DE4329568C2 - Device for conveying a dry, spreadable building material and method for using this device in earth building - Google Patents

Description

The invention relates to a device according to the preamble of claim 1 and a method for using this Device in earth building.

There is a major difficulty with blasting devices a certain amount of dry radiation fes, usually sand, a certain amount of air feed. With the existing very high pressure drop have simple funnel inlets because of the possibility of bridging not proven. This includes one Device as described in GB-PS 816 013. It is an allocation device for a pneumatic system in which in a tubular housing below an inlet funnel with a fixed axial distance Pistons are reciprocated and that of them and that Filling chambers formed alternate under the filling funnel and passed through a delivery tube where that Filling material should leak out by gravity. As well it’s problematic, even if it’s still common today, To provide cellular wheel sluices, because these are only possible through the Gravity of the sand will be emptied, too Air vortices in the individual cells can result in that Cost energy.

The conditions are even more difficult if they are drier  Jet or building material is supplied, whose Density is less than that of the sand, e.g. B. sawdust.

The invention has for its object a beam direction of the type mentioned so that they can easily be supplied with building material.

The solution to the problem is according to the Invention in the characterizing features of claim 1. With this construction it is possible to have a relatively accurate Dosage depending on the switching frequency of the To achieve changeover valve, using the same compressed air, which serves to transport the building material, both for movement the piston of the dosing machine as well as for emptying the Filling chambers is used. This results in a very economical operation because of an additional drive direction for the dosing device is omitted.

By an appropriate number of branch lines and Filling chambers can also achieve a finer dosage.

The invention also relates to a method in which this Device is applicable with success. There is in the technical Earth building process, using walls, ceilings and roof fillings Heavy and light concrete in the machine cleaning process in everyone desired layer thickness economically and time-saving can be produced. For this purpose, commercially available Spray cleaning machines are used, which consist of a compulsory mixer with storage pan, a worm shaft pump with supply line hose to a spray head and a compressed air supply line to the spray head. With the help of compressed air wet mortar mass is thrown onto the assigned surface, on which a layer of clay is to be applied. With a Each work step can have layers of about 6 cm each be applied. (See DE-41 32 009 C1).  

In order to be able to spray clay building materials, a spraying and eligible mortar mass can be produced. This is at Heavy clay is not a problem as the worm shaft is common Clay-sand mixtures with the corresponding moisture content can easily promote.

In order to be able to spray on several layers in a row, acceleration is advisable because it is too long Drying and setting times make the work processes uneconomical would do.

On the other hand, when building earth, the use of additional Chen setting agents are not always appropriate, especially not when applying layers, because the individual layers yourself u. U. not connect homogeneously and boundary layer zones form.

DE 37 14 387 A1 discloses a method in which a shotcrete compound a quick setting agent, namely synthetic silica powder is supplied so that it largely lossless and homogeneous from the actual one Shotcrete broth is added. This publication goes however, not beyond the prior art mentioned.

It is similar with a method according to DE 37 03 761 A1, in the almost identical way to silica or another Concrete additive for rapid setting of the sprayable Mortar mass is supplied.

In the method according to DE 27 47 247 it is provided that Materials of a mortar mass in two air streams dry one Feed spray nozzle and mix there and first supply water in the spray nozzle. To those used here Building materials also include fibers. This procedure is for the  Earth building, especially for the layering of Earth building positions are not suitable because the clay has a certain amount Swelling time required because of the late water addition here is not given under any circumstances.

To remedy this is the purpose of the invention Application method for the aforementioned device for Convey dry building materials.

The solution to the problem arises from the characterizing features of claim 8. In this The process is a parallel promotion of dry building material and moist mortar mixture possible, the mixing takes place when exiting the spray head. On the Application area there is a moisture balance and thus to accelerate the setting. The next layer can can be sprayed on after just 15 minutes.

The invention is shown in the drawing Darge presented embodiments explained in more detail. Show it:

Fig. 1 is a blasting device for air and dry building material and

Fig. 2 shows a longitudinal section through part of a Dosierein direction along the line II-II in Fig. 3,

Fig. 3 shows a cross section along the line III-III in Fig. 2 and

Fig. 4 is a spray cleaning machine with the jet device of Fig. 1 for use in earth building.

