DE10000862A1 - Ventilation device for spray cabin of painting system has controller for heater and other devices that specifies temperature level for cabin adapted to intermediate drying of base paint layer - Google Patents

Abstract

The device has an input air fan for subjecting the spray cabin to input air, an output air fan for sucking the used air from the cabin, filters for preventing impurities from entering the cabin and paint particles from leaving the cabin, fan drives, a heater and a controller. The controller specifies a temperature level for the cabin adapted to intermediate drying of a base paint layer on the component in the cabin. Independent claims are also included for the following: a ventilation method for a spray cabin of a painting system.

Description

The invention relates to a ventilation device for a spray booth of a paint shop, with a Zu Air fan to apply spray to the spray booth air, an exhaust air fan for extracting the exhaust air the spray booth, filter devices, by means of which the Impurities entering the spray booth and that Prevent paint particles from escaping from the spray booth bar, drive devices by means of which the supply air and the exhaust fan can be driven, a heater by means of which the temperature in the spray booth changes is derbar, and a control device by means of which the drive devices of the supply air and extract air fans are controllable.

In the operation of the spray booths mentioned above introduced a component to be painted into the spray booth. Then this component is coated with at least one basecoat layer. Before loading the component with a further basecoat layer or with an outer or Clear coat must first in an intermediate drying the pre-dried basecoat layer be net or hardened. This pre-drying or pre-drying tion takes place in known spray booths at about that Temperature instead of which also the spraying process, which to carry out this pre-curing or drying  Intermediate drying process is interrupted instead finds.

The invention has for its object the ge described ventilation device for a spray booth Painting operations to develop such that the time and Further energy expenditure for the painting process of a component can be reduced.

This object is achieved in that the Heating device of the spray booth by means of the control device device is controllable and that the control device so out is that by means of the heater for the Spray booth is a temperature level that can be specified that a Intermediate drying of a basecoat layer in the Spray booth is adapted to the component to be painted. At the ser design according to the invention results in addition to Reduction of the time required for intermediate drying overall a considerable amount of energy for the painting process casting saving. The reduction in time consumption and correspond The resulting energy saving is all the more important larger, the greater the number of basecoat layers, with which the component to be painted must be provided. Especially ders advantageous effects arise with Wasserbaslac ken.

A further reduction in energy consumption can be achieved Chen if the control device is designed such that by means of the supply air and extract air fans during egg intermediate drying process automatically with a low geren speed are operated, so that a higher tempera level is also possible with a given burner output. Furthermore, it is possible to reduce the cost of changing the temperature  to initiate the intermediate drying process thereby reducing that the control device so out is that the supply air and extract air fans during an intermediate drying process operated in recirculation mode become. Air heated once by means of the heating device is then again in the spray due to the recirculation mode cabin introduced, this only according to the Temperature difference to that for the intermediate drying process specified target temperature must be heated further. The Loss heat given off to the environment is used for this significantly reduced.

It is to prevent dust from whirling up advantageous if the control device is designed that a change in speed of both the supply air and Exhaust fans by means of a speed jump-free, continuous speed change phase is carried out.

The control device advantageously has a switching element on, by means of which an adjustable on the control device Setpoint for the tempera adapted to the intermediate drying level can be specified. This setpoint can vary depending on the requirements derungsprofil for the intermediate drying process or for the Quality of the basecoat layer may vary.

The ventilation according to the invention expediently has direction a temperature sensor in the supply air duct of the Spray booth arranged and attached to the control device is closed. In this way, the tempe rature level in the supply air flow as the basic parameter for the control control of the temperature inside the spray booth be set.  

Of course, according to a further embodiment the ventilation device according to the invention direction be designed so that by means of the Hei setting up the spray booth a second temperature level It can be specified that take place in the spray booth the spraying process is adapted.

In addition, according to a further embodiment, the Invention the control device can be designed so that using it for the heater of the spray booth third temperature level can be specified, which to one for egg ne firing process carried out on the outer or clear lacquer layer is adjusted.

The tempera intended for the intermediate drying process The level of rotation is usually between that of the spraying device gear and the temperature adapted to the burning process veau.

