CN111494021A - All-round monitor system of emergency department patient - Google Patents

Abstract

The invention relates to an all-dimensional patient monitoring system for an emergency department. The invention can enable the bed and the guardianship cabinet to be quickly paired, and simultaneously, can enable each guardianship device to be quickly paired and then carry out data communication through the high-flux wireless module, thereby solving the problems of low data transmission amount in near field communication and equipment identification in wireless communication, greatly improving the use convenience of emergency departments and saving rescue time. In addition, a matching structure of a specific bed and the monitoring cabinet is further arranged, matching starting is carried out through the protrusion and the recess, the starting switch cannot be touched due to large volume, the two micro switches cannot be touched due to small volume, accuracy is improved, and convenience is also taken into consideration.

Description

All-round monitor system of emergency department patient

Technical Field

The invention relates to the field of medical instruments, in particular to an all-directional patient monitoring system for emergency department.

Background

The emergency medical department or emergency medical center is the department with the most centralized and most various severe patients and the most important rescue and management tasks in hospitals, and is the necessary way for all emergency patients to be admitted for treatment. The emergency department has two characteristics, namely busy first time, a large number of patients, urgent time, messy second time, a large number of types of patients and different equipment required by each patient.

CN109222958A discloses a vital sign checker for an emergency department, which comprises a supporting table, a table plate, an electrocardiograph monitor, a lifting mechanism and a driving mechanism, wherein the supporting table is welded on the top of the table plate; elevating system includes the standing groove, the lifting groove has been seted up to the bottom inner wall of standing groove, slidable mounting has the lifter plate in the lifting groove, and the top welding of lifter plate has the montant, the top and the ECG monitor fixed connection of montant, ECG monitor's top is equipped with the shield, the top inner wall welding of lifting groove has the diaphragm, and the diaphragm is located the top of lifter plate, rotates between the bottom of diaphragm and the bottom inner wall of lifting groove to install the lead screw, lead screw and lifter plate threaded connection.

CN208481623U discloses emergency department uses multi-functional monitoring bed with alarming function, including mattress, the bed board, the bedstead, guardrail and support column, the head below of mattress is fixed with the supporting spring post, the external case fence of having put of tailstock part of guardrail, the electronic case board has been placed to the inside of case fence, the stretcher storehouse is installed to the place ahead bottom of bedstead, the both ends of stretcher storehouse are fixed with the activity and detain, the middle part of stretcher storehouse is provided with the pulling piece, the upper left corner nestification in stretcher storehouse has the medicament box, the right side nestification of medicament box has the instrument box, the right side nestification of instrument box has the instrument box, the right side terminal surface of bedstead is opened to lead to there is the wiring hole, the rear top fixed mounting of bedstead has bee calling organ. The patient may be in emergency and worsened in the process of waiting for treatment, in order to prevent irreversible damage to the patient.

The above schemes are all to improve the structure of the monitoring equipment to a certain extent, but because the types of the patients in the emergency department are many, the equipment specifically needed by each patient is different, a large amount of time is wasted after the equipment is carried and connected, and it is not practical to arrange enough equipment in each bed. In addition, if a plurality of devices are recorded and monitored by the devices, the data recording is very complicated, and a great deal of time is wasted for medical workers. Based on the needs, the monitoring device which is more convenient to connect and more convenient to record data is designed.

Disclosure of Invention

To solve the above problems, an all-directional patient monitoring system for emergency department is provided, which comprises a monitoring bed, a monitoring cabinet and an upper computer:

the monitoring bed comprises a bed interface, and the monitoring cabinet comprises a main controller, a display, a first type induction interface, a second type induction interface, a wireless transceiver, a plug-in interface, an ECG monitor, a breathing machine, a defibrillator, an oximeter and an infrared monitor; the upper computer is connected to the main controller, and the main controller sends monitoring data to the upper computer;

the bed interface can be in near field communication with the first type of induction interface, or the second type of induction interface can be in near field communication with one of an electrocardiograph monitor, a breathing machine, a defibrillator and an oximeter; the wireless transceiver can perform wireless data interaction with an electrocardiogram monitor, a breathing machine, a defibrillator and an oximeter; the display and the infrared monitor are arranged on the monitoring cabinet;

the patient monitor cabinet is also provided with a plurality of stations, an ECG monitor, a breathing machine, a defibrillator and an oximeter can be placed on the stations, each station is provided with a second type induction interface, and the ECG monitor, the breathing machine, the defibrillator and the oximeter can be paired after entering the field communication with the second type induction interfaces on the stations; the paired wireless transceivers of the ECG monitor, the respirator, the defibrillator and the oximeter and the wireless transceiver of the monitoring cabinet quickly establish high-flux data connection, and then the data of the ECG monitor, the respirator, the defibrillator and the oximeter are collected by the main controller and displayed on the display.

