CN114265267A - Radioactive source label collecting device - Google Patents

Abstract

The invention discloses a radioactive source label collecting device which comprises a frame, wherein the frame is provided with a frame body, a first lead tank and a second lead tank, a transparent tube is vertically arranged in the frame body, and the upper end and the lower end of the transparent tube are respectively communicated with the first lead tank and the second lead tank; a motor is arranged in the frame body, and a transmission assembly is arranged between the motor and the transparent tube; the transparent tube is provided with an installation block positioned below the motor, the installation block is provided with a first electric push rod vertical to the axis of the transparent tube, and the side wall of the transparent tube is provided with a through hole matched with the push rod of the first electric push rod; the side wall of the frame body is provided with a shooting opening, one side of the shooting opening, which is far away from the transparent tube, is horizontally provided with a platform, and the platform is provided with a camera corresponding to the shooting opening. The camera is adopted to shoot the marks on the radioactive source, so that the camera is safer, the motor and the transmission assembly are adopted to drive the transparent tube to rotate, one side of the radioactive source with the marks can be rotated to the shooting opening, the camera is convenient to shoot, the automation degree of mark collection is high, and the working efficiency is improved.

Description

Radioactive source label collecting device

Technical Field

The invention relates to the field of radioactive sources, in particular to a radioactive source label collecting device.

Background

The loading or replacement of the radioactive source is referred to as the upside-down loading of the radioactive source. The radioactive sources all contain a label, and the labels need to be collected before the radioactive sources are filled; if the collection is carried out in a manual mode, namely, the marks of the radioactive sources are observed in a close distance through eyes, the eyes are damaged by radiation generated by the radioactive sources, and a human body is influenced by the radiation; therefore, it is necessary to design a label collecting device for radioactive sources.

Disclosure of Invention

The invention aims to provide a radioactive source label collecting device.

The invention has the innovation points that the camera is adopted to collect the marks of the radioactive sources to replace manual collection, so that the collection is convenient, the efficiency is high, and the collection is safer; adopt hyaline tube, motor, drive assembly, can put the radiation source label in the hyaline tube and rotate to shooting mouth department, the camera of being convenient for shoots, and degree of automation is high.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a radioactive source label collecting device comprises a frame, wherein the frame is provided with a frame body, a first lead tank and a second lead tank, the first lead tank is positioned above the frame body, the second lead tank is positioned below the frame body, a transparent pipe is vertically arranged in the frame body, the upper end of the transparent pipe is communicated with the bottom of the first lead tank, and the lower end of the transparent pipe is communicated with the upper part of the second lead tank; a motor is arranged in the frame body, a transmission assembly is arranged between the motor and the transparent tube, and the motor drives the transparent tube to rotate through the transmission assembly; the motor is arranged in the transparent tube, the motor is arranged in the motor, the motor is arranged in the motor, the transparent tube, the side wall is provided with a through hole, the through hole, and the through hole, which is arranged in the through hole is formed in the through hole, and is formed in the side wall of the through hole, and is formed in the through hole, and is matched with the through hole, which is matched with the through hole, and is formed in the through hole, and is matched with the through hole, in the through hole, and is formed in the through hole, and is matched with the through hole, and is formed in the through hole, and is matched with the through which is formed in the through hole, and is formed in the; the camera comprises a frame body and is characterized in that a shooting opening is formed in one side wall of the frame body, a platform is horizontally arranged on one side, away from a transparent tube, of the shooting opening, and a camera corresponding to the shooting opening and the transparent tube is arranged on the platform. The camera is adopted to collect the marks of the radioactive sources to replace manual collection, so that the collection is convenient, the efficiency is high, and the collection is safer; the radiation source label in the transparent tube can be rotated to the shooting opening by adopting the transparent tube, the motor and the transmission assembly, so that the camera can shoot conveniently, and the automation degree is high; adopt first electric putter, can keep out the radiation source in the transparent tube or be convenient for the radiation source from the intraductal landing of transparent to in the second plumbous jar.

Preferably, the transmission assembly includes a driving bevel gear installed on the rotor of the motor and a driven bevel gear provided on the transparent tube and engaged with the driving bevel gear. Be equipped with initiative bevel gear and driven bevel gear, play the transmission effect, can drive the hyaline tube and rotate, and then the synchronous drive first electric putter rotates, turns to the reference numeral on the radiation source and shoots the mouth, and the camera of being convenient for is shot.

Preferably, the transparent tube is provided with a sliding ring positioned below the mounting block. The slip ring is arranged to prevent the first electric push rod from winding with the wiring harness in the rotating process of the transparent tube.

