CN101012952A - Intelligent expiring-inspiring instrument - Google Patents

Abstract

The invention relates to an intelligent breather, comprising a front panel (1), a ventilation fan (2), a micro motor (4), a speed reducer (3), a worm device (5), a foam gasket (6), and a back panel (7). The aspirator comprises a front panel (8), an air filter (9), a speed reducer (3), a micro motor (4), a worm device (5), a foam gasket (6), and a back panel (10). The breather and aspirator are respectively mounted on the remote and near communicated air holes on the indoor wall. The control circuit comprises a remote controller (11) and a control circuit (1A) connected with a liquid-crystal/lighting diode display (1B), a harmful gas sensor (1D), a negative oxygen ion generator (8C), a worm stop point sensor (5D), a micro motor (4), a ventilation fan (2), and an infrared command receiver (1M).

Description

Intelligence is exhaled, aspirator

Affiliated technical field

The present invention relates to the cross-ventilated device in a kind of indoor and outdoor, the intelligence that especially can discern and get rid of automatically indoor harmful gas is automatically exhaled, aspirator.

Background technology

At present, the means of known dwelling house indoor and outdoor cross-ventilation ventilation be open door, window is main, install an air-conditioner, arrange/ventilation fan, shutter is auxilliary, the raising that has had these means to bring matter really to IAQ, but for satisfy people's privacy, winter protection, the higher demand of going away for one's summer holidays, have no alternative but close the doors and windows, people's injury is often taken place as lavatory, bathroom, bedroom noxious air; The bedroom of 's inhabitation generally has only 40 cubic metres of spaces, and the night of sleeping the required 200-240 of having a breath of fresh air cubic meter, although this moment is air-conditioned auxiliary, the fuel gas as carbon dioxide, formaldehyde, flue gas, leakage in the room air also is difficult to ensure in the safety permissible value; A lot of diseases of people are relevant with the long-term pernicious gas that sucks, after one's own heart, cerebrovascular disease, cancer, insomnia, hypophrenia.

Summary of the invention

In order to overcome the deficiency of existing indoor and outdoor cross-ventilation ventilation means, the invention provides a kind of intelligence exhales/aspirator, this intelligence exhales/and whether aspirator can exceed safe allowed band by responsive identification indoor harmful gas under the condition of cutting out door, window, and start automatically, active ventilation, avoid the injury of pernicious gas to the people, active ventilation achieve the goal the back, intelligence exhales/aspirator cuts out automatically, and be in start standby normality, stop the indoor and outdoor cross-ventilation, can also remote manual control realize active ventilation, passive ventilation.By intelligence exhale/fresh air in the aspirator inlet chamber all is rich in negative oxygen ion, make indoor air quality no matter when can both remain in the scope of best in quality, safety, and thoroughly block privacy, improve people's existence, quality of life, reach the purpose of modern people the higher demand of living conditions.

The technical solution adopted for the present invention to solve the technical problems is: breath device, aspirator, control are partly.

See Fig. 1, breath device comprises: breath device front panel (1), ventilation fan (2), decelerator (3), micro machine (4), worm-and-wheel gear (5), foam washer (6), breath device rear board (7); The front of breath device front panel (1) is provided with infrared ray command receiver (1M) as shown in Figure 3, control circuit (1A), shutter (1C), pernicious gas inductive pick-up (1D), liquid crystal/light-emitting diode display (1B); Breath device front panel (1) is installed on the set indoor face peripheral wall surface of perforation exhaling hole of apogee end on door, window, the wall and covers exhaling hole; Ventilation fan (2) is fixed on the ventilation fan support (2B) as shown in Figure 4, and ventilation fan support (2B) is installed on the indoor face peripheral wall surface of exhaling hole, is close to the back side of front panel (1), and back and micro machine (4) are adjacent; Worm screw (5X) A of worm-and-wheel gear (5) shown in figure (10), the B end respectively is provided with worm shaft (5T), worm shaft (5T) A, the outer Luo line (5y) of worm screw is arranged between the B end, worm shaft (5T) A end is installed in the A end worm screw lining (5C) and passes A end worm screw lining (5C) and is connected with decelerator (3), decelerator (3) is connected with micro machine (4), micro machine (4) is electrically connected with control circuit (1A) coupling, worm shaft (5T) B end is gone up the inner thread formula wormwheel liner of installing (5F) by worm gear (5E) and is installed in the B end worm screw lining (5C), A end worm screw lining (5C) is installed on the A end support (5A), and B end worm screw lining (5C) is installed on the B end support (5A); Worm gear (5E) center is equipped with inner thread formula wormwheel liner (5F), the outer Luo line (5y) of its inner thread and worm screw is combined closely, the two ends up and down at worm gear (5E) center, adjacent 180 degree respectively are provided with worm gear locating hole (5M) in the outward flange, from passing the two ends worm gear locating holes (5M) up and down, the A of two ends worm gear backstay (5B), B two ends are connected with A, B end support (5A) respectively two ends worm gear backstay (5B) up and down respectively up and down; Be separately installed with worm gear stop inductive pick-up (5D) on support (5A) A, the B end of worm-and-wheel gear (5); A, B end worm gear stop inductive pick-up (5D) is electrically connected with control circuit (1A) coupling respectively; Support (5A) the B end of breath device worm-and-wheel gear (5) is fixed on the perisporium of the outdoor hole of exhaling hole and by breath device rear board (7) and covers; The B end face of worm gear when breath device is closed (5E) is close to foam washer (6); There is screen window (7A) at the back side of breath device rear board (7) as shown in Figure 5, and there is shutter (7B) front of breath device rear board (7) as shown in figure 12; Breath device rear board (7) is installed on outdoor of exhaling hole, block exhaling hole on the passage peripheral wall surfaces, cover breath device rear board (7), foam washer (6) is installed around the screen window (7A) of breath device rear board (7), foam washer (6) is the sponge foamed material, and the diameter of foam washer (6) equals the diameter of screen window (7A); To 14cm, the diameter of breath device front and back panels (7) is greater than the exhaling hole diameter greater than the diameter 5 of worm gear (5E), decelerator (3), micro machine (4), worm-and-wheel gear (5) for the exhaling hole inner diameter.

