SU1452750A1 - Bed for investigating coefficient of resistance to movement in belt conveyers provided with sliding supports - Google Patents

Abstract

The invention relates to conveyor equipment, namely, stands for investigating the solrotylation coefficient of a twin in conveyor belts by sliding soporas. The goal is to improve the accuracy of measurements of the resistance coefficient during the delivery of goods of different particle size distribution. The bench for studying the coefficient of motion in belt conveyors with sliding supports includes a base 1 with a belt conveyor. Slide supports 6 on flexible suspensions 7 are installed under the upper branch of the conveyor belt 4. There is a strain gauge 10 for sliding supports, ha 12 and a flexible bottom loading device 16. The stand is equipped with a rigid box 11 and a U-shaped frame 9. attached to the flexible bottom of the load, and the top - vertically to the U-shaped frame by means of the main and additional tons. The pipes are adjustable in length. For the work of the stand in the box poured the load. The force through the flexible bottom is transmitted to the tape. The sliding supports begin to shift and then are held tight with the strain gauge 10, which records the resistance to movement of the tape along the sliding supports. At the same time resistance to movement depends on the particle size distribution of the cargo. This improves the accuracy of the measurements. 3 il. 1C SL SD to SD FI & 1

Description

The invention relates to conveyor equipment, namely, stands for the study of the coefficient of resistance to movement in belt conveyors with sliding supports.

FIG. 1 shows the layout of the stand; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows the node I in FIG. 2

The bench for studying the coefficient of motion in belt conveyors with sliding supports contains a base 1 on which tension 2 and drive 3 drums of a belt conveyor are mounted, between which a conveyor belt 4 is tensioned, connected in a ring, a support frame 5s located under the upper branch of the belt sliding supports 6, suspended on the ropes 7 by means of prisms 8 to the U-shaped frame 9 and limited from moving by a pull with the load cell 10, the load device 1 1 in the form of a box suspended by means of power is adjustable along the length of the bar t 12 on the crossbar 13 of the frame 9 and limited to the ropes 14 being moved along the belt. The loading device 11 has rigid walls 15 and a bottom 1.6 made of flexible material with a low coefficient of friction (for example, naphthlene), which are connected between themselves elastic catfish 17, made of rubber or flexible corrugations. The change in the magnitude and nature of the load is carried out by changing the mass and the granulometric bulk load 18.

The stand works as follows. The drive drum 3 drives the conveyor belt 4, the upper branch of which rests on the slide supports 6 rigidly fixed to the support frame 5. From moving the support frame 5 in the longitudinal direction along the tape, it holds a pull 10 with a strain gauge that fixes the deflection force of the frame corresponding to the strength of the resistance to movement of the tape on the supports 6, in order to reduce the harmful resistance to the deflection of the support frame 5, the ropes 7, on which

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The frame is connected to the U-shaped frame 9 by means of prisms 8. The U-shaped frame 9 is connected to the base 1 and also serves as a support for the load device 11, suspended by adjustable bars 12 on the crossbar 13. From the movement along the belt 11 is held by the cable 14. Before starting work, after the supporting frame 5 is installed with the supporting elements 6 in the horizontal plane at the required level, the minimum clearance between the tape 4 and the bottom 16 of the load device 11 is set with the adjustable lengths of the grating 12. in addition nasypaets cargo box 18. Due to the elastic waistband 17 and a flexible bottom 16, by weight of the cargo 18, the force is transmitted to the tape 4 without changing the nature of the stress. The maximum possible load is determined by the height of the rigid walls 15.

The bench allows to obtain exact values of the coefficient of resistance to the movement of the tape, taking into account the grain size distribution of the load.

Formulavs

A test bench for the study of the coefficient of motion in belt conveyors with sliding supports, including a base with a belt conveyor, under the upper branch of the belt, on which flexible supports are installed sliding supports with a strain gauge of longitudinal movement, pull, load with a flexible bottom, similar to , in order to increase the accuracy of the measurement of the resistance coefficient for the delivery of goods of different particle size distribution, it is equipped with a rigid box and a U-shaped frame, and its rigid box The lower part is attached to the flexible bottom of the load, and the upper one is vertically to the U-shaped frame by means of the main and additional tg, made adjustable-1 and in length.

Editor N.Rogulich

FIG. five

Compiled by A.Petrov

Tehred M.Hodanich Proofreader V.Girn to

Order 7127/13

Circulation 122

VNINPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 4/5, Moscow, Zh-35, Raushsk nab. 113035

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Claims (1)

Claim A stand for studying the coefficient of resistance to movement in belt conveyors with sliding bearings, including a base with a belt conveyor, under the upper branch of the belt of which are mounted on flexible suspensions sliding bearings with a strain gauge of longitudinal movement, traction, a loader with a flexible bottom, which differs in that, for the purpose improving the accuracy of measuring the coefficient of resistance during the delivery of goods of various particle size distribution, it is equipped with a rigid box and a U-shaped frame, and a hard box of its lower h Astyu is attached to the flexible bottom of the loader, and the top is vertically to the U-shaped frame by means of the main and additional rods made adjustable in length.