CN213092411U - Triage all-in-one machine - Google Patents

Abstract

A triage all-in-one machine comprises a triage all-in-one machine body, a switching power supply, a counter, a control circuit, a data receiving circuit and a data transmission mechanism; the counters are provided with a plurality of same sets, and the switching power supply, the counters, the control circuit and the data receiving circuit are arranged in the shell of the triage all-in-one machine body and are electrically connected; the data transmission mechanism is provided with a plurality of sets, each set of data transmission mechanism comprises a wireless transmitting circuit and a photoelectric detection sub-circuit, the plurality of sets of data transmission mechanisms share one set of stabilized voltage power supply, and the stabilized voltage power supply, the wireless transmitting circuit and the photoelectric detection sub-circuit are arranged in the element box and are electrically connected. Before this novel patient of seeing a doctor arranges a number, the accessible is watched the countdown digit that the corresponding counter of triage all-in-one body department shows to and the number that the hall of registering is queued, whether the selection continues to queue up to register, reduced and lined up for a long time but unable register after, the inconvenience of bringing for patient etc. and improved academy's management work efficiency. This novel application prospect that has.

Description

Triage all-in-one machine

Technical Field

The utility model relates to a hospital uses the auxiliary assembly field, especially a triage all-in-one.

Background

The triage all-in-one machine applied to the hospital generally comprises a touch display screen, a machine body, an internal circuit board and corresponding application software, and a patient can touch corresponding options through a display interface of the triage all-in-one machine, so that information of the hospital, a doctor and the like can be known, and help is provided for subsequent registration and diagnosis.

At present, when the hospital has a large number of patients who are queued for registration, and the number of the patients is large, the corresponding doctors of the corresponding departments do not have a number list under many conditions, particularly after the patients are queued in the hot departments, so that great inconvenience is brought to the patients. Based on the above, the triage all-in-one machine has the query function of a common triage all-in-one machine, can display the residual number list of a hot department in real time, and is particularly necessary for reducing the probability that patients cannot be registered after queuing.

SUMMERY OF THE UTILITY MODEL

In order to overcome current hospital and use triage all-in-one because of the structure limits, can't bring convenient drawback for patient's registration, the utility model provides a based on triage formula all-in-one body, the casing front end at triage formula all-in-one body has the individual quantity of the hot department registration that shows striking, and patient can be according to the number that concrete digit and registration hall were queued, selects whether to continue to queue up the registration, has reduced to queue up for a long time but unable registration after, the inconvenience of bringing for patient, and has improved a triage all-in-one of hospital management work efficiency.

The utility model provides a technical scheme that its technical problem adopted is:

a triage all-in-one machine comprises a triage all-in-one machine body, a switching power supply and a counter, and is characterized by also comprising a control circuit, a data receiving circuit and a data transmission mechanism; the counters are provided with a plurality of same sets, and the switching power supply, the counters, the control circuit and the data receiving circuit are arranged in the shell of the triage all-in-one machine body; the display screens of the counters are respectively positioned outside the front end of the shell; the power output end of the switching power supply is electrically connected with the power input ends of the counters, the control circuit and the data receiving circuit respectively; the multi-path signal output end of the data receiving circuit is electrically connected with the two contacts under the no-voltage trigger signal key of the plurality of sets of counters respectively, and the control signal end of the control circuit is electrically connected with the two contacts under the reset key of the plurality of sets of counters respectively; the data transmission mechanism is provided with a plurality of sets, each set of data transmission mechanism comprises a wireless transmitting circuit and a photoelectric detection sub-circuit, the plurality of sets of data transmission mechanisms share one set of stabilized voltage power supply, and the stabilized voltage power supply, the wireless transmitting circuit and the photoelectric detection sub-circuit are arranged in an element box; the power output ends of the photoelectric detection sub-circuits of the multiple sets of data transmission mechanisms are electrically connected with the power input end of the wireless transmitting circuit.

Further, the data transmission mechanism and the counter are consistent in number.

Further, the switching power supply is an alternating current to direct current switching power supply module.

Furthermore, the control circuit comprises a photoresistor, an NPN triode and a relay which are electrically connected, one end of the photoresistor is connected with the input end of the positive power supply of the relay, the other end of the photoresistor is connected with the base electrode of the NPN triode, and the collector electrode of the NPN triode is connected with the input end of the negative power supply of the relay.

