SU577428A1 - Densitometer for hay-straw bundles - Google Patents

Description

one

This invention relates to instruments for monitoring production processes in the harvesting of pressed hay.

Known densitometer dp bales of hay-straw materials, including piercing element mounted on raztrueochny tray baler (l.

A bale weight indicator is also known, which includes a body, a dynamometer, and bale grippers 2.

The disadvantages of known devices are the impossibility of simultaneously determining all the parameters of the bale and the need for additional calculations in the case of separate measurements.

The aim of the invention is to reduce the time for determining the parameter bale.

This is achieved by the fact that the housing of the densitometer is provided with horizontal guides with openings, and the grippers are made in the form of U-image of Hx rods, the long ends of which are placed in the holes of the guides and provided with vertical indicators, and ends of the grippers

FIG. 1 shows the density meter dp bales of hay straw material, general view; on (|) 2 - nomogram panel with coordinators.

The device has a body 1 with horizontal guides, to which the movable grippers 2 are fitted, equipped with the same springs 3. Vertical coordinators 4 and 5, which determine the length of the bale, are attached to the inner ends of the grippers. A vertical bar 6, which has a torque element 7, is omitted into the upper opening of the housing. On the panel, the straight lines S have each their own density value, their intersections with the density scale have indicators of 11. The grips 2 are pointed and have limiters 12.

The graduation of the nomogram | | of the panel is as follows.

First, the bale length scale is stirred (price of pegs in centimeters), then the bale weight scale (the division value depends on the dynamometric element and is indicated in kilograms) .5 Potential B is determined by the formula:

rfr.

where QL is the bale mass;

I - bale length | 1; jO

S - cross section. 3n of all bales of the standard cross section, when- ifetbro in the USSR,., 18O m4, therefore the form {1) (1) can be simplified:

with).

 From 0.180

Thus, by measuring the mass of the bale and its length, you can immediately calculate its density. The program of this calculation is incorporated in the construction of the nomogram. When determining the density on this device, the bale cross-section is not directly measured, since it was taken into account when building the nomogram.

To use the device on bales of non-standard cross-section, it is necessary to replace part of the nomographic field with direct 1O and a scale with density markings, constructed in accordance with the new bale cross-section dimensions.

To determine the density of the bale, the moving arms 2 move apart. Then the springs 3 introduce them into the bale up to the stop in the stopper 12. At the same time, the vertical coordinates diverge by the amount that determines the difference

between the length of the measured bale and the minimum possible specified length. When lifting a frame with a fixed bale, the horizontal coordinator determines the weight of the bale. By projecting the point of intersection of the coordinators 13 to the nearest direct 1O, at the point of contact of the direct with the scale, we find the density value. Practically accurate bale density measurement using a datalogger of up to 3

The use of a density meter simplifies the determination of the density of bales during research and the use of balers.

Claims (1)

1. US Patent No. 3,363.707, cl. 177-13 16,01,68. 2, US Patent No. 3.427870, Cl, 73-81, 18.02.69.