See Fig. 2, aspirator comprises: there is shutter (8A) aspirator front panel (8), air filter (9), micro machine (4), decelerator (3), worm-and-wheel gear (5), foam washer (6), aspirator rear board (10), aspirator front panel (8) front as shown in Figure 6, there is screen window (8B) at aspirator front panel (8) back side as shown in Figure 7 and negative oxygen ion generator (8C) is installed, and aspirator front panel (8) is installed on the outdoor hole of perforation air admission hole, the near end peripheral wall surfaces that is provided with on door, window, the wall and blocks air admission hole; Air filter (9) is made by soft material, be oval tubular, inwall is provided with to the center and is radial evenly distributed soft dust suction pin (9A) as shown in Figure 9, dust suction pin (9A) surface is coated with the medical use liquid Valelinum Liquidum in order to airborne suspended particulate in the absorption inlet chamber, also is coated with the air freshener of natural material; The cross section diameter of air filter (9) equals the suction hole inner diameter, and two ends are open attitude, vertically are installed in the air admission hole, and any end is affixed on the back side of aspirator front panel, and the other end and micro machine (4) are adjacent; Micro machine (4) and control circuit (1A) coupling be electrically connected and with breath device micro machine (4) synchronization action; The structure of micro machine (4), decelerator (3), worm-and-wheel gear (5) connects same breath device (summary); On support (5A) A, the B end of aspirator worm-and-wheel gear (5) worm gear stop inductive pick-up (5D) is installed; Aspirator A, B end worm gear stop inductive pick-up (5D) is electrically connected with control circuit (1A) coupling respectively; Support (5A) the B end of aspirator worm-and-wheel gear (5) is fixed on the perisporium of the indoor hole of suction hole and by breath device rear board (10) and covers; The B end face of worm gear when aspirator cuts out (5E) is close to foam washer (6); There is shutter (10A) front of aspirator rear board (10) as shown in Figure 8, and the back side is equipped with packing ring (6); Aspirator rear board (10) is installed on the indoor suction hole peripheral wall surfaces and blocks air admission hole; The diameter of aspirator packing ring (6) equals the diameter of shutter (10A), aspirator worm gear (5E); The diameter of air admission hole is greater than the diameter 5-14cm of aspirator decelerator (3), aspirator micro machine (4), aspirator worm-and-wheel gear (5), aspirator worm gear (5E); The diameter of aspirator front panel (8), aspirator rear board (10) is all greater than the air admission hole diameter.

