DE212015000162U1 - Modularized air dryer - Google Patents

Abstract

A modular air dryer comprising at least two adsorption towers, the adsorption towers having a modularized structure, the filter of the adsorption tower and the cylinders of the adsorption tower being integrated together as an adsorption tower module, the adsorption tower module being installed between an upper deck plate and a lower deck plate, the upper deck plate and the lower cover plate are each connected to two sides of the cylinder, and the upper cover plate and the lower cover plate serve as the gas inlet and the gas outlet, and by the combination of the upper cover plate and the lower cover plate a modularized air-tight and Wärmedeadsorptionssystem is constructed, whereby the The air-tight compressed air is dried without Wärmeadsorption.

Description

Technical area:

The present invention relates to a modularized air dryer, in particular a modularized air dryer for the air from an air compressor. The present invention dries the wet air from an air compressor and also other gases.

Technical background:

The working principle of a heatless adsorption air compressor is "pressure swing adsorption". When the water in the compressed air is adsorbed with water under high pressure from the adsorbent bed, the adsorbed water is desorbed under low pressure and released back to the gas phase, whereby the adsorbent is regenerated. The regenerated air comes from the dry air that is released from the dryer. The main body of a conventional heatless adsorption air compressor comprises two adsorption towers, an air inlet valve, a bleed valve, a blowdown valve, a check valve, an electric controller, an electric valve, a connector body, etc. Such a dryer is mainly made of carbon and treated with anti-rust paint and has a loose structure on. The dryer has the following disadvantages: complicated structure, large volume, heavy weight, many components and fasteners, many sealing points. As a result, the dryer has many faults and can cause serious accidents.

Since the conventional heatless adsorption dryer has two towers when the compressor starts, the electrical controller receives an electrical signal. At this time, tower A enters the regeneration phase and tower B enters the adsorption phase. The wet air from the air compressor is introduced through the air inlet valve in the tower B, adsorbed by the adsorbent and used by the wind gauge check valve. The other part of the dry air is regenerated by tower A. The wet air is released through the vent valve and damper. Consequently, the adsorption takes place in tower B and the regeneration in tower A simultaneously.

If Tower A is regenerated until a certain point in time, the controller will stop providing power, causing the two electrical valves to be de-energized and the two bleed valves to be closed. Tower B continues to adsorb and Tower A completes the regeneration and enters the aeration phase. When the pressure of the two towers is equal, the electric controller sends a conversion signal and a new round begins.

The conventional technique determines the working time by the CPU and the working time can not be changed during the working process. The operating condition of the dryer can not be adjusted according to the gas load or dew point temperature. The consequence is the great waste of gas or disqualified gas. Such a time controller has many electrical components and thus a high error frequency. An error with a small component can cause the failure of all control. Such a time controller has no indication of pressure and dew point and also has no fault alarm function, and can meet the requirements of modern rail and subway.

• 1. Das Gebrauchsmuster, CN200820060412.4 , unter dem Titel „Vakuumadsorptionstrockensystem“, offenbart ein Vakuumadsorptionstrockensystem, umfassend ein erstes Adsorptionsbarrel, ein zweites Adsorptionsbarrel, zwei Strombegrenzungselemente und einen Vakuummotor. Das erste Adsorptionsbarrel ist mit einer Seite des zweiten Adsorptionsbarrels verbunden und eine Lufteingangsöffnung bildet. Das erste Adsorptionsbarrel ist mit der anderen Seite des zweiten Adsorptionsbarrels verbunden und eine Luftausgangsöffnung bildet. Die Strombegrenzungselemente werden bei der Luftausgangsöffnung des ersten und des zweiten Adsorptionsbarrels installiert, um den Strom des Barrels zu begrenzen. Der Vakuummotor wird bei der Lufteingangsöffnung installiert, um das Barrel abzusaugen.
• 2. Das Gebrauchsmuster CN200820123078.2 offenbart einen elektrischen Kontroller für den zwei-Turm-Trockner eines Verbrennungsmotors umfassend ein Stromversorgungsmodul, einen PLC-Kontroller, einen ersten Schalter und einen zweiten Schalter. Die Gleichspannung und das Kontrollsignal werden jeweils am Stromversorgungsmodul eingegeben. Das Output des Stromversorgungsmoduls ist das Input des PLC Kontrollers. Das Output des PLC Kontrollers ist jeweils mit dem ersten Schalter und dem zweiten Schalter verbunden. Das Output des ersten Schalters und des zweiten Schalters ist jeweils mit dem elektrischen Ventil.
• 3. Das Gebrauchsmuster CN200820009816.0 offenbart eine Luftreinigungsvorrichtung umfassend einen Vorrichtungskörper, einen Lufttrockener, einen Öl-Wasser-Trenner und einen elektrischen Controller. Der Trockner umfasst zwei identische Trockentürme, der Trockenturm umfasst einen Deckel, einen Körper und einen Schließkopf. Die Lufteingangsöffnung des Trockenturms ist mit dem Luftkompressor verbunden.

