CN216953407U - Gas monitoring and management system for operating room - Google Patents

Gas monitoring and management system for operating room Download PDF

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Publication number
CN216953407U
CN216953407U CN202220242569.9U CN202220242569U CN216953407U CN 216953407 U CN216953407 U CN 216953407U CN 202220242569 U CN202220242569 U CN 202220242569U CN 216953407 U CN216953407 U CN 216953407U
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cavity
gas
operating room
hole
partition plate
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CN202220242569.9U
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黄梦楠
杨娜娜
冯平
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Sinodeu Medical Co Ltd
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Sinodeu Medical Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/02Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]

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Abstract

The utility model discloses a gas monitoring and managing system for an operating room, which comprises: the monitoring device and at least one intelligent terminal that a plurality of distributes in the operating room, every monitoring device is connected with the intelligent terminal communication separately, monitoring device's second baffle is opened has the first through-hole, the second through-hole of cavity and left lower cavity in a intercommunication, imbed in the first through-hole of second baffle a gas collection seat slidable, this gas collection seat is provided with the vertical bar hole of a plurality of along circumference interval, the output that a bracing piece that is located cavity bottom is down connected to the bottom of gas collection seat, the gas collection seat is along vertical direction motion under the drive of bracing piece, it has a gas vent to open on the cavity down in a left side, a fan is installed in the cavity, a detection head that is located cavity down in a left side is connected with dust particle counter through a connecting pipe that passes first baffle. The utility model realizes real-time monitoring of cleanliness in the operating room and gas purification treatment, and does not need to start an additional gas purification device to keep the cleanliness of the gas in the operating room.

