RU44507U1 - DOSING DEVICE - Google Patents

Abstract

The proposal relates to dispensers, mainly for dispensing liquid medicines.

The technical result, which this technical solution is aimed at, is to increase the durability of the device while maintaining the dimensions of the metering device.

The metering device includes a housing 1 with a supply 2 and a discharge 3 channels, a piston 4, a metering chamber 5 located in the housing, in which a piston 4 is placed, and a rotary slide valve 7. The rotary slide valve is made with a discharge channel 8 and a chamber 9. connected to the metering chamber 5, throughput b and 8 channels of the spool diverting. The axis 10 and 11 of the supply channel 2 of the housing and the passage channel 6 of the spool lie on one straight line. the outlet channels of the housing and the spool also lie on one straight line. Axis 10, 11 and axis 12, 13, respectively, are placed in different planes located perpendicular to the axis of the rotary valve 7.

The dosed liquid enters through the supply channel 2 of the housing, the passage channel 6 into the chamber 9 of the rotary valve 2 into the metering chamber 5. Then the rotary valve rotates, closing the inlet channel 2 and opening the outlet channel 3. The piston 4 begins to move and displaces the fluid from the chamber 5, through the chamber 9 and the outlet channels 8 and 3 of the rotary valve and the housing. Since the axis of the channels 2,6 and channels 3 8 are in different planes, the slight wear does not cause significant leaks and allows the manufacture of a rotary valve of small dimensions.

Description

The proposal relates to dispensers, mainly for dispensing liquid medicines.

A metering device is known that includes a housing with inlet and outlet channels, a metering chamber located in the housing, in which the piston is located, and a rotary valve made with a passage channel [1].

However, the known technical solution has the following disadvantages.

The axis of the housing channels and the passage channel of the rotary valve are located in a plane perpendicular to the axis of the rotary valve. In the vast majority of metering devices, the axes of the input and output channels of the housing are placed at an angle of 60 degrees. The diameter of the rotary valve is small. The distance between the inlet and outlet channels of the housing in the area of the rotary valve is small, and therefore even slight wear of the housing or the valve causes large leaks of the dosed liquid. Therefore, the known devices are very short-lived.

The technical result, which this technical solution is aimed at, is to increase the durability of the device while maintaining the dimensions of the metering device.

This result is achieved due to the fact that in the metering device, which includes a housing with inlet and outlet channels, a metering chamber located in the housing, in which the piston is located, and a rotary valve made with a passage channel, the rotary valve is made with a discharge channel and a camera connected to a dispensing chamber, a spool passage and a discharge channel, the housing supply channel and a spool passage channel, and

the outlet channels of the housing and the spool are respectively placed in different planes located perpendicular to the axis of the rotary valve.

This result is also achieved due to the fact that the distance between the planes in which the inlet, throughput and outlet channels are located, respectively, is equal to or greater than the diameter of the channels.

Figure 1 presents the inventive device, figure 2 and 3 is a section along aa and bb, respectively.

The metering device includes a housing 1 with inlet 2 and outlet 3 channels, a piston 4, a metering chamber 5 located in the housing, in which the piston 4 is located, and a rotary slide valve 7. The rotary slide valve is made with a discharge channel 8 and a chamber 9. connected to the metering chamber 5, throughput 6 and 8 channels of the spool. The axis 10 and 11 of the supply channel 2 of the housing and the passage channel 6 of the spool lie on one straight line. the outlet channels of the housing and the spool also lie on one straight line. Axis 10, 11 and axis 12,13, respectively, are placed in different planes located perpendicular to the axis of the rotary valve 7.

The device operates as follows.

The dosed liquid enters through the supply channel 2 of the housing, the passage channel 6 into the chamber 9 of the rotary valve 2 into the metering chamber 5. Then the rotary valve rotates, closing the inlet channel 2 and opening the outlet channel 3. The piston 4 begins to move and displaces the fluid from the chamber 5, through the chamber 9 and the outlet channels 8 and 3 of the rotary valve and the housing. Since the axes of channels 2, 6 and channels 3 8 are in different planes, slight wear does not cause significant leaks and allows the manufacture of a rotary valve of small dimensions.

Thus, this technical solution will allow:

- increase the durability of the device

- make the device without increasing its size

Sourse of information

Product catalog Alfateh, Dosing pump for filling with a volume of 1 to 5 ml. DF 0.7, DF 0.7-0.1, http://alfatech.ru/netcat_files/53_4.gif, April 2004

Claims (2)

1. A metering device, comprising a housing with inlet and outlet channels, a metering chamber located in the housing, in which the piston is located, and a rotary valve made with a passage channel, characterized in that the rotary valve is made with a discharge channel and a chamber connected to the metering chamber, spool access and discharge channels, wherein the housing feed channel, the spool feed channel, and the housing and spool outlet channels are respectively located in different planes perpendicular to and the rotary slide valve. 2. The dosing device according to claim 1, characterized in that the distance between the planes in which the inlet, throughput and outlet channels are respectively equal to or greater than the diameter of the channels.