CN212699860U - Hydrops drainage ware equipment for surgery convenient to cerebroma - Google Patents
Hydrops drainage ware equipment for surgery convenient to cerebroma Download PDFInfo
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- CN212699860U CN212699860U CN202021523960.3U CN202021523960U CN212699860U CN 212699860 U CN212699860 U CN 212699860U CN 202021523960 U CN202021523960 U CN 202021523960U CN 212699860 U CN212699860 U CN 212699860U
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- 238000001514 detection method Methods 0.000 claims abstract description 26
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- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims description 26
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- 208000003174 Brain Neoplasms Diseases 0.000 claims description 16
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 16
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Abstract
The invention discloses effusion drainage equipment convenient for cerebroma surgery, which comprises a cerebral ventricle end guide pipe, wherein the lower part of the guide pipe of the cerebral ventricle end guide pipe is vertically arranged inside a corner connecting port, the right end of a pipe body of a drainage pipe is horizontally arranged inside a liquid inlet, a suction nozzle is arranged on the central line above a flow guide end cover, a second detection port is arranged on the right side below the outer side of an effusion storage tank, a chute is arranged at the tank opening above the effusion storage tank, the right side surface of the flow guide end cover is connected with a flow guide pipe, and a regulating pressure valve is arranged at the end part of the pipe body on the right side of the flow guide pipe. Thereby being beneficial to collecting the accumulated liquid in different time periods in different bins.
Description
Technical Field
The invention relates to the technical field of brain tumor surgery, in particular to effusion drainage device equipment convenient for brain tumor surgery.
Background
Hydrocephalus refers to the accumulation of excessive cerebrospinal fluid in the cranium caused by excessive cerebrospinal fluid secretion, circulation obstruction or absorption disorder due to various reasons, the part of the cerebrospinal fluid is usually in the ventricles and can also affect the subarachnoid cavity, the intracranial pressure is increased clinically, a ventricles-abdominal cavity shunt system device, called a ventricles-abdominal cavity shunt tube for short, is composed of a ventricles end catheter, a liquid storage bag (chemotherapy bag), a flow control valve, a heart/abdominal cavity end catheter, a lumbosacral abdominal cavity end catheter, a joint, a stainless steel through bar, a guide needle and a pressure regulating tool accessory, and is implanted into the body through an operation to shunt the excessive cerebrospinal fluid in the ventricles to the peritoneal part in the abdominal cavity for secondary absorption by the peritoneum with strong absorption capacity, so that the hydrocephalus can be removed effectively.
In the aspect of hydrocephalus medical science, a generally adopted method is drainage therapy, different pathological phenomena can occur when hydrocephalus with convulsion from the brain at different time periods is usually cleared, most of the existing drainage devices only adopt one liquid storage bag, so that when the hydrocephalus in the liquid storage bag is extracted at different time periods, the hydrocephalus is easy to be confused, and the problems of trouble in observing pathological characteristics and the like are caused.
Disclosure of Invention
The invention aims to provide effusion drainage equipment convenient for brain tumor surgery, which solves the problems that most of drainage devices in the background technology only adopt one liquid storage bag, so effusion confusion is easily caused when effusion in the liquid storage bag is extracted at different time periods, and therefore trouble is brought to observation of pathological characteristics.
