DE3225622A1 - AUTOMATIC HUMIDIFIER - Google Patents

Description

HOFFMANN · EITLE & PARTNER

PATENT LAWYERS OR. ING. E. HOFFMANN (1930-1976) · DI PU-I NG. W. EIT LE ■ D R. R ER. NAT. K. HO FFMAN N · Dl PL.-1 N G. W. LEHN

DIPL.-ING. K.FDCHSLE DR. RER. NAT. B. HANSEN ARABELLA STREET 4. D-8000 MD NCHEN 81 ■ TE LEFON (089) 911087 TE IEX 05-29619 (PATHE)

Magyar Vagon-es Gepgyar, Györ / Hungary

Automatic humidifier

The invention relates to an automatic air humidifier for continuously ensuring the moisture content in indoor and other rooms at the desired value.
5

The object of the invention is a directly heated, energy-saving air humidifier that works with the highest precision, which has a continuously regulating automatic and the desired and the actual relative Comparing moisture content works.

In view of the fact that there is a requirement in certain industrial operations, the moisture content to maintain in the airspace of the workplace at a level that allows the proper implementation of the technological Manipulations ensures or for the advantageous operation of the machine present in the air space or system is essential, humidifiers are used in certain cases.

To achieve what is required in the aforementioned fields Moisture content by artificial means are known devices that the desired and placed Are able to solve the task. 5

Aside from a few types, those currently manufactured include Humidifier directly heated evaporation cylinder. These are made of heat-resistant plastic Containers that are manufactured in different dimensions depending on the steam capacity and in the electrodes formed as a wire mesh, fastened from above to the metal rods to be supplied with power or carbon electrodes protrude. The operation of the devices mentioned is that a on the Electrodes switched, two- or three-phase alternating current the water contained in the cylinder as one Heat flowing through resistance generates heat, which boils and allows water to evaporate. The moisture content The hygrostat which detects the main circuit keeps the main circuit switched on as long as it is switched on, until the relative humidity of the room under control is the same as that set on the sensor desired value reached. The water is supplied via a system that works simultaneously when the main circuit is switched on Solenoid valve and a needle valve following the solenoid valve of appropriate size. The water that has not evaporated is drained off at intervals set by means of a motorized timer.

The device for air humidification described above represents the humidification system most commonly used today, which works with an evaporation cylinder

dar (e.g. type Lumatic). In terms of use, works the device is fast, but at the same time has numerous disadvantageous properties.

. 5 A major shortcoming is that if there is a deviation always one of the desired relative moisture content, regardless of the size of the deviation the amount of water corresponding to the nominal level of the cylinder is heated. This amount of water is used to achieve the required level To achieve a balanced state, the required amount evaporates, the remaining amount of water is either drained or cools down until the next switch-on.

The devices mentioned are equipped with a two-point control (switch-on and switch-off mode). The systems tend to operate in an oscillating manner, especially when working with air conditioning systems. The reason for this is that the equilibrium state is not gradually approached, but the humidifiers work at full capacity until switched off. In the known systems, one tries to to eliminate this disadvantage by arranging several evaporation units with lower capacity, whereby these can be switched on and off gradually as required. The oscillation tendency can be determined by the setting a high switch-on and switch-off hysteresis, which in turn reduces the accuracy brings with it.

The individual manufacturing companies (DBF, lumatic, Condair, Steamatic Vapac, Defersor) have different solutions developed to eliminate the deficiency mentioned.

The aim of the invention is to overcome the disadvantages associated with the principle directed to direct heating by using a closed-loop control instead of two-point control.

This object is achieved with an air humidifier which has the features specified in the claims.

The invention is based on an advantageous below Embodiment explained in more detail with the help of the drawings. Show in the drawings

1 shows the diagram of the function of the water network and the electrical circuit arrangement,

Fig. 2 is the circuit diagram of a one to the relative

Moisture content proportional voltage ü generating P / U converter as well as the Diagram of the output signal as a function of the relative humidity,

3 shows the generation of the voltage signal proportional to the current consumption and its change depending on the amount of water contained in the cylinders,

4 shows the circuit diagram of the comparator controlling the filling and emptying solenoid valves,

Fig. 5 shows the correlation between the relative

Moisture content and the amount of water contained in the cylinders.

