CN115318524B

CN115318524B - Medical balloon and processing and manufacturing method thereof

Info

Publication number: CN115318524B
Application number: CN202210950181.9A
Authority: CN
Inventors: 黄佩佩; 董壮; 涂真金; 方晟东
Original assignee: Shenzhen Shunmei Medical Co ltd; Huizhou Shunmei Medical Technology Co ltd
Current assignee: Shenzhen Shunmei Medical Co ltd; Huizhou Shunmei Medical Technology Co ltd
Priority date: 2022-08-09
Filing date: 2022-08-09
Publication date: 2023-07-25
Anticipated expiration: 2042-08-09
Also published as: CN115318524A

Abstract

The invention discloses a medical balloon and a processing and manufacturing method thereof, which belong to the technical field of balloon processing and comprise a workbench, spraying equipment, a driving device, a gas flow device, an angle rotating device, an air drying device, an air bag and a fixing frame.

Description

Medical balloon and processing and manufacturing method thereof

Technical Field

The invention relates to the technical field of balloon processing, in particular to a medical balloon and a processing and manufacturing method thereof.

Background

The breathing saccule is one part of simple respirator, one end of the breathing saccule is connected with the breathing mask, the other end is connected with the air bag, and oxygen in the air bag (oxygen storage bag) is fed into the breathing mask to supply oxygen to a patient by pinching and opening the breathing saccule. The two ends of the breathing saccule are provided with one-way valves, the saccule is pinched, the saccule deforms, and oxygen in the saccule is discharged into a breathing mask at one end; opening the finger, releasing the balloon, and allowing oxygen in the air bag (oxygen storage bag) connected with the other end to enter the balloon; the above operation is repeated to continuously supply air to the patient.

The respirator is common medical equipment, and the respiratory balloon belongs to important parts, because the respiratory balloon types are different, and the outer side surface of the respiratory balloon needs to be subjected to spraying operation, and the upper end of the respiratory balloon is an air outlet, and the lower end of the respiratory balloon is an air inlet, so that the respiratory balloon can easily enter the respiratory balloon in the spraying process, and the spraying liquid has certain toxicity, so that the respiratory balloon is inconvenient to inhale or can inhale for a long time, and the respiratory balloon itself provides oxygen for a patient, so that the patient can possibly cause secondary injury to the patient in the process of providing the respiratory balloon with oxygen for inhalation, and the respiratory balloon cannot be normally used.

Disclosure of Invention

The embodiment of the invention provides a medical balloon and a processing and manufacturing method thereof, which aim to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: a medical balloon and its processing method are disclosed, which comprises a balloon in the shape of flat pear, and connected with elliptic balloon and worm tube by small tubes.

A medical balloon and a processing and manufacturing method thereof comprise the following preparation method steps:

the first step, a workbench, spraying equipment, a driving device, a gas flow device, an angle rotating device, an air drying device, air bags and a fixing frame are arranged, when spraying operation is carried out on a product, firstly, a required spraying balloon is placed under the spraying equipment and between the two air bags, at the moment, the corresponding air bags are placed into through holes at two ends of the balloon, and at the moment, the air bags are in an airless state;

the second step, the driving part on the driving end of the driving hydraulic cylinder is driven to move by the operation of the driving hydraulic cylinder, the driving part moves to drive the driving rod to move by taking the driving frame as a fulcrum, so that the driving piston at the other end of the driving rod is driven to move up and down in the driving chamber, when the driving hydraulic cylinder moves to drive the driving piston to move up in the driving chamber, the upper air inlet and the lower air inlet are controlled to be closed by the respective one-way control valves, the lower air inlet and the upper air inlet are controlled to be opened by the respective one-way control valves, at the moment, in the process of moving up the driving piston in the driving chamber, external air is pumped into the driving chamber through the lower air inlet and flows into the air flow device through the upper air inlet, and when the driving piston moves down after the upward movement of the driving piston is completed, the upper air inlet and the lower air inlet are controlled to be opened through the respective one-way control valves, the lower air inlet and the upper air inlet are controlled to be closed through the respective one-way control valves, external air is pumped into the driving chamber through the upper air inlet in the process that the driving piston moves downwards in the driving chamber, and flows into the air flowing device through the lower air inlet, so that the external air is pumped into the driving chamber, flows into the air upper flowing pipeline and the air lower flowing pipeline and flows into the converging pipeline, and then flows into the converging pipeline, at the moment, the control valves on the two air flowing pipelines are in an opened state, so that the air flows into the two air flowing pipelines through the converging pipeline, and then is discharged into corresponding air outflow pieces through the two fixed pipeline connectors, finally, the gas in the two gas outflow pieces is discharged into the two air bags, and the two air bags are slowly inflated at the moment;

Thirdly, after the through openings at the two ends of the balloon are sealed by the two air bags, the two air flow pipelines are closed by the control valves, and the balloon is sprayed by the spraying equipment, so that the condition that the spraying liquid enters the balloon to influence the subsequent normal use of the product is avoided;

fourthly, when the spraying equipment operates to spray the balloon, the balloon is fixed and limited through the expansion of the two balloons, and the whole outer side of the balloon is required to be sprayed, so that the balloon is required to be driven to rotate, the spraying equipment is used for carrying out all-round spraying operation on the balloon, at the moment, the angle rotating hydraulic cylinder is operated to drive the angle rotating block on the driving end of the angle rotating hydraulic cylinder to carry out telescopic movement, so that the two racks are driven to move on the corresponding pipeline seat through the connecting block, the two racks are driven to move to drive the two gears to rotate, so that the two gas outflow parts are driven to rotate on the corresponding pipeline connecting piece and the pipeline seat, and the balloon with the expansion limit of the two balloons is driven to rotate, so that the balloon is subjected to all-round spraying operation;

