CN214804830U - Medical ray protector with ray dose detects function - Google Patents

Abstract

The utility model provides a medical ray protector with ray dose detects function, relates to medical equipment facility, including the protective clothing, be equipped with preceding outer collar, back collar and preceding interior collar on the protective clothing, its characterized in that: an application terminal pocket and a dose detection pocket are arranged on the front outer collar of the protective clothing; an application terminal is arranged in the application terminal pocket; the dose detection pocket comprises a thymus detection pocket and a gonad detection pocket; in the gland of the human body most sensitive to radiation: two gland positions are selected from three parts of a thyroid gland, a thymus and a gonad, a pocket is arranged outside the protective device to simulate a human body ray protection scene in real time, real-time ray dose detection sensors are arranged inside and outside the pocket, signals of the two groups of four sensors are transmitted to an application terminal placed in the pocket of the application terminal, and then the application terminal sends the signals to a cloud end or a server through a communication operator network (including the Internet of things) and a wireless network. And the background software stores, counts, analyzes and applies the server and the cloud data.

Description

Medical ray protector with ray dose detects function

Technical Field

The utility model relates to a medical equipment facility, in particular to medical ray protector with ray dosage detects function.

Background

It is well known that radiation is one of the important factors causing cancer, but in the medical industry, radiation is also one of the important means for diagnosing and treating diseases. When using radiation to diagnose and treat diseases, doctors and nurses as well as patients are exposed to the radiation. At present, for the protection of personnel in the middle of rays, particularly the protection of medical rays, the protection is mainly realized by adopting a protection object to wear protection clothes, equipment, a protection curtain and other modes, and no matter which protection mode is adopted, the protection effectiveness of the protection device is not recorded in real time in the whole course at the present stage, namely the actual number of the rays before and after the protection of the protection device is not recorded.

At present, medical institutions buy protective articles and select the protective articles according to the equivalent value of product calibration; and whether medical personnel and patients effectively reach the nominal value in the use process, whether the user is effectively protected, and there is no definite measurement. Generally, the medical staff wears protective clothing which wears dosimeters, but due to the weight limitation, color cards are mostly adopted for rough identification, and the invention is designed for solving the problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a medical ray protector with ray dosage detects function to solve the technical problem who provides among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a medical ray protection device with a ray dose detection function comprises a protective garment, wherein the protective garment is provided with a front outer collar, a rear collar and a front inner collar, and the front outer collar of the protective garment is provided with an application terminal pocket and a dose detection pocket; an application terminal is arranged in the application terminal pocket; the dose detection pocket comprises a thymus detection pocket and a gonad detection pocket; the dose detection pocket comprises an outer layer and an inner layer; a thymus ray sensor A and a gonad ray sensor A are arranged between the outer layer and the inner layer of the dose detection pocket, and a thymus ray sensor B and a gonad ray sensor B are arranged between the inner layer of the dose detection pocket and the protective clothing fabric.

The thymus ray sensor A corresponds to the thymus ray sensor B in position, and meanwhile, the thymus ray sensor A corresponds to the thymus on a human body in position; the position of the gonad ray sensor A corresponds to that of the gonad ray sensor B, and the gonad ray sensor A corresponds to the gonad on the human body.

The dose detection pocket consists of an outer layer and an inner layer; the outer layer is made of the same material as the protective clothing fabric; the inner layer is made of two layers of the same protective materials of the protective suit;

the radiation sensor A and the radiation sensor B in the dose detection pocket are arranged adjacently in a staggered mode, and the radiation dose detected by the radiation sensor A is the same as the irradiation dose received by the human body environment outside the protective clothing; the radiation dose detected by the radiation sensor B is nearly the same as the radiation dose received by the human body front skin inside the protective clothing.

Thymus ray sensor A, thymus ray sensor B, gonad ray sensor A and gonad ray sensor B all be connected with the AD converter, the AD converter is connected with the selector, the selector is connected with the circulation time-recorder, the circulation time-recorder is connected with the treater, the treater is connected with the counter, the counter is connected with communication module, communication module and SIM card are connected, communication module be connected with the communication trigger, the counter be connected with the counter trigger.

The thymus ray sensor A, the thymus ray sensor B, the gonad ray sensor A and the gonad ray sensor B are connected with a power supply converter, and the power supply converter is connected with a charging power supply.

Compared with the prior art, the beneficial effects of the utility model are that: in the gland of the human body most sensitive to radiation: two gland positions are selected from three parts of a thyroid gland, a thymus and a gonad, a pocket is arranged outside the protective device to simulate a human body ray protection scene in real time, real-time ray dose detection sensors are arranged inside and outside the pocket, signals of the two groups of four sensors are transmitted to an application terminal placed in the pocket of the application terminal, and then the application terminal sends the signals to a cloud end or a server through a communication operator network (including the Internet of things) and a wireless network. And the background software stores, counts, analyzes and applies the server and the cloud data. The biggest advantages are that: 1. the data is real and credible; 2. monitoring in real time and accumulating time; 3. compared with a color card, the measured data is more accurate; 4. the big data can be analyzed and stored according to the requirements of users.

Drawings

Fig. 1 is a schematic structural view before wearing of the utility model;

fig. 2 is a block diagram of the detecting and transmitting structure of the present invention.