As can be seen from the figures, an analog current sensor is in the main circuit of an evaporation cylinder 1 12 arranged, while in the room to be humidified an analog sensor 6 for detecting the humidity is provided. The output signals of the sensors arrive after a corresponding level conversion and integration to the comparator 17, which carries out a comparison, in the course of the operation of the cylinder the comparator controls a filling valve 10 and a drain valve 11 present in the water network of the cylinder, in such a way that that in the event of a significant deviation from the desired potentiometer provided with a scale 14 set moisture content, the water level of the cylinder is kept at a maximum value. When the moisture content reaches the desired value, the water supply stops as a result of the compensation on. After the balancing has taken place, the system does not switch off, but switches to an economy mode with reduced Cycles changed. This solution, - with which the disadvantages of the conventional solutions are compensated, shows numerous advantages on:

the compensation is almost always achieved by the heating and evaporation of an amount of water that is just compensate for the discrepancy between actual and desired relative humidity be able to;

less water is added within one cycle, which saves electrical energy;

- by the fact that less water is boiled in the cylinder, less scale separates out;

a smaller amount of water boils faster, which means that the operating status of the cylinder is reached more quickly will;

- for a large part of the operating time, the cylinder is kept in operation with a low current, whereby the electrical load is lower and the service life can be extended;

- With a continuously acting control principle, the system does not require any additional protection (overcurrent, Water level limitation);

- There is no need to use it in the main circuit a high-current magnetic switch, which eliminates the malfunctions caused by frequent burn-up stop;

- From the point of view of steam generation, is

the system - with the exception of the phase with the controlled current - against the failure of any phase less sensitive.

If a phase is absent, the current consumption decreases and an unbalanced state is established, whereby the system restores the equilibrium by supplying water. With an increased amount of water, the steam production is likewise reduced for a unit of time.
30th

In Figure 1, the execution of the water supply network of the humidifier according to the invention and the

functional units of the electrical control shown.

The evaporation cylinder 1 is above the filling solenoid valve 10 connected to the input of the water supply network 8, while it is via the emptying solenoid valve 11 to an overflow 7 to the drainage water network 9 and via a vapor discharge pipe 2 with the interposition of an "exhaust flute" to the room part 3 to be moistened connected.

In Figure 2, the internal structure of a P / U converter 13 is shown, which is based on the relative moisture content of the room part 3 to be humidified proportional U voltage signal 15 is generated.

The output signal of a bridge 21 follows the output signal weakened with a potentiometer 24 a constant reference bridge 22. The mentioned potentiometer is with one of the relative humidity designed corresponding scale graduation, on which the desired moisture content can be set can. The difference signal of the bridges is amplified in an amplifier 26. Anti-parallel diodes 25 ensure the upper constant segment of diagram 29. The output signals are included at the output of the amplifier the same integrating capacitor 27 and an attenuating potentiometer 28, with the help of which the Level of the output signal can be regulated.

The steepness of the negative linear path of the diagram registering the change in the output signal 15 29 can be fed in through the feedback of the amplifier.

will be presented. Their projection on the axis of the relative moisture content indicates the characteristic value in which Measures the system in the constant mode of operation must approach the desired moisture content and with which slope the downward regulation is to be started.

Figure 3 shows the circuit diagram for generating a U.-voltage signal 16 proportional to the current consumption of the cylinder and the change as a function of the less existing water flow. In the main circuit a current transformer 31 ensures the generation of the secondary current proportional to the current or after shunting the output voltage 16. A potentiometer 33 is used for Setting of the current maximum, that of the constant range of diagram 29 according to FIG. 2 is to be assigned. The voltage proportional to the current producing the output voltage 16 changes approximately linearly depending on the amount of water contained in the cylinder.

