CN112933372A - Auxiliary device for flushing double-cavity ureteral bladder and using method thereof - Google Patents

Abstract

The invention relates to an auxiliary device for double-cavity urinary catheter bladder irrigation, which is connected with a human body in a mode of being inserted into a bladder and at least comprises a urinary catheter, the catheter is connected with the irrigation part and the drainage part to form a bladder cleaning structure which can irrigate and/or drain the bladder, the flushing part is communicated with a dredging component which is arranged on the pipeline of the flushing part in a way of dredging the blocked ureter by pulse type pressurized liquid flow, wherein the canalizing component at least comprises a driving part which can drive the pulse liquid flow to enter the catheter and/or the drainage part, the driving part has the functions of adjusting the flow velocity of the liquid flow to form a pulse liquid flow and controlling the directional flow of the pulse liquid flow, therefore, the blocked pipeline of the catheter and/or the drainage part in the blocked state can be dredged in a pulse mode through pulse liquid flow in the closed channel.

Description

Auxiliary device for flushing double-cavity ureteral bladder and using method thereof

Technical Field

The invention relates to the technical field of medical instruments, in particular to an auxiliary device for flushing a double-cavity urinary catheter bladder and a using method thereof.

Background

In urinary surgery, some diseases of the urogenital system, patients after transurethral prostate plasmacytomy, transurethral bladder tumor electrostomy and patients with severe hematuria caused by various reasons need to keep a three-cavity urinary catheter for pressurizing and continuously flushing the bladder. The most common complications are blockage of a ureter caused by filling of a bladder blood clot, unsmooth flushing and drainage, abdominal pain caused by spasm of the bladder due to stimulation of the blood clot to shrink, and severe anxiety and pain of a patient, which seriously affect the recovery of the disease of the patient. Currently, the most clinical practice is to adopt open pulse type bladder irrigation as the first choice of bedside treatment.

In clinical practice, general anesthesia patients generally need to keep a urinary catheter, and patients in interventional therapy need to be given anticoagulant drugs in the operation, which may cause the patients to easily suffer from hematuria after the operation. For the patients, the doctor regularly washes the bladder, inserts the head of the catheter into the bladder of the patient during catheterization, and joints the tail of the catheter with the drainage part, so that the urine of the patient can flow into the drainage bag, and the urine of the patient can be led out. When the bladder of a patient needs to be flushed, the puncture needle at the tail part of the liquid medicine input tube is usually inserted into the side surface of the tail part of the catheter, flushing liquid medicine is injected into the bladder of the patient along the inner cavity of the catheter, and flushing liquid after the bladder is flushed can flow into the drainage bag, so that the bladder flushing operation is completed. Although the bladder irrigator is simple to operate, the tightness of the catheter is greatly reduced due to the puncture hole after the puncture needle penetrates the catheter for multiple times, so that the bladder irrigator cannot meet the requirement of sterility, infection is easily caused, and extra pain is brought to patients. The traditional drainage bag does not have a bladder washing interface, is used for directly pricking a catheter with a needle of an infusion apparatus for washing, and easily causes the puncture of the catheter if the operation is improper or causes the bad phenomenon that medical staff are injured by a needle. In addition, the catheter is not provided with a related fixing structure, so that the catheter cannot be fixed at a specified position, and urethral injury or ureter detachment is caused when a patient drags in the activity process.

In addition, open pulse bladder irrigation refers to irrigation through the original urinary catheter, which requires separation of the urinary catheter from the drainage end, and pulse suction with a syringe using physiological saline. This mode is relatively limited and has certain defect, because there is the syringe nipple and the ureter pipe diameter difference and leads to the mouth of pipe to connect inseparably, needs the manual fixed connection position of operator during the suction. In the operation process, urine leakage and even splashing occur at the connecting position due to improper operation methods or unstable fixation, so that the exposure rate of an operator is increased remarkably, and time and labor are wasted. In addition, repeated suction operation requires repeated separation of the three-cavity urinary catheter from the drainage part, the dredging component and the like, so that retrograde urinary infection of a patient is often caused. In order to solve the problems, the multifunctional bladder irrigation drainage pipeline is combined with clinical practice, the irrigation is not influenced when the pipeline is unobstructed, the catheter can be dredged when blocked by blood clots, the aseptic principle is followed, and the airtight irrigation environment can be kept.

Chinese patent CN111135364A discloses an anti-reflux urine bag suitable for two-chamber and three-chamber ureteral bladder washes, belongs to medical appliances technical field, and it includes three chamber ureters, the bottom of three chamber ureters is provided with inlet, catheterization mouth and gas injection mouth, catheterization mouth internal thread connection has urine bag to connect, the bottom that urine bag connects is linked together with the top of pipe, the bottom that urine bag connects is provided with washes the subassembly, the right-hand member of pipe is linked together with the left surface of storage component. This prevent urine bag against current suitable for two-chamber and three-chamber ureter bladder washes, through setting up three chamber ureters, transfusion system connector and side tube mouth, urine bag connects and catheterization mouth sealing connection, transfusion system connector and the complete sealing connection of transfusion system bobbin, the transfusion system bobbin gets rid of the scalp acupuncture and twists on the transfusion system connector, can guarantee complete inclosed bladder promptly and wash or go up the medicine, reduce the risk of infecting, can effectively avoid infecting, effectively prevent that the patient from being wounded by the acupuncture, stopped the potential safety hazard. However, this patent does not effectively unclog blocked catheters and assumes that it can be unclogged by pulsed aspiration through a three-lumen catheter connection syringe. However, there may still be a difference in the diameter between the injector nipple and the ureter, which may cause the nozzle to be not tightly connected, and the operator is required to manually fix the connection position during suction. Often can lead to the hookup location to take place urine and reveal or splash because the improper of operation method or fix insecure in operation process to can show the exposure rate that increases the operator, waste time and energy in addition, in addition because repeated suction operation need with three chamber ureters and drainage portion, dredge repeated separation such as subassembly, often also lead to the patient to take place retrograde urinary system and infect.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor has studied a lot of documents and patents when making the present invention, but the space is not limited to the details and contents listed in the above, however, the present invention is by no means free of the features of the prior art, but the present invention has been provided with all the features of the prior art, and the applicant reserves the right to increase the related prior art in the background.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an auxiliary device for flushing a double-cavity urinary catheter bladder, which can follow the aseptic principle and keep a closed flushing environment to perform pulse type liquid flow dredging on an occluded urinary catheter.