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. 1-2, the utility model provides a medical ray protection device with ray dosage detection function, which comprises a protective clothing 1, wherein the protective clothing 1 is provided with a front inner collar 2, a rear collar 3 and a front outer collar 4, and the surface of the protective clothing 1 is provided with a thymus dosage detection pocket 5 and a gonad detection pocket 8; thymus ray sensors A6 and B9 are arranged in the thymus detection pocket 5; thymus ray sensors A7 and B10 are arranged in the gonad detection pocket 8.

The thymus ray sensor A6 and the thymus ray sensor B9 correspond to each other in position, and the thymus ray sensor A6 corresponds to the position of the thymus on a human body; the position of the gonad ray sensor A7 corresponds to that of the gonad ray sensor B10, and the position of the gonad ray sensor A7 corresponds to the gonad of the human body.

Thymus ray sensor A6, thymus ray sensor B9, gonad ray sensor A7 and gonad ray sensor B10 all be connected with the AD converter, the AD converter is connected with the selector, the selector is connected with the cycle timer, the cycle timer is connected with the treater, the treater is connected with the counter, the counter is connected with communication module, communication module and SIM card are connected, communication module and communication trigger be connected, the counter be connected with the counter trigger.

The thymus ray sensor A6, the thymus ray sensor B9, the gonad ray sensor A7 and the gonad ray sensor B10 are connected with a power converter, and the power converter is connected with a charging power supply.

The working principle is as follows:

the thymus ray sensor A6, the thymus ray sensor B9, the gonadal ray sensor A7 and the gonadal ray sensor B10 are respectively arranged in corresponding dose detection pockets outside the front piece of the protective clothing, and the thymus dose detection pocket 5 is arranged at the position of the chest outside the front piece of the protective clothing; the gonadal dose detection pocket 8 is arranged at the crotch position outside the front piece of the protective clothing; the radiation detection device is used for simulating and detecting the radiation irradiation dose received by the thymus and the gonad inside and outside the protective device respectively. And after the digital signals are converted, the digital signals are transmitted to a detection terminal of the jacket pocket. And then the data is sent to the server or the cloud end, and then the data is stored by the cloud end or the server.

The device has the advantages that the real effect of the protective clothing on the ray can be seen, the real damage of the ray to a human body can be seen through the internal sensor, and the data can be more visual; and the radiation condition of the environment can be monitored in real time.

The device is normally in a standby state, after receiving radiation rays, the device triggers the counter to count through conversion, simultaneously triggers the communication switch to time, sends data every 1 second, and after the radiation rays are separated, the counter and the communication module return to the standby state.

The same principle can also be used for the detection of the protective performance of the equipment and facilities. If the personal protection monitoring is carried out, the device is implanted into the protective clothing, if the device is protected, the device is installed or placed on the surface of the device, the indicator light comprises an indicator light for detecting radiation rays, the timer starts the indicator light, the communication data sends out the indicator light, and the indicator light is lightened once every second when being sent.

The sensor is a GM counter.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a medical ray protector with ray dose detects function, includes the protective clothing, is equipped with preceding outer collar, back collar and preceding neck in the protective clothing, its characterized in that: an application terminal pocket and a dose detection pocket are arranged on the front outer collar of the protective clothing; an application terminal is arranged in the application terminal pocket; the dose detection pocket comprises a thymus detection pocket and a gonad detection pocket; the dose detection pocket comprises an outer layer and an inner layer; a thymus ray sensor A and a gonad ray sensor A are arranged between the outer layer and the inner layer of the dose detection pocket, and a thymus ray sensor B and a gonad ray sensor B are arranged between the inner layer of the dose detection pocket and the protective clothing fabric.

2. The medical radiation protection device with radiation dose detection function according to claim 1, wherein: the thymus ray sensor A corresponds to the thymus ray sensor B in position, and meanwhile, the thymus ray sensor A corresponds to the thymus on a human body in position; the position of the gonad ray sensor A corresponds to that of the gonad ray sensor B, and the gonad ray sensor A corresponds to the gonad on the human body.

3. The medical radiation protection device with radiation dose detection function according to claim 1, wherein: the dose detection pocket consists of an outer layer and an inner layer; the outer layer is made of the same material as the protective clothing fabric; the inner layer is made of two layers of the same protective materials of the protective suit.

4. The medical radiation protection device with radiation dose detection function according to claim 1, wherein: the radiation sensor A and the radiation sensor B of the dose detection pocket are arranged adjacently in a staggered mode, and the radiation dose detected by the radiation sensor A is the same as the irradiation dose received by the human body environment outside the protective clothing; the radiation dose detected by the radiation sensor B is nearly the same as the radiation dose received by the human body front skin inside the protective clothing.

5. The medical radiation protection device with radiation dose detection function according to claim 1, wherein: thymus ray sensor A, thymus ray sensor B, gonad ray sensor A and gonad ray sensor B all be connected with the AD converter, the AD converter is connected with the selector, the selector is connected with the circulation time-recorder, the circulation time-recorder is connected with the treater, the treater is connected with the counter, the counter is connected with communication module, communication module and SIM card are connected, communication module be connected with the communication trigger, the counter be connected with the counter trigger.

6. The medical radiation protection device with radiation dose detection function according to claim 5, wherein: the thymus ray sensor A, the thymus ray sensor B, the gonad ray sensor A and the gonad ray sensor B are connected with a power supply converter, and the power supply converter is connected with a charging power supply.

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