RU2237522C1 - Method of optimization of design of shower perforated head - Google Patents

Abstract

FIELD: sanitary equipment.

SUBSTANCE: invention relates to specialization of sanitary devices for satisfying hygienic requirements of humans and for washing contaminated flat and shaped surfaces of automobiles and other articles at corresponding selection of elasticity of fibers. New method can be used for washing vegetables and fruits before canning or washing without damaging their surfaces. Proposed method of optimization of design of perforated head of shower cones to the following: flange of head is provided with perforations with fitted in capsules with holes, angle of axis of delivery of liquid is correlated in each row of capsules with holes for more effective distribution of liquid jets in process of passing out through holes. Bunches of hair or polymeric metallized fibers are placed in holes of capsules. Industrial useful ness of new design comes to reduction of time at liquid mechanical treatment of surfaces of different level. Economical usefulness of design of perforated head is increased capabilities of operations at higher quality.

EFFECT: improved quality of washing.

4 dwg

Description

The invention relates to the field of specialization of plumbing devices that satisfy human hygiene needs, as well as for washing contaminated flat and shaped surfaces of automotive or other products, and with appropriate selection of fiber elasticity, the new method can be useful for washing vegetables and fruits before canning or before the use without violating the surface properties of food.

Known technical solutions include a prototype (products of the company “Elegant-Auto” in Samara), which contains positive operations to optimize the design of a perforated shower head, namely, that the nozzle flange is equipped with perforations with capsules with a hole installed in them, and the angle the settings of the fluid supply axis correlate for each row of capsules with holes for more efficient distribution of fluid flows during their passage through the holes.

The disadvantages of the known technical solution include the inefficiency of using the shower head design, since for the area of specialization in this direction of designing shower heads, an additional operation is not used to simultaneously clean the soft or forced removal of the contaminated surface during the fluid supply, which reduces the technological capabilities of this method and increases consumption time and water energy resources to perform technological operations.

This object is achieved in that, according to the method of optimizing the design of the perforated shower head, according to which the latter is fixed in the mandrel and capsules are installed in the perforations of the shaped perforated element, the holes of the water flows do not intersect in space under acute angles diverging relative to the common central axis ( α), which creates an increase in the working contact field of the conditional water spot relative to the perforated shower head with holes located around the periphery and, it is performed in such a way that bunches of hair or polymer-metallized fibers are arranged in the openings of the capsules, capable of bending by at least 0.5 ° under a load of 5-50 g / cm ² in any direction, acting on them by force field with respect to the central axis of the capsule holes during the implementation of double and / or unilateral motion innings D _2S and / or D _S, wherein the peripheral edges of the capsules with installed fiber bundles is performed by the rounding radius of the toroidal shape, a peripheral radially angular pitch t _Z Settings capsules with holes and fiber bundles alternate between a ratio of 1: 1 or more, while the number of such capsules with the distribute scheduled uniform wear ζ operative end surface of the fibers, flexural and abrasion are infinitely large radius R _(23-24) surface, approximated by spots of the contact surface, the optical centers of which are at an acute and / or zero angle γ to the central axis of the shower head, and the peripheral and subsequent rows of capsules with holes for water supply with the possibility of contact of the ends and surfaces of the fibers in the statics of the relatively motionless substrate with the surface by reflected water jet flows while loading the ends of the fiber bundles installed in the shower head relative to the working surface of the substrate with a minimum load force of 5-50 g / cm ² .

Graphic images: figure 1 - arrangement of spots of contact zones when using the method of soft washing surfaces with a perforated shower head; figure 2 - diagram of the fastening and placement of a bundle of fibers in perforated capsules installed in a perforated shower head; figure 3 is an example of a working surface of a perforated shower head; 4 is an example of a working part of a perforated shower head in isometric view.

Numeric and letter designations adopted in graphic materials:

perforated shower head (10; shaped perforated element (2); perforation (3); capsule (4); hole (5); hole (6); conditional spot field (7) of water or other liquid; edges (8); radius rounding (9); common central axis (10); hole (11); hair (12) or polymer metallized fibers (13 and 14); fiber bundle (15); central axis (16); mandrel (17); spots contact surface (18-20), substrate (21); working surface (22); optical centers (23-25); ends (26) of fiber bundles (15); acute angle α; double and / or one-sided motion _supplies D _2S and / or D _S; peri- The serial radial angular step 0,5t _Z.

A method for optimizing the design of a perforated shower head (1), according to which the latter is fixed in the mandrel (17) and is performed in the perforations (3) of the shaped perforated element (2), the capsules (4) are installed with holes (5) for supplying water flows that do not intersect between in space under sharp angles (α) diverging relative to the common central axis (10), thereby creating an increase in the working contact field of the conditional water spot (7) relative to the perforated shower head (1) with openings (11) located at the periphery (8), characterized byin that:

- in the holes (6) of the capsules (4) are bundles (15) of hair (12) or polymer-metallized fibers (13 and 14) that can bend at least 0.5 ° under a load of 5-50 g / cm ² in any direction, acting on them by a force field relative to the central axis (16) of the opening (6) of the capsule (4) during double and / or unilateral feeds of movement D _2S and / or D _S ;

