RU2053793C1 - Steam generator - Google Patents

Abstract

FIELD: medicinal equipment. SUBSTANCE: equipment consists of axisymmetric chambers for water and steam installed in corpus. The source of alternating current is joined to corpus and chambers. Equipment is supplied with control system. EFFECT: improved construction of generator. 3 cl, 2 dwg

Description

 The invention relates to the technique of pharmacy, namely to electric steam generators designed to ensure sterilization of medical devices and drug solutions, and can be used in stationary and field pharmacies, pharmaceutical laboratories, as well as for humidification of air conditioning systems of automobile, air and water transport.

 A device for rapid vaporization is known as a steam generator, consisting of a pressure vessel, into which a conduit with a water injection nozzle is mounted, and heating bosses (autosw. N 17258). Water is supplied to the steam generator through a water inlet with a nozzle. The flow rate is regulated by a water supply valve and controlled by a rotameter. Heating and turning water into steam takes place on red-hot lobes that are heated with open flame kerosene heaters. The disadvantages of this device are: a heating device for rapid vaporization is fire hazardous, inconvenient in operation and has a large mass.

 The closest in technical essence to the proposed one is an electric steam generator for producing steam, which consists of a pressure vessel, an electric water heater, protective fittings and a steam superheater [1] In the vessel, the water is heated by an electric heater and turns into steam, which overheats in an electric superheater, and then fed to a metering device equipped with control devices. The disadvantages of the known steam generator are explosiveness, the high cost of protective fittings, the significant mass of the pressure vessel, as well as the inability to accurately dispense the mass amount of steam into the system.

 The closest in technical essence to the proposed one is a high-speed steam generator [2] The known device, like the proposed steam generator, is designed to generate steam, the principle of operation is based on obtaining saturated steam when heating water from heat and further superheating with subsequent steam supply to the consumer. The device, namely the steam generator, is presented in the form of two axisymmetric chambers located in the body of the water supply with an inlet pipe: an annular for water with bypass channels and an annular for steam in communication with the outlet pipe, as well as a source of thermal energy. The features listed above are common, similar to these technical solutions.

 The disadvantages of the known steam generator are low operational reliability, insufficient fire and electrical safety.

 The aim of the invention is to increase operational reliability by improving starting properties, cleaning steam from water and operating conditions by reducing the time to heat water, mass, cost, as well as increasing its fire and electrical safety.

 This is achieved by the fact that the steam generator comprises a housing with a bottom and a cover located in the water supply housing with an inlet pipe, two axisymmetric chambers, a chamber for partial filling with water with bypass channels and a steam chamber in communication with the outlet pipe fitting, as well as a source of thermal energy , and differs from the prototype in that it is equipped with a control system, while the energy source is made electric and connected via current leads to the housing, a water chamber and a water conduit, made in the form of tubular electro s, and the lid and bottom of the body are made in the form of end washers made of insulating material, and the water inlet is placed coaxially in the water chamber and communicated with the latter through a nozzle mounted in a socket made at one end of the water supply, the other end of which is fastened to the inlet pipe and the housing cover by means of corresponding threaded connections, while the base of the water chamber is provided with a screw for fastening to the bottom of the housing, and the bypass channel is formed by a series of through radial holes made in the side on the wall of the water chamber from the side of the lid, and an annular gap formed by an additionally inserted protective cover placed concentrically between the said chamber and the housing, while additionally introduced starter pack and dehumidifier are placed between the water inlet and the side wall of the water chamber, each of which is made in in the form of two corresponding washers of insulating material with through axial holes and an intermediate strip made of felt. In addition, the steam generator is equipped with two replaceable bushes installed concentrically to the water inlet, one of which is placed on the side of the housing cover, and the other between the water separator and the launch package, while the bottom of the water chamber, the protective casing, the outlet pipe, and the current lead are connected respectively to the side wall of the chamber for water and the side wall of the housing by means of a welded joint, while the current lead of the body and the current lead of the water lead are connected to the neutral ground wire, and the current lead of the water chamber to the phase wire, the nozzle is fixed in the water inlet socket by means of a threaded connection, and the water inlet inlet is connected to an additionally introduced dyurite hose. In this case, the steam generator comprises a control system including a control panel connected to an energy source, connected by electric wires to the housing, the side surface of the water chamber and the water supply, a steam meter with a safety valve and instrumentation made in the form of a manometer and a vacuum gauge connected respectively to steam supply lines and to the output of the outlet pipe, while the inlet pipe is connected to the water supply network through a safety valve, two shut-off valves elements, an intermediate electric pump with a drive and a filter, and to the drain line by means of a similar locking element, while each of the locking elements is connected to a compressed air source through a corresponding pneumatic distributor.

