SE515234C2 - Mobile device and method for unloading bulk goods - Google Patents

Abstract

A mobile discharging device for pneumatic handling of bulk goods, comprising a base frame (3) which is mounted on wheels (2) and on which there are arranged at least two containers (7a, 7b), an air unit (4), and a filter means (6) for removing particles carried by air evacuated from the respective containers (7a, 7b) in connection with application of a sub-atmospheric pressure in the same, said filter means (6) comprising at least one filter element (30) which is made of a fibre material. The air unit (4) allows application of a sub-atmospheric pressure in each of the containers (7a, 7b) for supplying bulk goods to the respective containers (7a, 7b) through a supply conduit (9) and applying a pressure above atmospheric in each of the containers (7a, 7b) for discharging bulk goods from the respective containers (7a, 7b) to a discharge conduit (23). The discharging device is characterised in that the filter means (6) is arranged outside the containers (7a, 7b), and that the filter means (6) communicates with the discharge conduit (23) through a clearing conduit (27) and comprises a means for releasing particles collected in said at least one filter element (30). The filter means (6) is arranged to collect the released particles in a bottom region (28) of the same and, when necessary, to discharge the same to the discharge conduit (23) through said clearing conduit (27).

Description

10 15 20 25 30 35 515 254 2 To empty the tank, an overpressure is applied in the container, whereby the bulk goods can be pushed out of the container.

During filling of a container, the negative pressure prevailing in the container forms an air flow in the suction line.

This air flow carries the bulk goods from the cargo hold to the container. When the air flow enters the container, its speed is greatly reduced, which means that the air flow is no longer able to support the bulk goods which thus fall down into the container.

It has been found that the air extracted from the container by the vacuum pump carries with it a smaller amount of particles and it has therefore in practice been found necessary to arrange a filter means in the container, through which filter means the extracted air must pass. The air drawn from the container to the vacuum pump will thus be substantially particle-free, which is necessary so that the vacuum pump is not spoiled.

However, there are disadvantages with the unloading device described above.

A major disadvantage is associated with the filter means of the device, which have been found to be prone to clogging and which have a rather limited durability.

This results in frequent operational disturbances with extensive maintenance work as a result, during which maintenance work the device can not be used for unloading bulk goods. The known unloading device thus has an unsatisfactory possible degree of utilization. The filter means have also proved to be rather cumbersome and time-consuming to replace, which prolongs the downtime and thereby further lowers the possible degree of utilization of the unloading device.

Another disadvantage is associated with the unloading capacity of the device. The clogging of the filter means causes pressure losses throughout the system, which of course lowers the unloading capacity of the device. Something which also affects the unloading capacity of the known device is the changes between the different phases for emptying and filling the respective containers. Each such change takes time and thus lowers the unloading capacity of the device. It would thus be desirable to have a unloading device which has a higher unloading capacity.

Summary of the Invention The term degree of utilization used above and hereinafter refers to the extent to which operation of the device is permitted, taking into account the required downtime.

The term unloading capacity used hereinafter and hereinafter refers to the capacity with which unloading is allowed during operation of the device. The object of the present invention is with the above in mind to provide an improved unloading device of the type described above and a correspondingly improved method of unloading. of bulk goods.

A special object is to provide an unloading device which allows an improved degree of utilization and which preferably also allows an improved unloading capacity.

A further object of the invention is to provide a method for unloading bulk goods by means of a unloading device, which method allows an improved degree of utilization of the device and preferably also an improved unloading capacity of the device.

Additional purposes will be apparent from the following description and the appended claims.

In order to achieve the objects, in accordance with the present invention, a unloading device with the features specified in claim 1 and a method with the features specified in claim 8 are provided. Preferred embodiments of the device appear from claims 2-7.

