CN212816991U - Oxygen content control system of medical equipment belt, gang equipment belt and breathing oxygen supply equipment - Google Patents

Abstract

The utility model discloses an oxygen amount control system of medical equipment belt, gang equipment belt and breathing oxygen supply equipment, the medical equipment belt comprises an equipment belt integrated unit, comprising an integrated unit shell, the interface of the integrated unit shell is respectively provided with a control button for controlling the flow of an air supply pipeline, a power socket and a talkback extension, the interior of the integrated unit shell is provided with an air supply pipeline communicated with the control button, a strong current lead electrically connected with the power socket and a weak current lead electrically connected with the talkback extension; the connecting equipment belt is used for connecting the equipment belt integrated units and comprises a gas cavity for accommodating an air supply pipeline, a strong current cavity for accommodating a strong current lead and a weak current cavity for accommodating a weak current lead, and the gas cavity, the strong current cavity and the weak current cavity are isolated through partition plates respectively. This medical equipment area falls into a plurality of equipment area integrated unit with the medical equipment area, and each equipment area integrated unit carries out the integral erection through connecting the equipment area, compact structure.

Description

Oxygen content control system of medical equipment belt, gang equipment belt and breathing oxygen supply equipment

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to oxygen content control system of medical equipment area, antithetical couplet row equipment area and breathing oxygen supply equipment.

Background

The medical equipment belt is applied to the environment of an oxygen supply system in a hospital ward and is also called as a gas equipment belt. The device can be used for loading equipment such as a gas terminal, a power switch and a socket, and the whole equipment belt is long. The traditional equipment belt mounting mode is that a whole equipment belt bottom plate is fixed on the wall surface of a ward, then a pipeline, an electric wire and other cavities are arranged on the bottom plate, a gas terminal, a switch socket and a calling extension are connected, and finally a panel is covered by sections, so that a complete equipment belt is formed.

The traditional equipment belt has the following defects during installation: (1) the length of the equipment belt is long, and multiple persons are required to work cooperatively during installation; (2) the requirement on the flatness of the wall surface is high, and if the wall surface is not flat, equipment belts are easy to deform; (3) the connection of an air inlet pipeline is inconvenient, the width of the equipment with the gas cavity 8 is not more than 200mm, and welding operation needs to be carried out in the range; (4) it is inconvenient to transport and store the whole equipment belt.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the prior art, the utility model provides an oxygen content control system of medical equipment belt, gang equipment belt and breathing oxygen supply equipment to solve the problem that traditional equipment belt installation is inconvenient, requires high to the wall flatness, is not convenient for admission line connection and whole transportation, deposit.

In order to achieve the above object, the utility model discloses a following technical scheme realizes:

the utility model provides a medical equipment belt, include:

the equipment comprises an integrated unit and an integrated unit shell, wherein the interface of the integrated unit shell is respectively provided with a control button for controlling the flow of an air supply pipeline, a power socket and an intercom extension, the air supply pipeline communicated with the control button, a strong current lead electrically connected with the power socket and a weak current lead electrically connected with the intercom extension are arranged inside the integrated unit shell;

the connecting equipment belt is used for connecting the equipment belt integrated units, comprises a gas cavity for accommodating the gas supply pipeline, a strong current cavity for accommodating the strong current lead and a weak current cavity for accommodating the weak current lead, and is isolated by a partition plate.

Further, the air supply pipeline comprises an air pipeline, an oxygen pipeline and a vacuum pipeline, the air pipeline is used for driving the oxygen supply equipment, the oxygen pipeline is used for conveying an air source for the oxygen supply equipment, and the vacuum pipeline is used for providing vacuum negative pressure for the oxygen supply equipment.

Further, the control buttons include an air button in communication with the air line, an oxygen button in communication with the oxygen line, and a vacuum button in communication with the vacuum line.

Furthermore, the extension interphone is in communication connection with the control terminal through a weak current lead.

Further, the medical equipment belt further comprises an illuminating lamp, and the illuminating lamp is electrically connected with the strong current lead.

