RU191899U1 - LIQUID DISPENSING DEVICE - Google Patents

Abstract

The utility model relates to devices for the measured filling of liquids into ampoules or vials. The proposed device includes a housing, a flexible hose, a metering mechanism including a pressure bar, a support bar, a suction clamp, a pressure clamp, a suction clamp lever, a pressure clamp lever, a pneumatic cylinder of levers, a pneumatic cylinder of a clamp bar, a pusher with adjusting nuts, springs, two fixed stops, an adjusting device consisting of a wedge and a dose adjustment screw, a droplet removal device including a droplet clamp, a droplet stop and a droplet adjustment screw, wherein apleudaleniya kapleudaleniya moves relative to the clamp with a screw adjustment kapleudaleniya, wherein the support strap is located between the fixed stops opposite gib. In this case, the pneumatic cylinder of the clamping plate is installed at an angle of 60-80 degrees to meet the movement of the liquid and is connected to the clamping plate, the pneumatic cylinder of the levers is connected by means of a pusher to the lever of the suction clamp, at the end of which, opposite the fixed stop, there is a suction clamp and a lever of the discharge clamp, on which opposite the stationary stop, a discharge clamp and a drop removal clamp located opposite the drop stop are installed. In addition, springs are fixed at the ends of the levers, and the hose is located between the suction clamp and the fixed stop, the support and pressure bars, the pressure clamp and the fixed stop, the droplet clamp and the droplet stop. The device allows you to dispense the liquid with high accuracy, in compliance with sterility and not to contaminate the stems of the ampoules, regardless of the speed of operation, both during manual filling and when filling on the conveyor of the machine for filling ampoules. 1 ill.

Description

The proposed utility model relates to devices for volumetric filling of liquids and can be used for sterile filling of vaccines, serums, culture media, drugs, etc. in ampoules or vials.

Dosing is a mass operation, and with modern laboratory growth rates, the volume of these operations is increasing. In this regard, the devices used for dispensing affect both the complexity of the process and its quality: accuracy and reproducibility. Therefore, the issue of mechanization and automation of the dosing process must be given special attention.

The very common traditional metering devices — pipettes, burettes, and other glass products — do not allow the dosing performance to be increased to the necessary degree, and also do not allow accurate dosing of large volumes of liquids. As a rule, these products are intended for manual work, and dose measurement is associated with a careful adjustment of the liquid according to the divisions of the scale and slow pouring, which is very laborious. In this regard, the importance of subjective error is very great.

A sharp increase in dosing performance is achieved by the use of mechanized and automated means: mechanical pipettes, dispensers, dilutors.

Liquids to be dispensed have various properties. These are biological fluids, solutions of reagents, acids, alkalis and other aggressive fluids. In addition, a number of studies require the fulfillment of specific conditions, for example, sterility during operation. Therefore, the devices used for dispensing should have such properties as resistance to chemicals and aggressive media, ease of washing and cleaning, and resistance to sterilization and disinfection.

A device for dispensing liquids is known, consisting of a housing, a dispensing mechanism, a control unit and a flexible hose. In this case, the dispensing mechanism consists of a pressure bar and a support bar, which are fixed with the possibility of movement in the direction of each other. The movement of the support bar is carried out using the adjusting device. A flexible hose is mounted on the front panel of the housing between the clamping and supporting strips using a holder. When the electromagnet is turned on, the pressure bar releases the hose. (Electronic liquid dispenser ED-2. Technical description and operating instructions 468323TO. Scientific and production association "FORVAK").

However, this dispenser has the following disadvantages: the dose depends on the pressure of the liquid supplied to the dispenser, and during the filling process, the liquid level and, consequently, the pressure in the container decreases, which negatively affects the accuracy of dispensing. In addition, a drop of liquid forms on the tip, which also reduces the accuracy of dosing. During bottling, a drop contaminates the stem of the ampoule, which leads to the formation of a burn on the glass during sealing of the ampoules and their further rejection.

