DE102019111545B4 - Antistatic hose and fresh air hose device - Google Patents

Abstract

Antistatic hose (10) made of a flexible hose material (11) in which a guide channel (12) runs, the hose (10) having a first connection piece (20) at a first end and a second connection piece (30) at a second end , characterized in that an elongated and loosely located within the guide channel (12) and not wrapped around the hose or embedded in the hose, conductive antistatic element (13) runs in the guide channel (12), that the antistatic element (13) with the the first connecting piece (20) and/or the second connecting piece (30) is conductively coupled and that the connecting piece (20, 30), which is coupled to the antistatic element (13), is conductively coupled to a grounding device (40) provided outside the guide channel (12). is.

Description

The invention relates to an antistatic hose, in particular a fresh air hose or a compressed air hose, and a fresh air hose device with such an antistatic hose.

Antistatic hoses are required for the conduction of gases such as fresh air, explosive gases, certain concentrations of a gas in the air, explosive vapors or explosive aerosols or gas-particle mixtures. By providing these antistatic hoses, a static charge on the hose and thus a spark jump that leads to an explosion can be avoided.

From the DE 10 2017 205 031 A1 An antistatic fuel pipe with electrically conductive strips embedded lengthwise in the pipe wall is known.

Furthermore, the reveals EP 2 541 115 A1 an antistatic tube with strips arranged helically on the outside, the strips being connected in one piece to a grounding located outside the tube.

In the CN 201 748 053 U discloses a multilayer hose with two wires arranged within the layers, one wire being arranged helically between two layers and the second wire being threaded between one of the two layers and the first wire arranged helically.

From the CN 205 298 876 U a hose is also known with two helically arranged wires, which are each arranged on the outer wall and inner wall and are considered advantageous for the dimensional stability of the hose due to their spring properties.

The CN 201 396 529 Y discloses an antistatic ventilation duct with a wire arranged helically on the outer wall, which is electrically connected to a grounding device at one end of the duct.

Furthermore, the reveals US 6,235,232 B1 a casting process for producing hoses with antistatic wires embedded lengthwise in the wall.

In addition, from the DE 89 16 064 U a breathing apparatus with an air hose to which a pneumatic tool can be connected is known.

The DE 10 2016 216 117 A1 discloses a protective suit with a respiratory protection unit for use in chemically and/or biologically contaminated environments.

In potentially explosive areas where a worker or emergency responder needs to be supplied with fresh air, such as in oil tanks, in silos, in the sewerage system, in slurry pits, sewage treatment plants, biogas plants or during fire brigade operations, there is a risk of a static charge on the worker or the emergency responder uses a discharge to cause an explosion of a flammable agent or medium. To avoid this, antistatic hoses are used in such areas.

Antistatic hoses are also required when discharging or guiding explosive gases, mixed gases, vapors, aerosols or gas-particle mixtures. Such gases include natural gas, hydrogen, propane, butane, methane and acetylene. Evaporated, flammable liquids include Acton, solvents, cleaning agents, degreasers, gasoline vapors or the like.

To achieve the antistatic effect, it is known to embed or wrap an antistatic element in the hose. Embedding or wrapping requires a comparatively large amount of effort. It should also be taken into account that, depending on the length of the hose, an antistatic element of different strength or an antistatic element with sufficient electrical conductivity must be used. If the hose is very long, several dozen or even hundreds of meters, it is necessary to provide a different antistatic element than for a hose that is only a few meters long. In this respect, different hoses must be provided for different lengths.

It would be desirable to provide an antistatic hose that can be manufactured more cheaply, can be used universally and is robust at the same time.

According to a first aspect of the invention, this object is achieved by a hose with the features of claim 1.

The hose is made of a particularly flexible hose material in which a guide channel runs, the hose having a first connection piece at a first end and a second connection piece at a second end. The first connection piece can be designed to be connected to a gas supply device for supplying gas into the hose. The second The connecting piece can be designed to be connected to a discharge device for discharging the gas carried in the hose. An elongated, electrically conductive antistatic element, which lies loosely within the guide channel and is conductively coupled to the first connecting piece and/or the second connecting piece, runs in the guide channel. The connecting piece to which the antistatic element is coupled is conductively coupled to a grounding device provided outside the guide channel. The grounding device can be used to ground an electrical charge generated by static charge on the air duct or other equipment or clothing worn by the worker.

