CN115281796A - Automatic change blood vessel and intervene treatment facility - Google Patents

Abstract

The invention relates to the technical field of blood vessel intervention, in particular to automatic blood vessel intervention treatment equipment which comprises a device body, an intervention tube body, an injection head and a flow dividing mechanism, wherein the flow dividing mechanism comprises a bubble detector, the bubble detector is installed on the outer side of the intervention tube body, a second fixing ring is fixedly installed on the outer side of the intervention tube body, a control panel is fixedly installed on one side of the second fixing ring, a honeycomb alarm is fixedly installed on the outer side of the second fixing ring, a plurality of flow dividing tubes are fixedly installed on the outer side of the intervention tube body, and one-way components are arranged inside the flow dividing tubes and inside the intervention tube body. The invention can automatically carry out automatic shunting treatment on the part of fluid after the delivered fluid contains bubbles in the process of interventional therapy on a patient, and can carry out sound warning, complete the treatment on the bubbles in the process of not influencing the interventional therapy and prompt a worker to carry out inspection treatment.

Description

Automatic change blood vessel and intervene treatment facility

Technical Field

The invention relates to the technical field of vascular interventional therapy, in particular to automatic vascular interventional therapy equipment.

Background

The vascular interventional therapy technique is a catheter technique which does not require an operation nor general anesthesia relative to a surgical operation. The vascular interventional therapy technology utilizes an interventional catheter to reach a to-be-treated part at the far end in a body through a lumen of a blood vessel, and diagnoses and treats the to-be-treated part at the far end in the body by means of administration or placement of a medical instrument, wherein air is exhausted before operation of the interventional catheter is started, but in a subsequent procedure, such as when the medical instrument is fed in or out or is administered through the interventional catheter, a small amount of air is sometimes sucked into the interventional catheter due to the existence of negative pressure, and even if very small air bubbles are pushed into the blood vessel (particularly coronary artery), the risk is caused.

Disclosure of Invention

The invention aims to provide an automatic vascular interventional therapy device, which solves the problems that in the prior art, the operation can be performed only by depending on the operator himself, and the operator is required to carefully observe the interventional catheter at all times to judge whether air bubbles exist in the interventional catheter, so that the requirements of the method and the device in the prior art are extremely high, the visual and mental fatigue of the operator is easily caused, the operation is affected, and a certain proportion of air embolism complications inevitably occur even if the operator notices extra attention in the treatment process, and the adverse effects are brought to the patient to different degrees.

In order to achieve the purpose, the invention provides the following technical scheme: an automated vascular interventional therapy device comprising:

the device body comprises an intervention tube body and an injection head;

reposition of redundant personnel mechanism, including the bubble detection appearance, the bubble detection appearance is installed in the outside of interveneeing the body, the outside fixed mounting who intervenes the body has the solid fixed ring of second, the solid fixed ring's of second one side fixed mounting has control panel, the solid fixed ring's of second outside fixed mounting has the honeycomb alarm, the outside fixed mounting who intervenes the body has a plurality of shunt tubess, the inside of shunt tubess and the inside of interveneeing the body all are equipped with one-way subassembly, the inside of shunt tubess all is equipped with first solid fixed ring, hydrophobic ventilated membrane is installed in all imbedding in first solid fixed ring's inboard, install the solenoid valve on the intervention body, the inside fixed mounting who intervenes the body has stationary flow mechanism, the outside of shunt tubess all fixed mounting have the discharge tube, the port of discharge tube all installs sealed lid through the screw thread.

Preferably, the outside fixed mounting who intervenes the body has the fixed band, the outside fixed mounting who intervenes the body has the elastic band, the one end fixed mounting of elastic band has the cloth, fixed mounting has the magic to paste sub-face on the cloth, the outside fixed mounting of fixed band has the magic to paste female face.

Preferably, a plurality of clamping blocks are uniformly and fixedly mounted on the outer side of one end of the intervention tube body, and clamping grooves matched with the clamping blocks are uniformly formed in the inner side of the injection head.

Preferably, all adopt buckle formula swing joint between first solid fixed ring and the shunt tubes, conveniently separate the dismantlement between first solid fixed ring and the shunt tubes.

Preferably, the top end of the first fixing ring is fixedly provided with a supporting framework, and the supporting framework is in a cross shape.

Preferably, the outside fixed mounting who intervenes the body has the rubber sleeve, the one end of rubber sleeve is laminated with the one end of injection head mutually, the inboard embedding of rubber sleeve is installed the resistance wire, the inboard of resistance wire is laminated with the outside of interveneing the body mutually.

