SU1751097A1 - Gravity ramp - Google Patents

Abstract

Use: relates to devices for preventing dust emission during transfer of bulk material from a container and can be used in the industry of mineral fertilizers, building materials and other industries. The essence of the invention: an upper support element is attached to the bunker, to which an elastic sleeve, reinforced with spring rings, is attached by a yoke. To the lower part of the sleeve with a collar, a camera is attached, which is made on a frame, covered with breathable material, but it is not permeable to dust. Three flexible traction organs are attached to the lower support element. Passage through the guide blocks, flexible traction organs are attached with the upper ends to the actuator. Two sensors for the presence of bulk material are installed on the camera frame at two levels. 7 il.

Description

The invention relates to the transportation of bulk dust-containing materials and can be used in the industry of mineral fertilizers, building materials and other industries.

A device for reloading bulk materials is known, comprising a telescopic tube descent and a camera with a sensor and a housing mounted on the lower end of the descent and flexible rods attached by lower ends to the chamber, and upper kinematically associated with the drive with the possibility of evenly varying their length. Its disadvantage is the complexity of the design, the rigidity of the telescopic tube, which causes jamming, the difficulty of raising and lowering the chamber and leading to an increase in the size of the device in height when folded.

Famous gravitational descent containing elastic sleeve conical shape.

attached along the perimeter of the lower and upper ends to the upper and lower supporting elements, fixed evenly along the length of the sleeve, rings having diameters of the sleeve increasing from the upper to lower ring and including a device for varying the length of the sleeve, including a drive located along the sleeve perimeter Flexible traction organs with a drive at one end, envelopes guiding blocks fixed on the upper element and connected with the second ends to the lower supporting element.

A disadvantage of this device is the curvature of the hull, which occurs, as a rule, when lifting with one central cable, and impaired patency. In addition, massive hard cuts, grips, and flexible connections unduly relieve the design.

The purpose of the invention is to improve performance by eliminating W

f

Yo

ate

about y 1

neither is the folds of the sleeves of its passage section in the process of feeding the material.

Fig. 1 shows a gravitational descent, a general view, in the lowered and raised positions; figure 2 - section aa in figure 1; on fig.Z - section BB in figure 1; figure 4 is a view In figure 1; Fig. 5 shows the split ring in the initial state; Fig. 6 shows a split ring in an operational state; figure 7 is a view of G in Fig.6.

The gravitational descent contains an upper support element 1 in the form of a nozzle to which a cone sleeve 3 fastens with a collar 2 and expands downwards, on the elastic walls 4 of which horizontal rings 5 are evenly attached along the entire length. Each lower ring has a larger diameter than the one above.

Three flexible traction bodies 6 are located in sleeve 3 along its perimeter evenly along the walls 4 on the side of the latter facing one another and are attached with their lower ends to the lower support element where the lower edges of the elastic walls 4 are attached with a clamp 7 to the dustproof chamber 8 covered with filter cloth. The upper ends of the flexible traction bodies 6 are kinematically through the guide blocks 9 connected to the actuator 10 with the possibility of uniformly changing their length. The rings 5 can be made split (spring) and inserted into the grooves 11 located on the elastic walls 4. Such rings constantly and evenly stretch the walls 4 with a certain force, which gives the sleeve 3 a round shape and the maximum possible diameter in horizontal sections. Chambers 8 are equipped with sensors 12 and 13 for controlling the level of bulk material, electrically connected (not shown) to the actuator 10.

Gravitational descent works as follows.

Camera 8 is positioned in the lower position until the floor touches the previously formed material embankment. An overloaded bulk material is supplied from the tank 14 through the sleeve 3 to the chamber 8. Air escapes from the chamber through the filter material, the dust being trapped last in the chamber. When the chamber 8 is filled with bulk material, the sensor 12 gives a signal to turn on the drive 10 on the rise. Using flexible

traction organs 6 camera 8 begins to rise.

When lifting the chamber 8, the sleeve 3 is folded, while the horizontal rings 5,

starting from the lower, wider ones, they rest on the tensioned flexible traction bodies 6, are fixed on them as on the edges of the pyramid, and rise in turn without distortions.

Three flexible traction bodies 6, due to their uniform location along the perimeter of sleeve 3 inside the latter along its elastic walls 4, eliminate the distortions of the chamber and the sleeve, press the folds of elastic walls 4 formed to the inner surfaces of the latter, expand the sleeve cross-section with the rings 5.

The rise of the camera on the signal of the sensor 12

is carried out until the moment when the sensor 13 is freed from the material and gives a signal to stop the drive 10. Then the cycle repeats until a mound 15 of the desired height is formed.

The location of the sensors and the choice of drive speed can minimize the separation of the camera from the embankment and the release of dust into the surrounding space.

Claims (1)

Invention Formula Gravitational descent containing elastic sleeve conical shape, attached around the perimeter of the upper and lower ends, respectively, to the upper and lower supporting elements, lying in horizontal planes fixed on the sleeve evenly along its length; rings having a diameter increasing from the top to the bottom ring; and a device for varying the length of the sleeve, including a drive, placed evenly around the sleeve perimeter, connected to the drive at one end each flexible traction bodies envelopes guiding blocks fixed on the upper support element and connected by second ends with the lower support element, characterized in that, in order to improve the performance characteristics by eliminating no overlap in the process of feeding the material, the flexible traction bodies are placed in the sleeve cavity with the second ends of each of them being directly fixed to the lower support element at a distance of at least 120 ° from each other, and the rings are spring-cut. ftsg.g figs Vid c (rec.5 .fy pve. 6 In id rig 7