DE29612769U1 - Device for wetting fine-grained material - Google Patents

Description

Device for wetting fine-grained material

The invention relates to a device for wetting fine-grained material, in particular intended as shotcrete or mortar, pneumatically conveyed in pipes and/or hose lines with water, which essentially consists of a hose holder that holds the hose line and a jet pipe holder that holds the jet pipe, whereby the hose holder and the jet pipe holder can be connected to one another via a nozzle ring provided with a water supply in which a flow body in the form of a double cone is arranged in an expanded wetting space and acts as a material divider with respect to the incoming conveying flow.

Such devices for wetting fine-grained material are also known to be used in underground mining, in order to provide the rock with a layer of sprayed mortar, primarily between the supports.

The generic device is described in more detail in the German utility model G 94 17 705.8. In this device, the hose holder and the jet pipe holder

The nozzle rings are designed to be screwed together using a holder for the nozzle ring. In the extended wetting chamber, a flow body is designed as a double cone, with a truncated cone arranged in the outflow direction. This truncated cone causes a vortex to form in the discharge flow at the edge of the truncated cone, which supports the mixing process of the wetted material.

However, it has been found that this design causes deposits to form in the jet pipe and on the inflow body, which can lead to blockages in the device.

In the generic device, the flow body is held in position by a web in the area of the flow cone. To prevent wear in the direction of flow, it can be provided with a wear strip.

Since this web is constantly subjected to the fine-grained material, the flow body can break off due to wear.

The invention is based on the object of creating a device for wetting in pipes and/or hose lines in which fine-grained material is conveyed, in which caking and clogging of the device are prevented, which ensures a wear-resistant mounting of the flow body and a simpler and safer connection of the conveying hose and jet pipe.

This object is achieved according to the invention by the characterizing features of claim 1.

Further training is laid down in the subclaims.

Tests have shown that caking can be avoided if the flow cone is designed with an angle of less than 45 degrees, preferably 30 degrees. This measure reduces the angle of impact of the fine-grained material on the flow cone. The material is guided more gently around the flow body. The flow speed of the impacting particles is slowed down less. The number of particles that bounce off the flow cone at right angles to the flow direction and possibly collide with other particles is reduced. The cleaning effect of the so-called sweeping grain is retained and any caking that begins to form is continuously broken down again.

By forming the outflow cone as a full cone, spaces with lower flow velocities and the resulting turbulence are no longer present. The flow around the inflow body is more even.

Another important measure to prevent build-up is the arrangement of the holes for the water spraying in the area of the outflow cone. If the holes are in the cylindrical part of the inflow body, as in the generic device, build-up can form there, which can lead to clogging of the system. This is prevented by the arrangement of the holes according to the invention.

The inflow body is held in position by fastening wings that are arranged in grooves of the nozzle ring. The fastening wings end at the inflow cone. With this arrangement, wear, as with the holder with a web in the inflow area, cannot occur.

According to a further development, the edges of the fastening wings can be bevelled. In this design

♦ t ♦*♦ * * *

In this form, the flow resistance is further reduced by the fastening wings.

The nozzle ring, the hose sleeve of the delivery hose and the jet pipe are arranged in a holder and sealed with O-rings located in grooves.

The hose sleeve also has a groove into which a coupling clip that connects the bracket to the hose sleeve can be inserted. The conveyor hose is thus quickly and securely connected to the bracket by this plug connection. The hose sleeve simultaneously fixes the fastening wings of the flow body in the grooves of the nozzle ring. The flow body can be easily replaced if the plug connection of the conveyor hose is loosened.

The jet pipe is also attached to the bracket with a plug connection with a coupling clip. In addition, the jet pipe is guided and attached in the bracket with a thread.

The aforementioned components to be used according to the invention, as well as those claimed and described in the exemplary embodiment, are not subject to any special exceptional conditions with regard to their size, shape, choice of material and technical conception, so that the selection criteria known in the respective field of application can be applied without restriction.

Further details, features and advantages of the subject matter of the invention emerge from the following description of the accompanying drawing, in which - by way of example - a preferred embodiment is shown. In the drawing shows

• C * * * » ♦·♦»■

* t «it* » « &iacgr;

Fig. 1 the device according to the invention in a cross section.