The technical scheme of the invention is to provide an auxiliary device for flushing a double-cavity urinary catheter bladder, which comprises a catheter which is connected with a human body in a manner of being inserted into the bladder, wherein the end part of the catheter is connected with a flushing part and a drainage part in a manner of forming a bladder cleaning assembly capable of flushing and/or draining the bladder, the flushing part is also provided with a dredging assembly, the dredging assembly can be communicated with a pipeline of the flushing part according to the blockage condition of a pipe body of the catheter and/or the drainage part, and further pulse type pressurized liquid flow is selectively introduced into a blocked closed pipeline, wherein the pressurized liquid flow impacts the blocked pipeline at an adjustable flow rate, and the dredging assembly starts dredging operation in response to an instruction of blockage of the pipeline; the dredging component at least comprises a driving part which can provide driving force for the pulse liquid flow, and the driving part can control the pulse liquid flow to be directionally led into the flushing part after the dredging liquid flow is pressurized to form the pulse liquid flow, so that the catheter and/or the drainage part in a closed and blocked state is dredged by the pulse liquid flow led in through the flushing part. Through set up on the body of washing portion can carry out the mediation subassembly of dredging to blockking up the pipeline to can fill pulse pressurized liquid stream optionally to the inside of airtight pipeline, and then can solve the drainage jam problem that often appears in the in-service use process effectively, can dredge the jam position in the drainage pipeline high-efficiently and hygienically. Especially, set up many branch road pipelines of two-chamber ureter and set up to the tee bend structure that can carry out the selectivity intercommunication on the basis of dredging the subassembly in the setting to can make things convenient for medical personnel selectively with different branch road pipeline intercommunications, thereby under the condition that does not demolish two-chamber ureter and human body connection, just can wash the mediation to the jam branch road pipeline of difference. Through dredging the setting of subassembly and tee bend regulation and control subassembly, can guarantee the seal of tube coupling effectively, avoided current pipeline need frequently dismantle connection structure and realize the drawback of different operations, greatly reduced pipeline bacterial infection's the possibility and operating personnel's the operation degree of difficulty. In addition, the service life can be effectively prolonged, the service life of the pipeline is prolonged, and the replacement frequency of the part of the pipeline inserted into the human body is reduced, so that the damage caused when the pipeline is taken out or inserted into the human body is reduced.

According to a preferred embodiment, the driving part at least comprises a driving cavity bag, an input end and an output end, the input end and the output end are arranged on two sides of the driving cavity bag in a mode of being opposite in position and communicated with the inside of the driving cavity bag, an adjusting component allowing liquid to flow in a single direction is arranged in the driving cavity bag, and two ends of the adjusting component are inserted into pipelines through which the input end and the output end are communicated with the driving cavity bag, so that the flowing direction of the liquid in the pipelines can be adjusted.

According to a preferred embodiment, the adjusting assembly at least comprises a one-way liquid inlet assembly, a one-way liquid outlet assembly and a connecting rod, wherein the one-way liquid inlet assembly is arranged in a pipeline of the input end close to the driving cavity bag in a mode of allowing liquid to flow into the driving cavity bag from the input end in a one-way mode; the one-way liquid outlet assembly is arranged in a pipeline of which the output end is close to the driving cavity bag in a mode that liquid flows out of the output end from the driving cavity bag. The unidirectional liquid inlet assembly at least comprises a first connecting pipe arranged in the driving cavity bag and the input end connecting pipeline, a first plug body is further arranged in the first connecting pipe, and the input end is sealed by the first plug body in a manner of moving to one end, far away from the driving cavity bag, of the first connecting pipe; the one-way liquid outlet assembly at least comprises a second connecting pipe arranged in the driving cavity bag and the output end connecting pipeline, a second plug body is arranged in the second connecting pipe, and the second plug body seals the output end in a mode of moving to one end, far away from the driving cavity bag, of the second connecting pipe. The first plug body and the second plug body are respectively connected to two ends of a connecting rod penetrating through a cavity of the driving cavity, so that the first plug body and the second plug body form a linkage structure, wherein when the first plug body moves to one end, far away from the driving cavity, of the first connecting pipe to seal an input end, the second plug body moves to one end, close to the driving cavity, of the second connecting pipe, and liquid in the driving cavity flows out from an output end in a one-way mode; when the first plug body moves to one end, close to the driving cavity bag, of the first connecting pipe, the second plug body moves to one end, far away from the driving cavity bag, of the second connecting pipe to seal the pipeline at the output end, and therefore the driving cavity bag can suck liquid from the pipeline at the input end in a one-way mode.

