CN110425708A

CN110425708A - Operating room construction high efficiency energy saving self control system

Info

Publication number: CN110425708A
Application number: CN201910708501.8A
Authority: CN
Inventors: 万娜; 魏晓蒙; 何坚
Original assignee: Canglong Group Co Ltd
Current assignee: Canglong Group Co Ltd
Priority date: 2019-08-01
Filing date: 2019-08-01
Publication date: 2019-11-08
Anticipated expiration: 2039-08-01
Also published as: CN110425708B

Abstract

The invention discloses operating room construction high efficiency energy saving self control systems, including air conditioner main body, air-supply unit, return air unit and data acquisition system, the input terminal of air conditioner main body and the output end of control module are electrically connected, the input terminal of control module and the output end of data processing module are electrically connected, the input terminal of data processing module and the output end of data reception module are electrically connected, the input terminal of data reception module and the output end of data collection system are electrically connected, the input terminal of control module is electrically connected with radio receiving transmitting module and control button module, the output end of air conditioner main body is electrically connected with self-adjustment module, the utility model has the advantages that in operating room nobody when can be automatically stopped operation, infrared induction sensor greatly improves the intelligence of operating room construction control system, the folding of operating room automatic sensing door has sensitive control performance, make Air conditioner refrigerating, heating energy consumption reduction are obtained, the energy-saving effect of air-conditioning system is improved.

Description

Operating room construction high efficiency energy saving self control system

Technical field:

The invention belongs to Air-conditioning technical fields, in particular to operating room construction high efficiency energy saving self control system.

Background technique:

Operating room is that the place of operation and rescue is provided for patient, is the important technology department of hospital, operating room construction by Use physical filtering method clean and disinfecting air in it, it is harmless, therefore other fields such as may extend into dust proof workshop, As the leading products of indoor air purification, requirement of the operating room of hospital to environment is relatively high, especially in air quality side Face higher will require temperature, the humidity of air, and a good environment can increase the success rate of operation, and height is wanted The air-conditioning system for the surgical environments operating room asked is particularly important, and the opening and closing of operating room construction system at present are by pressing keying Device or external controller control processed, but it passes through manual operation to the switch of air-conditioning, and the intelligence degree of control is not high, especially It is in operating room, people focus in sufferer, it is difficult to which timely, efficient operation, energy conservation are carried out to the air-conditioning of operating room Effect is undesirable, so the present invention provides operating room construction high efficiency energy saving self control system to solve the above problems.

Summary of the invention:

The object of the invention is that providing operating room construction high efficiency energy saving self control system to solve the above-mentioned problems, solve It has determined existing disadvantage.

To solve the above-mentioned problems, the present invention provides a kind of technical solutions:

Operating room construction high efficiency energy saving self control system, including air conditioner main body, air-supply unit, return air unit and data acquisition system System, the input terminal of the air conditioner main body and the output end of control module are electrically connected, the input terminal and data of the control module The output end of processing module is electrically connected, and the input terminal of the data processing module and the output end of data reception module electrically connect It connects, the input terminal of the data reception module and the output end of data collection system are electrically connected, the input of the control module End is electrically connected with radio receiving transmitting module and control button module, and the output end of the air conditioner main body is electrically connected with automatic adjustment Module, the self-adjustment module include heating system and refrigeration system, and display panel, and institute are equipped in the air conditioner main body Stating air conditioner main body includes air-supply unit and return air unit, forms air-conditioning between the air-supply unit and return air unit and operating room and follows Ring control system.