The monitoring cabinet comprises two layers, and the bottom of the monitoring cabinet is provided with trundles; the first type of induction interfaces are arranged on two sides of the monitoring cabinet, and bed interfaces are arranged on two sides of the monitoring bed; when the monitoring cabinet and the monitoring bed are in close contact, a first type of induction interface and a bed interface are close to each other, the first type of induction interface and the bed interface are matched with each other, and after the first type of induction interface is matched with the bed interface, the serial number of the bed is sent to the main controller;

the monitor cabinet is provided with a display, and the display can move on the monitor cabinet through a display bracket; an infrared monitor socket is also arranged on the monitor cabinet, and the infrared monitor can be inserted into the socket; the socket of the infrared monitoring instrument is provided with a second type of induction interface, so that the infrared monitoring instrument can be matched with the second type of induction interface, the infrared monitoring instrument and the wireless transceiver establish high-flux data connection after matching, the data of the infrared monitoring instrument is sent to the main controller, and the main controller sends the data of the infrared monitoring instrument to the upper computer;

the infrared monitor is an infrared camera, can monitor the infrared image of a patient on a monitoring bed, can monitor the body temperature on the one hand, and can monitor the action of the patient on the monitoring bed on the other hand.

The stations are arranged on the top surface of the monitoring cabinet, the number of the stations is multiple, each station is provided with a second type of induction interface, meanwhile, the bottom surfaces of the ECG monitor, the respirator, the defibrillator and the oximeter are provided with corresponding near field communication modules, when one of the ECG monitor, the respirator, the defibrillator and the oximeter is placed on one station, the second type of induction interface is matched with equipment on the station, and then high-flux data connection is established through the ECG monitor, the respirator, the defibrillator, the oximeter wireless data module and the wireless transceiver module of the monitoring cabinet, so that data of the ECG monitor, the respirator, the defibrillator and the oximeter can be displayed on the display in real time.

The number of the bed interfaces is two, and the bed interfaces are arranged on two sides of the monitoring bed; the first type of induction interfaces are also two and are arranged on two sides of the monitoring cabinet, so that the monitoring cabinet can be paired on any side of the monitoring bed;

the bed interface and the first type of induction interface are the same in height, and the bed interface is provided with a convex hemispherical bulge; a hemispherical recess is arranged at the position corresponding to the first type of sensing interface, and the shape of the hemispherical recess is matched with that of the hemispherical protrusion; two opposite microswitches are arranged on the inner side of the edge of the hemispherical recess; when the hemispherical protrusion is jacked into the hemispherical recess, the two microswitches are simultaneously turned on, and then the first type of induction interface is matched with the bed interface.

The number of the infrared monitor sockets is two, and the infrared monitor sockets are arranged at positions close to the first type of induction interfaces.

The station is provided with pressure switch, and when placing the instrument on the station, the switch is opened, and equipment on second class response interface and the station pairs.

The plug interface can carry out wired connection and carry out data communication with ECG monitor, breathing machine, defibrillator, oximeter, and the data of ECG monitor, breathing machine, defibrillator, oximeter accessible plug interface sends to main control unit.

The invention has the beneficial effects that: the invention can enable the bed and the guardianship cabinet to be quickly paired, and simultaneously, can enable each guardianship device to be quickly paired and then carry out data communication through the high-flux wireless module, thereby solving the problems of low data transmission amount in near field communication and equipment identification in wireless communication, greatly improving the use convenience of emergency departments and saving rescue time. In addition, a matching structure of a specific bed and the monitoring cabinet is further arranged, matching starting is carried out through the protrusion and the recess, the starting switch cannot be touched due to large volume, the two micro switches cannot be touched due to small volume, accuracy is improved, and convenience is also taken into consideration.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosed subject matter, are incorporated in and constitute a part of this specification. The drawings illustrate the implementations of the disclosed subject matter and, together with the detailed description, serve to explain the principles of implementations of the disclosed subject matter. No attempt is made to show structural details of the disclosed subject matter in more detail than is necessary for a fundamental understanding of the disclosed subject matter and various modes of practicing the same.