The relevant state of the art is as follows:

• 1. The utility model, CN200820060412.4 , entitled "Vacuum Adsorption Drying System," discloses a vacuum adsorption dry system comprising a first adsorption barrel, a second adsorption barrel, two flow restriction members, and a vacuum motor. The first adsorption barrel is connected to one side of the second adsorption barrel and forms an air inlet port. The first adsorption barrel is connected to the other side of the second adsorption barrel and forms an air exit port. The current limiting elements are installed at the air outlet opening of the first and second adsorption barrels to limit the flow of the barrel. The vacuum motor is installed at the air inlet port to suck the barrel.
• 2. The utility model CN200820123078.2 discloses an electrical controller for the dual-tower dryer of an internal combustion engine comprising a power supply module, a PLC controller, a first switch, and a second switch. The DC voltage and the control signal are input to the power supply module, respectively. The output of the power supply module is the input of the PLC controller. The output of the PLC controller is connected to the first switch and the second switch. The output of the first switch and the second switch are each with the electric valve.
• 3. The utility model CN200820009816.0 discloses an air cleaning device comprising a device body, an air dryer, an oil-water separator and an electrical controller. The dryer comprises two identical drying towers, the drying tower comprises a lid, a body and a closing head. The air inlet opening of the drying tower is connected to the air compressor.

These publications relate to air purification or wet air drying. However, they have not changed the Adsorptionsstrockenverfahren and have the above-mentioned disadvantages, such. As complicated structure, large volume, heavy weight, many number of sealing points and errors, etc, not overcome.

Content of the invention:

The present invention is based on the object, the o.g. To overcome disadvantages in the prior art, and to provide a new drying device, which has a small volume, few components and light weight, easy to maintain, anti-corrosive, easy to exchange and is integrated.

The object is achieved by a modularized air dryer comprising at least two adsorption towers, wherein the adsorption towers have a modularized structure, the filters of the adsorption tower and cylinders of the adsorption tower are integrated together as adsorption tower module, the adsorption tower module being installed between an upper cover plate and a lower cover plate, wherein the upper cover plate and the lower cover plate are each connected to two sides of the cylinder, and the upper cover plate and the lower cover plate serve as the gas inlet and the gas outlet, and constructed by the combination of the upper cover plate and the lower cover plate, a modularized air-tight and Wäreadseadsorptionssystem is, whereby the compressed air discharged from air compressors is dried without Wärmeadsorption.

Further, the adsorptive tower module is divided into two groups, the two groups performing the adsorption and regeneration alternately, when one group performs the adsorption, the other group performs the regeneration, the compressed air being introduced into one of the two groups of the adsorption tower module for adsorption treatment while the other adsorption tower module is performing the regeneration treatment at the same time; When the adsorption tower used for adsorption is saturated, it is converted to regeneration, and the other group is also switched from regeneration to adsorption.

Further, the switching is realized by providing the upper cover plate or the lower cover plate with an air inlet or an air outlet, wherein the exhaust of the air inlet and / or the air outlet is connected to a combined electric valve, wherein the alternating operation in Adsorptionstorm module by the automatic Control of the electric control valve is performed.

Further, the automatic control is that an electric control system is arranged in the electric valve, thereby controlling the electric valve for the switching step.