Preferably, the air-supply unit include air-supply body, fresh wind tube, return air inlet, primary filter screen, heating component, Cooling assembly, pressure fan, air outlet and humidification component, the top outside the operating room is fixedly installed with air-supply body, described One end connection of air-supply body is equipped with fresh wind tube, and the fresh wind tube is connect with new blower, and the air-supply body is close to fresh wind tube Return air inlet is offered at the top of one end, the return air inlet is equipped with just effect filter far from the air-supply internal body of fresh wind tube side Net, the primary filter screen are equipped with heating component far from the air-supply internal body of fresh wind tube side, and the heating component is far from just The air-supply internal body of effect strainer side is equipped with cooling assembly, air-supply body of the cooling assembly far from heating component side Inside is equipped with pressure fan, and the air-supply body offers air outlet far from the bottom of pressure fan one end, the pressure fan and goes out Air-supply internal body between air port is equipped with humidification component, and air inlet, the air inlet are offered at the top of the operating room It is connected between air outlet by blast pipe, the lower end of the operating room side offers return air inlet.

Preferably, the return air unit includes backwind tube, return fan, exhaust outlet and return air outlet, the air-supply body Top return air unit is installed, one end of return air unit is connected by the return air inlet of backwind tube and operating room, return air unit Inside is equipped with return fan, and one end on return air unit far from backwind tube offers exhaust outlet, the exhaust outlet and return fan it Between return air unit bottom offer return air outlet, return air outlet is connected by circulation pipe and the return air inlet blown on body It connects.

Preferably, the data collection system includes temperature sensor, humidity sensor and human body induction module, it is described The input terminal of data collection system is connected with temperature sensor, humidity sensor and human body induction module, the human body sensing mould Block is infrared induction sensor.

Preferably, the operating room is equipped with operating room automatic sensing door far from the side of return air inlet.

Preferably, to be installed in operating room automatic for the temperature sensor, humidity sensor and infrared induction sensor On indoor wall above induction door, the humidity sensor uses CL-M7R microminiature humidity sensor, the temperature sensing Device uses microminiature temperature sensor: DA-02-CX.

Preferably, being mounted on infrared inductor, and the hand on the opposite two sides of the operating room automatic sensing door Art room automatic sensing door is bivalve door setting, and the mutually close two sides of the operating room automatic sensing door are respectively arranged with seal groove And sealing strip, sealing strip are inserted in seal groove.

Preferably, being equipped with control valve on the fresh wind tube.

Beneficial effects of the present invention:

(1) operating room construction high efficiency energy saving self control system of the present invention is adopted by setting in indoor data of performing the operation Collecting system, using in data collection system temperature sensor and humidity sensor to operation room temperature humidity acquire, and installation Human body induction module, when infrared induction sensor detection operating room in someone when, air-conditioning system is according to infrared induction sensor And data of the Temperature and Humidity module automatically turn on, when in operating room nobody when can be automatically stopped operation, greatly improve operating room construction control The intelligence of system, and the operating room automatic sensing door that operating room is equipped with realize that the folding of door, folding have by human body sensing Sensitive control performance reduces operating room room temperature and scatters and disappears, and leakproofness is fine, energy conservation and environmental protection.

(2) operating room construction high efficiency energy saving self control system of the present invention, passes through the air-supply being arranged in air conditioner main body Unit and return air unit form Air-conditioning Cycle control system between air-supply unit, return air unit and operating room, reach and recycle It performs the operation indoor air, the indoor air circulation that will perform the operation is recycled to air-supply unit, then by air-supply unit by refrigeration or heating Operating room is sent back to, since operation room air has certain temperature (cold or hot) after air conditioner refrigerating or heating, so that air-conditioning Refrigeration, heating energy consumption reduce, and improve the energy-saving effect of air-conditioning system.

Detailed description of the invention:

Detailed description will be given by the following detailed implementation and drawings by the present invention for ease of explanation,.

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the structural schematic diagram of air conditioner main body of the invention；

Fig. 3 is the structural schematic diagram of air-supply unit of the invention；

Fig. 4 is the structural schematic diagram of data collection system of the invention；

Fig. 5 is the structural schematic diagram of operating room automatic sensing door of the invention.

