KR102075682B1 - Suction Pump Eqipped with Position Adjustable Catheter Structure - Google Patents

Abstract

Disclosed is a medical suction device capable of adjusting the catheter guide structure. The present invention, the catheter coupled to the medical suction device to remove the foreign matter inside the respirator is inserted into the inside, the catheter guide structure for guiding the catheter entry into the respirator, and the position fixing structure for fixing the installation position of the catheter guide structure Equipped. According to the present invention, the catheter guide structure installed in the patient despite the sudden movement of the patient can maintain the installation state stably. In addition, according to the present invention, the manager can freely adjust the installation position and the installation direction of the catheter guide structure according to the room environment.

Description

Suction Pump Eqipped with Position Adjustable Catheter Structure}

The present invention relates to a medical suction, and more particularly, the catheter guide structure installed in the patient despite the sudden movement of the patient can not only stably maintain the installation state, but also according to the room environment of the catheter guide structure It relates to a medical suction device to be able to freely adjust the installation position and installation direction.

A medical suction device is a medical foreign substance inhalation device forcibly inhaling and removing foreign substances such as blood, saliva, vomiting, and secretions generated from the body of a patient while performing in a hospital.

In general, patients with discomfort in hospitals or homes are equipped with a constant suction device and caregivers or nurses remove the foreign substance from the airway or surgical site.

On the other hand, when a foreign body such as sputum occurs in the respirator of the patient with the oxygen respirator installed, the nurse removes the foreign substance by inserting the catheter provided in the medical suction device in the patient's respirator while the oxygen respirator is installed in the patient. .

On the other hand, the pain that the patient feels during the insertion of the catheter into the patient's respiratory system may cause the patient to turn head sharply or the patient moves rapidly. In this case, the catheter inserted into the patient's respiratory system The problem is that it is unintentionally forced to be drawn.

In addition, in such a case, the oxygen supply module installed for the patient's breathing may be separated from the patient, and the patient may be in serious danger.

Chinese Patent Publication No. 101970036 (2011.02.09.)

Therefore, the object of the present invention is that the catheter guide structure installed in the patient despite the sudden movement of the patient can not only stably maintain the installation state, but also the installation position and the installation direction of the catheter guide structure according to the room environment. In providing a medical suction device that can be adjusted freely.

Medical suction device according to the present invention for achieving the above object is coupled to the medical suction device is inserted into the catheter for removing foreign matter inside the respirator, the catheter guide structure for guiding the catheter entry into the respirator; And a position fixing structure for fixing the installation position of the catheter guide structure.

Preferably, the position fixing structure is characterized in that it comprises a guide member for guiding the movement in the linear direction of the catheter guide structure.

In addition, the installation direction of the catheter guide structure is switched according to the change in the installation direction of the position fixing structure.

According to the present invention, the catheter guide structure installed in the patient despite the sudden movement of the patient can maintain the installation state stably.

In addition, according to the present invention, the manager can freely adjust the installation position and the installation direction of the catheter guide structure according to the room environment.

1 is a side view showing the structure of a catheter guide structure according to a first embodiment of the present invention,
Figure 2 is a top view showing the structure of the catheter guide structure according to the first embodiment of the present invention,
3 is a view illustrating a structure of a third guide module connected to and installed in the second guide module in FIGS. 1 and 2;
4 is a view illustrating a state in which a first guide module, a second guide module, and a third guide module are connected and installed in a catheter guide structure according to a first embodiment of the present invention;
5 is a view showing the installation structure of the detachable catheter structure according to the first embodiment of the present invention to the medical suction device,
6 is a view showing the structure of the coupler provided in the main body of the medical suction device according to the present invention,
FIG. 7 is a view illustrating a structure of a fastener provided at an end portion of a connection member fastened to the coupler in FIG.
8 is a view showing the structure of a catheter guide structure according to a second embodiment of the present invention,
9 is a view showing the structure of a catheter guide structure according to a third embodiment of the present invention, and
10 and 11 are views showing the installation structure of the catheter guide structure according to the fourth embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a side view showing the structure of the catheter guide structure according to the first embodiment of the present invention, Figure 2 is a top view showing the structure of the catheter guide structure according to the first embodiment of the present invention.

