CN211554333U - Portable radiation monitoring device - Google Patents

Abstract

The utility model discloses a portable radiation monitoring device, including the monitoring devices body, monitor and hydraulic pressure mechanism, fixed surface is connected with hydraulic telescoping rod on the monitoring devices body, hydraulic telescoping rod upper end fixed mounting has the fixing base, fixing base upper end rivet is connected with the connecting axle, the connecting axle passes through the inside through-hole of fixing base and is connected with the hydraulic telescoping rod transmission, the fixed surface of the left and right sides of monitoring devices body installs the shield plate, shield plate left and right sides fixedly connected with alarm, the fixed surface of the left and right sides of monitoring devices body lower extreme is connected with the supporting leg, the welding of supporting leg lower extreme has the wheel that rolls, hydraulic pressure mechanism fixed mounting is on the fixed plate of upside, downside fixed plate upper end surface mounting has miniature control panel, miniature control panel left side fixedly connected with. The portable radiation monitoring device has the advantages of convenience in carrying, reasonable structure and simplicity in operation.

Description

Portable radiation monitoring device

Technical Field

The utility model relates to a monitoring devices technical field, concretely relates to portable radiation monitoring device.

Background

A geophysical prospecting method for obtaining radioactive intensity by measuring the intensity or concentration of radioactive elements by using a special instrument such as a radiometer or an emanator according to the physical properties of radioactive rays, the detection method comprising: surface survey, aerial survey, radiation sampling, well logging, gas emission survey, track survey and physical analysis, nuclear instruments are instruments for monitoring ionizing radiation, radiation monitoring refers to radiation or radioactivity measurement for the purpose of evaluating and controlling radiation or irradiation of radioactive substances, and the analysis and interpretation of the measurement results.

However, the radiation detection on the market currently has some defects in the detection process, such as: the operation is complicated, the automation degree is low, and the device is not flexible enough and can not be monitored at any time, so that the problem of finding a portable radiation monitoring device is mainly solved at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable radiation monitoring device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a portable radiation monitoring device comprises a monitoring device body, a monitor and a hydraulic mechanism, wherein a hydraulic telescopic rod is fixedly connected to the surface of the upper end of the monitoring device body, a fixed seat is fixedly mounted at the upper end of the hydraulic telescopic rod, a connecting shaft is connected to the upper end of the fixed seat through a rivet, the connecting shaft is in transmission connection with the hydraulic telescopic rod through a through hole in the fixed seat, shielding plates are fixedly mounted on the surfaces of the left side and the right side of the monitoring device body, alarms are fixedly connected to the left side and the right side of each shielding plate, supporting legs are fixedly connected to the surfaces of the left side and the right side of the lower end of the monitoring device body, rolling wheels are welded to the lower ends of the supporting legs, an upper fixing plate and a lower fixing plate are arranged in the monitoring device body, the display screen is installed to the micro control panel upside, monitor left end fixed surface installs the connecting rod, connecting rod upper end surface threaded connection has set screw, connecting rod left end fixedly connected with monitor, monitor internally mounted has signal collector, the micro control panel left and right sides fixedly connected with pilot lamp, micro control panel left side upper end surface mounting has shift knob, shift knob installs on the right side operating panel, micro control panel passes through wire electric connection with high pass filter, monitor, alarm, display screen and hydraulic pressure mechanism.

Preferably, a hydraulic cylinder is fixedly mounted at the bottom end inside the hydraulic mechanism, the upper end of the hydraulic cylinder is in transmission connection with a driven bevel gear through a transmission rod, and the driven bevel gear is in meshing connection with the driving bevel gear.

Preferably, the hydraulic mechanism is rotatably connected with the hydraulic telescopic rod through a connecting rod inside the monitoring device body.

Compared with the prior art, the beneficial effects of the utility model are that:

1. hydraulic cylinder drives driven bevel gear through the hydraulic stem and rotates and then drive the drive bevel gear and rotate, and then rotates through connecting band dynamic pressure telescopic link, finally drives the monitor and removes and stretch out and draw back, then 4 monitor in the monitor stretch into the incasement and then monitor the incasement, can monitor the indoor radiant level of hanging the case comprehensively simultaneously, improved the security.

2. Other electrical components are controlled through the micro control panel, so that the operation difficulty of the device is reduced, and according to the response degree of the alarm, a person can process abnormal articles, so that the working efficiency is improved.

3. Remove wheel ground and remove, can survey different indoor article, can send out the police dispatch newspaper to the danger area when monitoring, avoid artifical handheld survey for a long time, cause the problem of harm to human safety.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the internal structure of the hydraulic mechanism of the present invention;

FIG. 3 is a schematic diagram of the monitor according to the present invention;

fig. 4 is a schematic plan view of the micro control panel of the present invention;

fig. 5 is a schematic view of the electrical connection of the present invention.

