CZ29586U1 - Aerator - Google Patents

Description

Technical field

The technical solution relates to an aerator to save consumption of liquid, in particular water for placing on a shower hose or faucet.

BACKGROUND OF THE INVENTION

Saving water for washing is now one of the major social issues. Shower water saving is currently taking two basic directions. The first is a simple reduction of the water flow through the upstream device, which narrows the flow profile and thereby reduces the final volume of water flowing out of the shower head. Water flow reductions are in most cases small devices that are installed either in front of the shower hose or in front of the shower head. Alternatively, they can already be part of the shower head. The disadvantage of this solution is the relatively low saving while maintaining the shower comfort, or reducing the shower comfort while saving water.

The second way is to reduce the water flow while maintaining the volume of the liquid by means of a mix with air. Air is sucked into the liquid and mixed due to the underpressure created by the Venturi effect, where air is sucked from the outer periphery of the liquid at the exit point of the narrowed water flow profile into a larger space and then mixed with air. This solution is realized by the front air intake through the shower head, which has to be adapted for this purpose already in production. Another possibility is the suction of air by vacuum in the center of the vortex, where the air is sucked in the direction opposite to the liquid flow. The disadvantage of these solutions is that they are limited to shower heads only. This also gives a limited choice of shower head design. Another disadvantage is that these solutions cause high pressure in the shower head, which gives a high probability of shortening the life of the shower hose, as well as the need to solve the water saving of the arm taps in a different way.

A solution according to patent application WO 2010/116115 is described, wherein a side opening in the mixer body is used to suck air in. The disadvantage of this solution is that the maximum liquid flow is strongly dependent on the inlet water pressure.

The essence of the technical solution

According to the invention, the aerator largely eliminates the disadvantages of existing solutions. The aerator according to the invention is provided with an external thread for connecting a shower hose and an internal thread for connecting a faucet, and comprises a water inlet chamber, a washer with at least one water spray opening, air inlet openings and a mixing chamber adjoining the shower hose inlet. In addition, the aerator includes at least two seals with stainless steel screens, which are used to eliminate pressure surges.

The aerator according to the invention is located between the shower hose and the faucet, whereby a seal is used to seal the joints.

The tap water enters the water inlet chamber terminated by the pad with at least one water spray opening, and if there is only one water spray opening in the pad, it is located in the center of the pad if more than one is provided in the pad the water spray opening, then these are made in central symmetry in a pitch circle, the diameter of which is at least ol, 5 times smaller than the diameter of the mixing chamber. Through the water spray openings, water enters at a high speed into a mixing chamber provided with air inlets of 1.0 to 3.5 mm. Thanks to the Venturi effect, air is sucked through the air inlets and mixed with water. A mixing chamber with a length of at least 10 mm enters the hose connection when the aerator is connected to the shower hose.

Each type of shower head and shower hose exhibits different pressure loss parameters, which significantly affects the aerator's performance in terms of pressure surges. In the case of their presence, seals with stainless steel sieves can be used, preferably in the number 0 to 2, at the inlet and outlet of the shower hose.

-1 CZ 29586 Ul

The use of the aerator according to the invention results in a significant reduction of the water flow rate up to the values of 3.5 to 8.0 l / min. while maintaining normal shower comfort. This saves significant water consumption. At the same time, there is low pressure stress on the shower hose, which significantly increases its service life.

The aerator according to the technical solution can also be placed between the shower hose and the shower head, which still saves water, but eliminates the effect of reducing the pressure strain of the shower hose.

The aerator according to the invention can be used with any commercially available single-function shower head and shower hose, thus saving costs.

The aerator according to the technical solution can also be placed between the faucet and the faucet.

Examples

Example 1

The existing connection of the shower hose 1 and the faucet is disconnected. Into the inner thread 3 of the aerator 4 is placed a water spray pad 5 with one central water spray aperture 6, on which a stainless steel sieve 7 seal is placed. An aerator 4 provided with a stainless steel sieve 7 is connected to the tap by means of an internal thread. The water from the faucet enters the water spray opening 6 located in the center of the water spray pad 5, a diameter of 2.1 mm. Through the water spray opening 6, water enters at high speed into the mixing chamber 8 provided with 1.2 mm air inlet openings 9. Due to the Venturi effect, air is sucked through the air inlet openings 9 and mixed with water. The mixing chamber 8 has a length of 20 mm. The aerator 4 is connected to the shower hose 1 by means of an external thread 10. Next, the existing connection between the shower hose 1 and the shower head 11 is disconnected, the existing seal is removed and one stainless steel sieve 7 is inserted.

Example 2

The existing connection of the shower hose 1 and the faucet is disconnected. Into the internal thread 3 of the aerator 4 is placed a water-spraying washer 5 with four water-spraying holes 6 provided in central symmetry in a pitch circle whose diameter is at least 1.5 times smaller than the diameter of the mixing chamber 8; stainless steel strainer. The aerator 4 provided with a stainless steel sieve 7 is connected to the tap using an internal thread 3. The water from the faucet enters through the water spray apertures 6 at high speed into the mixing chamber 8 provided with 1.2 mm air inlet apertures 9. Due to the Venturi effect, air is sucked through the air inlet openings 9 and mixed with water. The mixing chamber 8 has a length of 20 mm. The aerator 4 is connected to the shower hose 1 by means of an external thread 10. Further, the existing connection between the shower hose 1 and the shower head 11 is disconnected, the existing seal is removed and one stainless steel sieve 7 is inserted.

Industrial applicability

The aerator according to the invention can be used with any shower hose and single-function shower head. The aerator can be implemented as an integral part of the shower hose. The aerator can be implemented as an integral part of the shower head. The aerator can be implemented as part of a tap faucet.

Claims (1)

A water-saving aerator for placement on a shower hose or a faucet, characterized in that it comprises at least one water-spraying pad (5) with at least one water-spraying opening (6), a mixing chamber (8) of at least 10,0 mm 5 having openings (9) for air intake of 1.0 to 3.5 mm and at least one gasket (7) with a stainless steel strainer to stabilize the pressure shocks, and a washer (5) is placed in the inner thread (3) of the aerator (4). ) for spraying water with at least one central water spraying aperture (6) and thereon a seal (7) with a stainless steel strainer is connected to the mixing chamber (8) provided with air inlet apertures (9).