SU1742086A1 - Method for forming the ends of medical tubular appliances from thermoplastic materials - Google Patents

Abstract

Usage: molding the ends of tubular medical instruments from thermoplastics with high quality molded products and simplified process. SUMMARY OF THE INVENTION: The end of a tubular billet is molded by application of an axial force to the billet with its gradual introduction into the cavity of a pre-heated mandrel and simultaneous venting of air from the bottom of the latter. Then, the blanked end of the preform is blown, fixed, and the mandrel is cooled from the outside by washing off with a cooling agent. 1 hp ff, 5 ill., 2 tab.

Description

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The invention relates to the technology of forming the ends of thermoplastic tubular medical instruments by heating in a mandrel and can be used in the medical industry, for example, in the manufacture of catheters, bougie and probes.

There is a method of fusing the end slice - the wall of the lead-in end of nasopharyngeal catheters and gastric pediatric catheters. In so doing, the tubular preform of the polyvinyl chloride catheter is melted in a glass mandrel with a central mandrel in the bottom of the tube. The mandrel with the billet tube, the end of which is adjacent to the mandrel, is heated, in contact with the surface of a metal plate heated to 340 ° C, after which it is cooled on the table under conditions of natural heat exchange for 2-3 minutes.

However, this method does not solve the problem of forming an atraumatic damping of the end of tubular tools with the formation of a smooth spherical surface, but finds a narrow application only for melting the cut of tubes of small diameter from 2.0 to 4.66 mm with preservation of the axial channel.

The closest in technical essence and the achieved result is the method of forming the entry part of ureteral catheters, according to which the tip of a tubular billet of small diameter from 1.0 to 3.3 mm is melted in a vial-tube over a flame of a spirit lamp, after which it is cooled on a table in mandrel. The result is a tube blank with a melted cone-shaped end closed in the melting section.

The known method makes it possible to form molten ends of hollow articles of small diameter and with small wall thickness without high precision of geometr

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sky shape and size. In addition, when attempting to melt blanks of a larger diameter, there is a failure to complete the ends of the product.

In the known method, the distortion of the geometric shape and size of the molded end of a large section blank occurs at the time of reflow and movement in the cavity of the mandrel. This disadvantage is due to the fact that the air enclosed in the cavity of the mandrel without a hole prevents the workpiece from going deep into the forming mandrel. When heated, the air expands and penetrates into the melted end of the workpiece, resulting in the formation of cavities in the entry portion and deterioration of the quality of the product.

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Thus, it is possible to mold the end of the tube blank, preferably simple products with a small wall thickness and small diameter, in a known manner. The technological process and the shape of the mandrel according to a known method fundamentally excludes the possibility of molding articles of complex configuration and large size.

The purpose of the invention is to simplify the process and improve the quality of the product.

The goal is achieved by the fact that the end of the tubular billet is muffled by applying axial force to the billet with its gradual introduction into the cavity of the preheated mandrel and simultaneous venting of air from the lower part of the latter, then it is blown out and fixed. cooling the mandrel outside by washing with a cooling agent, as well as at the end of the tubular blank, an insert of the same material is freely placed, and then the end of the blank is molded into the frames e polisiloksa- with the introduction of new fluid as a lubricant, and blowing is carried out by feeding air into the preform through its open end. To ensure a given product size, the preforms are inflated by creating an overpressure inside from 0.01 to 0.03 MPa by injecting air through its open end.

To implement the proposed method, a calibrating mandrel is used, made in the form of a conical tube with a coaxial hole in the bottom. In order to provide local heating of the workpiece, it is preferable to use a calibrating mandrel made of a material with a low thermal conductivity coefficient, for example, hegecles, porcelain, metal ceramics, etc.

The presence of a hole in the bottom of the mandrel with a diameter of 0.2-0.5 mm ensures high quality of the atraumatic geometric shape of the lead-in tool, since air quickly and completely escapes from the cavity of the mandrel through the hole,

At pressures below 0.01 MPa, incomplete design and poor quality of the molded end of the product are observed.

A further increase in the excess air division from 0.03 to 0.05 MPa does not lead to an increase in the dimensional accuracy of the product.

The fusion and blow forming mode leads to the formation of a monolithic end of a given shape and size of the product, similar to the process of welding polymeric materials by heating.

In addition, the calibrating mandrel is heated to the temperature of processing the material from the melt and the fixing time is chosen to be equal to the cooling time of the surface layers of the workpiece from the processing temperature to the pour point, which also contributes to ensuring the specified dimensions and quality of the product.

Polyvinyl chloride, polyolefins, ABS plastic compounds, polyacryls, etc. can be used as thermoplastic materials.