In order to achieve the purpose, the invention provides the following technical scheme: an effusion drainage device equipment convenient for cerebroma surgery comprises a cerebral ventricle end catheter, wherein the lower part of the catheter of the cerebral ventricle end catheter is vertically arranged inside a corner connector, the surface below the corner connector is connected with a corner device, the right side surface central line of the corner device is provided with a drainage tube, the outer wall of the right side of the catheter body of the drainage tube is provided with a suture joint, the right end of the catheter body of the drainage tube is horizontally arranged inside a liquid inlet, the right side surface of the liquid inlet is connected with a flow guide end cover, the upper central line of the flow guide end cover is provided with a suction nozzle, the inner surface of the suction nozzle is connected with a suction tube, the end part of the catheter body at one end of the suction tube is connected with an air pump suction opening, the left side of the air pump suction opening is provided with an air pump air outlet, the lower part of the air pump, and the upper surface of the air pump base is provided with an air pump connecting seat, the upper surface of the air pump connecting seat is provided with a motor, the lower surface of the diversion end cover is provided with a effusion storage tank, the left side of the lower part of the outer side of the effusion storage tank is provided with a first detection port, the right side of the lower part of the outer side of the effusion storage tank is provided with a second detection port, the front central line of the effusion storage tank is symmetrically provided with a viewing port, the central line position of the surface of the viewing port is provided with a dial gauge, the central line position of a first detection port inside the effusion storage tank is provided with a first sealant, the right side of the first sealant is connected with a first effusion bin, the inside of the first effusion bin is provided with a first check ball, the surface of the ball of the first check ball is provided with an iron sheet, the upper bin port of the first effusion bin is provided with a first effusion cover, and the middle part of the upper surface of the first effusion cover, the upper surface center buckle of the first connecting block is connected with a synchronous belt, a second connecting block is installed at one end of the right side of the synchronous belt, a second liquid accumulation cover is arranged on the surface of the lower portion of the second connecting block, a rotary gear is connected with the lower portion of the synchronous belt in a meshed mode, a bearing is installed in an inner tooth hole of the rotary gear, a connecting rod is arranged on an inner ring of the bearing, two ends of the connecting rod are respectively connected with the center of a main bin check ball, a ball body of the main bin check ball is arranged inside the liquid accumulation storage bin, a second liquid accumulation bin is arranged below the second liquid accumulation cover, a second check ball is installed inside the second liquid accumulation bin, second sealant is installed on the center line of a second detection port on the right side of the second liquid accumulation bin, a sliding groove is formed in a tank opening above the liquid accumulation storage tank, a sliding block is installed inside the sliding groove, a liquid accumulation bin opening is formed in the lower portion of the inner center, and the right side surface of water conservancy diversion end cover is connected with the honeycomb duct, the right side body tip of honeycomb duct is provided with the regulation and pressure valve, and the central line symmetry right side of regulation and pressure valve is connected with the connecting pipe, the body right side tip of connecting pipe is installed heavy intelligence and is controlled the valve, and is provided with abdominal cavity end pipe in the middle part of the right side surface of heavy intelligence accuse valve.
Preferably, the bottom of the ventricle end catheter is connected with the corner connector in a buckling mode, the corner connector and the surface of the corner device form an integrated structure, and the drainage tube forms a flow guiding structure with the corner connector and the ventricle end catheter through the corner device.
Preferably, the surface outer ring of the flow guide end cover, the liquid inlet and the air exhaust nozzle are of an integrated structure, and the flow guide end cover is of a circular structure.
Preferably, the motor is connected with the air pump pumping opening through the air pump connecting seat and the air pump base, and the air pump pumping opening forms a pumping structure through the motor and the pumping pipe and the pumping nozzle.
Preferably, hydrops storage tank and first detection mouth, second detect the mouth and the viewing aperture between as an organic whole structure, and first detection mouth and second detect the mouth and first sealant and the sealed glue of second between be connected for the buckle, the material of viewing aperture is transparent plastic material.
Preferably, be buckle fixed connection between first check ball and the iron sheet, and the below surface of first hydrops lid contains the magnet material, but first check ball passes through and constitutes adsorbable structure between iron sheet and the first hydrops lid.
Preferably, the volume of first hydrops lid is unanimous with the volume of second hydrops lid, and the weight of second hydrops lid will be greater than the weight of first hydrops lid, first hydrops lid is connected through between hold-in range and the second hydrops lid.
Preferably, the synchronous belt is rotatably and movably connected with the rotary gear, the outer ring and the inner ring of the bearing are respectively welded and fixed with the tooth hole of the rotary gear and the outer wall of the connecting rod, and the main bin check ball forms a rotatable structure with the rotary gear and the synchronous belt through the connecting rod.
Preferably, be integral structure between top and the spout of hydrops storage tank, and be integral structure between the below surface of water conservancy diversion end cover and the slider, the water conservancy diversion end cover passes through slider and spout and hydrops storage tank between constitute detachable construction.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the invention, the original liquid storage bag is replaced by the accumulated liquid storage tank, and the first accumulated liquid bin and the second accumulated liquid bin are arranged in the accumulated liquid storage tank, so that the accumulated liquid in the liquid storage bag can be conveniently extracted in different time periods, the accumulated liquid is prevented from being mixed up, and the observation of pathology is facilitated.
