DE102004042292B3 - Flat-jet nozzle for pressurized gaseous media is formed by an elongate, hollow elastomer profile which has at least one blow slit openable by internal pressure, and is partially surrounded by a rigid support body - Google Patents

Abstract

The flat-jet nozzle for pressurized gaseous media, in particular, compressed air is formed by an elongate, hollow elastomer profile (1) which has at least onelongitudinal blow slit (3) openable by internal pressure, and is partially surrounded by a rigid support body (5).

Description

The The invention relates to a flat-jet blower nozzle for cleaning and / or for Drying of larger areas, e.g. Filter band, by means of pressurized gaseous media, in particular Compressed air.

It are commercially available Flat jet nozzles known in which the supplied Compressed air in a nozzle head through a nozzle bore bundled and subsequently in the nozzle mouth through a slit-shaped Extension or by an oblique impact surface to a Flat fan is fanned out. Also known in the market are flat-jet tuyeres, at which the die head supplied Compressed air from several juxtaposed channels emerges and so at a distance results in a quasi-flat overall beam. A disadvantage of these known flat-jet nozzles is in addition to the below mentioned defects the risk of failure due to blockage of individual nozzles or nozzle channels.

In the DE 200 15 014 U1 a flat jet nozzle for cleaning liquids is proposed, in which the congestion problem is overcome in that the nozzle consists of an elastomeric material and has a dome-shaped nozzle head arranged at right angles to the body axis outlet slot which is closed at rest and elastically opens upon pressurization of the cleaning liquid , For cleaning larger areas a plurality of such nozzle valves to be mounted on a supply component and aligned so that the liquid jets sweep over covering areas. The disadvantages of a flat-jet blower nozzle constructed from a plurality of such individual nozzles are given below.

In the US 3,174,694 For example, there is proposed a flat jet nozzle for dispensing viscous liquids, in which an elastic, tubular or dome-shaped body is slotted at the exit point of the liquid and this slot is opened under the action of a mechanical force and consequent elastic deformation of the body to a nozzle. To treat larger surfaces, several of these flat steel nozzles must be mounted side by side and aligned so that the fluid jets overlap.

adversely in all the above-known solutions, the high space, Assembly and expense, the many individual components and their composition to a tuned nozzle row results. A major disadvantage of such an arrangement results from it out of the beam coverage required large Distance of the nozzles to the processing object, resulting in low impact energy and thus leads to unsatisfactory cleaning or drying performance.

From the DE 843 386 C Now, a longer flat-jet blowing nozzle for producing a homogeneous flat jet is known, having an elongated, closed at the ends profile with a substantially C-shaped cross-section, wherein the end portions of the C-shaped cross-section are formed into a nozzle-shaped outlet, which In the longitudinal direction of the profile sliding plates is partially covered. This design has, inter alia, the defect that due to the large size of the nozzle gap and the secondary runoff caused by the execution of the covered areas only a "soft" flat steel with an insufficient impact energy for cleaning purposes can be generated.

In the US 4,042,996 Finally, a flat-jet blowing nozzle is proposed, which is composed essentially of two elongated complementary half-shells, wherein the first separating surfaces are joined in a gastight manner and the second separating surfaces have a distance forming the nozzle slot from each other. A disadvantage of this design is the high cost, which is caused by the production of sufficiently precise parts for a uniform nozzle slot of small width; This is particularly true for the generation of a flat jet of high energy density, for which a uniform nozzle gap with a width of a few 1/100 mm is required. Another disadvantage is the open nozzle gap, in which accumulate dirt and thus affect the blowing function or can cancel.

task The invention is a flat-jet blower nozzle for cleaning and / or for Drying of surfaces indicate with greater latitude which overcomes the disadvantages of the prior art and the known ones Solves problems.

