CN212575391U - Remote control artificial intelligence analgesia pump device - Google Patents

Abstract

The utility model relates to a remote control artificial intelligence analgesia pump device, which comprises a wireless communication end, a patient operation end and a medical care operation end, wherein the patient operation end and the medical care operation end exchange information through the wireless communication end; a medical care operation end can control a plurality of patient operation ends, alleviate the not enough problem of anesthesia branch of academic or vocational study personnel, and it is more nimble to add manual handling, improve the security, anesthesia branch of academic or vocational study doctor can long-rangely follow-up and control a plurality of patient's the condition, carry out remote control to the analgesia pump, reduce and rush, and handle patient's analgesia pump problem rapidly, patient latency and misery have been reduced, also be favorable to medical personnel in time to know the pump behavior of analgesia simultaneously. The patient and the medical care communicate with each other in real time in a voice or video mode, are more diversified and humanized, regularly carry out remote questionnaire feedback on the analgesia condition of the patient, are convenient to call, and realize individualized analgesia.

Description

Remote control artificial intelligence analgesia pump device

Technical Field

The utility model belongs to the technical field of medical equipment, especially, relate to a remote control artificial intelligence analgesia pump device.

Background

An analgesia pump is a device that can continuously infuse liquid and can maintain a steady concentration of drug in the blood to achieve better analgesia therapy with less drug. Patients are generally allowed to self-press to add an additional infusion dose on a continuous infusion volume basis, so that the treatment is more individualized, in line with the characteristic that pain feels individually different, since the analgesic pump is mainly applied to postoperative acute analgesia and puerperal childbirth analgesia; besides, opioid strong analgesic drugs are often added into the analgesic pump, the life-threatening complications such as respiratory depression of patients can be caused by improper dosage application of the drugs, and most of domestic hospitals are mainly made up and managed by anesthesia specialists.

However, in reality, patients with pumps are distributed in a large number and dispersedly, pain relieving requirements of patients in different time periods after operation are different, the anesthesia department cannot arrange one worker for individually regulating and controlling the pain relieving pump in each surgical department due to insufficient personnel allocation, cost and other factors, continuous pumping with the unique speed in the whole process easily causes severe pain of part of patients due to insufficient pain relieving, and adverse reactions of nausea, vomiting, sleepiness, urine retention, numbness of lower limbs, skin itch and the like of part of patients due to excessive pain relieving, so that the pain relieving effect and the comfort feeling of the patients are influenced practically. In addition, the electronic control analgesia pump used in clinic at present is usually suspended due to mechanical alarms such as blockage and insufficient electric quantity, and the current solution in clinic is to send electricity to an anesthesia department doctor by a ward nurse, diagnose the reason of the mechanical alarm of the analgesia pump after the anesthesia doctor arrives at a ward, and then start the operation of the analgesia pump. The period of time may elapse from the patient reflecting the analgesia pump alarm problem to the nurse calling and to the anesthesiologist arriving at the ward, and the treatment of the analgesia pump alarm sometimes requires only a restart to resolve the problem. It is precisely because the anesthesiologist and the patient/family members cannot be in contact in time and provide reliable remote guidance, which undoubtedly increases the time that the patient suffers pain and also increases the labor cost for the anesthesiologist to manage the analgesia pump.

Patent 201510203314.6 describes an analgesic pump control method for realizing intelligent infusion. The processor timely evaluates abnormal signals and automatically regulates and controls the motor to stop the analgesic pump or reduce the infusion speed so as to reduce the risk caused by excessive drug infusion of the analgesic pump by judging feedback information of the detection module. The patent reduces the malignant risk caused by the excessive analgesia of the analgesia pump to a certain extent, but the patent still lacks the monitoring and management of a professional anaesthetist on the abnormal condition of a patient, and the safety needs to be concerned. In addition, the pain-relieving insufficiency of the patient is not regarded as "and the individualized pain-relieving can not be realized in the true sense.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a remote control artificial intelligence analgesia pump device has mainly solved among the prior art machine control death plate, but automatic handling capacity is poor, anesthesia branch of academic or vocational study personnel are equipped with not enough, the not enough scheduling problem of patient's individuation degree of easing pain.