FIG. 1 is a schematic diagram of the overall architecture of the present invention;

FIG. 2 is a schematic structural view of the present invention;

fig. 3 is a schematic view of a first type of inductive interface and a bed interface of the present invention.

Detailed Description

The advantages, features and methods of accomplishing the same will become apparent from the drawings and the detailed description that follows.

Example 1:

with reference to fig. 1-3, an all-directional patient monitoring system for emergency department includes a monitoring bed 1, a monitoring cabinet 2, and an upper computer:

the monitoring bed 1 comprises a bed interface 11, and the monitoring cabinet 2 comprises a main controller, a display 21, a first type induction interface 22, a second type induction interface 23, a wireless transceiver, a plug-in interface, an electrocardiogram monitor, a breathing machine, a defibrillator, an oximeter and an infrared monitor 28; the upper computer is connected to the main controller, and the main controller sends monitoring data to the upper computer;

the bed interface 11 can communicate with the first type induction interface 22 in a near field mode or the second type induction interface 23 can communicate with one of an electrocardiograph monitor, a breathing machine, a defibrillator and an oximeter in a near field mode; the wireless transceiver can perform wireless data interaction with an electrocardiogram monitor, a breathing machine, a defibrillator and an oximeter; the display 21 and the infrared monitor 28 are arranged on the monitoring cabinet 2;

the monitoring cabinet 2 is also provided with a plurality of stations 24, an electrocardiograph monitor, a breathing machine, a defibrillator and an oximeter can be placed on the stations 24, each station 24 is provided with a second type induction interface 23, and the electrocardiograph monitor, the breathing machine, the defibrillator and the oximeter can be paired with the second type induction interfaces 23 on the stations 24 after entering the field for communication; the wireless transceivers of the paired ECG monitor, respirator, defibrillator and oximeter and the monitor cabinet 2 quickly establish high-flux data connection, and then the data of the ECG monitor, the respirator, the defibrillator and the oximeter are collected by the main controller and displayed on the display 21.

The monitoring cabinet 2 comprises two layers, and the bottom of the monitoring cabinet is provided with a caster 25; the first type of induction interfaces 22 are arranged on two sides of the monitoring cabinet 2, and the bed interfaces 11 are arranged on two sides of the monitoring bed 1; when the monitoring cabinet 2 and the monitoring bed 1 are close to contact, one first type induction interface 22 and one bed interface 11 are close to each other, the first type induction interface 22 and the bed interface 11 are matched with each other, and after the first type induction interface 22 is matched with each other, the serial number of the bed is sent to the main controller;

the monitor cabinet 2 is provided with a display 21, and the display 21 can move on the monitor cabinet 2 through a support of the display 21; an infrared monitor socket is also arranged on the monitoring cabinet 2, and an infrared monitor can be inserted into the socket; the socket of the infrared detection monitor is provided with a second type induction interface 23, so that the infrared monitor can be paired with the second type induction interface 23, the infrared monitor 28 and the wireless transceiver establish high-throughput data connection after pairing, the data of the infrared monitor 28 is sent to the main controller, and the main controller sends the data of the infrared monitor to the upper computer;

the infrared monitoring appearance of making a video recording for infrared, can monitor the infrared image of patient on the monitoring bed 1, can carry out the body temperature monitoring on the one hand, and on the other hand can monitor the action monitoring of patient on the monitoring bed 1.

The stations 24 are arranged on the top surface of the monitoring cabinet 2, the number of the stations is multiple, each station 24 is provided with a second type induction interface 23, meanwhile, the bottom surfaces of the ECG monitor, the respirator, the defibrillator and the oximeter are provided with corresponding near field communication modules, when one of the ECG monitor, the respirator, the defibrillator and the oximeter is placed on one station 24, the second type induction interfaces 23 are paired with devices on the stations 24, and then high-flux data connection is established through the ECG monitor, the respirator, the defibrillator, the oximeter wireless data module and the wireless transceiver module of the monitoring cabinet 2, so that data of the ECG monitor, the respirator, the defibrillator and the oximeter can be displayed on the display 21 in real time.

