CH647595A5 - Measuring device for detecting the rate at which a stream of bulk material is conveyed - Google Patents

Description

The invention relates to a measuring device for the measurement surface arranged to be covered, also in the vertical direction.

measurement of the flow rate of a bulk material flow with one line does not affect the measurement result.

Device for the bulk material flow and the bulk material - If the measuring surface to the guide chute around a flow-deflecting measuring surface, which is curved with a horizontal horizontal axis (concave), whereby

Measuring device detecting force components advantageously connects the curvature to a deflection of the material to be conveyed, the outlet of the guiding device and the measuring surface causing a current of approximately 40 to 60 ° from the direction of impact,

are arranged opposite each other. the impact of the impact on the measuring surface

It is known that the conveying strength of a bulk material flow bulk material can be largely switched off, in particular by measuring the conveying material from a defined measuring surface if the bulk material stream falls approximately tangentially to the curved, nosed falling height onto an inclined, flat baffle plate. The resultant of the frictional forces leaves. At otherwise constant conditions, these are the constant values for head height, in particular on the individual web sections of the curved measuring surface, the friction between runs approximately vertically in this arrangement and has

Bulk material and baffle plate, impact factor, type of material to be conveyed and - therefore practically no horizontal components that affect the

Grit, the impact force on the baffle plate is proportional to 55 measuring devices. The influence of friction on the delivery rate, whereby the proportionality factor at In- can practically also be switched off,

drive is determined and adjusted. The baffle plate is also inclined at an angle of around 60 ° to influence the friction of the guide chute, so that the dumping practically switches off and thus the impact speed

can drain off quickly. Furthermore, only the horizontality of the bulk material flow on the measuring surface is

To keep the component of the impact force at a constant level by means of a measuring device, it is expedient to hold the guide chute in order to store changes in tare due to vibration and adhering to the baffle plate.

to avoid the good. to provide.

In a known device for continuous

Quantity measurement of material flows from pourable oils shown in the drawings and in the description

Solids (DE-AS 23 27 624) is described in more detail with carriers 65. There are provided a centrifugal wheel which accelerates the material flow on FIG. 1, a delivery strength measuring device with a vibratingly high guide slide which is approximately the same for all material particles and speed in a vertical plane. The cylindrical centrifugal wheel is above an arranged measuring surface;

Fig. 2 shows a delivery rate measuring device with a swing-mounted guide chute and curved measuring surface.

Fig. 1 shows a measuring device for detecting the delivery rate with a vertically placed, flat baffle plate 1, which is suspended from vertical spring bands 2 and is supported in the horizontal direction on a load cell 3. The vertical components of all forces which act on the baffle plate 1 are absorbed by the spring bands 2. The horizontal components are forwarded to the load cell 3 and converted and displayed in the electrical part of the device in a proportional output signal.

The material to be conveyed 4 is thrown off a vibrating trough 5 and taken over by the guide chute 6. The guide chute has an inclination angle of approximately 80 ° at its upper end. The lower end of the guide chute is curved so that the bulk material hits the baffle plate 1 at an angle of inclination of approximately 45 °. The friction force components occurring on the baffle plate in the vertical direction are absorbed by the spring bands 2.

3 Ô47 5!

The guide chute 6 is mounted on rubber buffers 7 so that it can vibrate and is set in motion by a magnetic exciter 8. As a result, the final speed of the flow at the end of the guide chute is not affected by frictional forces for 6 s and is kept largely constant.

2 shows a measuring device in which, instead of the flat baffle plate, a curved measuring surface 9 receives the bulk material flow 4 approximately tangentially and deflects it from its direction of impact by an angle of approximately 60 °. The curved measuring surface can consist, for example, of a cylinder jacket piece. The plane of symmetry of the measuring surface is approximately horizontal and is arranged in such a way that the resultant of the frictional forces on the measuring surface runs approximately vertically and thus practically exerts no forces on the measuring device. The rest of the arrangement corresponds to FIG. 1.

C.

1 sheet of drawings

Claims (6)

647595 2 PATENT CLAIMS a part of its outer circumference delimiting a channel 1. A measuring device for detecting the conveying strength of a guide plate is assigned to which the material flow is guided through the bulk material flow, with a guide device for the bulk centrifugal impeller, and is directed to a flow of the material flow and a baffle plate deflecting the flow of bulk material. The baffle plate is connected to a measuring unit measuring device which detects horizontal force components and a measuring force measuring device which detects horizontal force components, the outlet of the guide device being connected, the outlet of the guide device and the measuring surface being arranged opposite one another and the baffle plate being arranged opposite one another are characterized in that the lead are. Such a device requires additional drive direction from a guide chute (6), on which the medium (centrifugal wheel, drive motor, etc.) and is not general bulk material (4) can be fed in free fall, the Füh- io used, but only for certain pourable fortress slides (6) strong in their upper part and suitable in their materials. Ren part is less inclined to accommodate the bulk In a measuring device for determining the weight of a material flow (4) as smoothly as possible and it is inclined bulk material flow (DE-PS 18 02 321) is a curved down to the measuring surface (1.9 ) to divert it, and that the measuring surface is rotatably supported and is supported with a lever, the measuring surface (1, 9) arranged essentially vertically 15 on a measuring device. The material to be conveyed becomes the measuring operator, so that the surface coming from the guide chute (6) is fed via an upstream guide chute. Bulk material flow (4) strikes it at an acute angle. The fulcrum of the measuring surface can be arranged 2. Measuring device according to claim 1, characterized in that different frictional forces between the bulk material draw, that the guide chute (6) flows in its lower part and the measuring surface does not affect the measurement result - has an inclination at the outlet such that the bulk material does not. This means that frictional influences can be largely switched off (4) at an angle of inclination of approximately 45 °. leaves. The object of the present invention is a general 3. Measuring device according to claim 1, characterized in that the measuring device for detecting the conveying strength can be used to create the measuring surface (9) towards the guide chute (6) of a bulk material flow in which only a small amount is curved around a horizontal axis, in particular concave, 25 forces arise on the measuring surface, which is formed in the measuring area. not affect the direction and therefore not the measurement result 4. Measuring device according to claim 3, characterized thereby. Here, the impact of the impact should also be such that the inclination of the guide chute (6) on the bulk material flow impinging on the measuring surface runs as little as possible and the curvature of the measuring surface (9) is thus held against one another. This object is achieved by the features specified in the patent that the bulk material flow (4) is achieved approximately tangentially according to saying 1. The dependent Pa hits the measuring surface (9). tent claims describe special types of execution of the 5. Measuring device according to claim 4, characterized in invention. shows that the curvature of the measuring surface (9) causes a deflection of the bulk material flow (4) by approximately 40 to 60 ° from the direction of impact that occurs in the measuring device according to the invention. 35 only when the bulk material flow impacts the measuring surface 6. Measuring device according to claim 1, characterized gekenn- little friction between the material to be conveyed and the baffle plate, since this indicates that the guide chute (6) vibrates against the material being conveyed only briefly touches the measuring surface. Is supported by and has a vibration exciter (8). acute impact angle is also kept small impact. Since only horizontal com- 4o components of the occurring forces are detected, existing frictional forces act which, with essentially