CN113189631B

CN113189631B - Environment-level dose rate instrument

Info

Publication number: CN113189631B
Application number: CN202110449261.1A
Authority: CN
Inventors: 陆浩楠; 翁肖佳; 叶斌; 贺兵; 魏晓磊; 何水龙
Original assignee: Zhejiang Yida Testing Technology Co ltd
Current assignee: Zhejiang Yida Testing Technology Co ltd
Priority date: 2021-04-25
Filing date: 2021-04-25
Publication date: 2023-04-25
Anticipated expiration: 2041-04-25
Also published as: CN113189631A

Abstract

The application relates to the technical field of environment detection equipment, in particular to an environment-level dose rate instrument, which comprises an instrument main body, a bracket and a plurality of rotating columns which are sequentially arranged along the length direction of the instrument main body, wherein one rotating column positioned at the edge is arranged on the bracket, and the instrument main body is arranged on the other rotating column positioned at the edge; every two adjacent rotating columns are hinged end to end through a rotating assembly, the rotating columns rotate on a vertical surface, and the axial direction of each rotating column is parallel to a plane formed by the rotating columns during rotation; the rotating components positioned at odd number or even number are connected with the bracket through pull ropes. The maintenance efficiency of instrument main part can be improved to this application.

Description

Environment-level dose rate instrument

Technical Field

The application relates to the technical field of environment detection equipment, in particular to an environment-level dose rate meter.

Background

The environment-level dose rate meter is mainly used for measuring the gamma air absorption dose rate of environmental radiation, monitoring industrial radioactive radiation, monitoring the dose rate of an X-gamma radiation source workplace, monitoring the dose around an X-ray machine, monitoring the radioactivity of various building materials, monitoring the radiation of departments such as geological mines, medical health and the like.

When the instrument body is used in the region with serious radiation, the instrument body needs to be overhauled regularly, workers need to wear the radiation protection clothes to enter the radiation region, so that the instrument body is taken to the outside for overhauling, the operation is more troublesome, the overhauling efficiency of the instrument body is affected, and therefore, improvement is needed.

Disclosure of Invention

In order to improve the maintenance efficiency of the instrument body, the application provides an environmental-grade dose rate instrument.

The application provides an environment-level dose rate meter, adopts following technical scheme: the environment-level dose rate instrument comprises an instrument main body, a bracket and a plurality of rotating columns which are sequentially arranged along the length direction of the instrument main body, wherein one rotating column positioned at the edge is arranged on the bracket, and the instrument main body is arranged on the other rotating column positioned at the edge; every two adjacent rotating columns are hinged end to end through a rotating assembly, the rotating columns rotate on a vertical surface, and the axial direction of each rotating column is parallel to a plane formed by the rotating columns during rotation; the rotating components positioned at odd number or even number are connected with the bracket through pull ropes.

By adopting the technical scheme, in the use process of the instrument main body, the plurality of rotating columns are sequentially distributed along the self extending direction, and at the moment, the instrument main body is positioned in a radiation area, and the bracket is positioned outside the radiation area; when the instrument main body needs to be overhauled, a worker pulls all the pull ropes, the rotating assembly is close to the support, a plurality of rotating columns are arranged in a zigzag shape, and the rotating columns drive the instrument main body to move out of the radiation area, so that the worker overhauls the instrument main body, and the overhauling efficiency of the instrument main body is improved.

When need not to use the instrument main part, will be the many rotation post that the broken line shape set up to the upset on the support, can make the rotation post be accomodate on the support, made things convenient for the whole transportation of this application.

Optionally, a winding assembly is arranged on the bracket, the winding assembly comprises a rotating shaft rotatably connected to the bracket, and a plurality of turntables for winding corresponding pull ropes are sleeved on the rotating shaft; the outer diameter of the turntable wound by the pull rope on the rotating component close to the turntable is larger than that of the turntable wound by the pull rope on the rotating component far away from the turntable.

Through adopting above-mentioned technical scheme, when rotatory pivot, the pivot will drive the stay cord that all carousel synchronous winding corresponds, and the motion speed of the rotating assembly far away from the support is faster, so through rotatory pivot, can make a plurality of spliced poles be the broken line shape setting, has made things convenient for overhauling the instrument main part.

Optionally, the device further comprises a supporting component, wherein the supporting component comprises an electric cylinder, and a supporting plate for the rotating column to collide when the rotating column is turned downwards is arranged on a piston rod of the electric cylinder.