A device for dispensing liquids, consisting of a housing, a dispensing mechanism and a flexible hose, is taken as a prototype. In this case, the dispensing mechanism consists of a pressure bar and a support bar, which are fixed with the possibility of movement in the direction of each other. The movement of the support bar is carried out using the adjusting device. An eccentric is installed on the metering drive shaft, which moves the clamping bar and cams, turning levers, on which the discharge and suction clamps are installed. The dose value is determined by the minimum distance between the clamping and supporting strips. (RF patent №2258911, publ. 08/20/2005, bull. No. 23).

However, this device has the following disadvantages:

1. A change in the dispensing speed leads to a change in the speed of the liquid jet at the outlet of the dispenser, which leads to the formation of droplets of different sizes at the end of the needle and, as a result, lower metering accuracy.

2. It is difficult to integrate the device into the filling machines because of the difficulty in synchronizing the machine and the device.

3. Since droplet removal is carried out by a long clamping bar, the drop removal mechanism implemented in the prototype device lowers the dosing accuracy.

4. Low speed of the device.

5. With prolonged use, the hose moves in the direction of fluid movement, which also reduces metering accuracy.

The technical task of the proposed utility model is to increase the accuracy of dosing, expanding the scope of the dispenser.

The technical task is solved as follows: the proposed device for dispensing liquids consists of a housing, a flexible hose, a metering mechanism and a droplet removal device, consisting of a droplet clamp, a droplet stop and a droplet adjustment screw. In this case, the metering mechanism includes a pressure bar, a support bar, an adjustment device consisting of a wedge and a dose adjustment screw, with which the support bar moves in the direction of the pressure bar, the pneumatic cylinder of the pressure bar installed at an angle of 60-80 degrees to meet the fluid movement connected to pressure bar of the pneumatic cylinder of the levers connected by a pusher to the lever of the suction clamp, on which the suction clamp is mounted and the lever of the discharge clamp, on which the atelny kapleudaleniya clip and clamp. Moreover, the diameter of the droplet clamp is larger than the diameter of the suction and discharge clamps. Also on the body are two fixed stops, which are located opposite the suction and discharge clamps. Opposite the droplet clamp, on the opposite side of the fixed stop, a droplet stop is located. On the pusher, which passes through the holes in the levers, there are adjusting nuts that allow you to set the position of the clamps relative to the fixed stops for reliable compression of the hoses. At the ends of the levers are fixed springs that rotate the levers with clamps. The support bar is located between the fixed stops, the pressure bar is installed opposite the support bar, the hose is located between the suction clamp and the fixed stop, the support and pressure bars, the discharge clamp and the fixed stop, the droplet clamp and the droplet stop, the droplet stop moves relative to the droplet clamp with the droplet adjustment screw.

Comparative analysis with the prototype showed that the proposed device differs from the known one in that it additionally contains a droplet removal device, which includes a droplet clamp, a droplet stop and a droplet adjustment screw, and the metering mechanism further includes a lever pneumatic cylinder, a pressure bar pneumatic cylinder, a pusher with adjusting nuts, which is fixed on the rod of the pneumatic cylinder of the levers and controls the suction and discharge clamps, while the rod of the pneumatic cylinder is the pressure bar and connected to the clamping bar, the hose is additionally placed between the drop stop and the drop clip, and the adjusting device consists of a wedge and a dose adjustment screw.

The proposed device can be used for the measured filling of liquids, for example, drugs and diagnostic preparations in ampoules or vials and operated in laboratory and industrial conditions. It can be used in medical, pharmaceutical, perfumery and other industries. The proposed dispenser can be used for manual filling of liquids and can be built into machines for filling ampoules and vials without compromising the accuracy of dosing.