Further, the strong current cavity and the weak current cavity are respectively arranged on two sides of the gas cavity.

Further, the device comprises a side cover plate, wherein one side of the side cover plate is connected with the device belt integration unit, and the other side of the side cover plate is connected with the connecting device belt.

The utility model also provides a gang equipment area, including the foretell medical equipment area of a plurality of, a plurality of doctor's equipment area gang row sets up, communicates the air supply line in each medical equipment area respectively.

The utility model also provides an oxygen content control system of breathing oxygen supply equipment, including foretell gang equipment area, breathing oxygen supply equipment host computer, proportional valve, flow sensor and pressure sensor, wherein:

breathe oxygen suppliment equipment host computer and include the treater, proportional valve, flow sensor and pressure sensor respectively with treater communication connection, flow sensor is used for detecting the oxygen flow of air supply line, pressure sensor is used for detecting the oxygen pressure of air supply line, the treater is adjusted according to oxygen flow and oxygen pressure the aperture of proportional valve.

Further, the oxygen amount control system also comprises a control circuit for controlling the aperture of the proportional valve, wherein the control circuit is in communication connection with the processor and feeds back the oxygen flow of the air supply pipeline and the current for controlling the proportional valve to the processor.

The utility model has the advantages as follows:

the medical equipment belt of the utility model divides the medical equipment belt into a plurality of equipment belt integrated units, and each equipment belt integrated unit is integrally installed through connecting the equipment belt, so that the structure is compact; when the device is installed, multi-person cooperative operation is not needed, a single device belt integration unit can be adapted to different wall surfaces, and the device is not limited by the flatness of the wall surfaces when being installed; the plurality of equipment belt integrated units are convenient to store and transport integrally or store and transport in a subarea mode.

The utility model discloses a ally oneself with row's equipment area carries out the unit mount with a plurality of medical equipment area through the connecting means area, forms medical row's equipment area of ally oneself with, possesses the beneficial effect in above-mentioned doctor's equipment area.

The utility model discloses an oxygen volume control system of breathing apparatus of oxygen supply detects the oxygen flow of air supply line through flow sensor, and pressure sensor detects the oxygen pressure of air supply line, and the treater is according to the aperture of oxygen flow and oxygen pressure regulation proportional valve, and then changes the oxygen flow and the oxygen pressure of oxygen pipeline. And carrying out adaptive adjustment according to the breathing state of the user.

Drawings

Fig. 1 is a perspective view of the medical device belt of the present invention;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a schematic diagram of the internal structure of the apparatus belt integration unit;

FIG. 4 is a cross-sectional view of the integrated unit housing;

FIG. 5 is a schematic structural view of the multi-row equipment belt of the present invention;

fig. 6 is a block diagram of an oxygen control system of a respiratory and oxygen supply apparatus according to the present invention.

The reference numbers are as follows:

1. the device belt integration unit; 2. an integrated unit housing; 3. a gas supply line; 4. a control button; 5. a power socket; 6. an intercom extension; 7. connecting equipment belts; 8. a gas chamber; 9. a ferroelectric cavity; 10. a weak current cavity; 11. a partition plate; 12. an air line; 13. an oxygen line; 14. a vacuum line; 15. an air button; 16. an oxygen button; 17. a vacuum button; 18. a side cover plate; 19. a medical equipment belt; 20. a breathing oxygen supply equipment host; 21. a proportional valve; 22. a flow sensor; 23. a pressure sensor; 24. a processor; 25. a control circuit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 4, the utility model provides a medical equipment belt, which is applied to the environment of an oxygen supply system.

