RU140906U1 - DISPENSER FOR FILLING LIQUID SOLUTIONS - Google Patents

Abstract

1. The dispenser for filling liquid solutions, consisting of a cylinder, suction and discharge fittings and a piston placed in the cylinder with the possibility of movement, characterized in that the dispenser further comprises a rod, at the end of which is a piston, a sleeve, which is located on the end of the rod inside the piston , a pin, which is located on the stem, two washers, two springs, while the springs are attached to the washers, and a distributor that has suction and discharge fittings, while the distributor is located on the end surface the cylinder between the washers, with one washer on top of the distributor and the other on the cylinder body, and there are suction and discharge channels in the distributor body, while the suction channel is connected to the suction fitting at one end and in contact with the cylinder end surface, and the discharge channel is connected at one end to the discharge fitting and the other end is also in contact with the end surface of the cylinder, while an opening is eccentrically located in the end surface of the cylinder. 2. The dispenser according to claim 1, characterized in that the sleeve is made of silicone. The dispenser according to claim 1, characterized in that the piston is made of fluoroplastic.

Description

The utility model relates to the field of medical technology and can be used for sterile filling of liquid solutions, namely, medical and diagnostic drugs.

Existing devices of a similar purpose are difficult to manufacture, expensive and very demanding on the conditions of storage, assembly and operation. Therefore, it remains an urgent task to create devices that are easy to manufacture and convenient to use.

A device for dispensing liquids BAUSCH + SHTRÖBEL (Germany) is known, consisting of a cylinder having a suction and discharge fittings, and a piston, which is movable in the cylinder, the piston having a longitudinal groove (Bedienungs-anleitung. Operating instructions, C.3 ) Filling the dispenser through the suction fitting occurs through the longitudinal groove when the piston moves up. The dispenser is emptied through the discharge nozzle after turning the piston 180 degrees when the piston moves down.

However, this dispenser has the following disadvantages: the almost absolute accuracy of the mating parts (piston and cylinder) determines the high manufacturing cost and does not allow sterilization in an autoclave in the assembled state. After sterilization, the assembly of the dispenser requires the fulfillment of a number of requirements: equalizing the temperature of the piston and cylinder, wetting them in the solution being poured, which complicates its use.

The purpose of the utility model is to simplify the manufacture of the dispenser and increase the usability.

This goal is achieved by the fact that the proposed dispenser consists of a cylinder, a fluoroplastic piston, a rod, a silicone sleeve, a pin, two washers, two springs, a distributor having suction and discharge fittings and suction and discharge channels. In this case, the suction and discharge channels are located in the distributor housing. The suction channel is connected at one end to the suction fitting, and at the other end is in contact with the end surface of the cylinder. The discharge channel is connected at one end to the discharge fitting, and the other end is also in contact with the end surface of the cylinder. An eccentric hole is located in the end surface of the cylinder. Washers by means of springs press the distributor to the end surface of the cylinder.

Figure 1 shows the dispenser circuit, where 1 is the piston, 2 is the rod, 3 is the sleeve, 4 is the pin, 5 is the cylinder, 6 is the washer, 7 is the spring, 8 is the distributor, 9 is the suction fitting, 10 is the discharge fitting 11 - suction channel, 12 - discharge channel, 13 - hole in the end surface of the cylinder.

The proposed dispenser for bottling liquid solutions (see the appendix to the description of figure 1) consists of a cylinder 5, a fluoroplastic piston 1, placed in the cylinder 5 with the ability to move, rod 2, silicone sleeve 3, pin 4, two washers 6, two springs 7 which are attached to the washers 6 and the distributor 8. The distributor 8 is located on the end surface of the cylinder 5 between the washers 6. One washer 6 is located on top of the distributor 8, and the other is located on the cylinder body 5, and by means of springs 7, which are attached to the washers 6 washers 6 press distribution Tel 8 to the end surface of the cylinder 5. The distributor 8 9 has a suction and discharge nipples 10 and 11 there are suction and discharge channels 12 in the body 8 of the distributor. The suction channel 11 is connected at one end to the suction nozzle 9, and the other end is in contact with the end surface of the cylinder 5. The discharge channel 12 is connected at one end to the discharge nozzle 10, and the other end is in contact with the end surface of the cylinder 5. An opening is eccentrically located in the end surface of the cylinder 5 13.

