SU1672223A1 - Bulk material dispenser - Google Patents

Abstract

This invention relates to the dosing of bulk materials. The purpose of the invention is to improve the accuracy of continuous dosing at low capacities. Bulk material is picked up by internal blades 7 of a horizontally mounted rotating drum 1, rises up and poured into tray 10, the adjustable entrance slit of which is covered by a visor 12. Cone-shaped, sawtooth edges of the slit (end wall of the tray and visor) and placed between blades 7 on rods x brushes, as well as the vibration of tray 7, facilitate the free passage of material through the entrance slit of tray 7 and its cleaning. 4 hp f-ly, 11 ill.

Description

This invention relates to the dosing of bulk materials and can be used in the chemical, food and electrical industries.

The purpose of the invention is to improve the accuracy of continuous dosing at low capacities.

Figure 1 and figure 2 shows an axial section of the dispenser with movable and fixed trays, respectively; Fig. 3 shows node I in Fig. 2; 4 is a cross-sectional view of the dispenser with devices for cleaning the receiving slot of the tray; Fig. 5 shows a tray and a canopy provided with parts of the surfaces of a truncated cone; figure 6 is a section aa in figure 5; Fig. 7 shows a tray and a visor provided with parts of the surfaces of a truncated cone. The free chromium of which is saw-tooth; on Fig - view B in Fig.7; figure 9 - view In

7; in fig. 10 - axial section of the dispenser, the end wall of which has the ability to perform torsional vibrations, the axis of which coincides with the axis of the storage drum; in fig. 11 is a view E of FIG. ten.

The dispenser contains a storage drum 1 consisting of rings 2 fixedly connected to the shell 3, end walls 4 with openings rigidly fastened to the bed 5 of the rigid 6, blades 7 mounted on the inner surface of the storage drum 1, drive 8, supporting rollers 9, tray 10, in which the upper working edge of the end, forming the receiving slit, is formed by the edge of plate 11, which is in the form of a mirror image of the side plate of the visor 12 fixed on the end wall of the tray 10 (see Fig. 1) . If you remove the plate 11 and the flared visor 12, it will be visible

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rectangular slit tray. In the case of a fixed tray (see Figures 2 and 3), the dispenser further comprises guides 13, in which the visor 12 is moved, and a bolt mated to the threaded hole 14 in the end wall 4 and connected to the visor 12 via the hole 15 For cleaning the receiving the slots (see Fig. 4) of the tray are rods 16 of equal length, radially directed to the axis of the storage drum, ending at the free ends with brushes 17, and the other ends fastening at the inner surface of the storage drum at a distance from each other, are multiples of between places fastening neighboring blades. The upper edges of the flange of the visor 12 and the plate 11 (the plate is not visible in FIG. 4) are made in the form of circular arcs centered on the axis of the storage drum 1, which allows the brushes 17 to pass along the entire length of the receiving slot of the tray 10. The axes of the rods 16 pass through the upper edge of the end of the tray (i.e. plate 11). Flanging the visor 12 and the plate 11 of the tray 10 (see Fig. 5) can be trapezoidal plates 18 forming the surface of a truncated cone. The angle of the formed cone is selected from the condition:

.d

where atd is the frictional angle of the movement of the bulk material.

The upper edges of the plates are made sawtooth (see Fig.7)

The device 19 (see Figs. 10 and 11) is made, for example, in the form of a hinged pneumatic cylinder 20, which is connected to the tray 10 via a hinge 21 via a bracket 22 rigidly fastened to the tray 10 so that its horizontal part is directed along the axis of the storage drum 1. In this case, the horizontal part of the bracket 22 is in the bearing support 23.

The device works as follows.

The bulk material is fed into the storage drum 1 and, when rotated, it is captured by the blades 7, rises up and drops down. Amount of material. Falling current 10, is determined by the size of the blade 7, the frequency of rotation of the storage drum 1 and the size of the receiving slit of the tray 10 (see Fig. 1 vi 2), which is controlled by either moving the tray 10 itself (in the design of Fig. 1 ), or by moving the visor 12 with the help of a bolt 19 (design according to FIG. 2). The rods 16 with brushes 17 provide

cleaning the receiving slit from foreign objects accidentally caught in the bulk material, and large particles of the material — plugs from the material being metered after passing over the tray 10 of the blade 7, which leads to an increase in the metering accuracy (see Fig. 4). The design of tray 10 and visor 12 of FIG. 5 reduces the possibility of clogging of material in the receiving slot of the tray, since it ensures free passage of the bulk material to be dosed into tray 10 after it enters the receiving slot of the tray (K). The use of the conical surfaces 18 in this case is due to the fact that they form a receiving slot of constant width,

The design of the upper edges of the parts of the frustoconical surfaces 18 of the sawtooth (see, Fig. 7) reduces the possibility of forming stoppers of dosing material in the plane of the receiving slot of the tray 10. The use of the tapered surfaces 18 in addition to the devices for cleaning the receiving slot of the tray 10 is explained by the fact that the possibility of clogging of the receiving slot of the tray is maintained between the passage of neighboring devices 16 and 17. Due to the oscillation message, the tray 10 with the center of rotation on the axis of storage drum 1 is almost completely eliminated by clogging The receiving slot of tray 10 is increased due to an increase in the relative velocity between the falling particles of the material being metered and the edges of the receiving slot of tray 10. In addition, as the tray rotates, the material flow is aligned along the tray axis when moving inside the tray to the discharge end, which has a positive effect on metering accuracy .

The device 19 for communicating the trough 10 oscillations tray operates as follows. Air is alternately supplied to fittings G and 3 pneumatic cylinders 20. and the piston of the cylinder makes translational oscillations. Through hinge 21 and bracket

22, reinforced in the bearing support

23, the oscillations are transmitted to the tray 10, transformed into rotational ones with the axis of rotation on the axis of the storage drum 1 (see Figs. 10 and 11).

Claims (5)

Claim 1. Bulk material dispenser, which contains a drum mounted rotatably around a horizontal axis with blades on the inner surface and placed inside the drum rotatably relative to each other tray and plate visor, which is different from that. in order to increase the metering accuracy at low productivities, the plate visor is made with upward flanging, and the opposite working wall of the tray is elongated to the height of flanging, and the tray or visor is mounted for movement along the axis of the drum. 2. A dispenser according to claim 1, characterized in that rods of equal length with brushes at free ends are inserted into it, the rods being fixed at equal distance between the blades on the inner surface of the drum with the possibility of contact with the upper edges of the elongated working wall of the tray or flanging the visor, with the specified upper edges are made along an arc of a circle centered on the axis of the drum. five 3. A dispenser according to claim 2, characterized in that it is provided with two trapezoidal plates which are fixed respectively on the upper edges of the flange of the visor and the elongated working wall of the tray with large bases facing each other at an angle / which is chosen from the inequality / 2at.d. whereat.d - the angle of friction of the movement of bulk material. 4. A dispenser according to claim 3, characterized in that the large bases of the trapezoidal plates are made saw-like. 5. A dispenser according to claim 4, characterized in that the tray or visor is mounted with the possibility of oscillations around the axis of the drum. FIG. Z 1 45 -L FI.4 eleven ten (Reg. 5 ll Fig.b sixteen Buffb II R V V / VWWSAA / V Fig.Yu tPue.11 Compiled by Z. Krysanova Editor L. GratilloTehred M. MorgenCorrector O. Kundrik Order 2829 Draw 402 Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. dudff kill / ueno ViiE Domtor usno renewed not ao / gsaa #