RU169288U1 - PUMP DISPENSER - Google Patents

Abstract

The proposal relates to metering devices and can be used mainly in medicine or the pharmaceutical industry, for example, for drug dispensers in ampoule production, as well as in any field of technology. The metering pump consists of a housing with a supply and discharge channels, a gate with a channel, a plunger , the working end of which is placed in the metering chamber, and a plunger pusher made with an element for kinematic connection with the drive. The pusher is made detachable, and one of its parts is made with cylindrical recesses, and the element for kinematic connection with the drive is located on its other part. The other end of the plunger is made with a ledge and placed in the pusher with the possibility of interaction with its walls. The technical result is improved accuracy and stability of dosing, especially of small doses, while increasing the durability of the device. 1 s.p. f-ly, 5 ill.

Description

The proposal relates to dispensing devices and can be used mainly in medicine or the pharmaceutical industry, for example, for dispensers of drugs in ampoule production, as well as in any field of technology.

Known metering pump, consisting of a housing with a supply and discharge channels, a gate with a channel, a plunger, the working end of which is placed in the dosing chamber, and a plunger pusher made with an element for kinematic connection with the drive [1].

For normal operation of the device, the total gap between the plunger and the metering chamber should be 3 ÷ 7 microns.

Since the plunger and its pusher in the known technical solution are one part, it is very difficult to position it coaxially to the metering chamber with micron accuracy, and as a result of misalignment, a bending moment appears, which leads to abrasion of the surface of the rubbing pair (both the plunger and the metering chamber ) and increase the gap between them. Leaks appear and, as a result, the doses of the dosed drugs become unstable.

This, in turn, can lead, for example, during operation on the ampoule line to a change in the amount of drug substance in ampoules, which is undesirable for the patient.

A partial solution to this problem is the implementation of a metering chamber and a plunger made of ceramic or leucosapphire. This will reduce wear and increase the life of the device. But this solution is applicable only for dispensers in which the plunger diameter is at least 8 mm.

At the same time, for dosing small doses (level 0.1 cm3), dispensers with a much smaller plunger diameter are required.

Reducing the diameter of the plunger can improve the accuracy of dosing, however, it increases the risk of breakage when making it from leucosapphire or ceramic.

For such doses, as a rule, a plunger with a diameter of 5 mm made of stainless steel is used, followed by chrome plating (using a plunger made of ceramic or sapphire is impossible due to its breakage during bending forces during operation).

The result, to which this technical solution is directed, is to increase the stability of dosing, in particular small doses of drugs, while increasing the operational durability of the device.

This result is achieved due to the fact that in the metering pump, consisting of a housing with a supply and discharge channels, a gate with a channel, a plunger, the working end of which is placed in the dosing chamber, and a plunger pusher made with an element for kinematic connection with the drive, the pusher made detachable, with one of its parts made with cylindrical grooves, an element for kinematic connection with the drive on the other part, and the other end of the plunger is made with a ledge and placed in the pusher with possibly Tew interaction with the latter.

The specified result is also achieved due to the fact that the gaps between the plunger and the pusher are made larger than between the plunger and the metering chamber.

An example of the implementation of the inventive device is illustrated by drawings, where in FIG. 1 shows a metering pump, FIG. 2 - section GG, in FIG. 3, 4 - place A and B, respectively, in FIG. 5 - metering pump in isometry.

The metering pump consists of a housing 1 with a supply 2 and a discharge 3 channels, a gate 4 with a channel 5, a plunger 6, the working end 7 of which is located in the dosing chamber 8, and a plunger pusher 9 made with an element 10 for kinematic connection with the drive (on drawing not provided).

The pusher 9 is detachable, and one of its parts 11 is made with cylindrical recesses 12, 13, the element 10 for kinematic connection with the drive on its other part 14.

The other end 15 of the plunger is made with a ledge 16 and placed in the pusher with the possibility of interaction with its walls 17, 18.

To connect the rotation drive (not shown in the drawing) with the gate at its end, a connecting element 19 is provided.

The device operates as follows.

When the gate 4 is rotated, the container with the metered drug through the supply channel 2 in the housing 1 is connected with the channel 5 in the gate 4 and with the metering chamber 8. When the plunger 6 moves down, the medium is sucked into the metering chamber 8. Then, the next time the gate is turned, the channel 5 is connected to injection channel 3 in the housing 1 and when the plunger moves up, the drug enters the ampoule. Then the process is repeated.

The gap β between the plunger and the pusher is made larger than between the plunger and the metering chamber α. To prevent leakage of the dosing agent, the total gap α is 3-7 μm, while the gaps β are 100-150 μm, which allows you to compensate for the angular misalignment of the pusher relative to the plunger, and therefore, to avoid the effect of bending moment on the plunger.

The absence of a bending moment on the plunger, which leads to its increased wear and fracture, reduces its diameter to 3.5-4 mm and increases its stroke. So at a dosage of volumes of 0.1 cm ³ with a plunger diameter of 5 mm, its stroke should be 5.09 mm, and with a diameter of 3.5 and 4 mm - 10, 39 and 7, 96, respectively.

Reducing the likelihood of wear allows you to increase the accuracy of dosing, to reduce the loss of the dosed substance and to prevent the ingress of materials into the dosed substance resulting from wear of the metering pump.

The proposed design allows to reduce the diameter of the plunger to 3.5 mm, to make it not only from metal, but also from sapphire, which will significantly reduce the dose spread on ampoule lines, and the possibility of switching from metal plungers to sapphire will significantly increase the service life of the latter.

Thus, this technical solution will allow:

- improve the accuracy and stability of dosing, in particular small doses;

- reduce the loss of the dosed substance;

- to prevent the ingress of materials into the dosed substance that arise when the metering pump is worn;

- increase the operational durability of the device.

The source of information

1. RF patent No. 2314762, IPC A61J 1/14, 2005.

Claims (2)

1. The metering pump, consisting of a housing with a supply and discharge channels, a gate with a channel, a plunger, the working end of which is placed in the dosing chamber, and a plunger pusher made with an element for kinematic connection with a drive, characterized in that the pusher is detachable, moreover, one of its parts is made with cylindrical recesses, the element for kinematic connection with the drive is on its other part, and the other end of the plunger is made with a step and placed in the pusher with the possibility of interaction with the latter m 2. The metering pump according to claim 1, characterized in that the gaps between the plunger and the pusher are made larger than between the plunger and the metering chamber.

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