The figure shows that a conveyor hose 1 is connected to a hose sleeve 2 and a jet pipe 3 is connected to a water supply 4 by means of a holder 5. A nozzle ring 6 is arranged between the hose sleeve 2 and the jet pipe 3 in the area of the water supply 4. The nozzle ring 6 has a distribution chamber 7 in which holes 8 are arranged.

Grooves 9 are provided in the nozzle ring 6, with the help of which an inflow body 10 with fastening wings 13, 13' is held in position. The inflow body 10 has an inflow cone 11 with an angle of α = 30 degrees and an outflow cone. The nozzle ring 6 is sealed against the holder 5 by O-rings 15, 17, which are located in grooves 14, 16. In the same way, the hose sleeve 2 is sealed with a groove 18 with O-ring 19 and the jet pipe 3 with a groove 22 with O-ring 2 3.

The hose sleeve 2 is firmly connected to the holder 5 by a coupling clip 21, which is inserted into a groove 20.

The jet pipe 3 is connected to the holder 5 by means of a thread 26. In addition, the jet pipe 3 is secured with a coupling clip 25, which is inserted into a groove 24.

The hose sleeve 2 and the nozzle ring 6 are designed in such a way that the cross-section of the conveying hose 1 and the cross-section of the annular space around the flow body 10 are approximately the same at all points. The fastening wings 13, 13' are designed with bevelled edges 13a, 13'a. This

the flow resistance of the fastening wings is reduced. The outflow cone 12 , which is designed as a solid cone, evens out the flow in the wetting chamber 27.
5

When replacing the flow body, only the coupling clip 21 must be removed and the hose sleeve 2 pulled out of the holder 5. The flow body 10 can now be removed.
10

List of reference symbols

1 Conveyor hose 2 Hose sleeve 3 Jet pipe 4 Water &zgr; u guide 5 bracket 6 Nozzle ring 7 Distribution room &dgr; Drilling 9 Groove 10 Inflow body 11 Inflow cone 12 Ab s t römke gel 13, 13' mounting wing 13a, 13'a edge 14 Groove 15 O-ring 16 Groove 17 O-ring 18 Groove 19 O-ring 20 Groove 21 Coupling clasp 22 Groove 23 O-ring 24 Groove 25 Coupling clasp 26 thread 27 Wetting room &agr; angle

Claims (6)

protection claims; 10 Device for wetting fine-grained material, in particular intended as shotcrete or mortar, which is conveyed pneumatically in pipes and/or hose lines with water, which essentially consists of a hose holder which holds the hose line and a jet pipe holder which holds the jet pipe, whereby the hose holder and the jet pipe holder can be connected to one another via a nozzle ring provided with a water supply, in which a flow body in the form of a double cone is arranged in an extended wetting space, which acts as a material divider with respect to the incoming conveying flow, characterized, that the inflow cone (11) is designed with an angle (α) of less than 45 degrees and the outflow cone is designed as a full cone and the holes (8) in the nozzle ring (6) are arranged in the area of the outflow cone (12) and the conveyor hose (1), the nozzle ring (6) and the jet pipe (3) are designed to be connectable to one another with a holder (5). &idigr; » »ie* **-*■ 9&iacgr;«&idigr; S ye * *« S-? 2. Device according to claim 1, characterized in that the flow body (10) has fastening wings (13, 13') which are each guided in a groove (9) of the nozzle ring (6). 3. Device according to claim 1 and 2, characterized in that the flow cone (11) has an angle (α) between 25 to 35 degrees, preferably 30 degrees. 4. Device according to claims 1 to 3, characterized in that the edges (13a, 13'a) of the fastening wings (13, 13') are bevelled. 5. Device according to claims 1 to 4, characterized in that the hose sleeve (2) has a groove (20) into which a coupling clamp (21) can be inserted. 6. Device according to claims 1 to 5, characterized in that the jet pipe (3) is designed with a thread (26) and has a groove (24) into which a coupling clip (25) can be inserted.