And fifthly, after the two air bags are expanded and the product is limited, the two air bags are closed by the control valve on the two air flow pipelines, so that the damage to the product caused by continuous expansion of the two air bags is avoided, the hydraulic cylinder is driven to continuously operate, the air bags are limited by the two air bags, when the spraying equipment performs spraying operation on the air bags, the air bags are driven to rotate by the operation of the angle rotating hydraulic cylinder, the omnibearing spraying operation on the air bags is realized, the control valve on the two air drying pipelines is opened at the moment, the air in the converging pipelines is discharged into the two air drying pipelines, and is discharged to the air bags in the spraying operation, so that the spraying equipment does not scatter towards personnel by the wind force of the two air drying pipelines when spraying equipment performs spraying operation on the air bags, and meanwhile, the air dried effect can be realized on the sprayed air bags by the wind force of the two air drying pipelines after the spraying equipment is finished, so that the subsequent quick removal is facilitated, and the processing efficiency is improved.

Further, the workstation sets up in the horizontal plane, drive arrangement sets up on the workstation, gas flow device sets up on drive arrangement, angle rotation device sets up on gas flow device, the gasbag is equipped with two, two the gasbag symmetry sets up on gas flow device, the mount sets up the side at spraying equipment, air-dry device and gas flow device intercommunication.

Further, drive arrangement includes drive seat, drive frame, drive pneumatic cylinder, driving piece, actuating lever, drive piston and drive cavity, the drive seat sets up on the workstation, the drive frame sets up the side at the drive seat, drive pneumatic cylinder sets up on the drive seat and drive end passes sliding fit on the drive seat, the driving piece sets up the upper end at the drive end of drive pneumatic cylinder, the one end and the driving piece of actuating lever are rotated and are connected, the middle part of actuating lever is connected on the drive frame and is rotated and is connected, the drive cavity sets up the side at the drive frame, the drive piston is located the inside of drive cavity, drive piston's upper end passes drive cavity and is upper and lower sliding fit, the other end of actuating lever is connected in drive piston's upper end and is articulated.

Further, be equipped with air inlet, lower air inlet, last inflow and lower inflow on the drive cavity, go up air inlet and last inflow symmetry setting in the outside of drive cavity and the position of leaning on, lower air inlet and lower inflow symmetry setting are in the outside of drive cavity and the position of leaning on down, all be equipped with the check valve on last air inlet, lower air inlet, last inflow and the lower inflow.

Further, gas flow device includes that gas flows pipeline, gas down flow pipeline, pipeline frame, gathers pipeline, support frame, gas flow pipeline, pipeline connecting piece, pipeline seat and gas outflow spare, the mount is equipped with two, two the mount symmetry sets up on the workstation, the one end of gas up flow pipeline is connected on last inflow mouth, the one end of gas down flow pipeline is connected on lower inflow mouth, the support frame sets up two the side of mount, gather the pipeline setting on the mount, the other end of gas up flow pipeline and gas down flow pipeline passes corresponding pipeline frame respectively and connects respectively at gathering pipeline both ends, gas flow pipeline is equipped with two, two gas flow pipeline is the symmetry setting, two the lower extreme of gas flow pipeline is connected respectively on gathering pipeline's both ends, the pipeline seat is equipped with two the pipeline seat is the symmetry setting and is located the both sides of support frame, gather the both ends of pipeline and pass corresponding fixing base respectively, the pipeline connecting piece is equipped with two the pipeline connecting piece sets up two the side of mount, two pipeline connecting piece sets up respectively and is equipped with two corresponding gas outflow pipeline at two corresponding gas flow pipeline both ends, two corresponding gas outflow pipeline sets up the two and the gas outflow valve are equipped with two corresponding on the air bag.

Further, angle rotating device includes angle rotation seat, angle rotation pneumatic cylinder, angle rotation piece, rack, gear and connecting block, be equipped with the recess on the workstation, angle rotation seat sets up two the side of one of them pipeline seat in the pipeline seat, angle rotation pneumatic cylinder sets up on angle rotation seat, angle rotation piece sets up on angle rotation pneumatic cylinder's driving end, the gear is equipped with two, two the gear overlaps respectively and establishes on corresponding gaseous outflow spare, the rack is equipped with two, two the rack sets up respectively on corresponding pipeline seat and is left and right sliding fit, two the gear is in the meshing state with corresponding gear respectively, two the rack is connected by the connecting block, the lower extreme of connecting block is located the recess, angle rotation piece's side is connected on being close to one rack of angle rotation pneumatic cylinder one side.

Further, air-dry device is including air-drying pipeline and support bracket, the support bracket is equipped with two, two support bracket symmetry sets up the side at gathering the pipeline, air-drying pipeline is equipped with two, two air-drying pipeline sets up respectively two on the support bracket, two air-drying pipeline's one end is connected respectively on gathering the both ends of pipeline, two air-drying pipeline is last to be equipped with the control valve, two air-drying pipeline's the other end is towards the mount and be the splayed shape.

