CN216277213U - Integrated device integrating microenvironment differential pressure detection and storage - Google Patents
Integrated device integrating microenvironment differential pressure detection and storage Download PDFInfo
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- CN216277213U CN216277213U CN202122998851.8U CN202122998851U CN216277213U CN 216277213 U CN216277213 U CN 216277213U CN 202122998851 U CN202122998851 U CN 202122998851U CN 216277213 U CN216277213 U CN 216277213U
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Abstract
The utility model provides an integrated device for detecting and storing microenvironment differential pressure, which comprises a negative pressure detection device, wherein the negative pressure detection device is connected with a recording module, and is also connected with an analysis module which is connected with an alarm module; the indoor negative pressure monitoring system is simple in structure and convenient to use, can monitor indoor negative pressure values in real time, can store data detected in real time through the recording module, is convenient for follow-up data tracing, and can find out in which time period a problem occurs in time; and the data can be analyzed in real time, and even if an alarm is given when a problem occurs, a worker is prompted to process the data in time, so that the phenomenon that the disease source is diffused is prevented, and the immeasurable loss is caused.
Description
Technical Field
The application relates to the technical field of differential pressure detection and storage, in particular to an integrated device integrating microenvironment differential pressure detection and storage.
Background
Currently, a negative pressure meter is required to be arranged on a tent used for field playing, so that the pressure value inside the tent can be monitored, and the danger of oxygen deficiency and the like generated when people sleep in the tent is avoided, so that the safety of the playing people is ensured; however, for the negative pressure isolation disposal bin and the negative pressure isolation tent for treating the patients with infectious diseases and transporting the patients with infectious diseases, not only the internal negative pressure value needs to be detected at any time, but also historical data can be inquired, so that the situation that the negative pressure at a certain moment cannot reach the standard is avoided, the gas inside the disposal bin and the tent directly leaks out, the infection source is directly transmitted into the air, and the inestimable loss is caused.
Therefore, a new technical solution is needed to solve the above technical problems.
SUMMERY OF THE UTILITY MODEL
The utility model provides an integrated device for detecting and storing microenvironment differential pressure, which comprises a negative pressure detection device, wherein the negative pressure detection device is connected with a recording module, and is also connected with an analysis module, and the analysis module is connected with an alarm module.
Preferably, the negative pressure detecting device is connected with the display screen.
As a preferred scheme, the recording module is connected with the second display screen.
As a preferred scheme, the alarm module is connected with an alarm display device.
As a preferable scheme, the alarm display device adopts a signal lamp.
Preferably, the recording module is connected with the data transmission module.
As a preferred scheme, the data transmission module is a USB port.
As a preferred scheme, the data transmission module is a network cable port or a wireless signal transmitter.
As a preferred scheme, the negative pressure detection device, the recording module, the analysis module and the alarm module are integrated in a shell, and a power supply module for supplying power to the negative pressure detection device, the recording module, the analysis module and the alarm module is arranged in the shell.
Preferably, the power supply module is a rechargeable battery.
As a preferred scheme, a switch button is arranged on the shell and connected with the power supply module.
Preferably, the upper part of the shell is provided with a mounting ring.
According to the utility model, a negative pressure detection device detects the indoor pressure difference in real time, and transmits the detected data to a recording module in real time for storage and recording; the detected data are transmitted to the analysis module in real time for analysis, the analysis module compares and analyzes the prestored negative pressure value, and when the detected data are higher than or lower than the preset negative pressure value, the analysis module sends information to the alarm module to give an alarm to prompt a worker to perform timely processing.
The indoor negative pressure monitoring system is simple in structure and convenient to use, can monitor indoor negative pressure values in real time, can store data detected in real time through the recording module, is convenient for follow-up data tracing, and can find out in which time period a problem occurs in time; and the data can be analyzed in real time, and even if an alarm is given when a problem occurs, a worker is prompted to process the data in time, so that the phenomenon that the disease source is diffused is prevented, and the immeasurable loss is caused.