In figure: 1, air conditioner main body；2, air-supply unit；21, air-supply body；22, fresh wind tube；23, return air inlet；24, it just imitates Strainer；25, component is heated；26, cooling assembly；27, pressure fan；28, air outlet；29, component is humidified；3, return air unit；31, it returns Air hose；32, return fan；33, exhaust outlet；34, return air exports；4, data collection system；41, temperature sensor；42, humidity sensor Device；43, human body induction module；5, control module；6, data processing module；7, data reception module；8, self-adjustment module； 81, heating system；82, refrigeration system；9, radio receiving transmitting module；10, control button module；11, display panel；12, operating room； 13, return air inlet；14, air inlet；15, control valve；16, operating room automatic sensing door.

Specific embodiment:

As shown in Figs. 1-5, present embodiment uses following technical scheme: operating room construction high efficiency energy saving self control system System, including air conditioner main body 1, air-supply unit 2, return air unit 3 and data collection system 4, the input terminal of the air conditioner main body 1 and control The output end of molding block 5 is electrically connected, and the input terminal of the control module 5 and the output end of data processing module 6 are electrically connected, The input terminal of the data processing module 6 and the output end of data reception module 7 are electrically connected, the data reception module 7 Input terminal and the output end of data collection system 4 are electrically connected, and the input terminal of the control module 5 is electrically connected with wireless receiving and dispatching Module 9 and control button module 10, the output end of the air conditioner main body 1 are electrically connected with self-adjustment module 8, the automatic tune Saving module 8 includes heating system 81 and refrigeration system 82, is equipped with display panel 11, and the air-conditioning in the air conditioner main body 1 Ontology 1 includes air-supply unit 2 and return air unit 3, forms air-conditioning between the air-supply unit 2 and return air unit 3 and operating room 12 Cyclic control system.

Wherein, the air-supply unit 2 includes air-supply body 21, fresh wind tube 22, return air inlet 23, primary filter screen 24, heating Component 25, cooling assembly 26, pressure fan 27, air outlet 28 and humidification component 29, top outside the operating room 12 is fixed to pacify Equipped with air-supply body 21, one end connection of the air-supply body 21 is equipped with fresh wind tube 22, and the fresh wind tube 22 connects with new blower It connects, the air-supply body 21 offers return air inlet 23 at the top of 22 one end of fresh wind tube, and the return air inlet 23 is far from new Primary filter screen 24, the sending far from 22 side of fresh wind tube of primary filter screen 24 are installed inside the air-supply body 21 of 22 side of air hose It is equipped with inside blower body 21 and heats component 25, inside the heating air-supply body 21 of the component 25 far from 24 side of primary filter screen Cooling assembly 26 is installed, pressure fan is installed inside the air-supply body 21 of the cooling assembly 26 far from heating 25 side of component 27, the air-supply body 21 offers air outlet 28, the pressure fan 27 and air outlet 28 far from the bottom of 27 one end of pressure fan Between air-supply body 21 inside humidification component 29 is installed, the top of the operating room 12 offers air inlet 14, it is described into It is connected between air port 14 and air outlet 28 by blast pipe, the lower end of 12 side of operating room offers return air inlet 13.

Wherein, the return air unit 3 includes backwind tube 31, return fan 32, exhaust outlet 33 and return air outlet 34, the air-supply The top of body 21 is equipped with return air unit, and one end of return air unit is connected by the return air inlet 13 of backwind tube 31 and operating room 12 It connects, the inside of return air unit is equipped with return fan 32, and one end far from backwind tube 31 offers exhaust outlet 33, institute on return air unit It states the return air unit bottom between exhaust outlet 33 and return fan 32 and offers return air outlet 34, the return air outlet 34 passes through circulation It manages and is connect with the return air inlet 23 on air-supply body 21, form air-conditioning between air-supply unit 2, return air unit 3 and operating room 12 and follow Ring control system reaches the air recycled in operating room 12, so that air conditioner refrigerating, heating energy consumption reduce, improves air-conditioning system The energy-saving effect of system.

Wherein, the data collection system 4 includes temperature sensor 41, humidity sensor 42 and human body induction module 43, The input terminal of the data collection system 4 is connected with temperature sensor 41, humidity sensor 42 and human body induction module 43, described Human body induction module 43 is infrared induction sensor, and air-conditioning system is automatically turned on according to data of the Temperature and Humidity module, when nothing in operating room 12 It can be automatically stopped operation when people, greatly improve the intelligence of 12 air-conditioner control system of operating room.