In order to solve the problem, the utility model adopts the following technical scheme:

a remote control artificial intelligence analgesia pump device comprises a wireless communication end, a patient operation end and a medical care operation end, wherein the patient operation end and the medical care operation end exchange information through the wireless communication end;

a first display module, a first control module, a first signal receiving module and the first signal transmitting module are arranged in the patient operating end,

the first control module is respectively connected with the first display module, the first signal receiving module and the first signal transmitting module,

the first signal receiving module receives the signal of the wireless communication terminal,

the first signal transmitting module transmits a signal to the wireless communication terminal;

the patient operation end is internally provided with a self-control analgesia pump module, a calling module and a communication module,

the self-control analgesia pump module, the calling module and the communication module are all connected with the first control module,

the self-control analgesia pump module is also connected with the analgesia pump.

In one mode, the patient operating end further comprises a remote control server module,

the remote control server module is connected with the first control module.

In one form, the patient operating end further comprises a periodic questionnaire module,

the regular questionnaire module is connected with the first control module.

In one mode, the medical care operation end comprises a second display module, a third control module, a third signal receiving module and a third signal transmitting module,

the third control module is respectively connected with the second display module, the third signal receiving module and the third signal transmitting module,

the third signal receiving module receives the signal of the wireless communication terminal,

and the third signal transmitting module transmits a signal to the wireless communication terminal.

In one mode, the medical care operation end further comprises a remote control client module,

the remote control client module is connected with the third control module.

In one mode, the medical care operation end further comprises an analgesia pump regulation and control module,

the analgesia pump regulation and control module is connected with the third control module.

In one mode, the medical care operation end also comprises a console early warning module,

and the console early warning module is connected with the third control module.

In one mode, the medical care operation end further comprises a communication docking module,

the communication butt joint module is connected with the third control module.

In one mode, the medical care operation end further comprises a data feedback module,

the data feedback module is connected with the third control module.

In one mode, the wireless communication terminal comprises a second signal receiving module, a second signal transmitting module and a second control module,

the second control module is respectively connected with the second signal receiving module and the second signal transmitting module,

the second signal receiving module receives signals of the patient operating end or the medical care operating end,

the second signal transmitting module transmits signals to the patient operating end or the medical care operating end.

The utility model has the advantages that:

1. one medical care operation end can be connected with a plurality of patient operation ends, so that the problem of insufficient personnel in an anesthesia department is solved, manual treatment is added more flexibly, and the safety is improved;

2. an anesthesiologist can remotely follow and monitor the conditions of a plurality of patients and operate the analgesic pump, so that the problem of the analgesic pump of the patient is rapidly solved, the invalid analgesic time of the patient and the running wave in an anesthesiologist are reduced, and medical staff can know the conditions in time;

3. the medical care and the patient communicate in real time in a voice or video mode, so that the problems of the analgesia pump can be fed back and solved in time, and the analgesia pump is more diversified and humanized;

4. the patient condition is fed back in a questionnaire form at regular intervals, so that the individual analgesia is realized.

Drawings

Fig. 1 is a connection diagram of a remote-controlled artificial intelligence analgesia pump device according to an embodiment of the present invention;

fig. 2 is a structural relationship diagram of an analgesic pump according to an embodiment of the present invention;

FIG. 3 is a flow chart of the analgesic pump adjustment process according to one embodiment of the present invention;

fig. 4 is a circuit diagram of a remote control client module and a remote control server module according to one embodiment of the present invention;

fig. 5 is a circuit diagram of a calling module according to an embodiment of the present invention;

in the figure:

