EP0906875A1 - Silo - Google Patents

Abstract

A building site silo (1) has two separate chambers (3,4) holding bulk solids which are released through a dosing assembly (13) and mixed (16) for use. The two silo (1) chambers (3,4) are arranged sequentially from top (5) to bottom within the silo (1). Bulk solids from the upper chamber (3) are released through a pipe (15) which passes through the lower chamber (4). Mixing does not occur until the respective bulk solids reach the mixer unit (16).

Description

The invention relates to a silo container for storing and dispensing bulk materials, with at least two separate chambers in the elongated Silo container for storing components of the building material, the chambers over a metering device open into a mixing device.

Such silo containers are installed vertically on construction sites, e.g. Mortar dosed from it to be able to remove. To separate the various components of the Preventing building materials are different components in the different Chambers stored and can in the desired ratio via the metering device removed from the chambers and mixed together in the mixing device become.

In a silo container of this type known from the G 87 04 215.0 is in the lower A cement container is provided in the area parallel to a sand container. In this area the two containers each have approximately half the cross-sectional area of the silo container. This arrangement is suitable for mixing ratios in which the one component predominates in terms of volume.

This arrangement becomes problematic with other volume ratios of the containers or the chambers. Spreading the container in the lower area causes problems with the arrangement of the metering device in the funnel-shaped bottom of the silo container. If the small container is made higher, there may be problems with the Place the filling openings and the filling in the horizontal position of the silo container.

The invention has for its object a silo container of the aforementioned To create genus in which the components in the chambers with the desired volume ratio are provided and easy filling of the chambers and feed the components to the dosing device for a subsequent thorough mixing is possible.

This object is achieved according to the invention with a generic silo container, which is characterized in that the chambers in the longitudinal direction of the silo container seen sequentially arranged one behind the other and a connecting channel of one chamber to the dosing device at least in regions by another Chamber passes through.

The arrangement in series allows the chambers to be of the desired size be formed. With this arrangement, they can also be filled in a favorable manner be, whereby a good use of space is possible when filling the bulk material. The sequential arrangement enables the chambers to be stacked well. If the silo container is placed upright, so several chambers can be arranged one above the other be, whereby little space is used.

The chambers can be arranged compactly together. Via the connecting channel a component of the building material can be fed to the metering device, although the other component chamber is located on the intermediate route.

Conveniently, the connecting channel can cross the other chamber free-standing. Due to the free-standing arrangement, the connecting channel can be easily attached to one Chamber and the dosing device are attached. In the traversing area the connection channel is free of connection with the other chamber. He can only at a point of passage through a wall of the other chamber on it be attached.

Possibly the connection channel can be directly on the wall of the silo container issue.

As a variant of the invention, both chambers extend essentially over the entire cross section of the silo container. This means that the entire Cross section of the silo container can be used as filling depth, which leads to a good filling the chamber leads.

Optionally, the silo container has an approximately circular cylindrical shape. This form is suitable particularly good for the sequential arrangement of the chambers according to the invention with the Connecting channel.

Conveniently, at least one chamber can have at least two filling openings, seen in the longitudinal direction of the silo container spaced apart are. This means that dry substances can be filled into the chambers particularly cheaply become. Due to the spaced arrangement of the filling openings, the dry substance be introduced into the chamber at different locations so that the chamber is easier to fill and build-up material or mountains in the chamber do not disturb when filling the chamber.

The distance between the filling openings of a chamber can be about half to one Correspond to one third of the length of this chamber. This distance ensures a special good and complete filling of the chamber.

In a special way, the filling openings of the chambers in the longitudinal direction of the Silo container can be provided approximately on the same longitudinal line. This is convenient if the Silo container to be filled from one side. Then the filler openings can be as in large silo containers provided on trucks via filling openings on the top of the lying container are filled one after the other.

The metering device can preferably be designed as a cellular wheel conveyor. With help A cell wheel can remove the respective component from the chamber in the desired amount be removed. The cells of the cellular wheel enable a dosed removal of the Component from the respective chamber. For example, the desired amount can be measured by controlling the speed of the cellular wheel.

The metering device can have a separate metering agent for each chamber exhibit. This enables particularly good control of the individual components. For example, each chamber has its own dosing agent in the form of the aforementioned Cell wheel can be provided. This allows different mixing ratios to adjust.

A separate feed channel can advantageously open into the mixing device from the outside. This allows additives to be added to the building material on site. For example Water are added so that only dry substances are stored in the silo container. This means that the relatively heavy water is only mixed on site with the building material that with a silo container volume relatively much building material for preparing mortar Available.