Further, the electric control system controls the timing by a PLC control using the programmable logic technology in the PLC control, and the switching between adsorption and regeneration in the adsorption tower module is controlled by controlling the dew point temperature at the air outlet.

Further, the PLC control monitors the temperature sensor at the air inlet to accurately control the condition at the air inlet and provides the feedback to the indicator of the PLC control to control the temperature situation at the air inlet; and the PLC control monitors the pressure dew point at the air outlet of the dryer, showing the pressure dew point, and automatically switches the working state of the adsorption tower module to the dew point temperature situation, whereby the qualities of the treated air can be increased and the air can be saved and the life of The system can thus be extended. Further, a pressure sensor for the PLC control is provided at the exhaust of the pneumatic combined valve when the abnormal signal is accumulated, is supplied to PLC control (when locomotive is shut off due to valve malfunction or circuit failure, gasket failed), and after sending the command Opener solenoid valve is closed by the air inlet of the dryer and at the same time the closing valve is opened at the bypass (accidental drying is bypassed), the compressed air is introduced directly into Betriebsgrät, whereby the emergency application and elimination of the fault of the Loko is achieved and at the same time the warning signal to the driver for the necessary repair is shown.

Further, the electric valve is provided with an outlet for wet air, wherein the exhaust of the outlet, a damper is provided and the damper is not blocked.

Further, the adsorptive tower module may be standing or lying down and it is assured that the starting level of the liquid water is the low point of the system whereby the liquid water is discharged.

The disadvantages of the present invention: The present invention overcomes the disadvantages of the prior art, improves the security of the system and reduces the number of errors. The PLC control over time, increasing automation. By controlling the dew point of the exhaust (premature or Delay), the switching between adsorption and regeneration is controlled. The quality of the air is improved and the device can be used for a longer time.

pictures:

1 shows the structure of the first embodiment of the present invention.

2 is a side view of the 1 ,

3 shows the switching principle of the present invention.

4 shows the top view of the cross section along AA in 1 ,

EXAMPLES

Embodiment 1

As in 1 - 3 represents, comprises the air dryer according to the invention 6 adsorption towers 5 where each adsorption tower 5 has a modular structure. The upper filter group 6 , the feather 7 , the upper fastening filter net 8th and the fastening bolt 9 are in the upper inner part of the cylinder of the Adsorptionsturms 5 Installed. The lower filter group 3 and the axial fixing bolt 4 be in the lower part of the cylinder of the adsorption tower 5 Installed. The upper filter group 6 , the lower filter group 3 , the cylinder of the adsorption tower 5 and the adsorbent 11 are integrated and form the Adsorptionstorm module. The 6 Adsorptionstorm modules are divided into two groups and are located between the upper cover plate 10 and the lower cover plate 2 , wherein the upper cover plate 10 and the lower cover plate 2 each connected to two sides of the cylinder, and the upper cover plate 10 and the lower cover plate 2 as the gas inlet and the gas outlet, and by the combination of the upper cover plate and the lower cover plate, a modularized air-tight and Wärmedeadsorptionssystem is constructed, whereby the compressed air discharged from compressed air without heat adsorption is dried. The adsorption tower modules are divided into two groups, the two groups performing the adsorption and regeneration alternately, when one group performs the adsorption, the other group performs the regeneration, the compressed air being introduced into one of the two adsorption treatment adsorption tower module groups the other adsorption tower module performs the regeneration treatment at the same time; When the adsorption tower used for adsorption is saturated, it is converted to regeneration, and the other group is also switched to turn from regeneration to adsorption. The whole drying system is through the frame 13 Installed.

In addition, the lower cover plate 2 is provided with an air inlet or an air outlet, wherein the exhaust of the air inlet and / or the air outlet is connected to a combined electric valve, wherein the alternating operation is performed in Adsorptionstorm module by the automatic control of the electric control valve.

The automatic control is that an electric control system is arranged in the electric valve, thereby controlling the electric valve for the switching step. The electrical control system controls the timing through a PLC control 14 where the programmable logic technology is used in the PLC control whereby the adsorption-regeneration switching in the adsorption-storm module is controlled by controlling the dew-point temperature at the air outlet. When the PLC control receives a signal from the pressure setting device of the compressor, it sends a signal to control the electric valve. The electric control system controls the electric valve.