More particularly, in accordance with the invention, there is provided a mobile unloading device for pneumatic handling of bulk goods, comprising a wheel-supported base body, on which are arranged at least two containers, an air unit and a filter arranged outside the containers. 254 4 gan, which air unit allows the application of a negative pressure in each of the containers for feeding bulk goods to the respective container via a feed line, the filter means being arranged for removing particles carried by air evacuated from the respective container. in connection with the application of a negative pressure therein, and which the air unit allows the application of an overpressure in each of the containers for discharging bulk goods from the respective container to a discharge line, which device is characterized in that the filter means comprises at least a filter element for separating said particles from the evacuated air by filtration and that the filter means is connected to the discharge line via a purge line and comprises a means for releasing particles trapped in the at least one filter element, the filter means being arranged for collecting the detached particles in a bottom region thereof and if necessary for discharging them to the discharge line via said purge line.

In this way, a mobile unloading device is provided which allows time-efficient unloading of bulk goods from, for example, a ship.

The design of the unloading device according to the invention further means that the durability of the filter means is extended.

On the one hand, the thermal load on the filter member is reduced. In connection with the application of an overpressure in a container, compressed air is introduced into it.

Such compressed air is so hot that normal filter materials have difficulty withstanding the thermal load for a long time. Thanks to the fact that the filter means is arranged externally if and for example with a valve means separated from the containers, it becomes possible to avoid the filter means being exposed to the hot air.

Furthermore, the load on the filter member caused by pressure variations is also reduced. The reason for this is again that the filter means is arranged outside the containers, which means that the filter means never has to be subjected to any overpressure but is only subjected to a negative pressure in connection with evacuation of air from the respective container.

In connection with the feeding of the bulk goods into the container, a so-called spraying effect of particles normally occurs, which is formed when bulk goods enter the container at high speed and thereby hits the bulk goods already in the container. Said spraying action can, if it hits the filter means, cause a mechanical wear on the filter means. This mechanical wear is avoided due to the external location of the filter member about the containers.

The above-mentioned spraying effect also risks, if it hits the filter means, clogging the same more than normal. Thereby, the pressure difference across the filter member increases and thus also the risk of the filter member collapsing.

Due to the fact that the filter means is arranged externally about the containers, the risk of clogging of the filter means, which clogging is caused by said spraying action, is eliminated.

Thus, the construction of the device according to the invention means that the durability of the filter member increases significantly and that the risk of clogging of the filter member is reduced. This reduces the occurrence of operational disruptions as well as the required maintenance work.

The maintenance work is also simplified by the location of the filter member. The reason for this is that only one filter means for all containers is required, which means that the time required for changing filter means can be reduced. Furthermore, no intervention needs to be made in the respective container in connection with filter organ replacement.

This is a significant advantage since containers of said type are normally classified as pressure vessels. The containers must thus be inspected before commissioning each time they have been opened. The filter means arranged outside the containers may in itself be classified as a pressure vessel, and thus the filter means may also need to be inspected each time it is opened. However, due to the extended durability of the filter means, the interventions in the filter means become less frequent and thus also the required inspections.

The unloading device according to the invention thus has a filter member with a relatively long durability and a reduced tendency for clogging. The maintenance work required for the care of the filter member is reduced and becomes easy to perform. This reduces the incidence of operational disruptions and shortens the time required for maintenance work. Thus, downtime is minimized, which significantly improves the utilization rate of the device.

Furthermore, clogging of the filter means causes increased pressure losses throughout the system, which lowers the device's unloading capacity. Due to the fact that the filter means is arranged externally if the containers, there is no such risk of clogging of the filter means caused by said spraying action. Thus, pressure losses caused by clogging of the filter means are reduced, which of course has a positive effect on the unloading capacity of the unloading device.

Thanks to the fact that the filter means is arranged outside the containers, it also becomes possible to arrange the filter means next to the containers. In this way - without exceeding the permissible total height of the unloading device - the height of the containers can be increased, which means that the volume delimited by each container increases. This, of course, also contributes positively to the device's unloading capacity, as the number of time-consuming changes between the different phases for filling and emptying is thereby reduced. The reduced number of shifts also means reduced wear on the valves of the device.

According to a preferred embodiment of the device, the filter means is arranged in a vacuum line connectable to each container, via which the air unit acts only for application of a negative pressure in the containers.

The device according to the invention further preferably comprises a pressure line connectable to each container, via which the air unit only acts for applying an overpressure in the containers.