2. According to the invention, the first liquid accumulation cover and the second liquid accumulation cover are arranged below the main bin check ball, and the weight of the second liquid accumulation cover is larger than that of the first liquid accumulation cover, so that when liquid accumulation is collected, the first liquid accumulation cover is floated through liquid welfare to enable the liquid accumulation to flow into the first liquid accumulation bin, and thus, the separated collection of the liquid accumulation in different time periods is facilitated.
3. According to the invention, the observation port is arranged on the outer side surface of the effusion storage tank, the effusion in the effusion storage tank can be observed by naked eyes through the observation port through the arrangement of the transparent plastic material of the observation port, and the scale gauge arranged on the observation port is favorable for knowing the weight of the effusion in the bin so as to extract and observe the effusion.
4. According to the invention, the slide groove is arranged on the accumulated liquid storage tank, the slide block is arranged on the surface below the flow guide end cover, and the slide block is arranged in the slide groove and is fixed by rotation, so that the cleaning and disinfection treatment of the accumulated liquid storage tank by medical personnel is facilitated.
5. According to the invention, the first sealant and the second sealant are arranged in the middle of the first detection port and the second detection port, so that accumulated liquid in the bin can be conveniently separated and flowed out through the arrangement of the first sealant and the second sealant, and the accumulated liquid in the bin can be conveniently extracted and observed through the needle head penetrating through the first sealant and the second sealant.
Drawings
FIG. 1 is a schematic view of the overall structure of a effusion flow diverter apparatus for facilitating brain tumor surgery according to the present invention;
FIG. 2 is a schematic view of a suction pump of the effusion flow diverter apparatus for facilitating brain tumor surgery according to the present invention;
FIG. 3 is a schematic view of a effusion storage tank of an effusion flow diverter apparatus for facilitating brain tumor surgery of the present invention;
FIG. 4 is a schematic view of the internal structure of an effusion storage tank of an effusion flow diverter apparatus for facilitating brain tumor surgery of the present invention;
fig. 5 is a schematic view of the internal structure of a non-return ball of a main chamber of an effusion flow diverter device for facilitating brain tumor surgery of the invention.
In the figure: 1. a ventricular end catheter; 2. a corner connector; 3. a corner device; 4. a drainage tube; 5. a suture connection; 6. a flow guide end cover; 7. a liquid inlet; 8. a suction nozzle; 9. an air exhaust pipe; 10. an air pump air exhaust port; 11. an air outlet of the air pump; 12. an air pump base; 13. an air pump connecting base; 14. a motor; 15. a liquid accumulation storage tank; 16. a first detection port; 17. a second detection port; 18. a viewing port; 19. a dial gauge; 20. a first sealant; 21. a first liquid accumulation bin; 22. a first check ball; 23. iron sheets; 24. a first liquid accumulation cover; 25. a first connection block; 26. a synchronous belt; 27. a second connecting block; 28. a second liquid accumulation cover; 29. a rotating gear; 30. a bearing; 31. a connecting rod; 32. a main bin check ball; 33. a liquid accumulation storage bin; 34. a second liquid accumulation bin; 35. a second non-return ball; 36. a second sealant; 37. a chute; 38. a slider; 39. a liquid accumulation bin opening; 40. a flow guide pipe; 41. a pressure regulating valve; 42. a connecting pipe; 43. a heavy intelligent control valve; 44. a catheter at the abdominal cavity end.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.
Referring to fig. 1-5, the present invention provides a technical solution: the invention provides effusion drainage device equipment convenient for cerebroma surgery, which comprises a ventricular end catheter 1, wherein the lower part of the catheter of the ventricular end catheter 1 is vertically arranged inside a corner connector 2, the lower surface of the corner connector 2 is connected with a corner device 3, a drainage tube 4 is arranged on the central line of the right side surface of the corner device 3, the bottom of the ventricular end catheter 1 is connected with the corner connector 2 in a buckling manner, the corner connector 2 and the surface of the corner device 3 are of an integrated structure, and the drainage tube 4 forms a flow guiding structure with the ventricular end catheter 1 through the corner device 3 and the corner connector 2.
