RU53570U1 - DEVICE FOR AIR ASEPTATION - Google Patents

Abstract

The technical essence of the utility model: simplifying the design and reducing energy costs. The device contains a metal cylindrical body in which a piezoelectric generator is installed, with a negative output rigidly connected to the axis "p" of the blade (from two) impeller electrode, and a positive one with an electrode in the form of a conductive disk equipped with cone-shaped hollow elements and channels for air passage, staggered. A feature of the device is that a high-voltage piezoelectric source - an electropulse piezoelectric rotary-type generator with a cam drive of dynamic compression, is made in the form of ferroelectric electropulse “p” (from two) piezoelectric generator modules located perpendicular to the axis between sectors formed by radii, each of which represents paired design with on-board piezoelectric elements made of ferro-piezoelectric ceramics of the systems TsTS-STZ, TsKR-7m, PKL, etc., the latter are combined into “p” (from two) biscuit, self-contained (removable) cylindrical blocks located perpendicular to the “eccentric” axis including eccentrics and piezoelectric modules combined into a single high-voltage generator block. The electrically conductive disk and the impeller are made with the possibility of expansion and approximation, in addition, the wings are pointed. The device is economical, does not consume external electricity, made in an autonomous modular

variant, it does not require careful isolation of the duct section in which it is installed. The design of the device is simple and technologically advanced in manufacture, which makes it widespread in medical, sanatorium, resort and sports facilities, as well as in the food industry and in everyday life.

Description

The utility model relates to devices for air disinfection and can be used in the microbiological, food and medical industries. The device is simple and technologically advanced to manufacture, and makes widespread its implementation in medical, spa, research, and sports facilities.

A device for asepsis is known according to (1), 1. USSR Copyright Certificate No. 947029, class. From 01 V 13/10, 1982. The device for asepsis contains a high-voltage generator, an electronic circuit for generating, stabilizing high-voltage pulses, electrical protection, control and a power supply unit using 220 or 380 kV network power supply.

It has a number of imperfections, among which it should be pointed out the impossibility of using 220 or 380 kV without energy supply, the sufficient complexity of the design and electronic support, as well as metal and energy costs. The closest in technical essence and the achieved effect to the proposed invention a device for aseptic air according to (2), 2. USSR Copyright Certificate No. 1493262, class. A 61 L 9/22, 1989., which comprises a cylinder-shaped dielectric housing and high-voltage bipolar electrodes placed therein, one of which is made in the form of a metal impeller coaxially mounted in the housing, and the other in the form of an electrically conductive disk provided with cone-shaped elements facing the impeller, which is mounted for rotation. The cone-shaped elements have a truncated shape and channels for the passage of air, and they are mounted on the electrode - disk with alternating in a checkerboard pattern, the step between the elements is 0.65-0.75 of their height. The disk electrode is connected to a source of high

voltage 10 kV, 50 Hz., the impeller electrode is grounded.

The disadvantage of this device is the high energy consumption of the high voltage source, which is mounted separately from the aseptic device, has a complex electrical circuit with voltage stabilization, with the need for power supply at low / mains 50 Hz, 220 or 380 V / and high side / 10- 20 kV /, qualitatively protected: by breakdown of the high-voltage supply path circuit, as well as by isolation and protection of the entire module, made in a dielectric casing.

Selected for the prototype "Device for aseptic air" Patent 2080888 A 61 N 1/44, A 61 L 9/22, 1997

An air aseptic device comprising a cylindrical body equipped with two high-voltage bipolar electrodes, one of which is made in the form of an impeller coaxially mounted in the housing for rotation, and the other in the form of a conductive disk connected to the positive output of the high voltage source, the side of the disk facing the impeller, is equipped with truncated cone-shaped elements with channels for air passage, while solid cone-shaped elements and elements from the channel the lamas are arranged in a checkerboard pattern, characterized in that the high voltage source is made in the form of an electric pulse piezoelectric generator, consisting of "n" modules, each of which represents a linkless coupled structure with a single eccentric and counter-connected elements of the ferro-piezoelectric assemblies, assembled in a metal case and installed on conductive supports with a negative output connected to the axis of the eight-blade impeller electrode, and a positive one - with an electrically conductive disk, When this conductive disc and an impeller mounted in the housing with the possibility of adjusting the clearance therebetween.

The disadvantage of the described device in the difficulty of adjustment,

instability of the parameters and difficulties in eliminating the cracking of the elements of the piezoelectric generator during their replacement and debugging. These imperfections are overcome in the declare decision.

The objective of the utility model is to simplify the design and reduce energy costs.