Furthermore, the wireless transmitting circuit of each set of data transmission mechanism is a finished product of a wireless transmitting circuit module; and the two lower contacts of one wireless transmitting key of the wireless transmitting circuit module are connected together.

Furthermore, each set of data transmission mechanism's photoelectric detection sub-circuit includes photoelectric detection switch, relay, and photoelectric detection switch's positive power output, negative pole power input and relay power input both ends are electric connection respectively, and photoelectric switch's positive power input and relay control power input are connected.

Furthermore, the data receiving circuit comprises a wireless receiving circuit module, resistors, NPN triodes and relays, wherein the wireless receiving circuit module is electrically connected with the resistors, the positive power input end of the wireless receiving circuit module is connected with the positive power input ends of the four relays, four output ends of the wireless receiving circuit module are respectively connected with one ends of the four resistors, the other ends of the four resistors are respectively connected with bases of the four NPN triodes, collectors of the four NPN triodes are connected with the negative power input ends of the four relays, and the negative power input end of the wireless receiving circuit module is connected with emitting electrodes of the four NPN triodes.

The utility model has the advantages that: before the novel counter is used, technical staff preset the countdown specific numbers of a plurality of counters according to the daily specific clinic visits of doctors in a plurality of hot departments of a hospital respectively. After a patient sees a doctor and hangs a corresponding number of a hot department doctor, the registration personnel of the hospital can conveniently make the non-contact finger part be close to the detection range of the detection head of the photoelectric detection switch, so the wireless transmitting circuit module can transmit a wireless closed signal once, and after the wireless receiving circuit module receives the signal, the corresponding counter is controlled to subtract a total countdown number, so that before the patient is seen to be manually arranged, the patient can continue to be lined up and registered by watching the countdown number (such as the number display 20, which means the registration amount of 20 patients in the same day of the corresponding department doctor) displayed by the corresponding counter at the division and diagnosis integrated machine body, and the number of people queued in the registration hall, thereby reducing the inconvenience brought to the patient and the like due to the fact that the patient cannot be lined up for a long time, and improving the work efficiency of management of the hospital. Based on the above, this is novel has good application prospect.

Drawings

The invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 and 3 are circuit diagrams of the present invention.

Detailed Description

As shown in fig. 1, a triage integrative machine comprises a triage integrative machine body 1, a switching power supply 2, a counter 3, a control circuit 4, a data receiving circuit 5 and a data transmission mechanism 6; the counters 3 are provided with four same sets, and the switching power supply 2, the counters 3, the control circuit 4 and the data receiving circuit 5 are arranged at the upper end in the shell of the triage all-in-one machine body 1; the display screens of the four sets of counters 3 are positioned outside the four openings 101 at the front end of the shell, and registration prompt information characters 102 of corresponding hot departments of the hospital are marked on the shell positioned at the lower end of each opening 101; the data transmission mechanism 6 is provided with four sets, each set of data transmission mechanism comprises a stabilized voltage power supply 61, a wireless transmitting circuit 62 and a photoelectric detection sub-circuit 63, the stabilized voltage power supplies 61, the wireless transmitting circuit 62 and the photoelectric detection sub-circuit 63 of the four sets of data transmission mechanisms are arranged on a circuit board in a component box 64 and are connected through a lead (a plurality of sets of data transmission mechanisms share one set of stabilized voltage power supply 61), and the component box is arranged on a table of a registration personnel working table of a hospital registration hall. The data transmission means 6 and the counter 3 are in agreement.

