CN110010241A - A kind of patient administration system that medical department uses - Google Patents
A kind of patient administration system that medical department uses Download PDFInfo
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- CN110010241A CN110010241A CN201910263976.0A CN201910263976A CN110010241A CN 110010241 A CN110010241 A CN 110010241A CN 201910263976 A CN201910263976 A CN 201910263976A CN 110010241 A CN110010241 A CN 110010241A
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
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Abstract
A kind of patient administration system that medical department uses, including indoor monitoring mechanism, mechanism for monitoring, physical signs mechanism for monitoring, recording mechanism, carry-on mechanism for monitoring, indoor monitoring mechanism includes battery, key power switch, charging socket, fire fog monitoring device, it opens the door and controls equipment, encryption device, wireless transmitting device, mechanism of recording includes remote handset radio control circuit and recording module, mechanism for monitoring includes wireless receiving circuit and buzzer, light emitting diode, battery A, charging socket A, power switch, carry-on mechanism for monitoring includes battery B, charging socket B, key power switch A, wireless receiving circuit A, GPRS positioning device, physical signs mechanism for monitoring includes that there is WiFi signal to transmit body pulse, the electronics bracelet of blood pressure data.The present invention can to patient in ward because the fire behavior surprisingly generated is monitored, patient open ward go out and can carry out positioning searching to patient, moreover it is possible to recording and collect the various body datas of patient.
Description
Technical field
The present invention relates to medical control facility field, especially a kind of patient administration system that medical department uses.
Background technique
In medical department manages inpatient, when occurring fire behavior in ward or patient walks out ward, shield on duty
If scholar cannot recognize situation at the first time, the extension of accident will lead to, ward can be also left without authorization because of patient to disease
The treatment of people and effective management of hospital affect, and encounter some especial patients (such as phrenoblabia) and leave ward and do not have
Have and actively return to ward, bigger inconvenience can be brought when looking for patient to hospital management side.In the prior art, nurse on duty needs to arrive
The data such as pulse, the body temperature of ward actual measurement patient could recognize the health condition of patient in real time, in practical operation, nurse
It is more to manage hospital bed, the labor intensity of nursing staff can be aggravated.Under the prior art, since hospital side cannot be as needed at any time to disease
Interior is recorded, subsequent also just effectively to analyze sick indoor situations according to recording and analyze the state of an illness of patient.
Summary of the invention
In order to overcome in existing medical department, the drawbacks of can effectively managing inpatient without one kind, the present invention provides
It, in use can be effectively to inpatient in disease with indoor monitoring mechanism, carry-on mechanism for monitoring, physical signs mechanism for monitoring etc.
Indoor safety, the monitoring of physical signs real-time perfoming, moreover it is possible to which, as needed in real time to recording in ward, obtained physiology refers to
Mark can analyze in real time the health condition of patient through software in PC machine, and obtained recording energy provides data to analyze the state of an illness of patient
Support, and fire fog, patient's enabling can occur in ward when leaving ward, nurse on duty can be notified at the first time, moreover it is possible to
It realizes that patient leaves positioning function after ward, medical department and household is facilitated to look for the patient left as early as possible, in application process
When nurse passes in and out ward, moreover it is possible to effectively prevent false alarm, thus be brought conveniently to the management of medical department, and can be effectively ensured
The patient administration system that a kind of medical department of patient safety uses.
The technical solution adopted by the present invention to solve the technical problems is:
A kind of patient administration system that medical department uses, it is characterised in that refer to including indoor monitoring mechanism, mechanism for monitoring, physiology
Mechanism for monitoring, recording mechanism, carry-on mechanism for monitoring are marked, indoor monitoring mechanism includes battery, key power switch, charges and insert
Seat, fire fog monitoring device, open the door control equipment, encryption device, wireless transmitting device, battery, fill key power switch
Electrical socket, fire fog monitoring device, open the door control equipment, wireless transmitting device are mounted on first circuit board, recorder
Structure includes remote handset radio control circuit and recording module, and radio control circuit and recording module are mounted on first circuit board
On, first circuit board is mounted in first subassembly wrapper and is connected by conducting wire, and first subassembly wrapper is mounted on the door of ward
Frame is located at indoor side, and encryption device is mounted on second circuit board, and second circuit board is mounted in second subassembly wrapper,
Second subassembly wrapper is mounted on the upper end of first subassembly wrapper, two terminals difference of both ends of power and charging socket of battery
It is connected through conducting wire, battery positive voltage is connected with key power switch one end through conducting wire, the key power switch other end and fire behavior cigarette
Mist monitoring device, encryption device cathode power supply input terminal connected respectively through conducting wire, the cathode power supply output end of encryption device and
The control equipment cathode power supply input terminal that opens the door is connected through conducting wire, the control equipment cathode power supply output end that opens the door, fire fog monitoring
Equipment cathode power supply output end is connected with wireless transmitting device cathode power supply input terminal through conducting wire, battery terminal negative and fire fog
Monitoring device, open the door control equipment, encryption device, wireless transmitting device negative power supply input terminal connected through conducting wire, key electricity
The source switch other end is connected with remote handset radio control circuit cathode power supply input terminal through conducting wire, remote handset wireless control electricity
Road cathode power supply output end is connected with the cathode power supply input terminal of recording module through conducting wire, and battery terminal negative and remote handset are wireless
Control circuit, recording module negative power supply input terminal connected through conducting wire, mechanism for monitoring include wireless receiving circuit and buzzer,
Light emitting diode, battery A, charging socket A, power switch, wireless receiving circuit and buzzer, light emitting diode, battery
A, on circuit boards, circuit board is mounted in third subassembly wrapper, third subassembly wrapper position for charging socket A, power switch installation
At nurse on duty, the both ends of power of battery A is connected through conducting wire respectively with two terminals of charging socket A, and battery A is just
Pole is connected with power switch one end through conducting wire, and the power switch other end and wireless receiving circuit cathode power supply input terminal connect through conducting wire
It connects, wireless receiving circuit cathode power supply output end is connected with the cathode power supply input terminal of buzzer, light emitting diode through conducting wire, is stored
The cathode of battery A is connected with the negative power supply input terminal of buzzer, light emitting diode cathode, wireless receiving circuit, physical signs
Mechanism for monitoring includes the electronics bracelet with WiFi signal transmission body pulse, blood pressure data, at electronics bracelet and nurse on duty
Computer through WIFI signal, network signal connect, carry-on mechanism for monitoring include battery B, charging socket B, key power switch A,
Wireless receiving circuit A, GPRS positioning device, battery B, charging socket B, key power switch A, wireless receiving circuit A, GPRS
Positioning device is mounted in the 4th subassembly wrapper, and there are two rectangle fixed card slot, two rectangular cards for the 4th subassembly wrapper rear side end
Slot covers on the belt of patient, and battery B-source both ends are connected with two terminals of charging socket B through conducting wire respectively, key
The one end power switch A is connected with battery B anode through conducting wire, the anode of key the power switch A other end and wireless receiving circuit A
Power input is connected through conducting wire, cathode power supply output end and GPRS positioning device the cathode power supply input of wireless receiving circuit A
End is connected through conducting wire, and the negative power supply input terminal of battery B cathode and wireless receiving circuit A, GPRS positioning device connects through conducting wire
It connects.
