TWM493999U - Respiratory tube inspection system - Google Patents

Description

Breathing tube detection system

This creation department relates to a respiratory airway detection system, in particular to a gas leak detection for a respiratory air tube, and a detection system for conveniently and quickly detecting whether a respiratory air tube leaks after sterilization.

According to the emergency, respiratory failure caused by various diseases and other diseases of the heart, chest, brain, and some patients with lung disease, they are unable to breathe by themselves because of their ability to lose spontaneous breathing, or they can breathe on their own but cannot reach the human body. Oxygen concentration is required, and a respirator is required to maintain life. However, since the breathing trachea is used after cleaning, disinfection, and drying, it can be reused. However, the breathing trachea is convenient for traction and winding, and is mostly made of a soft material. Therefore, it is often caused by the rupture of the tubular body of the breathing trachea or the occurrence of gaps and holes during the cleaning process, which causes the oxygen to leak from the gap and the hole easily in the subsequent gas supply operation, so that the supply of the respirator is not smooth and the amount of oxygen is insufficient. In turn, the patient is caused by the lack of oxygen, which makes it impossible to maintain the body function and the condition is aggravated, or the life is lost.

In order to improve the above-mentioned defects, the current medical institutions will clean the breathing tube after disinfection and drying, and will place the breathing tube in the respirator for self-function testing; however, due to the different standards of the respirator leak detection function test acceptance criteria Inconsistent, and because the respirator is directly in contact with the patient, infection control must be very careful. In view of this, build an independent breathing tube leak detection system to straight It is applied to the pipeline after the sterilization to measure the leak, and to standardize the same test acceptance standard, which is an urgent problem to be solved in the current respiratory airway testing operation.

The purpose of this creation is to improve the above-mentioned deficiency and provide a detection system that can easily and quickly detect whether the respiratory air tube leaks.

In order to achieve the above object, the detection system of the present invention comprises a pressure regulating gas storage device and a detecting device; wherein: the pressure regulating gas storage device comprises a gas storage device, and an air intake pipe is arranged at the front end of the gas storage device, and the air intake conveying device is provided. The front end of the pipe is provided with an air inlet connector, and the air inlet connector is connected with a gas source. The air inlet pipe is pivotally connected with a pressure regulating valve and a first switch, and the pressure regulating valve is provided with a pressure indicator for the gas. The source output gas can be stored in the gas reservoir through the first switch after being regulated by the pressure regulating valve; the detecting device comprises a first pipe joint and a second pipe joint, the first pipe joint and the second pipe joint The pipe joint can provide a breathing pipe with two ends respectively connected to the joint; and the first pipe joint front end is pivotally connected with the first conveying pipe, and the other end of the first conveying pipe is connected with the gas storage, the first conveying pipe a first pressure indicator and a second switch are disposed; a second delivery pipe is pivotally connected to the rear end of the second pipe joint, a second pressure indicator is disposed on the second delivery pipe, and a vent is provided at the other end of the second delivery pipe Pressure valve The gas in the buffer may be sequentially discharged by the pressure relief valve through the first pressure indicator, the second switch, the first pipe joint, the breathing pipe, the second pipe joint and the second pressure indicator; , 俾 provides a detection system that can easily and quickly detect the leakage of the respiratory tract.

10‧‧‧pressure regulating gas storage device

11‧‧‧ gas storage

12‧‧‧Air intake duct

13‧‧‧Intake joint

14‧‧‧pressure regulator

15‧‧‧First switch

16‧‧‧ Pressure indicator

20‧‧‧Detection device

21A‧‧‧First pipe joint

21B‧‧‧Second pipe joint

22‧‧‧First duct

23‧‧‧First pressure indicator

24‧‧‧second switch

25‧‧‧Second delivery tube

26‧‧‧Second pressure indicator

27‧‧‧Relief valve

30‧‧‧ gas source

40‧‧‧ breathing trachea

Figure 1 is a system diagram of this creation.

Figure 2 is a schematic diagram of the device of the present creation.

Figure 3 is a flow chart of the detection of this creation.

