source bin 4 together, so that one end of the support frame assembly 6 is abutted with one side of the length compensation block 5;

the open part of the source bin 4 is movably connected with the source cover assembly 9, the source cover assembly 9 comprises a cover body which is abutted on the outer wall of the source bin 4 and a plug which extends into the source bin 4, the plug of the source cover assembly 9 can be abutted on one end of the support frame assembly 6 far away from the length compensation block 5, the stable limit of the neutron source assembly 7 is realized, and the neutron source assembly 7 is prevented from being displaced in the source bin 4 in the transportation process;

the source cover assembly 9 is fixed on the side wall of the tank body assembly 2 through the cross groove countersunk head screws 10 matched with hinges, the cross groove countersunk head screws 10 are connected with the cover body of the source cover assembly 9, which is abutted against the outer wall of the source bin 4, and the outer wall of the source bin 4, so that the source cover assembly 9 is prevented from being separated from the outer wall of the source bin 4, a plurality of cross groove countersunk head screws 10 can be annularly arranged, the stability and the safety are ensured, the source cover assembly 9 can be lifted through the hinges, and the source bin 4 is conveniently opened;

the source cover assembly 9 is locked on the side wall of the tank body assembly 2 through the mechanical lock 11, a retaining ring can be arranged on the source cover assembly 9, a retaining ring is also arranged on the side wall of the tank body assembly 2, and the two retaining rings can be locked by utilizing the mechanical lock 11;

the radiation monitoring sensor is arranged in the source bin 4, the display screen is arranged on the outer side wall of the source cover assembly 9, the chip assembly 8 is embedded in the source cover assembly 9, the radiation monitoring sensor can monitor radiation in the source bin 4 so as to judge whether the neutron source assembly 7 is stored in the source bin 4 or not, and the radiation state condition of the neutron source assembly 7 is judged, the radiation monitoring sensor is connected with the chip assembly 8, signals can be transmitted to the chip assembly 8 by the radiation monitoring sensor, the display screen is positioned on the outer side wall of the source cover assembly 9, the display screen is connected with the chip assembly 8, a user can observe the conditions of data and the like received by the chip assembly 8 through the display screen, in addition, the radiation monitoring sensor can be an RAD-S104 fixed radiation sensor probe, can also be a probe of other types, is set according to the type of the neutron source assembly 7 and is not particularly limited;

the chip assembly 8 comprises a microprocessor module, an RFID read-write module, a 4G/5G antenna module, a lock control module, a Beidou positioning module, an A/D conversion module and a storage module, wherein the relation among the modules in the chip assembly 8 is shown in fig. 4, and the microprocessor module is a core module of the chip assembly 8 and is used for receiving and processing information;

the state of the radioactive source body is monitored through the radiation monitoring sensor, the monitored data can be transmitted to the microprocessor through the A/D conversion module, and the microprocessor processes the signals after receiving the signals and directly stores the monitored data through the storage module;

the storage module can be a flash chip and is responsible for storing data of the microprocessor and communicating with an SPI serial port between the microprocessor;

the reader structure of the RFID read-write module can be arranged on the outer wall of the source cover assembly 9, so that the user identity can be conveniently read and written, and the RFID read-write module arranged on the chip assembly 8 can be used for identifying the user identity, recording the user information and the use information and facilitating the later inquiry;

the 4G/5G antenna module is used for communicating with a far end, the 4G/5G antenna module exchanges data with the microprocessor through the SPI serial port, and the monitoring data are transmitted to the background monitoring service center through the 4G/5G antenna module for real-time monitoring, so that the storage safety of the radioactive source body is ensured;

the transferability of the whole device is verified through the lock control module, so that the transportation safety is ensured;

the big dipper positioning module is the module of integrated big dipper locate function for the geographical position location, and this module receives big dipper satellite signal, carries out data exchange through UART serial ports and microprocessor after with signal processing, analysis, and big dipper positioning module's antenna port can set up and draw forth in the source lid subassembly 9 outside, can external sucking disc antenna, so that reinforcing signal.