In FIG. 1 presents a diagram of the proposed device, where:

1 - body, 2 - hose, 3 - pressure plate, 4 - support plate, 5 - wedge, 6 - dose adjustment screw, 7 - lever pneumatic cylinder, 8 - pressure plate pneumatic cylinder, 9 - pressure plate pneumatic cylinder, 10 - pneumatic cylinder rod levers, 11 - pusher, 12, 13 - fixed stops, 14 - suction clamp lever, 15 - pressure clamp lever, 16 - lever axis, 17 - pressure clamp, 18 - suction clamp, 19, 20 - adjusting nuts, 21 - clamp drop removal, 22 - drop removal stop, 23 - drop adjustment screw, 24, 25 - springs.

The device consists (see the appendix to the description of the application, Fig. 1) of the housing 1, the hose 2, the pressure bar 3, the support bar 4, the wedge 5, the dose adjustment screw 6, the pneumatic cylinder of the levers 7, the pneumatic cylinder of the pressure bar 8, the rod of the pneumatic cylinder of the pressure bar 9, the rod of the pneumatic cylinder of the levers 10, the pusher 11, the fixed stops 12, 13, the lever of the suction clamp 14, the lever of the pressure clamp 15, the axis of the levers 16, the pressure clamp 17, the suction clamp 18, the adjusting nuts 19, 20, the drop clamp 21, the drip stop 22, Kapleuda adjustment screw 23, springs 24, 25. In this case, the pneumatic cylinder of the clamping plate 8 is installed at an angle of 60-80 degrees to meet the movement of the liquid and is connected to the clamping plate 3, the pneumatic cylinder of the levers 7 is connected by means of a pusher 11 to the lever of the suction clamp 14, at the end of which there is a suction the clamp 18 and the lever of the discharge clamp 15, on which the discharge clamp 17 and the drop removal clamp 21 are mounted. Moreover, the diameter of the drop removal clamp 21 is larger than the diameter of the suction 18 and the diameter of the discharge 17 clamps. In addition, springs 24, 25 are fixed at the ends of the levers. Also, two fixed stops 12, 13 are installed on the housing 1, which are located opposite the suction 18 and discharge 17 clamps, respectively. Opposite the droplet removal clamp 21, a droplet stop 22 is located on the opposite side from the fixed stop 13. On the push rod 11, which passes through the holes in the levers 14, 15, adjusting nuts 19, 20 are located that allow the position of the clamps to be fixed relative to the fixed stops. At the ends of the levers 14, 15 are fixed springs 24, 25, which rotate the levers with clamps. The support bar 4 is located between the fixed stops 12, 13, the pressure bar 3 is installed opposite the support bar 4, the hose 2 is located between the suction clamp 18 and the fixed stop 12, the support 4 and the pressure 3 bars, discharge clamp 17 and the fixed stop 13, drop removal clamp 21 and a drop removal stop 22, wherein the drop removal stop 22 is moved relative to the drop removal clip 21 by the drop removal adjustment screw 23.

The proposed device works as follows: The dose is changed by the position of the support plate 4 relative to the pressure plate 3 using an adjustment device including a dose adjustment screw 6 and a wedge 5, and also depends on the diameter of the hose. Before starting work, the dose dose is set using the dose adjustment screw 6, which moves the wedge 5. During operation, the pressure bar presses on the hose, the hose presses the support bar against the wedge. In the idle state (in the standby mode of the “start” command), the rods 9, 10 of the pneumatic cylinders 7, 8 are retracted. In this case, the discharge clamp 17 is closed, the suction clamp 18 is open, the pressure bar 3 is located at a distance from the support bar 4, the hose 2 is not squeezed and, due to the elasticity of the walls, is straightened and filled with liquid. When the dispenser is turned on, the rod 10 of the pneumatic cylinder of the levers 7 moves towards the levers of the suction and discharge clamps 14, 15, while the adjusting nut 19 releases the lever of the suction clamp 14 and, under the action of the spring 24, the lever 14 rotates on the axis of the levers 16, and the suction clamp 18 located on it presses the hose 2. Next, the adjusting nut 20 of the pressure clamp lever 15 presses on the pressure clamp lever 15, and it rotates around the axis 16, and the pressure clamp 17 located on it stops compressing the hose 2, when The volume located on the lever of the discharge clamp 15, the drop removal clamp 21 presses on the hose 2 located between it and the drop removal stop 22, while not completely blocking the hose 2. After switching the clamps, the rod of the pneumatic cylinder of the pressure plate 8 moves the pressure plate 3 towards the support plate 4. The pressure plate 3 squeezes the hose 2, which leads to the displacement of fluid from the hose 2. Next, the rod of the pneumatic cylinder of the levers 10 returns to its original position, while the pressure clamp closes first 17 and the hose 2 is released from squeezing in the gap between the drop removal stop 22 and the drop removal clip 21, which causes the drop to be sucked out of the outlet of the hose 2, and then the suction clip 18 opens. the cylinder of the pressure bar 8 moves the pressure bar 3 away from the support bar 4 and the hose 2 freed from squeezing is filled with liquid. The dispenser is ready for the next cycle.