The technical means used for the purpose of this creation, together with the embodiment shown in Figures 1 to 3, will be described in detail as follows: As shown in Figure 1, the detection system in the embodiment includes a tone. The gas storage device 10 and the detecting device 20; wherein: the pressure regulating gas storage device 10 (please refer to FIG. 2 at the same time) includes a gas reservoir 11 having an intake pipe 12 at the front end of the gas reservoir 11 An air inlet joint 13 is disposed at the front end of the gas delivery pipe 12, and the air inlet connector 13 can be coupled to a gas source 30 (such as a gas wall, a gas storage tank, etc.), and a pressure regulating valve 14 is pivotally connected to the air inlet pipe 12 And a first switch 15, the pressure regulating valve 14 is provided with a pressure indicator 16, so that the gas outputted by the gas source 30 can be regulated by the pressure regulating valve 14 and then input into the gas reservoir 11 via the first switch 15. .

The detecting device 20 (please refer to FIG. 2 at the same time) includes a first pipe joint 21A and a second pipe joint 21B, and the first pipe joint 21A and the second pipe joint 21B can provide a breathing pipe 40 The two ends of the first pipe joint 21A are respectively connected with the first conveying pipe 22, the other end of the first conveying pipe 22 is connected with the gas reservoir 11, and the first conveying pipe 22 is provided with the first pipe a pressure indicator 23 and a second switch 24; a second delivery pipe 25 is pivotally connected to the rear end of the second pipe joint 21B, and a second pressure indicator 26 is disposed on the second delivery pipe 25, and a second The other end of the conveying pipe 25 is provided with a pressure relief valve 27; the gas in the gas reservoir 11 can be sequentially passed through the first pressure indicator 23, the second switch 24, the first pipe joint 21A, the breathing pipe 40, and the second The line joint 21B and the second pressure indicator 26 are then discharged by the pressure relief valve 27.

In the above preferred embodiment, the pressure indicator 16, the first pressure indicator 23 and the second pressure indicator 26 can be an analog indicator or an electronic display screen.

In the above preferred embodiment, the pressure regulating valve 14, the first switch 15, the second switch 24, and the pressure relief valve 27 may be a manually operated valve body or an automatically controlled solenoid valve.

By means of the above device, the air inlet joint 13 of the pressure regulating gas storage device 10 is connected with a gas source 30 (such as a gas wall, a gas storage tank, etc.), and then the two ends of the respiratory gas tube 40 to be tested are respectively pivoted to the first After the second switch 24 and the pressure relief valve 27 are closed on a pipe joint 21A and the second pipe joint 21B, the first switch 15 is turned on, so that the gas of the gas source 30 is sent by the intake pipe 12 and is regulated by the pressure regulating valve. 14 is adjusted to a preset pressure (for example, 15 psi) and sent to the gas reservoir 11 for storage. After the gas volume and pressure in the gas reservoir 11 reach a set value for a predetermined time, the first switch 15 is turned off, and the adjustment is performed. Whether the pressure difference between the pressure indicator 16 and the first pressure indicator 23 on the pressure valve 14 falls within the error range (eg, within 2 psi), if the pressure difference between the pressure indicator 16 and the first pressure indicator 23 is greater than The error range indicates that there is a leak between the intake duct 12 and the first duct 22, and it is necessary to exclude the detection of the subsequent breathing tube 40, if the pressure difference between the pressure indicator 16 and the first pressure indicator 23 If it is less than the error range, it means that the leak-free situation can continue the test operation.

