CN211611195U - Visual two-chamber bronchial tube - Google Patents

Abstract

The utility model provides a visual double-cavity bronchial catheter, which comprises an air duct main body, a catheter group and a catheter sac set which are arranged on the air duct main body, wherein a small-sized camera and a wireless communication module are arranged in the air duct main body; the input end of the wireless communication module is electrically connected with the small camera; the output end of the wireless communication module is in wireless communication connection with an external receiver. The utility model provides a visual double-cavity bronchial catheter, which is characterized in that the small camera is arranged on the main body of the ventilation catheter, so that the visual operation of the lung insertion position is realized when the operation patient uses the double-cavity bronchial catheter to ventilate the lung; the small-sized camera is electrically connected with the wireless communication module, and image data collected by the small-sized camera is wirelessly transmitted to an external receiver for image display, so that a doctor can conveniently check and treat the condition of a patient.

Description

Visual two-chamber bronchial tube

Technical Field

The utility model relates to the technical field of medical equipment, more specifically relates to a visual two-chamber endotracheal tube.

Background

The double-cavity bronchial catheter is widely used for separating the two lungs in the chest surgery lung operation, so that the two lungs are isolated while the lungs of a patient keep ventilating, and the phenomenon that secretions, interstitial fluid or blood in the lung which is subjected to the operation enter the other lung to infect the lung which is not subjected to the operation is avoided, and the protective effect is achieved.

The double-lumen bronchial catheter widely used in clinic at present is a Karensi double-lumen tube which is divided into a left lumen and a right lumen, but the double-lumen tube has the following defects: the image of the inserted part can not be seen without a picture, and an endoscope needs to be inserted; the picture of the endoscope lens is transmitted by a data line, and the wireless communication capability is lacked; the internal environment of the lung of the patient is dark, the endoscope lens is lack of a light source, and the imaging quality is not high; lack of sputum aspiration channels cannot aspirate interstitial fluid, secretions or blood from the lungs.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome current two-chamber endotracheal tube and need the endoscope cooperation to use, have the technical defect who lacks wireless communication ability, provide a visual two-chamber endotracheal tube.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a visible double-cavity bronchial catheter comprises an airway catheter main body, a catheter group and a catheter bag sleeve group, wherein the catheter group and the catheter bag sleeve group are arranged on the airway catheter main body; the input end of the wireless communication module is electrically connected with the small camera; the output end of the wireless communication module is in wireless communication connection with an external receiver.

In the scheme, the small camera is arranged on the main body of the ventilation catheter, so that the visual operation of the lung insertion position is realized while the operation patient uses the double-cavity bronchial catheter to ventilate the lung; the small-sized camera is electrically connected with the wireless communication module, and image data collected by the small-sized camera is wirelessly transmitted to an external receiver for image display, so that a doctor can conveniently check and treat the condition of a patient.

Wherein the conduit set comprises a primary inflation conduit, a secondary inflation conduit and a drainage conduit; wherein:

the main inflation conduit, the auxiliary inflation conduit and the liquid discharge conduit are communicated with the ventilation conduit main body;

the main inflation catheter and the auxiliary inflation catheter are used for inflating the catheter bag set;

the drainage catheter is used for draining secretions in the lung.

Wherein the catheter balloon set comprises a primary airway balloon set and a secondary airway balloon set; wherein:

the main airway tube bag sleeve and the auxiliary airway tube bag sleeve are both arranged on the airway tube main body;

the main inflation catheter inflates the main airway catheter cuff through the airway catheter main body;

the secondary inflation catheter inflates the secondary inflation catheter cuff through the main body of the ventilation catheter;

the small camera is arranged between the main air duct sac sleeve and the auxiliary air duct sac sleeve.

In the scheme, the auxiliary ventilation catheter sac sleeve is arranged at the tail end of the ventilation catheter main body and is used for sealing the bronchus of an operator; the position of the main air duct bag sleeve is spaced from the position of the auxiliary air duct bag sleeve by a certain distance, and the main air duct of an operator is sealed; the small-sized camera is arranged at the distance between the main air duct bag sleeve and the auxiliary air duct bag sleeve to collect lung images.

An image acquisition channel is further arranged between the main airway tube bag sleeve and the auxiliary airway tube bag sleeve, and the small camera acquires images through the image acquisition channel.

