CN113237806A

CN113237806A - Medical environment logistics support monitoring system

Info

Publication number: CN113237806A
Application number: CN202110785516.1A
Authority: CN
Inventors: 黄梦楠; 冯平
Original assignee: Sinodeu Medical Co Ltd
Current assignee: Sinodeu Medical Co Ltd
Priority date: 2021-07-12
Filing date: 2021-07-12
Publication date: 2021-08-10
Anticipated expiration: 2041-07-12
Also published as: WO2023284392A1; CN113237806B; CN114252374A

Abstract

The invention discloses a medical environment logistics support monitoring system, which comprises at least one detection device and at least one intelligent terminal in communication connection with the detection device, wherein the detection device comprises a shell, a particle counter and an air filter, an air pipe penetrating through the shell is connected to an air inlet of a first electromagnetic valve, 2 air outlets of the first electromagnetic valve are respectively connected with the particle counter and the air filter through a first pipeline and a second pipeline, the air filter is connected to an air inlet of a second electromagnetic valve through a third pipeline, 2 air outlets of the second electromagnetic valve are respectively communicated with the particle counter and an air outlet through a fourth pipeline and a fifth pipeline, and the intelligent terminal is used for receiving, storing and/or analyzing particle content information. The invention is convenient for punctually replacing the air filter consumables on the basis of realizing flexible monitoring of the air quality in a clean area in a hospital, such as an operating room, thereby ensuring that the air cleanliness in the area is kept within a required range for a long time.

Description

Medical environment logistics support monitoring system

Technical Field

The invention relates to the field of air detection, in particular to a medical environment logistics support monitoring system.

Background

The operating room is a place for providing operations and rescue for patients and is an important technical department of hospitals. The operating room should be connected with an operating department, and should be close to a blood bank, a monitoring room, an anesthesia resuscitation room and the like, four links of the surgical incision infection are grasped for management, namely: the air in the operating room, the items required for the operation, the fingers of doctors and nurses and the skin of patients, and the prevention of infection are important factors for ensuring the success rate of the operation.

The operating room needs often to detect the cleanliness factor of air, and whether present hospital's operating room cleanliness factor is up to standard only relies on once to detect at the culture dish under unmanned environment when the engineering is accomplished, but does not have the tradition of verifying whether the cleanliness factor still is up to standard after the hospital is put into use.

Disclosure of Invention

The invention mainly aims to provide a medical environment later-period guarantee monitoring system which is convenient for punctually replacing air filter consumables on the basis of flexibly monitoring the air quality in a clean area in a hospital, such as an operating room, so that the air cleanliness in the area is kept within a required range for a long time.

In order to achieve the purpose, the invention adopts the technical scheme that: a medical environment logistics support monitoring system comprises at least one detection device and at least one intelligent terminal in communication connection with the detection device, wherein the detection device comprises a shell, a particle counter and an air filter, at least 3 universal wheels are arranged on the bottom surface of the shell with an air inlet and an air outlet, and the particle counter communicated with the air outlet and the air filter communicated with the air inlet are both positioned in the shell;

an air pipe penetrating through the shell is connected to an air inlet of a first electromagnetic valve, 2 air outlets of the first electromagnetic valve are respectively connected with the particle counter and the air filter through a first pipeline and a second pipeline, the air filter is connected to an air inlet of a second electromagnetic valve through a third pipeline, and 2 air outlets of the second electromagnetic valve are respectively communicated with the particle counter and the air outlet through a fourth pipeline and a fifth pipeline;

a particle counter for measuring the particle content in the air from the first pipeline and the particle content in the air-filter-cleaned gas from the fourth pipeline;

further comprising:

the information processing module generates a purification control signal and an alarm signal according to a comparison result of particle content information in air of a first pipeline from the particle counter and a threshold value, and generates a purification detection control signal and a corresponding first valve switching signal and a corresponding second valve switching signal according to a set period;

the WiFi module is used for sending the particle content information obtained from the particle counter or the information processing module to the intelligent terminal in real time;

the alarm module is used for responding to the alarm signal from the information processing module and giving an alarm;