According to a preferred embodiment, the connecting rod sets up inside drive chamber bag according to the mode that runs through drive chamber bag cavity, just the both ends of connecting rod are connected with one-way feed liquor subassembly, one-way play liquid subassembly respectively to realize the linkage of one-way feed liquor subassembly, one-way play liquid subassembly in the cavity of drive division, and then make the adjusting part can adjust drive chamber bag and carry out single liquid and inhale or discharge. The negative pressure type pulse liquid flow dredging device has the advantages that the dredging liquid flow with different impact forces can be filled into the pipeline adjustably according to actual requirements, meanwhile, the pulse liquid flow can be formed, meanwhile, the liquid in the pipeline can be limited to flow out of the flushing part in a single direction, when the driving cavity bag is in a negative pressure state, the liquid flow is prevented from flowing back to the dredging component in a reverse direction, and the risk that the backflow liquid flow pollutes the dredging component in the actual dredging process is effectively avoided.

According to a preferred embodiment, the one end of catheter is provided with tee bend regulation and control portion, tee bend regulation and control portion can communicate selectively two arbitrary pipeline interfaces in catheter, washing portion and the drainage portion for the passageway after the intercommunication can be used for washing, drainage or mediation, wherein, tee bend regulation and control portion includes the casing at least and sets up the solenoid valve subassembly in the casing, be provided with the interface that can connect catheter, washing portion and drainage portion on the casing, the solenoid valve subassembly sets up in the casing according to the mode that can communicate different pipelines selectively.

According to a preferred embodiment, the solenoid valve assembly comprises at least a first pressure sensor, a second pressure sensor and a third pressure sensor respectively arranged on the inner wall of the pipeline of the three ports of the housing; the electromagnetic valve assembly also comprises a first position sensor, a second position sensor and a third position sensor which are respectively and correspondingly arranged on the first electromagnet, the second electromagnet and the third electromagnet at the three interfaces; the electromagnetic valve assembly further comprises a control unit which can be in signal connection with the sensor and controls the on-off of the electromagnet switch.

According to a preferred embodiment, the port on the housing is provided with an outer sleeve capable of wrapping the catheter and an inner embedded tube inserted into the catheter, wherein the inner embedded tube is arranged inside the outer sleeve in a manner coaxial with the outer sleeve, and the tube body of the outer sleeve extends towards the outside of the housing, so that the port of the outer sleeve can be connected with the closing plug of the closing interface; the catheter is characterized in that a positioning adhesive tape is further arranged on the shell, and the catheter can be positioned and adhered to the surface of a human body through the positioning adhesive tape.

According to a preferred embodiment, the catheter body is further sleeved with a vent pipe, one end of the vent pipe is provided with a bladder fixing air bag in a mode that the end part of the catheter can be inserted into a bladder and the bladder opening can be tightly closed to be filled, the bladder fixing air bag is communicated with an inflation opening through the vent pipe, the inflation opening is arranged at the end part, close to the three-way regulation and control part, of the catheter, and therefore the inflation opening can be fixed on one side of the three-way regulation and control part.

The application also provides a using method for the double-cavity urinary catheter bladder irrigation auxiliary device, wherein three interfaces on a shell of a three-way regulation part are respectively connected with the pipelines of the urinary catheter, the irrigation part and the drainage part, the three-way regulation part is selectively communicated with any two pipelines in the urinary catheter, the irrigation part and the drainage part through an electromagnetic valve assembly arranged in the shell, wherein the electromagnetic valve assembly can monitor the pressure in different pipelines and control the opening or closing of an electromagnetic switch according to the output pressure, so that the three-way regulation part is connected with three pipelines to be selectively communicated; the flushing part is also connected with a dredging component which can lead pulse type pressurized liquid flow into the closed pipeline, so that the pulse liquid flow led in by the dredging component can carry out pulse dredging on the blocked pipeline of the catheter and/or the drainage part. The drainage device has the advantages that the drainage component and the three-way regulating and controlling part which can selectively fill pulse pressurized liquid flow into the closed pipeline are arranged, so that the drainage blockage problem which often occurs in the actual use process can be effectively solved, and the blockage position in the drainage pipeline can be dredged efficiently and hygienically. Especially, set up many branch road pipelines of two-chamber ureter and set up to the tee bend structure that can carry out the selectivity intercommunication on the basis of dredging the subassembly in the setting to can make things convenient for medical personnel selectively with different branch road pipeline intercommunications, thereby under the condition that does not demolish two-chamber ureter and human body connection, just can wash the mediation to the jam branch road pipeline of difference. Through dredging the setting of subassembly and tee bend regulation and control subassembly, can guarantee the seal of tube coupling effectively, avoided current pipeline need frequently dismantle connection structure and realize the drawback of different operations, greatly reduced pipeline bacterial infection's the possibility and operating personnel's the operation degree of difficulty. In addition, the service life can be effectively prolonged, the service life of the pipeline is prolonged, and the replacement frequency of the part of the pipeline inserted into the human body is reduced, so that the damage caused when the pipeline is taken out or inserted into the human body is reduced.

According to a preferred embodiment, the dredging assembly comprises at least a driving part capable of driving the pulse liquid flow into the catheter and/or the drainage part, and the driving part is capable of adjusting the flow velocity of the liquid flow to form the pulse liquid flow and controlling the pulse liquid flow to directionally flow, so that the blocked pipeline of the catheter and/or the drainage part in the blocked state is subjected to pulse dredging in the closed channel through the pulse liquid flow.

Drawings

FIG. 1 is a schematic structural view of a preferred embodiment of an auxiliary device for dual lumen urinary catheter bladder irrigation of the present invention;

FIG. 2 is a schematic structural view of a preferred embodiment of the three-way control of the auxiliary device for dual lumen urinary catheter bladder irrigation of the present invention;

FIG. 3 is a block diagram of the three-way control part of the auxiliary device for dual-chamber urinary catheter bladder irrigation of the present invention.

