CN103156578B - The intelligent multi-parameter remote remote control instrument levied for oxygen cabin patient vitals - Google Patents

Abstract

The invention discloses an intelligent multi-parameter remote control instrument for vital signs of patients in an oxygen chamber, which includes a hyperbaric oxygen chamber and a vital sign monitor installed in the hyperbaric oxygen chamber. The vital sign monitor includes a real-time Sign acquisition unit, internal signal processing unit, external signal processing unit and control unit of vital sign data; the collected real-time sign data is transmitted through the internal signal processing unit and external signal processing unit; the control command issued by the control unit is transmitted through the external signal The processing unit communicates with the internal signal processing unit, and the vital sign monitor provided in the hyperbaric oxygen chamber provided by the present invention collects the patient's vital sign data parameters in real time from various aspects, and then transmits the signal through wireless communication, avoiding the current acquisition It is difficult to operate due to too many signal lines in the data of vital signs of patients, or the treatment time is delayed due to the connection of signal lines, and even the phenomenon of wrong connection of signal lines occurs.

Description

Intelligent multi-parameter remote control instrument for vital signs of patients in oxygen chamber

technical field

The invention relates to the field of medical equipment, in particular to a remote control instrument for vital signs of patients in an oxygen chamber.

Background technique

At present, hyperbaric oxygen therapy has been widely used in clinical practice. This treatment method is carried out in a closed manned pressure vessel. Usually this treatment is completed under the pressure of 2.2-2.5MPa (maximum working pressure is 3.0MPa), and oxygen and pressurized air are passed through the pipeline. After entering the cabin, the patient will receive oxygen inhalation therapy through a respirator and a mask. Hyperbaric oxygen therapy for patients is carried out in a closed medical hyperbaric oxygen chamber. The hyperbaric oxygen chamber is a closed cylinder. Pure oxygen or purified compressed air is input through pipelines and control systems. and intercom to implement man-machine dialogue with patients, or achieve the purpose of monitoring patients through closed-circuit television. Medical personnel generally do not enter the cabin to accompany them, but this is not conducive to real-time acquisition of vital sign parameters of critically ill or unstable patients, and correct judgment of the patient's current condition. Timely or early detection, so that timely treatment can be achieved, to avoid the deterioration of the patient's condition, so that the patient can be treated safely in the hyperbaric oxygen chamber. In response to this situation, the current practice of medical staff is to regularly monitor the patient's basic vital signs (breathing, pulse, blood pressure, body temperature, and blood oxygen saturation) parameters in the hyperbaric oxygen chamber, or check the hyperbaric oxygen monitoring outside the chamber. The trend diagram or data or trend table provided by the instrument can be used to judge the development of the patient's condition in the latest period, but the parameters are extremely unstable. For patients who need long-term monitoring, this method not only has extremely unreliable parameters and complicated operation, but also requires a lot of manpower input, and is not conducive to timely detection of changes in the patient's condition.

Therefore need a kind of device that can automatically monitor the vital signs of oxygen chamber patient and on-line alarm.

Contents of the invention

In view of this, the technical problem to be solved by the present invention is to provide a device capable of automatically monitoring the vital signs of patients in an oxygen chamber.

The present invention is achieved through the following technical solutions:

The intelligent multi-parameter remote control instrument for vital signs of oxygen chamber patients provided by the present invention includes a sign monitoring instrument arranged in a hyperbaric oxygen chamber, and the sign monitoring instrument includes a sign acquisition unit, an internal signal processing unit, and an external signal processing unit. unit and control unit;

The sign collection unit is used to collect real-time sign data of the patient, and transmits the collected real-time sign data through an internal signal processing unit arranged inside the hyperbaric oxygen chamber and an external signal processing unit arranged outside the hyperbaric oxygen chamber for transmission;

The control command issued by the control unit is transmitted through the external signal processing unit and the internal signal processing unit, and is used to control the operation of the sign collection unit, the internal signal processing unit and the external signal processing unit.

Further, the internal signal processing unit includes an internal signal transmitting unit and an internal signal receiving unit; the external signal processing unit includes an external signal transmitting unit and an external signal receiving unit;

The internal signal transmitting unit is connected to the physical sign collection unit, and the internal signal receiving unit is respectively connected to the internal signal transmitting unit and the physical sign collection unit;

The external signal transmitting unit is connected to the internal signal receiving unit, and the external signal receiving unit is connected to the internal signal transmitting unit.

