CN203872208U - Wireless sending device for postoperative pain degree quantification - Google Patents

Abstract

The utility model relates to the medical instrument technology field, and concretely provides a wireless sending device for postoperative pain degree quantification. The wireless sending device comprises a pain degree grading visual sense quantification panel and a printed circuit board. Two independent cells are arranged in the wireless sending device. A 3G module is arranged at the lower part of the right side of the printed circuit board. The 3G module is connected with one of the cells and is supplied with power independently. The other cell supplies power for non-3G module on the printed circuit board independently. A one-chip microcomputer is arranged in the middle part of the printed circuit board. A filtering capacitor is arranged around the one-chip microcomputer. A layer of shield metal mesh membrane is arranged on the printed circuit board. Compared with the prior art, the wireless sending device has the following advantages: facial expression scales form a pain assessment panel, which facilitates patients and medical care personnel to grade pain feel; a postoperative analgesia system is connected through a wireless or wired way and timely uploading of pain evaluation data is ensured; the wireless communication success rate is raised through control of the one-chip microcomputer.

Description

A kind of postoperative pain degree quantizes wireless base station apparatus

[technical field]

The utility model relates to technical field of medical instruments, specifically a kind of postoperative pain metrization wireless base station apparatus.

[background technology]

Postoperative pain is the Acute Pain that hand immediate postoperative occurs, clinical the most common and need the Acute Pain of emergency treatment most, as can not be fully controlled under initial condition, can develop into chronic ache, cause multiple short-term or long-term postoperative adverse effect, so Postoperative Analgesia After is more and more paid attention to by medical worker and patient, the evaluation of Postoperative Analgesia After and record also become the important process of health care worker.

Because pain is the caused unhappy sensation of tissue damage or potential tissue damage and emotional experience, patient sometimes cannot be objective and accurate statement out, the equipment that hospital also lacks quantify pain grade, evaluates postoperative analgesia and record in time, brings inconvenience to medical personnel's work.And the related data of assessing about postoperative pain, owing to cannot facilitating, recording timely and store, easily loses related data, impact is done in time, is effectively assessed patient's postoperative pain, also makes relevant scientific research lack Data support.Existing 3G communication success rate is not high, cannot ensure that success rate is more than 98%, and recipient often can't accept valid data, causes loss of data, and this is unallowed in medical industry, likely causes malpractice.

[utility model content]

The utility model is cannot understand in time in order to solve medical personnel in prior art the problem that the related data of pain degree and postoperative pain assessment is easily lost after corrective surgery, and a kind of postoperative pain metrization wireless base station apparatus is provided.

To achieve these goals, provide a kind of postoperative pain degree to quantize wireless base station apparatus, comprise pain degree classification vision quantification panel and printed circuit board (PCB), in described wireless base station apparatus, be provided with two joint independent batteries, the lower right side of printed circuit board (PCB) is provided with 3G module, described 3G module is connected with a batteries wherein, independently-powered, another batteries is that on printed circuit board (PCB), non-3G module is independently-powered, printed circuit board (PCB) middle part is provided with single-chip microcomputer, single-chip microcomputer periphery is provided with filter capacitor, and described printed circuit board (PCB) is provided with one deck shielded metal nethike embrane.

Described printed circuit board (PCB) comprises control circuit and wireless data transtation mission circuit.

Described pain degree classification vision quantification panel is provided with some evaluation buttons and push button for emergency call.

Described wireless base station apparatus is also provided with 232 communication interfaces.

The signal input part connecting emergency call key of described single-chip microcomputer and evaluation button, the signal output part of single-chip microcomputer connects 232 communication interfaces and wireless communication interface single-chip microcomputer deposits the information of the assignment key obtaining and evaluation button in memory, thereby single-chip microcomputer reads from memory, the data of storage are controlled 232 communication interfaces and wireless communication interface sends a signal to computer terminal.

