CN219978536U - Water body radiation monitoring equipment for radiation environment - Google Patents

Abstract

The utility model discloses water body radiation monitoring equipment for a radiation environment, which comprises a supporting substrate, wherein two guide vertical plates are fixedly arranged at the center of the top end of the supporting substrate, one side of each guide vertical plate is provided with a guide through groove, a guide connecting plate is connected between the two guide through grooves in a sliding manner, two positioning blocks are connected with the front surface of the guide connecting plate in a threaded manner, and a gamma spectrometer is fixedly connected between the two positioning blocks. According to the utility model, the electric hydraulic cylinder and the gamma energy spectrometer can be electrically connected with an external power supply through the external remote control switch, then the electric hydraulic cylinder can be controlled to push the guide connecting plate to move downwards through the external remote control switch, and then the detection end of the gamma energy spectrometer can be driven to extend into the radiation water body, so that the radiation of the water body can be conveniently detected.

Description

Water body radiation monitoring equipment for radiation environment

Technical Field

The utility model relates to the technical field of water body monitoring, in particular to water body radiation monitoring equipment for a radiation environment.

Background

Radiation monitoring is a geophysical prospecting method for obtaining the radioactivity intensity by measuring the radiation intensity or the concentration of the radioactivity element by using special instruments such as a radiometer, an radiometer and the like according to the physical property of the radioactivity rays, wherein the detection method comprises the following steps of: ground measurement, aviation measurement, radiation sampling, well logging, gas emission measurement, track measurement, physical analysis and the like, and gamma radiation concentration in a water sample can be measured by using a gamma ray energy spectrometry.

The utility model discloses a water body radiation monitoring device for a radiation environment, which is characterized in that a base is arranged below a monitoring box, supporting legs, a pole barrel and moving wheels are arranged at four corners below the base, so that a worker can push a handle to drive the base and the monitoring box to move, the device is more convenient to move, the problem that the existing water body radiation monitoring device is inconvenient to move is solved, meanwhile, a first spring is arranged below the pole barrel, which is close to the supporting legs, in the device can buffer generated vibration effectively in the moving process, the damping performance is improved, the structure of the radiation monitoring device is not regulated by an electric appliance, and the device also needs human body operation in the water body monitoring process under the environment with certain radiation, and has certain risk.

Disclosure of Invention

The utility model aims to provide a water body radiation monitoring device for a radiation environment, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a radiation is water radiation monitoring facilities for environment, includes the supporting baseplate, the center department on supporting baseplate top is fixed and is equipped with two direction risers, every the direction logical groove has all been seted up to one side of direction riser, two sliding connection has the direction to link the board between the direction logical groove, the front threaded connection of direction link has two locating pieces, two fixedly connected with gamma spectrometer between the locating piece, every the equal fixedly connected with in top of direction riser is installed and is linked the board, two install electric hydraulic cylinder between the installation links the board, electric hydraulic cylinder's output and direction link fixed connection like this set up the purpose: the utility model discloses a gamma energy spectrometer is controlled to the accessible external remote control switch with electric hydraulic cylinder and gamma energy spectrometer and external power supply electric connection, accessible external remote control switch control electric hydraulic cylinder promotes the direction and links board downward displacement afterwards, can drive the detection end of gamma energy spectrometer and extend to the radiation water body afterwards to be convenient for detect the radiation of water body, but the remote electric hydraulic cylinder of external remote control switch control promotes gamma energy spectrometer when this device operates, need not personnel manual regulation gamma energy spectrometer, need not operating personnel and operate gamma energy spectrometer in radiation environment.

Preferably, the connecting sliding grooves are formed in two sides of the top end of the supporting substrate, the first sliding blocks and the second sliding blocks are connected in a sliding mode in the connecting sliding grooves, one end of each first sliding block penetrates through the connecting sliding groove with the right position, the first positioning plate is fixedly connected, and one end of each second sliding block penetrates through the connecting sliding groove with the right position, and the second positioning plate is fixedly connected.

Preferably, each of the two sides of the first sliding block and the two second sliding blocks are fixedly connected with a balance connecting plate, each of the balance connecting plates is in contact with a supporting substrate, and a plurality of positioning screw holes are formed in the top end of the supporting substrate.

Preferably, four of the balance connecting plates are in threaded connection with the positioning screw holes opposite to each other through positioning bolts.