See Figure 13, control partly comprises remote controller (11), infrared ray command receiver (1M), control circuit (1A), pernicious gas inductive pick-up (1D), negative oxygen ion generator (8C), breath device, aspirator worm gear stop inductive pick-up (A, B hold 5D), breath device, aspirator micro machine (4), ventilation fan (2), liquid crystal/light-emitting diode display (1B); The circuit of control circuit (1A) comprising: infrared ray command receiver (1M) remote control circuit; The intelligence control circuit of liquid crystal/light-emitting diode display (1B); The intelligence control circuit of pernicious gas inductive pick-up (1D); The intelligent distant control control circuit of negative oxygen ion generator (8C); The intelligence control circuit of breath device, aspirator worm gear stop inductive pick-up (A, B hold 5D); The synchronous rotating intelligent distant control control circuit of the micro machine of breath device, aspirator (4); The intelligent distant control control circuit of ventilation fan (2); Breath device, the start of aspirator complete machine, standby, shutdown remote control circuit; Remote controller (11) comprising: breath device, the start of aspirator complete machine, standby, shutdown remote control circuit; Ventilation fan (2) start, shutdown, wind speed gear remote control circuit; The open and close remote control circuit of breath device, aspirator micro machine (4); The remote control circuit of negative oxygen ion generator (8C); Infrared ray command remote control radiating circuit; Power supply is electrically connected with control circuit (1A); The corresponding port of control circuit (1A) and each former device coupling respectively with infrared ray command receiver (1M), liquid crystal/light-emitting diode display (1B), pernicious gas inductive pick-up (1D), negative oxygen ion generator (8C), breath device, aspirator worm gear stop inductive pick-up (A, B hold 5D), breath device, aspirator micro machine (4), the corresponding electrical connection of ventilation fan (2).Remote controller under the condition that door, window are closed (11) sends complete machine start standby command, infrared ray command receiver (1M) is passed to control circuit (1A) with instruction, after control circuit (1M) is handled, will instruct and pass to liquid crystal/light-emitting diode display (1B) and pernicious gas inductive pick-up (1D) simultaneously, pernicious gas inductive pick-up (1D) work, display (1B) shows the relevant work attitude, and breath device, aspirator are in the pass closed state at this moment; Indoor harmful gas concentration is when allowing safety value, pernicious gas inductive pick-up (1D) is passed to control circuit (1A) automatically with induced signal, signal is after control circuit (1A) is handled, control circuit (1A) is simultaneously to breath device and aspirator micro machine (4,), ventilation fan (2), the instruction that negative oxygen ion generator (8C) sends out, this moment, breath device and aspirator micro machine (4) just changeed, exhale, aspirator micro machine (4) connection reducer (3), the decelerator (3) that has increased moment is passed to the worm screw (5X) of worm-and-wheel gear (5) with moment, and worm screw (5X) just changes; Worm shaft (5T) A, outer Luo line (5y) between the B end is combined closely with the inner thread formula lining (5F) that is installed in worm gear (5E) center, the two worm gear backstays (5B) up and down that pass worm gear locating hole (5M) force worm gear (5E) not rotate, worm gear (5E) is under the moment that worm screw (5X) is just changeing, be displaced to A end breath device by the B end to the A end, during aspirator worm gear stop inductive pick-up (5D), breath device, aspirator A end worm gear stop inductive pick-up (5D) reaches control circuit (1A) with the stop signal, control circuit (1A) instruction breath device and aspirator micro machine (4) are shut down, the state that the breath device aspirator is in out, negative oxygen ion generator (8C) is operating conditions, and ventilation fan (2) is maximum wind flow operating conditions; This moment, indoor air was by exhaling the gap between the shutter (1C) on the device front panel, the ventilation fan of flowing through (2), breath device micro machine (4), decelerator (3), worm-and-wheel gear (5), worm gear (5E) and the exhaling hole periphery of inner wall, and the screen window (7A) on the foam washer (6) of flowing through again, the breath device rear board (7), shutter (7B) are afterwards outside the delivery chamber; This moment is under the indoor-outdoor air action of pressure, outdoor fresh air is by the gap between shutter (8A), screen window (8B), negative oxygen ion generator (8C), air filter (9), aspirator micro machine (4), aspirator decelerator (3), aspirator worm-and-wheel gear (5), worm gear (5E) and the suction hole periphery of inner wall on the haustorium front panel, shutter (10A) back of flowing through again on foam washer (6), the aspirator rear board (10) flows into indoor, be rich in negative oxygen ion in the at this moment indoor air, suspended particulate obviously reduces; Exhale this moment/aspirator is intelligent active ventilation attitude; By intelligent active ventilation; the indoor harmful gas concentration value; after reaching permission safety value scope; pernicious gas inductive pick-up (1D) is passed to control circuit (1A) with signal; control circuit (1A) is passed to ventilation fan (2) simultaneously to the signal of shutdown; breath device; aspirator micro machine (4); negative oxygen ion generator (8C); this moment ventilation fan (2); negative oxygen ion generator (8C) quits work; breath device and aspirator micro machine (4) counter-rotating; worm gear (5E) is displaced to B end breath device and air-breathing worm gear stop inductive pick-up (5D) by the A end to the B end; after B end breath device and air-breathing worm gear stop inductor sensor (5D) reach control circuit (1A) processing with the stop signal; control circuit (1A) is to breath device; aspirator micro machine (4) sends halt instruction; breath device; aspirator micro machine (4) is shut down; exhale this moment/worm gear (5E) of aspirator is close to packing ring (6), exhale/aspirator is the standby normality.When remote controller (11) sends the instruction that micro machine (4) leaves; control circuit (1A) is to breath device; the instruction that aspirator micro machine (4) negative oxygen ion generator (8C) sends out simultaneously; exhale; aspirator micro machine (4) is just changeing passes to speed regulator (3) with moment; speed regulator (3) is passed to worm screw (5X) with moment; worm screw (5X) just changes; worm gear (5E) is displaced to A end worm gear stop inductive pick-up (5D) by the B end of worm gear (5E) to the A end; worm gear stop inductive pick-up (5D) is passed to control circuit (1A) with the stop signal; control circuit (1A) will be exhaled again; the instruction that aspirator micro machine (4) stops is passed to and is exhaled; aspirator micro machine (4); micro machine (4) is shut down; the state that the breath device aspirator is in out; negative oxygen ion generator (8C) work; at this moment; carry out the indoor-outdoor air exchange by the natural pressure difference of indoor-outdoor air, exhale; aspirator is remote control passive ventilation attitude.Remote controller (11) sends the start order back control circuit (1A) of fan (2) again ventilation fan (2) is passed in instruction, and ventilation fan (2) start work is exhaled, aspirator is remote control active ventilation attitude this moment.After remote controller sends the instruction that ventilation fan (2) is exhaled, aspirator micro machine (4) closes, control circuit (1A) simultaneously to exhale, aspirator micro machine (4), negative oxygen ion generator (8C), ventilation fan (2) send the instruction that stops, negative oxygen ion generator (8C), ventilation fan (2) quit work; Exhale, aspirator micro machine (4) counter-rotating, worm gear (5E) is displaced to B end worm gear stop inductive pick-up (5D) by the A end to the B end, worm gear stop inductive pick-up (5D) reaches control circuit (1A) with stop information, control circuit (1A) to exhale, aspirator micro machine (4) sends halt instruction, micro machine (4) is shut down; At this moment, exhale, the B end face of aspirator worm gear (5E) is close to foam washer (6), complete machine is got back to the standby normality again.