Under the control of the compressor, the operation of the air dryer is as follows: At start up, the PLC control receives a signal "on power". One side of the electric valve is under the control of the electrical system under "with power and gas" status, while the other side of the electric valve is under "without power and ventilation" status, eliminating the valve core 15 is controlled. If the right side of the electric valve 1 without power while the left side of the electric valve is energized, the valve core moves 15 to the left. The vent passage in the B adsorption tower module is opened while the vent passage in the A adsorption storm module is closed. At this point, the B enter adsorption towers in regeneration phase. A adsorption towers enter adsorption phase. The saturated moist air is passed through the filter, which filters the majority of moisture, oil and dust. The air is then introduced into the valve seat and introduced through the open air inlet valve in the left drying tower and introduced along the direction of the arrow in the wind passage. The moist air is introduced through the air inlet valve into the left drying tower, along the direction of the arrow, through the windpipe of the lower cover plate, and the front row A towers and after adsorption reaches the upper cover plate 10 , The dry air with the help of the pressure opens the check valve of the upper cover plate and introduced through the air outlet opening in the wind unit. The other dry air is through the regeneration air passage the upper cover plate is introduced into the rear B towers, whereby the Adsorptionsstoffe be regenerated, and is then discharged through the vent valve with damper in the air.

When regeneration is over in B towers, the electric control system will stop delivering power to the left electric valve. The electric valves are without power and the two vent valves are closed. A towers carry on the adsorption through, and B towers have stopped regenerating. The dry air is still constantly introduced into towers B, which increases the pressure in the tower B and the tower B is ventilated. The electrical control system supplies power to the right side. The adsorption and regeneration in tower A and tower B are switched. The aeration status in the two towers smallens the pressure difference in the two towers as well as the air velocity, thereby minimizing the impact of the air flow on the adsorbents and reducing the generation of the buffer.

The PLC control can also realize the automatic control of the air dryer. The programmable logic technology is applied to the PLC control whereby adsorption to regeneration switching in the adsorption module is controlled by controlling the dew point temperature at the air outlet, thereby increasing the quality of the air and allowing the unit to be used for a longer period of time. The collected electrical signal is sent to the display. The PLC control controls the temperature sensor on the air inlet to accurately control the condition at the air inlet and provides feedback to the PLC control indicator. A pressure sensor for the PLC control is provided at the exhaust of the pneumatic combined valve, when the abnormal signal is accumulated, is delivered to PLC control (if locomotive is shut down due to valve malfunction or circuit malfunction, failed seal), and after opening the command, the opening solenoid valve closed by the air inlet of the dryer and at the same time the closing valve is opened at the bypass (accident drying is bypassed), whereby the compressed air is introduced directly into the operating device, whereby the emergency application and elimination of the fault of the Loko is achieved and at the same time the warning signal to the driver for the necessary repair is shown. The PLC control controls the temperature sensor at the air inlet to accurately control the condition at the air inlet and provides feedback to the PLC control indicator to control the temperature situation at the air inlet; and the PLC control monitors the pressure dew point at the air outlet of the dryer, showing the pressure dew point, and automatically switches the working state of the adsorption tower module after the dew point temperature situation, whereby the qualities of the treated air can be increased and the air can be saved and the life of The system can thus be extended.

The electric valve is provided with an air outlet for moist air. At the outlet, a damper is provided, whereby the discharged moist air is damped.

Embodiment 2:

The principle of embodiment 2 is the same as in embodiment 1, but only with 4 adsorption tower modules. The 4 Adsorptionstorm modules are divided into two groups and are located obliquely between the upper cover plate and the lower cover plate. The adsorption tower modules are divided into two groups, the two groups performing the adsorption and regeneration alternately, when one group performs the adsorption, the other group performs the regeneration. The lower cover plate is provided with an air inlet or an air outlet, wherein the exhaust of the air inlet and / or the air outlet is connected to a combined electric valve, wherein the alternating operation is performed in Adsorptionstorm module by the automatic control of the electric control valve.

