CN204612081U - A kind of intelligent operation room energy-saving control system - Google Patents

Abstract

The utility model discloses a kind of intelligent operation room energy-saving control system, comprise, monitor control mechanism, comprise and respond to and send the particle counting sensor of cleanliness factor signal, receive, process and send the signal processor of described cleanliness factor signal; Controlling organization, with described signal processor wireless connections, described controlling organization comprises and inputs and the signal input part transmitted control signal, receive described control signal and generate the signal transacting end of instruction and send the signal output part of instruction; And, wind pushing mechanism, control by described controlling organization, described wind pushing mechanism comprises for the Fresh air handling units (1) of the air quantity of the outdoor new wind of Intelligent adjustment, temperature and humidity, to be connected with described Fresh air handling units (1) and according to some Cycle Unit (2) of described intelligent operation room rank Intelligent adjustment indoor return air air quantity, temperature and humidity, air supply plenum chamber (3) and the energy-conservation microwell plate (8) being located at described air supply plenum chamber (3) wind outlet.

Description

A kind of intelligent operation room energy-saving control system

Technical field

The utility model relates to a kind of intelligent operation room clean system.More particularly, the utility model relates to a kind of intelligent operation room energy-saving control system.

Background technology

Along with the development of medical technology and people are to the raising of medical condition demand, require also more and more higher to the cleaning of medical operating room, operating room must be made to reach a series of controlled environment parameters such as corresponding temperature, humidity, pressure reduction, cleanliness factor.Realize these to be necessary for operating room and to configure good air treatment system, traditional air treatment system is generally primary-air recirculating system, the cold and hot humidity load in toilet is born primarily of Cycle Unit, therefore, at summer and transition season, in order to the dehumidification requirements of satisfied indoor, need the low temperature about whole air circulation process to 13 DEG C, then, in order to ensure indoor temperature, also need, by electrical heating etc., reheating is carried out to air and reach wind pushing temperature, in this process, there is the situation of great cold-hot counteraction, cause serious energy waste.

For the foregoing reasons, a kind of novel intelligent operating room energy-saving control system is urgently developed.

Utility model content

An object of the present utility model solves at least the problems referred to above and/or defect, and provide the advantage will illustrated at least below.

In order to realize according to these objects of the present utility model and other advantage, the utility model provides a kind of intelligent operation room energy-saving control system, comprises,

Monitor control mechanism, comprises and responds to and send the particle counting sensor of cleanliness factor signal, receive, processes and send the signal processor of described cleanliness factor signal;

Controlling organization, with described signal processor wireless connections, described controlling organization comprises and inputs and the signal input part transmitted control signal, receive described control signal and generate the signal transacting end of instruction and send the signal output part of instruction; And,

Wind pushing mechanism, control by described controlling organization, described wind pushing mechanism comprises for the Fresh air handling units 1 of the air quantity of the outdoor new wind of Intelligent adjustment, temperature and humidity, to be connected with described Fresh air handling units 1 and according to some Cycle Unit 2 of described intelligent operation room rank Intelligent adjustment indoor return air air quantity, temperature and humidity, air supply plenum chamber 3 and the energy-conservation microwell plate 8 being located at described air supply plenum chamber 3 wind outlet;

Wherein, through described air supply plenum chamber 3 after the new wind of described Fresh air handling units 1 process mixes with the indoor return air processed through described Cycle Unit 2, intelligent operation room is exported to from described energy-conservation microwell plate 8.

Carry out to operating room parameter the innovative research direction that wireless monitor is intelligent operation room, this equipment supports several data interface, can by every for air-conditioning system data by wireless or Internet Transmission to terminal devices such as computer, mobile phone, Pad.Can be checked the every operational factor of operating room and index by this system, such as outdoor and indoor air temperature, relative humidity, indoor pressure reduction, 0.5 and 5 micron of airborne, simultaneously can real-time monitored blower fan, electrical heating, the operation conditions of humidifier and the congestion situations of filter at different levels, once there be abnormal situation to occur, can report to the police.

Meanwhile, the personnel of having permission can carry out every setting and control equipment, and switching on and shutting down, the switching of operating room rank, refrigeration, heating, humidification ratio control.When deviation or partial fault appear in equipment operation, administrative staff can long-rangely carry out safeguarding and repairing.

Preferably, wherein, the efferent duct of described Fresh air handling units 1 is provided with electronic dibit and determines air quantity valve 5 and electric heating unit 6, for controlling air output and temperature.

Preferably, wherein, electrical heating process is carried out to the new wind of Fresh air handling units process, mixed by triple valve with the return air through described Cycle Unit and Soundproofing static pressure box process afterwards.