The invention has the beneficial effects as follows that indoor intelligence is exhaled under the situation that door and window is closed, aspirator both blocked privacy, has guaranteed IAQ again, and intelligence, straighforward operation, very convenient.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 is a breath device organigram of the present invention.

Fig. 2 is an aspirator organigram of the present invention.

Fig. 3 is the facial local schematic top plan view of breath device front panel.

Fig. 4 is the local schematic top plan view of ventilation fan.

Fig. 5 is the local schematic top plan view in the aspirator rear board back side.

Fig. 6 is the facial local schematic top plan view of aspirator front panel.

Fig. 7 is the local schematic top plan view in the aspirator front panel back side.

Fig. 8 is the facial local schematic top plan view of aspirator rear board.

Fig. 9 is the local schematic top plan view in air filter cross section.

Figure 10 is a worm-and-wheel gear local structure schematic diagram.

Figure 11 is the remote controller schematic top plan view.

Figure 12 is the facial local schematic top plan view of aspirator rear board.

Figure 13 is a partly circuit theory schematic block diagram of control of the present invention.

1. breath device front panels among the figure, 2. ventilation fan, 3. decelerator, 4. micro machine, 5. worm-and-wheel gear, 6. foam washer, 7. breath device rear board, 8. air-breathing front panel, 9. air filter, 10. aspirator rear board, 11. remote controller, 1A. control circuit, 1B. liquid crystal/light-emitting diode display, 1C. shutter, 1M. infrared ray command receiver, 1D. pernicious gas inductive pick-up, 2A. ventilation fan blade, 2B. support, 7A. screen window, 7B. shutter, 8A. shutter, 8B. screen window, 8C. negative oxygen ion generator, 10A. shutter, 9A. dust suction pin, 5A. support, 5B. worm gear backstay, 5C. worm screw lining, 5D. worm gear stop inductive pick-up, 5E. worm gear, 5F. inner thread formula wormwheel liner, 5M. worm gear locating hole, 5X. worm screw, 5Y. the outer Luo line of worm screw, 5T. worm shaft.