In a special way, the feed channel can have a filling funnel.

It is proposed that the metering device into a mixing funnel of the mixing device flows. The components from the chambers are brought together in the mixing funnel and mix.

As a variant of the invention, the mixing device can have a forced mixer. With the help of the compulsory mixer, the components in the mixing device forcibly mixed together so that a more homogeneous mixture is formed.

The mixing device can conceivably be a screw conveyor provided in a discharge channel exhibit. The screw conveyor can therefore be used as a compulsory mixer for the components serve. The components are mixed together in the screw conveyor and partially tightly compressed, so that a continuous flow of building materials is released can be.

The mixed building material can preferably be on the discharge side of the mixing device discharging delivery pump may be provided. With the help of the delivery pump, the mixed Multi-component building materials are removed and can, for example can be routed to the desired location via a hose line. The delivery pump ensures the necessary funding capacity.

Fig. 1

eine Prinzipskizze eines erfindungsgemäßen Silobehälters und

Fig. 2

ein Flußdiagramm mit den Elementen eines erfindungsgemäßen Silobehälters.

An embodiment of the invention is shown in the drawing and is explained below. Show it:

Fig. 1

a schematic diagram of a silo container according to the invention and

Fig. 2

a flowchart with the elements of a silo container according to the invention.

FIG. 1 shows a silo container 1 according to the invention, which is vertical via support feet 2 can be set up on a surface. The support feet 2 can by not shown Cross and cross struts should be supported with each other.

The silo container has two separate component chambers 3, 4. They are one along Longitudinal axis 5 of the silo container 1 arranged sequentially one behind the other. The two Chambers 3, 4 each have an approximately circular cylindrical cross-sectional shape, that of the shape corresponds to the silo container 1. The silo container 1 is on its top by a approximately spherical cap-shaped cover 6 completed. Both chambers 3, 4 instruct a funnel-shaped bottom piece 7, 8 on its underside.

The upper, first component chamber 3 has a on the cylindrical outer surface Filling opening 9, which can be closed with a closure 10. The lower, second chamber 4 has filling openings spaced apart from one another on the cylindrical lateral surface 11. The clear distance between the two filling openings 11 parallel to the direction of Seen longitudinal axis 5 is about half the length of this chamber 4 in the direction seen the longitudinal axis 5. The filling openings 11 are also through closures 12 lockable. The closures 10 and 12 lie on the same surface line parallel to Longitudinal axis 5.

A metering device 13 is provided directly below the chambers 3, 4, which has two dosing means 14. A dosing agent is directly on the funnel-shaped Bottom piece 8 of the chamber 4 connected. The other dosing means 14 is one Connection channel 15 connected to the funnel-shaped base 7 of the chamber 3. The connecting channel 15 largely extends through the chamber 4. He runs parallel to the longitudinal axis 5 and is laterally somewhat opposite the center of the Cylindrical shape offset, while the dosing means 14 of the chamber 4 directly in the center the funnel-shaped base piece 8 is aligned with the longitudinal axis 5 in alignment. The connecting channel 15 and the base piece 7 are shown in dashed lines as hidden edges, although they are designed as continuous walls and the two chambers 3, 4 completely separate from each other.

The dosing means 14 are each designed as cellular pumps, those of not shown Motors are driven and a quantitative portioned decrease in of the respective chamber 3, 4 located building material.

The metering device 13 opens into a mixing device 16 which has a mixing funnel 17 and has a discharge channel 19 provided transversely thereto with a screw conveyor 18. Both dosing means 14 adjoin the widened opening of the mixing funnel 17, which tapers towards the discharge channel 19.

The screw conveyor is driven by a motor 20 in such a way that it closes building material an outlet channel 21 promotes. In the discharge duct 19 there is a separate one near the motor 20 Supply channel 22 is provided, which has a hopper 23. About the hopper 23 material can be added from the outside to the discharge channel 19, which from the Screw conveyor 18 is conveyed towards the outlet channel 21. The screw conveyor 18 serves as a compulsory mixer for forcibly mixing the from the mixing funnel 17 in the Austrakanal 19 flowing building material and optionally for mixing the of externally added material, e.g. Water. At the transition point between the Mixing funnel 17 and the discharge channel 19 can be a closure flap, not shown be provided, the discharge channel 19 and mixing funnel 17 optionally from each other separates.