Through adopting above-mentioned technical scheme, when being the many rotation post that the zigzag set up to overturn on the support, the backup pad will compress tightly in the backup pad, and the piston rod of cylinder will retract gradually for the rotation post slowly overturns downwards, thereby makes rotation post and instrument main part be difficult for colliding with the damage.

Optionally, the support assembly further comprises a rotating plate, the middle part of the rotating plate is rotatably connected to the bracket through a horizontal shaft, and one end of the rotating plate is connected to the cylinder body of the electric cylinder; the bracket is provided with a limiting plate which is used for the other end of the rotating plate to collide when the rotating plate is overturned upwards.

Through adopting above-mentioned technical scheme, when the workman did not exert force to the rotor plate, the rotor plate was connected in the one end of electric jar cylinder body and will be turned over downwards for the other end of rotor plate upwards overturns and contradicts in the limiting plate, and electric jar and rotor plate will be static this moment.

When the plurality of rotary columns arranged in a zigzag shape are turned over to the support, a worker steps on the other end of the rotary plate, so that the electric cylinder and the support plate are turned up, and the support plate supports the rotary columns turned over downwards; the piston rod of the electric cylinder is gradually retracted, so that the rotating column slowly turns downwards; the worker's foot will then gradually lift up and the electric cylinder will gradually turn down so that the rotating column continues to turn down and rest on the stand. The setting of pivoted plate for the backup pad can enough make the pivoted post slowly overturn and shelve on the support, has reduced the motion stroke of electric jar piston rod again, makes the workman can adopt less electric jar, so the removal transportation of this application will be comparatively convenient.

Optionally, the instrument main body is slidingly connected to all the rotating columns, a first roller abutting against the rotating columns and a first motor for driving the first roller to rotate are arranged on the instrument main body, and an output shaft of the first motor is connected to the first roller; the bracket is provided with a control panel, and the first motor is coupled to the control panel.

Through adopting above-mentioned technical scheme, first motor will drive first gyro wheel and roll on the spliced pole for instrument main part rectilinear movement on the spliced pole, the position of convenient regulation instrument main part, and make instrument main part can directly shift out the radiation area, made things convenient for the maintenance of instrument main part.

Optionally, a second roller for abutting against the ground and a second motor for driving the second roller to rotate are arranged on the rotating column farthest from the bracket, and an output shaft of the second motor is connected with the second roller; the bracket is provided with a control panel, and the second motor is coupled to the control panel.

Through adopting above-mentioned technical scheme, when a plurality of spliced poles are the broken line shape setting, and the second gyro wheel is contradicted in ground, control panel will control the second motor and open, and the second motor will drive the second gyro wheel roll and keep away from in the support for a plurality of spliced poles expand gradually, and the instrument main part on the spliced pole that the second gyro wheel is located at this moment will move to the radiation region in, convenient operation.

Optionally, the rotating assembly comprises two connecting plates respectively connected with the corresponding rotating columns, and the two connecting plates are rotationally connected with the same rotating rod; the rotating rod in the rotating assembly which is not connected with the pull rope is sleeved with a third roller which is used for abutting against the ground.

By adopting the technical scheme, when the second roller is abutted against the ground, the third roller is abutted against the ground; when the second motor drives the second roller to roll away from the bracket, the third roller also rolls on the ground, so that a plurality of rotary columns can be conveniently unfolded.

Optionally, a plurality of fourth rollers for abutting against the ground are arranged on the support.

Through adopting above-mentioned technical scheme, when a plurality of pivoted posts are accomodate on the support, the workman can directly promote the support motion, convenient operation. In the use of instrument main part, the workman also can promote the support motion for the position that instrument main part located changes, convenient operation.

In summary, the present application includes the following beneficial technical effects:

1. the rotary columns, the rotary assemblies and the pull ropes are arranged, and a worker pulls all the pull ropes, so that the rotary assemblies can approach the support, at the moment, the rotary columns are arranged in a zigzag shape, and the rotary columns drive the instrument main body to move out of the radiation area, so that the worker overhauls the instrument main body, and the overhauling efficiency of the instrument main body is improved;

2. the winding assembly is arranged, and the rotating shafts are rotated, so that the plurality of rotating columns are arranged in a zigzag shape, and the instrument main body is convenient to overhaul;

3. the support component is arranged, so that the rotating column slowly overturns downwards and is placed on the bracket, and the rotating column and the instrument main body are not easy to collide and damage;

4. the first roller and the first motor are arranged, so that the instrument main body moves linearly on the rotating column, the position of the instrument main body is convenient to adjust, the instrument main body can directly move out of the radiation area, and the instrument main body is convenient to overhaul;

5. the arrangement of the second roller and the second motor enables the plurality of rotating columns to be unfolded gradually, and the instrument main body on the rotating column where the second roller is located moves into the radiation area, so that the operation is convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of a structure showing a bracket and a support assembly in an embodiment of the present application;

FIG. 3 is a schematic view showing a structure of a plurality of rotary posts in a fold line state according to an embodiment of the present application;

FIG. 4 is a schematic diagram of the structure of the rotating column, instrument body and rotating assembly shown in an embodiment of the present application;

FIG. 5 is a schematic view of a structure showing the instrument body and the rotating assembly in an embodiment of the present application;

fig. 6 is a schematic view showing a structure of a winding assembly in the embodiment of the present application.