The specific embodiment

In Fig. 1, breath device comprises: breath device front panel (1), ventilation fan (2), decelerator (3), micro machine (4), worm-and-wheel gear (5), foam washer (6), breath device rear board (7); The front of breath device front panel (1) is provided with infrared ray command receiver (1M) as shown in Figure 3, control circuit (1A), shutter (1C), pernicious gas inductive pick-up (1D), liquid crystal/light-emitting diode display (1B); Breath device front panel (1) is installed on the set indoor face peripheral wall surface of perforation exhaling hole of apogee end on door, window, the wall and covers exhaling hole; Ventilation fan (2) is fixed on the ventilation fan support (2B) as shown in Figure 4, and ventilation fan support (2B) is installed on the indoor face peripheral wall surface of exhaling hole, is close to the back side of front panel (1), and back and micro machine (4) are adjacent; Worm screw (5X) A of worm-and-wheel gear (5) shown in figure (10), the B end respectively is provided with worm shaft (5T), worm shaft (5T) A, the outer Luo line (5y) of worm screw is arranged between the B end, worm shaft (5T) A end is installed in the A end worm screw lining (5C) and passes A end worm screw lining (5C) and is connected with decelerator (3), decelerator (3) is connected with micro machine (4), micro machine (4) is electrically connected with control circuit (1A) coupling, worm shaft (5T) B end is gone up the inner thread formula wormwheel liner of installing (5F) by worm gear (5E) and is installed in the B end worm screw lining (5C), A end worm screw lining (5C) is installed on the A end support (5A), and B end worm screw lining (5C) is installed on the B end support (5A); Worm gear (5E) center is equipped with inner thread formula wormwheel liner (5F), the outer Luo line (5y) of its inner thread and worm screw is combined closely, the two ends up and down at worm gear (5E) center, adjacent 180 degree respectively are provided with worm gear locating hole (5M) in the outward flange, from passing the two ends worm gear locating holes (5M) up and down, the A of two ends worm gear backstay (5B), B two ends are connected with A, B end support (5A) respectively two ends worm gear backstay (5B) up and down respectively up and down; Be separately installed with worm gear stop inductive pick-up (5D) on support (5A) A, the B end of worm-and-wheel gear (5); A, B end worm gear stop inductive pick-up (5D) is electrically connected with control circuit (1A) coupling respectively; Support (5A) the B end of breath device worm-and-wheel gear (5) is fixed on the perisporium of the outdoor hole of exhaling hole and by breath device rear board (7) and covers; The B end face of worm gear when breath device is closed (5E) is close to foam washer (6); There is screen window (7A) at the back side of breath device rear board (7) as shown in Figure 5, and there is shutter (7B) front of breath device rear board (7) as shown in figure 12; Breath device rear board (7) is installed on outdoor of exhaling hole, block exhaling hole on the passage peripheral wall surfaces, cover breath device rear board (7), foam washer (6) is installed around the screen window (7A) of breath device rear board (7), foam washer (6) is the sponge foamed material, and the diameter of foam washer (6) equals the diameter of screen window (7A); To 14cm, the diameter of breath device front and back panels (7) is greater than the exhaling hole diameter greater than the diameter 5 of worm gear (5E), decelerator (3), micro machine (4), worm-and-wheel gear (5) for the exhaling hole inner diameter.

In embodiment illustrated in fig. 2, aspirator comprises: there is shutter (8A) aspirator front panel (8), air filter (9), micro machine (4), decelerator (3), worm-and-wheel gear (5), foam washer (6), aspirator rear board (10), aspirator front panel (8) front as shown in Figure 6, there is screen window (8B) at aspirator front panel (8) back side as shown in Figure 7 and negative oxygen ion generator (8C) is installed, and aspirator front panel (8) is installed on the outdoor hole of perforation air admission hole, the near end peripheral wall surfaces that is provided with on door, window, the wall and blocks air admission hole; Air filter (9) is made by soft material, be oval tubular, inwall is provided with to the center and is radial evenly distributed soft dust suction pin (9A) as shown in Figure 9, dust suction pin (9A) surface is coated with the medical use liquid Valelinum Liquidum in order to airborne suspended particulate in the absorption inlet chamber, also is coated with the air freshener of natural material; The cross section diameter of air filter (9) equals the suction hole inner diameter, and two ends are open attitude, vertically are installed in the air admission hole, and any end is affixed on the back side of aspirator front panel, and the other end and micro machine (4) are adjacent; Micro machine (4) and control circuit (1A) coupling be electrically connected and with breath device micro machine (4) synchronization action; The structure of micro machine (4), decelerator (3), worm-and-wheel gear (5) connects same breath device (summary); On support (5A) A, the B end of worm-and-wheel gear (5) worm gear stop inductive pick-up (5D) is installed; A, B end worm gear stop inductive pick-up (5D) is electrically connected with control circuit (1A) coupling respectively; Support (5A) the B end of aspirator worm-and-wheel gear (5) is fixed on the perisporium of the indoor hole of suction hole and by breath device rear board (10) and covers; The B end face of worm gear when aspirator cuts out (5E) is close to foam washer (6); There is shutter (10A) front of aspirator rear board (10) as shown in Figure 8, and the back side is equipped with foam washer (6); Aspirator rear board (10) is installed on the indoor suction hole peripheral wall surfaces and blocks air admission hole; The diameter of foam washer (6) equals the diameter of shutter (10A), worm gear (5E); The diameter of air admission hole is greater than the diameter 5-14cm of decelerator (3), micro machine (4), worm-and-wheel gear (5), worm gear (5E), and the diameter of aspirator front panel (8), aspirator rear board (10) is all greater than the air admission hole diameter.