the first electromagnetic valve is used for responding to a first valve switching signal from the information processing module and opening a gas channel from the gas pipe to the particle counter or a gas channel from the gas pipe to the air filter;

the second electromagnetic valve is used for responding to a second valve switching signal from the information processing module and opening a gas passage from the air filter to the air outlet or a gas passage from the air filter to the particle counter;

the air filter is used for responding to the purification control signal from the information processing module and starting or closing the processing operation of the air from the air inlet, and is also used for responding to the purification detection control signal from the information processing module and starting or closing the processing operation of the air from the second pipeline;

and the intelligent terminal is used for receiving, storing and/or analyzing the particle content information.

The further improved scheme in the technical scheme is as follows:

1. in the above scheme, the number of the universal wheels is 4, and the universal wheels are respectively positioned at four corners of the shell.

2. In the above scheme, the bottom surface of casing is provided with 2 bracing pieces, and 2 universal wheels are installed in the lower terminal surface of a bracing piece among 4 universal wheels, and 2 universal wheels are installed in the lower terminal surface of another bracing piece in addition.

3. In the above scheme, the intelligent terminal includes a cloud, a computer, a mobile phone or a tablet.

4. In the above scheme, the alarm module is a two-color light alarm installed on the shell.

5. In the scheme, when the alarm signal from the information processing module is responded, the alarm module emits red light, otherwise, the alarm module emits green light.

6. In the above scheme, the pipeline for communicating the air filter and the air inlet is provided with the electromagnetic valve for controlling the on-off of the air inlet.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. the medical environment logistics support monitoring system can move between independent areas with cleanliness requirements such as operating rooms and the like, monitors the cleanliness of each area in real time, can accurately acquire the time for replacing air filter consumables through gas detection before and after passing through an air filter, and avoids the situations that a hospital self-purchased filter has a leak source, the waste is caused by the fact that air cannot be effectively filtered or the air filter consumables are frequently replaced, and the air purification effect is influenced when the air filter consumables are not replaced timely, so that the air cleanliness in the areas is kept within the required range for a long time.

2. The medical environment logistics support monitoring system comprises a WiFi module, an intelligent terminal and a data processing module, wherein the WiFi module is used for sending particle content information obtained from a particle counter or the information processing module to the intelligent terminal in real time; furthermore, the alarm module is used for responding to the alarm signal and giving an alarm, so that the detection result can be acquired more intuitively, in real time and remotely, and a user can acquire the air quality standard condition more quickly and intuitively like medical staff.

Drawings

FIG. 1 is a schematic structural diagram of a medical environmental logistics support monitoring system of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the medical environmental logistics support monitoring system of the present invention;

FIG. 3 is a schematic diagram of the medical environmental logistics support monitoring system of the present invention.

In the above drawings: 1. a housing; 2. a particle counter; 3. an air filter; 5. a universal wheel; 6. a WiFi module; 7. an air tube; 8. an information processing module; 9. a support bar; 10. an intelligent terminal; 11. a first solenoid valve; 12. a second solenoid valve; 13. and an alarm module.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but 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; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The meaning of the above terms in this patent may be specifically understood by those of ordinary skill in the art.

Example 1: a medical environment logistics support monitoring system comprises at least one detection device and at least one intelligent terminal 10 in communication connection with the detection device, wherein the detection device comprises a shell 1, a particle counter 2 and an air filter 3, at least 3 universal wheels 5 are arranged on the bottom surface of the shell 1 with an air inlet and an air outlet, and the particle counter 2 communicated with the air outlet and the air filter 3 communicated with the air inlet are both positioned in the shell 1;

an air pipe 7 penetrating through the shell 1 is connected to an air inlet of a first

electromagnetic valve

11, 2 air outlets of the first electromagnetic valve 11 are respectively connected with the particle counter 2 and the air filter 3 through a first pipeline and a second pipeline, the air filter 3 is connected to an air inlet of a second electromagnetic valve 12 through a third pipeline, and 2 air outlets of the second electromagnetic valve 12 are respectively communicated with the particle counter 2 and an air outlet through a fourth pipeline and a fifth pipeline;

