CN112631179A

CN112631179A - Safety protection control system for backup battery interface of medical equipment

Info

Publication number: CN112631179A
Application number: CN202011505086.5A
Authority: CN
Inventors: 方奕海
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-04-09

Abstract

The invention relates to the technical field of medical equipment, in particular to a safety protection control system for a backup battery interface of the medical equipment, which solves the problems that the interface of the backup battery of the existing medical equipment is not provided with corresponding protection measures, the danger of electric shock is easy to occur, and the interface is not provided with corresponding protection measures for fire prevention and moisture prevention. In order to solve the technical problems, the invention provides a safety protection control system for a backup battery interface of medical equipment, and the safety protection control system can detect the current of the backup battery interface through an internal Hall sensor so as to avoid electric shock caused by mistaken touch of medical personnel; the temperature detection module can measure the temperature of the backup battery during use, so that accidents caused by overhigh temperature of the battery are prevented; the smoke detection module is used for preventing the explosion of the battery caused by the fire; the air humidity condition of the environment where the backup battery is located can be detected through the humidity detection module, and moisture is prevented from entering the backup battery through an interface of the backup battery.

Description

Safety protection control system for backup battery interface of medical equipment

Technical Field

The invention relates to the technical field of medical equipment, in particular to a safety protection control system for a backup battery interface of the medical equipment.

Background

Medical equipment refers to instruments, devices, appliances, materials or other items used alone or in combination in the human body, and also includes required software. The medical equipment is the most basic element of medical, scientific research, teaching, institution and clinical discipline work, namely professional medical equipment and household medical equipment, and the medical equipment is one of the medical equipment.

The existing medical equipment is all matched with a backup battery, but the interface of the existing medical equipment backup battery is directly exposed outside, when the battery is not installed, because the existence of a charging circuit, the interface is sometimes electrified, if a corresponding safety protection control system is not provided to measure the current of the interface in real time, the current of the interface is ensured to be in the safe current, medical personnel easily get an electric shock when using the battery, the battery is extremely unsafe, and the interface of the existing medical equipment backup battery is not provided with corresponding protection measures to prevent fire and damp, in addition, the existing battery monitoring solution only depends on the temperature abnormity monitoring of a battery body to be used as the only judgment standard of the working state of the battery, so that the situations of misinformation and untimely monitoring can often occur.

Disclosure of Invention

The invention aims to solve the defects in the prior art, such as: the interface of the existing backup battery of the medical equipment is directly exposed outside, and if no corresponding protective measures are provided, the danger of electric shock is easy to occur and the interface of the existing backup battery of the medical equipment does not have the corresponding protective measures to prevent fire and damp.

In order to achieve the purpose, the invention adopts the following technical scheme:

medical equipment backup battery interface safety protection control system, including temperature detection module, current detection module, smog detection module, humidity detection module, AD converter, single chip module, fan module, alarm module, fire extinguishing module, dehumidifier module and display module, temperature detection module, current detection module, smog detection module and humidity detection module all with AD converter electric connection, AD converter and single chip module electric connection, fan module, alarm module, fire extinguishing module, dehumidifier module and display module all with single chip module electric connection.

The temperature detection module comprises a temperature sensor and a first signal sending module, and the temperature sensor is electrically connected with the first signal sending module.

The current detection module comprises a Hall sensor and a second signal sending module, and the Hall sensor is electrically connected with the second signal sending module.

The smoke detection module comprises a smoke sensor and a third signal sending module, and the smoke sensor is electrically connected with the third signal sending module.

The humidity detection module comprises a humidity sensor and a fourth signal sending module, and the humidity sensor is electrically connected with the fourth signal sending module.

The temperature detection module is electrically connected with the A/D converter through an internal first signal sending module, the current detection module is electrically connected with the A/D converter through an internal second signal detection module, the smoke detection module is electrically connected with the A/D converter through an internal third signal sending module, and the humidity detection module is electrically connected with the A/D converter through an internal fourth signal sending module.

The single chip microcomputer module comprises a signal receiving module, a processor module, a storage module, a fifth signal sending module, a sixth signal sending module, a seventh signal sending module, an eighth signal sending module and a ninth signal sending module, and the signal receiving module, the storage module, the fifth signal sending module, the sixth signal sending module, the seventh signal sending module, the eighth signal sending module and the ninth signal sending module are all electrically connected with the processor module.

The A/D converter is electrically connected with the signal receiving module in the single chip microcomputer module.

The single chip microcomputer module is electrically connected with the fan module through an internal fifth signal sending module, and the single chip microcomputer module is electrically connected with the alarm module through an internal sixth signal sending module.

The single chip microcomputer module is electrically connected with the fire extinguishing module through an internal seventh signal sending module, the single chip microcomputer module is electrically connected with the dehumidifier module through an internal eighth signal sending module, and the single chip microcomputer module is electrically connected with the display module through an internal ninth signal sending module.