Fig. 1 shows a blasting device according to the invention. It consists of a switching valve 1 connected to a compressed air source, not shown, whose rotating or oscillating switching element 2 connects the compressed air source, symbolically represented by the arrow 3 , with a delivery line 4 and a return line 5 with the environment 6 . The conveying and return conveying lines 4 , 5 change their function with each switching position of the switching element 2 .

The conveying and return conveying lines 4 , 5 (in the position shown) are branched ver into two branch lines 7 , 8 and 9 , 10 , the branch lines 7 and 9 of the conveying and return conveying lines 4 , 5 each at the axially opposite dead center ends a tubular metering device 11 open. The remaining branch lines 8 and 10 , which can also consist of groups of branch lines, open radially in the housing 17 of the metering device 11 at points 12 , 13 and continue as outlet channels 22 , 23 on the opposite side of the housing 17 and then to to unite a common compressed air line 24 , which ends in a jet nozzle, not shown.

In the housing 17, two spaced apart arranged piston 14 out 15, with at least one interposed between piston 16 and the housing 17 filling chambers 18, 19 form, which on axial movement of the pistons 13, 14 from one dead center to the other in each case with reach the outlet of a funnel-shaped storage container 20 for dry, scatterable building material, which is under the action of vibrators 21 . The two outer pistons 14 , 15 , and any intermediate pistons 16 alternately block the mouth of the branch lines 8 , 10 during their axial movement and expose the filled filling chambers 18 to the full air pressure of the other branch lines.

At the dead center ends of the housing 17 , elastic buffers 25 are provided, which absorb the shocks of the pistons 14 and 15, respectively.

As shown in FIGS. 2 and 3, it is advantageous to let the branch lines 8 , 10 on the one hand and the outlet channels 22 , 23 , open axially offset in the housing 17 . It is also advantageous to arrange these junctions tangentially. It then results in a helical air flow when flushing the filling chambers 18 , 19 , which ensures safe discharge.

According to a further development of the invention, not shown, it is also possible to provide several pairs of filling chambers 18 , 19 and intermediate pistons 16 , which may have different sizes, with the associated branch lines and outlet channels. You can use it to control the respective supply volume, e.g. B. in that connections between the compressed air source and the filling chambers 18 , 19 by means of sliders or the like. Or by adjusting the piston stroke of the metering device are blocked so that only selected pairs of filling chambers are exposed to the air pressure of the branch lines. This can be interesting, for example, when adding building materials with different effects, the lower possible frequency of the metering device remaining the same.

As a result of the compressed air flowing through the filling chambers 18 , 19 , safe discharge is achieved. With a correspondingly larger number of intermediate pistons 16 and corresponding to the increase in the number of filling chambers 18 , 19 , a largely uniform discharge can take place.

Fig. 4 shows the application of this blasting device 25 , which is drawn thin in Fig. 4, in earth building. At 26 , a compressor is referred to as a compressed air source. The Strahlvor direction 25 is assigned to a spray cleaning machine instead of a conventional compressed air line. This consists of a compulsory mixer 27 for a moist mortar mixture of the masses 29 , 30 , which is moistened by a water source 28 . Below the compulsory mixer 27 there is a supply trough 31 with a screw pump 32 , which feeds the moist mortar mixture through a delivery hose 33 to a spray head 34 , into which the jet nozzle 35 of the blasting device 25 opens in an injector-like manner. This ensures that both the wet mortar mixture and the dry building material, e.g. B. sawdust or a hydraulically setting building material, such as gypsum, lime, cement or the like, which combines with the wet mortar mixture when sprayed, is sprayed onto a surface 36 on which an application layer 37 is to be built up.

Clay and sawdust go well sticking and hygroscopic stable connection. The clay-coated sawdust is fireproof and has a hygroscopic balance Experience has shown that a preservative between clay and wood Effect on.

Sawdust is suitable for the production of thermal insulation layers especially good because it has a low thermal conductivity. The special attraction, however, is that the sawdust acts as a pore-forming agent that it is trapped in the clay Sene sawdust is processed swollen and then in the Dry phase shrinks faster than the clay. Thereby Air pores usually arise in light clay, such as it is known for gas concrete blocks. This in turn leads to high stability and windproofness with low Density.

Sawdust is a safe waste product that is inexpensive is available in almost all sawmills.

Sawdust light clay shows in its total carbon dioxide bi low values and has ecological as a building material Quality, directly returned to the natural cycle to be able to.