The problem is solved by the fact that, according to the formula, the high-voltage source is made in the form of an electric pulse piezoelectric generator, consisting of "p" modules (from two), each of which is a paired design with a single eccentric and counter-connected elements of the ferro-piezoelectric assemblies, assembled in a metal case and mounted on conductive supports, connected in a negative output to the axis of the impeller electrode, and in a positive way, to an electrically conductive disk, wherein the electrically conductive disk an impeller mounted in the housing with the possibility of adjusting the clearance therebetween, and a conductive electrode - the impeller is made "n" - vane (two).

The proposed solution contains “biscuit” cylindrical blocks of generator modules, easily dismantled, having a single axis and eccentrics worn on it, acting on generator modules, adjustable and controlled in the workshop, and not in the working area of the air pipe.

Thus, the piezoelectric voltage source is a piezoelectric generator, rotating type with a dynamic compression cam drive, made in the form of ferroactive piezoelectric generator modules located perpendicular to the axis of the disk between sectors formed by radii, each module having two positive connected ferroelectric piezoelectric elements connected in series charges from which are transferred to the housing of the generator modules, and negative to comm high-voltage conductors, with one of the modules

connected to a neon pulse generation indicator.

Comparative analysis with the prototype shows that in the claimed and known solutions, the presence of the following similar features is noted:

1. Asepticization of air is carried out in the duct autonomously and safely, without external power sources.

2. The power source of the device is a high voltage piezoelectric generator.

3. Piezoelectric assemblies are ferroelectric piezoelectric elements placed in the opposite direction (+, -), (-, +).

4. The device is quite compact, small-sized and can be used in any, even the smallest medical devices requiring ionized air. The difference between the claimed device from the known are:

1. Constructive design of a rotary-type piezoelectric generator with a cam drive, having "p" biscuit (from two), cylindrical, easily replaceable generator blocks, with a single axis and working eccentrics in each block providing high accuracy of dynamic compression and adjustment of counter-included groups of working ferroactive piezoelectric elements of the ferro-piezoelectric generator modules with autonomy of the latter and absolute electrical safety of the device during operation.

2. The presence in the intermodular sections of the piezoelectric generator of additional blocks of ferro-piezoelectric generator modules with electrical switching and mechanical adjustments ensures the formation of high-voltage pulses of positive or negative polarity, a certain amplitude and duration.

3. Improving the layout and technological assembly of the device.

Thus, the technical solution for the use of "biscuit", and therefore consumed less electrical power

a piezoelectric generator of a modular design, which creates on an expandable (tuned) unlike electrodes - a grating and an impeller, an electric discharge plasma, without any external high-voltage connections, and generating its own high potential, for example 20 kV, makes it possible to obtain a factor of effective electrical breakdown, flow electric charges and the formation in the plasma zone of an unstable oxygen compound Oz and mixing it with the air stream in the forced ventilation channel in which the entire proposed device and provides high aseptirovanie airflow.

The essence of the utility model is illustrated by drawings, where in Fig.1 shows a General view of the device - section with a working module; figure 2 a) and b) section aa and bb; figure 2 c) the cross section of the electrode 3, with a choice of R; figure 3 selected zone of the working cam and the piezoelectric module (in the context) with the working counterclockwise "+", "-", "-", "+" piezoelectric elements; figure 4 is given the working "p" sectional (from two) modular piezoelectric cam type generator; figure 5 "p" sections (from two) of modular piezoelectric generators worn on a working "eccentric" axis.

The device comprises a metal working module, in the cylindrical body 1 of which high-voltage bipolar electrodes 2 and 3 are placed. The electrode 2 is made in the form of a “p” impeller (of two) impellers made of a conductive material that can be rotated, and the electrode 3 in the form of a disk made with the movement of the housing 1 and provided with conical hollow elements 4 and points 5 with channels for the passage of air and the peaks facing the impeller. The cone-shaped elements 4 and 5 are mounted on the electrode 3 with alternating in a checkerboard pattern with a pitch between them from 0.65 to 0.7 of the height of these elements. Block - housing 6 of the high-voltage piezoelectric generator mounted on racks-supports