In the figure: the monitoring device comprises a monitoring device body 1, a miniature control panel 2, a switch button 21, an indicator lamp 22, an operation panel 23, a shielding plate 3, a hydraulic telescopic rod 4, a connecting shaft 5, a monitor 6, a fixing screw 61, a signal collector 62, a monitoring probe 63, a connecting rod 64, a fixing seat 7, a display screen 8, a fixing plate 9, an alarm 10, support legs 11, rolling wheels 12, a high-pass filter 13, a hydraulic mechanism 14, a hydraulic cylinder 141, a driven bevel gear 142 and a driving bevel gear 143.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, a portable radiation monitoring device comprises a monitoring device body 1, a monitor 6 and a hydraulic mechanism 14, wherein the upper end surface of the monitoring device body 1 is fixedly connected with a hydraulic telescopic rod 4, the upper end of the hydraulic telescopic rod 4 is fixedly provided with a fixed seat 7, the upper end of the fixed seat 7 is connected with a connecting shaft 5 through a rivet, the connecting shaft 5 is in transmission connection with the hydraulic telescopic rod 4 through a through hole in the fixed seat 7, the left and right sides of the monitoring device body 1 are fixedly provided with shielding plates 3, the left and right sides of the shielding plates 3 are fixedly connected with an alarm 10, the left and right sides of the lower end of the monitoring device body 1 are fixedly connected with supporting legs 11, the lower ends of the supporting legs 11 are welded with rolling wheels 12, an upper fixing plate 91 and a lower fixing plate 92 are arranged in the monitoring device, surface mounting has miniature control panel 2 on the 92 upper ends of downside fixed plate, 2 left sides fixedly connected with high pass filter 13 of miniature control panel, display screen 8 is installed to 2 upsides of miniature control panel, 6 left ends fixed surface of monitor installs connecting rod 64, connecting rod 64 upper end surface threaded connection has set screw 61, connecting rod 64 left end fixedly connected with monitor probe 63, monitor probe 63 internally mounted has signal collector 62, 2 left and right sides fixedly connected with pilot lamp 22 of miniature control panel, 2 left sides upper end surface mounting of miniature control panel has shift knob 21, operating panel 23 is installed on shift knob 21 right side, miniature control panel 2 passes through wire electric connection with high pass filter 13, monitor 6, alarm 10, display screen 8 and hydraulic pressure mechanism 14.

Further, a hydraulic cylinder 141 is fixedly mounted at the bottom end inside the hydraulic mechanism 14, the upper end of the hydraulic cylinder 141 is in transmission connection with a driven bevel gear 142 through a transmission rod, and the driven bevel gear 142 is in meshing connection with a driving bevel gear 143.

Further, the hydraulic mechanism 14 is rotatably connected with the hydraulic telescopic rod 4 through a connecting rod inside the monitoring device body 1.

The working principle is as follows: at first, the staff clicks the shift knob 21, start the hydraulic cylinder 141, the hydraulic cylinder 141 drives driven bevel gear 142 through the hydraulic stem and rotates and then drives the rotation of drive bevel gear 143, and then it rotates to drive hydraulic telescoping rod 4 through the connecting band, finally drive monitor 6 and remove and stretch out and draw back, then 4 monitoring probe 63 in the monitor 6 stretch into the radiation box and then monitor the incasement, then the signal collector 62 of monitoring probe 63 gathers the signal, then feed back to miniature control panel 2, then through signal output to alarm 10, personnel pass through the response degree of alarm 10 and then handle the case of unusual radiation, finally the effect of monitoring has been realized.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (3)

1. A portable radiation monitoring device, characterized in that: comprises a monitoring device body (1), a monitor (6) and a hydraulic mechanism (14), wherein the upper end of the monitoring device body (1) is fixedly connected with a hydraulic telescopic rod (4), the upper end of the hydraulic telescopic rod (4) is fixedly provided with a fixing seat (7), the upper end of the fixing seat (7) is connected with a connecting shaft (5) through rivets, the connecting shaft (5) is in transmission connection with the hydraulic telescopic rod (4) through a through hole inside the fixing seat (7), shielding plates (3) are fixedly arranged on the surfaces of the left side and the right side of the monitoring device body (1), alarms (10) are fixedly connected on the left side and the right side of the shielding plates (3), supporting legs (11) are fixedly connected on the surfaces of the left side and the right side of the lower end of the monitoring device body (1), rolling wheels (12) are welded on the lower ends of the supporting legs (11, the hydraulic mechanism (14) is fixedly installed on an upper side fixing plate (91), a micro control panel (2) is installed on the upper end surface of a lower side fixing plate (92), a high-pass filter (13) is fixedly connected to the left side of the micro control panel (2), a display screen (8) is installed on the upper side of the micro control panel (2), a connecting rod (64) is fixedly installed on the left end surface of a monitor (6), a fixing screw (61) is connected to the upper end surface of the connecting rod (64) in a threaded manner, a monitoring probe (63) is fixedly connected to the left end of the connecting rod (64), a signal collector (62) is installed inside the monitoring probe (63), indicator lamps (22) are fixedly connected to the left side and the right side of the micro control panel (2), a switch button (21) is installed on the upper end surface of the left side of the micro control, the micro control panel (2) is electrically connected with the high-pass filter (13), the monitor (6), the alarm (10), the display screen (8) and the hydraulic mechanism (14) through leads.

2. A portable radiation monitoring device according to claim 1, wherein: the hydraulic mechanism (14) is characterized in that a hydraulic cylinder (141) is fixedly mounted at the bottom end inside the hydraulic mechanism (14), the upper end of the hydraulic cylinder (141) is in transmission connection with a driven bevel gear (142) through a transmission rod, and the driven bevel gear (142) is in meshing connection with a driving bevel gear (143).

3. A portable radiation monitoring device according to claim 1, wherein: the hydraulic mechanism (14) is rotatably connected with the hydraulic telescopic rod (4) through a connecting rod in the monitoring device body (1).

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