DD241941A1 - SMALL STEEL PRODUCERS FOR INDUSTRY AND HOUSEHOLD - Google Patents

Abstract

The invention relates to a small steam generator for Buegelarbeitsplaetze in industry and household. Goal: Easily transportable steam generator with low space, material and energy consumption. Task: To work for short-term operational readiness of a small steam generator with a minimum amount of water and to develop a minimized overall construction. According to the invention, the object is achieved by constructing essential functional elements of the small steam generator, such as level regulation, securing the electric heater by means of a dry-running protection and an optimum combination of valves against overpressure and underpressure. Fig. 5

Description

For this 4 pages drawings

Field of application of the invention

The invention relates to a producer of steam .in small format, suitable for steaming and ironing textlien garments in industrial and domestic use.

Characteristic of the known technical solutions

Steam-generating boilers are known for supplying individual workplaces with steam. Since special ironing workplaces must also be set up outside large production facilities, small steam generators that are easy to transport are necessary.

From DE 2832757 an electrical Meßanordnfung for a device for pressure, temperature and level control for boiler is known, which combines the required characteristic sensor in a metal tube in a special probe design.

The measurement of the characteristic value via the liquid level is capacitive and the measurement of temperature or pressure via the size of a temperature-dependent resistor. These characteristics become effective via liquid supply and heater actuation signals.

With the capacitive measuring method ei η increased electronically he effort for the evaluation logic is connected, which makes maintenance possible only by specially trained personnel. This technical solution is lacking in practical use at a level adjustment from the outside with immediate reading.

In practice, steam generators are known which have a safety valve and a check valve above the steam space. In this case, the check valve is connected so that the steam outlet is blocked to the outside and that during cooling, so outside of normal operation, by the resulting negative pressure in the boiler air can be sucked from the outside. In the case of maintenance, two valves must always be checked here.

From DE 1916631 a check valve at the free end of the steam line and an air inlet valve in a branch line of the cold water supply line are known. Both valves have the function of a check valve against overpressure and underpressure in the boiler. The disadvantage is the increased mechanical and space expense for these two installed fittings.

The small steam generators known from the other patents, such as DE 3401155 and DD 33112, provide for feeding the kettles with cold water. The occurring reduction of the vapor pressure and the temperature reduce the quality of the steam when ironing.

Furthermore, all the electrodes and probes mentioned are immersed in the boiling water inside the boiler and often give off false signals because of the formation of bubbles. There are z. For example, they often make mistakes about the actual water level

The hitherto known small steam generator is particularly prone to failure in the field of level control and in the event of an accident in switching off the heater in case of overheating.

Object of the invention

The aim of the invention is to develop an easily transportable small steam generator with little space, material and energy expenditure, which is characterized by constant operability and lack of susceptibility.

Explanation of the essence of the invention

The invention has for its object to work for a short-term operational readiness of a small steam generator with a minimum amount of water and to develop a minimized overall design.

According to the invention the object is achieved in that for the use of a minimum amount of water and minimizing the total mechanical effort essential functional elements such as level control, securing the electric heater were designed by a dry protection and optimal valve combination against pressure and vacuum. The latter is made up as follows: The opening force of the safety valve is adjusted via an adjusting nut and secured in the valve body by means of a threaded pin. A valve disk rests against a collar inside the housing and is pressed against the collar by a compression spring with a precisely defined force. The compression spring and this valve disk are the movable parts of the safety valve. The spring force of the compression spring is adjusted so that when a defined pressure value is exceeded in the boiler lifts the valve disk and consequently steam is released. A second valve plate and a compression spring are the movable parts of the check valve. The compression spring is supported by a retaining ring, which is firmly embedded in the housing. The vapor pressure pushes the lower against the upper valve plate and thus blocks the steam outlet. The pressure spring of the safety valve ensures a safe closing against the escape of steam during pressure build-up.