Described control circuit structure is as follows: No. 3 pin paralleling switch S1 of single-chip microcomputer IC2, S5, S9, one end of S13, and one end of tap one end contact resistance R3, No. 4 pin paralleling switch S2 of single-chip microcomputer IC2, S6, S10, one end of S12, and one end of tap one end contact resistance R4, No. 15 pin paralleling switch S3 of single-chip microcomputer IC2, S7, S11, one end of S15, and one end of tap one end contact resistance 5, No. 16 pin paralleling switch S4 of single-chip microcomputer IC2, S8, S12, one end of S14, and one end of tap one end contact resistance R6, switch S 1, S2, S3, the parallel connection of the S4 other end accesses No. 2 pins of single-chip microcomputer IC2, switch S 5 afterwards, S6, S7, the parallel connection of the S8 other end accesses No. 1 pin of single-chip microcomputer IC2, switch S 9 afterwards, S10, S11, the parallel connection of the S12 other end accesses No. 18 pins of single-chip microcomputer IC2, switch S 13 afterwards, S14, S15, the parallel connection of the S16 other end accesses No. 17 pins of single-chip microcomputer IC2, resistance R 3 afterwards, R4, R5, the other end parallel connection of R6, and tap one end shunt capacitance C10, one end of tap capacitor C 10 connects one end of magnetic bead RT2, after the other end shunt capacitance C9 of magnetic bead RT2, access power supply, the magnetic bead RT3 that connects after No. 14 pin shunt capacitance C12 of single-chip microcomputer IC2, accesses power supply after the other end shunt capacitance C13 of magnetic bead RT3, after No. 9 pin series connection R2 of single-chip microcomputer IC2, access the base stage of triode Q2, the grounded emitter of triode Q2, after the collector electrode series diode D2 of triode Q2, access power supply, the two ends buzzer U1 in parallel of diode D2, the base stage of No. 11 pin connecting triode Q1 of single-chip microcomputer IC2, the grounded emitter of triode Q1, the emitter of the collector electrode connecting triode Q4 of triode Q1, the two ends parallel diode D3 of the collector electrode of triode Q1 and triode Q4, collector electrode tap one end of triode Q1 connects one end of capacitor C 11, the other end of capacitor C 11 connects the positive pole of diode D1, one end of the negative pole contact resistance R10 of diode D1, and tap one end connects No. 3 pins of serial ports of computers DB9, the cathode series resistance R1 of diode D1, the other end of resistance R 1 connects No. 2 pins of serial ports of computers DB9, and the collector electrode of tap one end connecting triode Q3, No. 8 port series resistance R8 of single-chip microcomputer IC2, the base stage of the other end connecting triode Q3 of resistance R 8, the collector electrode of No. 7 port connecting triode Q4 of single-chip microcomputer IC2, and tap one end series resistance R9 is to the emitter of triode Q3, triode Q3 tap one end shunt capacitance C8, parallel resistance R7 between the emitter of resistance R 9 and triode Q3, one end of tap capacitor C 8 connects one end of magnetic bead RT1, after the other end shunt capacitance C7 of magnetic bead RT1, access power supply, ground connection after No. 13 pin connecting valve S17 of single-chip microcomputer IC2, and tap one end connects No. 4 ports of ICD2 program burn writing port CON5, No. 12 pins of single-chip microcomputer IC2 connect No. 5 pins of ICD2 program burn writing port CON5, after No. 1 pin parallel resistance R18 of ICD2 program burn writing port CON5, access No. 4 pins of single-chip microcomputer IC2.

Described wireless data transtation mission circuit structure is as follows: No. 1 of single-chip microcomputer M1, No. 5, No. 7 pin series resistance R11 respectively, R12, R13, the other end of resistance R 11 connects No. 2 pins of SIM card interface K1, and tap one end connects one end of capacitor C 2, No. 3 pins of single-chip microcomputer M1 connect No. 6 pins of SIM card interface K1, and tap one end connects capacitor C 1, the other end of resistance R 12 connects No. 1 pin of SIM card interface K1, and tap one end connects one end of filter capacitor C3, the other end of resistance R 13 connects No. 4 pins of SIM card interface K1, and tap one end connects one end of filter capacitor C4, capacitor C 1, C2, C3, the other end parallel connection of C4 accesses No. 5 pins of SIM card interface K1 afterwards, ground connection after No. 35 pin series capacitance C6 of single-chip microcomputer M1, one end of No. 20 pin series resistance R14 of single-chip microcomputer M1, and the emitter of tap one end connecting triode Q5, the base stage contact resistance R16 of triode Q5, the other end shunt capacitance C14 of resistance R 14, one end of tap capacitor C 14 connects one end of magnetic bead RT4, after the other end shunt capacitance C11 of magnetic bead RT42, access power supply.