The number of the bed interfaces 11 is two, and the bed interfaces are arranged on two sides of the monitoring bed 1; the number of the first type of inductive interfaces 22 is two, and the first type of inductive interfaces are arranged on two sides of the monitoring cabinet 2, so that the monitoring cabinet 2 can be paired on any side of the monitoring bed 1;

the bed interface 11 and the first type of induction interface 22 have the same height, and the bed interface 11 is provided with a convex hemispherical bulge 12; a hemispherical depression 26 is arranged at the position corresponding to the first type of sensing interface 22, and the shape of the hemispherical depression 26 is matched with that of the hemispherical bulge 12; and two opposite microswitches 27 are arranged at the inner side of the edge of the hemispherical depression 26; so that when the hemispherical protrusion 12 is pushed into the hemispherical recess 26, the two microswitches are turned on simultaneously, and then the first type of sensing interface 22 and the bed interface 11 are paired.

The number of the infrared monitor sockets is two, and the infrared monitor sockets are arranged at positions close to the first type induction interface 22.

The station 24 is provided with a pressure switch which is opened when an instrument is placed on the station 24, and the second type induction interface 23 is paired with equipment on the station 24.

The plug interface can carry out wired connection and carry out data communication with ECG monitor, breathing machine, defibrillator, oximeter, and the data of ECG monitor, breathing machine, defibrillator, oximeter accessible plug interface sends to main control unit.

Example 2:

this example describes the method of using the device of the present application.

When a patient needs to be monitored, firstly, the monitoring cabinet is pushed to one side of the monitoring bed, so that the monitoring cabinet and the monitoring bed are paired, namely, the bed interface and the first type of induction interface are paired; different moving states in the pairing process are shown in fig. 3, and the pairing can be realized only by shaking for a few times after the corresponding protrusions and the corresponding recesses are arranged. Meanwhile, the waste of electric power during pairing is avoided, after one pairing, the main controller records the serial number of the bed, and then the main controller does not need to contact the bed until the next pairing.

Then adjusting the position of the display to ensure that the monitoring is not influenced, and if the infrared monitor is needed, inserting the infrared monitor into an infrared monitor socket; the infrared monitor and the monitoring cabinet are paired to realize data transmission;

then, a doctor selects a proper monitoring instrument according to equipment required to be used, the instrument can be selected from an electrocardiogram monitor, a breathing machine, a defibrillator and an oximeter, and then each monitoring instrument is placed on a station; after direct placement, immediate pairing can be realized, and then immediate communication can be realized; the monitoring data and the detection data can be directly sent to an upper computer through the main controller for storage and analysis.

Of course, the electrocardiograph monitor, the ventilator, the defibrillator and the oximeter are only examples, and if an X-ray device or a B-ultrasonic device is required, the electrocardiograph monitor, the ventilator, the defibrillator and the oximeter can be placed at a workstation for use.

Therefore, quick connection pairing and data recording are realized, and the using effect of an emergency department is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (7)

1. The utility model provides an all-round monitor system of emergency department patient, includes monitoring bed (1), guardianship cabinet (2), host computer, its characterized in that:

the monitoring bed (1) comprises a bed interface (11), and the monitoring cabinet (2) comprises a main controller, a display (21), a first type induction interface (22), a second type induction interface (23), a wireless transceiver, a plug-in interface, an electrocardiogram monitor, a breathing machine, a defibrillator, an oximeter and an infrared monitor (28); the upper computer is connected to the main controller, and the main controller sends monitoring data to the upper computer;

the bed interface (11) can be in near field communication with the first type of induction interface (22) or the second type of induction interface (23) can be in near field communication with one of an electrocardiograph monitor, a breathing machine, a defibrillator and an oximeter; the wireless transceiver can perform wireless data interaction with an electrocardiogram monitor, a breathing machine, a defibrillator and an oximeter; the display (21) and the infrared monitor (28) are arranged on the monitoring cabinet (2);

the monitoring cabinet (2) is also provided with a plurality of stations (24), an ECG monitor, a breathing machine, a defibrillator and an oximeter can be placed on the stations (24), each station (24) is provided with a second type induction interface (23), and the ECG monitor, the breathing machine, the defibrillator and the oximeter can be paired with the second type induction interface (23) on the station (24) after entering the field for communication; the wireless transceivers of the paired ECG monitor, respirator, defibrillator, oximeter and the monitoring cabinet (2) quickly establish high-flux data connection, and then the data of the ECG monitor, the respirator, the defibrillator and the oximeter are collected by the main controller and displayed on the display (21).