Reference numerals: 1. a bracket; 11. a fourth roller; 12. a control panel; 13. a through groove is arranged; 14. a limiting plate; 2. rotating the column; 21. a dovetail groove; 22. a second motor; 23. a second roller; 3. an instrument body; 31. dovetail blocks; 32. a first motor; 33. a first roller; 4. a rotating assembly; 41. a rotating lever; 42. a connecting plate; 43. a third roller; 5. a support assembly; 51. a rotating plate; 511. a horizontal axis; 52. an electric cylinder; 53. a support plate; 6. a winding assembly; 61. a third motor; 62. a rotating shaft; 63. a turntable; 64. and (5) pulling the rope.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses an environment-level dose rate meter. As shown in fig. 1, the environment-level dose rate meter comprises a bracket 1 and a plurality of rotating columns 2 which are sequentially arranged along the length direction of the bracket 1, wherein the bracket 1 is in an L shape, and four fourth rollers 11 are arranged at the bottom of the bracket 1; one rotating column 2 positioned at the edge is fixed on the bracket 1, and the other rotating column 2 positioned at the edge is provided with an instrument main body 3; every two adjacent rotating columns 2 are all hinged end to end through a rotating assembly 4. In the moving and transporting process of the present application, the plurality of rotating columns 2 are placed on the support 1 in a zigzag shape, and a worker can directly push the support 1 to move, so that the moving and transporting are convenient.

As shown in fig. 2 and 3, a support assembly 5 is provided on the bracket 1, the support assembly 5 includes a rotating plate 51, the middle part of the rotating plate 51 is rotatably connected to the bracket 1 through a horizontal shaft 511, and the axial direction of the horizontal shaft 511 is perpendicular to the extending direction of the rotating column 2; the control panel 12 is fixed on the bracket 1, one end of the rotating plate 51 is fixedly connected with the electric cylinder 52, a supporting plate 53 is fixed on a piston rod of the electric cylinder 52, and the electric cylinder 52 is coupled with the control panel 12; the bracket 1 is provided with a penetrating groove 13 through which the power supply cylinder 52 rotates, and the bracket 1 is also fixed with a limiting plate 14.

When the worker does not apply force to the rotating plate 51, one end of the rotating plate 51, which is far away from the electric cylinder 52, is tilted and abuts against the limiting plate 14, and at this time, the electric cylinder 52 is located below the penetrating groove 13, so that the electric cylinder 52 is stored. When the instrument main body 3 is required to be used, a worker steps on the other end of the rotating plate 51, so that the electric cylinder 52 and the supporting plate 53 tilt upwards, and the supporting plate 53 pushes the plurality of rotating columns 2 to tilt upwards; the control panel 12 will then control the extension of the piston rod of the electric cylinder 52, and the electric cylinder 52 will cause the plurality of rotary posts 2 to continue to flip upwards through the support plate 53, and the plurality of rotary posts 2 will disengage from the bracket 1 and rotate to a vertical state.

As shown in fig. 3 and 4, a second motor 22 is fixed on the rotating column 2 farthest from the bracket 1, an output shaft of the second motor 22 extends along the horizontal direction and is fixedly sleeved with a second roller 23, and the output shaft of the second motor 22 is axially perpendicular to the extending direction of the rotating column 2; the second motor 22 is coupled to the control panel 12. The rotating assembly 4 comprises two connecting plates 42 connected through a rotating rod 41, and the two connecting plates 42 are respectively fixed on the corresponding rotating columns 2; the third roller 43 is fixedly sleeved at both ends of the rotating rod 41 in the rotating assembly 4 which is not connected with the pull rope 64.

When the rotating columns 2 rotate to the vertical state, the second roller 23 and the third roller 43 will collide with the ground, the control panel 12 will control the second motor 22 to start, the second motor 22 will drive the second roller 23 to roll away from the support 1, the third roller 43 will move in a driven manner, so that the rotating columns 2 rotate on the vertical plane, the axial direction of the rotating columns 2 is parallel to the plane formed by the rotating columns 2 during rotation, so that the rotating columns 2 will be gradually unfolded, the instrument main body 3 moves into the radiation area without the need of workers to move the instrument main body 3 into the radiation area, and the support 1 will be located outside the radiation area.

