CN102818318A

CN102818318A - Efficient energy-saving self-control system device for air conditioner of operating room

Info

Publication number: CN102818318A
Application number: CN2012103319927A
Authority: CN
Inventors: 卜从兵; 周丽娜; 陈骏; 王晓平
Original assignee: SUZHOU WOODI PURIFICATION SYSTEM CO Ltd
Current assignee: Suzhou Hua Di Medical Technology Co., Ltd.
Priority date: 2012-09-10
Filing date: 2012-09-10
Publication date: 2012-12-12
Anticipated expiration: 2032-09-10
Also published as: CN102818318B

Abstract

The invention provides an efficient energy-saving self-control system device for an air conditioner of an operating room. A surface air cooler and a heater are arranged on a fresh air machine set, the original one step for adjusting humidity is divided into two steps, and total energy consumption quantity is reduced. Simultaneously, due to the fact that the one step is divided into two steps which are a first step of rough adjustment and a second step of fine adjustment, humidity is adjusted more accurately. Simultaneously, a fan frequency conversion technology and a circulating machine set anti-cold bridge are added in the system, a double-position air-flow-fixing valve is adopted to replace a traditional on-duty fan, energy consumption is further reduced, and air quality of the operating room is improved.

Description

The energy-efficient robot control system(RCS) equipment of operating room air-conditioning

Technical field

the present invention relates to the energy-efficient robot control system(RCS) equipment in operating room air-conditioning system field, particularly operating room air-conditioning.

Background technology

now the operating room of hospital to environment requirement than higher; Particularly aspect air quality; Temperature to air; Appropriateness, clean-up performance are all wanted higher requirement, and a good environment can increase the success rate of operation; Air-conditioning system for the surgical environments operating room of high request is particularly important; But the general air-conditioning system that can satisfy the operating room demand all can consume a large amount of electric energy, and general new blower fan group adopts common cooling and warming pattern not regulate the device of air humidity in the existing equipment, will regulate this step of air humidity to be placed on Cycle Unit; Cause system power consumption more and accurately control air is appropriate; Existing surface cooler is generally logical is 7 ℃ cold water, can't satisfy the demand of operation (environment that some openheart surgery needs are colder) under special circumstances, the common in addition following shortcoming of air-conditioning unit ubiquity: do not have that fan frequency conversion is technological, Cycle Unit lacks anti-cold bridge, air-conditioning unit automatic control mode is generally fairly simple, also need not drive motor on duty when operating room is not worked; Therefore highly energy-consuming and can't satisfy present demand needs a kind of air quality that can either satisfy the operating room high request can save the novel air conditioning system of electric energy again now.

Summary of the invention

the purpose of this invention is to provide the energy-efficient robot control system(RCS) equipment of operating room air-conditioning that a kind of air quality that can either satisfy the operating room high request can be saved electric energy again.

For achieving the above object, the technical scheme that the present invention adopts is:

The energy-efficient robot control system(RCS) equipment of operating room air-conditioning; It comprises and the outdoor new blower fan group that communicates, the Cycle Unit that is connected with said new blower fan group, the operating room that is connected with said Cycle Unit, the air draft unit that is connected with said operating room; Said new blower fan group comprises first fly net, first prefilter, first blower fan, first initial filtrator from outside to inside successively; Said Cycle Unit comprises second blower fan, second initial filtrator, second surface cooler, secondary heater, humidifier successively, and said air draft unit comprises the 3rd initial filtrator, the 3rd blower fan, check-valves, second fly net from inside to outside successively; It is characterized in that: said new blower fan group also comprises fine filter, first surface cooler, the primary heater that is successively set on behind said first initial filtrator;

Prefilter adopts roughing efficiency air filter among the present invention, and initial filtrator adopts medium effeciency filter, advances filter and adopts high efficiency particulate air filter (HEPA); Compare general operating room air-conditioning system, the present invention is provided with surface cooler and heater in new blower fan group, the former adjusting humidity step of accomplishing one step ahead is divided into two ones carries out; Reduce total energy consumption, simultaneously owing to be divided into two ones, first step coarse adjustment; Second accurate adjustment makes humidity regulation more accurate.