Fig. 1 shows a flow chart of the method; Fig. 2 illustrates the step of forming the end of a hollow billet by muting; on Fig.Z - options mandrel; Fig. 4 shows variations of the tubular blank, Fig. 5 shows variations of shape and dimensions after forming the tubular tools.

The billet of tube 1 is gradually inserted all the way into the cavity of the glass mandrel 2 heated in the furnace 3. From the cavity of the mandrel 2, through the opening 4, air quickly and completely escapes during the molding. Fix the shape of the product in the mandrel 2 while simultaneously cooling it from outside with air and creating an overpressure of from 0.01 to 0.03 MPa by supplying air to the inside of the workpiece. As a result of the blowing, the billet takes the configuration and dimensions of the inner mandrel 2.

Molding the hollow billet 1 by melting and blanking when the end is heated occurs in 3 stages as it moves in the mandrel 2. To do this, the billet 1 of the tube 1 heated in the mandrel 2 exerts an axial force for 3-5 seconds to move it to the stop and completely form the lead-in end. Therefore, in calibrating the mandrel of the proposed design, the fixation of the shape and size of the product is fully completed.

Depending on the shape of the cavity of the mandrel and the type of the workpiece can be molded products of various configurations.

Example 1. According to the proposed method, the inlet end of rectal catheters is formed.

Catheter blanks are tubes with an outer diameter of 6.0 to 12.0 mm and an insert of diameters of 3.9 to 8.1 mm for installation as a plug at the end of the tube prior to molding. Height of an insert is 20 mm. The catheter blanks and inserts are made of PM-1/42 polyvinyl chloride compound.

The technology for the lead-in design is as follows.

A glass mandrel with a hole in the bottom is placed in a heater-oven with a stationary thermal regime, and is held until it is fully heated to a predetermined temperature. The temperature of the heater is 270-290 ° C, which is determined by the heat reserve needed to heat the mandrel and to melt the end of the billet in the mandrel.

When the mandrel is heated to a temperature of 270 ° C, it is removed from the heater, and a tube blank with a diameter of 6.0 mm is gradually inserted into it, the insert with a diameter of 3.9 mm is placed at the end of it. The tube blank with an insert is pre-lubricated with a polyisiloxane fluid to improve the quality of the surface to be decorated.

Moving the workpiece of the mandrel by applying an axial force displaces air from the mandrel through the hole in the bottom and provides a complete design of the lead-in end with the axial canal closed at the end section, the geometry of the end should reproduce the shape and dimensions of the internal cavity of the forming mandrel.

Air is blown through the open end to blow up a section that is muffled when the area is heated until the dimensions of the mandrel are received. Then, the workpiece with the decorated end in the mandrel is cooled outside by a stream of compressed air. As a result, the end of the preform is rapidly cooled from the melt processing temperature to the thermoplastic pour point.

The pressure created inside the billet in the range of 0.01-0.03 MPa promotes a firm connection of the insert with the wall of the tube and ensures high accuracy of molding the end of the product. In addition, this technique facilitates the removal of the workpiece from the mandrel.

The complete cooling of the preform to room temperature is completed within 3-4 minutes under natural heat transfer conditions.

The decorated end of the billet tube has a dead section equal to the height

inserts, spherical end surface is smooth transparent.

Technological modes of registration of other numbers of catheters are shown in Table 1.

0 Example 2. The entry end of cylindrical urethral catheters is designed according to the proposed method without insertion of the insert before molding. Catheter blanks are polyvinyl chloride tubes with an outer diameter of 4 to 7 mm.

The sequence of operations is the same as in example 1. In accordance with the configuration of the cavity of the mandrel

The decorated end of the catheter has a conical shape, the surface is smooth, smooth.

Technological modes of forming urethral catheters are given in Table 2.

5 The proposed method allows to obtain tubular tools with an initial end of various geometric shapes, high precision and atraumatic performance.

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Claims (2)

Claim 1. Method of forming thermoplastic medical tubular ends for which heating is performed 5 tubular billet, molding the end of the billet with plugging in the mandrel, fixing the shape of the end of the billet and cooling, characterized in that, in order to simplify the process and improve the quality of the product, the end of the tubular billet is molded by applying axial force to the billet during its gradual introduction into the cavity of the pre-heated mandrel and simultaneous venting 5 from the bottom of the latter, then blowing up the plugged end of the workpiece, fixing and cooling the mandrel from the outside by flushing with a cooling agent. 0 2. The method according to claim 1, characterized in that, in order to eliminate shape distortion and provide predetermined dimensions of the product, an insert of the same material is freely placed at the end of the tubular billet, 5 and then the end of the blank is formed in the mandrel with the introduction of polysiloxane fluid as a lubricant, and the inflation is carried out by supplying air into the blank through its open end. FIG. one Table 1 table 2 I s xS & a & 2. 2 eT "& fr, i4 Cf