Further, the fixing frame is provided with an adsorption piece, and the adsorption piece and the air outlets of the two air drying pipelines are in corresponding states.

The above at least one technical scheme adopted by the embodiment of the invention can achieve the following beneficial effects:

firstly, when spraying operation is carried out on a product, firstly, the required spraying saccule is placed under the spraying equipment and is positioned between two air bags, at this time, the corresponding air bags are placed into the through holes at the two ends of the saccule, at this time, the air bags are in a non-air state, the driving hydraulic cylinder is driven to move up and down in the driving cavity through operation of the driving hydraulic cylinder, the air inlets, the lower air inlets, the upper air inlets and the lower air inlets are respectively in a matched state through the movement of the driving piston, so that the outside air is pumped into the driving cavity, flows into the upper air flow pipeline and the lower air flow pipeline, flows into the converging pipeline, at this time, the control valves on the two air flow pipelines are in an open state, so that the air flows into the two air flow pipelines through the converging pipeline, the air is discharged into the corresponding air outflow piece through the two fixed pipeline connecting pieces, and finally the air in the two air bags are discharged into the two air bags, at this time, after the through holes at the two air bags at the two ends of the air bags are sealed, the two air bags are controlled to flow through the two air bags, the two air flow pipelines are controlled to be closed, the air bags are sprayed into the air bags through the air bags, and the product can be sprayed normally, and the product can be prevented from being sprayed normally, and the quality of the ball can be normally, and the ball can be sprayed and well by the equipment can be sprayed and the products.

Secondly, when spraying equipment operates to spray the balloon, the balloon is fixed and limited through the expansion of the two balloons, and the whole outer side of the balloon is required to be sprayed, so that the balloon is required to be driven to rotate, the balloon is sprayed in all directions through the spraying equipment, at the moment, the angle rotating hydraulic cylinder is operated to drive the angle rotating block on the driving end of the angle rotating hydraulic cylinder to conduct telescopic movement, so that the two racks are driven to move on the corresponding pipeline seat through the connecting block, the two racks are driven to move to drive the two gears to rotate, the two gas outflow pieces are driven to rotate on the corresponding pipeline connecting piece and the pipeline seat, and the balloon with the expansion limit of the two balloons is driven to rotate, so that the balloon is sprayed in all directions.

Thirdly, when two air bags expand and accomplish the product spacing back, control valve closes it on two gas flow pipeline this moment, avoided two air bags to last to expand and cause the injury to the product, and drive the pneumatic cylinder and continue to move, limit the gasbag through two air bags, when spraying equipment carries out spraying operation to the gasbag, the pneumatic cylinder operation is rotated to the angle simultaneously and is driven the gasbag to rotate, realize the omnidirectional spraying operation to the sacculus, and open the control valve on two air-drying pipeline this moment, will assemble the inside gas discharge of pipeline and arrive in two air-drying pipeline, and arrange the sacculus department of spraying operation, make spraying equipment when spraying operation to the sacculus, the spraying liquid makes the spraying liquid can not fly towards personnel department through the wind-force of two air-drying pipelines, thereby avoided personnel's inhalation, simultaneously after spraying equipment accomplishes the sacculus spraying, through the wind-force of two air-drying pipelines, can play the air-drying effect to the sacculus that the spraying was accomplished, thereby be convenient for follow-up quick take off, machining efficiency has been improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

FIG. 1 is a product diagram of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of a driving device according to the present invention;

FIG. 4 is a schematic view of the driving chamber of the present invention in cross section;

FIG. 5 is a schematic perspective view of a gas flow device according to the present invention;

FIG. 6 is a schematic perspective view of a gas flow device and a driving device according to the present invention;

FIG. 7 is a schematic diagram showing a gas flow device and a driving device according to a second embodiment of the present invention;

FIG. 8 is a schematic perspective view of an angle turning device according to the present invention;

FIG. 9 is a schematic perspective view of a gas flow device and a driving device and an angle rotating device according to the present invention;

FIG. 10 is a schematic view of a partial perspective view of the present invention;

fig. 11 is a schematic partial perspective view of a second embodiment of the present invention.

Reference numerals

The spraying device comprises a workbench 1, a groove 11, a spraying device 12, an air bag 13, a fixing frame 14, an adsorption piece 15, a balloon 16, a driving device 2, a driving seat 21, a driving frame 22, a driving hydraulic cylinder 23, a driving piece 24, a driving rod 25, a driving piston 26, a driving chamber 27, an upper air inlet 271, a lower air inlet 272, an upper inlet 273, a lower inlet 274, a one-way control valve 275, a gas flow device 3, a gas upper flow pipeline 31, a gas lower flow pipeline 32, a pipeline frame 33, a converging pipeline 34, a supporting frame 35, a gas flow pipeline 36, a control valve 37, a pipeline connecting piece 38, a pipeline seat 39, a gas outflow piece 391, an angle rotating device 4, an angle rotating seat 41, an angle rotating hydraulic cylinder 42, an angle rotating block 43, a rack 44, a gear 45, a connecting block 46, an air drying device 5, an air drying pipeline 51 and a supporting frame 52.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The following describes in detail the technical solutions provided by the embodiments of the present invention with reference to the accompanying drawings.