The fire fog monitoring device of the indoor monitoring mechanism includes gas-sensing probe, resistance, silicon-controlled, relay,
Between connected through circuit board wiring, gas-sensing probe model is QM-N5, the first measurement pole of air-sensitive fire acousto-optic alarm and resistance one end, can
Silicon anode, the connection of power source for relay control input terminal are controlled, silicon-controlled cathode is connected with relay cathode power supply input terminal, and resistance is another
One end is connected with air-sensitive fire acousto-optic alarm cathode power supply input terminal, and air-sensitive fire acousto-optic alarm second measures pole and SCR control pole and connects
It connects, air-sensitive fire acousto-optic alarm negative power supply input terminal is connected with relay negative power supply input terminal, SCR control pole and air-sensitive cigarette
An adjustable resistance is in series between second measurement pole of mist probe.
The enabling control equipment of the indoor monitoring mechanism includes two sets of optoelectronic switches, relay and timing circuit, therebetween
It is connected through circuit board wiring, optoelectronic switch is reflective photoelectric switch, and timing circuit is timing delay switch circuit, therebetween through electricity
Road plate wiring connection, 1 foot of second relay normally closed contact end and first set optoelectronic switch cathode power supply input terminal, first after
The connection of electrical equipment control power input, 3 foot of cathode power supply output end of first set optoelectronic switch and first relay anode electricity
The connection of source input terminal, 3 foot of cathode power supply output end and timing circuit cathode power supply input terminal and anode of second set of optoelectronic switch
Power input connection, timing circuit cathode power supply output end and second relay cathode power supply input terminal connection are controlled, the
2 foot of negative power supply input terminal of one optoelectronic switch and first relay negative power supply input terminal, timing circuit negative power supply are defeated
Enter 2 foot of negative power supply input terminal, second relay of 2 feet of end and cathode control 4 foot of power input, second set of optoelectronic switch
The connection of negative power supply input terminal, 1 foot of cathode power supply input terminal and the 7th power source for relay control of second set of optoelectronic switch are defeated
Enter end connection, two sets of optoelectronic switches are separately mounted to ward outer side of door left and right ends, and second set of optoelectronic switch is located at ward outdoors
Left side closer to outdoor corridor, first set optoelectronic switch be located at ward outdoors right side closer to indoor side, two optoelectronic switches
And detecting head is in dislocation and faces surface state.
The encryption device of the indoor monitoring mechanism include nine point dynamic formula normally opened contact microswitches, resistance, it is silicon-controlled,
Relay, timing circuit, connect through circuit board wiring therebetween, and timing circuit is timing delay switch circuit, the 7th relay
Normally-closed contact end and nine microswitch one end, first silicon-controlled anode, second silicon-controlled anode, third only silicon-controlled sun
Pole, the 4th silicon-controlled anode, first power source for relay control input terminal, the 4th power source for relay control input terminal,
The connection of five power source for relay control input terminals, first, second, third only silicon-controlled cathode respectively with first, second
Only, third relay cathode power supply input terminal is separately connected, wherein three microswitch other ends and first, second,
Third resistance one end is separately connected, first, second, the third resistance other end and first, second, third only
Control silicon control electrode is separately connected, and in addition six microswitch other ends and the 4th resistance one end connection, the 4th resistance are another
End is connected with the 4th silicon-controlled control electrode, the 4th silicon-controlled cathode and the 4th relay cathode power supply input terminal connection,
First relay normally open contact end is connected with second power source for relay control input terminal, second relay normally open contact end
It is connected with third power source for relay control input terminal, third relay normally open contact end and the 6th power source for relay control
The cathode power supply input terminal and anode control electricity of input terminal connection, third relay normally open contact end and first set timing circuit
The connection of source input terminal, the cathode power supply output end of first set timing circuit and the 5th, the 6th relay cathode power supply input
The anode of end connection, the 6th relay normally closed contact end, the 4th relay normally open contact end and second set of timing circuit is electric
Source input terminal and anode triggering power input connection, the cathode power supply output end and the 7th relay of second set of timing circuit
The connection of cathode power supply input terminal, first, second, third, the 4th, the 5th, the 6th, the 7th relay cathode
Power input and the connection of two sets of timing circuit negative power supply input terminals and cathode trigger signal input terminal, nine of encryption device
Microswitch operation button is located at second subassembly wrapper outboard end.
The wireless transmitting device of the indoor monitoring mechanism is radio transmitter, and each ward is equipped with a set of indoor prison
Mechanism is surveyed, the coding circuit of each indoor indoor monitoring mechanism wireless transmitting device of disease is inconsistent, prevents more set wireless transmissions
The wireless signal that equipment is launched interferes with each other.
The remote handset radio control circuit of the recording mechanism is remote wireless controller, and recording module is that band USB connects
The recording module of mouth.
The mechanism for monitoring wireless receiving circuit is also configured with resistance, relay, NPN triode, therebetween through circuit board cloth
Line connection, 1 foot of cathode power supply input terminal and relay cathode power supply input terminal and control power input of wireless receiving circuit
Connection, first output end of wireless receiving circuit are connected with resistance one end, and the resistance other end is connected with NPN transistor base,
NPN triode collector is connected with relay negative power supply input terminal, 3 foot of negative power supply input terminal of wireless receiving circuit and
NPN triode emitter connects, and under actual conditions, more set mechanism for monitoring, mostly set mechanism for monitoring are equipped in third subassembly wrapper
Wireless receiving circuit in-line coding circuit code it is different, different wards can be received respectively and set with the wireless transmission of different coding
The wireless signal that preparation projects.
The wireless receiving circuit A of the carry-on mechanism for monitoring is also configured with resistance, relay, NPN triode, wireless receiving
1 foot of cathode power supply input terminal of circuit is connected with relay cathode power supply input terminal and control power input, wireless receiving electricity
First output end on road is connected with resistance one end, and the resistance other end is connected with NPN transistor base, NPN triode collector
It being connected with relay negative power supply input terminal, the negative power supply input terminal of wireless receiving circuit is connected with NPN triode emitter,
The coding of wireless receiving circuit in-line coding circuit and the coding of wireless transmitting device coding circuit of indoor monitoring mechanism are consistent.
The medicine have the advantages that the present invention is in use, indoor monitoring mechanism can be to patient indoors because surprisingly generating
Fire behavior is monitored, and can launch wireless signal by the wireless transmitting device through indoor monitoring mechanism at the first time when accident occurs,
When patient, which opens ward, to go out, the wireless transmitting device of first time indoor monitoring mechanism can launch wireless signal, on duty
Mechanism for monitoring wireless receiving circuit at nurse can notify nurse to check in time to scene at the first time after receiving wireless signal,
The portable GPRS positioning device energy work once electrified of patient, hospital side or household can in time position patient simultaneously, the
One time found patient, and patient is prevented to wander away (patient is particularly effective to phrenoblabia).Physical signs mechanism for monitoring can be right in real time
Patient carries out health monitoring, and various data upload to hospital management side, and in practical operation, hospital side can also pass through mobile phone or computer
Instruction control recording module is issued in real time to recording in ward, obtained physical signs can be analyzed in real time through software in PC machine
The health condition of patient out, obtained recording energy provide data supporting to analyze the state of an illness of patient.Function of the present invention is more, not only can
It is brought convenience to the management of medical department, and the safety of patient can be effectively ensured.Based on the above, so answering of having had of the present invention
Use prospect.