In another embodiment shown in Figure 13, control partly comprises that the circuit of remote controller (11), infrared ray command receiver (1M), control circuit (1A), pernicious gas inductive pick-up (1D), negative oxygen ion generator (8C), breath device, aspirator worm gear stop inductive pick-up (A, B hold 5D), control circuit (1A) comprising: infrared ray command receiver (1M) remote control circuit; The intelligence control circuit of liquid crystal/light-emitting diode display (1B); The intelligence control circuit of pernicious gas inductive pick-up (1D); The intelligent distant control control circuit of negative oxygen ion generator (8C); The intelligence control circuit of breath device, aspirator worm gear stop inductive pick-up (A, B hold 5D); The synchronous rotating intelligent distant control control circuit of the micro machine of breath device, aspirator (4); The intelligent distant control control circuit of ventilation fan (2); Breath device, the start of aspirator complete machine, standby, shutdown remote control circuit; Remote controller (11) comprising: breath device, the start of aspirator complete machine, standby, shutdown remote control circuit; Ventilation fan (2) start, shutdown, wind speed gear remote control circuit; The open and close remote control circuit of breath device, aspirator micro machine (4); The remote control circuit of negative oxygen ion generator (8C); Infrared ray command remote control radiating circuit; Power supply is electrically connected with control circuit (1A); The corresponding port of control circuit (1A) and each former device coupling respectively with infrared ray command receiver (1M), liquid crystal/light-emitting diode display (1B), pernicious gas inductive pick-up (1D), negative oxygen ion generator (8C), breath device, display (1B), pernicious gas inductive pick-up (1D), negative oxygen ion generator (8C), breath device, aspirator worm gear stop inductive pick-up (A, B holds 5D), breath device, aspirator micro machine (4), ventilation fan (2) is corresponding to be electrically connected.Remote controller under the condition that door, window are closed (11) sends complete machine start standby command, infrared ray command receiver (1M) is passed to control circuit (1A) with instruction, after control circuit (1M) is handled, will instruct and pass to liquid crystal/light-emitting diode display (1B) and pernicious gas inductive pick-up (1D) simultaneously, pernicious gas inductive pick-up (1D) work, display (1B) shows the relevant work attitude, and breath device, aspirator are in the pass closed state at this moment; Indoor harmful gas concentration is when allowing safety value, pernicious gas inductive pick-up (1D) is passed to control circuit (1A) automatically with induced signal, signal is after control circuit (1A) is handled, control circuit (1A) is simultaneously to breath device and aspirator micro machine (4,), ventilation fan (2), the instruction that negative oxygen ion generator (8C) sends out, this moment, breath device and aspirator micro machine (4) just changeed, breath device, aspirator micro machine (4) connects breath device, aspirator decelerator (3), the decelerator (3) that has increased moment is passed to breath device with moment, the worm screw (5X) of aspirator worm-and-wheel gear (5), worm screw (5X) just changes; Worm shaft (5T) A, outer Luo line (5y) between the B end is combined closely with the inner thread formula lining (5F) that is installed in worm gear (5E) center, the two worm gear backstays (5B) up and down that pass worm gear locating hole (5M) force worm gear (5E) not rotate, worm gear (5E) is under the moment that worm screw (5X) is just changeing, be displaced to A end breath device by the B end to the A end, during aspirator worm gear stop inductive pick-up (5D), breath device, aspirator A end worm gear stop inductive pick-up (5D) reaches control circuit (1A) with the stop signal, control circuit (1A) instruction breath device and aspirator micro machine (4) are shut down, the state that the breath device aspirator is in out, negative oxygen ion generator (8C) is operating conditions, and ventilation fan (2) is maximum wind flow operating conditions; At this moment indoor air is by the gap between the shutter on the breath device front panel (1C), the ventilation fan of flowing through (2), breath device micro machine (4), breath