2. The all-directional patient monitoring system for emergency department according to claim 1, wherein:

the monitoring cabinet (2) comprises two layers, and the bottom of the monitoring cabinet is provided with a caster (25); the first type of induction interfaces (22) are arranged on two sides of the monitoring cabinet (2), and the bed interfaces (11) are arranged on two sides of the monitoring bed (1); when the monitoring cabinet (2) is in close contact with the monitoring bed (1), a first type of induction interface (22) and a bed interface (11) are close to each other, the first type of induction interface (22) and the bed interface (11) are paired with each other, and after pairing, the first type of induction interface (22) sends the serial number of the bed to the main controller;

a display (21) is arranged on the monitoring cabinet (2), and the display (21) can move on the monitoring cabinet (2) through a display (21) bracket; an infrared monitor socket is also arranged on the monitoring cabinet (2), and an infrared monitor can be inserted into the socket; the socket of the infrared detection monitor is provided with a second type of induction interface (23), so that the infrared monitor can be paired with the second type of induction interface (23), a high-flux data connection is established between the infrared monitor (28) and the wireless transceiver after pairing, data of the infrared monitor (28) is sent to the main controller, and the main controller sends the data of the infrared monitor to the upper computer;

the infrared monitoring appearance of making a video recording for infrared, can monitor the infrared image of patient on the monitoring bed (1), can carry out the body temperature monitoring on the one hand, and on the other hand can monitor patient's action monitoring on the monitoring bed (1).

3. The all-directional patient monitoring system for emergency department according to claim 2, wherein:

the work stations (24) are arranged on the top surface of the monitoring cabinet (2), the number of the work stations is multiple, each work station (24) is provided with a second type induction interface (23), meanwhile, the bottom surfaces of the ECG monitor, the respirator, the defibrillator and the oximeter are provided with corresponding near field communication modules, when one of the ECG monitor, the respirator, the defibrillator and the oximeter is placed on one work station (24), the second type induction interfaces (23) are paired with equipment on the work stations (24), and then high-flux data connection is established through the ECG monitor, the respirator, the defibrillator and the oximeter wireless data module and the wireless transceiver module of the monitoring cabinet (2), so that data of the ECG monitor, the respirator, the defibrillator and the oximeter can be displayed on the display (21) in real time.

4. The all-round patient monitoring system of the emergency department according to claim 3, wherein:

the number of the bed interfaces (11) is two, and the bed interfaces are arranged on two sides of the monitoring bed (1); the number of the first type of induction interfaces (22) is two, and the first type of induction interfaces are arranged on two sides of the monitoring cabinet (2), so that the monitoring cabinet (2) can be paired on any side of the monitoring bed (1);

the bed interface (11) and the first type of induction interface (22) are the same in height, and the bed interface (11) is provided with a convex hemispherical bulge (12); a hemispherical concave part (26) is arranged at the position corresponding to the first type of sensing interface (22), and the shape of the hemispherical concave part (26) is matched with that of the hemispherical bulge (12); and two opposite microswitches (27) are arranged at the inner side of the edge of the hemispherical depression (26); when the hemispherical bulge (12) is pushed into the hemispherical recess (26), the two micro switches are simultaneously turned on, and then the first type induction interface (22) and the bed interface (11) are paired.

5. The all-directional patient monitoring system for emergency department according to claim 2, wherein:

the number of the infrared monitor sockets is two, and the infrared monitor sockets are arranged at positions close to the first type induction interface (22).

6. The all-round patient monitoring system of the emergency department according to claim 4, wherein:

the station (24) is provided with a pressure switch, when an instrument is placed on the station (24), the switch is turned on, and the second type induction interface (23) is matched with equipment on the station (24).

7. The all-directional patient monitoring system for emergency department according to claim 1, wherein:

the plug interface can carry out wired connection and carry out data communication with ECG monitor, breathing machine, defibrillator, oximeter, and the data of ECG monitor, breathing machine, defibrillator, oximeter accessible plug interface sends to main control unit.

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