DE9319696U1 - Housing for air or exhaust gas cleaning systems - Google Patents

Description

Albert Lijsen Waldstr. 19 82Q24 Tiufkirchen· Ter/6 12*41 29 Fax 6 14 99 24 technical description State of the art with sources:

of the individually equippable housing for air or exhaust gas purification system:

The air purification systems of the usual design, due to their specific setup, only clean one type of pollution in the air or gases of industrial plants. In the rarest of cases, only one post-filter stage can be attached without major complications.

Only with considerable effort could the user of a conventional system convert the cleaning system to different separation options. Most of the time, the user bought a second system from another manufacturer and tried to achieve better separation. There is, for example, mechanical separation, (EP 543108 A 930526 A O R) physical separation, chemical separation, magnetic separation, thermal separation, electrostatic separation (US 88-11-01 A 4781 756 US 86-11-2086 E) gravitational separation and coagulation separation (centrifugal filter) (DE 9205887 U1 921015 U60) and (GB 880309-AO 8803115 GB 88-02-1188 8803115)

Problem:

The invention specified in claim 2 is based on the problem of creating a maintenance-friendly air purification system with various insert elements, whereby, depending on the type and degree of contamination, an individual combination of absorbers, filters, scrapers, permanent / electromagnetic or electrostatic can be put together.

Without this separation variability of the different separation processes, a user can only inadequately adjust the cleaning system to his type and degree of contamination, which, for example, occasionally arises due to a change in the speed of the lathe (temperature at which the medium is created).

High levels of material damage are caused by the oversaturation of mechanical separations (fiber fleece filters), physical separations (activated carbon filters), coagulation separations (oil and emulsion separators). Electrostatic separations (electrostatic) that are operated without particle pre-separation build up graphitic/ferritic deposits on the insulators within a week, which then lead to high voltage breakdowns at very short intervals. Insulators sometimes melt. These circumstances result in very high maintenance costs for the operator.

Albert Lijsen Waldstr. 19 8202?Taufrirctieö ^# "tej.^ .1*2:43.29 Fax 6 14 99 24 Description of one or more embodiments:

Embodiments of the invention are explained using Figures 1-5. They show:

Fig . 1 shows the basic housing with all elements. The shape of the housing (1) is clearly visible, in which the integrated, oil-resistant silicone seal (12) is attached.

In Fig . 2, the sump drawer (2) with the centrifuge (3) above it and a hose connection (28) to the post-cleaner stage are visible in the pulled-out position. The chemical separator (4) with the area 610 x 610 mm (standard size) can be pushed into the post-cleaner stage.

Fig . 3 shows an exploded view of a washing and cleaning process. On the side facing the machine, you can see the two connection pieces in the fifth and second housing (1), rotated by 90°, opposite the sump drawer (2). The coaxial counterflow takes place in the center of the column in a pipe (25), in which the separated air flows upwards and is discharged downwards through the middle through a pipe (26). From the ring line (24), which is supplied by the circulation pump (23), the injection effect flows downwards and draws the air into the cleaning chamber like a water jet pump.

Fig. 4 This application involves a high rolling mill in which an electrostatic device (8) is already installed at a height of 3 m, which has to be cleaned every week due to oversaturation. The connection on the cover (19) is routed to the rolling mill, the connection on the door (15) of the top housing (1) goes to the electrostatic device (8) which has already been installed. This structure ensures a high level of thermal separation in the expansion area, as three housings (1) serve as heat exchangers for thermal condensation towards room temperature. The cooled air flowing downwards in this area is blown upwards in the center by an oil mist centrifuge (3) or radial fan (27). The cold is transferred to the inflowing medium through an aluminum flexible hose connection (28) as a coaxial counterflow heat exchanger, and the colder medium thus remains in the process area. The exhaust air, which is heated by the incoming medium, is led into the hall air through the electrostatic device (8). A magnet system (7) is integrated in the sump drawer (2) for the scale that is released in the rolling mill and rises with the oil mist.

Fig. 5 is set up in the manner of a conventional circulation room air purifier in order to decontaminate the anteroom in a galvanic plant, in which parts from the baths are deposited, from chemical vapors of various compositions. It is clearly visible here that there are no connections, only an intake grille (17) and an exhaust cover (21). The volume in this room air separation process goes up to 3500 m ³ / _h .

Albert Lijsen Waldstr. 19 82024'Taufkirctiea * * IteJ. \ .1Ä43.29 Fax 6 14 99 24

A further advantageous embodiment of the invention is specified in claim 5. For individual room adaptation, each housing can be placed on top of each other at 90° or 180° and connected to any door or lid.

A further advantageous embodiment of the invention is specified in claim 6. Due to an integrated silicone seal that is oil-resistant, the housing does not pose a risk of leakage or accidents in the operating premises.