Description

Gas monitoring and management system for operating room
Technical Field
The utility model relates to the technical field of cleanliness monitoring, in particular to a gas monitoring and managing system for an operating room.
Background
The operating room is the place of providing operation and rescue for patient, is the important technical department of hospital, when providing the operation to patient, the gas in the operation needs to guarantee higher clean degree, avoids the impurity in the operating room air to lead to patient to the condition that the wound infects. Among the prior art, the top of operating room is the air supply smallpox, and the below has the return air inlet to form the air that flows in the operating room, often air purification device and detection device are 2 independent devices respectively among the prior art, and the environment that the detected value corresponds often is inconsistent with actual environment, can not really reflect the clean degree in operating room space, also leads to the comparability relatively poor.
Disclosure of Invention
The utility model mainly aims to provide a gas monitoring and managing system for an operating room, which can realize real-time monitoring of cleanliness in the operating room and perform gas purification treatment at the same time, and does not need to start another gas purifying device to maintain the cleanliness of gas in the operating room.
In order to achieve the purpose, the utility model adopts the technical scheme that: a gas monitoring and management system for an operating room, comprising: a plurality of monitoring devices and at least one intelligent terminal that distribute in the operating room, every monitoring device is connected with intelligent terminal communication separately, monitoring device further includes: the dust particle counter comprises a shell, a dust particle counter, a first partition plate and a second partition plate, wherein the second partition plate positioned in the middle of the shell divides the shell into an upper cavity and a lower cavity, the first partition plate positioned between the second partition plate and the bottom of the shell divides the lower cavity into a left lower cavity and a right lower cavity, the left end and the right end of the upper cavity are respectively provided with a left vent and a right vent, and the second partition plate is provided with a first through hole and a second through hole which are communicated with the upper cavity and the left lower cavity;
the dust particle counter sets up in the cavity of resorption on the right side, and in the first through-hole of a gas collection seat slidable ground embedding second baffle, this gas collection seat was provided with the vertical bar hole of a plurality of along circumference interval, and an output that is located the bracing piece of cavity bottom under the left side is connected to the bottom of gas collection seat, the gas collection seat moves along vertical direction under the drive of bracing piece, it has a gas vent to open on the cavity under a left side, and a fan is installed in the epicoele, a detection head that is located cavity under a left side pass through the connecting pipe of first baffle with dust particle counter is connected, be provided with a filter assembly between gas collection seat and the fan, filter assembly further includes the filter plate that 2 at least intervals set up and is located the activated carbon layer between the filter plate.
The further improved scheme in the technical scheme is as follows:
1. in the above scheme, the intelligent terminal is any one or combination of a plurality of cloud, computer, mobile phone, panel and display screen.
2. In the above scheme, the intelligent terminal is configured to receive, store, display, and/or analyze the information on the content of dust particles from the dust particle counter.
3. In the above scheme, the number of the filter plates is 3.
4. In the above scheme, the first through hole of the second partition board is a circular first through hole.
5. In the above scheme, the number of the left ventilation openings is at least 2 and the left ventilation openings are distributed at equal intervals in the vertical direction.
6. In the above scheme, the number of the right ventilation openings is at least 2 and the right ventilation openings are distributed at equal intervals in the vertical direction.
Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:
the utility model relates to a gas monitoring and managing system for an operating room, which is characterized in that a gas collecting seat of a monitoring device is provided with a plurality of vertical strip-shaped holes at intervals along the circumferential direction while the cleanliness in the operating room is monitored in real time, the output end of a supporting rod positioned at the bottom of a left lower cavity is connected to the bottom of the gas collecting seat, the gas collecting seat is driven by the supporting rod to move along the vertical direction, a gas exhaust hole is arranged on the left lower cavity, a fan is arranged in an upper cavity, a detection head positioned in the left lower cavity is connected with a dust particle counter through a connecting pipe penetrating through a first partition plate, a filter assembly is arranged between the gas collecting seat and the fan, the filter assembly further comprises at least 2 filter plates arranged at intervals and an activated carbon layer positioned between the filter plates, the gas purification treatment is realized in the process of monitoring the air quality, and the cleanliness of gas in the operating room is kept without starting another gas purifying device, the practicality of monitoring devices is improved.
Drawings
FIG. 1 is an electrical schematic diagram of the gas monitoring and management system for an operating room of the present invention;
FIG. 2 is a schematic diagram of the overall structure of a monitoring device in the gas monitoring and management system of the present invention;
FIG. 3 is a schematic diagram of the internal structure of a monitoring device in the gas monitoring and management system according to the present invention;
fig. 4 is a schematic partial structure diagram of a monitoring device in the gas monitoring and management system according to the present invention.
In the above drawings: 100. a monitoring device; 1. a housing; 101. an upper cavity; 102. a lower cavity; 103. a lower left chamber; 104. a lower right cavity; 2. a dust particle counter; 3. a first separator; 4. a second separator; 41. a first through hole; 42. a second through hole; 51. a left vent; 52. a right vent; 6. a gas collecting seat; 7. a support bar; 8. an exhaust hole; 9. a fan; 10. a detection head; 11. a connecting pipe; 12. a filter assembly; 1201. a filter plate; 200. an intelligent terminal; 300. a wireless communication 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 gas monitoring and management system for an operating room, comprising: a plurality of monitoring devices 100 and at least one intelligent terminal 200 that distribute in the operating room, every monitoring device 100 is connected with intelligent terminal 200 communication separately, monitoring device 100 further includes: the dust particle counter comprises a shell 1, a dust particle counter 2, a first partition plate 3 and a second partition plate 4, wherein the second partition plate 4 positioned in the middle of the shell 1 divides the shell 1 into an upper cavity 101 and a lower cavity 102, the first partition plate 3 positioned between the second partition plate 4 and the bottom of the shell 1 divides the lower cavity 102 into a left lower cavity 103 and a right lower cavity 104, the left end and the right end of the upper cavity 101 are respectively provided with a left vent 51 and a right vent 52, and the second partition plate 4 is provided with a first through hole 41 and a second through hole 42 which are communicated with the upper cavity 101 and the left lower cavity 103;