The air duct main body is provided with an LED lamp, and the LED lamp is arranged on one side, far away from the main air duct bag sleeve, of the auxiliary air duct bag sleeve.

In the above scheme, the LED lamp provides the light source for small-size camera image acquisition, improves the imaging quality.

Wherein, a liquid discharge cavity is arranged on the ventilation catheter main body, and the liquid discharge catheter is connected with the liquid discharge cavity through the ventilation catheter main body.

In the scheme, the drainage catheter is connected with the drainage cavity and is used for draining secretions, interstitial fluid and blood in the lung of an operator and preventing the other lung from being infected.

Wherein the ventilation catheter main body is also provided with a power supply module and a power supply line; the power supply module supplies power for the small camera and the wireless communication module through the power supply line.

The small camera adopts a DWC1 type digital wireless micro camera.

The wireless communication module adopts an H7000E type micro wireless communication module.

In the scheme, the LED lamps adopt point-shaped LED lamp groups; the wireless communication module transmits the influence collected by the small camera to an external receiver through a 2.4Hz wireless signal, and the influence is displayed on a screen of the receiver; the power supply module supplies power to the LED lamp, the small-sized camera and the wireless communication module, and the power supply voltage is 5V.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:

the utility model provides a visual double-cavity bronchial catheter, which is characterized in that the small camera is arranged on the main body of the ventilation catheter, so that the visual operation of the lung insertion position is realized when the operation patient uses the double-cavity bronchial catheter to ventilate the lung; the small-sized camera is electrically connected with the wireless communication module, and image data collected by the small-sized camera is wirelessly transmitted to an external receiver for image display, so that a doctor can conveniently check and treat the condition of a patient.

Drawings

Fig. 1 is a schematic structural view of a visible double-lumen bronchial catheter according to the present invention;

wherein: 1. an airway tube body; 2. a catheter group; 21. a primary inflation conduit; 22. a secondary inflation conduit; 23. a drainage conduit; 3. a catheter balloon set; 31. a main airway tube cuff; 32. a secondary airway tube cuff; 4. a small-sized camera; 5. a wireless communication module; 6. an image acquisition channel; 7. an LED lamp; 8. a liquid discharge cavity; 9. a power supply module; 10. a power supply line.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The technical solution of the present invention will be further explained with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1, a visible double-lumen bronchial catheter comprises an airway tube main body 1, a catheter group 2 and a catheter bag sleeve group 3 which are arranged on the airway tube main body 1, wherein a small-sized camera 4 and a wireless communication module 5 are arranged in the airway tube main body 1; the input end of the wireless communication module 5 is electrically connected with the small camera 4; and the output end of the wireless communication module 5 is in wireless communication connection with an external receiver.

In the specific implementation process, the small camera 4 is arranged on the ventilation catheter main body 1, so that the visual operation of the lung insertion position is realized while the lung ventilation of a surgical patient is carried out by using the double-cavity bronchial catheter; small-size camera 4 carries out electric connection with wireless communication module 5, with the image data wireless transmission that small-size camera 4 gathered to outside receiver on for image display, the doctor of being convenient for looks over and the treatment of patient's condition.

Example 2

More specifically, on the basis of embodiment 1, the tube group 2 includes a primary inflation tube 21, a secondary inflation tube 22, and a drainage tube 23; wherein:

the main inflation conduit 21, the auxiliary inflation conduit 22 and the liquid drainage conduit 23 are communicated with the airway main body 1;

the main inflation conduit 21 and the auxiliary inflation conduit 22 are used for inflating the conduit balloon set 3;

the drain conduit 23 is used to drain secretions from the lungs.

More specifically, the catheter balloon set 3 includes a primary airway balloon 31 and a secondary airway balloon 32; wherein:

the main airway tube bag sleeve 31 and the auxiliary airway tube bag sleeve 32 are both arranged on the airway tube main body 1;

the primary inflation catheter 21 inflates the primary airway tube cuff 31 through the airway tube body 1;

the secondary inflation catheter 22 inflates the secondary airway tube cuff 32 through the airway tube body 1;

the small-sized camera 4 is arranged between the main airway tube bag cover 31 and the auxiliary airway tube bag cover 32.