This medical equipment area includes:

the equipment belt integrated unit 1 comprises an integrated unit shell 2, wherein the interface of the integrated unit shell 2 is respectively provided with a control button 4 for controlling the flow of an air supply pipeline 3, a power socket 5 and an intercom extension set 6, the air supply pipeline 3 communicated with the control button 4, a strong electric lead electrically connected with the power socket 5 and a weak electric lead electrically connected with the intercom extension set 6 are arranged in the integrated unit shell 2;

the connecting equipment belt 7 is used for connecting the equipment belt integrated units 1, the connecting equipment belt 7 comprises a gas cavity 8 for containing the air supply pipeline 3, a strong current cavity 9 for containing a strong current lead and a weak current cavity 10 for containing a weak current lead, and the gas cavity 8, the strong current cavity 9 and the weak current cavity 10 are isolated through partition plates 11 respectively.

The existing medical equipment belt has long integral length and needs multi-person cooperative operation during installation; the requirement on the flatness of the wall surface is high, and equipment belt deformation is easily caused; the gas pipeline is long in length and inconvenient to install; the equipment belt is inconvenient to store and transport.

The physician device band comprises a device band integrated unit 1 and a connecting device band 7. Compared with the traditional equipment belt, the medical equipment belt is divided into a plurality of equipment belt integrated units 1, and each equipment belt integrated unit 1 is integrally installed through a connecting equipment belt 7, so that the structure is compact; when the device is installed, multi-person cooperative operation is not needed, a single device with the integrated unit 1 can be adapted to different wall surfaces, and the device is not limited by the flatness of the wall surfaces when being installed; the plurality of equipment belt integrated units 1 facilitate integral storage and transportation or partitioned storage and transportation.

The equipment belt integrated unit 1 comprises an integrated unit shell 2, and the interface of the integrated unit shell 2 is respectively provided with a control button 4, a power socket 5 and an extension telephone 6 according to the medical use environment. The control button 4 is communicated with the air supply pipeline 3 of the integrated equipment belt and used for controlling the flow rate of the air supply pipeline 3 and the opening or closing state. The power socket 5 is communicated with a 220V lighting circuit of the circuit system and is used for being communicated with a power system of oxygen supply equipment of the user terminal. The user terminal can be selected as a breathing support device, and a power line of the breathing support device is communicated with the power socket 5 to provide power drive for the breathing support device. The intercom extension 6 is in communication connection with the control system through a weak current lead, and the user side and the control side are in instruction intercommunication through the intercom extension 6.

The connecting device strip 7 comprises a gas chamber 8, a strong current chamber 9 and a weak current chamber 10. Wherein, the gas cavity 8 is connected with the driving device of the user terminal, the strong current cavity 9 accommodates a strong current lead, and the weak current cavity 10 accommodates a weak current lead. When the plurality of equipment belt integrated units 1 are integrally installed, the strong current leads of the adjacent strong current cavities 9 are electrically connected, and the weak current leads of the adjacent weak current cavities 10 are electrically connected. The gas cavity 8, the strong current cavity 9 and the weak current cavity 10 are respectively isolated by a partition plate 11; on one hand, the installation is convenient; on the other hand, electromagnetic interference between strong current and weak current is avoided, and the transmission precision of the electric signal is improved.

In this scheme, as a further improvement of the above technical solution, the air supply line 3 includes an air line 12, an oxygen line 13, and a vacuum line 14, the air line 12 is used to drive the oxygen supply equipment, the oxygen line 13 is used to supply an air source to the oxygen supply equipment, and the vacuum line 14 is used to provide a vacuum negative pressure to the oxygen supply equipment.

The air supply line 3 communicates with an air intake line of a user terminal. The user terminal can be selected as a breathing support device, the air pipeline 12 provides a driving force air source for the driving end of the breathing support device, the oxygen pipeline 13 provides an oxygen source for the user terminal, and the vacuum pipeline 14 provides a vacuum negative pressure environment for the user terminal. When the user is in the inspiration state, the user inhales oxygen in the oxygen pipeline 13; when the user is in an expiratory state, expectoration and lung fluid of the respiratory system of the user are discharged through the vacuum negative pressure environment.

In this embodiment, as a further improvement of the above technical solution, the control button 4 includes an air button 15 communicated with the air pipe 12, an oxygen button 16 communicated with the oxygen pipe 13, and a vacuum button 17 communicated with the vacuum pipe 14.