The catheter guide structure in the present invention serves to guide the entry of the catheter into the respirator of the foreign body suction pipe, such as sputum, provided in the medical suction device 400 for removing the foreign matter inside the respirator.

 1 and 2, the catheter guide structure according to the first embodiment of the present invention includes a first guide module 100 and a second guide module 200 connected to the first guide module 100. do.

First, the first guide module 100 is a guide module for oxygen supply, and includes a main body 130 and an oxygen supply port 110 provided at the side of the main body 130. One end of the main body 130 is fixedly installed on the neck of the patient to supply oxygen to the patient through the neck of the patient, or enter the catheter into the respirator of the patient, the second guide module ( 200 is installed to connect.

Meanwhile, as shown in FIG. 1, the multi-connector module 600 is detachably connected to the oxygen supply port 110, and the multi-connector module 600 includes the first branch pipe 610 and the second branch pipe ( 620, the third branch pipe 630, and the connection pipe 650.

The connector 650 of the multi-connector module 600 is a cylindrical tube, one side of which is coupled to the oxygen supply port 100 by a fitting method, and the first branch pipe 610 is formed on the other side of the connector 650. have.

The first branch pipe 610 is detachably coupled to the oxygen supply pipe for providing oxygen supplied from the oxygen supply, the guardian or nurse is supplied from the oxygen supply by coupling the oxygen supply pipe to the first branch pipe 610 if necessary. Oxygen may be delivered to the oxygen supply port 110 through the first branch pipe 610.

On the other hand, the second branch pipe 620 and the third branch pipe 630 is a branch pipe extending in a diagonal direction like a twig from the side of the connecting pipe 650, the first branch pipe 610, the first The interior of the second branch pipe 620, the third branch pipe 630, and the connecting pipe 650 are interconnected.

The gas supply pipe of the nebulizer is detachably coupled to the second branch pipe 620 as necessary, whereby the patient can use the medical suction device and the nebulizer together.

On the other hand, the third branch pipe 630 is detachably coupled to the humidification pipe providing moisture supplied from the humidifier installed outside, the guardian or nurse is connected to the humidifier through the first branch pipe 610 if necessary In addition, it is possible to perform humidification of the patient's mouth and bronchus with the removal of foreign substances through the medical suction device according to the present invention.

As such, the first branch pipe 610, the second branch pipe 620, and the third branch pipe 630 of the multi-connector module 600 may be provided with an oxygen supplier, a nebulizer, and a humidifier, respectively, as necessary. If the same external equipment is selectively installed and connected, and it is not necessary to install the connection of the external equipment to a specific branch pipe it is preferable to block the inlet of the branch pipe through a stopper.

In addition, in the practice of the present invention, the caregiver or nurse the oxygen supply to the first branch pipe 610, the second branch pipe 620, and the third branch pipe 630 according to the environment and conditions of the patient's bed. In the installation, the nebulizer, and the humidifier, the present invention is not limited to the above-described method.

On the other hand, in the practice of the present invention, it may be provided with an air purification filter inside the oxygen supply port 110 to supply more clean oxygen to the patient.

In addition, when the first guide module 100 and the second guide module 200 are coupled to each other, it is preferable that the first guide module 100 be installed to be freely rotatable, and thus, the user may install the oxygen supply unit. And it is possible to easily adjust the direction of the oxygen supply port 110 in accordance with the environment of the bed.

The second guide module 200 includes an opening and closing port 210, a connecting portion 230, a coupling hole 250, a first port 270, and a second port 290. The connection unit 230 performs a function of connecting and installing the second guide module 200 to the first guide module 100, and the coupler 250 is coupled to the third guide module 300.

The opening and closing port 210 is formed at right angles to the direction of entry of the catheter between the connecting portion 230 and the coupler 250, and into the first guide module 100 of the catheter entering from the third guide module 300. The inner space is opened only when the entry is necessary, and when the entry of the catheter is not necessary, the inner space is filled by the inflated balloon 285, so that oxygen supplied through the oxygen supply port 110 is not supplied to the patient. Do not block the outflow through the coupler 250 to the outside.

Meanwhile, as shown in FIG. 2, the first port 270 and the second port 290 are formed at the side surfaces of the connection part 230. The first port 270 is connected to the mass flow meter (MASS FLOW METER) sensor for measuring the mass of the exhalation gas of the patient, the second port 290 is to maintain the humidity of the patient's airway and bronchus To perform.