List of reference numerals

1: the catheter 2: a washing part 3: drainage part

4: dredging component 5: the driving section 6: adjusting assembly

7: three-way regulation and control portion 11: the breather pipe 12: bladder fixing air sac

13: the inflation inlet 21: flushing liquid inlet pipe 22: flushing liquid container

23: the hanging ring 24: chemical solution addition port 31: drainage output tube

32: the seal joint 33: drainage bottle 34: discharge switch

51: the driving chamber 52: input terminal 53: output end

61: one-way liquid inlet assembly 62: the one-way liquid outlet assembly 63: connecting rod

71: the housing 72: the solenoid valve assembly 73: positioning adhesive tape

611: first connecting pipe 612: the first plug body 621: second connecting pipe

622: second plug body 711: the outer sleeve 712: embedded pipe

713: a closing plug 721: first pressure sensor 722: second pressure sensor

723: third pressure sensor 724: first position sensor 725: second position sensor

726: third position sensing 727: control unit

Detailed Description

The following detailed description is made with reference to fig. 1 to 3.

Example 1

Fig. 1 shows the double-cavity urinary catheter of the invention which can be used for flushing and draining the bladder, and the pipeline of the double-cavity urinary catheter is further provided with an auxiliary device which can dredge the blocked pipeline, in particular the blocked pipeline in the bladder drainage process can be dredged based on the dredging component.

According to the preferred embodiment shown in fig. 1, the device comprises a catheter 1, an irrigation section 2, a drainage section 3, a canalizing assembly 4, a driving assembly 5, an adjusting assembly 6 and a three-way regulation section 7. A urinary catheter 1 for insertion into the bladder and communication with an external conduit for introducing or discharging fluid into or from the bladder; a washing part 2 for injecting washing liquid into the catheter 1 to wash the bladder; the drainage part 3 is used for leading out the liquid of the catheter 1 and draining the cleaned liquid in the bladder; the dredging component 4 is arranged on the pipeline of the flushing part and used for impacting and dredging the liquid flow of the blocked catheter 1 or the blocked pipeline of the drainage part 3; the driving component 5 is used for providing driving force for the liquid flow conveyed by the dredging component 4; the adjusting assembly 6 is used for limiting the driving assembly 5 to only drive the liquid flow to perform one-way flow; and the three-way regulating part 7 is used for mutually connecting the pipelines of the catheter 1, the flushing part 2 and the drainage part 3 and selectively communicating any two pipelines.

The flushing part 2 can convey pulse liquid flow to the catheter 1 or the pipeline of the drainage part 3 through the dredging component 4 which is arranged on the wall of the flushing part and can convey pulse pressurized liquid flow to the communicated closed pipeline, and finally the aim of dredging the blocked catheter 1 or the pipeline of the drainage part 3 is achieved. The catheter 1, the flushing part 2 and the drainage part 3 are mutually connected through the three-way regulating and controlling part 7 and form a complete closed pipeline passage, so that the closed pipeline can be utilized to flush or drain the bladder according to requirements when the pipeline is not detached and repeatedly installed. The three-way regulation and control part 7 can selectively communicate with any two pipelines in the catheter 1, the flushing part 2 and the drainage part 3 by regulating the mode of the internal connection structure thereof, thereby meeting the different requirements of flushing, drainage and pipeline dredging. The dredging assembly 4 comprises a driving assembly 5 capable of providing a driving force for the dredging liquid and controlling the dredging liquid to form a pulse liquid flow and to directionally flow. Can fill into the dredging subassembly 4 of pulse pressurization liquid stream selectively in the airtight pipeline through the setting to can solve the drainage jam problem that often appears in the in-service use process effectively, and can dredge the jam position in the drainage pipeline high-efficiently, hygienically. Especially, on the basis of the dredging component, the joint of the branch pipelines in the double-cavity urine tube is provided with a three-way regulating part 7 which can be selectively communicated, so that medical workers can selectively communicate different branch pipelines, and the different blocked branch pipelines can be flushed and dredged without disassembling the connection between the double-cavity urine tube and the human body or the connection between the branch pipelines. Through dredging the setting of subassembly and tee bend regulation and control portion, can guarantee the seal of tube coupling effectively, avoided current pipeline need frequently dismantle connection structure and realize the drawback of different operations, greatly reduced pipeline is infected by the possibility of bacterial and operating personnel's the operation degree of difficulty. In addition, the service life can be effectively prolonged, the service life of the device can be prolonged as far as possible, and the replacement frequency of pipelines inserted into a human body is reduced, so that the injury of the fetching and installing operation on the human body is reduced.

