RU196282U1 - SYRINGE FOR PRESSURE IN A CYLINDER CATHETER - Google Patents

Abstract

The utility model relates to medical equipment and can be used in cardiology and vascular surgery for restoration of the lumen of blood vessels with balloon-expandable stents. A syringe for moving fluid in order to create pressure in a balloon catheter when installing stents in blood vessels includes a housing having a longitudinal axis and a supporting element, which is located in the housing with the possibility of extraction from it, a rod that passes through the supporting element; wherein the mesh engagement structure is held by the support member, wherein the mesh engagement structure selectively engages and disengages from it. The inventive design of the syringe provides stable and reliable operation while creating high pressure. 5 ill.

Description

The utility model relates to medical equipment and can be used in cardiology and vascular surgery for restoration of the lumen of blood vessels with balloon expandable stents.

A known syringe with a lock to create pressure in a medical device that contains an element with a female thread; a plunger, at least part of which is in the element with an internal thread; an element with an external thread, while this element is located on the plunger; locking actuator included in the plunger and engaged with an element having an external thread; and the carrying case of the syringe [RU 2666880 C2, IPC A61M 25/10 (2006.01), publ. 2018]. The locking actuator is capable of disengaging an element with an external thread from an element with an internal thread, thereby allowing the plunger to slide relative to the element with an internal thread without the need for rotation of the plunger. An element with an external thread is placed in the receiving part on a plunger with the possibility of movement for coupling and disengaging with an element with an internal thread. An element with an internal thread contains a plurality of segments located in the bearing case of the syringe, where the separation of the segments of the element with the internal thread under the action of the outward radial force communicated by the element with the external thread during loading of the plunger is prevented by the bearing case of the syringe containing the segments of the element with an internal thread.

A disadvantage of the known design of the syringe is:

- the use of 2 half segments 50.52 as the internal thread of the cylindrical part 16, which in practice does not allow for perfect alignment of the threads of the internal thread 54 of the half segments and does not ensure smooth and stable rotation of the plunger 12 when creating high pressure in the syringe body 14;

- the use of the plunger 12 and the threaded segment 18 with an external thread by the independent elements of the syringe when they are brought into working condition does not provide sufficient rigidity of this power unit assembled from these parts and reliable contact with the internal thread 54 of half segments 50, 52 of the cylindrical part 16, which violates smoothness and stability of rotation of the plunger 12 when creating high pressure in the housing 14 of the syringe;

- the use of 2 half segments 50, 52 as the internal thread of the cylindrical part 16 with a thread length for the entire stroke of the plunger unreasonably increases the dimensions of the syringe as a whole and its mass, which creates inconvenience during its operation.

The technical problem to which the claimed technical solution is directed is to eliminate the indicated disadvantages of the analogue by developing a syringe design that allows creating a relatively inexpensive device with a very high load and ultrahigh pressure in a fairly compact design that is easy to assemble.

When implementing a utility model, the problem posed is solved by achieving a technical result, which consists in ensuring stable and reliable operation of the syringe while creating high pressure, which will reduce the risks of stent implantation.

The specified technical result is achieved by the fact that the syringe for moving the fluid in order to create pressure in the balloon catheter when installing the stents in the blood vessels contains a housing having a longitudinal axis and a supporting element, which is located in the housing with the possibility of extraction from it, a rod that passes through the supporting element; wherein the mesh engagement structure is held by the support member, wherein the mesh engagement structure selectively engages and disengages from it.

The utility model is illustrated by drawings, where:

in FIG. 1 shows a syringe, a top view;

in FIG. 2 is an exploded perspective view of the syringe shown in FIG. 1;

in FIG. 3 is a perspective view with a spatial separation of the details of the locking mechanism;

in FIG. 4 and FIG. 5 is a cross-sectional view of a syringe taken along line AA in FIG. 1, showing a device in two different states.

The syringe shown in FIG. 1 is a device for pumping ultrahigh pressure of a certain volume of liquid.

The syringe (Figs. 1 and 2) contains a housing 1 in which an outlet 2 with a connector 3 and a pressure gauge 4 located at the distal wall of the housing are installed, a piston 5, a rod 6, a locking / unlocking mechanism 7 of the rod 6 and a handle 8 located at the proximal body walls 1.

The locking / unlocking mechanism 7 of the rod 6 (Fig. 3) contains a supporting element 9, a latch 10, a polymer axis 11 and a metal axis 12.

