BR202022006084U2 - IMPROVEMENT INTRODUCED IN PORTABLE TUBULAR WATER PURIFIER APPLIANCE - Google Patents

Abstract

improvement introduced in a portable tubular water purifying device. The present application for a utility model patent follows, for an improvement in a water purifying device, which will allow for a longer period of use, since the water to be treated initially goes through a decantation process in a reservoir, where its collection point remains slightly displaced above its side wall, keeping heavy particles at the bottom of the reservoir; therefore, with the conduction of this water, through an L-shaped connection device with a gravity pre-filter screen, connected to the hose, which conducts the water from the device to the interior of the tubular purifying filter, with the same water being permeated by a set of hollow and porous ultrafiltration fiber membranes, the already purified water will flow through a manual backwash pump, whilst the latter is used to unclog the pores of the curved hollow and porous ultrafiltration fiber membranes, where The water contained inside is forced to exit through the pores of the curved hollow and porous ultrafiltration fiber membranes, unclogging its pores, and thus, the water purifying device has its useful life extended in a simple and effective way compared to those found on the market. .

Description

[001] The present application for a utility model patent follows, for an improvement in a water purifying device, so that due to its construction, it will allow for a longer period of use, since the water to be treated initially passes through a decantation process in an easily transportable reservoir, where its water collection point is through an “L” shaped connection device, installed in a hole in the wall of this reservoir, slightly displaced above its side wall, keeping the particles weighed at the bottom of said reservoir, as well as this connection device containing a pre-filter screen that inhibits the entry of larger suspended particles. Therefore, with the conduction of this water, under the effect of gravity, into the hose that is connected to the tubular body of the tubular filter, which carries the water into the tubular filter, it will be permeated by a set of fiber membranes porous ultrafiltration hollows, thus obtaining purified water instantly and free from contamination by bacteria, protozoa, viruses, etc., and small particles of light impurities, and is already intended for human consumption. To reduce the saturation effect and the subsequent reduction in the flow of purified water, and consequently, the reduction in the useful life of the curved hollow and porous ultrafiltration fiber membranes, we installed a manual rubber pump at the outlet of the water orifice. purified, which will be used for the cleaning and backwashing process of curved hollow and porous ultrafiltration fiber membranes. This manual backwash pump contains a green registration valve that, when closed manually, allows water to be pumped in the opposite direction to gravity, forcing water to exit linearly through the pores of the curved hollow and porous ultrafiltration fiber membranes, unclogging the pores. , while the water resulting from this process is drained through a side valve. And so, thanks to improvements, the tubular purifying device has its useful life extended in a simple and effective way, compared to those found on the market.

STATE OF THE TECHNIQUE

[002] As the state of the art knows, for water to be drinkable and free of particles that could be harmful to health, it needs to be treated before consumption. In this sense, several devices were developed to achieve this result.

[003] Here we can cite the document “BR 102017016601 -5”, entitled “SOLAR DEVICE COUPLED WITH FILTER FOR WATER DISINFECTION”, which refers to equipment for solar water disinfection consisting of a filter, preferably made of acrylic blanket, two solenoid valves or butterflies activated by electrical control (manual or pneumatic), a polyethylene reservoir with a glass lid with an internal aluminum plate, two PVC adapters with sealing rubber and a tap, the components being joined by PVC piping. Water must come from sources whose source of contamination is microbiological, such as rainwater, rivers, lakes, artesian wells and mineral springs, in domestic environments, mainly in arid and semi-arid regions. More specifically, the invention relates to simple filtration and disinfection of water at low cost, in which the quality of the water is controlled by a temperature sensor and a UV radiation index sensor, in order to obtain drinking water in situations where which resources are limited. As a difference, the filter can also be made of material other than an acrylic blanket, such as sisal, an abundant raw material in the Brazilian semi-arid region.

[004] It turns out that these devices contain mechanical filters that are formed by a tube filled internally with porous membranes that retain particulate impurities that remain suspended in the water to be treated. At this point, the saturation of the filters that work with membranes that end up saturating quickly, forces the user to change them in a very short period of time. It is also considered that because the membranes are composed of only one separation barrier, it is very common for them to leak internally, compromising filtration over time.

[005] Another factor of extreme importance is that the technology embedded in these devices are incapable of operating in places devoid of technology, such as, for example, in dams in arid and semi-arid regions.