When the pressure difference between the pressure indicator 16 and the first pressure indicator 23 is less than the error range, the second switch 24 is turned on, and the gas in the gas reservoir 21 is in the low pressure state due to the absence of gas in the breathing air tube 40. a delivery pipe 22 via the second switch 24 and the first pipe joint 21A Flowing to the breathing tube 40 and the second delivery tube 25, at this time, due to the communication between the gas reservoir 11 and the breathing tube 40, the first pressure indicator 23 and the second pressure indicator 26 are gradually balanced, waiting for the first pressure indication. After the pressure value of the second pressure indicator 26 is equal to the pressure value of the second pressure indicator 26, the second switch 24 is closed to block the gas reservoir 11 and the breathing air tube 40, so that the breathing air tube 40 is closed, and then a predetermined time is observed. When the pressure indicator 26 has a change in the pressure value, when the breathing tube 40 has no holes or cracks, the gas in the breathing tube 40 does not leak to the outside, so the pressure value of the second pressure indicator 26 and the first pressure indicator 23 is equal, it can be determined that the breathing trachea 40 is normal and can provide a user for the subsequent respiratory care operation; if the breathing trachea 40 has holes or cracks, the gas in the breathing trachea 40 will leak to the outside, the second pressure indication The pressure of the device 26 is lowered to form a pressure difference with the pressure value of the first pressure indicator 23, and it can be determined that the breathing tube 40 is abnormally bad, and the subsequent respiratory care operation cannot be provided. After the detection of the breathing tube 40 is completed, the pressure relief valve 27 is opened, and the gas in the breathing tube 40 can be discharged to the outside through the second delivery tube 25, and then the two ends of the breathing tube 40 can be self-contained from the first tube. The road joint 21A is detached from the second pipe joint 21B to provide a tester for the other breathing air pipe 40.

Therefore, as can be seen from the above, as shown in FIG. 3, the flow steps applied in the present application are as follows: intake preparation and pressure regulation test: whether the gas of the gas source 30 can be smoothly transferred from the intake duct 12 The pressure valve 14 is regulated and can be controlled by the opening and closing of the first switch 15 to output a gas or a shut-off.

Gas storage and system debugging: After the second switch 24 is closed, the first switch 15 is turned on, and the gas regulated by the pressure regulating valve 14 can be input into the gas reservoir 11, and the pressure value of the first pressure indicator 23 is observed. Whether the pressure difference between the pressure values of the pressure indicator 16 on the pressure regulating valve 14 falls within the error Within the scope, it is used to detect whether the system has a gas leak and affect the test results.

Breathing airway leakage test: opening the second switch 24 and closing the pressure relief valve 27, causing the gas in the gas reservoir 11 to flow to the breathing air pipe 40, then closing the second switch 24, observing the pressure value of the second pressure indicator 26 and the first Whether the pressure values of the pressure indicator 23 are equal; if the two are equal, it means that the breathing air tube 40 is a normal product, and if the two are not equal, it means that the breathing air tube 40 is an abnormal defective product.

Pressure relief exhaust: After the breathing tube leak test is completed, the pressure relief valve 27 is opened, so that the gas in the breathing air tube 40 and the second delivery tube 25 can be discharged to the outside, that is, the breathing air tube detection operation is completed, and then the next one can be performed. The detector of the respiratory trachea 40.

Therefore, from the above description and the embodiments of the drawings, the present creation has the following advantages:

(1) Since the present invention uses the gas reservoir 11 to store a fixed volume, fixed pressure gas, and then uses the gas to flow to the breathing tube 40, the constant pressure principle can be used to determine the breathing according to the pressure value of the second pressure indication 26. Whether the trachea 40 has a leak condition can quickly discriminate the breathing trachea 40 with or without holes or fissures, thereby ensuring that the leak-free breathing trachea 40 provides respiratory care for the patient.

(b) Since the present invention is provided by the pressure regulating valve 14, it can regulate the gas output from the gas source, and adjust the pressure of the high pressure gas in the gas reservoir 11 to adjust it to a suitable pressure for supply. The follow-up inspection operation is carried out in comparison with the conventional method of inflating the gas source (such as a gas wall), and the creation is not safe and practical due to the damage of the respiratory tract 50 due to excessive gas output and pressure.

(3) Because the creation system uses the fixed volume and fixed in the gas reservoir 11 The gas of pressure is used as the source of the detection gas. Even when the holes or cracks in the breathing tube 40 are very small, the gas will still leak out, the overall volume will decrease, and the pressure will become smaller. The pressure value of the second pressure indicator 26 will be reduced. That is, it will fall and a pressure difference is generated with the pressure value of the first pressure indicator 23, so that the person can correctly judge that the breathing tube 40 is abnormally bad.