The air unit advantageously comprises a vacuum pump for evacuating air from the containers for applying a negative pressure therein. The air unit further advantageously also comprises a compressor for introducing air into the containers for applying an overpressure therein.

The air unit is advantageously arranged for applying a negative pressure in one of the containers while simultaneously applying an overpressure in another of the containers.

According to a further preferred embodiment, the device according to the invention comprises an operable arm mounted on the base frame, on which the feed line is supported, a nozzle mounted on an outer end of the feed line being movable by maneuvering the arm.

Furthermore, in accordance with the present invention, a method for pneumatic unloading of bulk goods is provided by means of a mobile unloading device, which comprises a wheel-supported base body, on which at least two containers and an air unit are arranged, comprising the steps of applying by means of the air unit a negative pressure in one of the containers in order to thereby produce a suction effect in a supply line connected to the container, wherein the air evacuated for application of a negative pressure in the container is purified by means of a filter means arranged externally around the containers, and to apply a an outer end of the feed line mounted nozzle to the bulk goods to be unloaded, whereby said bulk goods are sucked into the feed line and transferred to the container, which method is characterized by the steps of directing the air evacuated from the container via a vacuum line to the filter means , which acts to purify the evacuated air filtering through at least one filter element, to release particles trapped in the at least one filter element by means of a means of the filter means so that these particles are collected in a bottom region of the filter means and, if necessary, to discharge the collected particles from said bottom region via a purge line. to a discharge line connected to said container.

The invention will now be described, by way of example, with reference to the accompanying drawings.

Brief Description of the Drawings Fig. 1 shows a perspective view of a mobile unloading device in accordance with the present invention.

Fig. 2 shows a partially sectioned perspective view of a part of the device shown in Fig. 1.

DESCRIPTION OF EMBODIMENTS In Figs. 1 and 2, to which reference will now be made, a preferred embodiment of the mobile unloading device according to the invention is illustrated.

The unloading device is designed as a towing trailer 1 for a towing vehicle (not shown) and thus comprises a base body 3 supported by wheels 2. An air unit 4 is arranged on the base body 3 with a compressor (not shown) and a vacuum pump (not shown), a filter member 6, two containers 7a, 7b and a movable arm 8 with an input line 9 in the form of a suction line 10.

The suction line 10 carries at its one end 11 a nozzle 12 and is at its other end 13 via valve means 14a, 14b for feeding bulk goods connected to respective containers 7a, 7b at a top region 15 thereof.

A valve means 16a, 16b for discharging air is also arranged at the top region 15 of the respective containers 7a, 7b, via which valve means 16a, 16b the containers 7a, 7b are connected to a vacuum line 17 extending to the filter means 6. The filter means 6 are in turn 10 15 20 25 30 35 515 254 9 connected to the vacuum pump of the air unit 4 via an evacuation line 18.

A valve means (not shown) for supplying air is arranged at the respective containers 7a, 7b, via which valve means the containers 7a, 7b are connected to a common pressure line 21 which is itself connected to the compressor of the air unit 4.

Each container 7a, 7b stands at its bottom region 20 via a valve means 22a, 22b for discharging bulk goods in connection with a discharge line 23. The discharge line 23 comprises a branch pipe 24a, 24b connected to each container 7a, 7b, which in their turn connected to a common, not shown transport line. Pneumatic conveyors 26a, 26b driven by the compressor are connected to the manifolds 24a, 24b.

Finally, a cleaning line 27 extends between a bottom region 28 of the filter member 6 and one of the manifolds 24a. A valve member 29 is arranged in this cleaning line 27.

The mobile unloading device is primarily intended for unloading bulk goods, such as cement powder, from ships.

The unloading device is then moved by means of a towing vehicle along a quay and mounted to a position adjacent to the vessel in question. The nozzle 12 of the suction line 10 supported by the arm 8 is then applied by maneuvering the movable arm 8 to one of the ship's cargo spaces for access to the bulk goods contained therein.

The unloading of the bulk goods takes place by alternately filling and emptying the containers 7a, 7b, ie one container 7a; 7b is filled when the second container 7b; 7a is emptied and vice versa.

