ES2323626A1 - Suspension or liquid supply device - Google Patents

Abstract

The invention relates to a suspension or liquid supply device consisting of a vertical supply tube terminating in an end injector and having a nozzle holder. The invention includes a system for regulating the flow in discrete steps, provided with nozzles with different cross-sections, thereby dispensing with the need for flow restriction systems and valves which produce significant head losses. The supply device is essentially characterised in that the flow of liquid or suspension supplied by the device is not sensitive to changes in the viscosity of the liquid or suspension supplied.

Description

Liquid feeding device or suspensions

Object of the invention

The present invention, as expressed in the set forth herein, refers to a liquid feeding device or suspensions of the used in pavement manufacturing industries and Ceramic tiles.

The object of the present invention is to provide a device that suits the conditions ceramic tile and floor manufacturing practices being able to correct certain fluctuations present in the process of manufacturing and replacing the flow limiting valves, whereby an operator manually adjusts the flow rate of feeding.

Technical Field of the Invention

The present invention falls within the liquid feeding devices or suspensions used in the floor and tile manufacturing industries ceramic

State of the art prior to the invention

In the pavement manufacturing industries and ceramic tiles, ceramic tiles are decorated by the application of several layers of materials of different nature that, later, during the cooking stage, form the vitreous surface characteristic of them. After this thermal processing, the layers deposited on the tiles ceramics give them technical and aesthetic performance desired.

The current procedure of coating the ceramic tiles consists of the formation of a liquid curtain under which the tiles parade to cover. Fluctuations in  the instantaneous flow of this curtain produces variations important chromatic and undesirable effects on the constancy of The manufactured products.

To correct fluctuations in the flow rate of The curtains use a flow limiting valve, installed in the enamel feeding device to the curtain, by which an operator adjusts the flow rate of Curtain feeding. Unfortunately, this manual process Correction is slow and tedious, as well as inaccurate. Indeed, it requires constant monitoring of suspension flow fed and, despite this, deviations occur undesirable

The device described in the present invention has demonstrated, in industrial practice, high immunity and Good practical adaptation to actual manufacturing conditions ceramic, being, despite its conceptual simplicity, the result of a rigorous and genuine optimization process, which sustains, in judgment of the inventors, the entity of this patent application.

The devices used today they simply fulfill the function of feeding the system that forms the  suspension curtain They are the fruit of due evolution exclusively to practical experience to avoid certain problems, such as the presence of bubbles or Curtain flow interruption. Existing documents regarding the current feeding systems are purely descriptive, without an exhaustive analysis of the scientific principles on which they rely.

Description of the invention

The object of this patent application is a liquid feeding device or gravity suspensions  consisting of a straight vertical tube, liquid feeder or suspension, which ends directly in a final injector equipped with a discrete step flow regulation system, provided with nozzles of different section, without elements intermediates, such as valves or narrowings, that cause significant losses of liquid or suspension load, allowing, in this way, to keep the flow of liquid constant or suspension regardless of its viscosity. The device of  liquid or suspension feed thus described is, so therefore insensitive to variations of the liquid or suspension fed.

The device is connected to the vertical tube in a classical manner, said tube not being patented, instead if the termination form of the patent is subject to this patent same. This termination is characterized because it has a nozzle holder that allows rapid section change of injector, modifying the flow of liquid or suspension so Discreet without stopping feeding.

The fundamental object of this patent is the use of a discrete step regulation system liquid flow or suspension through section nozzles different and the elimination of valves and restriction systems of flow rate resulting in significant head losses.

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The device of the present invention allows rapid change of liquid flow or suspension without need to stop feeding it, avoiding the fouling problems that would be created, if to be able to change the flow became necessary to interrupt the feeding of the liquid or suspension, and decreasing the time needed to Modify the operating conditions. The way to install these shutter nozzles is not subject to claim, as there are multitude of mechanical solutions available.

Regardless of the constructive form adopted, it is fundamental object of the patent the use of a nozzle system that allows the modification of the flow rate of a suspension quickly and without stopping the feeding of the same, also characterized by a low friction loss viscose, achieved by minimizing the pressure losses of the system.

As will be shown later, in the theoretical explanation, to guarantee the constancy of the flow of suspension with the present device, it is necessary to maintain constant the level of suspension in the vertical tube.