Compared with the prior art, the invention has the beneficial effects that:

(1) the invention realizes the timely early warning and accurate detection of the battery under various dangerous states through the fusion of various monitoring means, can not generate the false alarm situation, and can also carry out targeted treatment on different dangerous cases besides the traditional detection.

(2) The invention is designed with a current detection module, which can accurately detect the current of the interface of the backup battery in real time through an internal Hall sensor, when the current is higher than the safety current of a human body, the singlechip module can control the alarm module to give an alarm to avoid the electric shock caused by the accidental touch of medical personnel, in addition, the invention is also designed with a temperature detection module which can measure the temperature of the backup battery when in use to prevent the battery from accidents caused by overhigh temperature, and when the temperature exceeds the safety temperature, the singlechip module can control the fan module to start, thereby cooling the backup battery.

(3) The invention is designed with a smoke detection module which is used for detecting smoke in a room stored with a backup battery and preventing the explosion of the battery caused by the fire in the room, when the smoke content detected by a smoke sensor is larger than the smoke contained in the normal environment, the singlechip module can control the fire extinguishing module to extinguish the fire and kill the fire in the cradle.

(4) The invention is designed with a humidity detection module, the air humidity condition of the environment where the backup battery is located can be detected through a humidity sensor in the humidity detection module, when the humidity is higher, the single chip microcomputer module can control the dehumidifier module to dehumidify air, and moisture is prevented from entering the backup battery through the interface of the backup battery, so that the service life of the backup battery is shortened.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1, the interface safety protection control system for the backup battery of the medical equipment comprises a temperature detection module, a current detection module, a smoke detection module, a humidity detection module, an A/D converter, a single chip microcomputer module, a fan module, an alarm module, a fire extinguishing module, a dehumidifier module and a display module, wherein the temperature detection module, the current detection module, the smoke detection module and the humidity detection module are all electrically connected with the A/D converter, the temperature detection module comprises a temperature sensor and a first signal sending module, the temperature sensor is electrically connected with the first signal sending module, the temperature sensor can detect the temperature of the outer surface of the backup battery of the medical equipment when in use and send corresponding temperature signals to the first signal sending module inside the temperature detection module, the current detection module comprises a Hall sensor and a second signal sending module, the Hall sensor is electrically connected with the second signal sending module, the Hall sensor can detect the current at the interface of the backup battery and send corresponding current signals to the second signal sending module in the current detection module, the smoke detection module comprises a smoke sensor and a third signal sending module, the smoke sensor is electrically connected with the third signal sending module, the smoke sensor can detect the smoke content of the environment where the backup battery is located and send corresponding smoke signals to the third signal sending module in the smoke detection module, the humidity detection module comprises a humidity sensor and a fourth signal sending module, the humidity sensor is electrically connected with the fourth signal sending module, the humidity sensor can detect the humidity of the environment where the backup battery is located and send corresponding humidity signals to the fourth signal sending module in the humidity detection module, the temperature detection module is electrically connected with the A/D converter through an internal first signal sending module, the current detection module is electrically connected with the A/D converter through an internal second signal detection module, the smoke detection module is electrically connected with the A/D converter through an internal third signal sending module, the humidity detection module is electrically connected with the A/D converter through an internal fourth signal sending module, the first signal sending module, the second signal sending module, the third signal sending module and the fourth signal sending module sequentially send the received temperature signal, the received current signal, the received smoke signal and the received humidity signal to the A/D converter for conversion from an analog signal to a digital signal, and the single chip microcomputer module comprises a signal receiving module, a processor module, a storage module, a fifth signal sending module, The signal receiving module, the storage module, the fifth signal sending module, the sixth signal sending module, the seventh signal sending module, the eighth signal sending module and the ninth signal sending module are all electrically connected with the processor module, the A/D converter is electrically connected with the signal receiving module in the single chip microcomputer module, the A/D converter sends the converted digital signals to the signal receiving module in the single chip microcomputer module, the signal receiving module sends the signals to the processor module for analysis and processing, the processor module sends the processed information to the storage module for local storage, the single chip microcomputer module is electrically connected with the fan module through the fifth signal sending module in the single chip microcomputer module, and the single chip microcomputer module is electrically connected with the alarm module through the sixth signal sending module in the single chip microcomputer module, when the temperature value received by the processor module is larger than the standard temperature value programmed by the program, the processor module sends a signal to the fan module through the fifth signal sending module so as to control the fan module to carry out heat dissipation treatment on the outer surface of the backup battery, when the current value received by the processor module exceeds the safety current of a human body, the processor module sends a signal to the fan module through the sixth signal sending module so as to control the alarm module to give an alarm and prevent medical personnel from mistakenly touching an interface of the backup battery to cause electric shock, the singlechip module is electrically connected with the fire extinguishing module through the seventh signal sending module inside, the singlechip module is electrically connected with the dehumidifier module through the eighth signal sending module inside, the singlechip module is electrically connected with the display module through the ninth signal sending module inside, and when the smoke content received by the processor module exceeds the normal range, the processor module can send an instruction to the fire extinguishing module through the seventh signal sending module, so that the fire extinguishing module is controlled to extinguish fire for the environment around the backup battery, when the humidity value received by the processor module is high, the processor module can send a signal to the dehumidifier module through the eighth signal sending module, so that the dehumidifier module is controlled to dry the environment, and the processor module can send the received temperature, current, smoke content and humidity information to the display module through the ninth signal sending module to display the information in real time.