Preferably, a first adjusting groove is vertically formed in the side wall, facing the platform, of the frame body, and the platform is installed on the first adjusting groove. Be equipped with first adjustment tank, can adjust the height of platform, and then adjust the camera height, the camera of being convenient for shoots the reference numeral of radiation source.

Preferably, one side of the platform, which is far away from the frame body, extends outwards to form an inclined plate which inclines upwards, the inclined plate is provided with a second adjusting groove along the length direction of the inclined plate, and the camera is installed on the second adjusting groove. Be equipped with the second adjustment tank, can adjust the camera and be close to or keep away from the framework to satisfy the shooting demand of camera.

Preferably, a through hole vertically penetrates through the first lead tank, a plurality of radioactive sources are sequentially arranged in the through hole, a second electric push rod penetrating into the through hole is horizontally arranged on the outer side wall of the first lead tank, and the upper end of the transparent tube is communicated with the lower end of the through hole. The radioactive sources are arranged in the through holes one by one, and the second electric push rod controls the radioactive sources to fall into the transparent tubes one by one.

Preferably, an accommodating cavity with an open top is vertically arranged in the second lead tank, and the upper end of the accommodating cavity is communicated with the transparent pipe. After the radioactive source label is shot, the push rod of the first electric push rod retracts into the first electric push rod, the radioactive source falls into the containing cavity, the brass rod is manually placed into the containing cavity, and then the radioactive source can be transferred.

The invention has the beneficial effects that:

1. according to the invention, the camera is adopted to collect the radioactive source labels to replace manual collection, so that the collection is convenient, the efficiency is high, and the collection is safer; adopt hyaline tube, motor, drive assembly, can put the radiation source label in the hyaline tube and rotate to shooting mouth department, the camera of being convenient for shoots, and degree of automation is high.

2. The slip ring is adopted in the invention, so that the wiring harness of the first electric push rod is prevented from winding in the process of rotating along with the transparent pipe.

3. According to the invention, the first adjusting groove and the second adjusting groove are adopted, so that the position of the camera can be adjusted in multiple directions to meet different shooting requirements.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the first and second adjustment grooves.

In the figure:

1. a frame; 2. a frame body; 21. a shooting port; 22. a first regulating groove; 23. a platform; 24. a sloping plate; 25. a second regulating groove; 3. a first lead can; 31. a second electric push rod; 32. a limit bolt; 4. a second lead can; 41. a brass rod; 5. a transparent tube; 51. perforating; 6. a motor; 61. a drive bevel gear; 62. a driven bevel gear; 7. mounting blocks; 8. a first electric push rod; 9. a slip ring; 10. a camera.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.

The described embodiments are only some embodiments of the invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in figure 1, the radioactive source label collecting device comprises a frame 1, wherein the frame 1 is provided with a frame body 2, a first lead tank 3 and a second lead tank 4, the first lead tank 3 is positioned above the frame body 2, and the second lead tank 4 is positioned below the frame body 2. The middle part of the first lead tank 3 vertically penetrates through a through hole, a plurality of radioactive sources are sequentially arranged in the through hole, and a second electric push rod 31 penetrating into the through hole is horizontally arranged on the outer side wall of the first lead tank 3. The middle part of the second lead tank 4 is vertically provided with an accommodating cavity with an opening at the top. In the invention, the outer side wall of the first lead tank 3 is in threaded connection with a limit bolt 32 with an end part penetrating into the through hole. The second electric push rod 31 is electrically controlled, the limiting bolt 32 is manually controlled, and switching can be performed at any time according to requirements.

As shown in fig. 1, a transparent tube 5 is vertically arranged in the frame body 2, the upper end of the transparent tube 5 is communicated with the through hole, and the lower end is communicated with the accommodating cavity. The frame body 2 is internally and horizontally and fixedly connected with a motor 6, a transmission assembly is arranged between the motor 6 and the transparent tube 5, and the transmission assembly comprises a driving bevel gear 61 arranged on a rotor of the motor 6 and a driven bevel gear 62 arranged on the transparent tube 5 and meshed with the driving bevel gear 61.

As shown in fig. 1, an installation block 7 located below the motor 6 is fixed on the transparent tube 5, a first electric push rod 8 is horizontally arranged on the installation block 7, a through hole 51 communicated with the inside of the transparent tube 5 is formed in the side wall of the transparent tube 5, and the through hole 51 is matched with the push rod of the first electric push rod 8. The transparent tube 5 is provided with a slip ring 9 positioned below the mounting block 7.