As shown in fig. 5, all the rotary columns 2 are provided with dovetail grooves 21, and the extending direction of the dovetail grooves 21 is the same as the extending direction of the rotary columns 2; the dovetail block 31 is fixed on the instrument main body 3, and the dovetail block 31 is slidably embedded in the dovetail groove 21, so that the instrument main body 3 can only move along the extending direction of the rotary column 2.

The instrument main body 3 is fixed with a first motor 32, the first motor 32 is coupled to the control panel 12, and a first roller 33 is fixedly sleeved on an output shaft of the first motor 32, and the first roller 33 rolls and abuts against a bottom groove wall of the dovetail groove 21. When the first motor 32 is controlled to start through the control panel 12, the first motor 32 drives the first roller 33 to move in the dovetail groove 21, so that a worker can conveniently adjust the position of the instrument main body 3, the instrument main body 3 can move to the bracket 1, and the worker can conveniently overhaul the instrument main body 3.

As shown in fig. 1 and 6, a winding assembly 6 is arranged on the bracket 1, the winding assembly 6 comprises a third motor 61 on the fixed bracket 1, the third motor 61 is coupled with the control panel 12, a rotating shaft 62 which is rotationally connected with the bracket 1 is fixedly connected to an output shaft of the third motor 61, and the rotating shaft 62 extends along the horizontal direction and is perpendicular to the axial direction of the rotating column 2; the rotating shaft 62 is fixedly sleeved with a plurality of rotating discs 63, and the outer diameters of all the rotating discs 63 are different.

As shown in fig. 1 and 4, it should be noted that, from left to right, a pull rope 64 is disposed on the rotating component 4 located at the odd number, one end of the pull rope 64 is fixedly connected to one of the connecting plates 42, the other end of the pull rope 64 is fixedly connected to the outer wall of the corresponding turntable 63, the pull ropes 64 are in one-to-one correspondence with the turntable 63, and the outer diameter of the turntable 63 wound by the pull rope 64 on the rotating component 4 located nearer to the turntable 63 is larger than the outer diameter of the turntable 63 wound by the pull rope 64 on the rotating component 4 located farther from the turntable 63.

When the third motor 61 drives the rotating shaft 62 to rotate, the rotating shaft 62 drives the pull rope 64 to wind on the turntable 63, the pull rope 64 pulls the rotating assembly 4 to approach the bracket 1, the moving speed of the rotating assembly 4 far away from the bracket 1 is faster, and the plurality of rotating columns 2 are folded into a folded line shape at this time, so that the instrument main body 3 is moved out of the radiation area, and the overhaul of the instrument main body 3 is facilitated.

As shown in fig. 2 and 3, when a worker pushes the bracket 1 to turn over the rotary post 2, the rotary post 2 turns down, and the worker steps on one end of the rotary plate 51 away from the electric cylinder 52, so that the support plate 53 on the electric cylinder 52 supports the rotary post 2; the piston rod of the electric cylinder 52 is gradually retracted, so that the rotary column 2 gradually turns downwards; the feet of the worker will then gradually lift up, the rotating column 2 will continue to turn down due to its own weight, and the rotating column 2 will cause the electric cylinder 52 to turn down; then, the rotating column 2 is placed on the bracket 1, so that the rotating column 2 is stored, the electric cylinder 52 moves to the lower part of the penetrating groove 13, the rotating plate 51 is abutted against the limiting plate 14, and the electric cylinder 52 is stored.

The implementation principle of the environment-level dose rate meter in the embodiment of the application is as follows: when the instrument main body 3 is required to be used, a worker steps on the other end of the rotating plate 51, so that the electric cylinder 52 and the supporting plate 53 tilt upwards, and the supporting plate 53 pushes the plurality of rotating columns 2 to tilt upwards; then the control panel 12 will control the piston rod of the electric cylinder 52 to extend, the electric cylinder 52 will promote the plurality of rotary columns 2 to turn upwards through the supporting plate 53, the plurality of rotary columns 2 will be separated from the bracket 1 and rotate to the vertical state, and at this time the second roller 23 and the third roller 43 will collide with the ground. Then the control panel 12 controls the second motor 22 to drive the second roller 23 to roll away from the bracket 1, the third roller 43 moves in a driven manner, so that the plurality of rotary posts 2 are gradually unfolded, and the instrument body 3 moves into the radiation area.