preferably, the both sides of said first prefilter, first initial filtrator, second initial filtrator, fine filter, first blower fan, second blower fan are respectively arranged with the pressure difference switch that detects blast; Can detect the pressure differential of each filter and blower fan through pressure difference switch, can detect filter and blower fan and whether break down, situation about stopping up occur.

preferably, said first blower fan and said second blower fan are provided with the frequency converter of regulating rotation speed of fan according to blast in the said operating room; Use can cause filter slowly to stop up for a long time, and ventilation diminishes, and operating room is impacted, and frequency converter can be accelerated rotation speed of fan according to the operating room blast, makes that the blast of operating room is stable before changing strainer screen.

preferably also are provided with dibit in the middle of said new blower fan group and the said Cycle Unit and decide air-valve; Dibit is decided air-valve can turn down the air quantity that gets into operating room when operating room is idle, saved the motor on duty of general air-conditioning unit, has practiced thrift cost and electric energy.

preferably also are provided with refrigerator in the middle of said second surface cooler and the said secondary heater; Logical 7 ℃ cold water in the conventional surface cooler, air generally can only reach 20 ℃ after through surface cooler, adopt the refrigerator of cold-producing medium can cool air to some operation need low temperature.

preferably; Said new blower fan group also is provided with Rong Tongfa; The logical valve of said appearance is arranged between said fly net and said first prefilter; Said circulation valve one valve port communicates with indoor, and said at normal temperatures circulation valve is controlled said first fly net and communicated with said first prefilter, and said circulation valve was controlled said first prefilter and communicated with room air when temperature was lower than-5 ℃; The surface cooler and the heater that are lower than-5 ℃ of stylish blower fan groups at temperature are damaged by frost easily, have adopted Rong Tongfa, are that warm air feeds in the new wind-powered electricity generation machine with indoor friendship, can effectively prevent the fault of surface cooler and heater.

preferably, said Cycle Unit is provided with silencer with the said operating room place of connection, said air draft unit is provided with silencer with the said operating room place of connection; Silencer can keep the peace and quiet of operating room, prevents noise pollution.

preferably, said Cycle Unit skin is provided with anti-cold bridge, common Cycle Unit is not provided with anti-cold bridge, the time can see in work to cause moisture to become the globule to drip at surface condensation, is provided with can effectively overcome behind the anti-cold bridge to change problem.

Description of drawings

accompanying drawing 1 is a structural representation of the present invention.

In above accompanying drawing: 1, new blower fan group; 2, Cycle Unit; 3, operating room; 4, air draft unit; 5, first fly net; 6, first prefilter; 7, first blower fan; 8, first initial filtrator; 9, second blower fan; 10, second initial filtrator; 11, second surface cooler; 12, secondary heater; 13, humidifier; 14, the 3rd initial filtrator; 15, the 3rd blower fan; 16, check-valves; 17, second fly net; 18, fine filter; 19, first surface cooler; 20, primary heater; 21, pressure difference switch; 22, frequency converter; 23, dibit is decided air-valve.

The specific embodiment

Below in conjunction with embodiment shown in the drawings the present invention is further described:

embodiment one: shown in accompanying drawing 1; The energy-efficient robot control system(RCS) equipment of operating room air-conditioning; It comprises and the outdoor new blower fan group 1 that communicates, the Cycle Unit 2 that is connected with new blower fan group 1, the operating room 3 that is connected with said Cycle Unit 2, the air draft unit 4 that is connected with said operating room 3; Said new blower fan group comprises first fly net 5, first prefilter 6, first blower fan 7, first initial filtrator 8 from outside to inside successively; Said Cycle Unit 2 comprises second blower fan 9, second initial filtrator 10, second surface cooler 11, secondary heater 12, humidifier 13 successively, and said air draft unit 4 comprises the 3rd initial filtrator 14, the 3rd blower fan 15, check-valves 16, second fly net 17 from inside to outside successively; It is characterized in that: said new blower fan group 1 also comprises the fine filter that is successively set on behind said first initial filtrator 6 18, first surface cooler 19, primary heater 20.