With such ventilation devices, the supply air and the exhaust-side filter device in regular Intervals exchanged to ensure that inner tolerable working conditions in the spray booth prevail, and that the area surrounding the spray booth is not in contaminated with paint particles or the like becomes. In the course of the period of use, a loading occurs increasingly contamination of the two filter devices or paint particles and thus the permeability decreases the mutual filter devices with increasing groove duration from.

To further increase the energy consumption of the ventilation device reduce, is the drive device of the exhaust fan  according to the pollution of the fil adjustable. Here is with a small Effort given the opportunity to turn the exhaust fan into depending on the degree of contamination of the fil tereinrichtung differently set so that without any flap adjustment or the like. An adjustment of the the amount of air flowing through the exhaust-side filter device is possible. It is thus avoided that the drive Direction of the exhaust fan almost throughout The service life of the replaceable exhaust filters direction works with the power output that egg Occasionally is only necessary in the event that the exhaust air side filter device at the end of its period of use more or less heavily coated with paint particles or the like which strikes the permeability of the exhaust side Affect filter device.

Further energy savings can be achieved if an on Drive device of the supply air fan according to the Adjust the contamination of the filter device on the supply air side is cash. This is analogous to that for Ab Air fan described a way de Energy savings in the operation of the drive device of the supply air fan reached.

According to an advantageous embodiment of the fiction moderate ventilation device is in their control device as an input variable for contamination of the exhaust air side Filter device proportional parameters and, if necessary, a Contamination of the air intake filter device propor national parameters can be entered. By means of the control device is the drive device of the exhaust fan and if necessary that of the supply air fan according to the pollution of the  air-side or air-side filter device rule bar. This is a quasi-continuous re-adjustment of the two drive devices for the exhaust air and the Supply air fan possible, so that both sides Drive devices the optimal output power available is provided. Manual adjustment of the drive facilities and the associated sources of error are completely avoided.

The ventilation device according to the invention can with a comparatively low technical-constructive effort be realized when a pressure measurement in the spray booth is arranged by means of pressure in the spray booth as to contaminate the exhaust air or supply air side Filter device proportional parameters in the control direction can be entered. According to the course of the print in the spray booth, the drive device of the Exhaust fan or that of the supply air generator in one Way tracked that the two filter devices flow of air is constant.

Membrane pressure switches are particularly suitable as pressure gauges proved advantageous.

If the two drive devices as usual as Elek tromotoren are formed, their output in expediently by means of one between each Drive device and the control device arranged Frequency converter are regulated. By means of the frequency change shapers that function practically as automatic transmissions can the electric motors exactly according to the needs featured by the degree of contamination of the filter devices given performance requirements are regulated. Furthermore  are used when regulating frequency converters of the electric motors caused by the start-up of such electric avoided load peaks caused by motors.

In an advantageous embodiment of the invention The ventilation device is a control unit assigned switch by means of the for each drive direction different output ranges can be specified are within which each drive device accordingly the pollution of the exhaust air and, if applicable, supply air side fil tereinrichtung is adjustable or controllable.

The tap changer can advantageously be used as a three tap changer be formed, its first stage being a standby, its second stage is a partial load and its third stage corresponds to a full load operation of the spray booth. On the Standby mode can always be switched over if There are work breaks. For example, in Standby operation of the frequency converter to 40% of the maximum Power of the supply air or extract air fan set. In partial load operation, which with short paint jobs and with vol paintwork may be present depending on the spray mist it is possible to adjust the performance of the supply and exhaust air valves 60% of the maximum power. in the Full load operation is then the maximum at the three-stage switch Supply air and extract air fan output set.

The aeration according to the invention described at the beginning device achievable advantages also result in a ventilation method for a spray booth of a lac kierbetriebs, in which the spray booth with supply air strikes and exhaust air is sucked out of the spray booth supply air entering the spray booth and that from the  Extracted air from the spray booth is filtered, the supply air and the exhaust air flow can be controlled separately, and the Temperature in the spray booth is varied when at a Intermediate drying of a basecoat layer in the Spray booth to be painted component to the intermediate drying adjusted temperature level is set.

Here, the supply air and exhaust air flow during of the intermediate drying process can be reduced.

