ES1108206U - Flow meter in an osmosis installation (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Flow meter in an osmosis installation, constituted by a volumetric or speed meter (7) or flow meter, characterized in that it is located inside a water installation by means of reverse osmosis, exactly between the osmosis membrane (4) and the carbon postfilter (8) before the outlet through the tap (9) of the water and its subsequent drainage (5) and after the sediment (2) and carbon filters (3) own of these facilities. (Machine-translation by Google Translate, not legally binding)

Description

FLOW METER IN AN OSMOSIS FACILITY OBJECT OF THE INVENTION

The present invention relates to the incorporation into the interior of the conventional osmosis installations for the purification of water, of a flow meter, whether industrial or domestic. In this way the problem that the user has when it comes to the control of consumption is resolved either for economic reasons or for other reasons, being able to treat

10 these of the clarity and certificate of the water coming from said installation. Likewise, the user can control the water coming from the osmosis installation and, economically, provide for future payments and consumptions as well as serve as a control of conventional water and water through osmosis. The meters allow to know the leaks that the installation may possess. These facilities improve the

15 quality of drinking water that we use right now and prevents the consumption of bottled water that indiscriminately forces us to recycle the plastic from the containers.

The installation of osmosis for water consumption is a novelty not very widespread and that because the generality of users still does not know the 20 advantages of these facilities with respect to a conventional water installation. Above all, the purpose of these facilities is to provide a purer water since the water to be purified makes pressure on the semipermeable membrane, so that part of it will get through the pores of the

membrane, osmotized water, while the rest of the water, water rejected or with a high concentration of salts, will be diverted to the drain, passing it through a semipermeable layer leaving all kinds of insolvent components in said layer obtaining a pure and total free water impurity. This process will be

5 known as reverse osmosis. The quality of drinking water is not good and that forces and, in the future will be worse due to pollution, to the purchase of bottled water with the consequent obligation to recycle the plastics of the containers with what the installation of water through osmosis is augurs necessary because its quality exceeds that of current drinking water.

10 It is framed in the water meter industry and within it, the water meters of osmosis facilities BACKGROUND OF THE INVENTION Document NL1012311 is currently known which describes a water conductivity measuring gauge. The document ES 8204976

15 proposes a filter device to be installed in a water pipe inside which houses a perforated porous tube with holes on which an osmosis membrane is spirally wound. Document ES2327105 describes a pressure regulator in order to regulate the dilute and two conductance sensors and a valve that regulates the passage of water with more or less salinity.

20 This is known to have the following drawbacks:

-

The document NL1012311 has the disadvantage that the pressure gauge

conductivity meter is installed in a conventional installation

of water.

-

 Document ES 8204976 has the disadvantage of being only a

5 system for water osmosis and does not control the amount of water consumed.

-

 Document ES2327105 has the disadvantage of regulating the pressure of saline water for large installations such as factories or large cities.

10 Faced with these drawbacks, the proposed invention has the following advantages:

•

It is not a conductivity meter for any installation but for an osmosis installation

•

It is not a type of water installation by osmosis but it counts

15 and reflects the amount of osmotized water that has been consumed by this water purification system.

• It does not regulate the pressure but measures the flow of water used by the osmosis system.

•

Simple to prepare and install as it is done in the same way as it is done in conventional installations.

•

It is not a complicated mechanism because you can use the conventional meter or the different types of meters that exist in the market.

•

Maintenance free

•

Simple to handle

•

It allows to know leaks in the installation.

•

It is purer than the running water we currently consume. 5 • It allows you to consume pure water without having to buy bottled water, which now recycles the plastic from the water containers. DESCRIPTION OF THE INVENTION Thus the present invention is constituted from a volumetric or velocity meter or flow meter that is located inside a device

10 osmotic located exactly between the membrane and the carbon postfilter before the water flows out of the tap. The meter has a reading window to visually control the amount of water consumed.

Operation begins when the network water to be treated enters the equipment through the turbidity filter and carbon filters. In this stage of filtration, the suspended particles, chlorine, their derivatives and other organic substances are retained. The passage of water into the equipment is controlled by a cutting solenoid valve. The water, after leaving the filtration stage, is propelled towards the reverse osmosis membrane. The pressure of the water on the membrane makes the reverse osmosis process possible. Water

Osmotized 20 is stored in an accumulation tank for later consumption. Rejection water or with excess salts and other dissolved substances, is directed to the drain for disposal. When the accumulation tank is full, the equipment stops working. When requesting water through the equipment tap, the accumulated water passes through the volumetric flowmeter. This water that was in the tank or tank passes through a carbon postfilter whose purpose is the elimination of possible odors and flavors that the water could retain before being dispensed.

BRIEF DESCRIPTION OF THE DRAWINGS

For a better understanding of what is expressed in this specification, a drawing is attached which, by way of non-limiting example, represents a preferred embodiment and its operation.

10 Figure 1.- Front elevation view of the reverse osmosis installation

one.

 Water inlet valve

2.

 Sediment Filter

3.

 Carbon filter

Four.

 Reverse Osmosis Membrane

15 5. Drain

6.

Water storage tank

7.

 Water flow meter

8.

Carbon Postfilter

9.

 Faucet of the equipment through which the treated water comes out

DESCRIPTION OF A PREFERRED EMBODIMENT

A preferred embodiment is constituted from a counter (7) or

5 flowmeter, either volumetric or velocity, located inside a water installation by reverse osmosis, located between the osmosis membrane (4) and the carbon postfilter (8) prior to the exit by means of the tap (9 ) of the water and its subsequent drain (5) and subsequent to the sediment (2) and carbon filters (3) of these facilities.

10 The counter (7) has a reading window

The operation begins when the user activates the water inlet valve, (1) and this first runs between the sediment filter (2), second to the carbon filters (3), third between the osmosis membrane (4), fourth, the osmotized water is stored in a reservoir of

15 accumulation (6) for later consumption. Rejection water or with excess salts and other dissolved substances, is directed to the drain (5) for disposal. When requesting water through the equipment tap (9), the water accumulated in the tank passes through the water meter (7), and through a carbon postfilter (8) whose purpose is the elimination of possible odors

20 and flavors that could retain water before being dispensed.

Claims (1)

1.- Flowmeter in an osmosis installation, constituted from a meter (7) or flowmeter either volumetric or velocity, characterized 5 because it is located inside a water installation by reverse osmosis exactly between the osmosis membrane (4) and the carbon postfilter (8) prior to the exit by means of the tap (9) of the water and its subsequent drain (5) and after the sediment (2) and carbon (3) filters of these facilities. 10 2. Flow meter in an osmosis installation, according to claim 1, characterized in that the meter (7) has a reading window. 3.- Flow meter in an osmosis installation, according to claim 1, characterized in that the operation begins when the user activates the water inlet valve, (1) and this first runs between the sediment filter 15 (2), second to the carbon filters (3), third between the osmosis membrane (4), fourth, the osmotic water is stored in an accumulation tank (6) for later consumption. Rejection water or with excess salts and other dissolved substances, is directed to the drain (5) for disposal. When requesting water through the equipment tap (9), the water accumulated in the tank goes to 20 through the water meter (7), and by a carbon postfilter (8) whose purpose is the elimination of possible odors and flavors that the water could retain before being dispensed.