Detailed description of the invention
Working principle of the present invention is described further below in conjunction with drawings and examples.
Fig. 1 is indoor monitoring mechanism of the present invention, recording mechanism structural schematic diagram.
Fig. 2 is mechanism for monitoring structural schematic diagram of the present invention.
Fig. 3 is mechanism for monitoring structural schematic diagram with oneself of the invention.
Fig. 4 is indoor monitoring mechanism of the present invention, physical signs mechanism for monitoring, recording mechanism circuit diagram.
Fig. 5 is mechanism for monitoring circuit diagram of the present invention.
Fig. 6 is mechanism for monitoring circuit diagram with oneself of the invention.
Specific embodiment
Shown in Fig. 1,2,3, a kind of patient administration system that medical department uses, including indoor monitoring mechanism 1, monitoring machine
Structure 2, physical signs mechanism for monitoring, recording mechanism 4, carry-on mechanism for monitoring 5, indoor monitoring mechanism include battery 101, key electricity
Source switch 102, charging socket 103, fire fog monitoring device 104, control equipment 105 of opening the door, encryption device 106, wireless hair
Jet device 107, battery 101, key power switch 102, charging socket 103, fire fog monitoring device 104, control of opening the door
Equipment 105, wireless transmitting device 107 are mounted on first circuit board, and recording mechanism includes remote handset radio control circuit
401 and recording module 402, radio control circuit 401 and recording module 402 be mounted on first circuit board, first circuit
Plate is mounted in first subassembly wrapper 6 and is connected by conducting wire, and the doorframe that first subassembly wrapper 6 is mounted on ward is located at interior one
Side, encryption device 106 are mounted on second circuit board, and second circuit board is mounted in second subassembly wrapper 7, second member
Part box 7 is mounted on the upper end of first subassembly wrapper 6, and (keyhole of key power switch 102, the jack of charging socket 103 are located at
Outboard end on first 6 front of subassembly wrapper), mechanism for monitoring 2 includes wireless receiving circuit 201 and buzzer 202, light emitting diode
203, battery A204, charging socket A205, power switch 206, wireless receiving circuit 201 and buzzer 202, light emitting diode
203, on circuit boards, circuit board is mounted on third element for battery A204, charging socket A205, the installation of power switch 206
In box 8 (light-emitting surface of light emitting diode 203, the jack of charging socket A205, power switch 206 operation handle be located at
Outside three apertures of upper front end of third subassembly wrapper 8), third subassembly wrapper 8 is located at nurse on duty, physical signs monitoring machine
Structure includes the electronics bracelet finished product with WiFi signal transmission body pulse, blood pressure, and carry-on mechanism for monitoring 5 includes battery
B501, charging socket B502, key power switch A503, wireless receiving circuit A504, GPRS positioning device 505, battery
B501, charging socket B502, key power switch A503, wireless receiving circuit A504, GPRS positioning device 505 are mounted on the 4th
In subassembly wrapper 9, there are two rectangle fixed card slot 91, the 4th subassembly wrappers 9 to pass through two rectangles for the 4th 9 rear side end of subassembly wrapper
91 sets of card slot (jack of charging socket B502, the keyhole of key power switch A503 are located at the 4th on the belt of patient
Outside 9 upper end aperture of subassembly wrapper).105-1 is two sets of optoelectronic switches of indoor monitoring mechanism enabling control equipment 105.104-1 is fire
The air-sensitive fire acousto-optic alarm of feelings smoke monitoring equipment 104, front end test surface are located at outside first subassembly wrapper front middle part aperture.
Shown in Fig. 4, the fire fog monitoring device of indoor monitoring mechanism include gas-sensing probe T, resistance R, silicon-controlled VS,
Relay J, connects through circuit board wiring therebetween, and gas-sensing probe T-type number is QM-N5, the first measurement pole a of air-sensitive fire acousto-optic alarm T
It is connected with the one end resistance R, silicon-controlled VS anode, relay J control power input, silicon-controlled VS cathode and relay J anode
Power input connection, the resistance R other end are connected with air-sensitive fire acousto-optic alarm T cathode power supply input terminal, air-sensitive fire acousto-optic alarm T second
Measurement pole b is connected with silicon-controlled VS control electrode, air-sensitive fire acousto-optic alarm T negative power supply input terminal and the input of relay J negative power supply
An adjustable resistance RP is in series between the second measurement pole of end connection, silicon-controlled VS control electrode and air-sensitive fire acousto-optic alarm T.It is indoor
The enabling control equipment of mechanism for monitoring includes two sets of optoelectronic switches A and A5, relay J4 and J8 and timing circuit A3, therebetween through electricity
The wiring connection of road plate, optoelectronic switch A and A5 are that brand CHUNZ/ Chinese toon is whole, reflective photoelectric switch finished product of model E3F-DS30C4
(when detecting head 50 centimeters in front end have barrier, 3 feet of optoelectronic switch A and A5 can export high level), timing circuit A3 is cloud
The timing delay switch circuit finished product of brightness brand, connects through circuit board wiring therebetween, second relay J8 normally-closed contact end and
1 foot of first set optoelectronic switch A cathode power supply input terminal, first relay J4 control power input connection, first set photoelectricity
3 foot of cathode power supply output end of switch A and the connection of first relay J4 cathode power supply input terminal, second set of optoelectronic switch A5's
3 foot of cathode power supply output end is connected with 1 foot of timing circuit A3 cathode power supply input terminal and anode control 3 foot of power input, is counted
When 3 foot of circuit A3 cathode power supply output end and second relay J8 cathode power supply input terminal connection, first set optoelectronic switch A's
2 foot of negative power supply input terminal and first relay J4 negative power supply input terminal, 2 foot of timing circuit A3 negative power supply input terminal and
Cathode controls 2 foot of negative power supply input terminal, the second relay J8 cathode of 4 foot of power input, second set of optoelectronic switch A5
Power input connection, two sets of optoelectronic switches A and A5 are separately mounted to ward outer side of door left and right ends, second set of optoelectronic switch A5
Positioned at ward outdoors left side closer to outdoor corridor, first set optoelectronic switch A be located at ward outdoors on the right side of closer to indoor side,
Two optoelectronic switch A and A5 detecting heads are in dislocation and face surface state, 1 foot of cathode power supply input terminal of second set of optoelectronic switch A5
It is connected with the 7th relay J7 control power input.The encryption device of indoor monitoring mechanism includes nine normally opened touchings of point dynamic formula
Point microswitch S1, S2, S3, S4, S5, S6, S7, S8, S9, resistance R1, R2, R3, R4, silicon-controlled VS1, VS2, VS3, VS4, after
Electric appliance J1, J2, J3, J5, J6, J13, J7, timing circuit A2, A1;It is connected therebetween through circuit board wiring, timing circuit A2, A1 are
The timing delay switch circuit finished product of cloud brightness brand;7th relay J7 normally-closed contact end and nine microswitch S1, S2,