Preferably, the edge of the top end of the supporting substrate is fixedly connected with two positioning sleeves, each positioning sleeve is internally and uniformly connected with an adjusting screw in a threaded manner, and the purpose of the arrangement is that: the positioning bolt can be taken down, the second positioning plate is slid, the second positioning plate is contacted with the inner wall of the box body filled with the water body to be measured, the positioning bolt is in threaded connection with the positioning screw hole opposite to the position, the second sliding block and the second positioning plate are limited, the adjusting screw can be rotated, the adjusting screw can be enabled to displace in the positioning sleeve, the adjusting screw can be enabled to push the first sliding block to displace, the first positioning plate can be pushed to displace, and the edge of the box body of the water body to be measured is clamped through the first positioning plate and the second positioning plate.

Preferably, one end of each adjusting screw rod is contacted with the first slide block which is opposite to the first slide block.

The utility model has the technical effects and advantages that:

(1) The device accessible external remote control switch promotes direction link board downward displacement with electric hydraulic cylinder and gamma energy spectrometer and external power supply electric connection, accessible external remote control switch control electric hydraulic cylinder later, can drive the detection end of gamma energy spectrometer and extend to the radiation water body in afterwards to be convenient for detect the radiation of water body, but the remote control switch control electric hydraulic cylinder promotes gamma energy spectrometer through external remote during this device operation, need not personnel manual regulation gamma energy spectrometer, need not operating personnel and operate gamma energy spectrometer in the radiation environment.

(2) The device can take down the positioning bolt, then slide the second locating plate, contact the second locating plate with the inner wall of the box body filled with the water body to be measured, then screw the positioning bolt with the positioning screw hole directly opposite to the position, thereby limit the second sliding block and the second locating plate, then rotate the adjusting screw, enable the adjusting screw to displace in the positioning sleeve, enable the adjusting screw to push the first sliding block to displace, push the first locating plate to displace, and clamp the edge of the box body of the water body to be measured through the first locating plate and the second locating plate.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a connection structure between two guide risers according to the present utility model;

FIG. 3 is a schematic view of a partial structure of the top of the support substrate according to the present utility model.

In the figure: 1. a support substrate; 2. a guide vertical plate; 3. installing a connecting plate; 4. an electro-hydraulic cylinder; 5. a guide through groove; 6. a guide connecting plate; 7. a gamma spectrometer; 8. a positioning block; 9. the connecting chute; 10. a first positioning plate; 11. a first slider; 12. a second slider; 13. positioning screw holes; 14. a second positioning plate; 15. positioning the sleeve; 16. adjusting a screw; 17. balance connecting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides water body radiation monitoring equipment for a radiation environment, as shown in figures 1-3, which comprises a support substrate 1, wherein two guide vertical plates 2 are fixedly arranged in the center of the top end of the support substrate 1, one side of each guide vertical plate 2 is provided with a guide through groove 5, a guide connecting plate 6 is connected between the two guide through grooves 5 in a sliding manner, the front surface of the guide connecting plate 6 is connected with two positioning blocks 8 in a threaded manner, a gamma spectrometer 7 is fixedly connected between the two positioning blocks 8, the top end of each guide vertical plate 2 is fixedly connected with an installation connecting plate 3, an electric hydraulic cylinder 4 is installed between the two installation connecting plates 3, the output end of the electric hydraulic cylinder 4 is fixedly connected with the guide connecting plate 6, the electric hydraulic cylinder 4 and the gamma spectrometer 7 can be electrically connected with an external power supply through an external remote control switch, then the electric hydraulic cylinder 4 can be controlled to move downwards through the external remote control switch, and then a detection end of the gamma spectrometer 7 can be driven to extend into a radiation water body, so that radiation of the water body is conveniently detected;

as shown in fig. 1-2, a water body radiation monitoring device for a radiation environment is provided with connecting sliding grooves 9 on two sides of the top end of a supporting substrate 1, a first sliding block 11 and a second sliding block 12 are slidably connected in each connecting sliding groove 9, one end of each first sliding block 11 passes through the connecting sliding groove 9 with opposite positions, a first positioning plate 10 is fixedly connected, one end of each second sliding block 12 passes through the connecting sliding groove 9 with opposite positions, a second positioning plate 14 is fixedly connected, balance connecting plates 17 are fixedly connected on two sides of each first sliding block 11 and two second sliding blocks 12, each balance connecting plate 17 is in contact with the supporting substrate 1, a plurality of positioning screw holes 13 are formed in the top end of the supporting substrate 1, when the device is installed, a positioning bolt can be removed, then the second positioning plate 14 is in contact with the inner wall of a box body provided with a water body to be detected, the positioning bolt is in threaded connection with the positioning screw holes 13 with opposite positions, and therefore the second sliding block 12 and the second positioning plate 14 are limited, and then an adjusting screw 16 can be rotated, so that the adjusting sleeve 16 can be pushed to displace the first positioning plate 10 and the first positioning screw rod 14 can be displaced by pushing the adjusting screw rod 16, and the first positioning screw rod 10 can be displaced by the adjusting screw rod 10.