The inventive arrangement of the elongated and conductive antistatic element in the guide channel, i.e. within the hose, means that the antistatic element does not have to be wrapped around the hose or embedded in the hose, as is provided in the prior art. Accordingly, the antistatic element can be made much shorter, so that there are savings in the material of the antistatic element compared to wrapping the antistatic element around the hose. It is also advantageous that the antistatic element is located inside the hose, protected from external environmental influences.

In addition, according to the invention, the antistatic element lies loosely within the guide channel. Loose in the sense of the invention means in particular that the antistatic element is not arranged along its length on the hose or the hose material. Furthermore, in particular, Lose means in the sense of the invention that the antistatic element is not arranged on the hose or the hose material, with the exception of the conductive coupling on the first connection piece and/or second connection piece. However, in its loose position, the antistatic element can contact the hose or the hose material from the inside, i.e. within the guide channel. When the hose is held horizontally or in use, the antistatic element, when coupled to the second fitting, hangs from the second fitting.

A preferred area of application for the antistatic hose according to the invention is the potentially explosive areas as described above. However, the antistatic hose according to the invention can also be used in other areas in which there is no risk of explosion due to static charges. An example of such a further area of application is the medical field, in which the tube according to the invention can be used in ventilators for ventilating patients, for example in hospitals. This avoids discharges from patients onto nursing staff that are perceived as unpleasant.

The antistatic element can be arranged in the guide channel essentially following the longitudinal extent of the guide channel.

The antistatic element is preferably designed as a wire. The wire represents a cost-effective way of forming the antistatic element. Furthermore, the wire is flexible so that it can easily follow any deformations that occur when using the hose. The wire can be wrapped or bordered, or can be designed as a bare wire.

Furthermore, the antistatic element is preferably at least partially made of metal, in particular copper. This ensures particularly good antistatic properties of the antistatic element.

It is further preferred that the antistatic element is designed to be longer than the hose. This results in a loose position of the antistatic element within the guide channel, in which the antistatic element has a high degree of flexibility within the guide channel. The antistatic element can also follow bends, stretching or compression of the hose material without it being damaged.

Preferably, the antistatic element is conductively coupled from within the guide channel to the first connecting piece and/or the second connecting piece. This makes production easier and further prevents damage to the antistatic element from the outside. In particular, the antistatic element is coupled to the first connecting piece and/or to the second connecting piece by clamping, welding or screwing.

It is further preferred that the grounding device has a flexible, conductive connecting element and a grounding rod conductively coupled to the connecting element. Because of its flexibility, the connecting element can be moved independently of the hose to avoid tearing of the conductive connection to the grounding rod and still allow sufficient freedom of movement for the worker or emergency responder. The grounding rod can be designed, for example, in the form of a rod, an anchor, a peg or a band.

Furthermore, it is preferred that the connecting element is a conductive wire rope with a first th loop, which is conductively arranged around the first connecting piece, and / or with a second loop, by means of which the ground rod is conductively coupled to the connecting element. By means of the first loop, the first connecting piece can be coupled to the grounding rod without having to modify the first connecting piece, for example having to provide a coupling means on the first connecting piece. The coupling of the flexible wire rope and the grounding rod using the second loop is also simple and therefore cost-effective.

Preferably, the first connecting piece and/or the second connecting piece have rotatable claw couplings, which are fastened in particular on grommets of the first connecting piece and/or the second connecting piece. The nozzles represent a connecting link between the hose and the rotatable claw couplings. In particular, the rotatable claw couplings are rotatably arranged on the nozzles. The claw couplings have at least two claws which can be brought into engagement with corresponding sections on the gas supply device and/or the discharge device in such a way that an airtight seal can be produced between the hose and the gas air supply device and/or the discharge device. The rotatable claw couplings can be made of a metal, in particular brass. The grommets can also be made of a metal. This improves the stability of the connections on the hose.

The hose material preferably also consists of a plastic, in particular polyurethane. This enables a light and flexible hose that is adequately protected against external influences.

In addition, the hose is preferably designed as a folded hose. This increases the flexibility of the hose even further.

Depending on the length of the hose material, several antistatic elements can be used. Antistatic elements with different conductivities and/or different diameters can also be provided. If the hose is very long, which can be several dozen meters or even hundreds of meters long, then at least one antistatic element with correspondingly good conductivity must be provided in order to ensure sufficient dissipation of static charges. In such a case, the antistatic element can have a correspondingly large diameter or be made of a correspondingly suitable material.

The hose can in particular be designed as a fresh air hose, in which case the first connecting piece is set up to be connected to a fresh air hose device for supplying fresh air into the fresh air hose, and the second connecting piece is set up to be connected to a breathing hose or to a Breathing mask to be connected.