PURPOSE OF THE PATENT

[006] In order to solve these limitations, the inventor perfected the construction of a tubular purifying device, so that, due to its construction, it will allow for a longer period of use, since the water to be treated initially goes through a process of decantation in an easily transportable reservoir, where we have a water collection point equipped with an “L” shaped connection device with pre-filter screen, which is installed on the wall of this reservoir slightly displaced above its side wall, maintaining the heavy particles at the bottom of said reservoir. Therefore, with the conduction of this water by gravity, through the connection device with pre-filter that is connected by the hose that carries the water into the tubular filter, which is permeated by several hollow and porous fiber membranes of ultrafiltration, thus obtaining water that is instantly purified and ready for human consumption. Also, by installing a manual pump coupled to the outlet of the tubular water filter body hole, to avoid saturation of the curved hollow and porous ultrafiltration fiber membranes, we can carry out cleaning through the water backwash process, which is forced to exit linearly through the pores of the curved hollow and porous ultrafiltration fiber membranes, unclogging their pores, while the water resulting from this process is drained through a side valve. Thus, thanks to all the improvements, the water purifier device has its useful life extended in a simple and effective way compared to those found on the market. Explained superficially, the present application follows to be better explained according to the attached drawings, which can be seen: Figure 1 - Front perspective view of the tubular filter coupled to its portable reservoir; Figure 2 - Rear top perspective view, according to previous figure; Figure 3 - Schematic view showing the interior of the tubular filter with the platform with sealing resin, which receives the ends of a series of curved hollow and porous ultrafiltration fiber membranes (detail A), with their porosity (detail B); Figure 4 - Schematic view demonstrating the water treatment flow, where contaminated water is kept in the portable reservoir that goes through the decantation process, causing heavy impurities to remain at the bottom, while light impurities are carried away with the water under the effect of gravity, passing through the “L” shaped flow nozzle, equipped with a pre-filter screen, connected to a hose, which at the other end of the hose is connected to the tubular filter body, for where the water is led to the interior of the tubular filter and also under the effect of gravity, the contaminated water is forced to permeate the porosity of the curved ultrafiltration hollow and porous fiber membranes, causing light impurities to be retained, allowing only the treated water reaches the lower chamber, already purified instantly, flowing through the ends of the aforementioned hollow and porous ultrafiltration fiber membranes, promoting the flow of water, also, under the action of gravity, through the ribbed rubber pump, from where it is drained by the secondary valve, thus obtaining purified water instantly, ready for human consumption and/or stored in a bottle that remains on the floor accumulating the purified water for later consumption; Figure 5 - Schematic view showing the secondary valve of the ribbed rubber pump closed, followed by removal of the pressure cap from the purge terminal and opening of the side valve. Then, with the ribbed rubber pump filled with air and/or treated water, the user manually presses their body (indicated by smooth arrows), which naturally exerts pressure in the opposite direction of the flow (indicated by dashed arrows), causing light impurities unclog the pores of the curved hollow and porous ultrafiltration fiber membranes (detail C and D), being expelled and drained by the aforementioned purge terminal.

[007] In accordance with the attached drawings, the present utility model patent application follows for an “IMPROVEMENT INTRODUCED INTO A PORTABLE TUBULAR WATER PURIFIER APPARATUS”, which is formed from a portable reservoir (1) equipped of lid (2) arranged on the edges of side walls (3) that delimit a bottom (4), whilst on one of the side walls (3), a connection device in the shape of a “L” in slight lateral distance, a water flow nozzle with a pre-filter screen (5) from which a hose (6) projects that connects from its opposite end to an inlet nozzle (7) of a tubular filter (8) equipped at the bottom with a purge terminal (9) with a side valve (10) covered with a pressure cap (11). Below the purge terminal (9), a union belt (12) internally delimits a platform (13) that receives the ends (14) of a series of curved hollow and porous ultrafiltration fiber membranes (15). The platform (13) also receives a layer of sealing resin (16) arranged above a lower chamber (17), which converges to a lower outlet nozzle (18) connected by clamp to the upper terminal (19) of a pump. ribbed rubber (20) that receives in its lower portion, an output terminal (21) connected to a secondary valve (22) equipped with a tap (23), thus forming the water purifying device (24).