the dust particle counter 2 is arranged in a lower right cavity 104, an air collecting seat 6 is slidably embedded into a first through hole 41 of a second partition plate 4, the air collecting seat 6 is circumferentially provided with a plurality of vertical strip-shaped holes 61 at intervals, an output end of a support rod 7 positioned at the bottom of a lower left cavity 103 is connected to the bottom of the air collecting seat 6, the air collecting seat 6 moves in the vertical direction under the driving of the support rod 7, the lower left cavity 103 is provided with an exhaust hole 8, a fan 9 is arranged in an upper cavity 101, a detection head 10 positioned in the lower left cavity 103 is connected with the dust particle counter 1201 through a connecting pipe 11 penetrating through a first partition plate 3, a filter assembly 12 is arranged between the air collecting seat 6 and the fan 9, and the filter assembly 12 further comprises at least 2 filter plates 1201 arranged at intervals and an activated carbon layer positioned between the filter plates.
The intelligent terminal 200 is a combination of a cloud, a computer and a mobile phone.
The intelligent terminal 200 is connected to the monitoring device 100 through the wireless communication module 300.
The wireless communication module 300 is a combination of a WiFi module and a bluetooth module.
The number of the filter sheets 1201 is 3.
The number of the left air vents 51 is at least 2 and the left air vents are distributed at equal intervals in the vertical direction.
The number of the right ventilation openings 52 is at least 2 and the right ventilation openings are distributed at equal intervals in the vertical direction.
Example 2: a gas monitoring and management system for an operating room, comprising: a plurality of monitoring devices 100 and at least one intelligent terminal 200 that distribute in the operating room, every monitoring device 100 is connected with intelligent terminal 200 communication separately, monitoring device 100 further includes: the dust particle counter comprises a shell 1, a dust particle counter 2, a first partition plate 3 and a second partition plate 4, wherein the second partition plate 4 positioned in the middle of the shell 1 divides the shell 1 into an upper cavity 101 and a lower cavity 102, the first partition plate 3 positioned between the second partition plate 4 and the bottom of the shell 1 divides the lower cavity 102 into a left lower cavity 103 and a right lower cavity 104, the left end and the right end of the upper cavity 101 are respectively provided with a left vent 51 and a right vent 52, and the second partition plate 4 is provided with a first through hole 41 and a second through hole 42 which are communicated with the upper cavity 101 and the left lower cavity 103;
the dust particle counter 2 is arranged in a lower right cavity 104, an air collecting seat 6 is slidably embedded into a first through hole 41 of a second partition plate 4, the air collecting seat 6 is circumferentially provided with a plurality of vertical strip-shaped holes 61 at intervals, an output end of a support rod 7 positioned at the bottom of a lower left cavity 103 is connected to the bottom of the air collecting seat 6, the air collecting seat 6 moves in the vertical direction under the driving of the support rod 7, the lower left cavity 103 is provided with an exhaust hole 8, a fan 9 is arranged in an upper cavity 101, a detection head 10 positioned in the lower left cavity 103 is connected with the dust particle counter 1201 through a connecting pipe 11 penetrating through a first partition plate 3, a filter assembly 12 is arranged between the air collecting seat 6 and the fan 9, and the filter assembly 12 further comprises at least 2 filter plates 1201 arranged at intervals and an activated carbon layer positioned between the filter plates.
The intelligent terminal 200 is a combination of a cloud and a display screen.
The smart terminal 200 is configured to receive, store, display and/or analyze the dust particle content information from the dust particle counter 2.
The smart terminal 200 is connected to the dust particle counter 2 of the monitoring device 100 via a wireless communication module 300.
The wireless communication module 300 is a combination of a WiFi module and a ZigBee module.
The number of the filter sheets 1201 is 3.
The first through hole 41 of the second separator 4 is a circular first through hole.
The number of the left air vents 51 is at least 2 and the left air vents are distributed at equal intervals in the vertical direction.
When the gas monitoring and management system for the operating room is adopted, the working principle is as follows: when the dust particle detector is used, the fan causes space gas to flow, so that gas in an operating room enters the upper cavity through the left vent, one part of the gas directly flows through the upper cavity rapidly and flows out of the right vent, one part of the gas enters the gas collecting seat through the vertical strip-shaped hole area in the upper cavity in the gas collecting seat and then flows out of the vertical strip-shaped hole area in the lower cavity to enter the detection area of the lower cavity, the detection head of the dust particle detector detects the air flowing into the lower cavity, then the gas flows back to the upper cavity from the second vent, and the gas flows out of the right vent after being filtered by the filter assembly;
the gas collecting seat of the monitoring device is provided with a plurality of vertical strip-shaped holes at intervals along the circumferential direction, the output end of a supporting rod positioned at the bottom of a lower left cavity is connected to the bottom of the gas collecting seat, the gas collecting seat moves along the vertical direction under the driving of the supporting rod, a vent hole is formed in the lower left cavity, a fan is installed in an upper cavity, a detection head positioned in the lower left cavity is connected with a dust particle counter through a connecting pipe which penetrates through a first partition plate, a filtering assembly is arranged between the gas collecting seat and the fan, the filtering assembly further comprises at least 2 filter plates which are arranged at intervals and an activated carbon layer positioned between the filter plates, gas purification treatment is also carried out in the process of monitoring the air quality, the cleanness degree of gas in an operating room is kept without starting an additional gas purification device, and the practicability of the monitoring device is improved.
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 in the protection scope of the present invention.