In the processing of sawdust light clay, dry sawdust is conveyed to accelerate the setting via the device 25 in addition to the moist mixture. Both flow rates, of dry building material and moist mortar mixture can be steplessly controlled in a range of 15-45 l / min. As a result, lightweight clay with very low density can be produced.

For example, when creating a lightweight Roof insulation over the compressed air the entire amount of sawdust promoted, while the screw pump only the Clay broth in the required amount promotes to the To make the construction fire-proof.

To create 1 m³ of processed heavy or Approximately 4 working hours are required for light clay.

Formwork work is only possible with extremely light mixtures necessary, but generally the constructions formed by spraying any number of layers. Due to the simultaneous setting acceleration, the Total drying time greatly reduced.

Claims (10)

1. Device for conveying a dry, scatterable building material, eg. B. sand, sawdust, gypsum or the like. With a compressed air flow with a high pressure drop, a metering device opening into the compressed air line and a jet nozzle, characterized in that
that in a manner known per se the outlet of a storage container ( 20 ) for the building material opens into a rohrför shaped metering device ( 11 ) in which reciprocating pistons ( 14 , 15 , 16 ) are guided at a fixed axial distance from one another, the Pistons ( 14 , 15 ) on the dead center side of the metering device ( 11 ) with at least one intermediate piston ( 16 ) and the housing ( 17 ) of the metering device ( 11 ) form filling chambers ( 18 , 19 ) which alternate between the outlet of the storage container ( 20 ) and then one Dispensing tube are exposed and
that the pistons ( 14 , 15 , 16 ) can be actuated by a changeover valve ( 2 ) arranged downstream of a compressed air source ( 3 , 26 ), which in one or the other position by means of a feed line ( 4 ) the compressed air source ( 3 , 26 ) one dead center end of the metering device ( 11 ) and by means of a return line ( 5 ) connects the other dead center de of the metering device ( 11 ) to the ambient air ( 6 ), such that the supply and return lines ( 4 , 5 ) each by means of at least one branch line ( 8 , 10 ) alternately in the filling chambers ( 18 , 19 ) of the Dosierein direction ( 11 ) or blocked by at least one of the pistons ( 14 , 15 ) of the metering device ( 11 ). 2. Apparatus according to claim 1, characterized in that the metering device ( 11 ) has an odd number ( 2 n + 1), intermediate piston ( 16 ) and is connected to an even number ( 2 n) branch lines ( 8 , 10 ), which unite to form the compressed air line ( 24 ). 3. Apparatus according to claim 2, characterized in that a plurality of pairs of filling chambers ( 18 , 19 ) of different volumes are provided and that the connection from the compressed air source to these pairs of filling chambers ( 18 , 19 ) can optionally be shut off. 4. Device according to one of claims 1 to 3, characterized in that at the dead centers of the pistons ( 14 , 15 ) elastic buffers ( 25 ) in the housing ( 17 ) of the Dosierein direction ( 11 ) are provided. 5. Device according to one of claims 1 to 4, characterized in that it is connected instead of a simple compressed air line with the spray head ( 34 ) of a Spritzputzma machine. 6. Device according to one of claims 1 to 5, characterized in that the mouths of the branch lines ( 8 , 10 ) on the one hand and the outlet channels ( 22 , 23 ) on the other hand are arranged axially offset from one another. 7. Device according to one of claims 1 to 6, characterized in that the branch lines ( 8 , 10 ) and the outlet channels ( 22 , 23 ) open tangentially to the housing ( 17 ) of the metering device ( 11 ). 8. A method for using the device according to one of claims 1 to 7 in clay building by means of a spray plastering machine, with the spraying plastering machine a moist mortar mixture of clay (sand and clay), straw, sawdust and / or sawdust and water by means of a screw a spray head is fed in the feed hose into which the jet nozzle of the device for conveying a dry building material opens, characterized in that
that the mortar mixture is divided into a moist, pumpable portion and a pneumatically feedable, dry portion containing a substantial portion of the mortar mixture,
and that with the compressed air line ( 24 ) the dry portion of the mortar mixture is fed to the moist pumpable portion of the mortar mixture and is applied together with this to the surface ( 26 ) to be plastered. 9. The method according to claim 8, characterized in that the drying building material is sawdust. 10. The method according to claim 8, characterized in that the dry building material is clay flour.