CN215115755U - Digital operating room - Google Patents

Abstract

The utility model discloses a digital operating room, include the wall body and install in the air supply smallpox at indoor top, air supply smallpox central authorities have a lamp pole that stretches out downwards, still include at least one sample connection, particulate matter sensor and the control unit that is located the operating table top, the sample connection is used for gathering the air sample in the operating room in real time to send the air sample of gathering into particulate matter sensor, be connected with the sample connection particulate matter sensor is used for acquireing the particulate matter concentration data of air sample, and sends to the control unit, be connected with a gas collection hose on particulate matter sensor's the gas vent, the gas collection hose is served in one of particulate matter sensor mutually and is connected with an air collection pump. The utility model discloses can avoid sampling air unordered discharge to disturb indoor cleanliness factor behind particulate matter sensor, be favorable to orderly regulation and control to the indoor air cleanliness factor.

Description

Digital operating room

Technical Field

The utility model relates to the field of medical treatment, in particular to digital operating room.

Background

The concentration of particulate matter and bacteria in the air has not been detectable in real time during surgical procedures and instrument preparation. After the existing operating room is put into use, whether the indoor cleanliness reaches the standard or not cannot be measured and detected. The naked eye can not see the particulate matter and the bacterium in the air at all, can only detect the particulate matter in the air through the culture dish, does not have real-time and managerial nature.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a digital operating room, there is the problem that can't monitor and manage the air in the operating room among the solution prior art.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a digital operating room comprises a wall body and an air supply ceiling arranged at the top in the room, wherein at least one operating lamp is arranged in the center of the air supply ceiling through a lamp post extending downwards, and at least one operating table is placed right below the lamp post;

the device also comprises at least one sampling port positioned above the operating table, a particulate matter sensor and a control unit;

the sampling port is connected with a power mechanism and is used for collecting an air sample in an operating room in real time and sending the collected air sample to the particulate matter sensor;

the particle sensor is connected with the sampling port and used for acquiring particle concentration data of the air sample and sending the particle concentration data to the control unit;

the control unit is used for comparing the particulate matter concentration data from the particulate matter sensor with a set particulate matter concentration threshold value and generating a control signal according to a comparison result;

the indicating unit sends out an indication according to a control signal from the control unit and is used for displaying the concentration information of the particulate matters in the air in real time;

the exhaust port of the particulate matter sensor is connected with a gas collection hose, and one end of the gas collection hose, back to the particulate matter sensor, is connected with a gas collection pump.

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

1. in the scheme, the gas collection pump is arranged in a room adjacent to the operating room or above the air supply ceiling.

2. In the scheme, the air collecting pump is communicated with one end of the air collecting hose in a back-to-back mode through the pipeline and the air inlet of the air supply ceiling.

3. In the above scheme, the indication unit is one or a combination of a buzzer and an indicator light.

4. In the above scheme, when the concentration of particulate matter in the air sample is greater than the set threshold value, the buzzer sounds an alarm.

5. In the above scheme, when the particulate matter concentration in the air sample is greater than the threshold value that sets for, the pilot lamp changes from green to red.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses digital operating room, it has realized the real-time supervision to the particulate matter concentration in the operating room to show through recognizable mode real time, directly perceived, be convenient for master the cleanliness factor in the operating room in real time, provide the assurance for the cleanness and the stability of the indoor environment in the operation process; further, its at least one sampling port that is located the operating table top is connected with the sampling port particulate matter sensor is used for acquireing the particulate matter concentration data of air sample, is connected with a gas collection hose on particulate matter sensor's the gas vent, the gas collection hose is served back to particulate matter sensor one and is served and be connected with an air collection pump, avoids sampling air unordered discharge behind particulate matter sensor to disturb indoor cleanliness factor, is favorable to orderly regulation and control to indoor air cleanliness factor.

Drawings

Fig. 1 is a schematic view of the whole structure of the digital operating room of the present invention.

In the above drawings: 1. a sampling port; 2. a particulate matter sensor; 3. a control unit; 4. an indicating unit; 5. a gas collection hose; 6. an air collecting pump; 11. a wall body; 12. air supply smallpox; 13. a lamp post; 14. an operating light; 15. an operating table.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like, 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 referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore 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 digital operating room comprises a wall body 11 and an air supply ceiling 12 arranged at the top of the room, wherein at least one operating lamp 14 is arranged in the center of the air supply ceiling 12 through a lamp post 13 extending downwards, and at least one operating table 15 is arranged right below the lamp post 13;

the device also comprises at least one sampling port 1 positioned above an operating table 15, a particulate matter sensor 2 and a control unit 3;

the sampling port 1 is connected with a power mechanism and is used for collecting an air sample in an operating room in real time and sending the collected air sample into the particulate matter sensor 2;

the particle sensor 2 is connected with the sampling port 1 and used for acquiring particle concentration data of an air sample and sending the particle concentration data to the control unit 3;

the control unit 3 is used for comparing the particulate matter concentration data from the particulate matter sensor 2 with a set particulate matter concentration threshold value and generating a control signal according to the comparison result;

the device also comprises at least one indicating unit 4 connected with the control unit 3, wherein the indicating unit 4 sends out an indication according to a control signal from the control unit 3 and is used for displaying the concentration information of the particulate matters in the air in real time;

the exhaust port of the particulate matter sensor 2 is connected with a gas collection hose 5, and one end of the gas collection hose 5, which is back on the particulate matter sensor 2, is connected with a gas collection pump 6.