 The proposed steam generator differs from the known one in that its casing is made cylindrical with two end washers of insulating material, a water inlet in the form of a cylindrical tube or tubular electrode connected to the inlet in the upper section and attached to one of the washers by means of an internal and external threaded connection at its outer end, while at the opposite end of the tube there is a seat for a nozzle fixed by means of a threaded connection and connected to the water chamber, the base of which is provided with a fixing pin for fastening with the second washer of the housing, the bypass channel is made in the form of two rings pairwise arranged with a gap relative to each other with a number of axial through holes, and an intermediate package strip made of felt, and through radial holes made in the side wall of the chamber for water, while the pairwise rings are fixed to the conduit by means of an end nut and cylindrical bushings, and the side surface of the chamber for steam and output the fitting is attached to the housing, made in the form of an electrode, by means of a welded connection, and between the housing and the water inlet with bushings and intermediate gaskets-packages there is a central electrode made in the form of an inner wall of the steam chamber, a bottom with a screw is welded to the bottom end for fixing the central electrode to the washer.

 In order to simplify the operation of the steam generator by improving the fastening conditions of the parts and adjusting the strength of the passing electric current to the water supply electrode, replaceable bushings are installed and the first current lead is connected to connect the neutral ground wire, the second similar current lead is soldered to the electrode body, and the phase wire is attached to the third current lead connected with a central tubular electrode of the chamber for steam, and to ensure constant gaps between the electrodes and their isolation from each other in the absence of water two washer insulators were introduced into the steam generator, while in the operating mode, the space between the water supply electrode and the central electrode of the steam chamber is filled with working fluid (water), and the space between the casing screen and the central electrode is filled with steam, which together comprise an internal electric current circuit . Thus, the inventive steam generator meets the criteria of the invention of "Novelty."

 In order to increase operational reliability by improving starting properties and purifying steam from water, intermediate gaskets-packages and moisture separators are installed between the central electrode and the water supply electrode, and in order to increase the degree of steam overheating by reducing the resistance of the vapor cavity and increasing the passage time of the steam, a steam shield is welded to the casing of the steam generator. Moreover, in order to improve the starting properties by automatically controlling the water supply and steam removal to the consumer, a control system is additionally introduced into the steam generator, which contains a control panel, shut-off valves with pneumatic actuators, pneumatic distributors connected to a source of compressed air, and an electric circuit connected via a push-button switch control panel to a current source, and a steam dispenser equipped with control devices. This allows us to conclude that the inventive steam generator meets the criteria of the invention "significant differences".

 The materiality of the features of the claimed invention is given in the claims. The claimed technical result consists in increasing operational reliability by improving starting properties, cleaning steam from water and operating conditions by reducing the time to heat water, mass, cost, as well as increasing its fire and electrical safety. Therefore, the signs regarding the connection of the bottom of the water chamber with its side surface, the outlet pipe with the side surface of the housing and the protective casing with the housing by means of a welded joint can be considered insignificant features and it is advisable to reflect them in additional claims. This also applies to the feature-fastening of the nozzle in the water intake socket by means of a threaded connection. This is done on the basis of improving the conditions for fastening parts, as well as insofar as the scope of legal protection of a patent is determined by an independent claim. The third paragraph of the formula is also dependent and contains developmental features that make it possible to unambiguously judge by what means the starting properties are improved by automatically controlling the water supply and steam removal to the consumer.