The hose can also be designed as a compressed air hose, which can be subjected to a slight excess pressure, in particular in the range of a few. With such a hose, media, especially fresh air, can be safely transported and supplied to a person, for example.

According to a second aspect of the invention, the invention solves the problem set out at the beginning with a fresh air hose device with an antistatic hose according to the invention, the first connection piece being connected to the fresh air hose device and the second connection piece being connected to the breathing hose or the breathing mask.

Preferably, the first connecting piece is conductively coupled to a grounding device, the grounding device having a flexible, conductive connecting element and a grounding rod conductively coupled to the connecting element, and wherein the grounding rod is grounded on the fresh air hose device. The fresh air hose device thus not only provides the functionality of supplying fresh air via a fresh air outlet of the fresh air hose device, which is coupled to the first connection piece, but also the functionality of grounding the antistatic hose.

Further details and advantageous refinements of the invention can be found in the following description, on the basis of which an exemplary embodiment of the invention is described and explained in more detail.

• 1 eine perspektivische Ansicht auf ein erfindungsgemäßes Frischluft-Schlauchgerät; und
• 2 eine Draufsicht auf einen erfindungsgemäßen antistatischen Schlauch.

Show it:

• 1 a perspective view of a fresh air hose device according to the invention; and
• 2 a top view of an antistatic hose according to the invention.

1 shows a perspective view of a fresh air hose device 50 according to the invention. The fresh air hose device 50 can, for example, have a fresh air inlet, a blower and / or at least one fresh air filter unit, which, however, is in 1 are not shown. An antistatic fresh air hose 10 according to the invention is connected to a fresh air outlet 51 of the fresh air hose device by means of a first connecting piece 20, which is connected to a first end of the fresh air hose 10 is arranged, connected. The fresh air hose 10 according to the invention will be described later with reference to 2 explained in more detail. During operation, the fresh air hose 10 can be subjected to a slight excess pressure.

At a second end of the fresh air hose 10, which is the end of the fresh air hose 10 opposite the first end, a breathing hose 60 is connected by means of a second connecting piece 30, which is arranged at the second end of the fresh air hose 10. The breathing tube 60 in turn is connected to a breathing mask 70, which is placed on a face of a worker 90 to supply fresh air from the fresh air tube device 50. The breathing tube 60 is also arranged on a shoulder strap 80 that the worker 90 wears.

The worker 90 rises, as in 1 is shown, into an oil tank 100, the interior of which is at risk of explosion due to oil residues and hydrocarbon vapors contained therein. In order to avoid an explosion due to discharge due to static charging of the fresh air hose 10 on the oil tank 100, the antistatic fresh air hose 10 is grounded on the fresh air hose device 50 by means of a grounding device 40. Alternatively, the grounding device 40 can be arranged at another location for grounding the fresh air hose 10. The grounding device 40 is also referred to 2 explained in detail.

Even if in 1 the fresh air hose 10 shown is described as antistatic in the sense according to the invention, which is designed here in the manner of an extension hose for the breathing hose 60, the breathing hose 60 can additionally or alternatively also be designed as a fresh air hose 10 according to the invention. It is also possible to connect the fresh air hose 10 according to the invention directly to the fresh air hose device 50 and the breathing mask 70, i.e. without the breathing hose 60 shown. Likewise, the exemplary embodiment shown here of a worker 90 in an oil tank 100 is only an exemplary area of application.

2 shows a top view of the antistatic fresh air hose 10 of the fresh air hose device 50 according to the invention 1 . The fresh air hose 10 is in the present case designed as a folded hose and has a hose material 11. The hose material 11 is flexible and connected to one another in the form of a hose or tube over a length of the fresh air hose 10. An air duct 12 of the fresh air hose 10 is formed within the hose material 11 and is used to transport fresh air from the first end of the fresh air hose 10 to the second end of the fresh air hose 10.

An elongated, conductive antistatic element 13 runs loosely in the air duct 12 within the fresh air hose 10. In the present case, the antistatic element 13 is designed as a wire made of copper. The antistatic element 13 is longer than a length of the fresh air hose 10 from the first connecting piece 20 to the second connecting piece 30. The fact that the antistatic element 13 runs loosely in the air duct 12 can be seen in 2 recognize that the antistatic element 13 runs in a serpentine shape within the air duct 12. The antistatic element 13 does contact the hose material 11 in places, but is preferably not arranged, in particular fixed, at any other point than on the first connecting piece 20 and the second connecting piece 30 on the hose material 11. The antistatic element 13 is therefore located exclusively within the fresh air hose 10 and is protected from external influences. Furthermore, the arrangement of the antistatic element 13 inside the fresh air hose 10 compared to an arrangement outside the fresh air hose 10, for example between the folds of the fresh air hose 10 designed as a folded hose, so that the antistatic element 10 would be wrapped around the fresh air hose 10, has the advantage that significantly less material is required the antistatic element 13 is necessary. The invention allows significantly less expensive copper to be used for the antistatic element 13 to achieve the same antistatic properties.