And the body right side outer wall of drainage tube 4 is provided with suture connection department 5, the body right-hand member level of drainage tube 4 sets up in the inside of inlet 7, and the right side surface of inlet 7 is connected with water conservancy diversion end cover 6, the top central line of water conservancy diversion end cover 6 is provided with air exhaust mouth 8, be the integral structure between the surface outer lane of water conservancy diversion end cover 6 and inlet 7 and the air exhaust mouth 8, and the shape of water conservancy diversion end cover 6 is circular structure, the effect that sets up like this is through setting up inlet 7 and air exhaust mouth 8 in the outside of water conservancy diversion end cover 6, be favorable to taking out the inside air when carrying out the water conservancy diversion to the.
And the inside surface of bleed nozzle 8 is connected with exhaust tube 9, the one end body tip of exhaust tube 9 is connected with air pump extraction opening 10, and the left side of air pump extraction opening 10 is provided with air pump gas outlet 11, the below of air pump extraction opening 10 sets up in the top left side of air pump base 12 with the below central line symmetry of air pump gas outlet 11, and the top surface of air pump base 12 is provided with air pump connecting seat 13, the top surface mounting of air pump connecting seat 13 has motor 14, motor 14 is connected between air pump base 12 and the air pump extraction opening 10 through air pump connecting seat 13, and air pump extraction opening 10 passes through motor 14 and constitutes air exhaust structure between exhaust tube 9 and the bleed nozzle 8, the effect of setting up like this produces suction through the electricity generation of motor 14, take out through air pump extraction opening 10 to the inside air of water conservancy diversion end cover 6.
The lower surface of the diversion end cover 6 is provided with a effusion storage tank 15, the left side of the outer lower part of the effusion storage tank 15 is provided with a first detection port 16, the right side of the outer lower part of the effusion storage tank 15 is provided with a second detection port 17, the central line of the front surface of the effusion storage tank 15 is symmetrically provided with observation ports 18, the central line of the surface of the observation port 18 is provided with a dial gauge 19, the central line of the first detection port 16 inside the effusion storage tank 15 is provided with a first sealant 20, the effusion storage tank 15, the first detection port 16, the second detection port 17 and the observation port 18 are of an integrated structure, the first detection port 16 and the second detection port 17 are connected with the first sealant 20 and the second sealant 36 in a buckling manner, the observation port 18 is made of transparent plastic material, the effect of the arrangement is that the effusion inside of the effusion storage tank 15 can be observed through the arrangement of the transparent material of the observation port 8, simultaneously, the setting of the dial gauge 19 facilitates the observation of the component of the internal effusion.
The right side of the first sealant 20 is connected with a first liquid accumulation bin 21, a first check ball 22 is arranged inside the first liquid accumulation bin 21, an iron sheet 23 is arranged on the surface of a sphere of the first check ball 22, a first liquid accumulation cover 24 is arranged at an upper bin opening of the first liquid accumulation bin 21, the first check ball 22 is fixedly connected with the iron sheet 23 in a clamping mode, the lower surface of the first liquid accumulation cover 24 contains an iron-absorbing stone material, the first check ball 22 forms an absorbable structure through the iron sheet 23 and the first liquid accumulation cover 24, the arrangement is used for floating the first check ball 22 through buoyancy of liquid accumulation when liquid accumulation is filled in the first liquid accumulation bin 21, the first liquid accumulation cover 24 is conveniently absorbed through the iron sheet 23 and the iron-absorbing stone inside the first liquid accumulation cover 24, and the second liquid accumulation cover 28 is opened.
And the upper surface middle part of first hydrops lid 24 is connected with first connecting block 25, the upper surface center buckle of first connecting block 25 is even connected with hold-in range 26, and second connecting block 27 is installed to the right side one end tip of hold-in range 26, the below surface of second connecting block 27 is provided with second hydrops lid 28, the volume of first hydrops lid 24 is unanimous with the volume of second hydrops lid 28, and the weight of second hydrops lid 28 will be greater than the weight of first hydrops lid 24, first hydrops lid 24 is connected through between hold-in range 26 and the second hydrops lid 28, the effect that sets up like this is through the uneven mode of weight, the hydrops of being convenient for just beginning floats first hydrops lid 24 and makes the hydrops enter into the inside of first hydrops storehouse 21.