It is also possible to adjust the supply and exhaust air flows convection during the intermediate drying process interconnect flow.

To avoid dust swirling, it is advisable to Changes in the supply and exhaust air flow steady and bumpy free to perform.

The temperature of the supply air flow can be measured and advantageous is the basis for regulating the temperature in the Spray booth can be used.

It is also possible to use one in the spray booth the spraying process taking place on this spraying process set the appropriate temperature level.

The same applies of course to one in the Spraying booth taking place.

The exhaust air flow is expediently independent of the Contamination of filter devices on the exhaust air constant held or changed.  

The same naturally also applies to the supply air flow according to a further advantageous embodiment of the inventive method.

In the following the invention is based on an embodiment form described in more detail with reference to the drawing, in the constituent essential to the present invention le of the ventilation device according to the invention are shown.

A spray booth, not shown in the figure, has on its supply air side a supply air fan 1 by means of which ambient air can be introduced into the spray booth. In order to avoid ver that contaminants get into the spray booth with the ambient air, the supply air fan 1 is assigned an air-side filter device 2 , which expediently includes an exchangeable filter cover, mat or the like.

In the spray booth sits a pressure gauge 3 , which can be designed as a membrane pressure switch. By means of the pressure meter 3 , the pressure in the spray booth is measured.

The supply air fan 1 is driven by means of a first Elektromo gate 4 , which is z. B. can be a three-phase motor.

The power output of the first motor 4 and thus the rotational speed and flow rate of the supply fan 1 is controlled by a control device 5 and a Frequenzumfor mers 6, wherein the control device 5 preprocessed an inputted by the pressure gauge 3 into it, the pressure curve corresponding to the spray booth pressure measurement signal and the forwards the first frequency converter 6 , so that the power output of the first frequency converter 6 assigned to the first electric motor 4 according to the pressure flow in the spray booth and thus according to the degree of contamination of the air-side filter device 2 is regulated.

An exhaust air fan 7 , which is arranged on the exhaust air side of the spray booth, not shown in the figure, serves to discharge air from the spray booth into the environment. In order to avoid that paint particles and similar contaminations from the spray booth get into the environment, the exhaust fan 7 is assigned an exhaust-side filter device 8 . Like the supply-side filter device 2 , the exhaust-side filter device 8 has filter ceilings, mats or the like to be exchanged in certain regular intervals.

The pressure measurement signal entered into it by the pressure meter 3 is preprocessed by the control device 5 and passed on to a second frequency converter 9 , which in turn controls a second electromotive gate 10 driving the exhaust fan 7 . The control of the second electric motor 10 also takes place as a function of the pressure curve in the Spritzka bine and thus as a function of the degree of contamination of the filter device 8 on the exhaust air side.

The two electric motors 4 , 10 are adapted in terms of their energy consumption to the degree of pollution of the two Fil ter institutions 2 , 8 , so that it is no longer necessary - as in the prior art - to operate them with the energy required for the highest degree of pollution of the filter devices .

In the illustrated embodiment, the Steuerein device 5 is assigned a three-stage switch 11 , by means of which for each electric motor 4 , 10 different power outputs can be predetermined; Within these predefined power output ranges, the two electric motors 4 , 10 are regulated as a function of the degree of contamination of the filter devices 8 on the supply air side and on the exhaust air side. Here it is possible that the predeterminable power output areas overlap or overlap at their edges. The predeterminable power output ranges can correspond, for example, to a standby, a partial load and a full load operation of the spray booth.

In the Spritzkabi ne, not shown in the single figure, a heater 12 , z. B. is preferably provided in the form of a burner. By means of the heating device 12 , the temperature within the spray booth can be varied. For this purpose, the heater 12 is connected to the device 5 Steuerervorrich.

In order to create an output variable for the control or regulation of the heating device 12 , a temperature sensor 13 is arranged in the supply air duct of the spray booth, not shown in the single figure, by means of which the temperature of the incoming air flow entering the spray booth can be detected. This temperature serves as an output variable for the control of the heating device 12 in order to achieve the required or desired temperature level within the spray booth as quickly as possible.