To ensure a short warm-up time, the electric heater is designed with a relatively high electrical surface load. In order to prevent the burning of the heating coils during dry running, the principle of a soldering point has been used to interrupt a circuit. At the end of the heating rod is a copper band clamp. At the upward end of the copper band clamp is soldered with solder a tension spring. The other side of the tension spring is suspended under tension in a bore of a rod parallel to the heating rod. The conductor rod is connected to the heating rod opposite ground under electrical voltage. When the circuit is closed, the heating works. If the heater is no longer lapped by the water below the minimum water level, the temperature of the heating rod rises abruptly. Within a few seconds, the soft soldering point melts and with the help of the tension spring, the circuit is interrupted and the heating is switched off. In the course of continuous operation may be expected to fatigue of the tension spring, so a special adjusting device has been developed. This consists of a Isolierdichtbuchse, which leads the rod laterally through the boiler. The cable rod is secured outside of the boiler via disc springs by a nut. The cone-shaped insulating bushing is seated in a likewise conically shaped bore of the closure lid. By tightening the nut once the plate springs are stretched and pressed on the other both conical surfaces to each other, which simultaneously occurs a deformation of the Isolierdichtbuchse and thus the line rod is fixed in position and sealed against vapor pressure. At the same time the insulating bushing isolates the cable rod against contact voltage to the boiler. The disc springs ensure a uniform contact pressure during thermal stress and the associated deformations. In the maintenance cycle, the tension of the tension spring is readjusted by adjusting the cable rod. The dry running protection according to the invention can be easily and quickly maintained by the mobility of the line rod. Its effectiveness is in the immediate context not only with the heater, but also with the level control according to the invention. To ensure a short warm-up time with the required steam quality, the smallest possible amount of water is provided with a large water surface design and a relatively high electrical heating power. However, a small amount of water inevitably means accurate level control. According to the invention, two vertically movable electrodes are used to maintain a maximum or a minimum water level, which protrude into the boiler with a defined height difference. It has proven to be beneficial to keep the distance between minimum and maximum level electrodes greater than at low pressure for high pressure steam production.

The live electrodes are each stored in elastic Isolierdichtbuchsen. Each Isolierdichtbuchse is guided in a gland, which is screwed with a sealing ring at the top of the boiler. A cone nut presses when screwing into the fitting an elastic Isolierdichtbuchse apart on all sides, thus fixing the position of the electrode and seals the vapor pressure to the outside. The inner cone of the cone nut thus deforms the Isolierdichtbuchse and on the respective electrode a special contact pressure is exerted. The lower collar of the screw connection and the collar of the Isolierdichtbuchse compressed in the central region of the insulating bush and it comes to the sealing and fixing of the electrodes. For optimum efficiency of the vertically movable electrodes, a splash guard is screwed in at the bottom of the boiler for each electrode. The splash guard consists of a thin-walled tube, the lower part expires in a threaded pin. At the lower end of the pipe there are radial bores which guarantee the water inlet and outlet according to the specified level. Within the spray water protection a zone of relatively calm water is thus created. A first calming of the pumped into the boiler water strut already in the preheat chamber according to the invention below the boiler bottom, in which the water is preheated. In addition, the steam quality is kept substantially constant by the wake of the preheated water, while the inevitably occurring drop in the vapor pressure is minimized so much that it does not affect. The preheat chamber below the uninsulated bottom of the boiler absorbs the heat given off by the boiling water to the walls. This improves the energy efficiency of the small steam generator.

embodiment

The invention will be explained in more detail below with reference to an exemplary embodiment. In the drawing:

Fig. 1: The combined safety check valve

Fig. 2: The circuit diagram of the valves

Fig. 3: A longitudinal section through the boiler with an adjustable electrode and splash guard Fig. 4: A cross section through the boiler with dry protection

Fig. 5: The compilation

On the boiler 13 of a small steam generator is a combined safety check valve 19. The safety valve 12 consists of an adjusting nut 1, a threaded pin 2, a compression spring 3 and the valve disc 5, which are housed in the valve housing 4. In the same valve housing 4, there is also the check valve 11, which consists of the valve plate 6, a compression spring 7 and a locking ring 8. The steam passes through the steam inlet 9 in the valve.

The steam is removed from the small steam generator via the valve 10.

In the closure lid 33 of the boiler 13, the heating rod 14 is attached, the seal is secured by the nuts 41 and the seals 42. At the opposite end of the heating rod 14, a copper band clip 40 is attached, which is connected via the Weichlötstelle 39 'with a tension spring 38 which is held in a bore 37 of a line rod 36.

This line rod 36 is guided in the wall of the boiler 13 by a Isolierdichtbuchse 34, which is held by Belleville springs 18 and a nut 35 adjustable. The disc springs 18 ensure a uniform contact pressure of Isolierdichtbuchse 34, especially with temperature fluctuations. In the upper part of the boiler 13 there are two height-variable electrodes 24, which are guided in Isolierdichtbuchsen 23. The Isolierdichtbuchsen 23 form with the screw 21 and the cone nut 20 a passage. This implementation is screwed with a sealing ring 22 fixed to the boiler 13. The electrodes 24 protrude in the lower part of the boiler 13 each in a splash water protection. The devices consisting of thin-walled pipes for splash water protection are screwed into the bottom of the boiler. Ensuring the water level in the splash guard 25 is carried out through the holes 26th

Below the non-insulated boiler bottom is the preheat chamber 27, which occupies a maximum of one quarter of the boiler level. The boiler 13 is closed at the bottom by a seal 28, a closure lid 29 with the screws 30.