3 is a view illustrating a structure of a third guide module 300 connected to the second guide module 200 in FIGS. 1 and 2.

The third guide module 300 is a guide module for inducing catheter entry into the first guide module 100, and referring to FIG. 3, the third guide according to the first embodiment of the present invention. The module 300 includes an induction port 310, a bottleneck 330, an inlet 350, a fastener 370, and a flow tube 390.

The induction hole 310 guides the insertion of the catheter through the end, and the catheter inserted through the induction hole 310 is fastened through the flow pipe 390 coupled to the bottleneck 330 via the bottleneck 330. It enters the sphere 370.

In detail, the flow pipe 390 is a flexible material pipe that guides the catheter's entry into the first guide module 100. The flow pipe 390 may be connected to the fluidity of the flow pipe 390 while the first guide module 100 is fixed to the patient. As a result, the induction port 310 is freely adjustable as necessary in the installation direction and the installation position.

As a result, even when the patient with the first guide module 100 fixedly installed on the body turns the head or changes the lying direction, the induction hole 310 frees the necessary installation direction and installation position according to the patient's posture. It can be formed.

On the other hand, in the practice of the present invention, as shown in Figure 3 by inserting the coil spring 395 continuously inserted into the inner wall surface of the flow pipe 390, the installation direction and installation position of the guide port 310 is adjusted according to the specific shape It will be desirable to ensure that the flow pipe 390 curved to ensure the minimum rigidity that can maintain the curved shape.

In addition, the catheter passing through the flow tube 390 passes through the interior of the coil spring 395 installed on the inner wall surface of the flow tube 390, the coil spring 395 is a space for moving the catheter in the flow tube 390 Function to secure.

Specifically, the coil spring 395 provided on the inner wall surface of the flow pipe 390 is deformed or the narrowing of the cross section of the inner space of the flow pipe 390 even when the flow pipe 390 is curved in any shape This will prevent the catheter from moving.

That is, by installing the coil spring 395 on the inner wall surface of the flow tube 390, the inner diameter of the flow tube 390 is maintained the same as the outer diameter of the coil spring 395, despite the curvature of the flow tube 390 flow tube ( The cross section of 390 can maintain its size and shape.

On the other hand, in the practice of the present invention, the flow tube 390 is a tube of flexible tube material, one end is fitted to the outer peripheral surface of the fastener 370, the other end may be fitted to the outer peripheral surface of the bottleneck 330. will be.

On the other hand, the fastener 370 is inserted and installed as shown in Figure 4 in the interior of the coupler 250 provided in the second guide module 200, it is installed to be freely rotatable in the state installed in the coupler 250 Would be preferred.

In this case, the user can adjust the installation direction of the third guide module 300 by adjusting the rotation angle of the fastener 370 according to the position of the catheter supply device and the bed environment, and as a result, the second guide module of the catheter As it is possible to form various entrance angles in the entry into the 200, the user can adjust the entry angle of the catheter in a direction that can minimize the pain of the patient.

The bottleneck 330 forms a section in which the size of the movement passage of the catheter formed in the second guide module 200 is narrowed. Specifically, the diameter of the movement passage of the catheter formed inside the bottleneck 330, it is preferable to match the outer diameter of the catheter within the range so that the frictional resistance does not occur on the outer surface of the catheter.

On the other hand, the induction hole 310 is formed at the lower end (bottom of the bottleneck section) of the bottleneck section of the movement passage formed by the bottleneck 330, the upper end (top of the bottleneck section) of the bottleneck section A pair of inlets 350 are formed.

The user may supply the saline or sterile water into the second guide module 200 through a pair of inlets 350 formed on the side of the third guide module 300, more specifically, the user of the catheter By supplying saline or sterile water through the inlet 350 in the state in which the suction end is located at the upper end of the bottleneck section inside the bottleneck 330, the saline or sterile water can be introduced into the catheter, the catheter of the catheter It is possible to wash or sterilize the inner wall.

On the other hand, because there is a minute gap (about 0.5mm) between the moving passage inside the bottleneck 330 and the outer surface of the catheter, the saline or sterilizing water supplied through the inlet 350 is also supplied to the outer surface of the catheter As a result, it is also possible to wash or sterilize the outer surface of the catheter.