The one end S3, S4, S5, S6, S7, S8, S9, first silicon-controlled VS1 anode, second silicon-controlled VS2 anode, third are only silicon-controlled
VS3 anode, the 4th silicon-controlled VS4 anode, first relay J1 control power input, the 4th relay J13 control
Power input, the 5th relay J5 control power input connection;First silicon-controlled VS1 cathode, second silicon-controlled
VS2 cathode, third only silicon-controlled VS3 cathode respectively with first relay J1, second relay J2, third relay J3
Cathode power supply input terminal is separately connected;Wherein three microswitch S1, S4, S9 other ends and first resistance R1, second electricity
Resistance R2, the one end third resistance R3 are separately connected;First resistance R1, second resistance R2, the third resistance R3 other end and
Only silicon-controlled VS3 control electrode is separately connected for first silicon-controlled VS1 control electrode, second silicon-controlled VS2 control electrode, third;Separately
Outer six microswitch S2, S3, S5, S6, S7, S8 other ends and the 4th one end resistance R4 connection;4th resistance R4 is another
End is connected with the 4th silicon-controlled VS4 control electrode;4th silicon-controlled VS4 cathode and the 4th relay J13 cathode power supply are defeated
Enter end connection;First relay J1 normally opened contact end is connected with second relay J2 control power input;Second after
Electric appliance J2 normally opened contact end is connected with third relay J3 control power input;Third relay J3 normally opened contact end and
6th relay J6 control power input connection;Third relay J3 normally opened contact end and first set timing circuit A2's
1 foot of cathode power supply input terminal and anode control 3 foot of power input connection;The cathode power supply output end of first set timing circuit A2
5 feet and the 5th relay J5, the 6th relay J6 cathode power supply input terminal connection;6th relay J6 normally-closed contact
1 foot of cathode power supply input terminal and anode triggering electricity at end, the 4th relay J13 normally opened contact end and second set of timing circuit A1
The connection of 3 foot of source input terminal;5 foot of cathode power supply output end and the 7th relay J7 cathode power supply of second set of timing circuit A1 is defeated
Enter end connection;Relay J1, J2, J3, J5, J6, J13, J7 negative power supply input terminal and two sets of timing circuit A2, A1 negative power supplies
2 foot of input terminal and the connection of 4 foot of cathode trigger signal input terminal;Nine microswitch S1, S2 of encryption device, S3, S4, S5, S6,
S7, S8, S9 operation button be located at second subassembly wrapper outboard end (a set of indoor monitoring mechanism is installed in each ward,
Nine microswitch connection modes of every set indoor monitoring mechanism are inconsistent to form different passwords).Indoor monitoring mechanism it is wireless
Transmitting equipment A4 is the radio transmitter finished product of model SF1500, and wireless signal transmitting range is 1500 meters, has four
Only emit key, two contacts link together through conducting wire under first key K, under actual conditions, are equipped in each ward
The coding circuit of a set of indoor monitoring mechanism, each indoor indoor monitoring mechanism wireless transmitting device A4 of disease is inconsistent, prevents
The wireless signal that more set wireless transmitting device A4 launch interferes with each other.Mechanism of recording includes remote handset radio control circuit A9
It is that producer's brand east is vast, long distance wireless of model C L4-GPRS with recording module A10, remote handset radio control circuit A9
Controller finished product, recording module A10 are brand indigo plant horse electronics, recording module finished product of the model LMD102 with USB interface.Physiology refers to
Mark mechanism for monitoring include have WiFi signal transmission body pulse, blood pressure data electronics bracelet finished product SH, electronics bracelet SH and
Computer PC is connected through WIFI signal, network signal at nurse on duty.
Shown in Fig. 4, the both ends of power and charging socket CZ(of battery G facilitates external Charger (portable round) to be inserted as storing
Battery G charging) two terminals connect through conducting wire respectively.Battery G anode is connected with the one end key power switch SK through conducting wire.
The anode of the key power switch SK other end and the one end fire fog monitoring device cathode power supply input pickup resistance R1, encryption device
Power input relay J7 control power input is connected through conducting wire respectively.The cathode power supply output end relay of encryption device
J5 normally opened contact end controls power input with the control equipment cathode power supply input terminal relay J8 that opens the door and connects through conducting wire.It opens the door
Control equipment cathode power supply output end relay J4 normally opened contact end, fire fog monitoring device cathode power supply output end relay
J normally opened contact end is connected with wireless transmitting device A4 cathode power supply input terminal through conducting wire.Battery G cathode and fire fog monitoring
Equipment negative power supply input terminal relay J negative power supply input terminal, the control equipment negative power supply input terminal relay J4 that opens the door are negative
Pole power input, encryption device negative power supply input terminal relay J5 negative power supply input terminal, wireless transmitting device A4 it is negative
Pole power input is connected through conducting wire.The key power switch SK other end and remote handset radio control circuit A9 cathode power supply are defeated
Enter 1 foot of end to connect through conducting wire.The anode of remote handset radio control circuit A9 cathode power supply output end 3 foot and recording module A10
1 foot of power input is connected through conducting wire.2 foot of battery G cathode and remote handset radio control circuit A9 negative power supply input terminal,
2 foot of negative power supply input terminal of recording module A10 is connected through conducting wire,
Shown in Fig. 5, mechanism for monitoring wireless receiving circuit include the wireless receiving circuit finished product A6 of model SF1500, resistance R5,
Relay J10, NPN triode Q1, connect through circuit board wiring therebetween, the cathode power supply input terminal of wireless receiving circuit finished product A6
1 foot is connected with relay J10 cathode power supply input terminal and control power input, and first of wireless receiving circuit finished product A6 is defeated
4 foot of outlet is connected with the one end resistance R5, and the resistance R5 other end is connected with NPN triode Q1 base stage, NPN triode Q1 collector and
The connection of relay J10 negative power supply input terminal, 3 foot of negative power supply input terminal and NPN triode of wireless receiving circuit finished product A6
Q1 emitter connects, and under actual conditions, more set mechanism for monitoring is equipped in third subassembly wrapper, the wireless of mechanism for monitoring that cover connect more
Circuit in-line coding circuit digital coding difference is received, different wards can be received respectively and sent out with the wireless transmitting device of different coding
The wireless signal of injection.The both ends of power and charging socket ACZ1(of battery AG1 facilitates external Charger (portable round) to be inserted as storing
Battery AG1 charging) two terminals connected respectively through conducting wire.Battery AG1 anode is connected with the one end power switch SK1.Electricity
The source switch SK1 other end is connected with wireless receiving circuit cathode power supply input terminal relay J10 cathode power supply input terminal through conducting wire.