Further, the sign collection unit includes a physical dissolved oxygen collection unit, an electrocardiogram tester, an electroencephalogram tester, an oxygen partial pressure tester, a blood oxygen saturation tester, a breathing tester, and a blood pressure tester; the vital sign collection Each collecting unit in the unit inputs the collected information to the internal signal transmitting unit.

Further, it also includes an instruction input module and a storage module, the instruction input module is used to receive the control instruction of inputting the warning value of the sign data, and the storage module is used to store the real-time sign data and the warning value of the patient.

Further, a web server is also included, and the web server is used for storing patient sign data and communicating with the hyperbaric oxygen chamber and the sign monitor in real time.

Further, the internal signal processing unit and the external signal processing unit communicate through wi-fi or other standard wireless signals.

Further, it also includes an audible and visual alarm system that sends out an alarm signal when the external signal processing unit judges that there is an abnormal situation, and the audible and visual alarm is connected with the external signal processing unit.

The beneficial effect of the present invention is that: the physical sign monitor provided in the present invention is provided in the hyperbaric oxygen chamber to collect the patient's physical sign data parameters in real time from various aspects, and then transmit the collected physical sign data parameters to the hyperbaric oxygen chamber through wireless communication The external signal processing unit avoids the operation difficulties caused by too many signal lines when collecting patient sign data, or the delayed treatment time due to connection of signal lines, and even the phenomenon of wrong connection of signal lines.

The present invention is a special instrument for hyperbaric oxygen chamber (therapeutic oxygen chamber, operation chamber, intensive care chamber, single (infant) pure oxygen chamber), which fills the vacancy of hyperbaric oxygen chamber equipment in my country at present. The requirements of the hyperbaric oxygen chamber standard are simple to install, easy to use, stable and reliable data parameters, and multiple parameters can fully meet clinical or medical scientific observations. It can also be used as a basis for clinicians to judge patients’ conditions or formulate hyperbaric oxygen treatment plans. The cabin provides safety technical guarantee for the development of emergency medicine (treatment of critically ill patients). At the same time, promote hyperbaric oxygen therapy to be more scientific, more standardized, and more evaluable, blessings and patients. Through the integrated analysis of multi-parameter monitoring and computer software system in the cabin, scientific, reliable and real-time alarms are made, which avoids artificial delays and wrong judgments resulting in safety accidents in hyperbaric oxygen chambers.

Description of drawings

In order to make the purpose, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail below in conjunction with the accompanying drawings, wherein:

Fig. 1 is a structural diagram of an intelligent multi-parameter remote control instrument for vital signs of oxygen chamber patients provided by an embodiment of the present invention.

Fig. 2 is a functional block diagram of an intelligent multi-parameter remote control instrument for vital signs of patients in an oxygen chamber provided by an embodiment of the present invention.

In the figure, there is a sign collection unit 1 , an internal signal processing unit 2 , an external signal processing unit 3 , and a control unit 4 .

detailed description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the preferred embodiments are only for illustrating the present invention, but not for limiting the protection scope of the present invention.

Fig. 1 is a structural diagram of an intelligent multi-parameter remote control instrument for vital signs of oxygen chamber patients provided by an embodiment of the present invention, and Fig. 2 is an intelligent multi-parameter remote control instrument for vital signs of oxygen chamber patients provided by an embodiment of the present invention The principle block diagram of the remote control instrument is shown in the figure: the intelligent multi-parameter remote control instrument for the vital signs of patients in the oxygen chamber provided by the present invention includes a physical sign monitor installed in the hyperbaric oxygen chamber, and the physical sign monitor includes a physical sign monitor Acquisition unit 1, internal signal processing unit 2, external signal processing unit 3 and control unit 4;

The sign collection unit is used to collect real-time sign data of the patient, and transmits the collected real-time sign data through an internal signal processing unit arranged inside the hyperbaric oxygen chamber and an external signal processing unit arranged outside the hyperbaric oxygen chamber for transmission;

The control command issued by the control unit is transmitted through the external signal processing unit and the internal signal processing unit, and is used to control the operation of the sign collection unit, the internal signal processing unit and the external signal processing unit.

