AT1281U1 - Dosing system for granular goods - Google Patents

Abstract

Dosing device for granular goods, e.g. Abrasive agent of a sandblasting system, comprising a storage container for the material to be dosed, the opening on the foot side of which is arranged above a disc (4), preferably offset laterally with respect to its axis, the disc (4) being drivable with a drive device (3) and in a housing (8) surrounding it, forming a cavity (2) below the disc (4) and continuing downwards into a funnel (6), the drive device (3) being arranged above the disc (4), so that the drive shaft (12), which is preferably aligned with the funnel outlet, engages on the feed side (13) of the disk (4).

Description

AT 001 281 Ul

The invention relates to a metering device for granular material, e.g. Abrasive agent of a sandblasting system, comprising a storage container for the material to be dosed, the foot-side opening of which is arranged above a disc, preferably offset laterally with respect to its axis, the disc being drivable with a drive device and in a surrounding cavity below the disc forming and arranged downward in a funnel housing.

Dosing devices of this type have become known, for example, from the patents described below.

The CH-PS 587 759 describes a dosing device for granular material, the essential components of which are a storage container, the end of which is funnel-shaped at the foot end and a disk which is driven in a rotational manner. The foot end of the storage container is arranged lying on the disc and has a lateral opening. If the disc is stationary, no good can come out of the storage container. However, if the disk is driven, the granular material can emerge from the storage container and come to rest on the disk. From there it is subsequently conveyed from the disc into the outlet port of the metering device by a scraper plate. By changing the speed of rotation of the disc, the amount of material entering the outlet port can be varied.

FR-PS 1 146 448 also specifies a metering device for granular material. Here, too, a storage container for the granular material is arranged above a disk which can be driven in rotation. However, it is provided here that the outlet opening of the storage container is spaced from the disk and is arranged above the center of the disk. The granular material passes through the opening on the disc and is wiped off the disc when the disc is moved by a knife-wiped scraper plate. The amount of material stripped from the disk can be changed on the one hand by the speed of rotation of the disk and on the other hand by changing the position of the stripping plate; The closer the end of the scraper plate is to the drive shaft of the disk, the more material is scraped off.

In the metering device according to FR-PS 761 090, a storage container is provided, the bottom of which is designed as a disk which can be driven in rotation. On the wall of the storage container, a scraper resting on the disc is pivotally mounted. If the disc rotates, the scraper transports good from the disc into a discharge funnel. The amount of the transported goods can be achieved by changing the angle of attack of the scraper and by changing the disc speed.

A major disadvantage of the metering devices described by the patents just cited is to be seen in the fact that, in addition to a rotationally driven disk, a scraper device is necessary. Such a stripping device has the decisive disadvantage that it during the 2 AT 001 281 Ul

Operation of the system is worn and therefore requires regular inspection or maintenance.

The object of the invention is therefore to provide a metering device of the type mentioned at the outset, in which on the one hand the cited disadvantage is avoided and which on the other hand is particularly simple and requires only relatively little maintenance.

According to the invention, this is achieved in that the drive device is arranged above the disk, so that the drive shaft, which is preferably aligned with the funnel outlet, engages on the feed side of the disk.

As a result, the metering device can be assembled from only a few components, it does entirely without a scraper device, which ensures particularly reliable operation over a long period of time. outside of the outlet channel of the dosed goods, maintenance of the same is possible in a particularly simple manner.

In a further development of the invention it can be provided that a downwardly leading shaft adjoins the foot-side opening of the storage container, which shaft is arranged at an angle to the disk and at a distance above it

Disc opens.

The storage container of the granular material can thus be arranged at a distance laterally from the drive motor of the disk, as a result of which the drive motor is easily accessible.

The use of a metering device according to the invention for a high-pressure water jet system is particularly preferred.

With a metering device according to the invention, a particularly simple and reliably functioning change in the amount of the abrasive agent is possible.

The invention will now be described with reference to the accompanying drawing, which shows a metering device according to the invention in section in section.