The automatic control is that an electric control system is arranged in the electric valve, whereby the electric valve is controlled for the switching step. The electrical control system controls the timing through a PLC control 14 wherein the programmable logic technology is applied to the PLC control, wherein the adsorption-regeneration switching in the adsorption-storm module is controlled by controlling the dew-point temperature at the air outlet, wherein the adsorption-regeneration switching in the adsorption-storm module is controlled by controlling the dew point temperature at the air outlet.

The electric valve is provided at the bottom with an air outlet for the wet air, the exhaust of the air outlet is provided with a damper. The damper dampens the discharged wet air.

Embodiment 3

The working principle of Embodiment 3 is the same as Embodiment 1. The adsorption tower module is installed horizontally. The adsorption tower modules are installed horizontally. The upper cover plate and the lower cover plate are each right cover plate and left cover plate. The electric valve is installed on the right cover plate. The automatic control of the electric valve controls the switching step of the adsorption tower modules.

The electrical control system controls the timing through a PLC control 14 where the programmable logic technology is used in the PLC control whereby the adsorption-regeneration switching in the adsorption-storm module is controlled by controlling the dew-point temperature at the air outlet.

The electric valve is provided at the bottom with an air outlet for the wet air, the exhaust of the air outlet is provided with a damper. The damper dampens the discharged wet air.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• CN 200820060412 [0006]
• CN 200820123078 [0006]
• CN 200820009816 [0006]

Claims (7)

A modular air dryer comprising at least two adsorption towers, the adsorption towers having a modularized structure, the filter of the adsorption tower and the cylinders of the adsorption tower being integrated together as an adsorption tower module, the adsorption tower module being installed between an upper deck plate and a lower deck plate, the upper deck plate and the lower cover plate are each connected to two sides of the cylinder, and the upper cover plate and the lower cover plate serve as the gas inlet and the gas outlet, and by the combination of the upper cover plate and the lower cover plate a modularized air-tight and Wärmedeadsorptionssystem is constructed, whereby the The air-tight compressed air is dried without Wärmeadsorption. Modularized air dryer according to claim 1, characterized in that the Adsorptionstorm module is divided into two groups, wherein the two groups perform the adsorption and regeneration alternately, when one group performs the adsorption, the other group performs the regeneration, wherein the compressed air in one of the two groups of adsorption tower module for adsorption treatment is introduced, while the other adsorption storm module at the same time performs the regeneration treatment; when the adsorption tower used for the adsorption is saturated, it is switched to regeneration, and the other group is also switched from regeneration to adsorption. Modularized air dryer according to claim 2, characterized in that the switching is realized by providing the upper cover plate or the lower cover plate with an air inlet or an air outlet, the exhaust of the air inlet and / or the air outlet being connected to a combined electric valve, wherein the alternating operation in the adsorption tower module is performed by the automatic control of the electric control valve. Modularized air dryer according to claim 3, characterized in that the automatic control is arranged as an electric control system in the electric valve, whereby the electric valve is controlled for the switching step. Modularized air dryer according to claim 4, characterized in that the electrical control system over time controlled by a PLC control, the programmable logic technology is applied to the PLC control, wherein the switching between adsorption and regeneration controls in the Adsorptionstorm module by controlling the dew point temperature at the air outlet becomes. Modularized air dryer according to claim 5, characterized in that the PLC control controls the temperature sensor at the air inlet to exactly control the state at the air inlet, and provides the feedback to the indicator of the PLC control to control the situation of the temperature at the air inlet ; and the PLC control monitors the pressure dew point at the air outlet of the dryer, indicating the dew point, and automatically switches the working state of the adsorption tower module after the dew point temperature situation, thereby increasing the qualities of the treated air and the air and the life of the plant thus can be extended. Modularized air dryer according to claim 6, characterized in that a pressure sensor for the PLC control is provided on the exhaust of the pneumatic combined valve, when the abnormal signal is collected, is supplied to PLC control (if locomotive off due to valve malfunction or circuit failure, seal failed is), and after sending the command, the opening solenoid valve is closed by the air inlet of the dryer and at the same time the closing valve is opened at bypass (accident drying is bypassed), wherein the compressed air is introduced directly into the operating device, whereby the emergency application and removal of the accident of Loko is achieved and at the same time the warning signal is shown to the driver for the necessary repair.

Images