Preferably, one-way subassembly includes first collar, first collar is installed in the inside of shunt tubes and intervention body, the annular logical groove has all been seted up to first collar inboard, the all fixed mounting in one end of first collar has compression spring, the all fixed mounting in one end that compression spring kept away from first collar has the installation piece, the installation piece is close to the all fixed mounting in one end of first collar has the connecting block, the all fixed mounting in one end that the installation piece was kept away from to the connecting block has the end cap that leads to groove looks adaptation with first collar annular.

Preferably, the steady flow mechanism includes the second collar, the quantity of second collar is two, two the second collar is installed in the inboard of interveneeing the body, two the inside of second collar is rotated and is installed the flood dragon axle, the both ends outside of flood dragon axle is all fixed mounting has the turbofan.

Compared with the prior art, the invention has the beneficial effects that:

1. when the device is used, the bubble detector detects fluid flowing in an intervention pipe body, when the fluid is detected to contain bubbles, the bubble detector transmits signals to the control panel, the honeycomb alarm and the electromagnetic valve are started to block through the control panel, the honeycomb alarm gives an alarm to warn and sound, the electromagnetic valve works to block the fluid in the intervention pipe body, at the moment, the pressure difference fluid pushes the plug and the mounting block to move away from the first mounting ring until the plug does not block the inside of the first mounting ring any more, the fluid containing the bubbles enters the shunt pipe through the first mounting ring, after the shunt pipe and the intervention pipe body are stable in pressure, the compression spring recovers elasticity, the plug blocks the first mounting ring, at the moment, the electromagnetic valve works to be opened, the fluid can be continuously conveyed, in the process of performing intervention treatment on a patient, after the conveyed fluid contains the bubbles, automatic shunt treatment can be automatically performed on the part of the fluid, the sound is generated, the treatment on the bubbles in the process without influencing the intervention treatment is completed, and a worker can be prompted to perform inspection treatment.

2. When using, accessible control panel starts the electric resistance wire, and the work of electric resistance wire heaies up to fluid to the injection head with intervene the body in heaies up, through this kind of mode, can heat to human body surface temperature to intervene the fluid in the body and injection head, has reduced the strange sensation in cold fluid and the injection head intubate, has guaranteed patient's comfort level among the long-time treatment process.

3. After the fluid is conveyed to a certain position in the intervention pipe body, the fluid pushes the turbofan to rotate, so that the flood dragon shaft is in a rotating state, the fluid is conveyed in a rotating mode through the rotation of the flood dragon shaft, and therefore the fluid can be mixed in a certain manner.

Drawings

FIG. 1 is a schematic perspective view of the present invention in cross-section;

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

FIG. 3 is a perspective view of the unidirectional assembly of the present invention;

FIG. 4 is a perspective view of the flow stabilizing mechanism of the present invention;

FIG. 5 is an exploded perspective view of the injection head structure of the present invention;

fig. 6 is an exploded perspective view of the rubber boot structure of the present invention.

In the figure: 100. a device body; 110. an intervention tube body; 111. an injection head; 112. a bubble detector; 113. a shunt tube; 114. an electromagnetic valve; 116. a first retaining ring; 117. a water delivery breathable film; 118. a support framework; 119. a drain pipe; 120. a second retaining ring; 121. a cellular alarm; 122. a control panel; 123. an elastic band; 124. cloth strips; 125. fixing belts; 126. a clamping block; 127. a clamping groove; 128. a rubber sleeve; 129. an electric resistance wire; 200. a unidirectional component; 210. a first mounting ring; 211. a compression spring; 212. mounting a block; 213. connecting blocks; 214. a plug; 300. a flow stabilizing mechanism; 310. a second mounting ring; 311. a turbofan; 312. flood dragon axle.

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, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, an embodiment of the present invention is shown:

an automated vascular interventional therapy device comprising:

a device body 100 including an interventional tube body 110 and an injection head 111;