The metering device, designated in its entirety by 1, comprises a housing 8 in which the component of the metering system 1 which is essential for the function, namely a disk 4 which can be driven in rotation, is arranged in a cavity 2 surrounding it. The granular material 11 to be metered is received by a storage container 10 arranged on the upper side of the housing 8. The supply of the goods 11 to the disc 4 takes place through a foot-side opening of the storage container 10 or through a shaft 5 adjoining the opening downwards, which is formed at an angle to the disc 4 through the housing 8 and at a distance above the Gutaufgabeeseite 13 of the disc 4, offset laterally with respect to its axis, opens.

The disk 4 is driven by a drive device 3 arranged above the disk 4, as a result of which the drive shaft 12 acts on the feed side 13 of the disk 4. The drive device 3 can be formed, for example, by an electric motor. 3 AT 001 281 ul

The cavity 2 of the housing 8 surrounding the disk 4 continues below the disk 4 into a funnel 6, the funnel outlet and disk drive shaft 12 being arranged in alignment with one another.

The operation of such a dosing system 1 is described below. The disk 4 is driven by the drive device 3 at a certain speed. The material 11 to be dosed falls from the opening on the foot side of the storage container 10 or from the shaft 5 onto the disc 4, from which the individual grains of the material 11 fall from the disc 4 into the disc 4 due to the centrifugal force acting on these grains due to the rotational movement surrounding cavity 2 are flung. From there, the grains of the material 11 to be metered subsequently fall down solely into the funnel 6 adjoining the cavity 2 solely due to the force of gravity acting on them.

A change in the throughput of the material 11 entering the outlet in this way can be achieved by varying the disk speed. If the disc 4 is stationary, no granular material 11 gets into the funnel 6; the faster the disc 4 is rotated, the faster the material 11 is conveyed from the storage container 10 into the funnel 6 or into its outlet.

An upper limit of the conveying speed is of course set by the exit speed of the granular material 11 from the reservoir opening on the foot side. Of course, the product 11 to be dosed can of course only be conveyed into the funnel outlet at the maximum throughput with which the product 11 can also emerge from the opening of the storage container 10. For the correct functioning of the metering system 1, the drivable disk 4, which is arranged within a cavity 2, is essentially necessary. This also results in other possible embodiments of the invention. For example, the housing 8 be designed so that it only has the cavity 2 for the disc 4, all other components, i.e. Storage container 10 and drive device 3 are not arranged directly in or on the housing 8, but are only in operative connection with the disk 4 in the manner described above; i.e. the drive device 3 drives the disk 4 and the foot-side reservoir opening or the shaft 5 opens out at a distance above the disk 4. Furthermore, the aligned arrangement of the funnel outlet and the drive shaft 12 is not absolutely necessary; is it e.g. For the construction of a system having a metering device 1 according to the invention, it is more favorable not to arrange the funnel outlet in alignment with the drive shaft 12, this is also possible in the sense of the invention.

Such a metering system 1 can be used, for example, in a high-pressure water jet system 7. The metered material 11, which in this application is an abrasive agent, is supplied in a particularly simple manner, namely via a channel 9 of the high-pressure water jet system 7 which adjoins the funnel 6 of the metering system 1. If the dosing system 1 is arranged above the high-pressure water jet system 7, the channel 9, as shown in the drawing, can run essentially vertically downwards, a feed device for the transport of the 4 AT 001 281 Ul abrasive agent from the dosing device 1 to the high pressure Water jet system 7 can then be omitted. Of course, the channel 9 cannot be straight, e.g. with sloping sections in some areas. 5

Claims (3)

AT 001 281 Ul CLAIMS 1. Dosing device for granular goods, e.g. Abrasive agent of a sandblasting system, comprising a storage container for the material to be dosed, the opening on the foot side of which is arranged above a disc (4), preferably offset laterally with respect to its axis, the disc (4) being drivable with a drive device (3) and in a housing (8) surrounding it, forming a cavity (2) below the disc (4) and continuing downwards into a funnel (6), characterized in that the drive device (3) is arranged above the disc (4) , so that the drive shaft (12), which is preferably aligned with the funnel outlet, engages on the feed side (13) of the disk (4). 2. Dosing device according to claim 1, characterized in that to the foot-side opening of the storage container (10) adjoins a downwardly leading shaft (5) which is arranged at an angle obliquely to the disc (4) and at a distance above the disc (4th ) flows out. 3. Use of a metering device according to claim 1 or 2 for a high-pressure water jet system (7). 6