 Figure 1 shows a schematic functional diagram of a steam generator; figure 2 is the same (vertical section).

 The steam generator consists of a housing 1, an inlet pipe 2 with a dyurite hose, a water inlet 3 with a nozzle 4, an output nozzle 5 and contains a control panel 6, shut-off (safety) valves 7 with pneumatic actuators, pneumatic valves 8 connected to a source of compressed air 9, electrical circuit 10, connected through a push-button switch of the control panel 6 to a source 11 of alternating current voltage 220 V, 50 Hz, a dispenser 12 pair, equipped with devices 13 control-manometer and manovacuum meter. The steam generator contains a screen shroud 14 welded to the housing 1 and an outlet fitting 5, the water inlet 3 is made in the form of a tubular electrode, on the upper section of which there is a crown 15 and a threaded connection for attaching it to the washer 16, and on the lower section of the water supply-electrode 3 there is a socket and a threaded connection for accommodating the nozzle 4, which is fixed with a nut 17, between the housing 1, also made in the form of an electrode, and a water supply electrode 3 with bushings 18 and starter packs 19, a central tubular electrode 20 is placed, to the lower end of which the arena bottom 21 with a screw 22 for fastening it to the washer 23, the space between the duct electrode 3 and the central electrode 20 is filled with water 24, the space between the casing screen 14 and the central electrode 20 is filled with steam 25, which together constitute the internal circuit of the electric current, at the same time, moisture separators 26 and starter packs 19, consisting of washers with holes made of insulating material, are fixed between the central electrode 20 and the water supply electrode 3, and a felt 27 is laid between the washers. replaceable sleeves 18 are connected and the first current lead 28 is connected for connecting the neutral ground wire, the second similar current lead 29 is soldered to the electrode body 1, and the phase wire is attached to the third current lead 30 connected to the central electrode 20 of the steam generator, while ensuring constant gaps between the electrodes and their isolation from each other during the period of lack of water, two washer insulators 16, 23 were introduced into the device, and all parts were fixed to the electrode body 1 by bolts and metal washers 31. Steam dispenser 12 soy dinene with a safety valve 32 for quick discharge of steam, a pressure gauge 13 and a manovacuum meter 13, used to control the pressure in the steam supply line 33, while the inlet pipe 2 is connected via a first shut-off valve 7-1 to the pneumatic actuator connected to the first valve 8-1, and connected to the sewage network 34, and through a check valve 35 and a second shutoff valve 7-2, connected to a source of compressed air 9 through a second air distributor 8-2, connected to an electric pump 36 connected to an electric motor 37, and the electric pump 36 for the steam generator water is connected through a third shut-off valve 7-3 with a pneumatic actuator connected to the third air distributor 8-3, and a purification filter 38 to the water supply network 39.

 The steam generator operates as follows. When the steam generator is turned on under voltage, an electric current is supplied to the central electrode 20 and the water supply electrode 3, as well as to the housing electrode 1, but the circuit is open before water enters the steam generator. After the water supply from the supply system 39 through the dyurite hose of the inlet pipe 2, the water supply electrode 3 and the nozzle 4, the space between the electrodes 3, 20 is filled with water-working fluid and the power circuit is closed. Water that fills the chamber for water constitutes the internal part of the electric current circuit, which is directly proportional to the degree of filling of the interelectrode space with water and the size of the gap between the electrodes. As a result, intense heating of the water begins. Having reached the launch package 19, the water boils. Saturated (wet) steam reaches the moisture separators 26 and moisturizes them, making them conductive, as a result of which the droplet water evaporates. Steam 25 through the holes in the central tubular electrode 20 enters the screen-casing 14 and overheats, after which steam 25 through the outlet nipple 5 enters the sterilization of medical devices and drug solutions in the steam sterilizer. To increase the degree of overheating of the steam 25, the shield-casing 14 welded to the electrode body 1 reduces the resistance of the vapor cavity and increases the passage time of the steam 25. At the top, moisture separators 26 are installed at the top of the water duct-electrode 3 and the central electrode 20, similar in design to the launch packages 19, which drain steam 25. Starter bags 19 and dehumidifiers 26 before starting work are attached with replaceable bushings of various thicknesses. The latter simultaneously perform the functions of a current regulator (time of vaporization).