Example 2

According to the medical equipment back-up battery temperature detection device, the temperature sensor can detect the temperature of the outer surface of a back-up battery of medical equipment when the medical equipment back-up battery is used, and sends a corresponding temperature signal to the first signal sending module in the temperature detection module, the Hall sensor can detect the current at the interface of the back-up battery and sends a corresponding current signal to the second signal sending module in the current detection module, the smoke sensor can detect the smoke content of the environment where the back-up battery is located and sends a corresponding smoke signal to the third signal sending module in the smoke detection module, the humidity sensor can detect the humidity of the environment where the back-up battery is located and sends a corresponding humidity signal to the fourth signal sending module in the humidity detection module, and the first signal sending module, the second signal sending module, the third signal sending module and the fourth signal sending module sequentially send the received temperature signal to the first signal sending module, the second signal sending module, The current signal, the smoke signal and the humidity signal are sent to an A/D converter to convert an analog signal into a digital signal, the A/D converter sends the converted digital signal to a signal receiving module in the single chip microcomputer module, the signal receiving module sends the signal to a processor module to be analyzed and processed, the processor module sends processed information to a storage module to be locally stored, and sends the received temperature, current value, smoke content and humidity information to a display module to be displayed in real time through a ninth signal sending module, when the temperature value received by the processor module is larger than a standard temperature value programmed by a program, the processor module sends a signal to the fan module through a fifth signal sending module so as to control the fan module to carry out heat dissipation processing on the outer surface of the backup battery, and when the current value received by the processor module exceeds the safety current of a human body, the processor module can send signals to the fan module through the sixth signal sending module, thereby controlling the alarm module to give an alarm, preventing medical personnel from electric shock caused by mistakenly touching an interface of the backup battery, when the smoke content received by the processor module exceeds a normal range, the processor module can send an instruction to the fire extinguishing module through the seventh signal sending module, thereby controlling the fire extinguishing module to carry out fire extinguishing treatment on the environment around the backup battery, when the humidity value received by the processor module is higher, the processor module can send signals to the dehumidifier module through the eighth signal sending module, thereby controlling the dehumidifier module to carry out drying treatment on the environment.

In the process, the invention realizes the timely early warning and accurate detection of the battery in various dangerous states through the fusion of various monitoring means, and the false alarm situation can not occur.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. Medical equipment reserve battery interface safety protection control system, its characterized in that: the intelligent fire extinguisher comprises a temperature detection module, a current detection module, a smoke detection module, a humidity detection module, an A/D converter, a singlechip module, a fan module, an alarm module, a fire extinguishing module, a dehumidifier module and a display module, wherein the temperature detection module, the current detection module, the smoke detection module and the humidity detection module are all electrically connected with the A/D converter, the A/D converter is electrically connected with the singlechip module, and the fan module, the alarm module, the fire extinguishing module, the dehumidifier module and the display module are all electrically connected with the singlechip module;

the temperature detection module comprises a temperature sensor and a first signal sending module, the temperature sensor is electrically connected with the first signal sending module, the current detection module comprises a Hall sensor and a second signal sending module, the Hall sensor is electrically connected with the second signal sending module, the smoke detection module comprises a smoke sensor and a third signal sending module, the smoke sensor is electrically connected with the third signal sending module, the humidity detection module comprises a humidity sensor and a fourth signal sending module, and the humidity sensor is electrically connected with the fourth signal sending module;

the temperature detection module is electrically connected with the A/D converter through an internal first signal sending module, the current detection module is electrically connected with the A/D converter through an internal second signal detection module, the smoke detection module is electrically connected with the A/D converter through an internal third signal sending module, and the humidity detection module is electrically connected with the A/D converter through an internal fourth signal sending module;

the single chip microcomputer module comprises a signal receiving module, a processor module, a storage module, a fifth signal sending module, a sixth signal sending module, a seventh signal sending module, an eighth signal sending module and a ninth signal sending module, and the signal receiving module, the storage module, the fifth signal sending module, the sixth signal sending module, the seventh signal sending module, the eighth signal sending module and the ninth signal sending module are all electrically connected with the processor module;

the single chip microcomputer module is electrically connected with the fan module through an internal fifth signal sending module, the single chip microcomputer module is electrically connected with the alarm module through an internal sixth signal sending module, the single chip microcomputer module is electrically connected with the fire extinguishing module through an internal seventh signal sending module, the single chip microcomputer module is electrically connected with the dehumidifier module through an internal eighth signal sending module, and the single chip microcomputer module is electrically connected with the display module through an internal ninth signal sending module.

2. The medical device backup battery interface safety protection control system of claim 1, wherein: the A/D converter is electrically connected with the signal receiving module in the single chip microcomputer module.