To achieve this object, the invention proposes to form the flat-jet blower nozzle by a longitudinally hollowed elastomeric hollow profile, which has in the blowing region along a surface line in a plane extending through the profile axis a gapless in the pressureless state blow slot. Here, the elastomeric hollow profile is taken in a rigid support body which extends at least over the length of the blow slot and the elastomer hollow profile partially encloses such that it is free only in a small area near the blow slot. Finally, the elastomeric hollow profile is provided at one end with a compressed air connection means, via which the Compressed air is supplied, while the other end is provided with a compressed air sealing means or another compressed air connection means for supplying further compressed air or for forwarding compressed air to other consumers. In the pressureless state of the blow slot is closed. Upon pressurization of the blow slot opens due to the flexibility of the elastomeric hollow profile in the open area such that the compressed air over the entire length of the slot emerges.

The Flattening jet nozzle according to the invention has across from the known solutions several advantages. As she over a uniform, high-speed, flat jet throughout the blowing area forms and thus an arrangement of the nozzle near the machined area allows result in a high impact energy and thus an improved Cleaning and / or drying performance. Through the integration of feed and nozzle and the processing-near arrangement follow substantially for the flat-jet blast nozzle according to the invention Advantages regarding Space, assembly and cost. Another advantage is the Resilience, since the blow slot at outflow of the Compressed air cleans and closes when switching off the compressed air and thus a contamination or blockage is avoided.

A particularly advantageous embodiment the flat-jet blast nozzle according to the invention has as elastomeric hollow profile a round tube made of thermoplastic - preferably Polyurethane or polyamide - on. Such pipes are available as a commodity and allow the simple production of a gap-free Blasschlitzes by separation by means of Fine-cutting tool.

at a further advantageous embodiment the supporting body means on, with the help of which its admission profile are changed in such a way can that the hoop stress of the recorded therein elastomeric hollow profile is adjustable. This can be the size of the passing air flow and thus the total energy of the flat jet to the respective requirements be adjusted. For a preferred embodiment are used as adjusting an extended Clamping slot in the support body and an adjoining one Joint area and clamping screws arranged transversely to the clamping slot proposed.

A Another embodiment of the invention provides that between the Elastomer hollow profile and the support body damping means is inserted. This cushioning agent has the task to dampen vibrations of the Blaslippen and so disturbing whistling to avoid. From the large number of possible damping means is preferred execution the insert of a pliable fleece web, in particular of Microfiber nonwoven with high adhesion, proposed.

The Invention will now be explained in more detail with reference to the accompanying drawings:

1 shows a flat-jet blowing nozzle according to an embodiment of the invention, partially cut along the section line II in 2 ;

2 shows a cross section through the flat steel tuyere along the section line II-II in 1 ;

• a) drucklosen Zustand (Ruhezustand)
• b) druckbeaufschlagten Zustand (Arbeitszustand);

3 shows an enlarged view of the cross section through the flat-jet blowing nozzle according to 2 in the

• a) unpressurized state (idle state)
• b) pressurized condition (working condition);

4 shows the cross section through a flat-jet blow nozzle according to a second embodiment of the invention with adjustable support body;

5 shows the cross section through a flat-jet blow nozzle according to a third embodiment of the invention with adjustable support body;

6 shows the cross section through a flat-jet blowing nozzle according to a fourth embodiment of the invention with a damper.

1 shows a flat-jet blowing nozzle according to an embodiment of the invention. The nozzle is equipped with an elastomeric hollow profile 1 , here a round tube made of thermoplastic material, equipped with a gap-free blow slot 3 is provided. The blow slot 3 lies in a plane through the profile axis 2 and extends over a principle unrestricted length A, which in practice is to be measured according to the width of the surface to be machined. The slotted round tube 1 is in a rigid support body 5 so conceived that this only a small outdoor area 7 in the vicinity of the blow slot 3 having. The supporting body 5 has a length L which is only slightly larger than the blow slot length A. In the present embodiment, the compressed air connection means 8a a commercially available compressed air coupling, on the one hand with the slotted round tube 1 is connected and on the other hand connected to a compressed air supply line. With 8b Here is a termination connection referred to, which is the second end of the round tube 1 pressure-tight. 2 shows a cross section through the flat-jet nozzle along the section line II-II in 1 ,

The mode of operation of the flat jet blower can be determined by the 1 and 2 with the help of 3 as follows. In the depressurized state (p _ü = 0) is the gap-free blow slot 3 due to the elastic restoring forces of the elastomeric round tube 1 as well as the support body 5 applied preload tightly closed ( 3a ). If the nozzle is over the compressed air coupling 8a supplied with compressed air (p _ü > 0), so under the effect of pressure, the Blaslippen 4 in the outdoor area 7 slightly elastically deformed, resulting in the Blasschlitzlänge A a narrow nozzle gap 3a adjusts ( 3b ). Through this nozzle gap emerges a thin flat jet at high speed. At a small distance to the surface to be machined, this results in a high impact energy, which leads to good cleaning and / or drying results.