 Feasibility study of the proposed steam generator.

 The use of water 24 (working fluid) as a heater, which boils inside tubular electrodes 3, 20 with starter packs 19 of insulating washers and felt, makes it possible to reduce the mass of the steam generator 16-18 times and also change its productivity depending on the amount of water supplied 24 in the range from 0.5 to 30 kg / h.

 The use of electrode elements 1, 3, 20 made it possible to increase fire safety in comparison with the prototype, since the proposed steam generator has a slight accumulation of potential energy, while its explosion hazard is also reduced. The use of the screen-casing 14 in the steam generator allowed to overheat the steam 25 in the desired range without using an additional superheater. Moreover, the time for heating and cooling of the proposed device is several times less than the known one.

 Thus, the proposed steam generator is quick-acting, has small overall dimensions, fire and electrical safety, can be controlled remotely and placed in the immediate vicinity of the support-sterilizer (or system humidifier).

Claims (3)

 1. A STEAM GENERATOR, comprising a housing with a bottom and a cover, a water inlet housing with an inlet pipe, two axisymmetric chambers: a chamber for partial filling with water with bypass channels and a steam chamber in communication with the outlet pipe fitting, as well as a heat source that differs the fact that it is equipped with a control system, while the energy source is made electric and connected via current leads to the housing, a chamber for partial filling with water and a water inlet made in the form of tubular electrodes, the lid and the bottom of the body are made in the form of end washers made of insulating material, and the water inlet is placed coaxially in the chamber for partial filling with water and communicated with the latter through a nozzle mounted in a socket made at one end of the water supply, the other end of which is fastened to the inlet pipe and the cover the housing by means of corresponding threaded connections, while the base of the chamber for partial filling with water is provided with a screw for fastening to the bottom of the housing, and the bypass channel is formed by a series of through p dial holes made in the side wall of the chamber for partial filling with water from the side of the lid, and an annular gap formed by an additionally inserted protective cover placed concentrically between the said chamber and the housing, while additionally introduced launcher is placed between the water inlet and the side wall of the chamber for partial filling with water a bag and a water separator, each of which is made in the form of two corresponding washers of insulating material with through axial holes and an intermediate frets made of felt.  2. The steam generator according to claim 1, characterized in that it is equipped with two replaceable sleeves mounted concentrically to the water inlet, one of which is placed on the side of the housing cover, and the other between the dehumidifier and the launch package, while the bottom of the chamber for partial filling with water is protective the casing, the outlet pipe, the current lead are connected respectively to the side wall of the chamber for partial filling with water and the side wall of the housing by means of a welded connection, the current lead of the housing and the current lead of the water supply connected to the zero wire dy ground, and current lead chamber to partially fill with water - to the phase conductor, said nozzle being secured in the socket by a threaded connection vodovvoda and vodovvoda inlet connected to the further inputted rubber-canvas hose.  3. The steam generator according to claim 1, characterized in that the control system comprises a control panel connected to an energy source, a steam meter with a safety valve and instrumentation, made in the form of a manometer and a vacuum gauge connected respectively to the steam supply line and to the output the outlet pipe, while the inlet pipe is connected to the water supply network via a safety valve, two shut-off elements, an intermediate electric pump with a drive and a filter, and to the drain line - a similar shut-off element, wherein each of the shut-off elements is connected to a source of compressed air through a corresponding pneumatic distributor.

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