SU1695134A1 - Bucket dose measuring device - Google Patents

Abstract

The invention relates to instrument engineering, in particular to devices for dispensing liquids. The aim of the invention is to increase efficiency by more fully utilizing the usable volume of the scooping container and increasing the accuracy. In the tank 1 of a constant level there is a scoop tank (ЧЕ) 4 with 5/3 J inlet pipe (ВП) 5, communicated with a drain through the outlet pipe (ВТ) 3 radially mounted on the horizontal axis 2 of rotation, with the section Е4 4 in the plane, perpendicular to axis 2, is an annular sector, CHE 4 communicates with BT 3 at the intersection of the cylindrical wall (CA) 12 of a smaller radius with one radial wall (PC) 13, and with VP 5 at the intersection of the specified CA 12 with another PC 14, while the axis VP 5 lies in the plane, which halves the angle between egayuschey to VI 5 PC 14 and the tangent to the CA 12. In the lower position 4 Under completely filled with a liquid dosage form without air bubbles, and is moved to the drain position without splashing the selected dose. By performing an ECU 4 with a section in the form of an annular sector, a linear dependence of the selected dose on the angle of rotation of ЕЕ4 is achieved. 1 il. fe Os Os ate with. &

Description

The invention relates to instrumentation, in particular to metering devices, and can be used in various industries where periodic dosing of liquid is necessary.

The purpose of the invention is to increase the efficiency and by increasing the effective volume of the scoop capacity and increase the accuracy.

The drawing shows the diagram of the dispenser.

The proposed dispenser contains a tank of a constant level 1, in which an outlet pipe 3 is fixed on a horizontal axis 2 of rotation, a vacuum tank 4 is in, which also has a nozzle 5, the opening of which is inlet, a drain cup 6 fixed in the tank of a constant level 1, a float valve 7, a pointing arrow 8, mounted on a horizontal axis of rotation 2, and a lever 9 connected to a pneumatic cylinder 10, the stroke of which is controlled by a stop 11.

The scoop container 4 is made with a section in a perpendicular axis of rotation of the plane in the form of an annular sector, while the scoop container 4 communicates with the discharge pipe 3 at the intersection of the cylindrical wall of a smaller radius 12 with one radial wall 13, and with the nozzle 5 at the intersection of the specified walls 12 with another radial wall 14.

In addition, the axis of the nozzle 5 lies in the plane, which halves the angle, between the radial wall 14 adjacent to the nozzle and the tangent to the wall 12, which is held at the point where the nozzle 5 is fastened.

The dispenser works as follows.

At the lowest position of the scoop tank 4, it is filled with liquid through the pipe 5 to the level provided by the float valve 7. Then the pneumatic cylinder 10, acting on the lever 9, causes the horizontal axis of rotation 2 to rotate, and with it the arrow 8 and the discharge tube 3 s bucket capacity 4.

When the stop 11 is reached, the rotation stops, arrow 8 indicates the amount of dose delivered, and from the scoop tank 4 the liquid flows into the drain cup 6, and when it reaches the level equal to

the level of the top point of the discharge tube 3 is stopped and the required dose is ensured.

By rotating the stop 11 in one direction or another, it is twisted or twisted, which allows the stroke of the pneumatic cylinder 10 to be varied and the required dose to be set accordingly, with the transverse area of the scoop tank 4 being

always constant and accordingly the free surface area of the liquid will also be unchanged. Therefore, at equal angles of rotation of the scoop tank 4, equal amounts of liquid will be discharged,

what is the linear dependence of the dose distribution on the angle of rotation of the scoop tank 4.

The invention provides increased efficiency by increasing the useful volume of the scoop capacity and increased accuracy, since the scoop capacity of this design ensures its full and uniform filling with liquid without the formation of air sinuses and the absence of

splashing out the dose taken during the transfer to the place of discharge.

Claims (1)

Invention Form A scoop dispenser containing a scoop liquid inlet with a constant level installed in the reservoir with an inlet orifice communicated with a drain through an outlet tube mounted on a horizontal axis of rotation, in order to increase efficiency by increasing the useful volume of the scoop capacity and increasing the accuracy, a nozzle is inserted into it, the opening of which is an inlet, the scooping capacity is made with a cross section in the form of an annular sector in the perpendicular axis of rotation of the plane, with the scoop capacity communicated by the discharge tube at the intersection of the cylindrical wall of a smaller radius with one radial the wall, and with the pipe from the outside at the intersection of the said cylindrical wall of a smaller radius with another radial wall, while the axis of the pipe lies in a plane that halves the angle between the radial wall adjacent to the nozzle and the tangent to the cylindrical surface of a smaller radius, held in place of the nozzle attachment.