On the other hand, in the practice of the present invention, by forming an expansion section (not shown) in the center of the bottleneck section inside the bottleneck section 330 again widen, the outer surface of the catheter in the expansion section by saline or sterile water It may be allowed to deposit for a predetermined time (about 3 minutes) to double the effect of the cleaning or sterilization treatment on the catheter outer surface.

On the other hand, when a predetermined deposition time has elapsed, it may be desirable to discharge the saline or sterilized water stored in the expansion section inside the bottleneck 330 through the induction hole 310 to the outside using the suction equipment.

In addition, as the catheter inserted forward into the respirator retreats, foreign matter adhering to the outer surface of the catheter is filtered on the protruding jaw formed at the upper end of the bottleneck section, and the foreign matter separated from the outer surface of the catheter is suction equipment. By using it can be discharged to the outside through the induction hole 310.

As described above, according to the present invention, the cleaning and sterilization of the catheter provided in the medical suction device 400 can be easily performed.

4 is a view showing a state in which the first guide module 100, the second guide module 200, and the third guide module 300 are installed in the catheter guide structure according to the first embodiment of the present invention.

As shown in FIG. 4, at one end of the opening and closing opening 210 provided in the second guide module 200, a balloon 285 is installed at one end and an opening and closing module 280 having an air inlet 287 at the other end is inserted and installed. do.

On the other hand, when it is not necessary to remove foreign substances such as sputum from the patient's respirator, the catheter does not need to be introduced into the first guide module 100, so that the controller (not shown) is connected to the air inlet 287. By injecting air into the balloon 285 through the balloon 285, the balloon 285 installed in the internal space of the opening and closing port 210 is expanded to fill the internal space, thereby engaging the coupling hole 250 of the opening and closing port 210. ) And both the connecting passage and the connecting passage with the connecting portion 230 of the opening and closing 210.

As such, by closing the internal space of the opening and closing port 210, oxygen supplied to the first guide module 100 through the oxygen supply port 110 through the second guide module 200 and the third guide module 300. Not only can it be prevented from being lost to the outside, and contaminants such as sputum inhaled by the catheter connected to the third guide module 300 are prevented from being transmitted to the patient through the first guide module 100. The catheter, which is connected to the third guide module 300 by the breathing of the patient, can be prevented from being contaminated.

On the other hand, when it is necessary to remove foreign substances such as sputum from the patient's respirator, the catheter should be introduced into the first guide module 100, so that the controller (not shown) includes an air inlet 287 and an air compressor (not shown). And the opening and the opening and closing port of the opening and closing 210, the coupling opening 250 and the opening (210), as the balloon 285 is contracted by discharging the air from the balloon 285 Open all of the connection passages with the connection portion 230 of the (210).

As such, the inner space of the opening and closing port 210 is opened, and the catheter entered through the third guide module 300 passes through the inside of the second guide module 200 and the first guide module 100 to the patient's respirator. You can enter.

The second guide module 200 performing the above function will be referred to as a guide module for opening and closing in the present specification.

As described above, according to the present invention, the operation of opening the internal space of the opening and closing port 210 when inserting the catheter into the respirator to inhale foreign substances such as phlegm existing in the respirator of the patient equipped with the oxygen respirator, and removing the catheter After the operation of closing the internal space of the opening and closing 210 is automatically performed by the opening and closing module 280, it is possible to quickly and efficiently nursing treatment for the patient.

Meanwhile, the catheter entering the second guide module 200 enters the first guide module 100 through the connection part 230 from the coupler 250 through the opening and closing port 210, and in this process, the connection part 230. As shown in FIG. 4, the vertical installation height of the coupling hole 250 is smaller than the vertical installation height of the connection part 230 so that the catheter is not caught by the boundary between the connection part 230 and the opening and closing port 210 in the process of entering the It may be desirable to form as high as about 1 cm.

Meanwhile, in the practice of the present invention, the function of the opening / closing module 280 implemented through the balloon 285 is a selective shielding function of the solenoid valve, a selective shielding function by an air curtain, and a selective shielding by elastic force of an elastic structure such as a spring. It could also be implemented through functionality.

8 is a view showing the structure of a catheter guide structure according to a second embodiment of the present invention. The catheter guide structure in FIG. 8 omits the second guide module 200 in the catheter guide structure in FIG. 4, and directly connects and installs the first guide module 100 and the third guide module 300. Equipped.