At the end of the rod 2 there is a fluoroplastic piston 1 and inside the piston 1 is a silicone sleeve 3, which is attached to the end of the rod 2. In addition, a pin 4 is located on the rod 2, which allows the cylinder 5 to rotate when the piston 1 moves up and down. The sleeve 3 is made of silicone, and the piston 1 is made of fluoroplastic, and the dispenser can be autoclaved in assembled form and precise manufacturing of parts is not required for manufacturing.

The proposed device can be used in machines for dosed sterile filling of liquid solutions (drugs and diagnostic preparations) into ampoules, vials, etc. in pharmaceutical manufacturing.

The dispenser works as follows:

The dispenser is connected to the filling machine with the lower part of the rod 2 and the upper part of the dispenser 8. A container with the liquid to be poured is connected through the hose to the suction nozzle 9 of the dispenser 8. During suction of the liquid into the dispenser, the rod 2 and the cylinder 5 connected to it by means of a pin 4 are in such a position that the hole 13 in the end surface of the cylinder 5 is opposite the suction channel 11 of the distributor 8. When the fluoroplastic piston 1 moves down, the liquid is poured out capacity, through the suction nozzle 9 and the suction channel 11 fills the cylinder 5. The dose is determined by the length of movement of the fluoroplastic piston 1. After the end of the movement of the fluoroplastic piston 1 down, the rod 2 and connected to it at the power of the pin 4 of the cylinder 5 rotates 180 °, while the hole 13 in the end surface of the cylinder 5 will be opposite the discharge channel 12 of the distributor 8. Then the rod 2 of the PTFE piston 1 moves up, the piston 1 displaces the liquid from the cylinder 5 through the discharge channel 12 of the distributor 8 and then through the discharge nozzle 10 of the dispenser 8 from the dispenser to the bottled container.

Example.

The proposed dispenser was used on a machine for filling and sealing ampoules AFV 4015 manufactured by BAUSCH + SHTRÖBEL, Germany. The sterilization mode of the dispenser 121 ° C for 20 minutes, the sterilizer GPA 560 of the Tyumen plant of medical equipment and instruments. To determine the accuracy of dispensing the proposed device and dispenser - prototype was poured into ampoules of 1 g of water (per ampoule).

The dosing accuracy of the proposed device was 1.0 g ± 0.0141 g. The dosing accuracy of the prototype device was 1.0 ± 0.0162 g.

Thus, the proposed dispenser is simple to manufacture and convenient to operate, since it allows sterilization in an autoclave in assembled form, it does not require high precision in the manufacture of its parts, individual adjustment of the piston and cylinder. In this case, the dispenser is not inferior in accuracy to dispensing the prototype dispenser.

Claims (3)

1. The dispenser for filling liquid solutions, consisting of a cylinder, suction and discharge fittings and a piston placed in the cylinder with the possibility of movement, characterized in that the dispenser further comprises a rod, at the end of which is a piston, a sleeve, which is located on the end of the rod inside the piston , a pin, which is located on the stem, two washers, two springs, while the springs are attached to the washers, and a distributor that has suction and discharge fittings, while the distributor is located on the end surface the cylinder between the washers, with one washer on top of the distributor and the other on the cylinder body, and there are suction and discharge channels in the distributor body, while the suction channel is connected to the suction fitting at one end and in contact with the cylinder end surface, and the discharge channel is connected at one end to the discharge fitting and the other end is also in contact with the end surface of the cylinder, and an opening is eccentrically located in the end surface of the cylinder. 2. The dispenser according to claim 1, characterized in that the sleeve is made of silicone. 3. The dispenser according to claim 1, characterized in that the piston is made of fluoroplastic.

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