The internal signal processing unit includes an internal signal transmitting unit and an internal signal receiving unit; the external signal processing unit includes an external signal transmitting unit and an external signal receiving unit;

The internal signal transmitting unit is connected to the physical sign collection unit, and the internal signal receiving unit is respectively connected to the internal signal transmitting unit and the physical sign collection unit;

The external signal transmitting unit is connected to the internal signal receiving unit, and the external signal receiving unit is connected to the internal signal transmitting unit.

The sign collection unit includes a physical dissolved oxygen collection unit, an electrocardiogram tester, an electroencephalogram tester, an oxygen partial pressure tester, a blood oxygen saturation tester, a respiration tester, and a blood pressure tester; Each collecting unit inputs the collected information to the internal signal transmitting unit, and then receives the signal through the external signal receiving unit, and inputs it to the control unit.

This embodiment provides another preferred solution, which also includes an instruction input module and a storage module, the instruction input module is used to receive a control instruction for inputting the warning value of the sign data, and the storage module is used to store the patient's real-time sign data and its warning value.

This embodiment provides another preferred solution, which also includes a web server for storing patient sign data and communicating with the hyperbaric oxygen chamber and the sign monitor in real time.

This embodiment provides another preferred solution, the internal signal processing unit and the external signal processing unit communicate through wi-fi or other standard wireless signals.

This embodiment provides another preferred solution, which also includes an audible and visual alarm system that sends out an alarm signal when the external signal processing unit determines that there is an abnormal situation, and the audible and visual alarm is connected to the external signal processing unit.

Finally, it is noted that the above embodiments are only used to illustrate the technical solutions of the present invention and not to limit them. Although the present invention has been described with reference to the preferred embodiments of the present invention, those skilled in the art should understand that it can be described in the form Various changes may be made in matter and details thereof without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (1)

1. The intelligent multi-parameter remote control instrument for vital signs of oxygen chamber patients is characterized in that: it includes a vital sign monitor, and the vital sign monitor includes a vital sign acquisition unit, an internal signal processing unit, an external signal processing unit and A control unit; the vital signs collection unit and the internal signal processing unit are arranged in the hyperbaric oxygen chamber, and the external signal processing unit and the control unit are arranged outside the hyperbaric oxygen chamber; The vital sign collection unit is used to collect real-time vital sign data of the patient, and transmits the collected real-time vital sign data through an internal signal processing unit arranged inside the hyperbaric oxygen chamber and an external signal processing unit arranged outside the hyperbaric oxygen chamber ; The control command issued by the control unit is transmitted through the external signal processing unit and the internal signal processing unit, and is used to control the operation of the vital signs collection unit, the internal signal processing unit and the external signal processing unit; The internal signal processing unit includes an internal signal transmitting unit and an internal signal receiving unit; the external signal processing unit includes an external signal transmitting unit and an external signal receiving unit; The internal signal transmitting unit is connected to the vital signs collection unit, and the internal signal receiving unit is respectively connected to the internal signal transmitting unit and the vital signs collection unit; The external signal transmitting unit is connected to the internal signal receiving unit, and the external signal receiving unit is connected to the internal signal transmitting unit; The vital sign collection unit includes a blood physical dissolved oxygen collection unit, an electrocardiogram collection unit, a pulse collection unit, an EEG collection unit, an oxygen partial pressure collection unit, a blood oxygen saturation collection unit, a respiration collection unit, a blood pressure collection unit, and a body temperature collection unit. A tester; each collection unit in the vital sign collection unit inputs the collected information to the internal signal transmission unit; It also includes an instruction input module and a storage module, the instruction input module is used to receive control instructions for inputting the vital sign data warning value, and the storage module is used to store the patient's real-time vital sign data and its warning value; Also comprising a web server, the web server is used for storing patient vital sign data and communicating in real time with the hyperbaric oxygen chamber and the vital sign monitor; The internal signal processing unit and the external signal processing unit communicate through wi-fi or other standardized wireless signals; It also includes an audible and visual alarm system that sends out an alarm signal when the external signal processing unit judges that there is an abnormal situation, and the audible and visual alarm system is connected with the external signal processing unit.