10. a wireless communication terminal; 11. a second signal receiving module; 12. a second signal transmitting module; 13. a second control module; 20. a patient operating end; 21. a first display module; 22. a first control module; 23. a first signal receiving module; 24. a first signal transmitting module; 25. a self-controlled analgesia pump module; 26. a calling module; 27. a communication module; 28. a remote control server module; 29. a periodic questionnaire module; 30. a medical care operation end; 31. a second display module; 32. a third control module; 33. a third signal receiving module; 34. a third signal transmitting module; 35. a remote control client module; 36. an analgesia pump regulation module; 37. a console early warning module; 38. a communication docking module; 39. and a data feedback module.

Detailed Description

The invention will be further described with reference to the accompanying drawings 1-5:

a remote control artificial intelligence analgesia pump device comprises a wireless communication end 10, a plurality of patient operation ends 20 and a plurality of medical care operation ends 30, wherein the patient operation ends 20 and the medical care operation ends 30 exchange information through the wireless communication end 10;

a first display module 21, a first control module 22, a first signal receiving module 23 and a first signal transmitting module 24 are arranged in the patient operating end 20,

the first control module 22 is respectively connected with the first display module 21, the first signal receiving module 23 and the first signal transmitting module 24,

the first signal receiving module 23 receives a signal of the wireless communication terminal 10,

the first signal transmitting module 24 transmits a signal to the wireless communication terminal 10;

the patient operating end 20 is also provided with a self-controlled analgesia pump module 25, a calling module 26 and a communication module 27, wherein the self-controlled analgesia pump module 25, the calling module 26 and the communication module 27 are all connected with the first control module 22

The self-control analgesia pump module 25 is also connected with an analgesia pump;

the patient operating end 20 also includes a remote control server module 28,

the remote control server module 28 is connected to the first control module 22;

the patient operating end 20 also includes a periodic questionnaire module 29,

the periodic questionnaire module 29 is connected to the first control module 22.

The medical care operation terminal 30 comprises a second display module 31, a third control module 32, a third signal receiving module 33 and a third signal transmitting module 34,

the third control module 32 is respectively connected with the second display module 31, the third signal receiving module 33 and the third signal transmitting module 34,

the third signal receiving module 33 receives the signal of the wireless communication terminal 10,

the third signal transmitting module 34 transmits a signal to the wireless communication terminal 10;

the healthcare operating end 30 further includes a remote control client module 35,

the remote control client module 35 is connected with the third control module 32;

the medical-care operation end 30 also includes an analgesia pump regulatory module 36,

the analgesia pump regulation module 36 is connected with the third control module 32;

the healthcare operation terminal 30 further includes a console pre-warning module 37,

the console early warning module 37 is connected with the third control module 32;

the medical-care operation end 30 further includes a communication docking module 38,

the communication docking module 38 is connected to the third control module 32;

the healthcare operating end 30 also includes a data feedback module 39,

the data feedback module 39 is connected to the third control module 32.

The wireless communication terminal 10 comprises a second signal receiving module 11, a second signal transmitting module 12 and a second control module 13,

the second control module 13 is respectively connected with the second signal receiving module 11 and the second signal transmitting module 12,

the second signal receiving module 11 receives the signal of the patient operating end 20 or the medical care operating end 30,

the second signal transmitting module 12 transmits a signal to the patient operating end 20 or the medical operating end 30.

The first display module 21 and the second display module 31 are both provided with a touch screen function.

The analgesia pump is provided with an analgesia pump processor, a sedation depth detection module, a respiration frequency detection module, a blood oxygen detection module, a touch force sensor, an analgesia pump alarm module, an analgesia pump communication module, a motor driving module and a third display module, which are all in the prior art, and the analgesia pump and the automatic control analgesia pump module 25 realize interactive communication with the remote control artificial intelligence analgesia pump device by virtue of the analgesia pump communication module, the first signal receiving module 23 and the first signal receiving module 23.