[008] Thus constituted, the user fills the portable reservoir (1) with contaminated water (AC), generally coming from dams, rivers, wells, cisterns, etc., where it is placed in a higher location, so that the tubular filter (8) remains facing downwards. In this condition, the contaminated water (AC) kept in the portable reservoir (1) goes through a decantation process, causing the heavy impurities (IP) to remain at the bottom (4), preventing them from reaching the inside of the tubular filter ( 8), also because the “L” shaped connection and drainage device (5) installed on the wall of the portable reservoir (1) through which the water passes, contains a screen that works as a pre-filter preventing the entry of particles larger ones suspended in the water, into the hose (6).

[009] In this way, only contaminated water (AC) with light impurities (IL) is carried by gravity, passing through the flow nozzle with pre-filter (5) and through the hose (6) to the inside of the tubular filter (8) . Still under the action of gravity, the contaminated water (AC), which is unable to leak thanks to the sealing resin layer (16), is forced to permeate the porosity of the curved hollow and porous ultrafiltration fiber membranes (15), which, as they are formed from porosity with ultrafiltration technology, makes microorganisms such as bacteria, protozoa, viruses, etc. and small particles of light solid impurities (IL), are retained, causing only the treated water (AT) to reach the lower chamber flowing through the ends (14) of said hollow and porous ultrafiltration fiber membranes (15). In a continuous flow, the treated water (AT) flows inside the ribbed rubber pump (20), where it is drained through the secondary valve (22), and is ready for human consumption and/or to be stored in a reservoir placed on the floor below, for subsequent human consumption of this purified water.

[010] With prolonged use of the water purifying device (24), the porosity of the curved hollow and porous ultrafiltration fiber membranes (15) are obstructed by light impurities (IL), which is the time for maintenance. To do so, the user closes the secondary valve (22) of the ribbed rubber pump (20), removes the pressure cap (11) from the purge terminal (9) and opens the side valve (10). Then, the ribbed rubber pump (20) filled with air and/or treated water (AT), the user manually presses his body, which naturally exerts pressure in the opposite direction of the flow, but linearly and in accordance with the positioning of the aforementioned membranes. of hollow and porous ultrafiltration fibers (15) in a backwash system, causing light impurities (IL) to unclog the pores, which are expelled and drained by said purge terminal (9). After this procedure, the side valve (10) is closed again and the purge terminal (9), which receives its pressure cap (12) again, followed by the reopening of the secondary valve (22), being ready for a new cycle of water filtration and purification.

[011] The water purifying device (24) described here, can optionally operate without the use of the ribbed rubber pump (20), however, it can only be re-coupled to the lower chamber (17) when backwashing is necessary, and in this condition, This increases the useful life of the ribbed rubber pump (20), as it discourages the user from using it unnecessarily.

[012] In this way, the present application provides an effective and long-lasting water purifying device (24), free from possible leaks and contamination, in addition to promoting manual backwashing in a simplified manner.

Claims (2)

1 - “IMPROVEMENT INTRODUCED INTO PORTABLE TUBULAR WATER PURIFIER APPARATUS”, which, a water purifier apparatus (24), is characterized by being formed from a portable reservoir (1) equipped with a lid (2) arranged on the edges of side walls (3) that delimit a bottom (4), while in one of the side walls (3) they have a hole at a slight distance from an “L” shaped connection and flow device (5) from where a hose (6) projects, which connects from its opposite end to an inlet nozzle (7) of a tubular purifying filter (8) equipped at the bottom with a purge terminal (9) with a side valve (10) coated with pressure cap (11), and below the purge terminal (10), a union belt (12) internally delimits a platform (13) that receives the ends (14) of a series of hollow and porous fiber membranes of ultrafiltration (15) curved, at the same time that the platform (13) also receives a layer of sealing resin (16) arranged above a lower chamber (17), which converges to a lower exit nozzle (18) connected by a clamp to the upper terminal (19) of a ribbed rubber pump (20) which receives, in its lower portion, an output terminal (21) connected to a secondary valve (22) equipped with a tap (23). 2 - “IMPROVEMENT INTRODUCED INTO PORTABLE TUBULAR WATER PURIFIER APPARATUS”, according to claim 1, is characterized in that the tubular purifying filter (8) is optionally devoid of the ribbed rubber pump (20) as well as its secondary valve (22) and tap (23).