The water body radiation monitoring device for the radiation environment is shown in fig. 1-3, wherein four balance connecting plates 17 are in threaded connection with positioning screw holes 13 opposite in position through positioning bolts, two positioning sleeves 15 are fixedly connected to the edge of the top end of a supporting substrate 1, an adjusting screw 16 is in threaded connection with the inside of each positioning sleeve 15, and one end of each adjusting screw 16 is in contact with a first sliding block 11 opposite in position.

The working principle of the utility model is as follows: after the device is carried to a proper position, the positioning bolt can be taken down, the second positioning plate 14 is slid, the second positioning plate 14 is contacted with the inner wall of the box body provided with a water body to be detected, the positioning bolt is connected with the positioning screw hole 13 which is opposite to the position, so that the second sliding block 12 and the second positioning plate 14 are limited, the adjusting screw 16 can be rotated, the adjusting screw 16 can be displaced in the positioning sleeve 15, the adjusting screw 16 can be enabled to push the first sliding block 11 to displace, the first positioning plate 10 can be pushed to displace, the edge of the box body of the water body to be detected is clamped through the first positioning plate 10 and the second positioning plate 14, the electric hydraulic cylinder 4 and the gamma energy spectrometer 7 are electrically connected with an external power supply through the external remote control switch, the electric hydraulic cylinder 4 can be pushed to downwards displace through the external remote control switch, and then the detection end of the gamma energy spectrometer 7 can be driven to extend into the radiation without the radiation, so that the radiation of the water body is not needed, the gamma energy spectrometer 7 can be pushed by the external remote control electric hydraulic cylinder 4, and the operator can adjust the gamma energy spectrometer 7 in the environment without the need of the radiation spectrometer 7.

What is not described in detail in this specification is prior art known to those skilled in the art. The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (6)

1. The utility model provides a radiation monitoring facilities of water body for radiation environment, includes supporting baseplate (1), its characterized in that: two guide vertical plates (2) are fixedly arranged at the center of the top end of the supporting substrate (1), one side of each guide vertical plate (2) is provided with a guide through groove (5), guide connecting plates (6) are connected between the two guide through grooves (5) in a sliding manner, the front surfaces of the guide connecting plates (6) are connected with two positioning blocks (8) in a threaded manner, two fixedly connected with gamma energy spectrometer (7) between locating piece (8), every the equal fixedly connected with in top of direction riser (2) is installed and is even board (3), two install between the installation even board (3) electric hydraulic cylinder (4), the output and the direction even board (6) fixed connection of electric hydraulic cylinder (4).

2. A body of water radiation monitoring apparatus for a radiation environment as defined in claim 1, wherein: the utility model discloses a support base plate, including support base plate (1), connecting slide (9) have all been seted up to both sides on support base plate (1) top, every the inside of connecting slide (9) is equal sliding connection has first slider (11) and second slider (12), every the one end of first slider (11) all passes connecting slide (9) that the position is just right, and fixedly connected with first locating plate (10), every the one end of second slider (12) all passes connecting slide (9) that the position is just right, and fixedly connected with second locating plate (14).

3. A body of water radiation monitoring apparatus for a radiation environment as defined in claim 2, wherein: each first sliding block (11) and two second sliding blocks (12) are fixedly connected with balance connecting plates (17) on two sides, each balance connecting plate (17) is contacted with a supporting substrate (1), and a plurality of positioning screw holes (13) are formed in the top end of the supporting substrate (1).

4. A body of water radiation monitoring apparatus for a radiation environment as defined in claim 3, wherein: the four balance connecting plates (17) are in threaded connection with the positioning screw holes (13) opposite to each other through positioning bolts.

5. A body of water radiation monitoring apparatus for a radiation environment as defined in claim 2, wherein: two positioning sleeves (15) are fixedly connected to the edge of the top end of the supporting substrate (1), and adjusting screws (16) are connected to the inner parts of the positioning sleeves (15) in a threaded mode.

6. A body of water radiation monitoring apparatus for a radiation environment as defined in claim 5, wherein: one end of each adjusting screw rod (16) is contacted with the first slide block (11) which is opposite to the position.