Specifically, in the first guide module 100 of FIG. 8, the connection part 230 including the first port 270 and the second port 290 is provided on the opposite side of the main body part 130. The connecting portion 230 is directly coupled to the fastening portion 370 of the third guide module 300.

5 is a view showing the installation structure of the detachable catheter structure according to the first embodiment of the present invention to the medical suction device.

Referring to FIG. 5, the detachable catheter structure according to the first embodiment of the present invention may include a first guide module 100, a second guide module 200, and a third guide module 300, or FIG. 8. As in the catheter guide structure consisting of the first guide module 100 and the third guide module 300, connecting the body and the catheter guide structure of the medical suction device 400, the transfer pipe 535 of the catheter 10 therein ) Is formed with a connection member 500, and a catheter 10 is provided inside the connection member 500.

As described above, the detachable catheter structure according to the present invention includes a catheter guide structure and a connecting member 500 which is a cylindrical casing member in which a catheter 10 inserted into the catheter guide structure is installed. At one end of the catheter guide structure is coupled, the other end of the connecting member 500 is detachably fastened to the coupling module 430 provided in the main body of the medical suction device 400 as shown in FIG.

On the other hand, as shown in Figure 6 the end of the connection member 500 is fastened to the coupling module 430 provided in the main body portion of the medical suction device 400 is provided with a fastening module 530 of the form as shown in FIG. have.

Specifically, as shown in Figure 7 the center of the fastening module 530, the transfer pipe 535 to which the catheter 10 is transferred is formed protruding.

On the other hand, the center of the coupling module 430 is formed with a protruding center tube 435, the center tube 435 is coupled to the inside of the transfer pipe 535 in a fitting manner. Accordingly, the catheter 10 installed in the transfer pipe 535 may be inserted into the medical suction device 400 through the center pipe 435.

In addition, the transport pipe 535 formed in the center of the fastening module 530 as shown in Figure 7 is preferably formed to extend to the other end of the connection member 500 through the interior of the connection member 500, Accordingly, the catheter 10 is deployed from the inside of the medical suction device 400 through the center tube 435 and the transfer tube 535 to the inside of the catheter guide structure through the inside of the connecting member 500.

On the other hand, as shown in Figure 7, the fastening module 530 has a circular shape around the transfer pipe 535, a plurality of peripheral tubes (537) protruding at a predetermined interval, the coupling module 430 in the center tube A plurality of annular pipes 437 are formed protruding at regular intervals, forming a circle around 435.

In this way, the plurality of peripheral tubes 537 formed in the fastening module 530 are coupled to each other in a fitting manner to each of the plurality of accessory tubes 437 formed in the coupling module 430.

On the other hand, the plurality of peripheral pipes 537 formed in the fastening module 530 may be preferably extended to the other end of the connection member 500 through the interior of the connection member 500, as described above, the connection member 500 The plurality of peripheral pipes 537 formed to extend to the other end of the first port 270, the second port 290, the air inlet 287, it is preferable that they are installed respectively connected to the inlet (350).

Accordingly, the saline solution or sterilizing water supplied from the medical suction device 400 through the specific accessory pipe 437 may be supplied to the inlet 350 through the peripheral pipe 537 coupled to the corresponding pipe 437. The air injected through the specific accessory pipe 437 from the air compressor installed inside the medical suction device 400 may be supplied to the air inlet 287 through the peripheral pipe 537 coupled to the corresponding pipe 437. do.

In addition, the mass flow meter sensor installed in the medical suction device 400 is connected to the peripheral port 537 connected to the first port 270 and through the associated pipe 437 coupled with the peripheral pipe 537 of the exhalation gas of the patient The mass can be measured.

In addition, the mist supplied from the medical suction device 400 through the specific accessory pipe 437 can be supplied to the second port 290 through the peripheral pipe 537 coupled to the corresponding accessory pipe 437.

On the other hand, the manager of the medical suction device 400 according to the present invention by dismantling the coupling of the fastening module 530 and the coupling module 430, and then easily detachable detachable catheter structure according to the invention from the medical suction device 400, By installing a new removable catheter structure coupled to the medical suction device 400, it is possible to quickly and efficiently replace the contaminated catheter 10.