The both sides of said first prefilter 6, first initial filtrator 8, second initial filtrator 14, fine filter 18, first blower fan 7, second blower fan 9 are provided with the pressure difference switch 21 that detects blast respectively.

said first blower fan 7 is provided with the frequency converter 22 of regulating rotation speed of fan according to blast in the said operating room with said second blower fan 9.

Also be provided with dibit in the middle of said new blower fan group 1 and the said Cycle Unit 2 and decide air-valve 23.

said second surface cooler 11 and the said secondary heater 12 middle refrigerators 24 that also are provided with.

said new blower fan group 1 also is provided with holds logical valve 25; The logical valve 25 of said appearance is arranged between said first fly net 5 and said first prefilter 6; Said circulation valve 25 1 valve ports communicate with indoor; Said first fly net 5 of said at normal temperatures circulation valve 25 controls communicates with said first prefilter 6, and said first prefilter 6 of said circulation valve 25 controls communicated with room air when temperature was lower than-5 ℃.

said Cycle Unit 2 is provided with silencer 26 with said operating room 3 places of connection, and said air draft unit 4 is provided with silencer 26 with said operating room 3 places of connection.

said Cycle Unit 2 skins are provided with anti-cold bridge.

First prefilter 6 adopts roughing efficiency air filter in present embodiment, and first, second, third initial filtrator (8,10,14) adopts medium effeciency filter, and fine filter 18 adopts high efficiency particulate air filter (HEPA); Present embodiment is provided with first surface cooler 19, primary heater 20 in new blower fan group 1, the former adjusting humidity step of accomplishing one step ahead is divided into two ones carries out, and reduces total energy consumption; Simultaneously owing to be divided into two ones; First step coarse adjustment, second accurate adjustment makes humidity regulation more accurate; While increases fan frequency conversion technology, Cycle Unit 2 anti-cold bridges in system, and adopts dibit to decide the traditional blower fan on duty of air-valve 23 replacements, and a nearly step cuts down the consumption of energy, improves the operating room air quality.

the foregoing description only is explanation technical conceive of the present invention and characteristics, and its purpose is to let the personage who is familiar with this technology can understand content of the present invention and enforcement according to this, can not limit protection scope of the present invention with this.All equivalences that spirit is done according to the present invention change or modify, and all should be encompassed within protection scope of the present invention.

Claims

1. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning; It comprises and the outdoor new blower fan group that communicates, the Cycle Unit that is connected with said new blower fan group, the operating room that is connected with said Cycle Unit, the air draft unit that is connected with said operating room; Said new blower fan group comprises first fly net, first prefilter, first blower fan, first initial filtrator from outside to inside successively; Said Cycle Unit comprises second blower fan, second initial filtrator, second surface cooler, secondary heater, humidifier successively, and said air draft unit comprises the 3rd initial filtrator, the 3rd blower fan, check-valves, second fly net from inside to outside successively; It is characterized in that: said new blower fan group also comprises fine filter, first surface cooler, the primary heater that is successively set on behind said first initial filtrator.

2. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1 is characterized in that: the both sides of said first prefilter, first initial filtrator, second initial filtrator, fine filter, first blower fan, second blower fan are respectively arranged with the pressure difference switch that detects blast.

3. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1 is characterized in that: said first blower fan and said second blower fan are provided with the frequency converter of regulating rotation speed of fan according to blast in the said operating room.

4. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1 is characterized in that: also be provided with dibit in the middle of said new blower fan group and the said Cycle Unit and decide air-valve.

5. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1 is characterized in that: also be provided with refrigerator in the middle of said second surface cooler and the said secondary heater.

6. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1; It is characterized in that: said new blower fan group also is provided with Rong Tongfa; The logical valve of said appearance is arranged between said first fly net and said first prefilter; Said circulation valve one valve port communicates with indoor, and said at normal temperatures circulation valve is controlled said first fly net and communicated with said first prefilter, and said circulation valve was controlled said first prefilter and communicated with room air when temperature was lower than-5 ℃.

7. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1 is characterized in that: said Cycle Unit is provided with silencer with the said operating room place of connection, and said air draft unit is provided with silencer with the said operating room place of connection.

8. the energy-efficient robot control system(RCS) equipment of operating room air-conditioning according to claim 1 is characterized in that: said Cycle Unit skin is provided with anti-cold bridge