A further advantageous embodiment of the invention is specified in claim 7. A sump drawer is inserted into the lowest housing of a structure for easy maintenance. In the case of ferritic contamination, it is also possible to integrate a permanent/electromagnetic separator into this drawer.

A further advantageous embodiment of the invention is specified in claim 8. In order to freely design the process engineering equipment, the housing door must be designed optionally as a blind door for a drawer, as a connection plate for the connection and as a blow-out or suction protection grille.

A further advantageous embodiment of the invention is specified in claim 9. In order to freely design the process engineering device, the housing cover must be designed optionally as a blind cover, as a connection cover and as a blow-out or suction protection grille.

A further advantageous embodiment of the invention is specified in claim 10. In order to allow the various devices to work together efficiently, an individual adaptation must be designed between each device.

Albert Lijsen Waldstr. 19 82&THgr;24 TaufkireTieV Tel.*6 12 41 29 Fax 6 14 99 24

Reference number G 93 19 696.2 Solution:

This problem is solved with the features listed under protection claim 1 of the individual equippability/combination of the individual separation processes and the possibility of coaxial counterflow with particle pre-separation. The gravitational separation with thermal pre-separation integrated in the housing supports the particle separation. Only the combination of the separation processes achieves effective air and exhaust gas purification, since all different pollutant groups can be captured.

Benefits achieved:

The invention ensures that the air cleaning system with a natural pre-separation, through inertia and gravity, in which the largest particles, for example chips, grinding dust and scale as graphite and ferrite, do not oversaturate or clog the rest of the cleaning system. The electrostatic device also no longer breaks through with the help of this pre-separation stage.

The service life of the oil/emulsion mist separator centrifuges is 100% longer than with conventional methods. The centrifuge filter maintenance interval is therefore twice as long. This greatly reduces maintenance costs. With a structure of five housings one above the other, the air cleaning path, and thus the area of natural thermal condensation, is so large that in the case of an oil/emulsion mist, a thermal droplet-shaped pre-separation takes place in which up to 50% of the particles are separated. The user can integrate existing systems (regardless of type).

Further embodiment of the invention:

An advantageous embodiment of the invention is specified in claim 3. In the air purification process using the coaxial counterflow, the air is returned to the contaminated system if an enclosure is present.

It is a cost-effective washing process that only requires a pump (23) with a ring line (24). The rinsing follows with the same coolants and lubricants that are used in the machine, which means that the emulsion is still supplied with oxygen and therefore lasts longer.

A further advantageous embodiment of the invention is specified in claim 4. The shape of the housing is designed in such a way that it fits into one another in a funnel shape from top to bottom by simply placing them on top of one another, thus simplifying assembly and ensuring tightness.

Claims (10)

Albert Lijsen Waldstr. 19 8202* T^fkfrctteW &Tgr;&bgr;&Kgr;·&dgr; 1241 29 Fax 6 14 99 Protection claims: 1. Housing for air or exhaust gas cleaning systems up to a flow volume of 4000m ³ /h and a separation efficiency of < 0.5μ, characterized in that it is stackable, can be individually equipped and offers the possibility of coaxial counterflow of the medium to be cleaned. 2. Housing (1) according to claim 1 , characterized in that it can accommodate drawers for sumps (2), with centrifuges (3), with absorbers (chemical scrapers) (4), with filters (mechanical scrapers) (5) and/or with static scrapers (6), magnetic scrapers (7) and/or with electrostatic scrapers (8) and/or thermal scrapers (9) in a maintenance-friendly manner. 3. Housing according to claim 1 or 2 , characterized in that an additional gas washing takes place. In that the medium is sucked through liquid and/or sprinkled from above (10). 4. Housing according to claims 1-3, characterized in that the shape is designed such that the underside of one housing (1) fits into the top of the other housing (1) or also into the base frame (11). 5. Housing according to claims 1-4, characterized in that each housing (1) can be connected from above and/or from one side and can be placed on top of each other offset by 4x90°. 6. Housing according to claims 1-5, characterized in that the housings (1) are already sufficiently sealed by being placed on top of one another by means of an integrated silicone seal (12). 7. Housing according to claims 1-6 , characterized in that a permanent magnet system (7) or an electromagnet system (14) can be used optionally in the sump drawer (2). This retains all ferritic particles that would cause a high-voltage flashover in the downstream electrostatics (8). 8. Housing according to claims 1-7 , characterized in that the housing door (15) can be designed as a blind door (16) with a recessed handle, as a drawer (2) with a recessed handle and as a connection plate (17) for the connection. And can be used as an inlet or outlet protection grille (18) if required. 9. Housing according to claims 1-8 , characterized in that the cover (19) of the housing can be used once as a connection (20), once as a blind plate (19) and, if required, as an inlet or outlet protection grille (21). 10. Housing according to claims 1-9 , characterized in that an individual adapter (22) connects the devices of different manufacturers with each other.