Fig. 4 and 5 are schematic circuit diagrams of a remote control client module, a remote control server module, and a call module, with other modules not listed.

One medical operation end 30 can be connected with a plurality of patient operation ends 20 to realize the nursing of one (medical staff) to a plurality of (patients), and similarly, one patient operation end 20 can be connected with a plurality of medical operation ends 30 to realize the transmission of the disease progress of one (patient) to a plurality of (medical staff).

The functional principle is as follows: the patient is manipulated by the first display module 21,

the self-control analgesic pump module 25 stores some common symptoms and treatment methods in advance, the self-control analgesic pump module 25 is also connected with the analgesic pump, and can perform some simple regulating actions on the analgesic pump, such as obviously increasing the number of pressing times and increasing the dosage, but the maximum value is set, and the dosage cannot exceed the maximum value;

the calling module 26 is activated, after being processed by the first control module 22, the signal is transmitted to the second signal receiving module 11 of the wireless communication terminal 10 by the first signal transmitting module 24, the second signal receiving module 11 receives the signal, after being processed by the second control module 13, the signal is transmitted from the second signal transmitting module 12 to the third signal receiving module 33 of the medical care operation terminal 30, the third signal receiving module 33 receives the signal, and after being processed by the third control module 32, the signal is transmitted to the console early warning module 37, and the console early warning module 37 has a buzzer function and warns medical care personnel;

the communication module 27 is activated, after being processed by the first control module 22, the signal is transmitted to the second signal receiving module 11 of the wireless communication terminal 10 by the first signal transmitting module 24, the second signal receiving module 11 receives the signal, after being processed by the second control module 13, the signal is transmitted from the second signal transmitting module 12 to the third signal receiving module 33 of the medical care operation terminal 30, the third signal receiving module 33 receives the signal, after being processed by the third control module 32, the signal is transmitted to the communication docking module 38, and after being activated, the communication docking module 38 reversely transmits the signal to the communication module, so that communication between the doctor and the patient is realized;

the medical staff stores the questionnaire related to the disease condition in advance in the regular questionnaire module 29, so that the patient or the family member fills in the questionnaire, the filled data is processed by the first control module 22, the signal is transmitted to the second signal receiving module 11 of the wireless communication terminal 10 by the first signal transmitting module 24, the signal is received by the second signal receiving module 11, the signal is processed by the second control module 13, the signal is transmitted to the third signal receiving module 33 of the medical operation terminal 30 from the second signal transmitting module 12, the signal is received by the third signal receiving module 33, and the signal is processed by the third control module 32 and then transmitted to the data feedback module 39.

The medical care is manipulated by the second display module 31,

actively activating the communication docking module 38 for communication with the patient;

after knowing the patient's situation, if the patient needs to be remotely controlled, the remote control client module 35 is activated, after being processed by the third control module 32, the signal is transmitted to the second signal receiving module 11 of the wireless communication terminal 10 by the third signal transmitting module 34, the signal is received by the second signal receiving module 11, after being processed by the second control module 13, the signal is transmitted from the second signal transmitting module 12 to the first signal receiving module 23 of the patient operating terminal 20, after being processed by the first control module 22, the signal is transmitted to the remote control server module 28, the remote control client module 35 is connected with the remote control server module 28, so as to realize the remote control of the medical care operating terminal 30 on the patient operating terminal,

meanwhile, the analgesia pump control module 36 and the self-control analgesia pump module 25 are connected into the remote control network chain together, the operation interfaces of the two are the same, the medical staff sends instructions to the analgesia pump control module 36 through the second display module 31, the analgesia pump control module 36 transmits signals to the remote control client module 35, the signals are transmitted to the second signal receiving module 11 of the wireless communication terminal 10 through the third signal transmitting module 34 after being processed by the third control module 32, the signals are transmitted to the first signal receiving module 23 of the patient operation terminal 20 from the second signal transmitting module 12 after being processed by the second control module 13, the signals are transmitted to the remote control server module 28 after being processed by the first control module 22, the signals are transmitted to the self-control analgesia pump module 25 through the remote control server module 28, and then the analgesia pump connected with the remote control server is controlled, finally, the purpose of remotely controlling the analgesic pump is realized;

medical personnel can look around the questionnaire data in the data feedback module 39 at any time and track and know the application effect.