For filling the container 7a, for example, the associated valve means 14a and 16a for feeding bulk goods and for discharging air, respectively, while the valve means 22a for discharging bulk goods and the valve means for feeding air are closed. Thereafter, the vacuum pump is started for evacuating air from the container 7a via the vacuum line 17. The air is then sucked to the filter means 6 and from there on to the vacuum pump.

This creates a negative pressure in the container 7a, which negative pressure in turn causes a suction effect in the suction line 10. Bulk goods will thus be sucked in through the nozzle 12 of the suction line 10 and be carried by the air stream thus generated for transport to the container 7a. When the air flow enters the container 7a, its speed is greatly reduced and thus also its load-bearing capacity, whereby the bulk goods fall into the container 7a.

The air evacuated from the container 7a will carry with it a small amount of particles, which are separated from the air in filter elements 30 of the filter member 6. From there, the thus purified air is led to the vacuum pump via the evacuation line 18.

When emptying, for example, container 7a, the previously open valve means 14a and 16a are closed while the previously closed valve means are opened. Air is introduced by means of the compressor into the container 7a via the pressure line 21 and the overpressure formed in the container 7a forces the bulk goods out to the manifold 24a. The air flow generated by the conveyor 26a arranged at the manifold 24a carries the bulk goods with it and leads it out to the transport line (not shown) for further transport, for example to a silo.

The filter means 6 is continuously cleaned by means of a means for releasing particles trapped in the filter elements 30 of the filter means 6. This means may for instance comprise a compressor (not shown) which regularly produces an air shock directed towards the filter element 30, which receives them in the filter element 30 the trapped particles to be released and fall into the bottom region 28 of the filter means 6. The filter means 6 may in this case comprise a level guard, which indicates when it is time to empty the filter means 6. In this case its valve means 29 are opened, whereby the released particles are discharged the manifold 24a connected thereto for further transport to the transport line.

The filter member 6 is arranged externally about and at a distance from the containers 7. This avoids clogging and mechanical wear of the filter element 30 of the filter member 6 as a result of the spraying action which occurs when the bulk material is fed into the containers 7a, 7b and already hits it in the containers. 7a, 7b existing bulk goods.

The compressed air pumped into each container 7a; 7b for applying an overpressure therein is normally quite hot. More specifically, the air is so hot that on contact with the filter element 30 it can adversely affect the filter material contained therein. However, the filter means 6 is arranged externally and communicates with the containers 7a, 7b via a vacuum line 17 which can be closed by means of valve means 16a, 16b, which means that it becomes possible to avoid such contact between the filter elements 30 of the filter means 6 and the hot air. .

Thus, the thermal load on the filter member 6 is lowered.

The fact that the filter member 6 is arranged externally about the containers 7a, 7b means that it is also not exposed to said overpressure, which for obvious reasons reduces the load caused by pressure variations over the filter member 6 thereon.

In summary, the load on the filter member 6 and its filter elements 30 caused by mechanical, thermal and pressure variations has been reduced. This prolongs the durability of the filter member 6, which in turn means that the occurrence of operational disturbances is reduced and that the maintenance work required for the care of the filter member 6 is minimized. Both cleaning and replacement of the filter element 30 need to be done less frequently. Furthermore, the filter member 6 is arranged so that the risk of a collapse of the filter member 6 caused by clogging of the filter member 6 has been significantly reduced. Finally, in the case of cleaning or filter element replacement, intervention is required in only one place, which of course facilitates the intervention. This is of course due to the fact that the filter means 6 acts for cleaning air which is evacuated from both containers 7a, 7b. All in all, this allows a relatively high degree of utilization of the unloading device according to the invention, since downtime caused by operational disturbances or maintenance work is greatly reduced.

The filter means 6 is, as previously mentioned, arranged so that the risk of clogging of its filter element 30 as a result of said spraying action has been eliminated. This reduces the pressure losses caused by clogging, which of course means that the capacity of the device increases.