As shown in fig. 1, 2 and 3, the switching power supply a1 is a finished product of a 220V/12V/200W switching power supply module converting ac 220V to dc12V, and has two power input terminals 1 and 2 pins, two power output terminals 3 and 4 pins, and an output power of 200W. Counters A3, A4, A5 and A6 are finished counters with brand blue and green pine alarm output, a display screen is arranged at the upper part of the front end of a shell of the counters, a clear key, a left shift key, a right shift key, a set key and a reset key are further arranged, the finished counters have a countdown alarm function, the display screen can display set countdown numbers after being electrified, technicians can set the specific numbers of the countdown total number by operating a plurality of keys respectively after being electrified, the finished counters A3, A4, A5 and A6 respectively have a non-voltage trigger signal key S and a reset key T, the counter is in a mode that the counter A3, A4, A5 and A6 count down once respectively after the two contacts of the non-voltage trigger signal key S are closed once, the counter is in a mode that the countdown total number of the counter A3, A4, A5 and A6 are reset again in the last-set countdown total number specific mode after the reset key T is pressed, the counters A3, A4, A5 and A6 are, A6 has a memory function, and if the setting is not reset by a plurality of keys, the data set last time will not be lost due to power failure. The control circuit comprises a photoresistor RL, an NPN triode Q5 and a relay K5 which are connected through a circuit board in a wiring mode, a light receiving surface of the photoresistor RL (41) is located at the outer end of the front middle portion of the shell of the triage all-in-one machine body 1, one end of the photoresistor RL is connected with the positive power supply input end of the relay K5, the other end of the photoresistor RL is connected with the base of the NPN triode Q5, and the collector of the NPN triode Q5 is connected with the negative power supply. The data receiving circuit comprises a wireless receiving circuit module A2, resistors R, R1, R2, R3, NPN triodes Q, Q1, Q2, Q3, relays K, K1, K2, K3, a wireless receiving circuit module A2, resistors R, R1, R2, R3, NPN triodes Q, Q1, Q2, Q3, relays K, K1, K2, K3, which are arranged on a circuit board in the housing of the division diagnosis all-in-one machine body 1 and connected by leads, a wireless receiving circuit module A2 positive power supply input end 1 pin, four relays K, K1, K2, K3 positive power supply input end, four output ends 3, 4, 5, 6 pins of the wireless receiving circuit module A2, four resistors R, R1, one ends of R R, R1, one ends of the four NPN triodes R, R1, a base electrodes of Q R, R1, four collectors R, R1, four NPN triodes R, R1, four collector electrodes of the NPN triodes R, R1, four NPN R, R1 and four collectors of the NPN relay R, R1, The negative power input ends of K1, K2 and K3 are respectively connected, and the negative power input end of the wireless receiving circuit module A2 is connected with the emitters of four NPN triodes Q, Q1, Q2 and Q3; the wireless receiving circuit module A2 is a finished product of a wireless receiving circuit module of model SF2000, the wireless receiving circuit module A2 is provided with a coding circuit, the wireless receiving circuit modules of the same model and different sets of numbers can be prevented from receiving wireless signals to interfere with each other through coding of the coding circuit, the coding circuits of the wireless receiving circuit module A2 and the wireless transmitting circuit module A9 are consistent (every four sets of the wireless transmitting circuit modules A9 and one set of the wireless receiving circuit modules A2 are consistent in coding, and in other multiple sets of the wireless transmitting circuit modules A9 and the wireless receiving circuit module A2, the coding circuits of every four sets of the wireless transmitting circuit modules A9 and one set of the wireless receiving circuit modules A2 are consistent).

As shown in fig. 1, 2 and 3, pins 1 and 2 of a power input end of a switching power supply a1 and two poles of an alternating current 220V power supply are respectively connected through leads, pins 3 and 4 of a power output end of a switching power supply a1 and pins 1 and 2 of two ends of power input ends of four sets of counters A3, a4, a5 and a6 are respectively connected through leads, one end of a photoresistor RL at two ends of the power input end of a control circuit and an emitter of an NPN triode Q5, and pins 1 and 2 of a wireless receiving circuit module a2 at two ends of the power input end of a data receiving circuit are respectively connected; the control contact ends and the normally open contact ends of four paths of signal output end relays K, K1, K2 and K3 of the data receiving circuit are respectively connected with two contacts (a no-voltage signal trigger port S) under a no-voltage trigger signal key S of four sets of counters A3, A4, A5 and A6 through leads, and the control signal end relay K5 of the control circuit is connected with the control contact end and the normally closed contact end of the control circuit and two contacts under a reset key T of the four sets of counters A3, A4, A5 and A6 through leads.