The syringe comprises a housing 1 as a whole, in which a rod 6 with a piston 5 and a locking / unlocking mechanism 7 are installed. Preferably, the housing 1 is transparent, thereby facilitating viewing of the liquid during aspiration or dosing of the liquid. The housing 1 preferably has a volumetric designation 14 on it, so that the user can easily determine the volume of fluid contained in the syringe.

The piston 5 slides in the housing 1. The sealing element 15 (Fig. 2), having a cross section of a quadrangular ring, is located on the piston 5 and is configured to hold pressure and prevent fluid leakage past the piston 5 in the housing 1. Lubricant can be used to placing the sealing member 15 on the piston 5. As shown in FIG. 1 and 2, the housing 1 is configured to be connected to an outlet 2 for delivering fluid, and outlet 2 and its opposite end can be connected to a connector 3, for example, such as a Luer connector, which is connected to a balloon catheter (not shown), a reservoir for fluid supply (not shown) or some other design depending on the application. The housing 1 is adapted to engage with the pressure gauge 4, so that the fluid pressure is displayed.

As shown in FIG. 2, the rod 6 at its end opposite the piston 5 has a handle 8. Between the handle 8 and the piston 5, the rod is a thread 13, so that the rod can be considered as a threaded (screw) rod.

The components of the lock / unlock mechanism 7 are shown in FIG. 3 contain a bearing element 9 and a latch 10. The bearing element 9 is connected to the latch 10 through the polymer axis 11 and connected to the housing 1 through the metal axis 12. The threaded segments 16 are designed for selective engagement with the thread 13 on the rod 6, the rod passes through the hole 17 6 after the syringe is fully assembled.

In a fully assembled syringe, the threaded segments 16 of the carrier 9 are engaged with the threads 13 of the rod 6, which blocks the free movement of the rod 6 relative to the housing 1. The rod 6 can be moved by rotating the handle 8. When moving the latch in the direction of the arrow 18 (in Fig. 5 ) the bearing element 9 moves along the metal axis 12, which leads to the unlocking of the free movement of the rod 6 relative to the housing 1 due to the uncoupling of the threaded segments 16 of the bearing element 9 with the thread 13 of the rod 6.

The creation of pressure (discharge) in balloon catheters with a controlled and stable volume displaced into the fluid balloon is ensured by using a rod 6 with an external thread 13 and a locking mechanism as a control.

For the manufacture of the components of the syringe mainly used materials approved for use in medical practice, including, for example, such as: polyamide, polycarbonate, ABS, polyacetal, thermoplastic polyurethane.

Syringe designs are known (e.g., RU 2666880 C2). They contain a cylindrical chamber, a rod with a piston moves in it, which pushes liquid through a hole in the chamber.

A balloon catheter with a stent installed is inserted into the vessel, the doctor rotates the rod of the syringe attached to the balloon catheter. The fluid is displaced from the syringe, inflates the balloon, straightens the stent, which is tightly pressed and fixed in the vessel. Then the doctor retracts the syringe rod and draws fluid from the balloon. The balloon is compressed and removed from the stent.

In the claimed utility model of the syringe, the supporting element 9, located in the housing 1, is removable from it. The rod 6 passes through the supporting element 9, and is in constant engagement with it. The design of the lock / unlock mechanism 7 through the action on the latch 10 disconnects the bearing element 9 and the rod 6 (Fig. 4 and 5).

Thus, due to the claimed configuration of the syringe in accordance with this utility model, the syringe is stable and reliable when high pressure is created due to the introduction of the entire threaded parts of the supporting element 9 and the stem 6 instead of the composite ones (half segments 50 and 52, the plunger 12 and the threaded segment 18, RU 2666880 C2), as well as a more compact and lightweight design.

Claims (4)

1. A syringe for moving fluid in order to create pressure in a balloon catheter when installing stents in blood vessels, characterized in that it contains a housing having a longitudinal axis and a locking mechanism, which is located in the housing with the possibility of extraction from it, and a threaded rod, with this locking mechanism contains a supporting element and a latch, the supporting element is connected to the latch via a polymer axis and connected to the housing through a metal axis, while the supporting element contains a hole with a thread made with zhnosti engagement with the threaded rod and lock rod free movement relative to the housing by moving the retainer and is detachably thread from the thread rod bearing member. 2. The syringe according to claim 1, characterized in that the said piston has a sealing element having a cross section of a quadrangular ring, which is configured to hold pressure and prevent fluid leakage past the piston in the housing. 3. The syringe according to claim 2, characterized in that a lubricant is used to place the sealing element on the piston. 4. The syringe according to claim 1, characterized in that the housing is adapted to engage with a pressure gauge to display fluid pressure.

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