SU67872A1 - Viscosity regulator for watering machines - Google Patents

Description

The most critical part of an emulsion-irrigation machine is the site for applying an emulsion layer to a substrate. The applied layer should be as thin and uniform as possible in the width and length of the web and ensure the photographic standard of the product.

The existing means is very imperfect and cannot guarantee a high-quality application of the layer for a long time of the machine’s operation.

Soup; there are two ways to apply a layer: bathing and spraying. Both methods are performed in a simple bath and in-stationary emulsion, with the emulsion being fed into the bath by a hose from the superior tank. Naturally, with this method it is absolutely impossible to achieve the same viscosity of the emulsion across the width and depth of the bath, precisely maintaining the level of the emulsion and the quality of the layer applied to the web.

The proposed viscosity regulator eliminates the causes of all known emulsion application defects, and has the ability to automatically maintain a constant viscosity of the emulsion throughout the machine; In addition, using this mechanism, it is possible to adjust the emulsion for a given viscosity.

The viscosity regulator for watering machines of the present invention has a capillary and an emulsion heater in front of it. By the fact that the capillary is formed by & in the form of a gap between the conical surfaces of the body and the cone entering into it, the size of its cross section can be changed to the desired dimensions by axial displacement of the cone.

An exemplary embodiment of the invention is shown in the drawing.

Circulating tank 1 is a rectangular vessel with a lid that is a bath for irrigation of the emulsion. The tray is equipped with a tray 5 for the smooth flow of the emulsion into the tank. In its lower part, the tank is equipped with a circulating nipple, and outside it is insulated with felt or cotton.

Pump 2 is used to supply the emulsion from the reservoir / viscosity regulator.

The viscosity regulator is a vessel 10 with a size highly developed in width and equipped with a spiral flat heater 11. Under the vessel 10 a spherical separable collector 6 is installed, in the upper half of which a funnel 7 is inserted in the tilted form, contributing to the smooth flow of the emulsion into the collection. Vessel 10 and

No. 67872

The regulator collector 6 is connected by a housing 3, the inner part of which is bored under the cone and forms with a movable cone inserted into it 8. an annular capillary r. The capillary lumen is adjusted by a nut 9 placed on top of the regulator. Rotating the nut in one direction or the other, you can raise: or lower the movable cone 5; when moving, the cone 8 changes the size of the annular lumen of the capillary through which the emulsion from the upper part of the viscosity regulator flows into collection 6. The screw pair, the nut and screw of the cone, is structurally designed so that the nut has only rotational. the motion and the cone is only translational. The effect of the viscosity regulator is as follows.

Suppose that the movement of the emulsion is balanced in the system, i.e. the flow is equal to the expiration. This state corresponds to some definite level in the 10th regulator court.

Suppose also that for some reason the viscosity of the emulsion entering the regulator vessel has increased; as a result, the previous level balance in vessel 10 is disturbed, since the flow of the emulsion does not correspond to the capacity of the capillary. As a result, the level in the vessel 10 will rise and when it rises, it will encounter a growing heated surface of the preheater 11, which will quickly bring the emulsion to a pre-heated volume. bones.

Thus, the level will return to its former position and remain so until the next change in viscosity.

The design of the heater is such that, with a slight change in the level, the heating surface quickly grows or decreases and this ensures a quick restoration of the previous level. The heater is two hollow plates with a very small slope; their cavities are interconnected by a choke and form together a spiral dish-shaped heater. The water in the heater is supplied from the thermostat by a continuous flow pump, forming a closed loop: thermostat - pump - heater - thermostat.

When the emulsion does not require preheating, it will not rise and go straight into the capillary, the preheating surface. In the drawing, this zone is denoted by the number 12. The emulsion can also be successfully heated with the help of electricity. For this, electric heaters are connected in the cavity of the trays, which are connected to an electric thermostat.

To change the viscosity of the emulsion within possible limits, proceed as follows: by rotating the nut 9, located at the top of the regulator cap, increase the capillary section; at the same time, the resistance to the movement of the emulsion along the capillary will decrease and the amount of the emulsion flowing per unit time will increase.

Since the flow of the emulsion to the regulator has remained the same, the level in the cup 10 will drop to a known limit, which will correspond to the new viscosity of the emulsion.

Manipulir in this way, gr | adui; ru the scale on which it will be possible later to install the regulator on a given viscosity.

The irrigation basin 4 is a tray equipped on the emulsion entry side with labyrinths and drain thresholds that equalize the flow of emulsions across the entire width of the bath. In addition, these labyrinths and thresholds prevent the penetration of foreign bodies to the irrigation mirror and well maintain the level of the mirror.

In the bath the emulsion comes from the end of its part. First, it enters the distribution labyrinth, from where a steady flow over the entire width of the bath over the overflow threshold flows into the maze of the settler.

 From the sump into the irrigation zone, the emulsion penetrates through the horizontal slot of the vertical wall at the very bottom of the bath. Passing the slit, the emulsion rises and rushes in a continuous stream.

through the irrigation zone to the opposite drain threshold, then, overflowing through the latter, it flows down the inclined chute into the circulating tank.

Subject invention

Viscosity regulator for watering machines using capillaries: 4

No. 67872

- 3 ras and an emulsion heater located in front of it, about 1 h and rani and so that the capillary is formed between the conical surface of the housing 3 and the cone 5 entering it, in order to change the size of the capillary section to the desired axial the displacement of the cone 9.