Specifically, the control buttons 4 are provided with an air button 15, an oxygen button 16, and a vacuum button 17, respectively, along the length direction of the apparatus belt integrated unit 1. The air flow of the air pipeline 12 of the user end is adjusted by the user end through a swirling air button 15, the oxygen flow of the oxygen pipeline 13 of the user end is adjusted through a swirling oxygen button 16, and the pressure of the vacuum negative pressure of the vacuum pipeline 14 of the user end is adjusted through a swirling vacuum button 17.

In this scheme, as a further improvement of the above technical solution, the extension interphone 6 is in communication connection with the control terminal through a weak current lead.

It should be noted that the control terminal may be an integrated control terminal with a unified medical device in a certain area. Or, in the application environment of hospital ward equipment, the control terminal can be selected as a nurse station, and the medical equipment belt of each ward, the breathing support equipment communicated with the medical equipment belt or other oxygen supply system terminals are controlled in a unified manner through the nurse station.

In this scheme, as the further improvement of above-mentioned technical scheme, medical equipment area still includes the light, and the light is connected with the forceful electric power wire electricity.

In this scheme, as a further improvement of the above technical solution, the strong current cavity 9 and the weak current cavity 10 are respectively disposed on two sides of the gas cavity 8.

Specifically, set up the piping erection in the gas chamber 8, a plurality of pipelines of air supply line 3 are the buckle respectively and are fixed in the piping erection. The strong current cavity 9 and the weak current cavity 10 are respectively arranged at two sides of the gas cavity 8, so that the interference of strong current and weak current is further avoided, and the transmission precision of electric signals is improved.

In this embodiment, as a further improvement of the above technical solution, the medical device belt further includes a side cover plate 18, one side of the side cover plate 18 is connected to the device belt integrating unit 1, and the other side is connected to the connecting device belt 7.

Specifically, the side cover plate 18 is provided in a trapezoidal structure. The trapezoidal big terminal surface of side apron 18 is connected with equipment area integrated unit 1, and the trapezoidal little terminal surface of side apron 18 is connected with connecting device area 7, and overall structure is compact.

As shown in fig. 5, the utility model also provides a gang equipment belt, including the above-mentioned medical equipment belt 19 of a plurality of, a plurality of doctor's equipment belt 19 is arranged in rows and is set up, communicates each medical equipment belt 19's air supply line 3 respectively.

The gang equipment belt is applied to the application environment of hospital ward equipment. A plurality of medical equipment belts are integrally installed through the connecting equipment belt 7, and then the medical row equipment belt is formed.

As shown in fig. 6, the utility model also provides an oxygen content control system of breathing oxygen supply equipment, including foretell gang equipment area or medical equipment area, breathing oxygen supply equipment host 20, proportional valve 21, flow sensor 22 and pressure sensor 23, wherein:

the respiratory oxygen supply equipment host 20 comprises a processor 24, the proportional valve 21, a flow sensor 22 and a pressure sensor 23 are respectively in communication connection with the processor 24, the flow sensor 22 is used for detecting the oxygen flow of the air supply pipeline 3, the pressure sensor 23 is used for detecting the oxygen pressure of the air supply pipeline 3, and the processor 24 adjusts the aperture of the proportional valve 21 according to the oxygen flow and the oxygen pressure.

In this embodiment, the proportional valve 21 includes an air proportional valve, an oxygen proportional valve, and a vacuum proportional valve. The air supply line 3 includes an air line 12, an oxygen line 13, and a vacuum line 14. The oxygen pipeline 13 is respectively provided with an oxygen flow sensor for collecting oxygen flow, an oxygen pressure sensor for collecting oxygen pressure and an oxygen proportional valve for adjusting the oxygen flow of the oxygen pipeline 13. The flow value and the pressure value collected by the oxygen flow sensor and the oxygen pressure sensor are sent to the processor 24, and the processor 24 adjusts the aperture of the oxygen proportional valve according to the oxygen flow and the oxygen pressure so as to control the oxygen delivery flow and the oxygen delivery pressure of the oxygen pipeline 13.