Wherein, the operating room 12 is equipped with operating room automatic sensing door 16 far from the side of return air inlet 13.

Wherein, it is automatic to be installed in operating room for the temperature sensor 41, humidity sensor 42 and infrared induction sensor On the indoor wall of 16 top of induction door, the humidity sensor 42 uses CL-M7R microminiature humidity sensor, the temperature Sensor 41 uses microminiature temperature sensor: DA-02-CX, and detection accuracy is high.

Wherein, infrared inductor, and the operation are mounted on the opposite two sides of the operating room automatic sensing door 16 Room automatic sensing door 16 is bivalve door setting, and the mutually close two sides of the operating room automatic sensing door 16 are respectively arranged with sealing Slot and sealing strip, sealing strip are inserted in seal groove, improve the induction control performance of operating room door, good airproof performance.

Wherein, control valve 15 is installed on the fresh wind tube 22, controls the intake of fresh wind tube 22.

Specific: the present invention is in use, temperature sensor 41 in data collection system 4 and 42 pairs of humidity sensor operations 12 humiture collection of room, the human body induction module 43 of installation, as someone in infrared induction sensor detection operating room 12, data The data of acquisition are sent to data processing module 6 by data reception module 7 by acquisition system 4, at data processing module 6 It is sent to control module 5 after reason, the self-adjustment module 8 of the data-signal control air conditioner main body 1 based on the received of control module 5, To start corresponding refrigeration system 82 or heating system 81, air-conditioning system is according to infrared induction sensor and data of the Temperature and Humidity module Automatically turn on, when in operating room 12 nobody when can be automatically stopped operation, greatly improve the intelligence of 12 air-conditioner control system of operating room Energyization, when air-conditioning is opened, under the action of pressure fan 27, air enters air-supply unit 2 by fresh wind tube 22 and return air inlet 23, according to It is secondary by primary filter screen 24, heating component 25, cooling assembly 26, humidification component 29, the work of cooling assembly 26, heating group when refrigeration Part 25 does not work, and heating component 25 works when heating, and cooling assembly 26 does not work, after freezing or heating by air outlet 28 by into Air hose and air inlet 14 enter operating room 12, and the air in operating room 12 is passed through back under the action of return fan 32 by return air inlet 13 Air hose 31 enters return air body, then is entered in air-supply body 21 by return air outlet 34, air-supply unit 2, return air unit 3 and operating room Air-conditioning Cycle control system is formed between 12, reaches the air recycled in operating room 12, the air in operating room 12 is followed Loopback extremely air-supply unit 2, then operating room 12 is sent back to by refrigeration or heating by air-supply unit 2, due to air in operating room 12 There is certain temperature (cold or hot) after air conditioner refrigerating or heating, so that air conditioner refrigerating, heating energy consumption reduce, improve air-conditioning system The energy-saving effect of system, and the operating room automatic sensing door 16 that operating room 12 is equipped with realize the folding of door, folding by human body sensing It with sensitive control performance, reduces 12 room temperature of operating room and scatters and disappears, and leakproofness is fine, energy conservation and environmental protection.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention, the technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention, the claimed scope of the invention by appended claims and its Equivalent thereof.

Claims

1. a kind of operating room construction high efficiency energy saving self control system, it is characterised in that: including air conditioner main body (1), air-supply unit (2), Return air unit (3) and data collection system (4), the input terminal of the air conditioner main body (1) and the output end of control module (5) are electrical Connection, the input terminal of the control module (5) and the output end of data processing module (6) are electrically connected, the data processing mould The input terminal of block (6) and the output end of data reception module (7) are electrically connected, the input terminal of the data reception module (7) with The output end of data collection system (4) is electrically connected, and the input terminal of the control module (5) is electrically connected with radio receiving transmitting module (9) be electrically connected with self-adjustment module (8) with control button module (10), the output end of the air conditioner main body (1), it is described from Dynamic adjustment module (8) include heating system (81) and refrigeration system (82), are equipped with display panel on the air conditioner main body (1) (11), and the air conditioner main body (1) includes air-supply unit (2) and return air unit (3), the air-supply unit (2) and return air unit (3) Air-conditioning Cycle control system is formed between operating room (12).