The utility model compared with the existing technology, has following advantage and disadvantage:

1, adopt many buttons, the pain evaluation panel being formed by facial expression scale, with multiple buttons and image picture facilitated sufferer and medical personnel to grade to pain perception;

2, can be connected with Postoperative Analgesia After system by wireless or wired mode, using wireless 3G-CDMA communication mode is main means of communication, use mobile communication network, guarantee pain measurement data are uploaded in time, make medical personnel make as soon as possible response to sufferer situation;

3, whole system is controlled by singlechip microprocessor, simultaneously by correct position in circuit, rationally adds the magnetic bead of suitable parameter, electric capacity, extend electric power of the present utility model cruising time, greatly improve radio communication success rate, improved anti-electromagnetic interference of the present utility model.

[brief description of the drawings]

Fig. 1 is pain degree classification vision quantification panel schematic diagram in the utility model;

Fig. 2 is rearview of the present utility model;

Fig. 3 is printed circuit board arrangement block diagram of the present utility model;

Fig. 4 is logic diagram of the present utility model;

Fig. 5 is control circuit schematic diagram of the present utility model;

Fig. 6 is wireless data transtation mission circuit schematic diagram of the present utility model;

In figure: 1. pain degree classification vision quantification panel 2. facial expression scale button 3. emergency call keies 4. are evaluated independent current source 12. shielded metal nethike embrane riveted holes 13. single-chip microcomputers of the non-3G module of button 5. side effect assessment button 6. battery compartment 7. battery cabin cap 8. communication interface 9. filter capacitor 10. independent current source 11.3G module for power supply;

Specify Fig. 3 as Figure of abstract of the present utility model.

[embodiment]

Below in conjunction with accompanying drawing, the utility model is described in further detail, and the structure of this device and principle are very clearly concerning this professional people.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Embodiment 1

As shown in Figure 1, after operation, according to self pain, impression is used the emergency call key 3 on panel 1 to patient, calls out in time medical personnel; Patient can select the pain evaluation panel being made up of different facial expression scales according to self pain degree: comprise six from smiling until the facial expression amount option of the difference expression of shedding tears, represent respectively 0 grade of painless, 2 grades of six press keys of pain, 4 grades of mild pain, 6 grades of obvious pain, 8 grades of severe pains, 10 grades of severe pains a little; Medical personnel can select calm amount assessment option, are respectively 1 point of unpeace, agitation, 2 points of quiet cooperations, 3 points drowsiness, can accept instruction, 4 points of sleep states but can wake up, 5 points of sleep states, slow in reacting, 6 points of sleep states, call the six press keys altogether of not waking up; And the side effect apparatus for evaluating being formed by pruitus, the retention of urine, nausea/vomiting, four buttons of numbness of lower limbs.

After sufferer and medical personnel's selection, by microprocessor by quantized data by wire transmission mode or wireless mode by pain Assessment data upload data terminal computer, facilitate medical personnel with reference to corresponding data, the postoperative pain situation of respective patient to be assessed, also can further study related data.Below respectively wire transmission and wireless transmission are further illustrated:

Wire transmission: after postoperative pain evaluator is connected by dedicated data line with computer terminal, the data that store can be read from holder by singlechip microprocessor, mode by 232 communication interfaces and computer terminal through wired connection, by data importing computer terminal preservation, substitute effectively reduction by 232 communication power consumption of 232 chips in order to extend the circuit working time by discrete circuit element.