A discharge pump 24 is provided on the outlet channel 21, with the aid of which the mixed one Building material can be pressed from an opening 25. At the opening 25, for example, a hose can be connected with which the building material is sprayed becomes.

In Figure 2, the basic process flow is shown as a flow chart. Same reference numbers denote the same components as in Figure 1, so that in this regard Description of Figure 1 can be referenced. The mode of operation and functioning of the exemplary embodiment of an embodiment of the invention shown in FIG Silo container are explained.

In the component chambers 3, 4, two components are separate from one another Building material stored. The metering device 13, the mixing device 16 and the output pump 24 are controlled or regulated by a control device. About the Dosing device 13 is a specific from each chamber with the aid of the dosing means 14 Volume flow taken from the respective component. By choosing the step size of the the dosing means 14 driving motors or the choice of speed can do that Mixing ratio can be determined.

The components flow from the metering means 14 into the mixing funnel 17, where they are brought together be and together in the discharge channel 19 to the screw conveyor 18 stream. From a separate reservoir 27 located outside the silo container an additional substance, for example water, can be added via the hopper 23 become. The screw conveyor 18 mixes the components, compresses them into one homogeneous building material and conveys it towards the discharge channel 19. From the Discharge channel 19, the building material is discharged via the dispensing pump 24 for spraying.

Via the filling openings 9, 11 shown in Figure 1, the components in the respective chamber 3, 4 are filled. If the silo 1 lying on a Truck is attached, these fill openings 9, 11 are skyward upwards directed so that the chambers can be easily filled from above. Through the The two filling openings 11 of the chamber 4 are spaced apart in the horizontal direction Location of the container 1 under both filling openings 11 an approximately conical hill, so that the chamber 4 are almost completely filled up to a little space can.

The silo container 1 according to the invention is particularly advantageous for insulating building materials which a component contain a relatively light insulating material, for example insulating mortar with little polystyrene balls in it. In this case, for example, the styrofoam beads be filled into the chamber 3 and a binder in the form of dry powder be filled into the chamber 4. The desired ratio is then adjusted via the dosing device. Mixing takes place only in the screw conveyor and grouting with water so that a homogeneously mixed insulating mortar is released becomes.

Claims (16)

Silo container (1) for storing and dispensing bulk building materials, with at least two separate chambers (3, 4) in the elongated silo container (1) for storing components of the building material, the chambers (3, 4) via a metering device (13) open into a mixing device (16),
characterized,
that the chambers (3, 4) in the longitudinal direction (5) of the silo container (1) are arranged sequentially one behind the other and a connecting channel (15) leads from one chamber to the metering device (13) at least in regions through another chamber (4). Silo container according to claim 1,
characterized,
that the connecting channel (15) crosses the other chamber (4) free-standing. Silo container according to claim 1,
characterized,
that the connecting channel (15) lies directly on the wall of the silo container (1). Silo container according to one of the preceding claims,
characterized,
that both chambers (3, 4) extend essentially over the entire cross section of the silo container (1). Silo container according to one of the preceding claims,
characterized,
that the silo container (1) has an approximately circular cylindrical shape. Silo container according to one of the preceding claims,
characterized,
that at least one chamber (4) has at least two filling openings (11) which are arranged at a distance from one another as seen in the longitudinal direction (5) of the silo container (1). Silo container according to claim 6,
characterized,
that the distance between the filling openings (11) of a chamber (4) corresponds to about half to a third of the length of this chamber (4). Silo container according to one of the preceding claims,
characterized,
that the filling openings (9, 11) of the chambers (3, 4) in the longitudinal direction (5) of the silo container (1) are provided approximately on the same longitudinal line. Silo container according to one of the preceding claims,
characterized,
that the metering device (13) is designed as a cellular wheel conveyor. Silo container according to one of the preceding claims,
characterized,
that the dosing device (13) has its own dosing means (14) for each chamber. Silo container according to one of the preceding claims,
characterized,
that from the outside a separate feed channel (22) opens into the mixing device (16). Silo container according to claim 11,
characterized,
that the feed channel (22) has a hopper (23). Silo container according to one of the preceding claims,
characterized,
that the metering device (13) opens into a mixing funnel (17) of the mixing device (16). Silo container according to one of the preceding claims,
characterized,
that the mixing device (16) has a positive mixer (18). Silo container according to one of the preceding claims,
characterized,
that the mixing device (13) has a screw conveyor (18) provided in a discharge channel (19). Silo container according to one of the preceding claims,
characterized,
that on the discharge side of the mixing device (16) there is a dispensing pump (24) which conveys the mixed building material.

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