Preferably, wherein, described Cycle Unit 2 is refuted for some air-valves and DC brushless motor parallel connection and is connect.

Preferably, wherein, described Cycle Unit 2 is that four groups of air-valves and DC brushless motor parallel connection are refuted and connect; When described intelligent operation room rank is I, open four groups of air-valves and DC brushless motor; When described intelligent operation room rank is II, open two groups of air-valves and DC brushless motor; Described intelligent operation room rank is III, opens one group of air-valve and DC brushless motor; Described intelligent operation room Grade IV, opens one group of air-valve and DC brushless motor.

Preferably, wherein, described triple valve comprises fresh wind tube and backwind tube, and the new wind that efferent duct exports by described fresh wind tube imports described backwind tube, exports after making new wind and return air mixing.

Preferably, wherein, described energy-conservation microwell plate 8 is divided into core space 801, Central District 802 and outer zone 803, and described core space 801 open pore size is less than described Central District 802 open pore size, and described Central District 802 open pore size is less than described outer zone 803 open pore size.

Preferably, wherein, described operating room ceiling is also provided with exhaust system 9, for performing the operation, room air is discharged.

Preferably, wherein, described air supply plenum chamber 3 is made up of four spliced casings, and the casing bottom being positioned at two ends is respectively equipped with flow-stopping plate 7.

The utility model at least comprises following beneficial effect: 1) carry out to operating room the breakthrough innovation that intelligent monitoring is intelligent operating room; 2) owing to adopting DC brushless motor as Cycle Unit blower fan, therefore, it is possible to regulate air quantity in real time, power consumption is little, noise is low, and unit volume is minimum, flexible arrangement, even can not take mechanical floor space, directly be arranged in the furred ceiling interlayer on operating room corridor, for some reconstructions without the hospital of mechanical floor or mechanical floor space anxiety, transformation project, there is great applicability, can widely popularize; 3) owing to adopting the demand according to toilet's scale of construction, start the quantity of Cycle Unit flexibly, therefore can adapt to different stage operating room, the reasonable distribution energy, reach energy-conservation object; 4) owing to adopting energy-conservation microwell plate to be divided into core space, Central District and outer zone and each district percent opening is different, therefore ensure that in operating room, zones of different all reaches different clean requirements, reach reasonable distribution air-supply air-flow object.

Part is embodied by explanation below by other advantage of the present utility model, target and feature, part also will by research and practice of the present utility model by those skilled in the art is understood.

Accompanying drawing explanation

Fig. 1 is the control flow chart of intelligent operation room described in the utility model energy-saving control system;

Fig. 2 is the structural representation of intelligent operation room described in the utility model energy-saving control system;

Fig. 3 is the air-blow ceiling plate partitioned organization schematic diagram of intelligent operating room energy-saving air treatment system described in the utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model/utility model is described in further detail, can implements according to this with reference to description word to make those skilled in the art.

Should be appreciated that used hereinly such as " to have ", other element one or more do not allotted in " comprising " and " comprising " term or the existence of its combination or interpolation.

As shown in Figures 1 and 2, a kind of intelligent operation room energy-saving control system, comprises,

Monitor control mechanism, comprises and responds to and send the particle counting sensor of cleanliness factor signal, receive, processes and send the signal processor of described cleanliness factor signal;

Controlling organization, with described signal processor wireless connections, described controlling organization comprises and inputs and the signal input part transmitted control signal, receive described control signal and generate the signal transacting end of instruction and send the signal output part of instruction; And,

Wind pushing mechanism, control by described controlling organization, described wind pushing mechanism comprises for the Fresh air handling units 1 of the air quantity of the outdoor new wind of Intelligent adjustment, temperature and humidity, to be connected with described Fresh air handling units 1 and according to some Cycle Unit 2 of described intelligent operation room rank Intelligent adjustment indoor return air air quantity, temperature and humidity, air supply plenum chamber 3 and the energy-conservation microwell plate 8 being located at described air supply plenum chamber 3 wind outlet;

Wherein, through described air supply plenum chamber 3 after the new wind of described Fresh air handling units 1 process mixes with the indoor return air processed through described Cycle Unit 2, intelligent operation room is exported to from described energy-conservation microwell plate 8.

The efferent duct of described Fresh air handling units 1 is provided with electronic dibit and determines air quantity valve 5 and electric heating unit 6, for controlling air output and temperature.

Electrical heating process is carried out to the new wind of Fresh air handling units process, is mixed by triple valve with the return air through described Cycle Unit and Soundproofing static pressure box process afterwards.

Described Cycle Unit 2 is refuted for some air-valves and DC brushless motor parallel connection and is connect.