Preferably, as shown in fig. 1, a dredging unit 4 capable of dredging a clogged pipe is provided in an inclined manner on the pipe body of the flushing part 2. The dredging component 4 is communicated with the pipeline of the flushing part 2 under the condition that the catheter 1 and/or the drainage part 3 are blocked, so that the pulse type pressurized liquid flow which is introduced into the closed pipeline by the dredging component 4 can impact the blocked pipeline of the catheter 1 and/or the drainage part 3. The driving part 5 arranged in the dredging component 4 can control the pulse liquid flow to be directionally led into the flushing part 2 after the dredging liquid is pressurized to form the pulse liquid flow, so that the catheter 1 and/or the drainage part 3 in the closed blockage state can be dredged by the pulse liquid flow led in through the flushing part 2. Preferably, drive assembly 5 includes a drive chamber 51, an input end 52, and an output end 53. The catheter, to which the driving lumen 51 is connected through the output 53, can directly communicate with the irrigation portion 2 as required. Preferably, the intersection angle between the pipe connected to the outlet 53 and the part of the pipe of the rinsing part 2 adjacent to the rinsing liquid container 22 is acute. The Y-shaped communication pipeline can reduce the pulse equivalent of the pulse liquid flow output by the driving component 5 due to the influence of the bent pipeline when the pulse liquid flow passes through the corner connected with the flushing part 2. Preferably, input end 52 and output end 53 are disposed on opposite sides of drive chamber bladder 51 in opposing relation and in communication with the interior of drive chamber bladder 51. An adjustment assembly 6 is provided within the drive chamber 51 to allow one-way flow of liquid. Both ends of the regulating member 6 are inserted into the conduits in which the input end 52 and the output end 53 communicate with the driving chamber 51, thereby regulating the flow direction of the liquid in the conduits.

Preferably, the adjusting assembly 6 comprises a one-way liquid inlet assembly 61, a one-way liquid outlet assembly 62 and a connecting rod 63. A one-way liquid inlet assembly 61 is disposed in the conduit of input end 52 adjacent to drive chamber 51 in a manner that permits one-way flow of liquid from input end 52 into drive chamber 51. A one-way fluid outlet assembly 62 is disposed in the conduit of the output end 53 adjacent the drive chamber 51 in such a manner that fluid flows from the drive chamber 51 out of the output end 53. The connection rod 63 is disposed inside the driving chamber 51 in such a manner as to penetrate the chamber of the driving chamber 51. Two ends of the connecting rod 63 are respectively connected with the one-way liquid inlet component 61 and the one-way liquid outlet component 62, so that the one-way liquid inlet component 61 and the one-way liquid outlet component 62 are linked in a cavity pipeline of the driving part 5, and the adjusting component 6 can adjust the driving cavity bag 51 to suck or discharge single liquid. Further preferably, one-way liquid inlet assembly 61 includes a first connecting pipe 611 disposed inside the connecting pipeline between driving chamber 51 and input end 52, and a first plug 612 is further disposed in first connecting pipe 611. First plug 612 effects closure of input end 52 by moving to the end of first connecting tube 611 remote from drive chamber capsule 51. The one-way liquid outlet assembly 62 comprises a second connecting pipe 621 arranged in a connecting pipeline between the driving cavity bag 51 and the output end 53, and a second plug body 622 is arranged in the second connecting pipe 621. The second stopper 622 effects closure of the output end 53 by moving to the end of the second connecting tube 621 remote from the drive chamber capsule 51.

Preferably, a vent pipe 11 is further sleeved on the catheter body of the urinary catheter 1, and one end of the vent pipe 11 is provided with a bladder fixing air bag 12 in a mode that the end part of the urinary catheter 1 can be inserted into the bladder and tightly closes the opening for filling the bladder. The bladder fixing air bag 12 is communicated with an inflation port 13 through a vent pipe 11, wherein the inflation port 13 is arranged at the end part of the catheter 1 close to the three-way regulation part 7, so that the inflation port 13 can be fixed at one side of the three-way regulation part 7. By arranging the ventilation expansion structure, the catheter inserted into the bladder can be clamped and fixed by the inflated bladder fixing air bag 12, so that the catheter 1 is effectively prevented from directly sliding out of the bladder.

The rinse unit 2 includes a rinse liquid inlet tube 21, a rinse liquid container 22, a suspension ring 23, and a chemical liquid addition port 24. One end of the flushing liquid input pipe 21 is hermetically connected with the pipeline through the three-way regulating part 7, and the other end of the flushing liquid input pipe 21 is connected with a flushing liquid container 22. On the end face of the rinse liquid container 22 at the end remote from the rinse liquid feed pipe 21, a suspension ring 23 is provided, which can suspend the rinse liquid container 22 in the air and position the connection to the rinse liquid feed pipe 21 at the lowest position. The suspension loop 23 facilitates the suspension of the irrigation liquid container 22 at a position at the same height as the infusion suspension rod, so that the vertical height of the irrigation liquid container 22 is far higher than the bladder position, and the irrigation liquid can conveniently flow from the irrigation liquid container 22 through the catheter 1 and then enter the bladder. Preferably, the surface of washing liquid input tube 21 link is kept away from at washing liquid container 22 to link 23 setting for washing liquid input tube 21 is located washing liquid container 22's bottom, conveniently makes the washing liquid in the container can both flow into washing liquid input tube 21 as far as possible, reduces the waste that the washing liquid remained and lead to. Preferably, the rinse solution container 22 is further provided with a chemical solution addition port 24 penetrating the wall of the container. Add the mouth 24 through setting up the liquid medicine and add the flush fluid in the flush fluid container 22 when conveniently needing to carry out the bladder and wash, avoid adopting the traditional mode that directly utilizes the syringe needle intubate of syringe to carry out the flush fluid and add, greatly reduced syringe needle stab medical personnel's risk, also avoid puncturing many times simultaneously and cause the sealing performance to descend. Preferably, the rinse solution container 22 may be a medical solution storage bag used for infusion. The cost of the device can be greatly reduced by using the infusion stand.