On the other hand, since the catheter 10 provided in the detachable catheter structure according to the present invention is not exposed to the outside by being installed inside the connection member 500, the health problems such as infection due to the contaminated catheter 10 is It does not occur.

9 is a view showing the structure of a catheter guide structure according to a third embodiment of the present invention. Referring to FIG. 9, the catheter guide structure according to the third embodiment of the present invention does not include the third guide module 300, and the second guide module 200 and the first guide module 100 are connected in plurality. They are interconnected via hoses.

Specifically, the catheter guide structure according to the third embodiment of the present invention includes a first guide module 100, a second guide module 200, and a connecting member 500, the second guide module 200 The catheter delivered through the connecting member 500 is delivered to the first guide module 100 through the connecting hose.

The internal structure of the connection member 500 and the structure of the fastening module 530 in FIG. 9 are the same as described above. Unlike FIG. 5, the fastening module 530 is provided at both ends of the connection member 500, respectively.

The fastening module 530 provided at one end of the connection member 500 is detachably fastened to the coupling module 430 provided at the main body of the medical suction device 400 as described above. The fastening module 530 provided at the other end is detachably fastened to the connector 205 provided in the second guide module 200 as shown in FIG. 9.

Specifically, one end of the second guide module 200 according to the third embodiment of the present invention is provided with a connector 205 having the same structure as the coupling module 430.

More specifically, the center of the connector 205 is formed with a protruding center tube, the center tube is coupled to the inside of the transfer pipe 535 in a fitting manner. Accordingly, the catheter 10 installed in the transfer pipe 535 may be moved into the second guide module 200 through the center tube of the connector 205.

In addition, the connector 205 is formed in a circular shape around the center tube and a plurality of annular pipes are formed at regular intervals, and the plurality of peripheral pipes 537 formed in the fastening module 530 are connected to the connector 205. Each of the plurality of appendages formed is fitted to each other by fitting.

Accordingly, the saline solution, oxygen, air by air compressor, etc., which are respectively supplied from the medical suction device 400 through the plurality of accessory pipes 437, are connected to the accessory pipes 437, respectively. It is supplied to the second guide module 200 through the peripheral pipe 537 and the peripheral pipe of the connector 205.

More specifically, the connector 205 is provided with six peripheral tubes respectively coupled to the six peripheral tubes 537 provided in the fastening module 530, as described above, six peripheral tubes provided in the connector 205 The six types of ports formed on the outside of the second guide module 200 and the second guide module 200 are connected to each other independently.

Specifically, a mass flow meter (MFM) sensor for measuring the mass of exhalation gas of a patient is connected to the first port 270 of the six types of ports provided in the second guide module 200.

Meanwhile, in order to more accurately measure the mass of the exhalation gas, as shown in FIG. 9, the first port 270 is installed at the connection part 230, which is a part closer to the patient in the second guide module 200, but the connector 205. The additional first port 270 is installed in a portion adjacent to the mass, and the pair of first ports 270 is connected through a connecting hose to connect the mass installed in the peripheral pipe provided in the connector 205. It would be desirable to allow mass measurement of exhaled gas through a MASS FLOW METER (MFM) sensor.

On the other hand, of the six types of ports provided in the second guide module 200, the second port 290 is connected to each other via a saline supply port 190 provided in the first guide module 100 through a connection hose. .

Accordingly, the saline solution supplied from the suction device 400 is delivered to the first guide module 100 through the second port 290 and the saline supply port 190, and the tube is coupled to the first guide module 100. By supplying to the bronchus of the patient through 50, it is possible to prevent foreign substances such as sputum from drying out by maintaining the humidity of the patient's airways and bronchus.

In addition, the third port 220 is installed in each of the opening and closing portion 210 and the connector 205 adjacent to the balloon 285 is installed therein, such a pair of third port 220 is connected to the hose Interconnected.

Meanwhile, the air supplied through the air compressor installed in the medical suction device 300 is injected into the balloon 285 through the third port 220, and the air injected into the balloon 285 then opens the third port 220. To be removed.

As shown in FIG. 9, the balloon-shaped cuff 55 is fixed to the side surface of the tube 50 coupled to the main body 130 of the first guide module 100 and inserted into the bronchus of the patient. ) Is provided.