In a specific implementation, the secondary airway tube cuff 32 is provided at the distal end of the airway tube body 1 for sealing the bronchus of the operator; the main air duct bag sleeve 31 is arranged at a position which has a certain distance with the auxiliary air duct bag sleeve 32 and is used for sealing the main air duct of an operator; the small-sized camera 4 is arranged at the distance between the main airway tube bag sleeve 31 and the auxiliary airway tube bag sleeve 32 and is used for collecting lung images.

More specifically, an image acquisition channel 6 is further provided between the main airway tube cuff 31 and the auxiliary airway tube cuff 32, and the small-sized camera 4 performs image acquisition through the image acquisition channel 5.

More specifically, the airway tube body 1 is provided with an LED lamp 7, and the LED lamp 7 is arranged on the side of the secondary airway tube cuff 32 away from the primary airway tube cuff 31.

In the specific implementation process, the LED lamp 7 provides a light source for the image acquisition of the small camera 4, and the imaging quality is improved.

More specifically, the airway tube body 1 is provided with a drainage lumen 8, and the drainage tube 23 is connected to the drainage lumen 8 via the airway tube body 1.

In the implementation process, the drainage conduit 23 is connected with the drainage cavity 8 and is used for draining secretions, interstitial fluid and blood in the lungs of an operator and preventing infection to another lung.

More specifically, the ventilation catheter main body 1 is also provided with a power supply module 9 and a power supply line 10; the power supply module 9 supplies power to the small camera 4 and the wireless communication module 5 through the power supply line 10.

More specifically, the small-sized camera 4 adopts a DWC1 type digital wireless micro camera.

More specifically, the wireless communication module 5 adopts an H7000E type micro wireless communication module.

In a specific implementation process, the LED lamp 7 is a point-like LED lamp group; the wireless communication module 5 transmits the influence collected by the small camera 4 to an external receiver through a 2.4Hz wireless signal, and displays the influence on a screen of the receiver; the power supply module 9 supplies power to the LED lamp 7, the small camera 4 and the wireless communication module 5, and the power supply voltage is 5V.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (1)

1. A visual double-cavity bronchial catheter comprises an airway catheter main body (1), and a catheter group (2) and a catheter bag sleeve group (3) which are arranged on the airway catheter main body (1), and is characterized in that: a small camera (4) and a wireless communication module (5) are arranged in the ventilation catheter main body (1); the input end of the wireless communication module (5) is electrically connected with the small camera (4); the output end of the wireless communication module (5) is in wireless communication connection with an external receiver;

wherein the duct group (2) comprises a primary inflation duct (21), a secondary inflation duct (22) and a drainage duct (23); wherein:

the main inflation conduit (21), the auxiliary inflation conduit (22) and the liquid drainage conduit (23) are communicated with the ventilation conduit main body (1);

the main inflation conduit (21) and the auxiliary inflation conduit (22) are used for inflating the conduit balloon set (3);

the drainage catheter (23) is used for draining secretions in the lung;

wherein the catheter balloon set (3) comprises a primary airway catheter balloon set (31) and a secondary airway catheter balloon set (32); wherein:

the main airway tube bag sleeve (31) and the auxiliary airway tube bag sleeve (32) are both arranged on the airway tube main body (1);

the main inflation catheter (21) inflates the main airway cuff (31) through the airway catheter body (1);

the secondary inflation catheter (22) inflates the secondary airway cuff (32) through the airway catheter body (1);

the small camera (4) is arranged between the main airway tube bag sleeve (31) and the auxiliary airway tube bag sleeve (32);

the small camera (4) adopts a DWC1 type digital wireless micro camera; the wireless communication module (5) adopts an H7000E type micro wireless communication module;

an image acquisition channel (6) is also arranged between the main airway tube bag sleeve (31) and the auxiliary airway tube bag sleeve (32), and the small camera (4) acquires images through the image acquisition channel (6);

the air duct main body (1) is provided with an LED lamp (7), and the LED lamp is arranged on one side of the auxiliary air duct bag sleeve (32) far away from the main air duct bag sleeve (31);

a liquid discharge cavity (8) is arranged on the ventilation catheter main body (1), and the liquid discharge catheter (23) is connected with the liquid discharge cavity (8) through the ventilation catheter main body (1);

wherein the ventilation catheter main body (1) is also provided with a power supply module (9) and a power supply line (10); the power supply module (9) supplies power to the small-sized camera (4) and the wireless communication module (5) through the power supply line (10).

Images