Wireless transmission: the data that produce by evaluating button, by singlechip microprocessor immediately deposit in holder, again through singlechip microprocessor from holder reads, pass through wireless communication interface, through 3G-CDMA, WIFI, Bluetooth wireless transmission mode, immediately transfer data to the computer terminal that radio receiver is housed.

Embodiment 2

The utility model is by magnetic bead and the electric capacity composition LC filter circuit of suitable parameter in the wireless data transtation mission circuit in circuit; Ensure that at inner covering metal nethike embrane 3G-CDMA module and microprocessor do not carry out electromagnetic interference mutually, at non-wireless sending module periphery covering metal nethike embrane, and do grounding; 3G-CDMA wireless module and other elements are independently-powered respectively; Greatly improve radio communication success rate by above-mentioned technological means, improved anti-electromagnetic interference of the present utility model, data transmit-receive is not conflicted mutually.

The utility model substitutes 232 chips by discrete circuit element, effectively reduce by 232 communication power consumption, by correct position in control circuit, rationally add magnetic bead, the electric capacity of suitable parameter, extend electric power of the present utility model cruising time, use No. 5 batteries of 2 joints to replace conventional charged lithium cells, reduce use cost, saved the supporting charger originally needing, the utility model work is full after 3 months, and system will be sent short of electricity alarm and change No. 5 batteries of 2 joints.

Claims (7)

1. a postoperative pain degree quantizes wireless base station apparatus, comprise pain degree classification vision quantification panel and printed circuit board (PCB), it is characterized in that being provided with two joint independent batteries in described wireless base station apparatus, the lower right side of printed circuit board (PCB) is provided with 3G module, described 3G module is connected with a batteries wherein, independently-powered, another batteries is that on printed circuit board (PCB), non-3G module is independently-powered, printed circuit board (PCB) middle part is provided with single-chip microcomputer, single-chip microcomputer periphery is provided with filter capacitor, and described printed circuit board (PCB) is provided with one deck shielded metal nethike embrane.

2. a kind of postoperative pain degree as claimed in claim 1 quantizes wireless base station apparatus, it is characterized in that described printed circuit board (PCB) comprises control circuit and wireless data transtation mission circuit.

3. a kind of postoperative pain degree as claimed in claim 1 quantizes wireless base station apparatus, it is characterized in that described pain degree classification vision quantification panel is provided with some evaluation buttons and push button for emergency call.

4. a kind of postoperative pain degree as claimed in claim 1 quantizes wireless base station apparatus, it is characterized in that described wireless base station apparatus is also provided with 232 communication interfaces.

5. a kind of postoperative pain degree as claimed in claim 1 quantizes wireless base station apparatus, it is characterized in that the signal input part connecting emergency call key of described single-chip microcomputer and evaluate button, the signal output part of single-chip microcomputer connects 232 communication interfaces and wireless communication interface single-chip microcomputer deposits the information of the assignment key obtaining and evaluation button in memory, thereby single-chip microcomputer reads from memory, the data of storage are controlled 232 communication interfaces and wireless communication interface sends a signal to computer terminal.