(4) Due to the simple structure of the detection system of the present invention, the operation and detection methods are simple and rapid, and the intake volume and pressure of the gas reservoir 11 and the opening and closing time of the first switch 15 and the second switch 24 can be preset. The personnel can directly pivot the two ends of the breathing and air pipe 40 which are cleaned, disinfected and dried to the first pipe joint 21A and the second pipe joint 21B respectively, and after starting the system, the test can be started and the technician can be directly provided. It is discriminated whether the pressure values of the first pressure indicator 23 and the second pressure indicator 26 are the same or not; therefore, the detection system of the present invention does not require complicated and complicated setting procedures and detection processes, and does not require a technician with considerable professional knowledge to come. Operational testing can improve the rapidity of respiratory airway testing and the convenience and simplicity of operation.

As can be seen from the above description and the embodiments of the drawings, the present invention can provide a rapid and convenient detection system and detection method for leak detection of the respiratory air tube 40, especially the gas with fixed volume and fixed pressure is used as the creation. The source of the gas is detected, no matter how small the pores or cracks in the breathing trachea 40 are, the pressure can be changed due to the volume change, and the person can be conveniently informed that the breathing trachea 40 is normal or abnormal, which helps to improve the discrimination. Sexuality and improve the safety of respiratory care patients. Therefore, this creation does have significant progress, and its construction is indeed unprecedented. Cheng has already met the requirements for the creation of patents, and has filed a patent application according to law, and prayed for a patent for prayer.

The above is only a possible embodiment for the purpose of this creation, and therefore is not It is possible to limit the scope of protection of this creation, and any changes or modifications made by those skilled in the art in accordance with this creation specification and the scope of application for patents shall remain within the scope of protection covered by this creation.

10‧‧‧pressure regulating gas storage device

11‧‧‧ gas storage

12‧‧‧Air intake duct

13‧‧‧Intake joint

14‧‧‧pressure regulator

15‧‧‧First switch

16‧‧‧ Pressure indicator

20‧‧‧Detection device

21A‧‧‧First pipe joint

21B‧‧‧Second pipe joint

22‧‧‧First duct

23‧‧‧First pressure indicator

24‧‧‧second switch

25‧‧‧Second delivery tube

26‧‧‧Second pressure indicator

27‧‧‧Relief valve

30‧‧‧ gas source

40‧‧‧ breathing trachea

Claims (3)

A breathing air pipe detecting system comprises a pressure regulating gas storage device and a detecting device; wherein: the pressure regulating gas storage device comprises a gas storage device, the gas storage device front end is provided with an air inlet conveying pipe, and the front end of the air inlet conveying pipe is provided with a feeding The gas joint is connected to the gas source, and the pressure regulating pipe is pivotally connected with a pressure regulating valve and a first switch, and the pressure regulating valve is provided with a pressure indicator, so that the gas output by the gas source can be The pressure regulating valve is regulated and stored in the gas reservoir through the first switch; the detecting device comprises a first pipe joint and a second pipe joint, and the first pipe joint and the second pipe joint are provided The two ends of the first gas pipe are respectively connected with the first conveying pipe, and the other end of the first pipe is connected with the gas reservoir, and the first pipe is provided with the first pressure. The indicator is connected to the second switch; the second pipe joint is pivotally connected with a second conveying pipe, the second pipe is provided with a second pressure indicator, and the other end of the second pipe is provided with a pressure relief valve; The above device A convenient, rapid detection of respiratory airway leaks detection system. The breathing tube detection system of claim 1, wherein the pressure indicator, the first pressure indicator and the second pressure indicator of the pressure regulating valve are an analog indicator or an electronic display screen. The breathing tube detection system of claim 1, wherein the pressure regulating valve, the first switch, the second switch, and the pressure relief valve are a manually operated valve body or an automatically controlled solenoid valve.