CZ303916B6 - Bulk material silo - Google Patents

Abstract

The bulk material silo (5) according to the present invention is comprised of a hollow body (1) bound by both two longitudinal walls (11) converging downwardly at least in their bottom portion and two face walls (12). A discharge conveyor (4), adapted for connection to a followed-up hardware, is situated underneath the silo lower edge. The silo hollow body (1) comprises a single chamber with a slot (13) performed on the silo lower edge, extending substantially all over the length thereof and situated between the longitudinal walls (11). The slot (13) is covered from inside of the silo by a continuous sliding gate (2) wherein said continuous sliding gate (2) is coupled with am shifting mechanism (3) adapted for shifting the sliding gate (2) in vertical direction .

Description

Technical field

BACKGROUND OF THE INVENTION The invention relates to a bulk material container comprising a hollow body bounded by two longitudinal walls converging at least in the lower part at an angle of contact and, on the other hand, by two end walls.

BACKGROUND OF THE INVENTION

It is known that containers of various types are used to collect bulk materials prior to further processing. For some types of loose substances, eg agricultural crops such as cereals, oilseeds and legumes, there are often contradictory requirements on the containers. One of the requirements is the easy loading of the truck container. Underground storage tanks are best suited to this requirement. Another requirement is the easy operation of the container closures in order to be able to continuously feed the downstream technological equipment, eg post-harvest lines. Underground tanks are known whose closures are located in the technological shaft. The technological shaft must be sufficiently deep, which is disadvantageous in terms of construction costs, which will be reflected in a number of measures, eg for protection against groundwater, etc. Also, the operation of closures from the technological shaft is disadvantageous because it requires frequent entry into it. A further disadvantage is that the known sub-level containers are divided into chambers, each chamber having its own closure. One disadvantage of this solution lies in the increased cost of manufacturing the chambers and the individual closures. Another disadvantage is the maintenance costs of the individual closures. Another disadvantage lies in the difficulty of the operator, which must be performed separately for each chamber. The last disadvantage is associated with the risk that the flow of bulk material to the downstream process equipment will not be continuous, continuous and in the required amount.

SUMMARY OF THE INVENTION

These drawbacks are substantially reduced by the bulk material container according to the invention, wherein the container is formed by a hollow body bounded by two longitudinal walls converging at least in the lower part at a contact angle and by two end walls whose spacing delimits the container length. Under the lower edge of the tank there is a draw-off conveyor adapted for connection to the related technological equipment. SUMMARY OF THE INVENTION The hollow body comprises a single chamber, at the lower edge of which substantially along its entire length, a slot is formed between the longitudinal walls and is covered by a continuous damper from inside the container. The width of the damper is greater than the clearance of the slot. The length of the damper is substantially equal to the length of the slot. The damper is coupled to an adjusting mechanism adapted to adjust the damper vertically.

It is possible to continuously control the flow of bulk material, e.g., grain, into the exhaust conveyor by the container according to the invention. This advantage is achieved at a lower cost of construction readiness than known solutions.

Functionally and production-friendly damper consists of a pipe whose outer diameter is greater than the clearance of the slot.

In order to be able to regulate the container closure from above, i.e. in the case of sublevel containers from ground level, the adjusting mechanism is formed by at least two rods, preferably located at the ends of the damper. The rods are articulated to the damper by their lower ends and partly

Threaded. The thread is housed in a nut attached to the magazine at points above the damper. The upper ends of the bars are coupled to the locomotive apparatus.

The locomotive device is in one alternative a servomotor, while in another alternative it is a crank fixed to the upper end of the rod.

Both the basic design and the refinement alternatives allow easy assembly and easy operation for quick and easy cleaning.

The container according to the invention may be of any type, i.e. in an under-level, above-level, transient, semi-transient or non-transient configuration, the only condition being that the longitudinal walls converge into a slot.

Overview of the drawings

1 shows an axonometric view of a container with a damper, FIG. 2 shows a section AA of FIG. 1, FIG. 3 on an enlarged scale in comparison with FIG. 2, a section through the lower part of the container; Fig. 4 is the same as in Fig. 3 with the damper in the partially open position; Fig. 5 is the same as in Figs. 3 and 4 but with the damper in the fully open position.

DETAILED DESCRIPTION OF THE INVENTION

In the exemplary embodiment, in particular, FIG. 2 shows the case where the container is designed as below-level, so that the whole lies in the terrain 6.

