RU1817832C - Siphon measuring device - Google Patents

Abstract

Usage: dispensing liquid for equal volumes and dispensing a dose according to a predetermined program. Summary of the invention: in a measured cylinder container (1) in the center; a permanent magnet (8) is installed on the bottom, rmo П i; yf -;:;; y ;;. ; -; f:;:; -;: 2; . ;; :; . ;

Description

The invention relates to the field of instrumentation and can be used in chemical, chemical, pharmaceutical, perfumery and other industries for dividing liquids into equal volumes, as well as in automation systems when it is necessary to dispense doses according to a given program.

The aim of the invention is to increase efficiency by providing a dosage of exfoliating liquids, expanding the range of subsidies and increasing accuracy.

Figure 1 shows a diagram of a siphon dispenser; figure 2 - section aa in fig. 1.

The siphon dispenser consists of a measuring tank 1 with a cylindrical flank surface, a supply pipe 2, an adjusting device 3, a siphon 4, vertical guides 5 and 12, a float b with a frame 7, a permanent magnet 8, a frame 9, a gate 10, tips 11 and thirteen,

The purpose of the siphon dispenser parts is as follows.

The volumetric container 1 is concentrated before dispensing a dose of liquid. In addition, the measuring container 1 is a central unit. A liquid supply pipe 2, siphon 4, etc. is connected to it. Pipeline 2 is used to supply liquid to the measuring tank 1. The adjusting device 3 is designed to control the flow of liquid supplied to the measuring tank 1, overflow of liquid from the measuring tank takes place via siphon 4 1 into commodity containers (in Fig. 1 commodity containers are not shown, since they are not an accessory of the dispenser itself).

Vertical guides 5 and 12 serve to guide the movement of the frame 9 up and down. The float 6 serves as a kind of drive, providing the raising and lowering of the frame 9. The yoke 7 together with the permanent magnet 8 provides a quick float of the float 6. Parts 7 and 8 hold the float in its lowest position until the liquid surface is free in the upstream section of the siphon 4 will not reach a certain level. It is the rapid float b float, which is provided by parts 7 and 8, that dynamically fills the siphon 4 with the hump and turns it on without a long preparatory siphon. The frame 9 rigidly connects the float 6 and the gate 10, providing a perfectly defined movement of the latter. The gate 10 serves to close and open the inlet of the nozzle 11. This means that the gate 10 receives the hydrodynamic pressure from the fluid rotating in the measuring tank 1, it allows the fluid to flow on the column in the upstream section of the siphon 4 and turn on the siphon 4 in work at the beginning of the dose. The tip 11 serves to create a hydrodynamic pressure of the liquid in the siphon 4. The tip 13 is designed to create a rotational movement of the liquid in the measuring tank.

The principle of operation of the siphon dispenser is as follows. When the adjusting device 3 is opened, the dosed liquid flows through the pipe 2 into the measuring tank 1 and fills it, moreover, since the fluid supply is tangential, the liquid in the measuring tank 1 will rotate. In this case, the float 6 is connected by being attracted by the associated frame 7 to the permanent magnet 8. Despite the fact that the dosed liquid in the measuring tank 1 rotates, and the tip 11 is turned in the opposite direction to the movement of the liquid, the hydrodynamic pressure on the liquid column located in the siphon 4 does not work, because in front of the inlet there is a gate 10, which passes liquid into the siphon 4 from the measuring tank 1, but dampens the indicated hydrodynamic pressure. At the moment, only the hydrostatic pressure acts on the liquid column located in the upstream section of the siphon 4, as soon as the level of the free surface of the liquid 1 in the measuring tank 1 reaches a certain one, the Archimedes force pushing the float out of the liquid will be greater than the magnet attracting force 8 The float b together with the frame 9 will float and the gate 10 will rise above the inlet in the tip 11. Now, a full head of hydrostatic and hydrodynamic pressure acts on the liquid column in the upstream section of the siphon 4 th head.

Due to the hydrodynamic pressure of the fluid rotating in the measured volume 1, the level of the free surface of the liquid in the siphon 4 rises sharply, the liquid passes the hump of the siphon 4 and it is included in the Action, i.e. on siphon 4, the outflow of liquid will begin when the cross section is completely filled. The flow rate QH of the liquid flowing through the pipe 2 to the measuring tank 1 / is less than the flow rate Qc of the liquid flowing from the measuring tank 1 to the siphon 4 (condition He Qc is obligatory for the normal operation of any batch siphon); therefore, the level of the free surface of the liquid in the measuring tank 1 will gradually decrease, and

the moment will come when the level of the free surface of the liquid coincides with the inlet of the tip 11. In this case, air from the atmosphere will enter the siphon 4 and the flow of liquid through it will cease. Then, the described cycle of operation of the siphon dispenser will be repeated as long as desired, until the dosing liquid flows through the pipe 2 into the measuring container 1.

The advantages of the proposed siphon dispenser are the ability to dispense the liquids of interest, improved metering accuracy and a wider operating range of the device.

Claims (1)

SUMMARY OF THE INVENTION Siphon dispenser comprising a measuring tank connected at the bottom to an inlet pipe provided with an adjustment device and an upstream section of the siphon, and a permanent magnet mounted at the bottom of the measuring tank, the magnet of which is fixed to the float, placed in a measuring container, characterized in that, in order to increase efficiency by ensuring the dosage of exfoliating liquids, to expand the dosage range and improve accuracy, two tips, a gate and a frame with vertical guides are introduced into it, and the measuring container is made with a cylindrical side surface , a permanent magnet with a PM and a float is installed in its center, and the lower part of the measuring tank is connected to the supply pipe and the upstream section of the siphon through the ends fixed after The tips are passed inside through the side surface of the measuring tank and installed with bent open ends facing each other and tangentially to the side surface of the measuring tank, in which there are vertical guide frames, one end attached to the float, and the other to the gate, placed with the possibility of overlapping the open end of the tip of the upstream section of the siphon.