As shown in fig. 1, 2 and 3, the regulated power supply is a switch power supply module finished product of a7 model 220V/5V/200W, which is capable of converting 220V ac to 5V dc, and has two power input terminals 1 and 2 pins, two power output terminals 3 and 4 pins, and an output power of 200W. The wireless transmitting circuit A9 of each set of data transmission mechanism is a finished wireless transmitting circuit module product of SF2000 type, the wireless transmitting circuit module A9 is provided with a coding circuit, wireless transmitting signals of wireless transmitting circuit modules of the same type and different numbers can be prevented from interfering with each other by coding of the coding circuit, and the finished wireless transmitting circuit module A9 is provided with four wireless transmitting keys S1, S2, S3 and S4 which can respectively send four different wireless signals after being pressed down; the lower two contacts of the first wireless transmitting key S1 of the wireless transmitting circuit module A9 are connected together in advance through wires (the lower two contacts of the second, third and fourth wireless transmitting keys S2, S3 and S4 of the wireless transmitting circuit module A9 corresponding to the other three popular department doctors are connected together in advance through wires). The photoelectric detection sub-circuit of each set of data transmission mechanism comprises a photoelectric detection switch A8 and a relay K4, wherein the 3 pin of the positive power output end of the photoelectric detection switch A8, the 2 pin of the negative power input end of the photoelectric detection switch A8 and the two ends of the power input end of the relay K4 are respectively and electrically connected, and the 1 pin of the positive power input end of the photoelectric detection switch A8 is connected with the control power input end of the relay K4; the photoelectric detection switch A8 is a finished product of photoelectric switch of model E18-D80NK, and has two power input ends 1 and 2 pins and a power output end 3 pin, when in use, the front end of the detection head emits hair to output infrared beams, the infrared beams are blocked and reflected by objects within 80 cm, the receiving head at the detection head receives the rear power output end and outputs high level, the rear end of the shell is internally provided with an adjusting knob, the detection distance is shortened after the knob is adjusted leftwards, and the detection distance is lengthened after the existing adjustment (the detection distance is 5 cm after the adjustment). The power input ends 1 and 2 of a stabilized voltage power supply A7 and two poles of an alternating current 220V power supply are respectively connected through leads, the two ends 3 and 4 of the power output of a stabilized voltage power supply A1 and the two ends 1 and 2 of a photoelectric detection switch A8 at the two ends of the power input of four sets of photoelectric detection sub-circuits are respectively connected through leads, and the power output end relay K4 normally open contact end and the negative power input end of the four sets of photoelectric detection sub-circuits and the power input ends 1 and 2 of the four sets of wireless transmitting circuit modules A9 are respectively connected through leads. The front ends of the detection heads of the four sets of photoelectric detection switches A8 are respectively positioned outside the four openings at the front end of the element box 64 at certain intervals (3 cm).

As shown in fig. 1, 2 and 3, before the novel medical counter is used, a technician sets four counter A3, A4, A5 and A6 countdown specific numbers (such as 50) in advance according to the specific daily visit amount of doctors in four hot departments of a hospital respectively. After a 220V alternating current power supply enters two power supply input ends of a switching power supply module A1, a switching power supply module A1 outputs a stable 12V power supply under the action of an internal circuit of the switching power supply module A1, a counter A3, A4, A5 and A6 and two power supply input ends of a data receiving circuit, so that the circuits are in a power-on working state. After the 220V ac power supply enters the two power input ends of the switching power supply module a7, the switching power supply module a7 outputs a stable 5V power supply under the action of its internal circuit through pins 3 and 4, and then the 5V power supply enters the two power input ends of the four sets of photoelectric detection switches A8, so that the four sets of photoelectric detection switches A8 are in a power-on working state. In practical use, after a patient is looked at and hangs a corresponding number of a doctor in a hot department in a registration hall, a registration staff in a hospital can conveniently enable non-contact fingers to approach the front of a detection head of a corresponding photoelectric detection switch A8 within 5 cm, so that the 3 feet of the photoelectric detection switch A8 can output high level to enter the positive power input end of a relay K4 under the action of the internal circuit of the photoelectric detection switch A8, the relay K4 is powered on and closed to control the power input end and the normally open contact end, and as the two contacts of a first wireless transmission key S1 of a corresponding set of wireless transmission circuit module A9 are connected together in advance through a conducting wire (the positive power input end of the corresponding set of wireless transmission circuit module A9 is connected with the normally open contact end of the relay K4), the wireless transmission circuit module A9 can emit a first path of wireless closing signal (the second wireless transmission circuit module A9, the corresponding to other three doctors, the lower two contacts of the third wireless transmitting key S2, the lower two contacts of the fourth wireless transmitting key S3 and the lower two contacts of the fourth wireless transmitting key S4 are connected together in advance through a conducting wire, so that the numbers of other three doctors in the popular department are hung in a registration hall for a patient to see a doctor, and after a registration staff in a hospital conveniently approaches a detection head of a corresponding photoelectric detection switch A8 within 5 cm of the non-contact type hand finger part, the wireless transmitting circuit module A9 can respectively transmit a second wireless closing signal, a third wireless closing signal and a fourth wireless closing signal.