The fourth port 240 is connected to the balloon type cuff 55 through a connection hose, and as a result, air is injected or removed through the fourth port 240 to which the air compressor is connected. You can do it.

In addition, the fifth port 260 is connected to the upper portion of the cuff 55 on the outer surface of the tube 550 through a connecting hose.

In this regard, saliva, such as saliva (a saliva that has passed into the patient's airway), accumulates on the upper surface of the cuff 55 that is expanded by air injection through the fourth port 240 to fix the tube 50.

As such, the saliva of the patient standing on the upper surface of the cuff 55 can be removed through the fifth port 260 to which the suction pump is connected.

In addition, the sixth port 265 is connected to the oxygen injection port 165 provided in the first guide module 100 through a connection hose, and from the suction device 400 to the sixth time from the suction start time to the end of the suction time of the foreign matter. Oxygen supplied to the port 265 is delivered to the oxygen inlet 165 provided in the first guide module 100 through a connection hose.

As a result, oxygen is constantly supplied to the patient through the tube 50 connected to the first guide module 100 during the foreign substance suction, thereby preventing the patient from being in an oxygen deficient state during the execution of the foreign substance suction. .

Meanwhile, as shown in FIG. 9, the second guide module 200 and the first guide module 100 are connected through a plurality of connecting hoses, and the tube 50 is connected to the main body 130 of the first guide module 100. ) Is used in combination, the manager separates the connector 205 of the second guide module 200 from the fastening module 530 of the connection member 500, thereby the second guide module 200, the first guide module ( 100, a plurality of connecting hoses connecting them, and the tube 50 can be replaced integrally.

In this specification, as shown in FIG. 9, the first consumable includes a component assembly in which the second guide module 200, the first guide module 100, a plurality of connecting hoses connecting them, and the tube 50 are integrally coupled to each other. It is called a module structure.

Meanwhile, in the practice of the present invention, a manufacturer may separately manufacture the first consumable module structure and supply the same to a hospital using a medical suction device, and a manager of the medical suction device may purchase a connector in the first consumable module structure purchased from the manufacturer. 205 is replaced with the fastening module 530 of the connection member 500 to replace the first consumable module structure at regular intervals (for example, one day) to facilitate periodic hygiene management of the medical suction device. You can run it.

In addition, in the present specification, as shown in FIG. 9, the connection member 500 provided with the fastening module 530 at both ends will be referred to as a second consumable module structure.

On the other hand, in the practice of the present invention, the manufacturer will be able to separately manufacture the second consumable module structure and supply it to a hospital using a medical suction device, the manager of the medical suction device is separate from the replacement of the first consumable module structure, Economical hygiene management of the medical suction device may be achieved by replacing and managing the second consumable module structure at a separate cycle (for example, one month).

10 and 11 are views showing the installation structure of the catheter guide structure according to the fourth embodiment of the present invention.

As shown in Figure 10, the connecting member 500 in the catheter guide structure according to the fourth embodiment of the present invention is fixed to the body of the medical suction device 400 through the mutual coupling of the fastening module 530 and the coupling module 430 It is installed.

On the other hand, in order to enable the catheter guide structure including the connecting member 500 can be installed in various directions and angles as necessary, when the installation position of the catheter guide structure including the connecting member 500 is changed by the user It would be desirable to install a position fixing structure 700 that performs the function of fixing the changed installation position as in FIGS. 10 and 11.

Specifically, the position fixing structure 700 is a rod-shaped member, the front end forms a straight section, the rear end forms a curved section.

As shown in FIG. 11, a sliding bar 750, which is a rod-shaped member that is slidably movable along the straight section, is installed inside the straight section, and a coupler 770 is formed at an end of the sliding bar 750. 770 is detachably coupled to the fastening module 530 of the connection member 500.

On the other hand, when the patient inserting the tube 50 into the bronchi turns the head due to pain or moves the body, when the catheter guide structure is pulled in the horizontal direction or the straight direction, the connecting member 500 is horizontal or straight. Direction, and as a result, the sliding bar 750 coupled to the connection member 500 and the coupler 770 is slidably moved inside the position fixing structure 700.

That is, even when the catheter guide structure is suddenly pulled in the horizontal direction or the straight direction, the catheter guide structure is moved through the sliding bar 750 in the horizontal direction or the straight direction without any resistance, and also moved as such Will be able to maintain.