the shunting mechanism comprises a bubble detector 112, the bubble detector 112 is installed at the outer side of the intervention tube body 110, a second fixing ring 120 is fixedly installed at the outer side of the intervention tube body 110, a control panel 122 is fixedly installed at one side of the second fixing ring 120, a honeycomb alarm 121 is fixedly installed at the outer side of the second fixing ring 120, a plurality of shunting tubes 113 are fixedly installed at the outer side of the intervention tube body 110, one-way components 200 are respectively arranged inside the shunting tubes 113 and inside the intervention tube body 110, the one-way components 200 comprise first installation rings 210, the first installation rings 210 are installed at the shunting tubes 113 and inside the intervention tube body 110, annular through grooves are respectively formed at the inner sides of the first installation rings 210, compression springs 211 are respectively and fixedly installed at one ends of the first installation rings 210, installation blocks 212 are respectively and fixedly installed at one ends of the compression springs 211 far away from the first installation rings 210, connection blocks 213 are respectively and fixedly installed at one ends of the installation blocks 212 close to the first installation rings 210, when the bubble detector 112 detects that the fluid contains bubbles, the bubble detector 112 transmits a signal to the control panel 122, the control panel 122 starts the honeycomb alarm 121 and the electromagnetic valve 114 to plug, the honeycomb alarm 121 and the electromagnetic valve 114 alarm to sound, and the electromagnetic valve 114 operates to plug the fluid in the intervention tube body 110, at this time, the fluid pushes the plug 214 and the mounting block 212 to move away from the first mounting ring 210 due to pressure difference until the plug 214 no longer plugs the inside of the first mounting ring 210, the fluid containing bubbles enters the inside of the shunt pipe 113 through the first mounting ring 210, and after the pressure in the shunt pipe 113 and the intervention tube body 110 is stable, the compression spring 211 recovers elasticity, so that the plug 214 plugs the first mounting ring 210, and at this time, the electromagnetic valve 114 works and opens, so that the fluid can be continuously conveyed.

Further, intervene the outside fixed mounting of body 110 and have fixed band 125, intervene the outside fixed mounting of body 110 and have elastic band 123, the one end fixed mounting of elastic band 123 has cloth 124, fixed mounting has magic tape face on the cloth 124, the outside fixed mounting of fixed band 125 has magic tape female face, conveniently twine injection positions such as patient's arm through cloth 124, and accomplish the winding fixedly through magic tape face on the magic tape female face cooperation cloth 124 on the fixed band 125.

Furthermore, intervene the even fixed mounting in the one end outside of body 110 and have a plurality of block 126, the inboard of injection head 111 evenly is seted up with block 127 that block 126 looks adaptation, intervene body 110 and injection head 111 through movable connection, conveniently separate injection head 111 for intervene body 110 can carry out reuse after modes such as disinfection.

Furthermore, the first fixing ring 116 and the shunt tube 113 are movably connected in a buckling manner, so that the first fixing ring 116 and the shunt tube 113 can be conveniently separated and detached.

Furthermore, the top end of the first fixing ring 116 is fixedly provided with a supporting framework 118, and the supporting framework 118 is in a cross shape, so that after fluid containing air bubbles enters the inside of the shunt tube 113, the gas can pass through the hydrophobic air-permeable membrane 117 to be discharged, and the fluid cannot pass through the first fixing ring 116.

Furthermore, a rubber sleeve 128 is fixedly installed on the outer side of the interventional tube body 110, one end of the rubber sleeve 128 is attached to one end of the injection head 111, a resistance heating wire 129 is embedded into the inner side of the rubber sleeve 128, the inner side of the resistance heating wire 129 is attached to the outer side of the interventional tube body 110, when the medical device is used, the resistance heating wire 129 can be started through the control panel 122, the resistance heating wire 129 works to heat up, and therefore the injection head 111 and fluid in the interventional tube body 110 are heated up, through the mode, the fluid in the interventional tube body 110 and the injection head 111 can be heated to the surface temperature of a human body, cold fluid and abnormal feeling of the injection head 111 inserted into the tube are reduced, and comfort of a patient in the long-time treatment process is guaranteed.

Further, steady flow mechanism 300 includes second collar 310, the quantity of second collar 310 is two, two second collars 310 are installed in the inboard of interveneeing body 110, flood dragon axle 312 is installed in the internal rotation of two second collars 310, the both ends outside of flood dragon axle 312 all fixed mounting have turbofan 311, fluid is being intervened body 110 and is carried to a certain position back, fluid promotes turbofan 311 and rotates, make flood dragon axle 312 be in the rotating state, rotatory fluid through flood dragon axle 312 carries out rotary transportation, thereby can carry out certain mixing of surging to the fluid.

The working principle is as follows: when the device is used by a worker, firstly, the injection head 111 and the intervention tube body 110 are assembled, then the medicine is input into the intervention tube body 110 to exhaust the air in the intervention tube body 110 until the medicine is exhausted through the injection head 111, the air in the intervention tube body 110 and the injection head 111 is exhausted, then the treatment part of the patient is punctured through the injection head 111, after the puncture is completed, the elastic band 123 is held to stretch, the fixing band 125 is wound on the injection part of the arm and the like of the patient, and the magic tape surface passing through the bottom end of the cloth strip 124 is attached to the magic tape mother surface on the fixing band 125 to complete the fixation;