a particle counter 2 for measuring the particle content in the air from the first line and the particle content in the air purified by the air filter 3 from the fourth line;

further comprising:

the information processing module 8 is used for generating a purification control signal and an alarm signal according to the comparison result of the particle content information in the air of the first pipeline from the particle counter 2 and a threshold value, and generating a purification detection control signal and a corresponding first valve switching signal and a corresponding second valve switching signal according to a set period;

the WiFi module 6 is used for sending the particle content information obtained from the particle counter 2 or the information processing module 8 to the intelligent terminal 10 in real time;

an alarm module 13 for responding to the alarm signal from the information processing module 8 and giving an alarm;

a first electromagnetic valve 11 for opening a gas passage from the gas pipe 7 to the particle counter 2 or a gas passage from the gas pipe 7 to the air filter 3 in response to a first valve switching signal from the information processing module 8;

a second solenoid valve 12 for opening a gas passage from the air filter 3 to the outlet or a gas passage from the air filter 3 to the particle counter 2 in response to a second valve switching signal from the information processing module 8;

the air filter 3 is used for responding to the purification control signal from the information processing module 8 and starting or closing the processing operation of the air from the air inlet, and is also used for responding to the purification detection control signal from the information processing module 8 and starting or closing the processing operation of the air from the second pipeline;

and the intelligent terminal 10 is used for receiving, storing and/or analyzing the particle content information.

The number of the universal wheels 5 is 4, and the universal wheels are respectively positioned at four corners of the shell 1; the bottom surface of the shell 1 is provided with 2 support rods 9, 2 universal wheels 5 of 4 universal wheels 5 are arranged on the lower end surface of one support rod 9, and the other 2 universal wheels 5 are arranged on the lower end surface of the other support rod 9;

the pipeline of the air filter 3 communicated with the air inlet is provided with an electromagnetic valve for controlling the on-off of the air inlet;

the intelligent terminal 10 includes a computer; the alarm module 13 is a two-color light alarm mounted on the housing 1.

Example 2: a medical environment logistics support monitoring system comprises 2 detection devices and 2 intelligent terminals 10 in communication connection with the detection devices, wherein each detection device comprises a shell 1, a particle counter 2 and an air filter 3, at least 3 universal wheels 5 are arranged on the bottom surface of the shell 1 with an air inlet and an air outlet, and the particle counter 2 communicated with the air outlet and the air filter 3 communicated with the air inlet are both positioned in the shell 1;

electromagnetic valve

further comprising:

The number of the universal wheels 5 is 4, and the universal wheels are respectively positioned at four corners of the shell 1; the intelligent terminal 10 includes a mobile phone; the alarm module 13 is a two-color light alarm installed on the housing 1, and when the alarm module 13 responds to an alarm signal from the information processing module 8, the alarm module 13 emits red light, otherwise, the alarm module 13 emits green light.

When the air purifier is in a normal use state, the particle counter is used for acquiring the particle content information in the current air in real time, and when the particle content value exceeds a set threshold value, the air filter is started to purify the air until the particle content value acquired by the particle counter is reduced below the threshold value;

starting a detection mode of the air filter at intervals, switching a gas passage through an electromagnetic valve, simultaneously opening the air filter, measuring the gas before and after being purified by the air filter through a particle counter, and determining whether consumable items such as a filter element in the air filter need to be replaced or not according to the comparison of the difference value of the particle content in the gas before and after being purified by the air filter and a set threshold value;

when the medical environment logistics support monitoring system is adopted, the system can move between independent areas with cleanliness requirements such as operating rooms and the like, the cleanliness of each area is monitored in real time, the time for replacing air filter consumables can be accurately obtained through gas detection before and after passing through an air filter, the situations that a hospital self-purchased filter has a leak source, waste is caused due to the fact that air cannot be effectively filtered or the air filter consumables are frequently replaced, and the air purification effect is influenced when the air filter consumables are not replaced timely are avoided, and therefore the air cleanliness in the areas is kept within a required range for a long time;