As shown in fig. 1, 2 and 3, when a patient looks at a registration hall to hang the number of a corresponding hot department doctor, four sets of wireless transmitting circuit modules a9 in the registration hall respectively transmit a first path wireless closing signal, a second path wireless closing signal, a third path wireless closing signal and a fourth path wireless closing signal, and after a wireless receiving circuit module a2 respectively receives the four paths wireless closing signals, pins 4, 5, 6 and 7 respectively output high levels, and the high levels are subjected to voltage reduction and current limitation through resistors R, R1, R2 and R3 and enter bases of NPN triodes Q, Q1, Q2 and Q3, so that the NPN triodes Q, Q1, Q2 and Q3 are respectively conducted to enter negative power input ends of relays K, K1, K2 and K3, and the relays K, K1, K2 and K3 are respectively powered to attract control contact ends and normally open contact ends thereof to be respectively closed. Because the relay K, K1, the relay 2 and the relay 3 control the contact end and the normally open contact end and the two contacts under the no-voltage trigger signal key S of the four sets of counters A3, A4, A5 and A6 (at this time, the two contacts under the no-voltage trigger signal key S of the four sets of counters A3, A4, A5 and A6 are respectively communicated) are respectively connected through the lead, after a corresponding patient registers, the countdown number displayed by the counters corresponding to the four thermal department doctors at the front upper end of the triage all-in-one machine body 1 is decreased once (for example, 50 is changed into 49). No patient is registered, the finger part of a registration worker does not approach the front of a detection head of a corresponding photoelectric detection switch A8, a wireless transmitting circuit module A9 does not transmit a wireless closing signal, then the relays K, K1, K2 and K3 are attracted because of no power, and the lower contacts of the voltage-free trigger signal keys S of the counters A3, A4, A5 and A6 are not closed, so that the count-down numbers displayed by the counters corresponding to four doctors in the hot department cannot be decremented. Through the combined action of the parts and the circuits, before the patients are subjected to the treatment, the counter numbers (such as the number display 20, the number of the registered patients is 20 on the same day) displayed by the corresponding counter at the division integrated machine body 1 and the number of the people queued in the registration hall can be watched, whether the patients are queued for registration or not is selected, the inconvenience caused by the patients and the like caused by the fact that the patients cannot be registered after being queued for a long time is reduced, and the work efficiency of the hospital management is improved.

As shown in fig. 1, 2 and 3, after the control circuit is powered on to work, when light of a hall just bright (in the daytime) in the morning is sufficient, the light receiving surface of the photosensitive resistor RL is high in light receiving illumination and small in resistance value of about 100K, so that the positive pole of a 12V power supply is subjected to voltage reduction and current limitation by the photosensitive resistor RL and then enters an NPN triode Q5, the base voltage of the NPN triode Q5 is higher than 0.7V, the NPN triode Q5 is connected with a collector to output low level and enters the negative power input end of a relay K5, and the relay K5 is powered on to attract the control contact end and the normally. Because the relay K5 controls the power input end, the normally closed contact end and the two contacts below the reset key T of the four sets of counters A3, A4, A5 and A6 to be connected through the conducting wires respectively, the two contacts below the reset key T of the counters A3, A4, A5 and A6 cannot be communicated when the counter is on the morning. After work, the light in the registration hall is turned off, the light receiving surface of the photoresistor RL is illuminated with light and has small illumination intensity, and the resistance is larger than about 10M, so that the voltage of the base electrode of the NPN triode Q5 is far lower than 0.7V after the positive electrode of the 12V power supply is subjected to voltage reduction and current limitation by the photoresistor RL, the cut collector electrode of the NPN triode Q5 does not output low level any more and enters the input end of the negative power supply of the relay K5, and the relay K5 is not electrified any more and attracts the control contact end and the normally. Because the relay K5 controls the contact end, the normally closed contact end and two contacts under the reset key T of the four sets of counters A3, A4, A5 and A6 to be connected through the conducting wires respectively, at this time, the two contacts under the reset key T of the four sets of counters A3, A4, A5 and A6 are communicated respectively, so that at night every day, under the action of the internal circuits of the counters A3, A4, A5 and A6, after the two contacts under the reset key T are communicated respectively, the counters A3, A4, A5 and A6 are reset to the last set count-down specific number decrement mode (for example, the counters A3, A4, A5 and A6 recover to the set count-down specific number 50) to prepare for the next day of patient registration. In this is novel, if the hall of registering has light evening, then install the photosensitive resistor in the region that the downside does not receive illumination influence as far as possible behind the triage all-in-one body 1 upper end, like this, when guaranteeing evening, relay K5 is in the power-off state. It should be noted that, in the embodiment, for explaining the working principle and the using effect of the present invention, a representative explanation is mainly made for the working principle and the using effect of one counter, the control circuit, the data receiving circuit, the data transmission mechanism, etc. corresponding to a doctor in a department, in an actual situation, the user may adopt more sets of counters, control circuits, data receiving circuits, data transmission mechanisms to be used with multiple consulting rooms in accordance with the above working principle, the codes of the wireless transmitting circuit modules a9 in every four consulting rooms are consistent, the wireless transmitting circuit module a9 in every four consulting rooms is used with the wireless receiving circuit module a2 having the same coded data receiving circuit, and is used with four sets of counters in a matching manner, so that the remaining number of registered numbers of doctors in more departments can be displayed as required. In the circuit, the resistances of the resistors R, R1, R2 and R3 are 500 Ω. The model numbers of the NPN triodes Q, Q1, Q2, Q3 and Q5 are 9013. The photoresistor RL is model MD 45. Relays K, K1, K2, K3, K5 are DC12V relays. Relay K4 is a DC5V relay.