The cathode power supply at wireless receiving circuit cathode power supply output end relay J10 normally opened contact end and buzzer B, light emitting diode VL
Input terminal (is in series with through conducting wire connection between relay J10 normally opened contact end and the cathode power supply input terminal of light emitting diode VL
One resistance R6, resistance R6 are used as decompression current limliting), the cathode and buzzer B of battery AG1, light emitting diode VL cathode,
The negative power supply input terminal NPN triode Q1 cathode of wireless receiving circuit connects,
Shown in Fig. 6, the wireless receiving circuit A of carry-on mechanism for monitoring include model SF1500 wireless receiving circuit finished product A7,
Resistance R7, relay J9, NPN triode Q2,1 foot of cathode power supply input terminal and relay J9 of wireless receiving circuit finished product A7 is just
Pole power input and control power input connection, first 4 foot of output end and resistance R7 of wireless receiving circuit finished product A7
One end connection, the resistance R7 other end are connected with NPN triode Q2 base stage, NPN triode Q2 collector and relay J9 negative electricity
The connection of source input terminal, 3 foot of negative power supply input terminal of wireless receiving circuit finished product A7 are connected with NPN triode Q2 emitter, nothing
Line receives the volume of the coding of circuit finished product A9 in-line coding circuit and the wireless transmitting device A4 coding circuit of indoor monitoring mechanism
Code is consistent, and GPRS positioning device A8 model is EV02.Battery BG2 both ends of power connects with two of charging socket BCZ2 respectively
Line end connects through conducting wire and (external Charger (portable round) is facilitated to be inserted as battery BG2 charging), the one end key power switch ASK2
It is connected with battery BG2 anode through conducting wire.The input of the cathode power supply of the key power switch ASK2 other end and wireless receiving circuit A
End relay J9 cathode power supply input terminal is connected through conducting wire.The cathode power supply output end relay J9 of wireless receiving circuit A is normally opened
Tip side is connected with 1 foot of GPRS positioning device A8 cathode power supply input terminal through conducting wire, battery BG2 cathode and wireless receiving circuit
A negative power supply input terminal NPN triode Q2 emitter, GPRS positioning device A8 2 foot of negative power supply input terminal connected through conducting wire.
Shown in Fig. 4,5,6, key power switch SK(medical staff open, prevent patient from having key-off) open after,
The fire fog monitoring device of indoor monitoring mechanism, open the door control equipment, encryption device, the remote handset wireless controlled for mechanism of recording
Circuit A9 processed is in work once electrified state.After power switch SK1 is opened, the wireless receiving circuit A6 of monitor control mechanism is in obtain electrician
Make state.Key power switch ASK2(medical staff open, prevent patient from having key-off) open after, carry-on mechanism for monitoring
Wireless receiving circuit A(A7) it is in work once electrified state.In actual use, hospital side administrative staff can pass through mobile phone at any time
Or closure wireless instructions are launched in the effect of computer in house software, the remote handset radio control circuit A9 for mechanism of recording receives nothing
Its 3 foot meeting output cathode power supply enters recording module A10(with bulk storage card after line signal) cathode power supply input terminal 1
Foot, then, recording module A10 work once electrified in ward to recording, in this way, subsequent hospital management side uses computer as needed
Deng the data read in recording module A10, obtained recording data can provide data supporting for the state of an illness of analysis patient and (for example record
Sound prompts lather patient's a whole night, talks to onself, then it is possible that psychotic symptoms occurs in patient);Hospital's square tube reason
After personnel launch open circuit wireless instructions by mobile phone or the effect of computer in house software, the remote handset wireless control for mechanism of recording
Circuit A9, which receives its 3 foot after wireless signal, can stop output cathode power supply and enter recording module A10, and recording module A10 stops
Work can thus achieve the purpose that long-range control recording at any time.Physical signs mechanism for monitoring (there is WiFi to transmit patient body
The electronics bracelet finished product SH of pulse, blood pressure data, patient are worn over wrist portion) health monitoring, various numbers can be carried out to patient in real time
Hospital management side's PC machine is uploaded to according to through WiFi, network signal, the physical signs that hospital side obtains can be real-time through software in PC machine
Analyze the health condition of patient.
Shown in Fig. 4, in the fire fog monitoring device of indoor monitoring mechanism, when interior does not have fire, air-sensitive is visited
Resistance is larger between two measurement poles a, b of head T, and silicon-controlled VS control pole tension is lower than trigger voltage, and silicon-controlled VS is not turned on,
Wireless transmitting device A4 must not electricity transmitting wireless signal;When fire occurring at that time, resistance between two measurement poles of gas-sensing probe T
Become smaller, enters silicon-controlled VS control pole tension through adjustable resistance RP and be higher than trigger voltage, silicon-controlled VS conducting, and then relay J
Electric actuation is obtained, since relay J normally opened contact end is connected with wireless transmitting device A4 cathode power supply input terminal, and wireless transmission is set
Two contacts are connected through conducting wire in advance under first wireless transmission key K key of standby A4, so wireless transmitting device A4 meeting this moment
Electric it must launch the wireless closure signal of the first via.Open the door control equipment, in encryption device, when patient leaves ward without authorization, open
Door just walks out door, since two sets of optoelectronic switches are separately mounted to ward outer side of door left and right ends, and optoelectronic switch A5 is located at
Ward outdoors left side closer to outdoor corridor, optoelectronic switch A be located at ward outdoors on the right side of closer to indoor side (doorframe right end),
Two optoelectronic switch detecting heads are in dislocation and face surface state, so patient can first pass through the detecting head of optoelectronic switch A and temporary
The infrared light for blocking optoelectronic switch A to launch, under the effect of optoelectronic switch A internal circuit, 3 feet of optoelectronic switch A export high
Level enters relay J4 cathode power supply input terminal, and relay J4 obtains its control power input of electric actuation and normally opened contact end is closed
It closes, since relay J4 normally opened contact end is connected with wireless transmitting device A4 cathode power supply input terminal, wireless transmitting device A4's
Two contacts are connected through conducting wire in advance under first wireless transmission key K key, so this moment, wireless transmitting device A4 can obtain electric hair
Project the wireless closure signal of the first via (above situation is opened on the left of interior).
Fig. 4, shown in 5, in mechanism for monitoring: in actual work, mechanism for monitoring is located at nurse job platform, either a certain
Fire occurs for a ward or patient opens door without authorization and goes out ward, and wireless transmitting device A4 launches the wireless closure signal of the first via
Afterwards, wireless receiving circuit finished product A6 can receive wireless closure signal this moment, then, 4 feet of wireless receiving circuit finished product A6
High level is exported, high level enters NPN triode Q1 base stage through resistance R5 decompression current limliting, and NPN triode Q1 is connected, then relay
Device J10 obtains electric actuation, and it controls power input and normally opened contact end closure, since light emitting diode VL anode, buzzer B are just
Pole is connected with relay J10 normally opened contact end, so buzzer B can obtain the electric light emitting diode VL for making a sound and shining at this time
Nurse is prompted together, and fire occurs for some ward or patient opens the door leave without authorization.In actual operation, each ward has one
Indoor monitoring mechanism is covered, the wireless transmitting device A4 coding of every set indoor monitoring mechanism is inconsistent, and nurse place on duty there are more set nothings
Line receives circuit, and every set wireless receiving circuit corresponds to a set of wireless transmitting device A4 in a ward, then, a corresponding ward
Wireless transmitting device A4 launch wireless signal after, at nurse corresponding a set of wireless receiving circuit will receive it is corresponding all the way
Wireless signal, and then nurse is according to corresponding a set of wireless receiving circuit light emitting diode VL luminous situation (every light-emitting diodes
The front end of pipe is located at third subassembly wrapper outboard end, can mark different numbers, for example 101 just represent disease between Stall first
Room goes wrong, 203 just represent second floor third between ward go wrong) can intuitively know specifically which ward hair
It has given birth to fire or patient leaves, can be on the scene be disposed at the first time in this way.In practical application, several set wireless receiving electricity
Road, which can share a buzzer, can meet needs.In practical application, every set SF1500 wireless receiving circuit finished product has four
A output end, there are four emit key, therefore a set of wireless receiving circuit finished product for every set SF1500 wireless transmitting device finished product tool
Reception needs after can satisfy the SF1500 wireless transmitting device finished product transmitting wireless signal in four wards, this implementation is for table
State it is clear, only by the one of transmitting key of wireless transmitting device finished product, one of output end of wireless receiving circuit is wireless
Transmitting and reception signal do representative explanation, and (four transmitting keys difference of four ward SF1500 wireless transmitting device finished products is pre-
It first connects, the non-interfering wireless signal in four tunnels can be launched respectively, corresponding a set of wireless receiving circuit finished product at nurse
Four 4,5,6,7 feet of output end are connected with resistance respectively, so that it may realize that wireless receiving circuit finished product receives four wards and has
The four road wireless signals that the wireless receiving circuit finished product of identical coding is launched).