The total height of the unloading device is normally limited by various laws and regulations. Due to the fact that the filter member 6 has been arranged externally and next to the containers 7a, 7b, these can with a maintained total height be given a relatively larger volume compared to the known case, where a filter member is arranged in the top region of each container. The relatively larger volume of the containers 7a, 7b means that the number of changes required during the unloading work between filling and emptying the containers 7a, 7b is reduced. Each change takes time and due to the number of changes decreases, the unloading capacity of the unloading device increases. A reduced number of required changes also means that the valve means of the device is subjected to a reduced wear, which of course entails an extended service life of said valve means. It is understood that the unloading device according to the invention is not limited to the embodiment shown but several modifications and variations are possible. .

The invention is thus defined exclusively by the appended claims.

Claims (8)

10 15 20 25 30 35 515 234 13 PATENT REQUIREMENTS Mobile unloading device for pneumatic handling of bulk goods, comprising a base frame (3) supported by wheels (2), on which are arranged at least two containers (7a, 7b), an air unit (4) and an outer part of the containers (7a, 7b ) filter means (6), which air unit (4) allows the application of a negative pressure in each of the containers (7a, 7b) for feeding bulk goods to the respective containers (7a, 7b) via a feed line (9) , the filter means (6) being arranged for removing particles carried by air evacuated from the respective containers (7a, 7b) in connection with the application of a negative pressure therein, and which the air unit (4) allows the application of an overpressure in each and one of the containers (7a, 7b) for discharging bulk goods from respective containers (7a, 7b) to a discharge line (23), characterized in that the filter means (6) comprise at least one filter element (30) for separating of said particles from the evacuated air give by filtration and that the filter means (6) communicates with the discharge line (23) via a purge line (27) and comprises a means for releasing particles trapped in the at least one filter element (30), the filter means (6) being arranged for collecting the loosened particles in a bottom region (28) thereof and, if necessary, discharging them to the discharge line (23) via said purge line (27). Device according to claim 1, wherein the filter means (6) is arranged in a (17) connectable to each container (7a, 7b): only vacuum line via which the air unit (4) operates for application of a negative pressure in the containers (7a, 7b). Device according to claim 2, further comprising a pressure line (21) connectable to each container (7a, 7b), via which the air unit (4) only acts for applying an overpressure in the containers (7a, 7b). Device according to any one of the preceding claims, wherein the air unit (4) comprises a vacuum pump for evacuating air from the containers (7a, 7b) for applying a negative pressure therein. Device according to any one of the preceding claims, wherein the air unit (4) comprises a compressor for introducing air into the containers (7a, 7b) for applying an overpressure therein. Device according to one of the preceding claims, in which the air unit (4) is arranged for applying a negative pressure in one of the containers (7a; 7b) while simultaneously applying an overpressure in another of the containers (7b; 7a). ). Device according to any one of the preceding claims, further comprising a maneuverable arm (8) mounted on the base frame (3), on which the feed line (9) is supported, one on an outer end (11) of the feed the nozzle (9) mounted nozzle (12) is movable (8). Method for pneumatic unloading of bulk goods by maneuvering the arm by means of a mobile unloading device, which comprises a base frame (3) supported by wheels (2), on which at least two containers and an air aggregate are arranged (7a, 7b). (4), that by means of the air unit comprising the steps (4) comprising applying a negative pressure in one of the containers (7a; 7b) in order thereby to produce a suction effect in a supply line (9) connected to the container (7a; 7b). , the air evacuated for application of a negative pressure in the container (7a; 7b) is purified by means of a filter (6), surface means and arranged outside the containers to be fitted on an outer end (11) of the feed. nozzle (12) mounted to the bulk material to be unloaded, whereby said bulk material is sucked into the feed line (9) and transferred to the container (7a; 7b), to lead it from the container (17) characterized by steps (7a; 7b) evacuated (6), which acts to purify the evac the air through the air via a vacuum line to the filter means filtered through at least one filter element (30), to release by means of a means of the filter means (6) particles trapped in the at least one filter element (30) so that these particles are collected in a bottom region (28) of the filter means (6) and, if necessary, discharging the collected particles from said bottom region (28) (27) to an outlet connected to said container via a cleaning line (7a; 7b) line (23).