6. a kind of postoperative pain degree as claimed in claim 2 quantizes wireless base station apparatus, it is characterized in that described control circuit structure is as follows: No. 3 pin paralleling switch S1 of single-chip microcomputer IC2, S5, S9, one end of S13, and one end of tap one end contact resistance R3, No. 4 pin paralleling switch S2 of single-chip microcomputer IC2, S6, S10, one end of S12, and one end of tap one end contact resistance R4, No. 15 pin paralleling switch S3 of single-chip microcomputer IC2, S7, S11, one end of S15, and one end of tap one end contact resistance 5, No. 16 pin paralleling switch S4 of single-chip microcomputer IC2, S8, S12, one end of S14, and one end of tap one end contact resistance R6, switch S 1, S2, S3, the parallel connection of the S4 other end accesses No. 2 pins of single-chip microcomputer IC2, switch S 5 afterwards, S6, S7, the parallel connection of the S8 other end accesses No. 1 pin of single-chip microcomputer IC2, switch S 9 afterwards, S10, S11, the parallel connection of the S12 other end accesses No. 18 pins of single-chip microcomputer IC2, switch S 13 afterwards, S14, S15, the parallel connection of the S16 other end accesses No. 17 pins of single-chip microcomputer IC2, resistance R 3 afterwards, R4, R5, the other end parallel connection of R6, and tap one end shunt capacitance C10, one end of tap capacitor C 10 connects one end of magnetic bead RT2, after the other end shunt capacitance C9 of magnetic bead RT2, access power supply, the magnetic bead RT3 that connects after No. 14 pin shunt capacitance C12 of single-chip microcomputer IC2, accesses power supply after the other end shunt capacitance C13 of magnetic bead RT3, after No. 9 pin series connection R2 of single-chip microcomputer IC2, access the base stage of triode Q2, the grounded emitter of triode Q2, after the collector electrode series diode D2 of triode Q2, access power supply, the two ends buzzer U1 in parallel of diode D2, the base stage of No. 11 pin connecting triode Q1 of single-chip microcomputer IC2, the grounded emitter of triode Q1, the emitter of the collector electrode connecting triode Q4 of triode Q1, the two ends parallel diode D3 of the collector electrode of triode Q1 and triode Q4, collector electrode tap one end of triode Q1 connects one end of capacitor C 11, the other end of capacitor C 11 connects the positive pole of diode D1, one end of the negative pole contact resistance R10 of diode D1, and tap one end connects No. 3 pins of serial ports of computers DB9, the cathode series resistance R1 of diode D1, the other end of resistance R 1 connects No. 2 pins of serial ports of computers DB9, and the collector electrode of tap one end connecting triode Q3, No. 8 port series resistance R8 of single-chip microcomputer IC2, the base stage of the other end connecting triode Q3 of resistance R 8, the collector electrode of No. 7 port connecting triode Q4 of single-chip microcomputer IC2, and tap one end series resistance R9 is to the emitter of triode Q3, triode Q3 tap one end shunt capacitance C8, parallel resistance R7 between the emitter of resistance R 9 and triode Q3, one end of tap capacitor C 8 connects one end of magnetic bead RT1, after the other end shunt capacitance C7 of magnetic bead RT1, access power supply, ground connection after No. 13 pin connecting valve S17 of single-chip microcomputer IC2, and tap one end connects No. 4 ports of ICD2 program burn writing port CON5, No. 12 pins of single-chip microcomputer IC2 connect No. 5 pins of ICD2 program burn writing port CON5, after No. 1 pin parallel resistance R18 of ICD2 program burn writing port CON5, access No. 4 pins of single-chip microcomputer IC2.

7. a kind of postoperative pain degree as claimed in claim 1 quantizes wireless base station apparatus, it is characterized in that described wireless data transtation mission circuit structure is as follows: No. 1 of wireless sending module M1, No. 5, No. 7 pin series resistance R11 respectively, R12, R13, the other end of resistance R 11 connects No. 2 pins of SIM card interface K1, and tap one end connects one end of capacitor C 2, No. 3 pins of wireless sending module M1 connect No. 6 pins of SIM card interface K1, and tap one end connects capacitor C 1, the other end of resistance R 12 connects No. 1 pin of SIM card interface K1, and tap one end connects one end of filter capacitor C3, the other end of resistance R 13 connects No. 4 pins of SIM card interface K1, and tap one end connects one end of filter capacitor C4, capacitor C 1, C2, C3, the other end parallel connection of C4 accesses No. 5 pins of SIM card interface K1 afterwards, ground connection after No. 35 pin series capacitance C6 of wireless sending module M1, one end of No. 20 pin series resistance R14 of wireless sending module M1, and the emitter of tap one end connecting triode Q5, the base stage contact resistance R16 of triode Q5, the other end shunt capacitance C14 of resistance R 14, one end of tap capacitor C 14 connects one end of magnetic bead RT4, after the other end shunt capacitance C11 of magnetic bead RT42, access power supply.