Described Cycle Unit 2 is that four groups of air-valves and DC brushless motor parallel connection are refuted and connect; When described intelligent operation room rank is I, open four groups of air-valves and DC brushless motor; When described intelligent operation room rank is II, open two groups of air-valves and DC brushless motor; Described intelligent operation room rank is III, opens one group of air-valve and DC brushless motor; Described intelligent operation room Grade IV, opens one group of air-valve and DC brushless motor.

Described triple valve comprises fresh wind tube and backwind tube, and the new wind that efferent duct exports by described fresh wind tube imports described backwind tube, exports after making new wind and return air mixing.

Described energy-conservation microwell plate 8 is divided into core space 801, Central District 802 and outer zone 803, and described core space 801 open pore size is less than described Central District 802 open pore size, and described Central District 802 open pore size is less than described outer zone 803 open pore size.

Described operating room ceiling is also provided with exhaust system 9, and for performing the operation, room air is discharged.

Described air supply plenum chamber 3 is made up of four spliced casings, and the casing bottom being positioned at two ends is respectively equipped with flow-stopping plate 7.

Although embodiment of the present utility model is open as above, it is not restricted to listed in description and embodiment utilization.It can be applied to various applicable field of the present utility model completely.For those skilled in the art, can easily realize other amendment.Therefore do not deviating under the universal that claim and equivalency range limit, the utility model is not limited to specific details and illustrates here and the legend described.

Claims (9)

1. an intelligent operation room energy-saving control system, comprises,

Monitor control mechanism, comprises and responds to and send the particle counting sensor of cleanliness factor signal, receive, processes and send the signal processor of described cleanliness factor signal;

Controlling organization, with described signal processor wireless connections, described controlling organization comprises and inputs and the signal input part transmitted control signal, receive described control signal and generate the signal transacting end of instruction and send the signal output part of instruction; And,

Wind pushing mechanism, control by described controlling organization, described wind pushing mechanism comprises for the Fresh air handling units (1) of the air quantity of the outdoor new wind of Intelligent adjustment, temperature and humidity, to be connected with described Fresh air handling units (1) and according to some Cycle Unit (2) of described intelligent operation room rank Intelligent adjustment indoor return air air quantity, temperature and humidity, air supply plenum chamber (3) and the energy-conservation microwell plate (8) being located at described air supply plenum chamber (3) wind outlet;

Wherein, through described air supply plenum chamber (3) after the new wind processed through described Fresh air handling units (1) mixes with the indoor return air processed through described Cycle Unit (2), export intelligent operation room to from described energy-conservation microwell plate (8).

2. intelligent operation room as claimed in claim 1 energy-saving control system, it is characterized in that, the efferent duct of described Fresh air handling units (1) is provided with electronic dibit and determines air quantity valve (5) and electric heating unit (6), for controlling air output and temperature.

3. intelligent operation room as claimed in claim 2 energy-saving control system, be is characterized in that, carry out electrical heating process to the new wind of Fresh air handling units process, mixed afterwards with the return air through described Cycle Unit and Soundproofing static pressure box process by triple valve.

4. intelligent operation room as claimed in claim 3 energy-saving control system, it is characterized in that, described Cycle Unit (2) is refuted for some air-valves and DC brushless motor parallel connection and is connect.

5. intelligent operation room as claimed in claim 4 energy-saving control system, is characterized in that, described Cycle Unit (2) is that four groups of air-valves and DC brushless motor parallel connection are refuted and connect; When described intelligent operation room rank is I, open four groups of air-valves and DC brushless motor; When described intelligent operation room rank is II, open two groups of air-valves and DC brushless motor; Described intelligent operation room rank is III, opens one group of air-valve and DC brushless motor; Described intelligent operation room Grade IV, opens one group of air-valve and DC brushless motor.

6. intelligent operation room as claimed in claim 3 energy-saving control system, it is characterized in that, described triple valve comprises fresh wind tube and backwind tube, and the new wind that efferent duct exports by described fresh wind tube imports described backwind tube, exports after making new wind and return air mixing.

7. intelligent operation room as claimed in claim 1 energy-saving control system, it is characterized in that, described energy-conservation microwell plate (8) is divided into core space (801), Central District (802) and outer zone (803), described core space (801) open pore size is less than described Central District (802) open pore size, and described Central District (802) open pore size is less than described outer zone (803) open pore size.

8. intelligent operation room as claimed in claim 1 energy-saving control system, is characterized in that, described operating room ceiling is also provided with exhaust system (9), and for performing the operation, room air is discharged.

9. intelligent operation room as claimed in claim 1 energy-saving control system, it is characterized in that, described air supply plenum chamber (3) is made up of four spliced casings, and the casing bottom being positioned at two ends is respectively equipped with flow-stopping plate (7).