The container is formed by a hollow body 1 bounded by two longitudinal walls 11 and two front walls 12 (FIG. 1). The length of the longitudinal walls 11, respectively. the spacing of the end walls 12 defines the length of the container. The longitudinal walls 11 converge at least in the lower part at a contact angle and to the slot 13. The size of the contact angle a depends on the internal friction of the bulk material 5 and is preferably selected so that the bulk material 5 does not adhere to the longitudinal walls 11 but The slot 13 is formed between the longitudinal walls 11 at the lower edge over substantially the entire length of the hollow container body 1. An exemplary embodiment illustrates the case where each longitudinal wall 11 is formed by one plane and both longitudinal walls 11 converge to the slot 13. In an alternative not shown, the upper portions of the longitudinal walls 11 may be vertical while their lower portions are at contact angle and converge to the slot. 13. Whatever the shape of the longitudinal walls 11, the container body 1 comprises a single chamber.

The slot 13 is covered from the inside of the magazine by a continuous damper 2. The length of the damper 2 is substantially equal to the length of the slit 13. The width d of the damper 2 is greater than the clearance with the slit 13. The damper 2 is preferably formed by a tube 21. is an outer diameter of the tube which is greater than the clearance d of the slot 13. A conveyor belt 4, eg of the belt type, is adapted below the lower edge of the hopper, adapted to be connected to a downstream processing device, e.g. a post-harvest grain processing line. .

For the purpose of regulating the flow of bulk material 5 to the exhaust conveyor 4, the damper 2 is coupled to an adjusting mechanism 3 adapted to adjust it vertically. The adjustment mechanism 3 comprises at least two rods 31, preferably located at the ends of the damper. The rods 31 are hinged to the damper 2 by means of their hinges 22. The rods 31 are provided with a thread 32 which is received in a nut 14 secured to the magazine at points above the damper 2. The upper ends of the rods 31 are coupled to the locomotive device. The locomotor system is in the example

An embodiment of the crank 33 is fixedly connected to the upper end of the rod 31. A handle 34 is formed at the end of the crank 33. In the alternative (not shown), the movement device may be a servomotor.

Before filling the container with a loose cloth 5, the slide 2 is closed, whereby the slide 2 is lowered to the bottom of the slot 13 (FIG. 3). Thus, no loose substance 5 can flow onto the exhaust conveyor 4. After filling the container, for example, from an automobile set and, if necessary, to feed an unrecognized coupled technological device, the slider 2 is lifted by turning the cranks 33. In a more frequent one-hand operation, one crank 33 is rotated a few turns first and then the remaining one. The jamming of the damper 2 against the bars 31 prevents the articulated suspension of the damper 2 on the bars 31. Upon partial lifting of the damper 2 with the slot 13 on the exhaust conveyor 4, it receives a controlled amount of bulk material 5 (Fig. 4). When the damper 2 is fully raised (Fig. 5), a full amount of bulk material 5 flows through the aperture 13. The flow control is uniform and proportional to the lift rate of the damper 2.

Industrial applicability

The bulk material container according to the invention finds particular application in the short-term storage of agricultural crops and in their delivery to downstream technological equipment. The advantageous and economical design of the container comprises a crank mechanism, as the receiving person must always be present when receiving the crop, whose duties include verifying the quality of the received bulk material. This receiving person may also be commissioned to simultaneously change the shutter operator.

Claims (5)

PATENT CLAIMS Bulk material container (5), consisting of a hollow body (1) bounded by two longitudinal walls (11), converging downwards at least in the lower part at an angle of contact (a), and two front walls (12), the spacing of which a length of a container is defined, and a draw-off conveyor (4) is provided below the lower edge of the container, adapted to be connected to a downstream processing device, characterized in that the hollow body (1) comprises a single chamber at its lower edge substantially along its entire length a slot (13) is formed between the longitudinal walls (11), which is covered from the inside of the container by a continuous dam (2) whose width (d) is greater than the clearance (s) of the slot (13) and whose length is substantially identical with the length of the slot (13), the slide (2) being coupled to a adjusting mechanism (3) adapted to adjust the slide (2) vertically. Container according to claim 1, characterized in that the damper (2) is formed by a tube (21) whose outer diameter is greater than the clearance (s) of the slot (13). Container according to claim 1, characterized in that the adjusting mechanism (3) is formed by at least two rods (31), preferably located at the ends of the damper (2), said rods (31) being articulated to the damper by their lower ends (2) and, secondly, provided with a thread (32) which is received in a nut (14) attached to the container at points above the dam (2), the upper ends of the rods (31) being coupled to the locomotive device. Container according to claim 3, characterized in that the movement device is a servomotor. -3GB 303916 B6 Container according to claim 3, characterized in that the movement device is formed by a crank (33) firmly connected to the upper end of the rod (31).