RU223027U1 - Dynamometric soil compactor - Google Patents

Abstract

The utility model relates to agricultural laboratory equipment, namely, to means of soil compaction to create a layer of a given hardness. The technical result is to reduce the time spent on conducting an experiment by creating a layer of soil of a given hardness. The technical result is achieved due to the fact that the dynamometer soil compactor consists of a support plate made in the shape of a circle with through holes located throughout the entire area, two cylindrical guide rods are rigidly attached to the support plate, pressure springs are installed on them, and it rests on the ends of the springs. a parallel upper plate, in which two through holes are made for installation on the guide rods, and also in this plate along the entire area facing the support plate, there are blind holes made in such a way that the soil compacting rods installed in them are located coaxially with the through holes support plate, on the back side of the upper plate, spacer and adjusting bushings and limiters (nuts) are installed on the guide rods, and a dynamometer with a handle is fixed in the center of the upper plate. The utility model will reduce the time of experimental research, increase the reliability of the results, and reduce the cost of experimental research.

Description

The utility model relates to agricultural laboratory equipment, namely, to means of soil compaction to create a layer of a given hardness in experimental studies.

A device for determining soil density is known (patent RU No. 149065), which includes a thin-walled cylinder with horizontal slots, valves in the form of plates, and triangular grooves are made on the bottom of the cylinder.

The disadvantages of the device are the inability to create a layer of soil of a given hardness in a soil channel when conducting experimental studies.

The closest is a soil density meter (patent RU No. 142749), which includes a rectangular stand, a short support plate has a hole through which a rod passes, a sealed vessel is mounted on the rod, the vessel is held with brackets, there is an arrow on the bracket, a scale of linear dimensions, towards the long side the tripod is plumb.

The disadvantages of the device are the complexity of the design and the inability to create a layer of soil of a given hardness in a soil channel when conducting experimental studies.

The technical result is to reduce the time spent on conducting an experiment by creating a layer of soil of a given hardness.

The technical result is achieved due to the fact that the dynamometer soil compactor consists of a support plate made in the shape of a circle with through holes located throughout the entire area, two diametrically opposed cylindrical guide rods are rigidly attached to the support plate, pressure springs are installed on them, at the ends the springs are supported by a parallel upper plate, in which two through holes are made for installation on the guide rods; also in the upper plate along the entire area facing the support plate, there are blind holes made in such a way that the soil compacting rods installed in them are located coaxially with the through the holes of the support plate, on the back side of the upper plate, spacer-adjusting bushings and nuts are installed on the guide rods, and a dynamometer with a handle is fixed in the center of the upper plate.

The design of the dynamometer soil compactor is illustrated by drawings: Fig. 1 shows a general view, Fig. 2 shows a top view.

The dynamometer soil compactor consists of a support plate 1, made in the shape of a circle with through holes located throughout the entire area, two diametrically opposed cylindrical guide rods 2 are rigidly attached to the support plate 1, pressure springs 3 are installed on them, a parallel located the upper plate 4, in which two through holes are made for installation on the guide rods 2, also in the upper plate 4 over the entire area facing the support plate 1, there are blind holes made in such a way that the soil compacting rods 5 installed in them are located coaxially with through the through holes of the support plate 1, on the reverse side of the upper plate 4, spacer-adjusting bushings 6 and nuts 7 are installed on the guide rods 2; a dynamometer with handle 8 is fixed in the center of the upper plate 4.

The dynamometer soil compactor works as follows.

Before work, it is necessary to check the position of the soil compacting rods 5. Apply the required pressing force to the dynamometer handle 8 using the specified load. The ends of the soil compacting rods 5 must be in the same plane.

Compaction of the soil layer in the soil channel is carried out as follows. The force p required to be applied to the dynamometer handle to create a soil layer of a given hardness T is determined by the expression:

p=TnS=Tnπd ² /4, N,

where p is the required compaction force according to the dynamometer reading, N,

T is the specified hardness of the soil layer, Pa,

n - number of sealing rods, pcs.,

S - cross-sectional area of the soil compacting rod, ^m2 ,

d - diameter of the soil compacting rod, m.

A layer of soil is evenly spread over the required area of the soil channel. The operator installs a dynamometer soil compactor, applies the required force p, controlling it using the dynamometer 8. Then, moving the device, it passes over the entire required soil surface. After this, the next layer of soil is applied and compacted in a similar way, and so on until the required thickness (depth) and soil hardness.

To change the stroke value of the soil compacting rods 5, sets of spacer and adjusting bushings 6 of different heights are used.

Claims (1)

A dynamometer soil compactor, consisting of a support plate, soil compacting rods, characterized in that two diametrically opposed cylindrical guide rods are rigidly attached to the support plate, pressure springs are installed on them, a parallel upper plate, in which two through holes are made, rests on the ends of the springs for installation on the guide rods, also in the upper plate over the entire area facing the support plate, there are blind holes made in such a way that the soil compacting rods installed in them are located coaxially with the through holes of the support plate; on the reverse side of the top plate, they are installed on the guide rods spacer and adjusting bushings and nuts; a dynamometer with a handle is fixed in the center of the top plate.