- the peripheral edges (8) of the capsules (4) with the bundles of fibers (15) installed in them are performed according to the radius of rounding (9) of the toroidal shape;

- peripheral radial-angular step t _Z installation of capsules with holes and bundles of fibers alternate with each other in a ratio of 1: 1 or more;

- the number of such capsules (4) is distributed with the planned uniform wear ζ of the working end surface (26) of the fibers (12-14) working on bending and abrasion along the infinitely large radius R _{(23-24) of the} surface (22) approximated by the spots of the contact surface (18-20), the optical centers (23-25) of which are at an acute and / or zero angle γ to the central axis (10) of the shower head (1);

- the peripheral and subsequent rows of capsules (4) with holes (5) for supplying water are installed with the possibility of contact of the ends (26) and fiber surfaces (12-14) in the static relative to the motionless substrate (21) with the surface (22) with reflected streams of water when loading the ends (26) of the fiber bundles (15) installed in the shower head (1) relative to the working surface (22) of the substrate (21) with a minimum loading force of 5-50 g / cm ² .

An example of a method for optimizing the design of a perforated shower head.

A method of optimizing the design of a perforated shower head (1), according to which the latter is fixed in a mandrel 917) and performing capsules (4) with holes (5) for supplying water flows that do not intersect in perforations (3) of a shaped perforated element (2) in space under sharp angles (α) diverging relative to the common central axis (10), which creates an increase in the working contact field of the conditional water spot (7) relative to the perforated shower head (1) located on the periphery (8) with holes (11), t Thus, that:

in the holes (6) of the capsules (4) are bundles (15) of hair (12) or polymer-metallized fibers (13 and 14) that can bend at least 0.5 ° under a load of 5-50 g / cm ² in any direction of the force field acting on them with respect to the central axis (16) of the opening (6) of the capsule (4) during double and / or unilateral feeds of movement D _2S and / or D _S ;

peripheral edges (8) of capsules (4) with fiber bundles installed in them (15) are performed according to the radius of rounding (9) of a toroidal shape;

peripheral radial-angular pitch (t _Z ) installation of capsules with holes and bundles of fibers alternate with each other in a ratio of 1: 1 or more;

the number of such capsules (4) is distributed with the planned uniform wear (ζ) of the working end surface (26) of the fibers (12-14)) working on bending and abrasion along the infinitely large radius R _{(23-24) of the} surface (22) approximated by spots contact surface (18-20), the optical centers (23-25) of which are at an acute and / or zero angle γ to the central axis (10) of the shower head (1);

the peripheral and subsequent rows of capsules (4) with openings (5) for water supply are installed with the possibility of contact of the ends (26) and fiber surfaces (12-14) in the static relative to the stationary substrate (21) with the surface (22) with reflected streams of water jet loading the ends (26) of the fiber bundles (15) installed in the shower head (1) relative to the working surface (22) of the substrate (21) with a minimum loading force of 5-50 g / cm ² .

The optimization method allows combining surface cleaning and washing operations using appropriate soap or alkaline liquid compositions. In addition, double feeds can be used with the appropriate selection of longitudinal elasticity and wear resistance of the fibers for finishing operations for cleaning flat and difficult-shaped surfaces and grinding. Contact spots of surfaces with a planned form of relationship with the surface of the processed substrate are given as an example and can have a different spatial contact shape associated with the loading force and the number of fiber bundles.

The industrial usefulness of the new technical solution is to reduce the technological time during the liquid-mechanical treatment of surfaces of various levels.

The economic usefulness of the process of optimizing the design of the perforated nozzle is to increase technological capabilities while increasing the productivity of the performed technological operations with a higher quality of their execution.

Claims (1)

A method for optimizing the design of a perforated shower head, according to which the latter is fixed in the mandrel and capsules are installed in the perforations of the shaped perforated element with water supply openings that do not intersect in space under sharp angles diverging relative to the common central axis (α), thereby increasing the working contact field of the conventional water spots relative to the perforated shower head with holes located on the periphery, and the installation is performed in this way that in the openings of the capsules are bundles of hair or polymer-metallized fibers capable of bending at least 0.5 ° under a load of 5-50 g / cm ² in any direction of the force field acting on them relative to the central axis of the opening of the capsule when double and / or unilateral motion innings D _2S and / or D _S, wherein the peripheral edges of the capsules with installed fiber bundles is performed by the rounding radius of the toroidal shape, a peripheral radially angular pitch (t _Z) Fitting holes capsules and fiber bundles alternate between a ratio of 1: 1 or more, while the number of such capsules with the distribute scheduled uniform wear (ζ) operative end surface of the fibers, flexural and abrasion are infinitely large radius R _(23-24) surface approximated blots contact surfaces, the optical centers of which are at an acute and / or zero angle “γ” to the central axis of the shower head, and the peripheral and subsequent rows of capsules with holes for water supply are installed with the possibility of contact about trapped water flows of the ends and surfaces of the fibers in the static relative to the motionless substrate with the surface when loading the ends of the fiber bundles installed in the shower head relative to the working surface of the substrate with a minimum load force of 5-50 g / cm ² .

Images