Tests of this device, conducted in the laboratory of the Irkutsk Anti-Plague Institute, showed high dosing accuracy, sterility of the spilled nutrient media of diagnostic sera, and the absence of contamination of the ampoule stem when the filling speed was changed. The operation of the device as part of a Type 101 filling and sealing machine confirmed the accuracy of dosing and the absence of a drop at the end of the needle when changing the speed and skipping ampoules on the conveyor of the machine. During continuous operation of the dispenser, hose movement is not observed. The dose adjustment range was 0.2-1.5 ml.

Example 1

Using the proposed device (as part of the Type 101 machine), the nutrient medium (meat and peptone broth) was poured into ampoules of 1 ml in an amount of 1000 pieces. In ampoules with spilled nutrient medium, no growth of extraneous microflora was detected. The coefficient of variation was 1.1%.

Example 2

Using the proposed device (as part of the Type 101 machine), thioglycol medium was poured into ampoules of 1.0 ml in an amount of 1000 pieces. In ampoules with spilled nutrient medium, no growth of extraneous microflora was detected. The coefficient of variation was 0.544059%.

Example 3

Using the proposed device (manual filling), normal horse serum was poured into ampoules of 1.0 ml, in an amount of 100 pieces. In ampoules with spilled serum, no growth of extraneous microflora was detected. The coefficient of variation was 1.1%.

Thus, from the above examples it is seen that the proposed device allows you to dispense the liquid with high accuracy, with sterility and not to contaminate the stems of the ampoules, regardless of the speed of operation, both during manual filling and when dispensing liquid into ampoules on the conveyor of the ampoule filling machine . The device is convenient to operate, has a simple design and is easy to manufacture.

Claims (1)

A device for dispensing liquids, comprising a housing, a dispensing mechanism including a pressure bar, a support bar, levers, a suction clip, a pressure clamp, two fixed stops, an adjustment device and a hose, wherein the supporting bar is located between the fixed stops opposite the pressure bar, and the hose is located between the clamping and supporting strips, characterized in that it further comprises a droplet removal device including a droplet clamp, a droplet stop and a droplet adjustment screw, p why the drop removal stop is moved relative to the drop removal clamp using the drop removal adjustment screw, and the metering mechanism further includes a lever pneumatic cylinder, a pressure bar pneumatic cylinder, a pusher with adjusting nuts, springs, while the pressure bar pneumatic cylinder is set at an angle of 60-80 degrees to the direction of fluid movement and a clamping bar, and the pneumatic cylinder of the levers is connected by means of a pusher to the lever of the suction clamp, at the end of which there is a suction clamp and a lever on pressure clamp, on which the pressure clamp and droplet clamp are installed, in addition, springs are fixed at the ends of the levers, and the hose is located between the suction clamp and the fixed stop, the support and pressure bars, the pressure clamp and the fixed stop, the droplet clamp and the droplet stop, and the adjustment the device consists of a wedge and a dose adjustment screw.

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