The basic principles and essential features of the invention and the advantages of the invention have been shown and described above, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but rather can be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, the embodiments do not include only one independent technical solution, and such description is only for clarity, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims (7)

1. A triage all-in-one machine comprises a triage all-in-one machine body, a switching power supply and a counter, and is characterized by also comprising a control circuit, a data receiving circuit and a data transmission mechanism; the counters are provided with a plurality of same sets, and the switching power supply, the counters, the control circuit and the data receiving circuit are arranged in the shell of the triage all-in-one machine body; the display screens of the counters are respectively positioned outside the front end of the shell; the power output end of the switching power supply is electrically connected with the power input ends of the counters, the control circuit and the data receiving circuit respectively; the multi-path signal output end of the data receiving circuit is electrically connected with the two contacts under the no-voltage trigger signal key of the plurality of sets of counters respectively, and the control signal end of the control circuit is electrically connected with the two contacts under the reset key of the plurality of sets of counters respectively; the data transmission mechanism is provided with a plurality of sets, each set of data transmission mechanism comprises a wireless transmitting circuit and a photoelectric detection sub-circuit, the plurality of sets of data transmission mechanisms share one set of stabilized voltage power supply, and the stabilized voltage power supply, the wireless transmitting circuit and the photoelectric detection sub-circuit are arranged in an element box; the power output ends of the photoelectric detection sub-circuits of the multiple sets of data transmission mechanisms are electrically connected with the power input end of the wireless transmitting circuit.

2. The all-in-one machine for triage according to claim 1, wherein the number of the data transmission mechanism and the number of the counter are the same.

3. The all-in-one machine for triage according to claim 1, wherein the switching power supply is an ac to dc switching power supply module.

4. The machine of claim 1, wherein the control circuit comprises a photo resistor, an NPN transistor, and a relay, electrically connected to each other, one end of the photo resistor being connected to the positive power input of the relay, the other end of the photo resistor being connected to the base of the NPN transistor, and the collector of the NPN transistor being connected to the negative power input of the relay.

5. The all-in-one machine for triage according to claim 1, wherein the wireless transmitting circuit of each set of data transmission mechanism is a finished wireless transmitting circuit module; and the two lower contacts of one wireless transmitting key of the wireless transmitting circuit module are connected together.

6. The machine of claim 1, wherein the photoelectric detection sub-circuit of each data transmission mechanism comprises a photoelectric detection switch and a relay, the positive power output terminal, the negative power input terminal and the relay power input terminal of the photoelectric detection switch are electrically connected, and the positive power input terminal of the photoelectric switch is connected with the relay control power input terminal.

7. The machine of claim 1, wherein the data receiving circuit comprises a wireless receiving circuit module, resistors, NPN triodes and relays, which are electrically connected with each other, a positive power input end of the wireless receiving circuit module is connected with positive power input ends of the four relays, four output ends of the wireless receiving circuit module are respectively connected with one ends of the four resistors, the other ends of the four resistors are respectively connected with bases of the four NPN triodes, collectors of the four NPN triodes are connected with negative power input ends of the four relays, and a negative power input end of the wireless receiving circuit module is connected with emitters of the four NPN triodes.

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