Description of the equations that govern behavior Of the device

The present invention is based on a series of physical principles of fluid mechanics. The device of developed food is virtually insensitive to variations in the viscosity of the suspension, or of the liquid, applied due primarily to the loss of energy mechanics experienced by the fluid, when circulating inside of the device, is much lower than that experienced in a conventional system

Equation 1 represents the full balance of mechanical energy at steady state of an incompressible fluid and Newtonian between the input (1) and the output (2) of a system of generic feed:

one

being:

-

v_ {i}: fluid velocity in the input (1) or output (2) section of the system (m / s)

-

z_ {i}: height of the input section (1) or output (2) of the system (m)

-

g: acceleration of gravity (m / s2)

-

p_ {i: fluid pressure in the input (1) or output (2) section of the system (N / m2)

-

\ rho: density of the liquid or suspension (kg / m 3)

-

ΔF: loss of mechanical energy of friction fluid throughout the entire system (J / kg)

-

W: work done by external forces (J / kg)

-

α: correction parameter that takes into account the velocity variations in the radial direction allowing to use the average speed of the fluid in the calculations (? = 1, turbulent rate, and? = 0.5, rate laminate).

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Equation 1 can be rewritten as simplified shown in equation 2 taking into account that:

-

the system input speed (v_ {1}) is much lower than the speed at the exit of the same (v_ {2}), since when maintaining a constant overflow, the top of the liquid column is found virtually stable with respect to the output of fluid

-

the difference (z_ {2} - z_ {1}) is equal to the column height of liquid inside the system with negative symbol (-H)

-

the pressure at the system inlet (p_ {1}) and at the outlet of the system (p_ {2}) is the same and equal to the atmospheric pressure at be discharging the liquid to the environment and be the part upper column of liquid in direct contact with the atmosphere

-

he work done by external forces is null, since the liquid flows exclusively as a result of the action of the gravity

2

Equation 2, corresponding to the balance simplified mechanical energy of a generic device of feeding, relates the speed of discharge of the liquid with the height of the same and the loss of mechanical energy experienced by  friction.

Experimentally it is verified that, for liquid discharge rates at which it is usually works on a device with the characteristics of the claimed by the present invention, the Reynolds number is placed by below 2100, which indicates that the circulation regime is completely laminated and the value of α2 can be considered equal to 0.5. To calculate the Reynolds number you use equation 3 in which \ rho is the density of the fluid (kg / m 3), v the speed of circulation of the liquid through of the hole (m / s), D the diameter of the discharge hole (m) and µ the viscosity of the fluid (kg / (m s))

3

Taking into account that the parameter α2 adopts a value of 0.5 in circulation laminate, the fluid discharge rate can be calculated using the equation corresponding to the energy balance mechanical, which takes the form of equation 4.

4

The main difference of the invention here described, with respect to conventional systems of food is that, in the latter, the loss of load by friction experienced by the fluid, when circulating through its interior, it is not negligible because they incorporate an element of flow regulation with a high associated load loss. This loss of load depends, in turn, on the viscosity of the enamel so the liquid discharge rate fluctuates when the viscosity of the liquid or suspension fed varies. In effect, increasing the viscosity of the liquid produces an increase of the loss of load, so, according to equation 4, the liquid discharge rate decreases. On the contrary, when the viscosity of the liquid decreases there is a decrease in Load losses and download speed increases.

Equation 5, known as the equation of Poiseuille, allows to calculate friction losses irreversibly experienced by a fluid circulating in laminar regime, where the viscosity of the fluid is, L the conduction length, v the fluid velocity, \ rho the density of the fluid and D the diameter of the conduction.

5

These losses of mechanical energy are due to Two different factors. On the one hand, the friction or friction of the fluid with the inner walls of the system through which it circulates. Y on the other hand, to friction caused by changes in system geometry, or fluid vein modifications, originated by the presence in the conduits of a series of accidents such as valves, measuring devices, elbows or Other accessories According to this, the loss of energy mechanical is calculated as the sum of friction losses of the straight sections of the system and the mechanical energy losses in all system accidents, in the calculation of which uses what is known as the equivalent length of the accident. The Equivalent length of an accident is the straight leg length of conduction of a certain diameter that would originate the same loss of load than said accident.

It has been experimentally proven that the enamel feed system described here presents a friction loss practically negligible, which allows you to accurately calculate the download speed of the liquid with equation 6 that can be obtained from the equation 4.

6

On the other hand, since the speed of discharge of the fluid through the hole is related to the volumetric flow rate (Q_ {v2}) and hole section (S) a through equation 7

7

and since said step section can be determined from the diameter of the hole (D) how

8

combining equation 6, equation 7 and the equation 8, you get an expression that relates the flow of discharge of fluid through the hole with its diameter, for a determined fluid height, and that acquires the shape of the equation 9.