Fig. 4, shown in 6, in carry-on mechanism for monitoring: when patient opens door without authorization, wireless transmitting device A4 launches
All the way after wireless closure signal, wireless receiving circuit finished product A7 can be received in portable 4th subassembly wrapper of patient this moment
To wireless closure signal, then, 4 feet of wireless receiving circuit finished product A7 export high level, and high level is depressured current limliting through resistance R7
Into NPN triode Q2 base stage, NPN triode Q2 conducting, then relay J9, which is obtained, electric be attracted it and control power input and often
Tip side closure is opened, due to, relay J9 normally opened contact end is connected with GPRS positioning device A8 cathode power supply input terminal through conducting wire,
So after patient gos out, GPRS positioning device A8 can work once electrified always, issue positioning signal, hospital side or household can be timely
Patient is positioned by mobile phone etc., finds patient at the first time, patient is prevented to wander away (especially for the patient of phrenoblabia
Using more effective).
Shown in Fig. 4, in the enabling control equipment of indoor monitoring mechanism: in practical situations, nurse or Relatives of Patients Hospitalized
Etc. need at any time enter ward in;Before nurse through entering in ward outdoors, since optoelectronic switch A5 is located at ward left side outdoors
The infrared light that can first block optoelectronic switch A5 probed hair to project closer to outdoor corridor side, when nurse passes through, in photoelectricity
Under the effect of switch A5 internal circuit, 3 feet of optoelectronic switch A5 can export the cathode power supply input that high level is clocked into circuit A3
End and anode control power input, then, its 5 foot exports 3 seconds high level to timing circuit A3 under circuit function inside it
Into relay J8 cathode power supply input terminal, relay J8 obtains electric actuation, and it controls power input and the disconnection of normally-closed contact end,
Since relay J8 normally-closed contact end is connected with the cathode power supply input terminal of optoelectronic switch A, so photoelectricity is opened in 3 seconds
Close A will not work once electrified, then, wireless transmitting device finished product A4 will not work once electrified will not launch wireless signal, nurse
The wireless receiving circuit finished product A6 of place's mechanism for monitoring would not also receive signal and generate false alarm.When nurse or families of patients
Deng continuing to indoor walking, since optoelectronic switch A is in power failure state this moment, then wireless transmitting device finished product A4 is just not yet
It can work once electrified transmitting wireless signal.After 3 seconds, its 5 foot stops output to timing circuit A3 under circuit function inside it
High level enters relay J8 cathode power supply input terminal, and relay J8 power loss is no longer attracted it and controls power input and normally closed touching
Point end closure, then, work once electrified is that detection is ready next time to optoelectronic switch A again.In 3 seconds, people has enough
Time enters the room, so optoelectronic switch A work once electrified, wireless transmitting device finished product A4 launch there is no in 3 seconds
The problem of wireless signal.
Shown in Fig. 4, in the enabling control equipment and encryption device of indoor monitoring mechanism: in practical situations, Hu Shihuo
Person's Relatives of Patients Hospitalized etc. needs to walk out in ward (password of following encryption device only has nurse and families of patients to know) at any time;Work as shield
Before scholar will walk out in ward, microswitch S1(Self-resetting microswitch first is pressed with hand) after, then, the output of battery G anode
Power supply trigger silicon-controlled VS1 through resistance R1 and be connected, and then relay J1 is obtained and electric be attracted it and control power input and normally opened touching
Point end closure, 6V power supply enter relay J2 control power input through relay J1 control power input, normally opened contact end,
When pressing microswitch S4(Self-resetting microswitch) after, the power supply of battery G anode output triggers silicon-controlled VS2 through resistance R2
Conducting, and then relay J2 obtains its control power input of electric actuation and normally opened contact end closure, 6V power supply are controlled through relay J2
Power input processed, normally opened contact end enter relay J3 control power input, when pressing microswitch S9(Self-resetting fine motion
Switch) after, the power supply of battery G anode output triggers silicon-controlled VS3 through resistance R3 and is connected, and then relay J3 is obtained and electric is attracted it
Power input and normally opened contact end closure are controlled, 6V power supply enters through relay J3 control power input, normally opened contact end
1 foot of cathode power supply input terminal of timing circuit A2 and positive 3 foot of trigger signal input terminal, timing circuit A2 inside it make by circuit
The cathode power supply input terminal that 4 seconds high level enter relay J5, J6 is exported with its lower 5 foot, then, relay J5 obtains electric actuation
It controls power input and normally opened contact end closure, and relay J6 obtains electric actuation, and it controls power input and normally-closed contact end
It disconnects;Since relay J8 cathode power supply input terminal is connected with relay J5 normally opened contact end, so relay J5 obtains electric actuation
4 seconds in, relay J8 can obtain it is electric be attracted it and control power input and normally-closed contact end disconnect, due to control of opening the door
The cathode power supply input terminal of the optoelectronic switch A of control equipment is connected with relay J8 normally-closed contact end, so, in 4 seconds, shield
Before scholar and Relatives of Patients Hospitalized are gone out, wireless transmitting device finished product A4 will not launch wireless signal, then wireless receiving electricity at nurse
Road also would not false alarm, microswitch S1, S4, S9 above be actually formed password figure 149, and microswitch presses, pine
Its button can automatically reset so the problem of there is no leakage passwords after holding;After patient walks out ward 4 seconds, timing circuit A2
5 feet stop out-put supply, then, it controls power input and normally opened contact end and disconnects relay J5 power loss, relay J6
Its control power input of power loss and normally-closed contact end closure, and then its control power input of relay J8 power loss and normally closed touching
Point end closure, work once electrified is that next use is ready to optoelectronic switch A again;When relay J6 power loss, it controls power input
End and normally-closed contact end closure after, due to 1 foot of timing circuit A1 cathode power supply input terminal and anode control 3 foot of power input and
Relay J6 normally-closed contact end connection, so this moment, timing circuit A1 meeting its 5 foot of work once electrified output high level enters relay
J7 cathode power supply input terminal, then, relay J7 obtains electric actuation, and it controls power input and the disconnection of normally-closed contact end, due to,
The normally-closed contact end of relay J7 and the anode of silicon-controlled VS1, VS2, VS3, VS4 and relay J1, J13 control power input
End connection, so, moment that relay J7 obtains its control power input of electric actuation and normally-closed contact end disconnects, silicon-controlled VS1,
Anode and relay J1, J13 control the power input whole power loss of VS2, VS3, VS4 no longer work, while relay J1,
J2, J3, J5, J6, J13, timing circuit A2, A1 whole power loss also no longer work, and whole circuits return to original state to be made for next time
With being ready.If patient finds out ward, due to do not know password figure accidentally pressed microswitch S2, S3, S5, S6, S7,
Any one in S8, all causing 6V positive pole to trigger through resistance R4, silicon-controlled VS4 conducting, relay J13 obtains electric suction in turn
It closes it and controls power input and normally opened contact end closure, due to timing circuit A1 cathode power supply input terminal and anode control power supply