device decelerator (3), breath device worm-and-wheel gear (5), worm gear (5E) and the exhaling hole periphery of inner wall, outside the screen window (7A) on the foam washer (6) of flowing through again, the breath device rear board (7), shutter (7B) the back delivery chamber; This moment is under the indoor-outdoor air action of pressure, outdoor fresh air is by the gap between the shutter (8A) on the aspirator front panel, screen window (8B), negative oxygen ion generator (8C), air filter suction device (9), aspirator micro machine (4), aspirator decelerator (3), aspirator worm-and-wheel gear (5), worm gear (5E) and the suction hole periphery of inner wall, shutter (10A) back of flowing through again on foam washer (6), the aspirator rear board (10) flows into indoor, be rich in negative oxygen ion in the at this moment indoor air, suspended particulate obviously reduces; Exhale this moment/aspirator is intelligent active ventilation attitude; By intelligent active ventilation; the indoor harmful gas concentration value; after reaching permission safety value scope; pernicious gas inductive pick-up (1D) is passed to control circuit (1A) with signal; control circuit (1A) is passed to ventilation fan (2) simultaneously to the signal of shutdown; breath device; aspirator micro machine (4); negative oxygen ion generator (8C); this moment ventilation fan (2); negative oxygen ion generator (8C) quits work; breath device and aspirator micro machine (4) counter-rotating; worm gear (5E) is displaced to breath device and aspirator B end worm gear stop inductive pick-up (5D) by the A end to the B end; after breath device and aspirator worm gear stop inductor sensor (5D) reach control circuit (1A) processing with the stop signal; control circuit (1A) is to breath device; aspirator micro machine (4) sends halt instruction; breath device; aspirator micro machine (4) is shut down; exhale this moment/worm gear (5E) of aspirator is close to foam washer (6), exhale/aspirator is the standby normality.When remote controller (11) sends the instruction that micro machine (4) leaves; control circuit (1A) is to breath device; the instruction that aspirator micro machine (4) negative oxygen ion generator (8C) sends out simultaneously; exhale; aspirator micro machine (4) is just changeing passes to speed regulator (3) with moment; speed regulator (3) is passed to worm screw (5X) with moment; worm screw (5X) just changes; worm gear (5E) is held to be displaced to A by the B end of worm gear (5E) and is exhaled; aspirator A holds worm gear stop inductive pick-up (5D); exhale; aspirator A end worm gear stop inductive pick-up (5D) is passed to control circuit (1A) with the stop signal; control circuit (1A) will be exhaled again; the instruction that aspirator micro machine (4) stops is passed to and is exhaled; aspirator micro machine (4); exhale; aspirator micro machine (4) is shut down; the state that the breath device aspirator is in out; negative oxygen ion generator (8C) work; at this moment; carry out the indoor-outdoor air exchange by the natural pressure difference of indoor-outdoor air, exhale; aspirator is remote control passive ventilation attitude.Remote controller (11) sends the start order back control circuit (1A) of fan (2) again ventilation fan (2) is passed in instruction, and ventilation fan (2) start work is exhaled, aspirator is remote control active ventilation attitude this moment.After remote controller sends the instruction that ventilation fan (2) is exhaled, aspirator micro machine (4) closes, control circuit (1A) simultaneously to exhale, aspirator micro machine (4), negative oxygen ion generator (8C), ventilation fan (2) send the instruction that stops, negative oxygen ion generator (8C), ventilation fan (2) quit work; Exhale, aspirator micro machine (4) counter-rotating, exhale, aspirator worm gear (5E) by exhale, aspirator A end is displaced to the B end and exhales, aspirator B holds worm gear stop inductive pick-up (5D), exhale, aspirator worm gear stop inductive pick-up (5D) reaches control circuit (1A) with stop information, control circuit (1A) to exhale, aspirator micro machine (4) sends halt instruction, exhale, aspirator micro machine (4) shuts down; At this moment, exhale, the B end face of aspirator worm gear (5E) be close to exhale, aspirator foam washer (6), complete machine is got back to the standby normality again.