The end of the drainage output pipe 31 of the drainage part 3 far away from the catheter 1 is also provided with a sealing joint 32 which is detachably connected with a drainage bottle 33. The sealing connector 32 is detachably connected to the drainage bottle 33 through the drainage output tube 31 provided with a discharge switch 34. Preferably, one end of the drainage output tube 31 is set to be in the shape of an oblique insertion needle, so that the drainage output tube 31 can be directly inserted into the drainage bottle 33 conveniently. Preferably, a one-way valve is provided in the drainage portion 3 which only allows unidirectional flow of urine out of the catheter 1 and into the drainage bottle 33. Preferably, the mouth of the drainage bottle 33 is provided with a rubber bottle stopper for facilitating the insertion of the drainage output tube 31. By providing the drain switch 34, it is avoided that flushing fluid flows directly into the drainage bottle 33 when it flows into the catheter 1, so that flushing fluid flowing into the flushing part 2 can only flow into the bladder. Can make waste liquids such as urine that gets into drainage bottle 33 can not appear refluxing catheter 1 through setting up the second check valve in, avoid causing secondary pollution to the device.

Example 2

One end of the catheter 1 far away from the bladder is connected with a three-way regulating part 7. The three-way regulating part 7 can be adjustably communicated with any two pipeline interfaces of the catheter 1, the flushing part 2 and the drainage part 3, so that the communicated pipelines can be selectively used for flushing, drainage or dredging. As shown in fig. 2, the three-way regulation portion 7 includes a housing 71 and a solenoid valve assembly 72. The housing 71 is provided with a port to which the catheter 1, the irrigation part 2 and the drainage part 3 can be connected. The solenoid valve assembly 72 selectively communicates any two of the catheter 1, the irrigation section 2 and the drainage section 3 connected to the three ports of the housing 71.

Preferably, the solenoid valve assembly 72 includes a first pressure sensor 721, a second pressure sensor 722, a third pressure sensor 723, a first position sensor 724, a second position sensor 725, a third position sensor 726, a control unit 727 and a power source. The first pressure sensor 721, the second pressure sensor 722 and the third pressure sensor 723 are arranged on the inner wall of the pipeline of the housing 71 connecting the three ports of the urinary catheter 1, the irrigation part 2 and the drainage part 3, respectively. As shown in fig. 3, the first position sensor 724, the second position sensor 725, and the third position sensor 726 are respectively installed on the first electromagnet, the second electromagnet, and the third electromagnet at the three interfaces, respectively. The setting of position sensor can help patient or medical personnel to know the switching of actual solenoid valve, can confirm the actual switching condition of pipeline, has avoided effectively that certain pipeline that need open or close breaks down unusually under the washing of settlement, drainage or mediation mode, influences the security of using. Preferably, the electromagnetic valve switches corresponding to the first electromagnet, the second electromagnet and the third electromagnet correspond to the interfaces of the catheter 1, the flushing part 2 and the drainage part 3. Under the condition that the sensor units and the control unit are both electrically connected with the power supply, the control unit 727 is in signal connection with each sensor unit and can control the opening and closing of the electromagnet switches at each interface.

Preferably, the catheter 1 and the conduit of the irrigation part 2 are in communication with each other during the irrigation operation. And electromagnetic valve switches corresponding to the first electromagnet and the second electromagnet are opened, and electromagnetic valve switches corresponding to the third electromagnet are closed. At this time, the first pressure sensor 721, the second pressure sensor 722 can monitor the hydraulic pressure in the catheter 1 and the irrigation section 2 lines. According to the measured value of the hydraulic pressure in the catheter 1 by the second pressure sensor 722, the judgment of the pressure in the bladder and the filling amount of the flushing fluid of the patient by medical staff can be facilitated, and in the flushing process, when the pressure value of the second pressure sensor 722 exceeds the preset critical pressure value, the control unit 727 can make an early warning and close the electromagnetic valve switches corresponding to the first electromagnet and the second electromagnet. When the drainage operation is carried out, the catheter 1 is communicated with the pipeline of the drainage part 3. And the electromagnetic valve switch corresponding to the first electromagnet is closed, and the electromagnetic valve switches corresponding to the second electromagnet and the third electromagnet are opened. The flushing fluid or urine in the bladder flows out of the human body, flows through the catheter 1 and then flows into the drainage bottle of the drainage part 3. If the pipeline is blocked in the drainage process, the control unit 727 can judge whether the blocked pipeline is the catheter 1 or the drainage part 3 according to the difference of the pressure values collected by the second pressure sensor 722 and the third pressure sensor 723. When the catheter 1 is blocked, the section of the tube provided with the sensor is closed on one side and naturally runs through on the other side. According to the pipeline hydraulic theory, the liquid environments of the second pressure sensor 722 and the third pressure sensor 723 are in a stable state, and no pressure change exists. When there is an occlusion in the conduit of the drainage part 3, the bladder will expand and contract, providing a certain drive to the interior of the conduit of the catheter 1, wherein the pressure value measured by the second pressure sensor 722 will fluctuate and the measurement value of the second pressure sensor 722 will be higher than the measurement value of the third pressure sensor 723. The control unit 727 changes the opening and closing of the solenoid valve switch according to the determination result of the clogged pipe line obtained by the analysis processing. For example, when the catheter 1 is blocked, the electromagnetic valve switch corresponding to the third electromagnet is closed, the electromagnetic valve switches corresponding to the first electromagnet and the second electromagnet are opened at the same time, and the pulse-type liquid flow is filled into the pipeline of the catheter by using the dredging component 4 communicated with the pipeline of the washing part 2, so that the blocked part of the pipeline is dredged. When the pipeline of the drainage part 3 is blocked, the electromagnetic valve switch corresponding to the second electromagnet is closed, and the electromagnetic valve switches corresponding to the first electromagnet and the third electromagnet are opened simultaneously, so that pulse liquid flow is filled into the pipeline of the drainage part 3, and the blocked part of the pipeline is dredged.