The medical staff can also share the data about the analgesia pump on the patient operation terminal 20, such as the residual capacity, the current pump speed, the pressing times, the residual metering, the fault prompt and the like, on the medical operation terminal 30.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. Which all fall within the protection scope of the utility model. The protection scheme of the utility model is based on the appended claims.

Claims (10)

1. The utility model provides a remote control artificial intelligence analgesia pump device, includes wireless communication end (10), its characterized in that: the medical nursing system further comprises a patient operation end (20) and a medical care operation end (30), wherein the patient operation end (20) and the medical care operation end (30) exchange information through the wireless communication end (10);

the patient manipulating end (20) comprises:

a first display module (21), a first control module (22), a first signal receiving module (23) and a first signal transmitting module (24),

the first control module (22) is respectively connected with the first display module (21), the first signal receiving module (23) and the first signal transmitting module (24),

the first signal receiving module (23) receives the signal of the wireless communication terminal (10),

the first signal transmitting module (24) transmits signals to the wireless communication terminal (10);

the patient operation end (20) is internally provided with:

a self-control analgesia pump module (25), a calling module (26) and a communication module (27),

the automatic control analgesia pump module (25), the calling module (26) and the communication module (27) are all connected with the first control module (22),

the automatic control analgesia pump module (25) is also connected with the analgesia pump.

2. The analgesic pump apparatus of claim 1, wherein:

the patient operating end (20) further comprises a remote control server module (28),

the remote control server module (28) is connected with the first control module (22).

3. The analgesic pump apparatus of claim 1, wherein:

the patient operating end (20) further comprises a periodic questionnaire module (29),

the periodic questionnaire module (29) is connected with the first control module (22).

4. The analgesic pump apparatus of claim 1, wherein:

the medical-care operation tip (30) includes:

a second display module (31), a third control module (32), a third signal receiving module (33) and a third signal transmitting module (34),

the third control module (32) is respectively connected with the second display module (31), the third signal receiving module (33) and the third signal transmitting module (34),

the third signal receiving module (33) receives the signal of the wireless communication terminal (10),

the third signal transmitting module (34) transmits signals to the wireless communication terminal (10).

5. The analgesic pump apparatus of claim 4, wherein:

the medical care operation end (30) also comprises a remote control client module (35),

the remote control client module (35) is connected with the third control module (32).

6. The analgesic pump apparatus of claim 4, wherein:

the medical care operation end (30) also comprises an analgesia pump regulation and control module (36),

the analgesia pump regulation and control module (36) is connected with the third control module (32).

7. The analgesic pump apparatus of claim 4, wherein:

the medical care operation end (30) also comprises a console early warning module (37),

the console early warning module (37) is connected with the third control module (32).

8. The analgesic pump apparatus of claim 4, wherein:

the medical care operation end (30) also comprises a communication butt joint module (38),

the communication docking module (38) is connected with the third control module (32).

9. The analgesic pump apparatus of claim 4, wherein:

the medical care operation end (30) also comprises a data feedback module (39),

the data feedback module (39) is connected with the third control module (32).

10. The analgesic pump apparatus of claim 1, wherein:

the wireless communication terminal (10) comprises:

a second signal receiving module (11), a second signal transmitting module (12) and a second control module (13),

the second control module (13) is respectively connected with the second signal receiving module (11) and the second signal transmitting module (12),

the second signal receiving module (11) receives the signal of the patient operating end (20) or the medical care operating end (30),

the second signal transmitting module (12) transmits signals to the patient operating end (20) or the medical care operating end (30).

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