Input terminal is connected with relay J13 normally opened contact end, so this moment, timing circuit A1 can its 5 foot of work once electrified output high level
Into relay J7 cathode power supply input terminal, then, relay J7 obtains electric actuation, and it controls power input and normally-closed contact end
It disconnects, since the normally-closed contact end of relay J7 and the anode of silicon-controlled VS1, VS2, VS3, VS4 and relay J1, J13 are controlled
Power input connection processed, so, relay J7 obtains the electric moment for being attracted its control power input and the disconnection of normally-closed contact end,
Anode and relay J1, J13 control the power input whole power loss of silicon-controlled VS1, VS2, VS3, VS4 no longer work, together
When relay J1, J2, J3, J5, J6, J13, timing circuit A2, A1 whole power loss also no longer works, and whole circuits return to initial shape
State, if patient opens door this moment, since relay J8 is in power failure state, it controls power input and normally-closed contact end
Closure, optoelectronic switch A be in obtain electricity condition, then, wireless transmitting device finished product A4 will obtain it is electric launch wireless signal, in turn
Wireless receiving circuit can issue alarm signal after receiving signal at nurse, and nurse can arrive corresponding ward inquiry.By above-mentioned,
Patient does not have password figure, and when going out, nurse can know at the first time, simultaneously as nurse etc. have password figure, prevents
Wireless transmitting device finished product A4 mistakenly launches out wireless signal, and all circuits can be made to restPose automatically, and use is more square
Just.Practical password figure, can be with by changing the mode of connection of nine microswitches and the one end resistance R1, R2, R3 when manufacture
Form different passwords, for example, the 4th, the 7th, the 8th microswitch connected with the one end R1, R2, R3, then, new is close
Yardage word is exactly 478.
Shown in Fig. 4,5,6, resistance R, R1, R2, R3, R4, R5, R6, R7 resistance value be respectively 47 Ω, 500 Ω, 500 Ω, 500 Ω,
500Ω,1K,600Ω,1K.Silicon-controlled VS1, VS2, VS3, VS4 are the plastic packaging one-way SCRs of model MCR100-1.Relay
J, J1, J2, J3, J5, J13, J4, J8, J7, J10, J9 are DC4100 type 6V miniature relays.Battery G, G1, G2 are 6V lithiums
Battery.
Basic principles and main features and advantages of the present invention of the invention have been shown and described above, for this field skill
For art personnel, it is clear that the present invention is limited to the details of above-mentioned exemplary embodiment, and without departing substantially from spirit or base of the invention
In the case where eigen, the present invention can be realized in other specific forms.It therefore, in all respects, should all be by reality
Apply example and regard exemplary as, and be non-limiting, the scope of the present invention by appended claims rather than above description
It limits, it is intended that including all changes that fall within the meaning and scope of the equivalent elements of the claims in the present invention.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiments being understood that.
Claims (8)
1. a kind of patient administration system that medical department uses, it is characterised in that including indoor monitoring mechanism, mechanism for monitoring, physiology
Monitoring Indexes mechanism, recording mechanism, carry-on mechanism for monitoring, indoor monitoring mechanism include battery, key power switch, charge and insert
Seat, fire fog monitoring device, open the door control equipment, encryption device, wireless transmitting device, battery, fill key power switch
Electrical socket, fire fog monitoring device, open the door control equipment, wireless transmitting device are mounted on first circuit board, recorder
Structure includes remote handset radio control circuit and recording module, and radio control circuit and recording module are mounted on first circuit board
On, first circuit board is mounted in first subassembly wrapper and is connected by conducting wire, and first subassembly wrapper is mounted on the door of ward
Frame is located at indoor side, and encryption device is mounted on second circuit board, and second circuit board is mounted in second subassembly wrapper,
Second subassembly wrapper is mounted on the upper end of first subassembly wrapper, two terminals difference of both ends of power and charging socket of battery
It is connected through conducting wire, battery positive voltage is connected with key power switch one end through conducting wire, the key power switch other end and fire behavior cigarette
Mist monitoring device, encryption device cathode power supply input terminal connected respectively through conducting wire, the cathode power supply output end of encryption device and
The control equipment cathode power supply input terminal that opens the door is connected through conducting wire, the control equipment cathode power supply output end that opens the door, fire fog monitoring
Equipment cathode power supply output end is connected with wireless transmitting device cathode power supply input terminal through conducting wire, battery terminal negative and fire fog
Monitoring device, open the door control equipment, encryption device, wireless transmitting device negative power supply input terminal connected through conducting wire, key electricity
The source switch other end is connected with remote handset radio control circuit cathode power supply input terminal through conducting wire, remote handset wireless control electricity
Road cathode power supply output end is connected with the cathode power supply input terminal of recording module through conducting wire, and battery terminal negative and remote handset are wireless
Control circuit, recording module negative power supply input terminal connected through conducting wire, mechanism for monitoring include wireless receiving circuit and buzzer,
Light emitting diode, battery A, charging socket A, power switch, wireless receiving circuit and buzzer, light emitting diode, battery
A, on circuit boards, circuit board is mounted in third subassembly wrapper, third subassembly wrapper position for charging socket A, power switch installation
At nurse on duty, the both ends of power of battery A is connected through conducting wire respectively with two terminals of charging socket A, and battery A is just
Pole is connected with power switch one end through conducting wire, and the power switch other end and wireless receiving circuit cathode power supply input terminal connect through conducting wire
It connects, wireless receiving circuit cathode power supply output end is connected with the cathode power supply input terminal of buzzer, light emitting diode through conducting wire, is stored
The cathode of battery A is connected with the negative power supply input terminal of buzzer, light emitting diode cathode, wireless receiving circuit, physical signs
Mechanism for monitoring includes the electronics bracelet with WiFi signal transmission body pulse, blood pressure data, at electronics bracelet and nurse on duty
Computer through WIFI signal, network signal connect, carry-on mechanism for monitoring include battery B, charging socket B, key power switch A,
Wireless receiving circuit A, GPRS positioning device, battery B, charging socket B, key power switch A, wireless receiving circuit A, GPRS
Positioning device is mounted in the 4th subassembly wrapper, and there are two rectangle fixed card slot, two rectangular cards for the 4th subassembly wrapper rear side end
Slot covers on the belt of patient, and battery B-source both ends are connected with two terminals of charging socket B through conducting wire respectively, key
The one end power switch A is connected with battery B anode through conducting wire, the anode of key the power switch A other end and wireless receiving circuit A
Power input is connected through conducting wire, cathode power supply output end and GPRS positioning device the cathode power supply input of wireless receiving circuit A
End is connected through conducting wire, and the negative power supply input terminal of battery B cathode and wireless receiving circuit A, GPRS positioning device connects through conducting wire
It connects.
2. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that indoor monitoring machine
The fire fog monitoring device of structure includes gas-sensing probe, resistance, silicon-controlled, relay, is connected therebetween through circuit board wiring, air-sensitive
Probe model is QM-N5, the first measurement pole of air-sensitive fire acousto-optic alarm and resistance one end, silicon-controlled anode, power source for relay control
Input terminal connection, silicon-controlled cathode are connected with relay cathode power supply input terminal, the resistance other end and air-sensitive fire acousto-optic alarm anode
Power input connection, air-sensitive fire acousto-optic alarm second measure pole and connect with SCR control pole, air-sensitive fire acousto-optic alarm negative power supply
Input terminal is connected with relay negative power supply input terminal, is gone here and there between SCR control pole and the second measurement pole of air-sensitive fire acousto-optic alarm
It is associated with an adjustable resistance.
3. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that indoor monitoring machine
The enabling control equipment of structure includes two sets of optoelectronic switches, relay and timing circuit, is connected therebetween through circuit board wiring, photoelectricity is opened
Pass is reflective photoelectric switch, and timing circuit is timing delay switch circuit, is connected therebetween through circuit board wiring, second relay
Device normally-closed contact end is connected with 1 foot of first set optoelectronic switch cathode power supply input terminal, first power source for relay control input terminal,
3 foot of cathode power supply output end of first set optoelectronic switch and first relay cathode power supply input terminal connection, second set of photoelectricity
3 foot of cathode power supply output end of switch is connected with timing circuit cathode power supply input terminal and anode control power input, timing
Circuit anode power output end and second relay cathode power supply input terminal connection, the negative power supply input of the first optoelectronic switch
Hold 2 feet and first relay negative power supply input terminal, 2 foot of timing circuit negative power supply input terminal and cathode control power input
2 foot of negative power supply input terminal, the second relay negative power supply input terminal of 4 feet, second set of optoelectronic switch is held to connect, second set
1 foot of cathode power supply input terminal of optoelectronic switch and the 7th power source for relay control input terminal connection, two sets of optoelectronic switch difference
Be mounted on ward outer side of door left and right ends, second set of optoelectronic switch be located at ward outdoors left side closer to outdoor corridor, first set
Optoelectronic switch is located at ward, and right side is in dislocation and faces planar closer to indoor side, two optoelectronic switches and detecting head outdoors
State.
4. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that indoor monitoring machine
The encryption device of structure includes nine point dynamic formula normally opened contact microswitches, resistance, silicon-controlled, relay, timing circuit, is passed through therebetween
Circuit board wiring connection, timing circuit is timing delay switch circuit, and the 7th relay normally closed contact end and nine fine motions are opened
Close one end, first silicon-controlled anode, second silicon-controlled anode, third only silicon-controlled anode, the 4th silicon-controlled anode, the
One power source for relay control input terminal, the 4th power source for relay control input terminal, the 5th power source for relay control input
End connection, first, second, third only silicon-controlled cathode respectively with first, second, third relay cathode power supply
Input terminal is separately connected, wherein three microswitch other ends and first, second, third resistance one end be separately connected,
First, second, the third resistance other end and first, second, only silicon-controlled control electrode is separately connected third, in addition
Six microswitch other ends and the 4th resistance one end connection, the 4th resistance other end and the 4th silicon-controlled control electrode connect
Connect, the 4th silicon-controlled cathode and the connection of the 4th relay cathode power supply input terminal, first relay normally open contact end and
Second power source for relay control input terminal connection, second relay normally open contact end and third power source for relay control are defeated
Enter end connection, third relay normally open contact end is connected with the 6th power source for relay control input terminal, third relay
Normally opened contact end is connected with the cathode power supply input terminal of first set timing circuit and anode control power input, first set timing
The cathode power supply output end of circuit and the 5th, the 6th relay cathode power supply input terminal connection, the 6th relay are normally closed
Tip side, the cathode power supply input terminal at the 4th relay normally open contact end and second set of timing circuit and anode triggering power supply are defeated
Entering end connection, the cathode power supply output end of second set timing circuit and the 7th relay cathode power supply input terminal connect, and first
Only, second, third, the 4th, the 5th, the 6th, the 7th relay negative power supply input terminal and two sets of timing electricity
Road negative power supply input terminal and the connection of cathode trigger signal input terminal, nine microswitch operation buttons of encryption device distinguish position
In second subassembly wrapper outboard end.
5. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that indoor monitoring machine
The wireless transmitting device of structure is radio transmitter, and each ward is equipped with a set of indoor monitoring mechanism, each indoor room of disease
The coding circuit of interior mechanism for monitoring wireless transmitting device is inconsistent, prevents from covering the wireless signal phase that wireless transmitting device is launched more
Mutually interference.
6. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that mechanism of recording
Remote handset radio control circuit is remote wireless controller, and recording module is the recording module with USB interface.
7. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that mechanism for monitoring without
Line receives circuit and is also configured with resistance, relay, NPN triode, connects therebetween through circuit board wiring, wireless receiving circuit is just
Power input 1 foot in pole is connected with relay cathode power supply input terminal and control power input, and the first of wireless receiving circuit
A output end is connected with resistance one end, and the resistance other end is connected with NPN transistor base, NPN triode collector and relay
The connection of negative power supply input terminal, 3 foot of negative power supply input terminal of wireless receiving circuit are connected with NPN triode emitter, practical
In the case of, more set mechanism for monitoring, the wireless receiving circuit in-line codings electricity for covering mechanism for monitoring are installed more in third subassembly wrapper
Road coding is different, can receive the wireless signal that different wards are launched with the wireless transmitting device of different coding respectively.
8. the patient administration system that a kind of medical department according to claim 1 uses, it is characterised in that carry-on monitoring machine
The wireless receiving circuit A of structure is also configured with resistance, relay, NPN triode, the cathode power supply input terminal 1 of wireless receiving circuit
Foot is connected with relay cathode power supply input terminal and control power input, first output end and resistance of wireless receiving circuit
One end connection, the resistance other end are connected with NPN transistor base, NPN triode collector and relay negative power supply input terminal
Connection, the negative power supply input terminal of wireless receiving circuit are connected with NPN triode emitter, wireless receiving circuit in-line coding
The coding of circuit is consistent with the coding of wireless transmitting device coding circuit of indoor monitoring mechanism.
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CN113317791A (en) * | 2021-05-28 | 2021-08-31 | 温州康宁医院股份有限公司 | Method and device for determining severity of depression based on audio frequency of testee |
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