A rotating gear 29 is engaged with the lower rack of the synchronous belt 26, a bearing 30 is installed in the inner tooth hole of the rotating gear 29, a connecting rod 31 is arranged on the inner ring of the bearing 30, two ends of the connecting rod 31 are respectively connected with the center of a main bin check ball 32, and the sphere of the main bin check ball 32 is arranged inside the effusion collecting bin 33, the synchronous belt 26 is rotatably and movably connected with the rotary gear 29, and the outer ring and the inner ring of the bearing 30 are respectively welded and fixed with the tooth hole of the rotary gear 29 and the outer wall of the connecting rod 31, the main bin check ball 32 forms a rotatable structure with the rotary gear 29 and the synchronous belt 26 through the connecting rod 31, the effect of this arrangement is that the up-and-down displacement path of the main bin check ball 32 can be restricted by the pulling force of the timing belt 16, meanwhile, the arrangement of the bearing 30 is convenient for reducing the friction force, thereby being beneficial to the operation of the non-return ball of the main bin.
A second accumulated liquid bin 34 is arranged below the second accumulated liquid cover 28, a second check ball 35 is arranged inside the second accumulated liquid bin 34, and the center line of the second detection port 17 at the right side of the second accumulated liquid bin 34 is provided with a second sealant 36, a chute 37 is arranged at the tank opening above the accumulated liquid storage tank 15, and the slide block 38 is arranged in the chute 37, the upper part of the effusion storage tank 15 and the chute 37 are integrated, the lower surface of the guide end cover 6 and the sliding block 38 are integrated, the guide end cover 6 forms a detachable structure with the chute 37 and the accumulated liquid storage tank 15 through the sliding block 38, the arrangement is realized by arranging the chute 37 on the accumulated liquid storage tank 15, and a slider 38 is installed on the lower surface of the guide cover 6, the slider 38 is installed inside the slide groove 37, and is fixed by rotation, thereby being beneficial to the medical personnel to clean and disinfect the inside of the effusion storage tank 15.
The inside central line below of water conservancy diversion end cover 6 is provided with hydrops bin mouth 39, and the right side surface of water conservancy diversion end cover 6 is connected with honeycomb duct 40, and the right side body tip of honeycomb duct 40 is provided with the regulation and presses valve 41, and the central line symmetry right side that just adjusts and presses valve 41 is connected with connecting pipe 42, and the body right side tip of connecting pipe 42 is installed and is heavily intelligently controlled valve 43, and the right side surface middle part that just heavily intelligently controls valve 43 is provided with abdominal cavity end pipe 44.
The working principle is as follows: for the kind of effusion drainage device equipment convenient for the cerebroma surgery, firstly, a ventricle end catheter 1 is connected with a corner connector 3 through a corner connector 2, after the complete connection, the front end of the ventricle end catheter 1 is inserted into the effusion part of the cerebrum of a patient, the effusion in the brain of the patient is drained through a drainage tube 4, a suture connection part 5 is arranged at one end of the right side of the drainage tube 4, thereby facilitating the suture of a wound, meanwhile, the original liquid storage bag is changed into the effusion storage tank 15, the effusion flows into the inner part of a diversion end cover 6 through a liquid inlet 7 arranged on the diversion end cover 6 by the drainage tube 4, and a suction nozzle 8 is also arranged above the diversion end cover 6, thereby facilitating the power output of a motor 14 through electric power, and enabling an air pump suction port 10 to generate suction through an air pump connecting seat 13 and an air pump base 12 arranged at the bottom, and the air pump suction opening 10 is connected with the suction nozzle 8 through the suction pipe 9, so that the air contained in the drainage tube 4 is conveniently pumped out and discharged from the air pump air outlet 11, the accumulated liquid storage tank 15 is fixedly installed below the guide end cover 6 through the chute 37 and the slide block 38 in a rotating way, the accumulated liquid can conveniently flow into the accumulated liquid storage tank 33 through the accumulated liquid bin opening 39 arranged inside the guide end cover 6, the internally arranged main bin check ball 32 is slowly floated along with the accumulated liquid in the accumulated liquid storage tank 33, the synchronous belt 26 is transversely arranged in the middle of the main bin check ball 32, the two ends of the synchronous belt 26 are respectively connected with the first connecting block 25 and the second connecting block 27 and are fixedly installed above the first accumulated liquid cover 24 and the second accumulated liquid cover 28, and the first accumulated liquid cover 24 and the second accumulated liquid cover 28 are arranged in an uneven weight way, firstly, the first effusion cover 24 is pulled up through the main bin check ball 32, then the internal effusion of the effusion storage bin 33 flows into the first effusion bin 21, when the effusion in the effusion storage bin 33 slowly flows into the first effusion bin 21, the main bin check ball 32 starts to fall down and the first check ball 22 arranged in the first effusion bin 21 starts to float on the net, at this time, the small iron sheet 23 arranged on the first check ball 22 and the place containing the magnet in the first effusion cover 24 are used for adsorption, so as to fix the magnet, when the effusion of the patient flows into the effusion storage bin 33 for the second time, because the first effusion cover 24 and the first check ball 22 are adsorbed through the small iron sheet 23, the main bin