FI93937C - Container dispensing system - Google Patents

Description

93 * 37 Tank unloading system - Utmatningssystem för behällare The present invention relates to a silo or other tank unloading-5 system which can be used, for example, for unloading blowing material from a blower silo.

The object of the invention is to provide a silo unloading system which enables a wide area unloading of the silo, reducing the risk of vaulting in the silo, with which the material feed rate can be easily adjusted during unloading and which is simple and inexpensive and which together with the silo forms a low and space-saving structure.

According to the invention, these objects have been achieved in a very satisfactory manner. The main features of the invention appear from the appended claims.

The discharge system according to the invention preferably comprises a fixed V-shaped chute forming a silo-bearing base structure and an inverted Vsn-shaped chute arranged on top of this chute and movable vertically by separate devices. The two troughs form a material discharge channel between them. With the upper chute in the raised position, the fan sucks material from the silo into said outlet duct and from there on to the desired destination. The discharge system according to the invention preferably comprises two or more parallel gutter structures as described above, the outlet ducts being connected to a connecting duct, which in turn is connected to a fan. The discharge system according to the invention further comprises an inverted V-shaped protective chute 35 inside the silo, which is arranged above the above-mentioned movable chute. This protective trough protects the moving trough and acts as a pressure receiver for the formation of the material in the silo and also as a support structure for the bottom of the silo. The two free side edges of the protective trough 2 93937 are spaced from the side walls of the above-mentioned V-shaped trough, forming passageways for the material.

The invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1 shows a horizontal section of a discharge system according to the invention, Figure 2 shows a vertical section of the discharge system 10 shown in Figure 1 along line A-A, and Figure 3 shows the same system as Figure 2 in another operating position.

In Figures 1-3, a cylindrical silo is indicated by reference numeral 15 15. Vsn-shaped solid steel gutters 1 act as a load-bearing structure for the silo. Gutter 1 has side walls 2 and 3.

An inverted V-shaped movable trough 4 with free side edges 5 and 6 is arranged on the trough 1 (see Fig. 3). The troughs 1 and 4 form a material discharge channel 7 between them. The trough 4 is vertically movable by means of air cylinder blades 16. The operation of the air cylinders can be controlled by means of 3-way solenoid valves connected to the electric control center. When the chute 4 is raised by means of air cylinders, suction slots 8 and 9 are formed between the chutes 1 and 4 (see Fig. 3). As shown in Fig. 3, a second suction gap 8 is formed between the side wall 2 of the trough 1 and the free side edge 5 of the trough 4 and a second suction gap 9 is formed between the side wall 3 of the trough 1 and the free side edge 6 of the trough 4, respectively. The silo 15 further has 30 inverted V-shaped fixed protective gutters 10 arranged above the movable gutters 4. The free side edges 11 and 12 of the protective trough 10 are arranged at a distance from the side walls 2 and 3 of the trough 1. Through the slits thus formed, the material flows over the troughs 35 1 and 4. When the chute 4 is lifted by means of air cylinders 16, the material is transferred from the suction effect of the fan 18 through the suction slots 8 and 9 to the outlet duct 7. The other end of the outlet duct 7 is connected to a connecting duct 17. The other end of the exhaust duct 7 is provided with air intakes.

In the exemplary case shown in the figures, the discharge system 5 comprises three parallel troughs 1 and troughs 4 arranged thereon, the system comprising three discharge channels 7.

Only one preferred embodiment of the invention has been described above and it is clear that it can be deviated from within the scope of the claims. Thus, for example, the air cylinders 16 described above can be replaced by other lifting devices known per se, such as various lifting levers. The control devices of the lifting devices can be, for example, electrically operated or pneumatic. In the embodiment described above, the silo is emptied under reduced pressure by means of a blower 18. Alternatively, the emptying of the silo can also be carried out by means of overpressure by blowing a fan through an exhaust duct formed by the troughs, whereby recirculated air can be used for conveying.

Claims (2)

An output system for a material contained in a container (15) comprising at least a substantially horizontal, up to open, solid trough (1) with two side walls (2, 3), forming trough (1) (15) bottom construction; a fixed downwardly open protective funnel (10) arranged above the trough (1) with two free side edges (11, 12) spaced apart from the sidewalls (2, 3) of the trough (1); and an outlet channel (7) for the material; and a device 10 (18) for feeding the material along the outlet channel (7) by means of suction or blasting action, characterized in that it further comprises a means arranged between the fixed trough (1) and the fixed protection trough (10), arranged in vertically movable lid means ( 4) with two free side edges (5, 6); and means (16) for vertical position displacement of the lid member (4); said trough (1) and lid means (4) forming between said outlet channel (7) for the material, whereby the lid member (4) is in its lower position, the side edges (5, 6) of the lid member are in contact with the sidewalls (2, 3 of the trough). , and where the lid member (4) is in the raised position, the lid edges (5, 6) of the lid member are spaced apart from the sidewalls (2, 3) of the wood forming two suction slots (8, 9) for inserting the material into the outlet duct (7). Discharge system according to claim 1, characterized in that it comprises two or more parallel troughs (1) and on top of these arranged lid means (4) for forming two or more outlet channels (7), which outlet channels (7) are joined at one end thereof with a connecting channel 30 (17).