As a result, the catheter guide structure can stably maintain its installation despite sudden movement of the patient inserting the tube 50 into the bronchus.

As such, the straight section that is the front end of the position fixing structure 700 in FIG. 11 serves as a guide member for guiding the movement of the catheter guide structure in the horizontal direction or the linear direction.

10, the end of the curved section of the position fixing structure 700 is fixed to the main body of the medical suction device 400 through the fixing part 730.

On the other hand, the end of the curved section of the fixing structure 700 is fixed to the installation position by the fixing portion 730, it is installed to enable the rotation of the central axis of the rod-shaped position fixing structure 700 as the rotation axis.

That is, the user rotates the position fixing structure 700 fixed to the fixing part 730 in the direction (horizontal direction) in FIG. 10, so that the installation direction of the position fixing structure 700 can be adjusted in the horizontal direction. As the installation direction of the position fixing structure 700 is adjusted in the horizontal direction, the installation direction of the catheter guide structure coupled to the position fixing structure 700 through the coupler 770 may also be adjusted in the horizontal direction.

On the other hand, for this purpose it is preferable to enable a smooth rotation at the coupling site with the suction device 400 of the catheter guide structure, the coupling module 430 coupled with the fastening module 530 of the connection member 500 is 6 In installing the suction unit 400 in the main body as in, it will be preferable to install the central axis of the coupling module 430 to be rotated by the rotation axis.

On the other hand, in the practice of the present invention, by installing a coil structure that is plastically deformed by an external force inside the curved section of the position fixing structure 700, so that the user can adjust the curvature of the curved section as needed. Would be preferred.

That is, the user can adjust the installation angle of the straight section of the positioning structure 700 in the vertical direction by applying a bending deformation in the direction of ② in FIG. 10 to the curved section of the positioning structure 700 if necessary. As a result, the installation height of the connection member 500 coupled to the position fixing structure 700 through the coupling hole 770 may be adjusted.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

While the above has been shown and described with respect to preferred embodiments and applications of the present invention, the present invention is not limited to the specific embodiments and applications described above, the invention without departing from the spirit of the invention claimed in the claims Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

10: catheter, 50: tube,
55: cuff, 100: first guide module,
110: oxygen supply port, 130: main body portion,
200: second guide module, 205: connector,
210: opening and closing port, 220: third port,
230: connection portion, 240: fourth port,
250: coupler, 260: fifth port,
265: sixth port, 270: first port,
280: opening and closing module, 285: balloon,
287: air inlet, 290: second port,
300: the third guide module, 310: induction hole,
330: bottleneck, 350: inlet,
370: fastener, 390: flow pipe,
395: coil spring, 400: medical suction device,
410: oxygen supply pipe, 430: coupling module,
435: center tube, 437: annex,
500: connecting member, 530: fastening module,
535: transfer pipe, 537: peripheral pipe,
600: multi-connector module, 610: first branch pipe,
620: second branch pipe, 630: third branch pipe,
650: connector, 700: position fixing structure,
730: fixed portion, 750: sliding bar,
770: coupler.

Claims (3)

A catheter guide structure coupled to the medical suction device to remove foreign substances in the respirator, the catheter guide structure guiding entry of the catheter into the respirator;
A connecting member 500 having one end coupled to the catheter guide structure and the other end coupled to the body of the medical suction device; And
Position fixing structure 700 for fixing the changed installation position when the installation position of the connecting member 500 is changed
Including;
The position fixing structure 700 is installed to be slidably movable in the position fixing structure 700 and includes a sliding bar 750 having an end coupled to the connection member 500.
As the connecting member 500 moves when the catheter guide structure is pulled by a patient's movement, the sliding bar 750 coupled to the connecting member 500 may move to the position fixing structure 700. Sliding inside,
One end of the position fixing structure 700 is rotatably installed on the main axis of the medical suction device to the rotation axis of the central axis of the position fixing structure 700,
Medical suction device that the installation direction of the catheter guide structure is adjusted in the horizontal direction as the position fixing structure 700 is rotated in the horizontal direction.
The method of claim 1,
The position fixing structure,
And a guide member for guiding movement of the catheter guide structure in a straight direction.
The method of claim 1,
Medical suction device is to change the installation direction of the catheter guide structure in accordance with the change of the installation direction of the position fixing structure.

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