Preferably, the dredging component 4 can charge dredging liquid flow with different pulse equivalent into the pipeline according to the actual monitored blockage condition. The shell 71 of the three-way regulating part 7 is provided with a prompting unit, and the control unit 727 judges the position of a blocked pipeline according to the collected pressure data collected by the pressure sensor and judges the blocking condition according to the pressure value when the pipeline is blocked. The processing module in the control unit can divide the jam condition into flocculent precipitate jam and blood clot jam according to the pressure data of collecting to make the early warning through the suggestion unit, and provide the jam degree reference. For example, a mild occlusion is a yellow light and a severe occlusion is a red light. When the blocked pipeline is slightly blocked due to the blockage of flocculent precipitates, medical personnel can dredge the pipeline by dredging liquid flow with smaller pulse equivalent; when the blocked pipeline is severely blocked due to the blockage of blood clots, medical personnel can dredge the pipeline by dredging liquid flow with larger pulse equivalent.

The port on the housing 71 is provided with an outer sleeve 711 capable of wrapping around the catheter and an inner embedded tube 712 inserted into the catheter. The inner tube 712 is disposed inside the outer tube 711 coaxially with the outer tube 711, and the tube body of the outer tube 711 extends outside the housing 71 so that the port of the outer tube 711 can be fitted with the closing plug 713 provided to be capable of closing the port. Preferably, the housing 71 of the three-way regulating part 7 is provided with a positioning adhesive tape 73. The positioning adhesive tape 73 can position and adhere the urinary catheter 1 on the surface of the human body.

Example 3

A method of using a dual lumen urinary catheter bladder irrigation aid comprising the steps of:

the catheter 1, the irrigation part 2 and the drainage part 3 are connected with each other by a three-way regulation part 7. The three-way regulating part 7 can selectively communicate two pipelines in the catheter 1, the flushing liquid input pipe 21 of the flushing part 2 and the drainage output pipe 31 of the drainage part 3 according to different functional requirements of flushing, drainage or blockage dredging and the like. The connection port of the three-way regulation portion 7 is provided with an outer tube 711 and an inner tube 712 capable of limiting the connected catheter port.

The irrigation part 2 is provided with a dredging assembly 4 capable of delivering a pulsed liquid flow to the blocked catheter 1 and/or drainage part 3.

The dredging component 4 at least comprises a driving part 5 which can drive the pulse liquid flow to enter the catheter 1 and/or the drainage part 3, and the driving part 5 has the functions of adjusting the flow velocity of the liquid flow to form the pulse liquid flow and controlling the pulse liquid flow to flow directionally, so that the blocked pipeline of the catheter 1 and/or the drainage part 3 in the blocked state can be dredged in a pulse mode through the pulse liquid flow in the closed channel.

In the specific dredging operation, the dredging operation is carried out,

when the pneumatic vacuum valve is used for the first time, the driving cavity bag 51 is squeezed by hands, the one-way liquid inlet assembly 61 can be automatically closed under pneumatic pressure, air in the driving cavity bag 51 is discharged through the one-way liquid outlet assembly 62 through the exhaust valve arranged on the output end 53, and then the exhaust valve is closed to enable the driving cavity bag 51 to form a vacuum state. Then the driving cavity 51 is released, the negative pressure generated in the driving cavity 51 opens the one-way liquid inlet assembly 61, and the liquid is automatically sucked into the cavity of the driving cavity 51 from the liquid storage bottle through the input end 52. When the driving cavity bag 51 stored with the flushing liquid is squeezed again, the one-way liquid outlet assembly 62 can be flushed by the liquid in the driving cavity bag 51 and discharged through the output end 53, so that the blocked pipeline is flushed, and after the external force on the driving cavity bag 51 is removed, the one-way liquid inlet assembly 61 is communicated with the cavity of the driving cavity bag 51 again, so that the flushing liquid is supplemented to the cavity of the driving cavity bag. In addition, the magnitude of the pressing force applied during the pressing operation can be artificially controlled, so that the discharged flushing liquid flow can form a pulse dredging liquid flow with variable flow speed.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (10)

1. An auxiliary device for dual-chamber ureteral bladder irrigation, comprising a catheter (1) connected to the human body in such a way as to be inserted into the bladder, the end of said catheter (1) being connected to an irrigation portion (2) and to a drainage portion (3) in such a way as to constitute a bladder-cleaning assembly capable of irrigating and/or draining the bladder, characterized in that,

the flushing part (2) is also provided with a dredging component (4), the dredging component (4) can be communicated with the pipeline of the flushing part (2) according to the pipeline blockage condition of the catheter (1) and/or the drainage part (3), and further pulse type pressurized liquid flow can be selectively introduced into the blocked closed pipeline, wherein the pressurized liquid flow impacts the blocked pipeline at an adjustable flow rate, and the dredging component (4) starts dredging operation in response to the command of pipeline blockage;

the dredging component (4) at least comprises a driving part (5) capable of providing driving force for the pulse liquid flow, and the driving part (5) can control the pulse liquid flow to be directionally led into the flushing part (2) after the dredging liquid flow is pressurized to form the pulse liquid flow, so that the catheter (1) and/or the drainage part (3) in a closed blocking state can be dredged by the pulse liquid flow led in through the flushing part (2).

2. Auxiliary device for dual chamber urinary bladder irrigation according to claim 1, wherein the driving part (5) comprises at least a driving chamber (51), an input end (52) and an output end (53), the input end (52) and the output end (53) are arranged at two sides of the driving chamber (51) in a manner of being opposite in position and communicating with the interior of the driving chamber (51), an adjusting component (6) allowing unidirectional flow of liquid is arranged in the driving chamber (51), and two ends of the adjusting component (6) are inserted into the pipeline where the input end (52) and the output end (53) communicate with the driving chamber (51), so as to adjust the flow direction of the liquid in the pipeline.