Referring to fig. 1-11, an embodiment of the present invention provides a medical balloon and a processing method thereof, including a balloon 16, wherein the balloon 16 is in a flat pear shape, and is connected with an elliptical balloon and a worm pipe by small pipes respectively.

firstly, a workbench 1, spraying equipment 12, a driving device 2, a gas flow device 3, an angle rotating device 4, an air drying device 5, air bags 13 and a fixing frame 14 are arranged, when spraying operation is carried out on a product, firstly, a required spraying balloon 16 is placed under the spraying equipment 12 and between the two air bags 13, at the moment, the corresponding air bags 13 are placed in the through holes at the two ends of the balloon 16, and at the moment, the air bags 13 are in an airless state;

In a second step, the driving member 24 on the driving end of the driving hydraulic cylinder 23 is driven to move by the operation of the driving hydraulic cylinder 23, the driving member 24 is driven to move by the driving rod 25 by taking the driving frame 22 as a fulcrum, so that the driving piston 26 on the other end of the driving rod 25 is driven to move up and down in the interior of the driving chamber 27, when the driving hydraulic cylinder 23 is driven to move the driving piston 26 up in the interior of the driving chamber 27 by the movement of the driving hydraulic cylinder 23, the upper air inlet 271 and the lower air inlet 274 are closed by the respective one-way control valve 275, the lower air inlet 272 and the upper air inlet 273 are opened by the respective one-way control valve 275, at this time, the outside air is sucked into the interior of the driving chamber 27 through the lower air inlet 272, and flows into the air flow device 3 through the upper inlet 273, the upper air inlet 271 and the lower air inlet 274 are sucked into the driving chamber 27, the outside air flow channel 32 are sucked into the interior of the driving chamber 27 by the respective one-way control valve 275, the outside air inlet 274 is sucked into the interior of the driving chamber 27 by the upper air inlet 27, the outside air flow channel 37 is sucked into the interior of the driving chamber 32 by the upper air inlet 273, and the outside air flow channel 37 is sucked into the interior of the outside air flow channel 32 is sucked into the interior of the driving chamber by the driving chamber through the lower air inlet 27 when the driving piston 26 is sucked into the inside the driving chamber through the upper air inlet 273, and the outside air flow channel is sucked into the outside by the outside air flow channel 32 when the inside is sucked into the inside of the driving chamber is sucked into the inside of the driving chamber is sucked, so that the gas flows into the two gas flow pipes 36 through the converging pipe 34, and then is discharged into the corresponding gas outflow piece 391 through the two fixed pipe connecting pieces 38, and finally the gas in the two gas outflow pieces 391 is discharged into the two air bags 13, and at the moment, the two air bags 13 are slowly inflated;

Thirdly, after the two air bags 13 seal the through holes at the two ends of the balloon 16, the two air flow pipelines 36 are closed by the control valves 37, and the spraying equipment 12 operates to spray the balloon 16, so that the condition that spraying liquid enters the balloon 16 to influence the subsequent normal use of the product is avoided, and the balloon 16 is made of a light material, so that the balloon 16 can be fixed and limited after being inflated by the two air bags 13, and the spraying operation of the balloon 16 can be realized without using other equipment to fix and limit the product;

fourth, when the spraying device 12 operates to spray the balloon 16, the two air bags 13 are fixedly limited by expansion of the two air bags 13, and the whole outer side of the balloon 16 is required to be sprayed, so that the balloon 16 is required to be driven to rotate, the spraying device 12 is used for performing omnibearing spraying operation on the balloon 16, at this time, the angle rotating hydraulic cylinder 42 is operated to drive the angle rotating block 43 on the driving end of the angle rotating hydraulic cylinder 42 to perform telescopic movement, so that the two racks 44 are driven to move on the corresponding pipeline seat 39 through the connecting block 46, the two racks 44 are driven to rotate by movement of the two gears 45, so that the two gas outflow pieces 391 are driven to rotate on the corresponding pipeline connecting piece 38 and the pipeline seat 39, so that the balloon 16 with the expansion limit of the two air bags 13 is driven to rotate, and the omnibearing spraying operation on the balloon 16 is realized;

Fifth, when two air bags 13 expand and the product limit is finished, at this time, the control valve 37 on the two air flow pipelines 36 closes the two air bags, so that the damage to the product caused by the continuous expansion of the two air bags 13 is avoided, the hydraulic cylinder 23 is driven to continuously run, the air bags 13 are limited by the two air bags 13, when the spraying equipment 12 performs spraying operation on the air bags 13, the hydraulic cylinder 42 is rotated at the same time to drive the air bags 13 to rotate, the omnibearing spraying operation on the air bags 16 is realized, and at the moment, the control valve 37 on the two air drying pipelines 51 is opened, the air in the converging pipeline 34 is discharged into the two air drying pipelines 51 and is discharged to the air bags 16 in the spraying operation, so that the spraying equipment 12 can not scatter towards personnel by the wind force of the two air drying pipelines 51 when the spraying equipment 12 performs the spraying operation on the air bags 16, the air drying operation on the sprayed air bags 16 can be realized by the wind force of the two air drying pipelines 51, and the subsequent quick removal is facilitated, and the processing efficiency is improved.