The next functional unit of the control electronics is represented by the comparator 17, which is expediently that of the Humidity difference proportional and proportional to the amount of water present in the evaporation cylinder 16 Comparing tensions with each other.

The circuit diagram of the electrical circuit arrangement and the connection to the solenoid valves is shown in FIG illustrated.

Here a design is made in which the functions of the comparison and the generation of the corresponding Circuit hysteresis are combined. The two positively fed back Schmitt triggers also secure individually

the corresponding hysteresis for controlling the valves

10 and 11. The accuracy of the system or the mutual electrical distance between the leading and trailing edges the two triggers can be regulated with the aid of a potentiometer 37. The output signals the trigger control the solenoid of valves 10 via transistorized stages 37, 38 and relays 39, 40,

11 always so that the desired balance of the amount of water and the variation in humidity can be maintained.

In Figure 5 is the process of a complete humidification cycle from system start-up to complete Compensation shown. In the horizontal axis is the relative humidity of the supplied room plotted, while the amount of water contained in the evaporation cylinder is shown in the vertical axis is.

The desired relative moisture content, or the position of the equilibrium state 42, is determined by the potentiometer 24 determined. After switching on, the output signal of the humidity sensor is the deviation proportional to the state of equilibrium.

As an example, let us assume that the relative humidity of the supplied room at the moment of Switching on is 30%. The water supply begins at starting point 44. (Up to 1.2L, i.e. up to point 47, until the water level reaches the lower edge of the electrons, there is no current consumption). in the With a view to the fact that the deviation in the moisture content exceeds the value of the distance 43 with a negative steep

surpasses the unity in the diagram, the water is up to constant level 49 filled. The heating process is also started while the water is being filled up. In the operating section 46, the solenoid valve 10 ensures the regular refilling of the evaporated water amount in the hysteresis of the comparator corresponding amounts. If the deviation of the moisture content falls below the value 43, the refill is stopped, whereupon the moisture equilibrium is restored in an appropriately adjusted system through the evaporation of the water present. Now arises the system to the so-called "economy mode", the work cycle of which is shown in the enlarged detail 50 is. Should the relative humidity decrease, the solenoid valve 10 fills at one of the sensitivity of the system corresponding deviation, water into the cylinder again, but only so much that The state of equilibrium can be restored through the evaporation of the amount of water that has just been poured in (Circulatory character). In view of the fact that an unnecessary amount of water is not heated, the energy consumption increases be significantly lower compared to the systems with two-point control.

By using the humidifier according to the invention the shortcomings of the known devices can be eliminated, the moisture content of the air space is guaranteed with a much greater accuracy and less energy consumption. The control solution the humidifier according to the invention includes the the operation of the humidifier quite frequently occurring harmful vibrations - the same with Observe low and high capacity humidifiers

can be respected - from.

The humidifier is made up of modern electrotechnical components, it is operationally safe and can can be manufactured at a lower cost than the previously manufactured humidifiers with the same Power; in this way the current field of application can also be expanded.

Claims (1)

HOFFMANN · EITLE & PARTNER PATENT LAWYERS DR. ING. E. HOFFMANN (1930-1976). DIPL.-ING. W. EITLE · D R. R ER. NAT. K. H OFFMANN DIPL.-1 NG. W. LEHN D1PL.-ING. K.FDCHSLE - DR. RER. NAT. B. HANSEN ARABELLASTRASSE 4 D-8000 MO NCHEN 81. TELEPHONE (089) 911087. TELEX OS-29619 (PATHE) -r- Magyar Vagon-es Gepigyar, GySr / Hungary Automatic humidifier PATENT CLAIMS: Automatic humidifier for continuously ensuring the moisture content in indoor spaces at a desired value, characterized in that in the Main circuit of the evaporation cylinder (1) an analog current sensor (12) is provided that in the too humidifying room (3) an analog sensor (6) for the detection of the moisture content is arranged and that a comparator is connected to the outputs of the sensors (17) is connected. . Air humidifier according to claim 1, characterized in that filling and emptying valves (10 _T 11) serving to regulate the water level are connected to the output of the comparator (17).