In the spray booth, components to be painted are added provided at least one basecoat layer, whereby according to order First, an intermediate drying process against each basecoat layer  performed, in which no further paint on the Component is sprayed on.

By means of the heating device 12 and a reduction in the air throughput at the beginning of such an intermediate drying process, the temperature level within the spray booth can be set or increased such that the optimum temperature for the intermediate drying process is created as quickly as possible.

Of course it is also possible for both Spraying process as well as for the firing process with which the Clear or exterior paint coating is cured, respectively the optimal temperature at short notice within the Spritzka bine adjust.

Thus, when painting a component in the process step of the spray booth optimal temperature level inside the spray booth regulates, so that overall a shortening of the painting process with an associated reduced tech niche economic effort results.

For this purpose, further, the control device is so det ausgebil 5, that both the supply air fan 1 and the exhaust fan 7 in the initiation of an Zwischentrocknungsvor gangs automatically be operated at a lower speed. The energy expenditure required for the operation of the two fans 1 , 7 is thereby considerably reduced.

As indicated in the basic illustration in the single figure by the double arrow 14 , it is possible, through a line adjustment (not shown in the single figure) solution or switchover, to drive the supply air fan 1 and the air fan 7 during an intermediate drying process in recirculation mode. As a result, the temperature increase required to carry out the intermediate drying process after a spraying process can be brought about within the spray booth in a shorter period of time, and in addition the energy expenditure for heating the air in the spray booth can be further reduced.

To in any case undesirable dust and u. To avoid the like, the control device 5 is designed so that by means of it a speed change of the supply air fan 1 or the exhaust fan 7 is carried out in a gradual transition, so that speed jumps are avoided ver in any case.

The controller 5 is assigned a switching element 15 to which a control device 5 according to the particular requirement profile variable setpoint is adjustable by means of the. This setpoint corresponds to the temperature level adapted to the intermediate drying process, which must be observed within the spray chamber.

Claims (26)