Preferably, the workbench 1 is arranged on a horizontal plane, the driving device 2 is arranged on the workbench 1, the gas flow device 3 is arranged on the driving device 2, the angle rotation device 4 is arranged on the gas flow device 3, the two air bags 13 are symmetrically arranged on the gas flow device 3, the fixing frame 14 is arranged at the side end of the spraying equipment 12, the air drying device 5 is communicated with the gas flow device 3, and the spraying device can prevent spraying liquid of the spraying equipment 12 from being sprayed into the balloon 16 in the spraying process of the balloon 16, so that the balloon 16 cannot be normally used, meanwhile, personnel are prevented from sucking, an air drying operation is performed on the balloon 16, and the production efficiency is improved.

Preferably, the driving device 2 includes a driving seat 21, a driving frame 22, a driving hydraulic cylinder 23, a driving member 24, a driving rod 25, a driving piston 26 and a driving chamber 27, the driving seat 21 is disposed on the workbench 1, the driving frame 22 is disposed at a side end of the driving seat 21, the driving hydraulic cylinder 23 is disposed on the driving seat 21 and the driving end passes through the driving seat 21 to be in sliding fit, the driving member 24 is disposed at an upper end of the driving hydraulic cylinder 23, one end of the driving rod 25 is in rotational connection with the driving member 24, a middle part of the driving rod 25 is connected to the driving frame 22 and is in rotational connection, the driving chamber 27 is disposed at a side end of the driving frame 22, the driving piston 26 is located inside the driving chamber 27, an upper end of the driving piston 26 passes through the driving chamber 27 and is in sliding fit up and down, the other end of the driving rod 25 is connected at an upper end of the driving piston 26 and is hinged, the driving member 24 on the driving end of the driving hydraulic cylinder 23 is driven by the operation of the driving hydraulic cylinder 23 to move, one end of the driving member 24 is driven to move, one end of the driving rod 25 is driven to move, the driving rod 25 is driven by the driving rod 25 to move to the other end of the driving piston 27 is driven by the driving rod 25 to move to the driving piston 27, and then the driving piston 27 is pumped into the driving chamber 27 to move inside the driving chamber 27, and the driving chamber is driven by the driving rod is driven to move outside.

Preferably, the driving chamber 27 is provided with an upper air inlet 271, a lower air inlet 272, an upper inflow 273 and a lower inflow 274, the upper air inlet 271 and the upper inflow 273 are symmetrically arranged at the outer side of the driving chamber 27 and at the upper position, the lower air inlet 272 and the lower inflow 274 are symmetrically arranged at the outer side of the driving chamber 27 and at the lower position, the upper air inlet 271, the lower air inlet 272, the upper inflow 273 and the lower inflow 274 are respectively provided with one-way control valves 275, when the driving hydraulic cylinder 23 moves to drive the driving piston 26 to move upwards in the driving chamber 27, the upper air inlet 271 and the lower inflow 274 are controlled to be closed by the respective one-way control valves 275, the lower air inlet 272 and the upper inflow 273 are controlled to be opened by the respective one-way control valves 275, at the moment, external air is pumped into the driving chamber 27 through the lower air inlet 273 during the upward movement of the driving piston 26 in the driving chamber 27, and after the upward movement of the driving piston 26 is completed, the upper air inlet 271 and the lower inflow 274 are respectively driven by the control valves 275, the upper air inlet 271 and the lower inflow 274 are controlled to be opened by the respective one-way control valves 275, and the external air is pumped into the driving chamber 27 through the lower air inlet 272 when the upward movement of the driving piston 26 is completed.

Preferably, the gas flow device 3 comprises a gas upper flow pipeline 31, a gas lower flow pipeline 32, a pipeline frame 33, a converging pipeline 34, a supporting frame 35, a gas flow pipeline 36, pipeline connecting pieces 38, pipeline seats 39 and gas outflow pieces 391, wherein two fixing frames 14 are symmetrically arranged on the workbench 1, one end of the gas upper flow pipeline 31 is connected with an upper inflow port 273, one end of the gas lower flow pipeline 32 is connected with a lower inflow port 274, the supporting frame 35 is arranged at the side ends of the two fixing frames 14, the converging pipeline 34 is arranged on the fixing frames 14, the other ends of the gas upper flow pipeline 31 and the gas lower flow pipeline 32 respectively penetrate through the corresponding pipeline frames 33 and are respectively connected at the two ends of the converging pipeline 34, the gas flow pipeline 36 is provided with two, the two gas flow pipelines 36 are symmetrically arranged, the lower ends of the two gas flow pipes 36 are respectively connected to two ends of the converging pipe 34, the two pipe seats 39 are symmetrically arranged and positioned at two sides of the supporting frame 35, the two ends of the converging pipe 34 respectively pass through the corresponding fixed seats, the two pipe connectors 38 are respectively arranged at the air outlet ends of the corresponding gas flow pipes 36, the two gas outflow parts 391 are respectively arranged on the corresponding pipe connectors 38 and respectively connected with the corresponding pipe connectors 38 in a rotating way, one ends of the two gas outflow parts 391 respectively pass through the corresponding pipe seats 39 and are respectively connected in a rotating way, the two air bags 13 are respectively sleeved on the corresponding gas outflow parts 391, the two gas flow pipes 36 are respectively provided with control valves 37, when spraying the product, firstly, the required spraying balloon 16 is placed under the spraying equipment 12 and between the two balloons 13, at this time, the corresponding balloons 13 are placed in the through holes at the two ends of the balloon 16, at this time, the balloons 13 are in a non-pneumatic state, then the driving hydraulic cylinder 23 is operated to drive the driving piston 26 to move up and down in the driving chamber 27, and the check valves of the upper air inlet 271, the lower air inlet 272, the upper inflow 273 and the lower inflow 274 are in a matched state by the movement of the driving piston 26, so that the external air is pumped into the driving chamber 27, flows into the upper air flow pipeline 31 and the lower air flow pipeline 32, flows into the converging pipeline 34, at this time, the control valves 37 on the two air flow pipelines 36 are in an opened state, so that the gas flows into the two gas flow pipelines 36 through the converging pipelines 34, and then is discharged into the corresponding gas outflow parts 391 through the two fixed pipeline connecting parts 38, and finally the gas in the two gas outflow parts 391 is discharged into the two air bags 13, and the two air bags 13 are slowly inflated at the moment, when the two air bags 13 seal the through holes at the two ends of the air bag 16, the two gas flow pipelines 36 are closed by the control valves 37, and the spraying operation is carried out on the air bag 16 through the operation of the spraying equipment 12, so that the spraying liquid is prevented from entering the inside of the air bag 16, the subsequent normal use of products is prevented from being influenced, and as the air bag 16 is made of lighter materials, the effect of fixing and limiting the air bag 16 can be achieved after the two air bags 13 are inflated, and the spraying operation on the air bag 16 can be realized without using other equipment to fix and limit the products.