Claims (8)

1. intelligence is exhaled, aspirator comprises: breath device, aspirator, control are partly;

Breath device comprises: breath device front panel (1), ventilation fan (2), decelerator (3), micro machine (4), worm-and-wheel gear (5), foam washer (6), breath device rear board (7);

Aspirator comprises: aspirator front panel (8), air filter (9), decelerator (3), micro machine (4), worm-and-wheel gear (5), foam washer (6), aspirator rear board (10);

Control partly comprises: power supply is electrically connected with control circuit (1A); The corresponding port of control circuit (1A) and each former device coupling respectively with infrared ray command receiver (1M), liquid crystal/light-emitting diode display (1B), pernicious gas inductive pick-up (1D), negative oxygen ion generator (8C), exhale, aspirator worm gear stop inductive pick-up (A, B hold 5D), exhale, aspirator micro machine (4), the corresponding electrical connection of ventilation fan (2); Remote controller (11);

It is characterized in that: exhale, aspirator front panel (1,8), exhale, the diameter of aspirator rear board (7,10) is all greater than the exhaling hole that is provided with on door, window, the wall, suction hole diameter.

2. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: exhale, the overall diameter of aspirator foam washer (6) etc. is exhaled, aspirator is in the overall diameter of worm gear (5E); Exhale, the interior diameter of aspirator foam washer (6) equals the diameter of screen window (7A), shutter (10A); Exhale, aspirator decelerator (3), exhale, aspirator micro machine (4), exhale, aspirator worm-and-wheel gear (5), exhale, the overall diameter of aspirator worm gear (5E) less than exhaling of being provided with on door, window, the wall, suction hole inner diameter 5 to 14cm.

3. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: air filter (9) is made by soft material, be oval tubular, two ends along long axis direction are open attitude, oriented center is radial evenly distributed soft dust suction pin (9A) on the inwall, is coated with the air freshener of medical use liquid Valelinum Liquidum, natural material on the dust suction pin (9A); The cross section diameter of air filter (9) equals the suction hole inner diameter that is provided with on door, window, the wall.

4. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: exhale, worm screw (5X) A of the worm-and-wheel gear of aspirator (5), the B end respectively is provided with worm shaft (5T), worm shaft (5T) A, the outer Luo line (5y) of worm screw is arranged between the B end, worm shaft (5T) A end is installed in the A end worm screw lining (5C) and passes A end worm screw lining (5C) and is connected with decelerator (3), exhale, aspirator micro machine (4) with exhale, aspirator decelerator (3) connects, exhale, aspirator micro machine (4) is electrically connected with control circuit (1A) coupling, exhale, aspirator A end worm screw lining (5C) is installed in exhales, on the aspirator A end support (5A), exhale, aspirator worm shaft (5T) B end passes inner thread formula wormwheel liner (5F) and is installed in and exhales, in the aspirator B end worm screw lining (5C), exhale, aspirator B end worm screw lining (5C) is installed in exhales, on the aspirator B end support (5A); Exhale, aspirator worm gear (5E) center is equipped with inner thread formula wormwheel liner (5F), the outer Luo line (5y) of its inner thread and worm screw is combined closely, exhale, the two ends up and down at aspirator worm gear (5E) center, adjacent 180 degree respectively are provided with worm gear locating hole (5M) in the outward flange, up and down two ends worm gear backstay (5B) from passing the two ends worm gear locating holes (5M) up and down, exhale respectively, aspirator up and down two ends worm gear backstays (5B) A, B two ends respectively with exhale, aspirator A, B end support (5A) be connected; Exhale, be separately installed with worm gear stop inductive pick-up (5D) on the A of aspirator worm-and-wheel gear (5), B end support (5A); Support (5A) the B end of breath device worm-and-wheel gear (5) is fixed on the perisporium of the outdoor hole of exhaling hole and by breath device rear board (7) and covers; Support (5A) the B end of aspirator worm-and-wheel gear (5) is fixed on the indoor cinclides perisporium of suction hole and by aspirator rear board (10) and covers; Aspirator, exhale when breath device is closed, the B end face of the worm gear (5E) of aspirator be close to exhale, aspirator foam washer (6);

5. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: ventilation fan (2) is installed on the ventilation fan support (2B), ventilation fan support (2B) is fixed on the indoor face perisporium of exhaling hole and by breath device front panel (1) and covers, and ventilation fan (2) is back adjacent micro machine (4) in exhaling hole.

6. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: breath device is installed in the exhaling hole of the indoor and outdoor perforation that the apogee end is provided with on door, window, the wall; Aspirator is installed in the suction hole of the indoor and outdoor perforation that the perigee end is provided with on door, window, the wall.

7. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: the circuit of control circuit (1A) comprising: the remote control circuit of infrared ray command receiver (1M); The intelligence control circuit of liquid crystal/light-emitting diode display (1B); The intelligence control circuit of pernicious gas inductive pick-up (1D); Intelligence, the remote control circuit of negative oxygen ion generator (8C); The intelligence control circuit of breath device, aspirator worm gear stop inductive pick-up (A, B hold 5D); The synchronous rotating intelligence of the micro machine of breath device, aspirator (4), remote control circuit; Intelligence, the remote control circuit of ventilation fan (2); Breath device, the start of aspirator complete machine, standby, shutdown remote control circuit; Infrared ray command receiver (1M), liquid crystal/light-emitting diode display (1B), pernicious gas inductive pick-up (1D), control circuit (1A) are installed in the surface of breath device front panel (1) respectively, and negative oxygen ion generator (8C) is installed in the back side of aspirator front panel (8).

8. intelligence according to claim 1 is exhaled, aspirator, it is characterized in that: remote controller (11) comprising: breath device, the start of aspirator complete machine, standby, shutdown remote control circuit; Ventilation fan (2) start, shutdown, wind speed gear remote control circuit; The open and close remote control circuit of breath device, aspirator micro machine (4); The remote control circuit of negative oxygen ion generator (8C); Infrared ray command remote control radiating circuit.

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