Drawings
FIG. 1 is a block diagram of the present application;
FIG. 2 is a schematic structural view of angle one of the present application;
FIG. 3 is a schematic structural view of angle two of the present application;
FIG. 4 is a schematic structural view of angle three of the present application;
reference numerals:
1. negative pressure detection device 2, recording module 3, analysis module 4 and alarm module
5. Casing 6, power supply module 7, switch button 8, collar
9. Display screen I10, air inlet 11, display screen II 12 and alarm display device
13. Data transmission module 14 and USB port
Detailed Description
The following detailed description of embodiments of the utility model refers to the accompanying drawings. It should be noted that the specific embodiments described herein are only for illustrating and explaining the present invention and are not to be construed as limiting the present invention.
The first embodiment is as follows:
the embodiment provides an integrated microenvironment differential pressure detection and storage integrated device, which comprises a negative pressure detection device 1, wherein the negative pressure detection device 1 is used for detecting an indoor negative pressure value, generally maintained at about-15 Pa, and can adopt equipment such as a wireless differential pressure sensor, the negative pressure detection device 1 is connected with a recording module 2, the negative pressure detection device 1 transmits real-time detected data to the recording module 2 for storage, the negative pressure detection device 1 is further connected with an analysis module 3, and the analysis module 3 is connected with an alarm module 4; a standard value of negative pressure is preset in the analysis module 3, the data detected in real time by the negative pressure detection device 1 is analyzed with a preset numerical value, and when the data detected in real time is higher than or lower than the preset numerical value, the analysis module 3 controls the alarm module 4 to give an alarm to prompt a worker to process in time, so that air with a pollution source is prevented from leaking and is transmitted through the air.
Example two:
the present embodiment integrates the first embodiment into the housing 5, specifically:
the negative pressure detection device 1, the recording module 2, the analysis module 3 and the alarm module 4 are integrated in the shell 5, the specific wiring mode is the prior art, and the utility model is not described in detail herein; a power supply module 6 for supplying power to the negative pressure detection device 1, the recording module 2, the analysis module 3 and the alarm module 4 is further arranged in the shell 5, preferably, the power supply module 6 is a rechargeable battery, the rechargeable battery is charged through an external power line, more preferably, in order to control the on and off of the equipment, a switch key 7 is arranged on the outer side of the shell 5, the switch key 7 is connected with the power supply module 6, and the on and off of the equipment are controlled by controlling whether the power supply module 6 works or not; the switch button 7 is not limited to the switch button 7, and switches such as knobs in the prior art can be adopted, so that technicians can make corresponding selections according to specific situations.
Preferably, the upper portion of the housing 5 is provided with a mounting ring 8, and the mounting ring 8 is arranged to facilitate installation of equipment and indoor equipment, such as hanging connection and the like.
Example three:
in this embodiment, in order to facilitate the staff to observe the indoor real-time stored value intuitively, and be convenient for carry out the inquiry of historical data through equipment, specifically:
the negative pressure detection device 1 is connected with a first display screen 9, and the first display screen 9 is used for displaying an indoor negative pressure value detected by the negative pressure detection device 1 in real time; the negative pressure detection device 1 monitors the negative pressure value of the gas through the gas inlet 10;
the first display screen 9 is arranged on the outer side of the shell 5, the first display screen 9 can be a liquid crystal display screen, an industrial display screen and the like in the prior art, the specific model is not limited, and technicians select the first display screen 9 with the corresponding size according to the volume of the shell;
the recording module 2 is connected with the second display screen 11, and the second display screen 11 is used for displaying historical data, so that under the condition that a worker does not export data, the historical data can be directly repeated through the method and the device, and convenience is brought to the worker; the second display screen 11 is arranged on the outer side of the shell 5, the second display screen 11 can be a liquid crystal display screen, an industrial display screen and the like in the prior art, the specific model is not limited, and technicians select the second display screen with the corresponding size according to the volume of the shell; the first display screen 9 and the second display screen 11 may be of the same display screen type or different display screen types, and technicians may make corresponding selections according to different situations.
Preferably, the first display screen 9 is arranged at the upper part of the second display screen 11.
Example four:
alarm module 4 of this embodiment can report to the police more directly perceivedly through being connected with alarm display device 12 to this suggestion staff handles in time, specifically:
alarm module 4 is connected with alarm display device 12, alarm display device 12 can adopt equipment such as diode alarm lamp, bee calling organ, pilot lamp among the prior art to this makes the staff more audio-visual observation negative pressure value go wrong.