3. Auxiliary device for dual chamber urinary bladder irrigation according to claim 2, wherein the adjustment assembly (6) comprises at least a one-way liquid inlet assembly (61), a one-way liquid outlet assembly (62) and a connecting rod (63), wherein the one-way liquid inlet assembly (61) is arranged in the conduit of the input end (52) near the drive chamber (51) in a way that allows one-way inflow of liquid from the input end (52) to the drive chamber (51); the one-way liquid outlet assembly (62) is arranged in a pipeline of the output end (53) close to the driving cavity bag (51) in a mode that liquid flows out of the output end (53) from the driving cavity bag (51).

4. The auxiliary device for the dual-cavity urinary catheter bladder irrigation as claimed in claim 3, wherein the connecting rod (63) is disposed inside the driving cavity (51) in a manner of penetrating through the cavity of the driving cavity (51), and two ends of the connecting rod (63) are respectively connected with the one-way liquid inlet assembly (61) and the one-way liquid outlet assembly (62), so as to realize the linkage of the one-way liquid inlet assembly (61) and the one-way liquid outlet assembly (62) in the cavity of the driving part (5), and further enable the adjusting assembly (6) to adjust the driving cavity (51) to perform single liquid suction or discharge.

5. Auxiliary device for dual-chamber urinary catheter bladder irrigation according to claim 1, characterized in that a three-way regulating part (7) is provided at one end of the urinary catheter (1), and the three-way regulating part (7) can selectively communicate with any two of the catheter (1), the irrigation part (2) and the drainage part (3) so that the communicated channel can be used for irrigation, drainage or dredging, wherein the three-way regulating part (7) at least comprises a housing (71) and a solenoid valve assembly (72) arranged in the housing (71), the housing (71) is provided with interfaces capable of connecting the catheter (1), the irrigation part (2) and the drainage part (3), and the solenoid valve assembly (72) is arranged in the housing (71) in a manner capable of selectively communicating different pipelines.

6. Auxiliary device for dual chamber urinary bladder irrigation according to claim 5, wherein the solenoid valve assembly (72) comprises at least a first pressure sensor (721), a second pressure sensor (722) and a third pressure sensor (723) respectively arranged on the inner wall of the tubing of the three ports of the housing (71);

the electromagnetic valve assembly (72) further comprises a first position sensor (724), a second position sensor (725) and a third position sensor (726) which are correspondingly arranged on the first electromagnet, the second electromagnet and the third electromagnet at three interfaces respectively;

the electromagnetic valve assembly (72) further comprises a control unit (727) which can be in signal connection with the sensor and controls the opening and closing of the electromagnet switch.

7. Auxiliary device for dual chamber urinary bladder irrigation according to claim 5, characterized in that the interface of the housing (71) is provided with an outer sleeve (711) able to wrap the catheter and an inner embedded tube (712) inserted into the catheter, wherein the inner embedded tube (712) is arranged inside the outer sleeve (711) coaxially with the outer sleeve (711), and the body of the outer sleeve (711) extends outside the housing (71) so that the port of the outer sleeve (711) can be connected with the closing plug (713) closing the interface;

the casing (71) is further provided with a positioning adhesive tape (73), and the catheter (1) can be positioned and adhered to the surface of a human body through the positioning adhesive tape (73).

8. The auxiliary device for the dual-cavity urinary catheter bladder irrigation as claimed in claim 5, wherein the catheter body of the urinary catheter (1) is further sleeved with a vent tube (11), one end of the vent tube (11) is provided with a bladder fixing air bag (12) in a manner that the end of the urinary catheter (1) can be inserted into the bladder and the bladder opening can be tightly closed and filled, the bladder fixing air bag (12) is communicated with an inflation port (13) through the vent tube (11), wherein the inflation port (12) is arranged at the end of the urinary catheter (1) close to the three-way regulation part (7), so that the inflation port (12) can be fixed at one side of the three-way regulation part (7).

9. A method of using a dual lumen urinary catheter bladder irrigation aid comprising the steps of:

three ports on a shell (71) of the three-way regulating part (7) are respectively connected with the pipelines of the catheter (1), the flushing part (2) and the drainage part (3),

the three-way regulation and control part (7) is selectively communicated with any two pipelines of the catheter (1), the flushing part (2) and the drainage part (3) through an electromagnetic valve component (72) arranged in a shell (71), wherein the electromagnetic valve component (72) can monitor the pressure in different pipelines and control the opening or closing of an electromagnetic switch according to the output pressure, so that the three-way regulation and control part (7) is connected with three pipelines to be selectively communicated;

the flushing part (2) is also connected with a dredging component (4) which can lead pulse type pressurized liquid flow into the closed pipeline, so that the pulse liquid flow led in by the dredging component (4) can carry out pulse dredging on the blocked pipeline of the catheter (1) and/or the drainage part (3).

10. The use method of the dual-chamber urinary catheter bladder irrigation assisting device according to claim 9, wherein the dredging component (4) at least comprises a driving part (5) capable of driving the pulse liquid flow into the urinary catheter (1) and/or the drainage part (3), the driving part (5) is capable of adjusting the flow velocity of the liquid flow to form the pulse liquid flow and controlling the directional flow of the pulse liquid flow, so that the pulse liquid flow can be used for pulse dredging of the blocked pipeline of the urinary catheter (1) and/or the drainage part (3) in the blocked state in the closed channel.

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