Claims (7)

1. A gas monitoring and management system for an operating room, comprising: a plurality of monitoring devices (100) and at least one intelligent terminal (200) that distribute in the operating room, every monitoring device (100) respectively with intelligent terminal (200) communication connection, its characterized in that: the monitoring device (100) further comprises: the dust particle counter comprises a shell (1), a dust particle counter (2), a first partition plate (3) and a second partition plate (4), wherein the second partition plate (4) positioned in the middle of the shell (1) divides the shell (1) into an upper cavity (101) and a lower cavity (102), the first partition plate (3) positioned between the second partition plate (4) and the bottom of the shell (1) divides the lower cavity (102) into a left lower cavity (103) and a right lower cavity (104), the left end and the right end of the upper cavity (101) are respectively provided with a left vent hole (51) and a right vent hole (52), and the second partition plate (4) is provided with a first through hole (41) and a second through hole (42) which are communicated with the upper cavity (101) and the left lower cavity (103);
the dust particle counter (2) is arranged in a lower right cavity (104), a gas collecting seat (6) is embedded into a first through hole (41) of a second partition plate (4) in a sliding manner, a plurality of vertical strip-shaped holes (61) are circumferentially arranged on the gas collecting seat (6) at intervals, the output end of a support rod (7) positioned at the bottom of the lower left cavity (103) is connected to the bottom of the gas collecting seat (6), the gas collecting seat (6) is driven by the support rod (7) to move along the vertical direction, an exhaust hole (8) is formed in the lower left cavity (103), a fan (9) is arranged in an upper cavity (101), a detection head (10) positioned in the lower left cavity (103) is connected with the dust particle counter (2) through a connecting pipe (11) penetrating through the first partition plate (3), a filtering assembly (12) is arranged between the gas collecting seat (6) and the fan (9), the filter assembly (12) further comprises at least 2 filter plates (1201) arranged at intervals and an activated carbon layer positioned between the filter plates (1201).
2. The gas monitoring and management system for an operating room as set forth in claim 1, wherein: the intelligent terminal (200) is any one or combination of a plurality of cloud, a computer, a mobile phone, a panel and a display screen.
3. The gas monitoring and management system for operating rooms according to claim 1 or 2, characterized in that: the intelligent terminal (200) is used for receiving, storing, displaying and/or analyzing the dust particle content information from the dust particle counter (2).
4. The gas monitoring and management system for an operating room as set forth in claim 1, wherein: the number of the filter plates (1201) is 3.
5. The gas monitoring and management system for an operating room as set forth in claim 1, wherein: the first through hole (41) of the second partition plate (4) is a circular first through hole.
6. The gas monitoring and management system for an operating room as set forth in claim 1, wherein: the number of the left ventilation openings (51) is at least 2 and the left ventilation openings are distributed at equal intervals in the vertical direction.
7. The gas monitoring and management system for an operating room of claim 4, wherein: the number of the right ventilation openings (52) is at least 2 and the right ventilation openings are distributed at equal intervals in the vertical direction.
CN202220242569.9U 2022-01-29 2022-01-29 Gas monitoring and management system for operating room Active CN216953407U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220242569.9U CN216953407U (en) 2022-01-29 2022-01-29 Gas monitoring and management system for operating room

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220242569.9U CN216953407U (en) 2022-01-29 2022-01-29 Gas monitoring and management system for operating room

Publications (1)

Publication Number Publication Date
CN216953407U true CN216953407U (en) 2022-07-12

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CN202220242569.9U Active CN216953407U (en) 2022-01-29 2022-01-29 Gas monitoring and management system for operating room

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CN (1) CN216953407U (en)

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