Example five:
the embodiment further defines the recording module 2, specifically:
the recording module 2 is connected with the data transmission module 13, the data can be sent through the data transmission module 13, and the data can also be copied, the data transmission module 13 can adopt a USB port 14, and directly connects storage devices such as a USB disk to the USB port 14, and the recording module 2 directly sends the data to the storage devices such as the USB disk to store the data.
The data transmission module 13 may also be a network cable port or a wireless signal transmitter; the device can be connected with equipment such as a computer and the like through a network cable port, and data is sent to the computer for backup; the data can be directly sent to wireless transmission equipment such as a mobile phone, a tablet and a computer through the wireless signal transmitter, historical data can be inquired at any time, and the wireless data transmission equipment is very convenient.
In the utility model, a negative pressure detection device 1 detects the indoor pressure difference in real time and transmits the detected data to a recording module 2 in real time for storage and recording; the detected data are also transmitted to the analysis module 3 in real time for analysis, the analysis module 3 is compared with the pre-stored negative pressure value for analysis, and when the detected data are higher than or lower than the pre-set negative pressure value, the analysis module 3 sends information to the alarm module 4 for alarming to prompt a worker to perform timely processing.
The indoor negative pressure monitoring system is simple in structure and convenient to use, can monitor indoor negative pressure values in real time, can store data detected in real time through the recording module 2, facilitates follow-up data tracing, and can find out in which time period a problem occurs in time; and the data can be analyzed in real time, and even if an alarm is given when a problem occurs, a worker is prompted to process the data in time, so that the phenomenon that the disease source is diffused is prevented, and the immeasurable loss is caused.
The detailed structure and connection relation of the utility model are the prior art, and the utility model is not described in detail herein; the connection between the respective members is preferably fixed by means of an adhesive, an integral molding, or the like, which is well known in the art.
The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are included in the scope of protection of the present invention.
It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present application will not be described separately.
In addition, any combination of the various embodiments of the present application can be made, and the present application should be considered as disclosed in the present application as long as the combination does not depart from the spirit of the present application.
Claims (10)
1. The utility model provides an integrated microenvironment pressure differential detects and integrated device of storage, its characterized in that, includes negative pressure detection device (1), negative pressure detection device (1) is connected with record module (2), negative pressure detection device (1) still is connected with analysis module (3), analysis module (3) are connected with alarm module (4).
2. The integrated microenvironment differential pressure detection and storage device according to claim 1, wherein the negative pressure detection device (1) is connected with a first display screen (9).
3. The integrated microenvironment differential pressure detection and storage device according to claim 1, wherein the recording module (2) is connected with a second display screen (11).
4. The integrated microenvironment differential pressure detection and storage device according to claim 1, wherein the alarm module (4) is connected to an alarm display device (12).
5. The integrated microenvironment differential pressure detection and storage device according to claim 1, wherein the recording module (2) is connected with a data transmission module (13).
6. The integrated microenvironment differential pressure detection and storage device according to claim 5, wherein the data transmission module (13) is a USB port (14).
7. The integrated microenvironment differential pressure detection and storage device of claim 5, wherein the data transmission module (13) is a network cable port or a wireless signal transmitter.
8. The integrated microenvironment differential pressure detection and storage device according to claim 1, wherein the negative pressure detection device (1), the recording module (2), the analysis module (3) and the alarm module (4) are integrated in a housing (5), and a power supply module (6) for supplying power to the negative pressure detection device (1), the recording module (2), the analysis module (3) and the alarm module (4) is arranged in the housing (5).
9. The integrated microenvironment differential pressure detection and storage device of claim 8, wherein the power supply module (6) is a rechargeable battery.
10. The integrated microenvironment differential pressure detection and storage device according to claim 8, wherein the housing (5) is provided with a switch button (7), and the switch button (7) is connected to the power supply module (6).
Priority Applications (1)
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CN202122998851.8U CN216277213U (en) | 2021-12-01 | 2021-12-01 | Integrated device integrating microenvironment differential pressure detection and storage |
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CN202122998851.8U CN216277213U (en) | 2021-12-01 | 2021-12-01 | Integrated device integrating microenvironment differential pressure detection and storage |
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CN216277213U true CN216277213U (en) | 2022-04-12 |
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2021
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