As shown in fig. 2, a shooting opening 21 is formed in one of the side walls of the frame body 2, first adjusting grooves 22 are formed in two sides of the shooting opening 21 in a vertical and symmetrical manner, a platform 23 installed on the first adjusting groove 22 is horizontally arranged on one side, away from the transparent tube 5, of the shooting opening 21, an inclined plate 24 which is inclined upwards is outwards extended from one side, away from the shooting opening 21, of the platform 23, a second adjusting groove 25 is formed in the inclined plate 24 along the length direction of the inclined plate, a camera 10 (see fig. 1) is installed on the second adjusting groove 25, and a lens of the camera 10 faces the connection position of the transparent tube 5 and the first electric push rod 8.

The system also comprises an industrial personal computer, wherein the motor 6, the first electric push rod 8, the second electric push rod 31 and the camera 10 are respectively electrically connected with the industrial personal computer, the industrial personal computer can be but not limited to MART series industrial personal computers, the industrial personal computer is provided with a network port, and related data can be automatically uploaded to a specific network server after connection.

In view of the above, it is desirable to provide,

the industrial personal computer firstly controls the first electric push rod 8 to be electrified, the push rod of the first electric push rod 8 penetrates into the transparent tube 5 from the through hole 51, and the radioactive sources are controlled to fall into the transparent tube 5 one by one through the second electric push rod 31 to be contacted with the push rod; then, the industrial personal computer controls the motor 6 to work, the transparent tube 5 is driven to rotate through the driving bevel gear 61 and the driven bevel gear 62, and the first electric push rod 8 is driven to synchronously rotate through the mounting block 7 in the rotating process of the transparent tube 5; in the process, the industrial personal computer controls the camera 10 to shoot the radioactive source in the transparent tube 5 until the mark of the radioactive source is shot and uploaded to the industrial personal computer; the industrial personal computer controls the first electric push rod 8 to be powered off, the push rod retracts into the first electric push rod 8, the radioactive source in the transparent tube 5 slides into the containing cavity, the second lead tank 4 is removed, and the brass rod 41 is placed into the containing cavity to abut against the radioactive source; the operation is repeated in this way, and the labels of the radioactive sources are collected.

Claims (7)

1. A radioactive source label collecting device comprises a frame, wherein the frame is provided with a frame body, a first lead tank and a second lead tank, the first lead tank is positioned above the frame body, the second lead tank is positioned below the frame body,

a transparent pipe is vertically arranged in the frame body, the upper end of the transparent pipe is communicated with the bottom of the first lead tank, and the lower end of the transparent pipe is communicated with the upper part of the second lead tank;

a motor is arranged in the frame body, a transmission assembly is arranged between the motor and the transparent tube, and the motor drives the transparent tube to rotate through the transmission assembly;

the motor is arranged in the transparent tube, the motor is arranged in the motor, the motor is arranged in the motor, the transparent tube, the side wall is provided with a through hole, the through hole, and the through hole, which is arranged in the through hole is formed in the through hole, and is formed in the side wall of the through hole, and is formed in the through hole, and is matched with the through hole, which is matched with the through hole, and is formed in the through hole, and is matched with the through hole, in the through hole, and is formed in the through hole, and is matched with the through hole, and is formed in the through hole, and is matched with the through which is formed in the through hole, and is formed in the;

the camera comprises a frame body and is characterized in that a shooting opening is formed in one side wall of the frame body, a platform is horizontally arranged on one side, away from a transparent tube, of the shooting opening, and a camera corresponding to the shooting opening and the transparent tube is arranged on the platform.

2. The radioactive source label acquisition device according to claim 1,

the transmission assembly comprises a driving bevel gear arranged on the motor rotor and a driven bevel gear arranged on the transparent pipe and meshed with the driving bevel gear.

3. The radioactive source label acquisition device according to claim 2,

and a sliding ring positioned below the mounting block is arranged on the transparent tube.

4. The radioactive source label acquisition device according to claim 3,

first adjusting grooves are vertically and symmetrically formed in two sides of the shooting opening, and the platform is installed on the first adjusting grooves.

5. The radioactive source label acquisition device according to claim 4,

the frame body is kept away from to one side outside extension ascending swash plate of platform, the swash plate is equipped with the second adjustment tank along its length direction, the camera is installed on the second adjustment tank.

6. The radioactive source label acquisition device according to claim 1,

the vertical through-hole that has run through in the first lead jar, it has a plurality of radiation sources to arrange in proper order in the through-hole, the lateral wall of first lead jar is improved level and is equipped with the second electric putter that penetrates to in the through-hole, the upper end and the through-hole lower extreme intercommunication of hyaline tube.

7. The radioactive source label acquisition device according to claim 6,

the second lead tank is internally vertically provided with a containing cavity with an open top, and the upper end of the containing cavity is communicated with the transparent pipe.

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