9

Brief description of the figures

Figure 1 shows an overview of the device, in which the general shape of the device is observed for feeding liquids or suspensions connected to a tube Vertical metallic in a classical way, not being patented said tube, and the object of this patent being the form of termination or final injector thereof.

Figure 2 is a sectioned elevation view of the injector device.

Figure 3 is a planar detail of the injector object of the patent.

Embodiment of the invention

In order to reach a better understanding of the object and functionality of this patent, and without understanding as a restrictive solution, the device of the invention according to the preferred embodiment consists of the following parts, described in figures 1, 2 and 3.

Thus, figure 1 consists of a general drawing in which the different parts of the device are observed liquid or suspension feed, where:

(1) is a vertical tube intended to serve as liquid feeder or suspension. It shows a  upper liquid inlet or suspension supplied by a transfer pump

As follows from equation 9, for guarantee the constancy of the suspension flow with this device, it is necessary to keep the suspension level constant in the vertical tube, for which different can be used resources that are not the subject of this patent. On the device of the invention said resource is preferably a landfill (2) that, in order to provide a stable overflow, divert the liquid left over to a container located in the intake cavity of the transfer pump.

With the number (3) the injector is shown, object of the patent, as a preferably metallic body or of synthetic materials, equipped with the means of rapid change of section without having to stop feeding the liquid or the suspension. This injector body engages in the lower part of the vertical feeding tube (1) allowing to eliminate the valves currently used.

With the number (5) an element is shown nozzle holder, intended to accommodate work nozzles, shown in more detail in figures 2 and 3 and allowing the Quick change of them.

Figure 2 shows the details of the injector object of the patent, where:

(3) show the injector as a body preferably metallic or synthetic materials, whose function is to serve as a transition between the section of the feeding tube and the final injection hole. To ensure tightness of the set, it is provided with an elastic seal (8) preferably toroidal and inserted into a cavity of the injector body (3). The injector body is attached to the vertical tube (1) through the quick couplings (9).

(6) is a translation axis whose function is provide some freedom of radial translation to nozzle holder (5), limited by the end of the race. (4) is a nozzle that is easily replaceable with another diameter distinct by radial movement of the nozzle holder (5).

A detail of the nozzle holder (5) equipped with a side cam that allows a radial translation movement on the shaft (6) limited by the limit switch (7) to center the nozzle to be used (4) on the device shaft With the number (10) the place of location of a new nozzle, of a different diameter than the current one (4), and that can be located quickly and without stopping the feeding, in the working position in which it is (4), modifying the flow of liquid or suspension fed.

The device of the present invention allows rapid change of liquid flow or suspension without need to stop feeding it, avoiding the fouling problems that would be created, if to be able to change the flow became necessary to interrupt the feeding of the liquid or suspension, and decreasing the time needed to Modify the operating conditions. The way to install these shutter discs is not subject to claim, as there are multitude of mechanical solutions available. For descriptive purposes, This patent describes a radial chopping system, being able to use for that purpose, revolver systems, hooks rapids and other forms of positioning and anchoring.

The liquid feeding device or suspensions is insensitive to variations of viscosity.

Claims (8)

1. A liquid or suspension feeding device consisting of a straight vertical tube (1) characterized in that it ends directly in an injector body (3) without the need for intermediate elements such as valves or narrowings. 2. The liquid or suspension feeding device according to claim 1, characterized in that the injector body (3) consists of a metal body of means for regulating the flow and rapid change of section, without the need to stop the feeding of the liquid or suspension. 3. The liquid or suspension feeding device according to claim 1, characterized in that the injector body (3) consists of a body of synthetic material provided with means for regulating the flow rate and rapid section change, without the need to stop the liquid feed or suspension. The liquid or suspension feeding device according to any one of claims 2 or 3, characterized in that the means for regulating the flow and rapid change of section consist of a system of nozzles of different diameter (4 and 10) arranged in a nozzle holder (5). 5. The liquid or suspension feeding device according to claim 4, characterized in that the nozzle holder (5) is further provided with a translation axis (6) and a limit switch (7). 6. The liquid or suspension feeding device according to claim 1, characterized in that the injector (3) is provided with an elastic seal (8). 7. The liquid or suspension feeding device according to claim 6, characterized in that the elastic seal (8) is toroidal in shape. The liquid or suspension feeding device according to claim 7, characterized in that the elastic seal (8) is coupled to the feeding tube (1) through quick couplings (9).