When the neutron source assembly is used, according to the length of the neutron source assembly 7, a length compensation block 5 with proper length is selected to be clamped into one end of the source bin 4, a support frame component 6 arranged according to a specific neutron source assembly 7 is connected with the neutron source assembly 7, the support frame component 6 and the neutron source assembly 7 are put into the source bin 4 together, one end of the support frame component 6 is abutted with one side of the length compensation block 5, one side of an opening of the source bin 4 is closed by a source cover component 9, a plug of the source cover component 9 can be abutted with one end, far away from the length compensation block 5, of the support frame component 6, stable limiting of the neutron source assembly 7 is achieved, a cover body of the source cover component 9 is abutted on the outer wall of the source bin 4 and fixed by a cross-shaped countersunk screw 10, and connection between the source cover component 9 and the tank body component 2 is further protected by a mechanical lock 11;

through the arrangement of the bracket 1, the tank body assembly 2 can realize two stable states of horizontal and vertical and meet different placing requirements;

in the transferring process, the state of the neutron source assembly 7 is monitored through the radiation monitoring sensor, the monitored data is transmitted to the microprocessor through the A/D conversion module, the microprocessor receives signals and processes the signals, the monitored data is directly stored through the storage module, and meanwhile, the monitored data is transmitted to the background monitoring service center through the 4G/5G antenna module for real-time monitoring, so that the storage safety of the neutron source assembly 7 is ensured, the Beidou positioning module is utilized for positioning the whole source tank in real time, the position of the radioactive source body is determined at any time, the transportation safety is ensured, and the radioactive source body is prevented from being lost;

when the neutron source assembly 7 is taken out of the source bin 4, firstly, identity identification needs to be carried out on a user through the RFID read-write device, user information and use information are recorded, later inquiry is facilitated, the transferability of the whole device is verified through the lock control module, transportation safety is guaranteed, the source cover assembly 9 is opened through a special key, multiple safety verification on the neutron source assembly 7 is achieved, and the safety of the transportation process is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (5)

1. Horizontal and vertical dual-purpose intelligent source storage tank with autonomous positioning and monitoring functions comprises a tank body assembly (2), and is characterized in that: the utility model discloses a radiation monitoring device for a nuclear power plant, including jar body subassembly (2), jar body subassembly (2) side fixedly connected with support (1), the middle part is equipped with source storehouse (4) in jar body subassembly (2), be provided with jar internal shield (3) between the shell of source storehouse (4) and jar body subassembly (2), the inside one end activity joint of source storehouse (4) has length compensation piece (5), swing joint has support frame subassembly (6) in source storehouse (4), neutron source assembly (7) have been placed in support frame subassembly (6), open department swing joint in source storehouse (4) has source lid subassembly (9), source lid subassembly (9) are through mechanical lock (11) lock on jar body subassembly (2) lateral wall, be provided with radiation monitoring sensor in source storehouse (4), be provided with the display screen on source lid subassembly (9) lateral wall, source lid subassembly (9) are embedded to be equipped with chip assembly (8).

2. The intelligent horizontal and vertical source tank with autonomous positioning and monitoring functions according to claim 1, wherein: the source cover assembly (9) is fixed on the side wall of the tank body assembly (2) through a cross groove countersunk head screw (10) matched with a hinge.

3. The intelligent horizontal and vertical source tank with autonomous positioning and monitoring functions according to claim 1, wherein: the chip assembly (8) comprises a microprocessor module, an RFID read-write module, a 4G/5G antenna module, a lock control module, a Beidou positioning module, an A/D conversion module and a storage module.

4. The intelligent horizontal and vertical source tank with autonomous positioning and monitoring functions according to claim 1, wherein: the outer side wall of the tank body assembly (2) is provided with a logo nameplate through a cross groove pan head screw (12).

5. The intelligent horizontal and vertical source tank with autonomous positioning and monitoring functions according to claim 1, wherein: the side of the tank body component (2) is fixedly connected with a handle (13).