check ball 32 drives the second effusion cover 28 so that the liquid flows into the interior of the second effusion bin 34, the inlet is sealed by the second check ball 35 arranged in the interior to prevent backflow, at this time, the staff can observe the effusion in the interior of the effusion storage tank 15 from the observation port 18 arranged on the surface of the effusion storage tank 15 The condition is collected to the hydrops, be convenient for know the capacity of hydrops through setting up of graduation apparatus 19 simultaneously, thereby it is convenient to extract through first detection mouth 16 and second detection mouth 17 to inside hydrops and observe, it also makes things convenient for the needle tubing to insert simultaneously to be convenient for the separation hydrops outflow through the sealed setting of glue 36 of first sealed glue 20 and second, and the hydrops that does not enter into in hydrops storage and storage jar 15 flows along honeycomb duct 40 and connecting pipe 42 and abdominal cavity end pipe 44, it is convenient for adjust equipment to set up through pressure regulating valve 41 and heavy intelligent accuse valve 43 simultaneously, just so accomplished the whole use of being convenient for hydrops drainage ware equipment for the cerebroma surgery.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (9)
1. The utility model provides a be convenient for hydrops drainage ware equipment for cerebroma surgery, includes ventriculo-ventricular end pipe (1), its characterized in that: the lower portion of the catheter of the brain ventricle end catheter (1) is vertically arranged inside the corner connecting port (2), the surface of the lower portion of the corner connecting port (2) is connected with a corner device (3), a drainage tube (4) is arranged on the center line of the right side surface of the corner device (3), a suture connecting part (5) is arranged on the outer wall of the right side of the catheter body of the drainage tube (4), the right end of the catheter body of the drainage tube (4) is horizontally arranged inside the liquid inlet (7), a flow guide end cover (6) is connected on the right side surface of the liquid inlet (7), a suction nozzle (8) is arranged on the center line of the upper portion of the flow guide end cover (6), an air suction pipe (9) is connected on the inner surface of the suction nozzle (8), the end portion of the catheter body at one end of the air suction pipe (9) is connected with an air pump suction opening, the air pump air pumping port (10) and the air pump air outlet (11) are symmetrically arranged on the left side of the upper portion of the air pump base (12), an air pump connecting seat (13) is arranged on the upper surface of the air pump base (12), a motor (14) is installed on the surface of the upper portion of the air pump connecting seat (13), a liquid accumulation storage tank (15) is arranged on the surface of the lower portion of the flow guide end cover (6), a first detection port (16) is arranged on the left side of the lower portion of the outer side of the liquid accumulation storage tank (15), a second detection port (17) is arranged on the right side of the lower portion of the outer side of the liquid accumulation storage tank (15), an observation port (18) is symmetrically installed on the center line of the front side of the liquid accumulation storage tank (15), a dial gauge (19) is arranged on the surface center line position of the observation port (18), and a first sealant (20) is installed on the center line position of the first detection port (, and the right side of the first sealant (20) is connected with a first liquid accumulating bin (21), a first check ball (22) is arranged inside the first liquid accumulating bin (21), an iron sheet (23) is arranged on the surface of a sphere of the first check ball (22), a first liquid accumulating cover (24) is arranged at the upper bin opening of the first liquid accumulating bin (21), a first connecting block (25) is connected to the middle part of the upper surface of the first liquid accumulating cover (24), a synchronous belt (26) is connected to the center of the upper surface of the first connecting block (25) in a buckling manner, a second connecting block (27) is arranged at the end part of one end of the right side of the synchronous belt (26), a second liquid accumulating cover (28) is arranged on the lower surface of the second connecting block (27), a rotary gear (29) is connected to the lower rack of the synchronous belt (26) in a meshing manner, and a bearing (30) is arranged in an inner tooth hole of the rotary gear (29), the inner circle of bearing (30) is provided with connecting rod (31), the both ends of connecting rod (31) are connected in the center of main storehouse check ball (32) respectively, and the spheroid of main storehouse check ball (32) sets up in the inside of hydrops collecting storage (33), the below of second hydrops lid (28) is provided with second hydrops storehouse (34), and the internally mounted of second hydrops storehouse (34) has second check ball (35), and the right side second of second hydrops storehouse (34) detects the central line of mouth (17) and installs second sealed glue (36), the top jar mouth of hydrops storage jar (15) is provided with spout (37), and the internally mounted of spout (37) has slider (38), the inside central line below of water conservancy diversion end cover (6) is provided with hydrops storehouse mouth (39), and the right side surface of water conservancy diversion end cover (6) is connected with honeycomb duct (40), the right side body tip of honeycomb duct (40) is provided with pressure regulating valve (41), and the central line symmetry right side of adjusting pressure valve (41) is connected with connecting pipe (42), heavy intelligent control valve (43) is installed to the body right side tip of connecting pipe (42), and is provided with abdominal cavity end pipe (44) in the middle part of the right side surface of heavy intelligent control valve (43).
2. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: the bottom of the ventricle end catheter (1) is connected with the corner connecting port (2) in a buckling mode, the corner connecting port (2) and the surface of the corner connector (3) are of an integrated structure, and the drainage tube (4) forms a flow guiding structure through the corner connector (2) and the ventricle end catheter (1) and the corner connector (3).
3. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: the surface outer ring of the flow guide end cover (6), the liquid inlet (7) and the air suction nozzle (8) are of an integrated structure, and the flow guide end cover (6) is of a circular structure.
4. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: the motor (14) is connected with the air pump pumping opening (10) through the air pump connecting seat (13) and the air pump base (12), and the air pump pumping opening (10) forms a pumping structure through the motor (14), the pumping pipe (9) and the pumping nozzle (8).
5. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: hydrops is accomodate jar (15) and first detection mouth (16), second and is detected mouthful (17) and observation port (18) between for the integral structure, and first detection mouth (16) and second detect mouthful (17) and first sealed glue (20) and second seal glue (36) between be connected for the buckle, the material of observation port (18) is transparent plastic material.
6. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: be buckle fixed connection between first check ball (22) and iron sheet (23), and the below surface of first hydrops lid (24) contains the magnet material, but first check ball (22) pass through and constitute adsorption structure between iron sheet (23) and first hydrops lid (24).
7. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: the volume of first hydrops lid (24) is unanimous with the volume of second hydrops lid (28), and the weight of second hydrops lid (28) will be greater than the weight of first hydrops lid (24), be connected between first hydrops lid (24) through hold-in range (26) and second hydrops lid (28).
8. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: the synchronous belt (26) is movably connected with the rotating gear (29) in a rotating mode, the outer ring and the inner ring of the bearing (30) are fixedly welded with the tooth hole of the rotating gear (29) and the outer wall of the connecting rod (31) respectively, and the main bin check ball (32) forms a rotatable structure through the connecting rod (31), the rotating gear (29) and the synchronous belt (26).
9. The apparatus of claim 1, wherein the apparatus is configured to facilitate effusion drainage for brain tumor surgery: the top of hydrops storage tank (15) and spout (37) between be the integral structure, and between the below surface of water conservancy diversion end cover (6) and slider (38) be the integral structure, water conservancy diversion end cover (6) are through constituting detachable construction between slider (38) and spout (37) and hydrops storage tank (15).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021523960.3U CN212699860U (en) | 2020-07-29 | 2020-07-29 | Hydrops drainage ware equipment for surgery convenient to cerebroma |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021523960.3U CN212699860U (en) | 2020-07-29 | 2020-07-29 | Hydrops drainage ware equipment for surgery convenient to cerebroma |
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CN212699860U true CN212699860U (en) | 2021-03-16 |
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CN202021523960.3U Expired - Fee Related CN212699860U (en) | 2020-07-29 | 2020-07-29 | Hydrops drainage ware equipment for surgery convenient to cerebroma |
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2020
- 2020-07-29 CN CN202021523960.3U patent/CN212699860U/en not_active Expired - Fee Related
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