The mode of action of the small steam generator is the following:

As shown in Fig. 5 can be seen, the softened tap water from the tank 16 passes via the pump 15 and the check valve 17 27 in the preheating chamber, the water warms up thereon about 100 ⁰ C, and then further flows through a duct in the boiler 13 The boiler level is regulated by the electrodes 24 between minimum and maximum, whereby the voltage applied to the electrodes is conducted to the water surface. The height difference between the electrodes 24 is kept low, as is task-oriented to work with little water in the small steam generator. For the production of steam at higher pressures, eg 0.6 MPa, a larger height difference of the electrodes has proven to be practical. The height adjustment of each of the electrodes via the cone nut 20 in the screw 21. Since the accuracy of the control by the electrodes 24 makes a smooth water surface required, the spray water protection 25 according to the invention was in each case provided in the lower part with radial holes 26, so that at high Temperature bubbling water calms the electrode around it. The temperature and thus the steam pressure level in the boiler 13 are controlled by a potentiometer, which is known and therefore not further explained.

The heating of the water via the heating rod 14. If it comes to unpredictable disturbances in the level control and the heater rod 14 overheated by exposure, melts the solder joint 39 and, due to the tension of the tension spring 38, the heating circuit is interrupted. A quick repair of the heater is then possible upon removal of the closure lid 33. Since a constant tension of the tension spring 38 must be ensured, there may be in possibly.

Fatigue in continuous operation the ability to adjust by adjusting the line bar 36, the voltage.

The steam passes through the steam valve 10 to the ironing workplace. The combined safety check valve 19 ensures high reliability, which are indispensable for steam pressures of about 0.6 MPa when used in industry and household.

The valve combination according to the invention operates as follows:

The vapor pressure builds up in the boiler 13, but the outlet is blocked by the valve disk 6. If the vapor pressure exceeds the maximum value, then the valve disk 5 lifts against the defined spring force of the compression spring 3 and the overpressure is released.

With the lifting of the valve disk 5, the valve disk 6 forcibly moves synchronously.

The valve disk 5 closes again when the upper vapor pressure limit is reached. After switching off the heater 14 in the boiler 13 begins the cooling, which causes a negative pressure. This negative pressure causes the lifting of the valve disk 6 and it is sucked outside air into the boiler 13. Thus, the water level in the boiler 13 is maintained.

Claims (7)

Invention claim: 1. Small steam generators for industry and household, equipped with safety and non-return valve, with dry run protection for electric heating and level control, characterized in that a combined safety and non-return valve (19) is located on a steam line (9), that a boiler (13 ) via an electrical resistance heater (14) is heated, which has a Weichlötstelle (39) and a tension spring (38) and that for controlling the water level two in Isolierdichtbuchsen (23) fixed electrodes (24), which at the bottom of each vessel in a splash water protection (25) dive, are present, also located below the boiler bottom, connected by a channel, a preheat chamber (27). 2. Small steam generator according to item 1, characterized in that the combined safety and check valve (19) consists of an adjusting nut (1), a threaded pin (2), a compression spring (3) and a valve disc (5), a further valve disc (6 ), a further compression spring (7) and a retaining ring (8) in the valve housing (4). 3. Small steam generator according to item 1, characterized in that the electrical resistance heater (14) with the Weichlötstelle (39) and the tension spring (38) has a dry protection, which is arranged via a conduit rod (36) adjustable. 4. Small steam generator according to item 3, characterized in that the line rod (36) through the closure lid (33) by a Isolierdichtbuchse (34) and isolated and fixed by disc springs (18) and a nut (35). 5. Small steam generator according to item 1, characterized in that for height adjustment and sealing of the electrodes (24) in the upper part of the boiler a passage consisting of a Isolierdichtbuchse (23), a screw (21) and a cone nut (20) is used , 6. small steam generator according to item!, Characterized in that the electrodes (24) protrude into thin-walled tubes (25) which have in their lower part radial bores (26) and are bolted even in the boiler bottom. 7. Small steam generator Punkti, characterized in that the preheating chamber located below the Keselboden does not occupy more than one quarter of the boiler level.