Preferably, the angle rotating device 4 comprises an angle rotating seat 41, an angle rotating hydraulic cylinder 42, an angle rotating block 43, racks 44, gears 45 and a connecting block 46, the workbench 1 is provided with a groove 11, the angle rotating seat 41 is arranged at the side end of one of the two pipeline seats 39, the angle rotating hydraulic cylinder 42 is arranged on the angle rotating seat 41, the angle rotating block 43 is arranged at the driving end of the angle rotating hydraulic cylinder 42, the two gears 45 are arranged, the two gears 45 are respectively sleeved on the corresponding gas outflow piece 391, the two racks 44 are provided with two racks 44 which are respectively arranged on the corresponding pipeline seat 39 and are in left-right sliding fit, the two gears 45 are respectively meshed with the corresponding gears 45, the two racks 44 are connected by the connecting block 46, the lower end of the connecting block 46 is positioned in the groove 11, the side end of the angle rotating block 43 is connected to one rack 44 close to one side of the angle rotating hydraulic cylinder 42, when the spraying equipment 12 operates to spray the balloon 16, the balloon 13 is fixedly limited by the expansion of the two balloons 13, and the whole outer side of the balloon 16 is required to be sprayed, so that the balloon 16 is required to be driven to rotate, the spraying equipment 12 is used for omnibearing spraying operation, at the moment, the angle rotating hydraulic cylinder 42 operates to drive the angle rotating block 43 on the driving end of the angle rotating hydraulic cylinder 42 to perform telescopic movement, so that the connecting block 46 drives the two racks 44 to move on the corresponding pipeline seat 39, the two racks 44 move to drive the two gears 45 to rotate, so that the two gas outflow pieces 391 are driven to rotate on the corresponding pipeline connecting piece 38 and the pipeline seat 39, thereby driving the two air bags 13 to expand and limit the completed balloon 16 to rotate, and realizing the omnibearing spraying operation of the balloon 16.

Preferably, the air drying device 5 includes two air drying pipes 51 and two support brackets 52, the two support brackets 52 are symmetrically disposed at the side ends of the converging pipe 34, the two air drying pipes 51 are disposed on the two support brackets 52, one ends of the two air drying pipes 51 are respectively connected to two ends of the converging pipe 34, the two air drying pipes 51 are provided with control valves 37, the other ends of the two air drying pipes 51 face the fixing frame 14 and are in a splayed shape, when the two air bags 13 are inflated, the control valves 37 on the two air drying pipes 51 are in a closed state, when the two air bags 13 are inflated and the product is limited, the control valves 37 on the two air flow pipes 36 are closed at the moment, thereby avoiding damage to the product caused by continuous inflation of the two air bags 13, the driving hydraulic cylinder 23 continuously operates, the two air bags 13 limit the air bags 13, so that when the spraying equipment 12 performs spraying operation on the air bags 13, the angle rotating hydraulic cylinder 42 operates to drive the air bags 13 to rotate, the omnibearing spraying operation on the air bags 16 is realized, at the moment, the control valves 37 on the two air drying pipelines 51 are opened, the air in the converging pipeline 34 is discharged into the two air drying pipelines 51 and is discharged to the air bags 16 in the spraying operation, when the spraying equipment 12 performs the spraying operation on the air bags 16, the spraying liquid does not scatter towards personnel through the wind force of the two air drying pipelines 51, thereby avoiding the inhalation of personnel, and simultaneously, after the spraying equipment 12 finishes spraying on the air bags 16, the air bags 16 after the spraying operation can be air-dried through the wind force of the two air drying pipelines 51, thereby facilitating the subsequent quick removal, the processing efficiency is improved.