When the first motor 32 is controlled to start through the control panel 12, the first motor 32 drives the first roller 33 to move in the dovetail groove 21, so that a worker can conveniently adjust the position of the instrument main body 3, the instrument main body 3 can move to the bracket 1, and the worker can conveniently overhaul the instrument main body 3.

When the third motor 61 drives the rotating shaft 62 to rotate, the rotating shaft 62 drives the pull rope 64 to wind on the turntable 63, the pull rope 64 pulls the rotating assembly 4 to approach the bracket 1, the rotating columns 2 are folded into a folded line shape, the instrument main body 3 is moved out of the radiation area, and the maintenance of the instrument main body 3 is facilitated.

When a worker pushes the bracket 1 to turn over the rotary column 2, the rotary column 2 turns over downwards, and the worker steps on one end of the rotary plate 51 away from the electric cylinder 52, so that the support plate 53 on the electric cylinder 52 supports the rotary column 2; the piston rod of the electric cylinder 52 is gradually retracted, so that the rotary column 2 gradually turns downwards; the feet of the worker will then gradually lift up, the rotating column 2 will continue to turn down due to its own weight, and the rotating column 2 will cause the electric cylinder 52 to turn down; then, the rotating column 2 is placed on the bracket 1, so that the rotating column 2 is stored, the electric cylinder 52 moves to the lower part of the penetrating groove 13, the rotating plate 51 is abutted against the limiting plate 14, and the electric cylinder 52 is stored.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. An environmental level dose rate meter comprising an instrument body (3), characterized in that: the device also comprises a bracket (1) and a plurality of rotating columns (2) which are sequentially arranged along the length direction of the device, wherein one rotating column (2) positioned at the edge is arranged on the bracket (1), and the instrument main body (3) is arranged on the other rotating column (2) positioned at the edge; every two adjacent rotating columns (2) are hinged end to end through a rotating assembly (4), the rotating columns (2) rotate on a vertical surface, and the axial direction of each rotating column (2) is parallel to a plane formed by the rotating columns (2) during rotation; the rotating component (4) positioned at the odd number position or the even number position is connected with the bracket (1) through a pull rope (64); a winding assembly (6) is arranged on the bracket (1), the winding assembly (6) comprises a rotating shaft (62) rotatably connected to the bracket (1), and a plurality of turntables (63) for winding corresponding pull ropes (64) are sleeved on the rotating shaft (62); the outer diameter of the turntable (63) wound by the pull rope (64) on the rotating assembly (4) which is close to the turntable (63) is larger than the outer diameter of the turntable (63) wound by the pull rope (64) on the rotating assembly (4) which is far from the turntable (63); the rotating column (2) farthest from the bracket (1) is provided with a second roller (23) for abutting against the ground and a second motor (22) for driving the second roller (23) to rotate, and an output shaft of the second motor (22) is connected with the second roller (23); the bracket (1) is provided with a control panel (12), and the second motor (22) is coupled to the control panel (12); the rotating assembly (4) comprises two connecting plates (42) which are respectively connected with the corresponding rotating columns (2), and the two connecting plates (42) are rotatably connected with the same rotating rod (41); the rotating rod (41) in the rotating assembly (4) which is not connected with the pull rope (64) is sleeved with a third roller (43) which is used for abutting against the ground, the rotating assembly further comprises a supporting assembly (5), the supporting assembly (5) comprises an electric cylinder (52), and a supporting plate (53) which is used for abutting against the rotating column (2) when the rotating column is turned downwards is arranged on a piston rod of the electric cylinder (52); the support assembly (5) further comprises a rotating plate (51), the middle part of the rotating plate (51) is rotatably connected to the bracket (1) through a horizontal shaft (511), and one end of the rotating plate (51) is connected to a cylinder body of the electric cylinder (52); the bracket (1) is provided with a limiting plate (14) which is used for the other end of the rotating plate (51) to collide when the rotating plate turns upwards.

2. An environmental level dose rate meter as claimed in claim 1, wherein: the instrument main body (3) is connected to all the rotating columns (2) in a sliding manner, a first roller (33) which is abutted against the rotating columns (2) and a first motor (32) for driving the first roller (33) to rotate are arranged on the instrument main body (3), and an output shaft of the first motor (32) is connected to the first roller (33); the bracket (1) is provided with a control panel (12), and the first motor (32) is coupled to the control panel (12).

3. An environmental level dose rate meter as claimed in claim 1, wherein: the support (1) is provided with a plurality of fourth rollers (11) which are used for abutting against the ground.