2. operating room construction high efficiency energy saving self control system according to claim 1, it is characterised in that: the air-supply unit It (2) include air-supply body (21), fresh wind tube (22), return air inlet (23), primary filter screen (24), heating component (25), refrigeration train Part (26), pressure fan (27), air outlet (28) and humidification component (29), the external top of the operating room (12) are fixedly installed with It blows body (21), one end connection of air-supply body (21) is equipped with fresh wind tube (22), the fresh wind tube (22) and fresh air Machine connection, the air-supply body (21) offer return air inlet (23) at the top of fresh wind tube (22) one end, and the return air enters The air-supply body (21) of mouth (23) far from fresh wind tube (22) side is internal to be equipped with primary filter screen (24), the primary filter screen (24) Heating component (25) is installed, the heating component (25) is far from just inside the air-supply body (21) far from fresh wind tube (22) side It imitates and is equipped with cooling assembly (26) inside the air-supply body (21) of strainer (24) side, the cooling assembly (26) is far from heating group It is equipped with pressure fan (27) inside the air-supply body (21) of part (25) side, the air-supply body (21) is far from pressure fan (27) one The bottom at end offers air outlet (28), installation inside the air-supply body (21) between the pressure fan (27) and air outlet (28) Have humidification component (29), is offered air inlet (14) at the top of the operating room (12), the air inlet (14) and air outlet (28) it is connected between by blast pipe, the lower end of operating room (12) side offers return air inlet (13).

3. operating room construction high efficiency energy saving self control system according to claim 2, it is characterised in that: the return air unit It (3) include backwind tube (31), return fan (32), exhaust outlet (33) and return air outlet (34), the top of air-supply body (21) Return air unit is installed, one end of return air unit is connect by backwind tube (31) with the return air inlet (13) of operating room (12), return air The inside of unit is equipped with return fan (32), and one end on return air unit far from backwind tube (31) offers exhaust outlet (33), institute It states the return air unit bottom between exhaust outlet (33) and return fan (32) and offers return air outlet (34), the return air exports (34) It is connect by circulation pipe with the return air inlet (23) in air-supply body (21).

4. operating room construction high efficiency energy saving self control system according to claim 1, it is characterised in that: data acquisition system System (4) includes temperature sensor (41), humidity sensor (42) and human body induction module (43), the data collection system (4) Input terminal be connected with temperature sensor (41), humidity sensor (42) and human body induction module (43), the human body sensing mould Block (43) is infrared induction sensor.

5. operating room construction high efficiency energy saving self control system according to claim 4, it is characterised in that: the operating room (12) Side far from return air inlet (13) is equipped with operating room automatic sensing door (16).

6. operating room construction high efficiency energy saving self control system according to claim 5, it is characterised in that: the temperature sensor (41), humidity sensor (42) and infrared induction sensor are installed in the indoor wall above operating room automatic sensing door (16) On, the humidity sensor (42) uses CL-M7R microminiature humidity sensor, and the temperature sensor (41) uses microminiature Temperature sensor: DA-02-CX.

7. operating room construction high efficiency energy saving self control system according to claim 5, it is characterised in that: the operating room is automatic Infrared inductor is mounted on the opposite two sides of induction door (16), and the operating room automatic sensing door (16) sets for bivalve door It sets, and the mutually close two sides of the operating room automatic sensing door (16) are respectively arranged with seal groove and sealing strip, sealing strip insertion In seal groove.

8. operating room construction high efficiency energy saving self control system according to claim 1, it is characterised in that: the fresh wind tube (22) On control valve (15) are installed.