Preferably, the fixing frame 14 is provided with an absorbing member 15, the absorbing member 15 and the air outlets of the two air drying pipes 51 are in corresponding states, and when the spraying device 12 performs spraying operation on the balloon 16, the redundant spraying liquid can be blown onto the absorbing member 15 on the fixing frame 14 by the wind power of the two air drying pipes 51, and is absorbed by the absorbing member 15.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are to be included in the scope of the claims of the present invention.

Claims

1. The utility model provides a processing manufacturing method of medical balloon, medical balloon includes sacculus (16), sacculus (16) are flat pear form, are continuous with oval sacculus, worm pipe by tubule respectively, its characterized in that: the preparation method of the medical balloon comprises the following steps:

a first step, a workbench (1), spraying equipment (12), a driving device (2), a gas flow device (3), an angle rotation device (4), an air drying device (5), an air bag (13) and a fixing frame (14) are arranged, wherein the workbench (1) is arranged on a horizontal plane, the driving device (2) is arranged on the workbench (1), the gas flow device (3) is arranged on the driving device (2), the angle rotation device (4) is arranged on the gas flow device (3), the air bag (13) is provided with two air bags (13) symmetrically arranged on the gas flow device (3), the fixing frame (14) is arranged at the side end of the spraying equipment (12), the air drying device (5) is communicated with the gas flow device (3), the driving device (2) comprises a driving seat (21), a driving frame (22), a driving hydraulic cylinder (23), a driving piece (24), a driving rod (25), a driving piston (26) and a driving cavity (27), the driving seat (21) is arranged on the workbench (1), the driving frame (22) is symmetrically arranged on the gas flow device (3), the driving seat (21) is arranged on the driving seat (21) and penetrates through the driving end, the driving part (24) is arranged at the upper end of the driving hydraulic cylinder (23), one end of the driving rod (25) is rotationally connected with the driving part (24), the middle part of the driving rod (25) is connected on the driving frame (22) and rotationally connected, the driving cavity (27) is arranged at the side end of the driving frame (22), the driving piston (26) is positioned in the driving cavity (27), the upper end of the driving piston (26) passes through the driving cavity (27) and is in sliding fit up and down, the other end of the driving rod (25) is connected at the upper end of the driving piston (26) and is hinged, the driving cavity (27) is provided with an upper air inlet (271), a lower air inlet (272), an upper air inlet (273) and a lower air inlet (274), the upper air inlet (271) and the lower air inlet (274) are symmetrically arranged at the outer side of the driving cavity (27) and at the upper position, the lower air inlet (272) and the lower air inlet (274) are symmetrically arranged at the outer side of the driving cavity (27) and at the lower position, the upper air inlet (272), the lower air inlet (274) and the lower air inlet (274) are provided with a flow control valve (31) and a flow control device (32) respectively The utility model provides a pipeline frame (33), assemble pipeline (34), support frame (35), gas flow pipeline (36), pipeline connecting piece (38), pipeline seat (39) and gas outflow piece (391), mount (14) are equipped with two, two mount (14) symmetry sets up on workstation (1), the one end of gas upper flow pipeline (31) is connected on last inflow port (273), the one end of gas lower flow pipeline (32) is connected on lower inflow port (274), support frame (35) set up in the side of two mount (14), assemble pipeline (34) set up on mount (14), the other end of gas upper flow pipeline (31) and gas lower flow pipeline (32) are respectively passed corresponding pipeline frame (33) and are connected at the both ends of assemble pipeline (34), gas flow pipeline (36) are equipped with two, two gas flow pipeline (36) are respectively connected on lower inflow port (274), assemble pipeline (34) are equipped with two ends of pipeline (39) and are equipped with two corresponding support frames (34) and two ends of pipeline seat (39) are equipped with respectively, two support frames (34) are equipped with two and two ends of pipeline seat (39) are equipped with two, the two pipeline connecting pieces (38) are respectively arranged at the air outlet ends of the corresponding gas flowing pipelines (36), the two gas flowing pieces (391) are respectively arranged on the corresponding pipeline connecting pieces (38) and are respectively in rotary connection with the corresponding pipeline connecting pieces (38), one ends of the two gas flowing pieces (391) respectively penetrate through the corresponding pipeline seat (39) and are respectively in rotary connection, the two air bags (13) are respectively sleeved on the corresponding gas flowing pieces (391), the two gas flowing pipelines (36) are respectively provided with a control valve (37), the angle rotating device (4) comprises an angle rotating seat (41), an angle rotating hydraulic cylinder (42), an angle rotating block (43), a rack (44), a gear (45) and a connecting block (46), the workbench (1) is provided with a groove (11), the angle rotating seat (41) is arranged at the side end of one of the two pipeline seats (39), the angle rotating block (42) is respectively sleeved on the corresponding gas flowing piece (391), the two angle rotating blocks (42) are respectively arranged on the two angle rotating cylinders (45) in a rotary mode, the two angle rotating blocks (45) are respectively sleeved on the two angle rotating cylinders (43), the two racks (44) are arranged, the two racks (44) are respectively arranged on the corresponding pipeline seat (39) and are in left-right sliding fit, the two gears (45) are respectively in meshed state with the corresponding gears (45), the two racks (44) are connected by the connecting block (46), the lower end of the connecting block (46) is positioned in the groove (11), the side end of the angle rotating block (43) is connected to one rack (44) close to one side of the angle rotating hydraulic cylinder (42), the air drying device (5) comprises an air drying pipeline (51) and a supporting bracket (52), the supporting bracket (52) is provided with two, the two supporting brackets (52) are symmetrically arranged at the side ends of the converging pipeline (34), the two air drying pipelines (51) are provided with two, one ends of the two air drying pipelines (51) are respectively connected to two ends of the converging pipeline (34), the two air drying pipelines are provided with two air drying pipelines (51) which are respectively, the two air drying pipelines (14) are provided with two air-absorbing and air-absorbing pieces (14) which are in the shape of the two air-absorbing pieces (14) and are in the shape of the two air-absorbing pieces (14), when spraying the product, firstly placing the required spraying balloon (16) under the spraying equipment (12) and between the two air bags (13), placing the corresponding air bags (13) into the through holes at the two ends of the balloon (16), and placing the air bags (13) in an airless state;