in the process of administration to a patient, if bubbles are generated in the drug due to negative pressure, the drug is conveyed to a certain position in the intervention tube body 110 and the drug is observed through the bubble detector 112, when the bubble detector 112 detects that the fluid contains bubbles, the bubble detector 112 transmits a signal to the control panel 122, the control panel 122 controls the electromagnetic valve 114 to block, at this time, the fluid containing the bubbles pushes the plug 214, so that the plug 214 drives the mounting block 212 and the connecting block 213 to move away from the second fixing ring 120 until the plug 214 does not block the interior of the first mounting ring 210, the fluid containing the bubbles enters the interior of the shunt tube 113+ through the first mounting ring 210, and along with the conveyance of the fluid, the fluid fills the interior of the shunt tube 113, at this time, the bubbles can be discharged through the hydrophobic breathable membrane 117, while the hydrophobic membrane 117 blocks the fluid, and after a period of conveyance, the control panel 122 controls the electromagnetic valve 114 to open again to continue the conveyance of the fluid;

after the fluid is conveyed to a certain position in the intervention tube body 110, the fluid pushes the turbofan 311 to rotate, so that the flood dragon shaft 312 is in a rotating state, the fluid is conveyed in a rotating manner through the rotation of the flood dragon shaft 312, so that the fluid can be stirred and mixed to a certain extent, and the fluid conveyed in a stirring manner enters the tube of the patient through the injection head 111 for administration treatment.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. An automated vascular interventional therapy device, comprising:

a device body (100) comprising an interventional tube (110) and an injection head (111);

shunt mechanism, including bubble detection appearance (112), install in the outside of intervening body (110) bubble detection appearance (112), the outside fixed mounting of intervening body (110) has the solid fixed ring of second (120), one side fixed mounting of the solid fixed ring of second (120) has control panel (122), the outside fixed mounting of the solid fixed ring of second (120) has honeycomb alarm (121), the outside fixed mounting of intervening body (110) has a plurality of shunt tubes (113), the inside of shunt tube (113) and the inside of intervening body (110) all are equipped with one-way subassembly (200), the inside of shunt tube (113) all is equipped with first solid fixed ring (116), hydrophobic ventilated membrane (117) are installed to the inboard of first solid fixed ring (116) all embedding, install solenoid valve (114) on intervening body (110), the inside fixed mounting of intervening body (110) has stationary flow stabilization mechanism (300), the outside of shunt tube (113) all fixed mounting has drain tube (119), the port of drain tube (119) all installs sealed lid through the screw thread.

2. An automated vascular interventional therapy device according to claim 1, wherein: fixed band (125) are fixedly mounted to the outside of intervention body (110), the outside fixed mounting of intervention body (110) has elastic band (123), the one end fixed mounting of elastic band (123) has cloth (124), fixed mounting has magic subsides son face on cloth (124), the outside fixed mounting of fixed band (125) has the female face of magic subsides.

3. An automated vascular interventional therapy device according to claim 1, wherein: a plurality of clamping blocks (126) are uniformly and fixedly mounted on the outer side of one end of the intervention pipe body (110), and clamping grooves (127) matched with the clamping blocks (126) are uniformly formed in the inner side of the injection head (111).

4. An automated vascular interventional therapy device according to claim 1, wherein: all adopt buckle formula swing joint between first solid fixed ring (116) and shunt tubes (113), conveniently separate the dismantlement between first solid fixed ring (116) and shunt tubes (113).

5. An automated vascular interventional therapy device according to claim 1, wherein: the top end of the first fixing ring (116) is fixedly provided with a supporting framework (118), and the supporting framework (118) is in a cross shape.

6. An automated vascular interventional therapy device according to claim 1, wherein: intervene the outside fixed mounting of body (110) and have rubber sleeve (128), the one end of rubber sleeve (128) is laminated mutually with the one end of injection head (111), the inboard embedding of rubber sleeve (128) is installed resistance wire (129), the inboard of resistance wire (129) is laminated mutually with the outside of interveneeing body (110).

7. An automated vascular interventional therapy device according to claim 1, wherein: one-way subassembly (200) are including first collar (210), first collar (210) are installed in shunt tubes (113) and the inside of interveneeing body (110), the annular groove that leads to has all been seted up to first collar (210) inboard, the equal fixed mounting of one end of first collar (210) has compression spring (211), the equal fixed mounting of one end that first collar (210) were kept away from in compression spring (211) has installation piece (212), the equal fixed mounting of one end that installation piece (212) are close to first collar (210) has connecting block (213), the equal fixed mounting of one end that installation piece (212) were kept away from in connecting block (213) has end cap (214) that lead to the groove looks adaptation with first collar (210) annular.

8. An automated vascular interventional therapy device according to claim 1, wherein: steady flow mechanism (300) include second collar (310), the quantity of second collar (310) is two, two second collar (310) are installed in the inboard of interveneeing body (110), two flood dragon axle (312) is installed in the inside rotation of second collar (310), flood dragon axle (312) both ends outside fixed mounting all have turbofan (311).

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