in addition, the convenient real-time transmission of data can be realized, the field reading is not needed, the air cleanliness information in the working space of each detection device can be obtained at the intelligent terminal, and the information can be stored and subjected to multi-dimensional analysis;

furthermore, its alarm module for respond to alarm signal, send out the police dispatch newspaper, can be more directly perceived and real-time show the testing result, convenient to use person is more swift and audio-visual acquisition air quality standard condition like medical personnel.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a medical environment logistics support monitoring system, including at least one detection device and at least one with intelligent terminal (10) that detection device communication is connected, its characterized in that: the detection device comprises a shell (1), a particle counter (2) and an air filter (3), wherein the bottom surface of the shell (1) with an air inlet and an air outlet is provided with at least 3 universal wheels (5), and the particle counter (2) communicated with the air outlet and the air filter (3) communicated with the air inlet are both positioned in the shell (1);

an air pipe (7) penetrating through the shell (1) is connected to an air inlet of a first electromagnetic valve (11), 2 air outlets of the first electromagnetic valve (11) are respectively connected with the particle counter (2) and the air filter (3) through a first pipeline and a second pipeline, the air filter (3) is connected to an air inlet of a second electromagnetic valve (12) through a third pipeline, and 2 air outlets of the second electromagnetic valve (12) are respectively communicated with the particle counter (2) and an air outlet through a fourth pipeline and a fifth pipeline;

a particle counter (2) for measuring the particle content of the air from the first line and the particle content of the air from the fourth line after being purified by the air filter (3);

further comprising:

the information processing module (8) generates a purification control signal and an alarm signal according to the comparison result of the particle content information in the air of the first pipeline from the particle counter (2) and a threshold value, and generates a purification detection control signal and a corresponding first valve switching signal and a corresponding second valve switching signal according to a set period;

the WiFi module (6) is used for sending the particle content information acquired from the particle counter (2) or the information processing module (8) to the intelligent terminal (10) in real time;

the alarm module (13) is used for responding to the alarm signal from the information processing module (8) and giving an alarm;

a first electromagnetic valve (11) for responding to a first valve switching signal from the information processing module (8) and opening a gas passage from the gas pipe (7) to the particle counter (2) or a gas passage from the gas pipe (7) to the air filter (3);

a second solenoid valve (12) for opening a gas passage from the air filter (3) to the outlet or a gas passage from the air filter (3) to the particle counter (2) in response to a second valve switching signal from the information processing module (8);

the air filter (3) is used for responding to a purification control signal from the information processing module (8) and starting or closing the processing operation of the air from the air inlet, and is also used for responding to a purification detection control signal from the information processing module (8) and starting or closing the processing operation of the air from the second pipeline;

a smart terminal (10) for receiving, storing and/or analyzing particle content information.

2. The medical environment logistics support monitoring system of claim 1, wherein: the number of the universal wheels (5) is 4, and the universal wheels are respectively positioned at four corners of the shell (1).

3. The medical environment logistics support monitoring system of claim 1 or 2, wherein: the bottom surface of casing (1) is provided with 2 bracing pieces (9), and 2 universal wheels (5) are installed in the lower terminal surface of a bracing piece (9) among 4 universal wheels (5), and 2 universal wheels (5) are installed in the lower terminal surface of another bracing piece (9) in addition.

4. The medical environment logistics support monitoring system of claim 1, wherein: the intelligent terminal (10) comprises a cloud, a computer, a mobile phone or a tablet.

5. The medical environment logistics support monitoring system of claim 1, wherein: the alarm module (13) is a two-color light alarm arranged on the shell (1).

6. The medical environment logistics support monitoring system of claim 5, wherein: when the alarm module (13) responds to the alarm signal from the information processing module (8), the alarm module (13) emits red light, otherwise, the alarm module (13) emits green light.

7. The medical environment logistics support monitoring system of claim 1, wherein: and an electromagnetic valve for controlling the on-off of the air inlet is arranged on a pipeline for communicating the air filter (3) with the air inlet.