A second step of driving a driving member (24) on the driving end of the driving hydraulic cylinder (23) to move through the operation of the driving hydraulic cylinder (23), driving a driving rod (25) to move by taking a driving frame (22) as a fulcrum through the movement of the driving member (24), driving a driving piston (26) on the other end of the driving rod (25) to move up and down in the driving chamber (27), when the driving hydraulic cylinder (23) moves to drive the driving piston (26) to move up in the driving chamber (27), the upper air inlet (271) and the lower air inlet (274) are controlled to be closed through respective one-way control valves (275), the lower air inlet (272) and the upper air inlet (273) are controlled to be opened through respective one-way control valves (275), external air is pumped into the driving chamber (27) through the lower air inlet (272) during the upward movement of the driving piston (26), and flows into the air flow device (3) through the upper air inlet (273), and after the upward movement of the driving piston (26) is completed, the upper air inlet (271) and the lower air inlet (274) are controlled to be opened through respective one-way valves (275) when the upward movement of the driving piston (26) is completed, the lower air inlet (272) and the upper air inlet (273) are controlled to be closed through respective one-way control valves (275), when the driving piston (26) moves downwards in the driving chamber (27), external air is pumped into the driving chamber (27) through the upper air inlet (271), flows into the air flowing device (3) through the lower air inlet (274), is pumped into the driving chamber (27), flows into the upper air flowing pipeline (31) and the lower air flowing pipeline (32), flows into the converging pipeline (34), and the control valves (37) on the two air flowing pipelines (36) are in an open state, so that the air flows into the two air flowing pipelines (36) through the converging pipeline (34), is discharged into the corresponding air outflow piece (391) through the two fixed pipeline connecting pieces (38), and finally the air in the two air outflow pieces (391) is discharged into the two air bags (13), and the two air bags (13) are inflated slowly;

Thirdly, after the through holes at the two ends of the balloon (16) are sealed by the two air bags (13), the two air flow pipelines (36) are closed by the control valve (37), and the spraying operation is carried out on the balloon (16) through the operation of the spraying equipment (12), so that the condition that spraying liquid enters the interior of the balloon (16) to influence the subsequent normal use of products is avoided, and the balloon (16) is made of lighter materials, so that the balloon (16) can be fixed and limited after being inflated by the two air bags (13), and the spraying operation on the balloon (16) can be realized without using other equipment to fix and limit the products;

fourthly, when the spraying equipment (12) operates to spray the balloon (16), the two air bags (13) are fixedly limited through the expansion of the two air bags (13), and the whole outer side of the balloon (16) is required to be sprayed, so that the balloon (16) is required to be driven to rotate, the spraying equipment (12) is used for carrying out all-round spraying operation on the balloon (16), at the moment, the angle rotating hydraulic cylinder (42) is operated to drive the angle rotating block (43) on the driving end of the angle rotating hydraulic cylinder (42) to carry out telescopic movement, the connecting block (46) is used for driving the two racks (44) to move on the corresponding pipeline seat (39), the two racks (44) are moved to drive the two gears (45) to rotate, and the two air outflow pieces (391) are driven to rotate on the corresponding pipeline connecting piece (38) and the pipeline seat (39), so that the balloon (16) with the expansion limit of the two air bags (13) is driven to rotate, and the balloon (16) is sprayed all-round;

Fifth step, when two air bags (13) expand and accomplish the product spacing back, control valve (37) are closed on two air flow pipeline (36) this moment, avoided two air bags (13) to last to expand and cause the injury to the product, and drive pneumatic cylinder (23) continuously move, limit air bags (13) through two air bags (13), make spraying equipment (12) carry out spraying operation to air bags (13), simultaneously angle rotation pneumatic cylinder (42) move and drive air bags (13) and rotate, realize all-round spraying operation to sacculus (16), and control valve (37) on two air-dry pipeline (51) are opened this moment, with gathering pipeline (34) inside gas discharge to two air-dry pipeline (51) in, and discharge to sacculus (16) department of spraying operation, make spraying equipment (12) when spraying operation to sacculus (16), the air-dry that spraying liquid made through two air-dry pipeline (51) spray towards personnel department, simultaneously spray equipment (12) spray to sacculus (16) and accomplish through two air-dry pipeline (51), thereby the subsequent air-dry efficiency of taking can be improved, and the subsequent processing can be accomplished.