7, screws 25 in the slots 28 *. Insulating sleeves 8, insulating racks 9 and 10 are fixed in the housing in the center of rotation. The electrode 3 is fixed to the housing 1 with screws 24 in the slots 27 *, and connected to a positive 20 kV output of the power supply 28, i.e. with “+” or “-” potentials of the ferro-piezoelectric generator modules, outlet 11 from the central electrode of the ferro-piezoelectric generator module, isolation cylinder 12 (capon, fluoroplastic), cam 13 (St.51), central axis 14, “p” of the ferro-piezoelectric generator modules, each of which consists of: a metal casing 15 with an insulating cylinder 12, ferroelectric piezoelectric elements 16 of a cylindrical shape with waxed silver electrodes at the ends, solid state inserts 17, control screws 18 with a counter ykami, supporting working steel balls 19, annealed copper gaskets 20 with a central electrode 21 of a ferroelectric piezoelectric generator module - annealed copper insert with a tap; solid open inserts 22 (St.51) with a spherical groove on one side under the stop of a steel ball, steel workers with a central cam of balls 23, a central supporting separator assembly 29 of ferroactive piezoelectric generator modules protruding from the metal bodies of the balls. The following elements are inserted into the housing 15 in the following sequence: insulating cylinder 12, steel balls 23, solid-state inserts 22, annealed copper gaskets 20, ferroelectric piezoelectric elements 16, oppositely connected (i.e. + -, - +), with a central electrode 21 of annealed copper 20 with a bend 11, a gasket of annealed copper 20, a solid insert 17 and a control screw 18c with a lock nut; all elements must be located in the insulating cylinder 12; assembled in this way the working nodes of the ferroelectric piezoelectric generator modules are inserted into the housing 15 and abut the balls 23, while all the balls are placed in the separator assembly 29, in the housing 15 cylinders with

the assembled elements 22, 20, 16, 20 and 17 are on one side rested against the ball and, on the other, are tightened by the screw 18.

The ferro-piezoelectric piezoelectric generator module is mechanically controlled so that when the cam tabs are rotated around the axis 13 by pressing the cam tabs 23, the ferroelectric piezoelectric elements 16 are deformed, and two polar pulses are generated at the potential terminals 27 “-” and 28 “+”. Thus, the assembled device has the form of a composite “biscuit” piezoelectric pulsed high-voltage generator.

The device operates as follows: under the influence of the air flow moved through the air pipe, a “v” impeller 2 of a conductive material is fixed, mounted on an axis 14, rotating the latter, and a cam 13, rotating on an axis 14 inside the separator assembly 29, with openings with steel balls protruding from them 23, transmits the pressure of the protrusions of the cam 13 to the assembled ferroelectric piezoelectric generator modules, the latter experiencing pulsed compression, the duration of which is and the arrival time of the lobe, and the group segnetoaktivnyh deformed piezoelectric elements 16 generate at its electrodes electrically charges - positive for generating the module housing 15 and through the negative switching elements. In this device, the ferroelectric piezoelectric elements are switched “+ -”, “- +” in the opposite direction, the negative potential is output to the electrode 27, and the positive potential on the module case 15, however, the placement of the ferroelectric piezoelectric elements in the opposite order “- +”, “+ -” form on the case 15 is a negative potential, and on the electrode 27 is a positive one.

When the device, and therefore the piezoelectric generator is operating, the pulse potential of one of the ferroelectric piezoelectric generator modules during parallel operation

makes the neon indicator 31 of the device work.

An advantage of the utility model is that the high-voltage source is a rotating type ferro-piezoelectric generator with a cam drive of dynamic compression consisting of “biscuit” cylindrical blocks of generator modules, easily dismantled having a single axis and worn on it by eccentrics acting on the generator modules, creating expandable (adjustable) opposite electrodes: lattice and impeller, plasma of electric discharge, which makes it possible to obtain a factor effect This will result in electric breakdown, the flow of electric charges, and the formation of an unstable oxygen compound Oz in the plasma zone, mixing it with the air flow in the forced ventilation channel, which ensures highly efficient asepticization of the air flow.

Claims (3)

1. A device for asepticizing air, comprising a cylindrical body equipped with two high-voltage bipolar electrodes, one of which is made in the form of an impeller coaxially mounted in the housing for rotation, and the other in the form of a conductive disk connected to the positive output of the high voltage source, the side the disk facing the impeller is equipped with truncated cone-shaped elements with channels for air passage, while solid cone-shaped elements and elements with a channel lamellas are arranged in a checkerboard pattern, and the piezoelectric high voltage source is an electropulse piezoelectric rotary type generator with a cam drive, made in the form of electropulse ferroelectric piezoelectric generator modules, each of which is a paired design with a single eccentric and counter-connected elements of the ferro-piezoelectric assemblies located parallel to the axis assembled in a metal casing and mounted on conductive supports, negative in connected with the axis of the impeller electrode, and positively with the electrically conductive disk, while the electrically conductive disk and the impeller are installed in the housing with the possibility of adjusting the gap between them, characterized in that the high-voltage piezoelectric source contains piezoelectric generator modules and cam type cam eccentrics located autonomous (removable) cylindrical blocks combined into a single high-voltage pulse block containing "p" (from two) biscuit autonomous (removable) cyl ndricheskih blocks arranged perpendicular "eccentric" axis. 2. The device for air aseptic according to claim 1, characterized in that the impeller electrode is made of "p" blade (from two). 3. The device for aseptic air according to claim 1, characterized in that the piezoelectric elements in the piezoelectric modules are made of ferro-piezoelectric ceramic systems: TsTS-ST 3, PKL, PKR-78.