1.Ventilation device for a spray booth of a paint shop, with a supply air fan ( 1 ) for supplying the spray booth with supply air, an exhaust air ventilator ( 7 ) for extracting the exhaust air from the spray booth, filter devices ( 2 , 8 ) by means of which the on Impurities in the spray booth and the escape of paint particles from the spray booth can be prevented, drive devices ( 4 , 10 ), by means of which the supply air ( 1 ) and the exhaust air fan ( 7 ) can be driven, a heating device ( 12 ), by means of which the temperature in the spray booth is changeable, and a control device ( 5 ) by means of which the drive devices ( 4 , 10 ) of the supply air ( 1 ) and the exhaust air ventilators ( 7 ) can be controlled, characterized in that the heating device ( 12 is) the spray booth by means of the control device (5) controllable and that the control device (5) is formed so that by means of it for the heater ( 12 ) the spray booth a temperature level can be predetermined, which is adapted to an intermediate drying of a basecoat layer of a component to be laced in the spray booth. 2. Ventilation device according to claim 1, wherein the Steuer ervorrichtung ( 5 ) is designed so that by means of the supply air ( 1 ) and the exhaust fan ( 7 ) during egg nes intermediate drying process can be operated automatically at a lower speed. 3. Ventilation device according to claim 1 or 2, wherein the control device ( 5 ) is designed so that the supply air ( 1 ) and the exhaust fan ( 7 ) can be operated during an intermediate drying process in recirculation mode. 4. Ventilation device according to one of claims 1 to 3, wherein the control device ( 5 ) is designed such that a speed change both the supply air ( 1 ) and the exhaust fan ( 7 ) by means of a speed jump-free, constant speed change phase is feasible. 5. Ventilation device according to one of claims 1 to 4, wherein the control device ( 5 ) has a switching element ( 15 ) by means of which an adjustable setpoint for the temperature level adapted to the intermediate drying can be predetermined on the control device ( 5 ). 6. Ventilation device according to one of claims 1 to 5, with a temperature sensor ( 13 ) which is arranged in the supply air duct of the spray booth and to which the control device ( 5 ) is connected. 7. Ventilation device according to one of claims 1 to 6, in which the control device ( 5 ) is designed such that by means of it for the heating device ( 12 ) of the spray booth, a second temperature level can be predetermined which is adapted to a spraying operation taking place in the spray booth is. 8. Ventilation device according to one of claims 1 to 7, in which the control device ( 5 ) is designed so that by means of it for the heating device ( 12 ) of the spray booth, a third temperature level can be predetermined, which to one for an outer or clear lacquer layer performed burning process is adapted. 9. Ventilation device according to claim 8, in which the the intermediate drying adjusted temperature level between between the spraying process and the firing process adjusted temperature level. 10. A ventilation device according to one of claims 1 to 9, wherein the drive means (10) of the gate Abluftventila pollution of the abluftseiti gen filter device (8) according to (7) is adjustable. 11. Ventilation device according to one of claims 1 to 10, wherein the drive device ( 4 ) of the supply air ventilator ( 1 ) is adjustable according to the pollution of the filter device ( 2 ) on the supply side. 12. Ventilation device according to claim 10 or 11, in which the control device ( 5 ) as an input variable for the pollution of the exhaust-side filter device ( 8 ) proportional parameters and / or a parameter for pollution of the supply-side filter device ( 2 ) proportional parameters can be entered and in which the drive device ( 10 ) of the exhaust air fan ( 7 ) and / or the drive device ( 4 ) of the supply air fan ( 1 ) can be regulated or controlled by means of the control device ( 5 ) in accordance with the contamination of the filter device ( 8 , 2 ) on the extract air side or supply side . are. 13. A ventilation device according to claim 12, in which a pressure gauge ( 3 ) is arranged in the spray booth, by means of which the pressure in the spray booth can be entered into the control device ( 5 ) as a parameter proportional to the soiling of the air-side or air-side filter device ( 8 , 2 ) is. 14. Ventilation device according to claim 13, wherein the pressure meter ( 3 ) is designed as a membrane pressure switch. 15. Ventilation device according to one of claims 1 to 14, wherein each drive device ( 4 , 10 ) is designed as an electric motor, the drive power by means of a rule between him and the control device arranged frequency converter ( 6 , 9 ) is adjustable. 16. Ventilation device according to one of claims 12 to 15, in which the control device ( 5 ) is assigned a tap changer ( 11 ), by means of which for each drive device ( 4 , 10 ) different power output ranges can be specified, within which each drive device ( 4 , 10 ) can be adjusted or regulated in accordance with the contamination of the filter device ( 2 , 8 ) on the supply air and possibly on the air side. 17. Ventilation device according to claim 16, in which the stage switch is designed as a three-stage switch ( 11 ), the first stage of which corresponds to a standby, the second stage to a partial load and the third stage to a full load operation of the spray booth. 18. Aeration method for a spray booth of a paint shop operation in which the spray booth is supplied with supply air and exhaust air is sucked out of the spray booth into the  Spray air entering and from the spray booth extracted exhaust air are filtered, the supply air and the exhaust Air flow can be controlled separately, and the temperature in the spray booth is varied, characterized in that with an intermediate drying of a basecoat film one in the spray booth to be painted component to the Zwi adjusted drying level is set. 19. Aeration method according to claim 18, wherein the Zu air and exhaust air flow during intermediate drying process can be reduced. 20. Aeration method according to claim 18 or 19, wherein the supply air and exhaust air flow during the intermediate drying process to form a circulating air flow be tested. 21. Aeration method according to one of claims 18 to 20, when the supply and exhaust air flow changes continuously and be carried out bumpless. 22. Aeration method according to one of claims 18 to 21, at which the temperature of the supply air flow is measured and as Basis for regulating the temperature in the spray booth is used. 23. Aeration method according to one of claims 18 to 22, one in the spray booth one in the spray booth the spraying process taking place on the spraying process appropriate temperature level is set. 24. aeration method according to one of claims 18 to 23, in the firing process taking place in the spray booth  a temperature level adapted to the burning process is set. 25. Ventilation method according to one of claims 18 to 24, in which the exhaust air flow is kept constant or changed regardless of the pollution on the exhaust air side filter devices ( 8 ). 26. Ventilation method according to one of claims 18 to 25, in which the supply air flow is kept constant or changed regardless of the contamination of the supply air-side filter devices ( 2 ).