The indication unit 4 can be integrated on the existing management platform or display in the operating room;

the air collecting pump 6 is arranged between the equipment adjacent to the operating room or above the air supply ceiling 12; the indicating unit 4 is a buzzer; when the concentration of the particulate matters in the air sample is greater than a set threshold value, the buzzer gives out an alarm sound.

Example 2: a digital operating room comprises a wall body 11 and an air supply ceiling 12 arranged at the top of the room, wherein a lamp post 13 extending downwards is arranged in the center of the air supply ceiling 12, at least one operating lamp 14 is arranged on the lamp post 13, and at least one operating table 15 is placed under the lamp post 13;

the device comprises an operating table 15, and is characterized by further comprising at least one sampling port 1, a particulate matter sensor 2 and a control unit 3, wherein the sampling port 1 is located above the operating table 15, the sampling port 1 is used for collecting an air sample in the operating room in real time and sending the collected air sample to the particulate matter sensor 2, the particulate matter sensor 2 connected with the sampling port 1 is used for acquiring particulate matter concentration data of the air sample and sending the particulate matter concentration data to the control unit 3, and the control unit 3 generates a control signal according to the particulate matter concentration data from the particulate matter sensor 2;

the device also comprises at least one indicating unit 4 connected with the control unit 3, wherein the indicating unit 4 sends out an indication according to a control signal from the control unit 3 and is used for displaying the concentration information of the particulate matters in the air in real time;

the exhaust port of the particulate matter sensor 2 is connected with a gas collection hose 5, and one end of the gas collection hose 5, which is back on the particulate matter sensor 2, is connected with a gas collection pump 6.

One end of the air collecting pump 6, which is back to the air collecting hose 5, is communicated with an air inlet of the air supply ceiling 12 through a pipeline; the indicating unit 4 is a combination of a buzzer and an indicating lamp; when the concentration of the particulate matters in the air sample is greater than a set threshold value, the buzzer gives out an alarm sound; when the concentration of the particulate matters in the air sample is larger than the set threshold value, the indicator light changes from green to red.

When the digital operating room is adopted, the real-time monitoring of the concentration of the particulate matters in the operating room is realized, and the particulate matters are visually displayed in real time in a recognizable mode, so that the cleanliness of the interior of the operating room is conveniently mastered in real time, and the cleanness and the stability of the indoor environment in the operating process are guaranteed;

further, its at least one sampling port that is located the operating table top is connected with the sampling port particulate matter sensor is used for acquireing the particulate matter concentration data of air sample, is connected with a gas collection hose on particulate matter sensor's the gas vent, the gas collection hose is served back to particulate matter sensor one and is served and be connected with an air collection pump, avoids sampling air unordered discharge behind particulate matter sensor to disturb indoor cleanliness factor, is favorable to orderly regulation and control to indoor air cleanliness factor.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot 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 by the protection scope of the present invention.

Claims (6)

1. A digital operating room comprises a wall body (11) and an air supply ceiling (12) arranged at the top of the room, wherein at least one operating lamp (14) is arranged in the center of the air supply ceiling (12) through a lamp post (13) extending downwards, and at least one operating table (15) is placed under the lamp post (13);

the method is characterized in that: the device also comprises at least one sampling port (1) positioned above the operating table (15), a particulate matter sensor (2) and a control unit (3);

the sampling port (1) is connected with a power mechanism and is used for collecting an air sample in an operating room in real time and sending the collected air sample into the particulate matter sensor (2);

the particle sensor (2) is connected with the sampling port (1) and used for acquiring particle concentration data of an air sample and sending the particle concentration data to the control unit (3);

the control unit (3) is used for generating a control signal according to the particulate matter concentration data from the particulate matter sensor (2);

the device also comprises at least one indicating unit (4) connected with the control unit (3), wherein the indicating unit (4) sends out an indication according to a control signal from the control unit (3) and is used for displaying the concentration information of the particulate matters in the air in real time;

the exhaust port of the particulate matter sensor (2) is connected with a gas collection hose (5), and one end of the gas collection hose (5), which is back on the particulate matter sensor (2), is connected with a gas collection pump (6).

2. The digital operating room of claim 1, wherein: the air collecting pump (6) is arranged in a room adjacent to the operating room or above the air supply ceiling (12).

3. The digital operating room of claim 1 or 2, wherein: one end of the air collection pump (6), which is back to the air collection hose (5), is communicated with an air inlet of the air supply ceiling (12) through a pipeline.

4. The digital operating room of claim 1, wherein: the indicating unit (4) is one of a buzzer and an indicating lamp or a combination of the buzzer and the indicating lamp.

5. The digital operating room of claim 4, wherein: when the concentration of the particulate matters in the air sample is greater than a set threshold value, the buzzer gives out an alarm sound.

6. The digital operating room of claim 4, wherein: when the concentration of the particulate matters in the air sample is larger than the set threshold value, the indicator light changes from green to red.

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