4 shows the cross section through a flat-jet blowing nozzle according to a second embodiment of the invention. Components having the same functions as in the preceding figures are identified by the same reference numerals and will not be discussed separately. The difference of in 4 shown second embodiment with respect to in 2 shown embodiment is that the support body 5 a joint area 9a and a clamping slot 10 and clamping screws 11 having. When operating the clamping screws 11 twist the Querschittshälften the support body 5 to a slight extent around the center of gravity of the joint area 9a in the sense of narrowing or expanding the admission profile 6 , bringing the bias of the slotted round tube 1 and thus the characteristic of the flat jet is changed. High bias leads to a short-range, low-volume beam, lower bias to a long-range, high-volume beam.

5 shows the cross section through a flat-jet blowing nozzle according to a third embodiment of the invention. Components having the same functions as in the preceding figures are identified by the same reference numerals and will not be discussed separately. The difference of in 5 shown third embodiment with respect to in 4 shown second embodiment is that the supporting body 5 is made in two parts and the joint area 9b is formed by two contact surfaces. Function and effect correspond to those at 4 conditions described.

6 shows the cross section through a flat-jet blowing nozzle according to a fourth embodiment of the invention. Components having the same functions as in the previous figures are identified by the same reference numerals and will not be discussed separately. The difference of in 6 shown fourth embodiment with respect to in 2 shown embodiment is that between slotted round tube 1 and supporting body 5 a damping agent 12 is inserted. By this measure, vibrations of the Blaslippen 4 in the outdoor area 7 damped and thus avoiding whistling noises. In the embodiment of 6 is the damping insert 12 as slippery band of microfiber non-woven to interpret, which has a strong adhesive effect beyond the required damping effect and thus a secure and permanent fixation of the round tube 1 in the supporting body 5 guaranteed.

1

Elastomer hollow profile / round tube

2

profile axis

3

blow slot

4

Blaslippe

5

support body

6

Up profile

7

outdoor Space

8th

Compressed air connection means

9

joint area

10

clamping slot

11

clamping screw

12

damping means

A

Blasschlitzlänge

I

Compressed air supply

L

Supporting body length

Claims (8)

Flat-jet blowing nozzle for pressurized gaseous media, in particular compressed air, wherein - The nozzle from an elongated Elastomer hollow profile is formed, which in the blowing area along a Generating line in an approximate through the profile axis extending plane at least one, in the unpressurized State has gap-free blow slot, - The elastomeric hollow profile taken in a rigid support body which is at least over the length the blow area extends and that in the vicinity of the blow slot is penetrated by the elastomeric hollow profile and - the ends the elastomeric hollow profile with compressed air connection or closure means are provided. Flat jet nozzle according to claim 1, wherein the elastomeric hollow profile of a round tube thermoplastic is. Flat jet nozzle according to claim 2, wherein the thermoplastic material is a polyurethane or a polyamide. Flat fan tuyere after one of the preceding Going claims, wherein the support body comprises means for adjusting the circumferential bias of the elastomeric hollow profile. Flat jet nozzle according to claim 4, wherein the adjusting means of the support body by a long-drawn Cocking slot and an adjoining joint area with transverse formed to the clamping slot clamping screws are formed. Flat jet nozzle according to one of the preceding claims, wherein between elastomeric hollow profile and supporting body Damping agent is inserted. Flat jet nozzle according to claim 6, wherein the damping means a fleece is. Flat jet nozzle according to claim 6, wherein the damping means a microfiber fleece is.