With the present fresh air hose 10, production is also very simple. The antistatic element 10 is arranged, in particular clamped, in a grommet 21 of the first connecting piece 20 and a grommet 31 of the second connecting piece 30. The hose material 11 is also clamped between the nozzles 21, 31 and thus fixed. A claw clutch 22, 32 is rotatably arranged on each of the grommets 21, 31. The claw couplings 22, 32 each have two claws 23.1, 23.2, 33.1, 33.2, which can be brought into engagement with corresponding sections on the fresh air tube device 50 and the breathing tube 60 in order to produce an airtight connection. An annular groove is formed between the grommet 21 and the claw coupling 22 of the first connecting piece 20. A first loop 42 of the grounding device 40 is placed around this annular groove. The first loop 42 has a smaller circumference than a circumference outlined by the claws 23.1, 23.2, in particular a smaller circumference than the claw coupling 22, so that the loop 42 cannot detach from the annular groove. Furthermore, the first loop is 42 formed by a flexible, conductive connecting element 41 of the grounding device 40 designed as a wire rope. The connecting element 41 conductively couples the first connecting piece 20 to a grounding rod 44. For this purpose, a second loop 43 of the connecting element 41 is arranged in an opening 45 of the grounding device 40.

Even if the exemplary embodiment describes a fresh air hose device with a fresh air hose, the invention is not limited to this application. Instead of the fresh air hose described, hoses for other gases, gas mixtures, vapors or the like can be provided according to the invention. Instead of the fresh air hose device, a gas supply device can generally be provided according to the invention. Instead of the breathing mask, a differently designed discharge device can be provided for discharging the gas carried in the hose.

Claims (12)

Antistatic hose (10) made of a flexible hose material (11) in which a guide channel (12) runs, the hose (10) having a first connection piece (20) at a first end and a second connection piece (30) at a second end , characterized in that an elongated and loosely located within the guide channel (12) and not wrapped around the hose or embedded in the hose, conductive antistatic element (13) runs in the guide channel (12), that the antistatic element (13) with the first connecting piece (20) and/or the second connecting piece (30) is conductively coupled and that the connecting piece (20, 30), which is coupled to the antistatic element (13), is conductively connected to a grounding device (40) provided outside the guide channel (12). is coupled. hose (10). Claim 1 , characterized in that the antistatic element (13) is designed as a wire. hose (10). Claim 1 or 2 , characterized in that the antistatic element (13) is at least partially made of metal, in particular copper. Hose (10) according to one of the preceding claims, characterized in that the antistatic element (13) is longer than the hose (10). Hose (10) according to one of the preceding claims, characterized in that the grounding device (40) has a flexible, conductive connecting element (41) and a grounding rod (44) conductively coupled to the connecting element (41). hose (10). Claim 5 , characterized in that the connecting element (41) is a conductive wire rope with a first loop (42) which is conductively arranged around the first connecting piece (20), and / or with a second loop (43) by means of which the grounding rod (44) is conductively coupled to the connecting element (41). Hose (10) according to one of the preceding claims, characterized in that the first connecting piece (20) and/or the second connecting piece (30) have rotatable claw couplings (22, 32), which are located in particular on nozzles (21, 31) of the first connecting piece (20) and/or the second connecting piece (30) are attached. Hose (10) according to one of the preceding claims, characterized in that the hose material (11) consists of a plastic, in particular polyurethane. Hose (10) according to one of the preceding claims, characterized in that the hose (10) is designed as a flexible corrugated hose. Hose according to one of the preceding claims, characterized in that the hose is a fresh air hose or compressed air hose. Fresh air hose device (50) with an antistatic hose (10) according to the preceding claim, characterized in that the first connection piece (20) is connected to the fresh air hose device (50) and the second connection piece (30) to the breathing hose (60 ) or the breathing mask (70). Fresh air hose device (50). Claim 11 , characterized in that the first connecting piece (20) is conductively coupled to a grounding device (40), the grounding device (40) having a flexible, conductive connecting element (41) and a grounding rod (44) conductively coupled to the connecting element (41). , and wherein the ground rod (44) is grounded to the fresh air hose device (50).

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