Similarly, an air flow sensor for detecting an air flow, an air pressure sensor for detecting an air pressure, and an air proportional valve for adjusting the flow rate of the air line 12 are provided in the air line 12, respectively. A pressure sensor for acquiring the pressure value of the vacuum negative pressure is arranged on the vacuum pipeline 14.

In this embodiment, as a further improvement of the above technical solution, the oxygen amount control system further includes a control circuit 25 for controlling the aperture of the proportional valve 21, and the control circuit 25 is in communication connection with the processor 24 and feeds back the oxygen flow rate of the air supply line 3 and the current for controlling the proportional valve 21 to the processor 24.

In this embodiment, the oxygen supply system is a respiratory support device. The process of the control circuit 25 controlling the oxygen pipeline 13 is as follows:

the oxygen flow sensor and the oxygen pressure sensor send the collected flow value and pressure value to the processor 24, the processor 24 sends a control signal to the oxygen proportional valve, and adjusts the current value of the oxygen proportional valve and the aperture of the oxygen proportional valve corresponding to the current value, so as to change the oxygen flow and the oxygen pressure of the oxygen pipeline 13. And carrying out adaptive adjustment according to the breathing state of the user.

The foregoing is a more detailed description of the invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments disclosed herein. To the utility model belongs to the field of the ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. A medical device belt, comprising:

the equipment comprises an integrated unit and an integrated unit shell, wherein the interface of the integrated unit shell is respectively provided with a control button for controlling the flow of an air supply pipeline, a power socket and an intercom extension, the air supply pipeline communicated with the control button, a strong current lead electrically connected with the power socket and a weak current lead electrically connected with the intercom extension are arranged inside the integrated unit shell;

the connecting equipment belt is used for connecting the equipment belt integrated units, comprises a gas cavity for accommodating the gas supply pipeline, a strong current cavity for accommodating the strong current lead and a weak current cavity for accommodating the weak current lead, and is isolated by a partition plate.

2. The medical equipment belt of claim 1, wherein the air supply line comprises an air line for driving an oxygen supply apparatus, an oxygen line for supplying a source of air to the oxygen supply apparatus, and a vacuum line for providing vacuum negative pressure to the oxygen supply apparatus.

3. The medical device belt of claim 2, wherein the control button comprises an air button in communication with the air line, an oxygen button in communication with the oxygen line, and a vacuum button in communication with the vacuum line.

4. The medical equipment belt of claim 1, wherein the intercom extension is communicatively connected to the control terminal via a low current conductor.

5. The medical equipment belt of claim 1, further comprising an illumination lamp electrically connected to the strong electrical wire.

6. The medical equipment belt of claim 1, wherein the strong electric chamber and the weak electric chamber are disposed on both sides of the gas chamber, respectively.

7. The medical device strap of any one of claims 1 to 6, further comprising a side cover plate, one side of which is connected to the device strap integration unit and the other side is connected to the connecting device strap.

8. An inline equipment belt comprising a plurality of medical equipment belts as claimed in any one of claims 1 to 6, a plurality of doctor equipment belts being arranged in tandem to communicate with the air supply lines of the respective medical equipment belts.

9. An oxygen amount control system of a respiratory oxygen supply device, which is characterized by comprising the tandem equipment belt, the respiratory oxygen supply device host, a proportional valve, a flow sensor and a pressure sensor according to claim 8, wherein:

breathe oxygen suppliment equipment host computer and include the treater, proportional valve, flow sensor and pressure sensor respectively with treater communication connection, flow sensor is used for detecting the oxygen flow of air supply line, pressure sensor is used for detecting the oxygen pressure of air supply line, the treater is adjusted according to oxygen flow and oxygen pressure the aperture of proportional valve.

10. The oxygen control system of claim 9, further comprising control circuitry for controlling the aperture of the proportional valve, the control circuitry being communicatively coupled to the processor for feeding back to the processor the flow of oxygen from the gas supply line and the current to control the proportional valve.

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