LOAD CELL FOR METALLIC SILOS

Abstract

Disclosed is a device in the field of systems for measuring the weight of an object and in more detail concerns a load cell for metallic silos, or tanks and hoppers. The load cell for metallic silos includes: a bottom base plate for supporting it on a ground surface; a top plate for receiving and supporting a portion of a metallic silo to be weighed; a flexible element including at least one extensometer; and a spacer interposed between the bottom plate and the flexible element. Advantageously, the load cell includes a monobloc structure, substantially parallelepiped in shape, including the bottom plate, the top plate and the flexible element.

Claims

1. A load cell (1) for metallic silos, comprising: a bottom base plate for supporting it on a ground surface (P); a top plate for receiving and supporting a portion of a metallic silo to be weighed; a flexible element (2) comprising at least one extensometer (3); a spacer interposed between said bottom plate and said flexible element (2), characterized in that comprises a monobloc structure (4), substantially parallelepiped in shape, comprising said bottom plate, said top plate and said flexible element (2).

2. The load cell (1) according to claim 1, characterized in that said monobloc structure (4) comprises a first upper central portion (5) raised in height with respect to two lateral edge strips (6, 7), where said first raised upper central portion (5) produces said top plate for receiving and supporting a portion of a metallic silo to be weighed.

3. The load cell (1) according to claim 2, characterized in that said monobloc structure (4) comprises a first (8) and a second (9) groove delimiting said lateral edge strips (6, 7) with respect to said first raised upper central portion (5).

4. The load cell (1) according to claim 1, characterized in that said monobloc structure (4) comprises a second lower central portion (10) recessed with respect to two lateral edge strips (11, 12), where said two lateral edge strips (11, 12) produce said bottom base plate for supporting it on said ground surface (P).

5. The load cell (1) according to claim 4, characterized in that said monobloc structure (4) comprises a third (13) and a fourth (14) groove delimiting said lateral edge strips (11, 12) with respect to said second recessed lower central portion (10).

6. The load cell (1) according to claim 4, characterized in that the variation of height (d) between said second recessed lower central portion (10) and said ground surface (P) produces said spacer.

7. The load cell (1) according to claim 1, characterized in that said monobloc structure (4) comprises ground fastening means.

8. The load cell (1) according to claim 7, characterized in that said ground fastening means comprise four holes (15a, 15b, 15c, 15d), arranged in proximity of the four corners of said monobloc structure (4), and four corresponding screws (16a, 16b, 16c, 16d), adapted to co-act stably with four corresponding threaded bushings provided in holes produced in said ground surface (P).

9. The load cell (1) according to claim 8, characterized in that two (15a, 15b) of said four holes extend to intercept a same side (41) of said monobloc structure (4).

10. The load cell (1) according to claim 1, characterized in that said monobloc structure (4) comprises fastening means to said portion of metallic silo to be weighed comprising a plate (19) provided with a hole (20), where said fastening means to said portion of metallic silo to be weighed comprise a threaded blind hole (17) provided at the centre of said first raised upper central portion (5) and a corresponding screw (18), adapted to co-act with said corresponding hole (20) provided in said plate (19) positioned at one end of said portion of metallic silo to be weighed.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0040] Further characteristics and advantages of the invention will be more apparent from the detailed description set forth below, with the aid of the drawings, which show a preferred embodiment, illustrated by way of non-limiting example, where:

[0041] FIG. 1 shows, in a sectional view along a vertical plane, a load cell according to a preferred variant of the invention, in use below a metallic silo;

[0042] FIG. 2 shows, in a top plan view, the load cell of FIG. 1.

DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

[0043] With reference to the figures, there is illustrated a load cell 1 for metallic silos. In particular, FIG. 1 illustrates the load cell 1 adapted to be positioned under a leg of a silo provided with an end plate 19 comprising a hole 20.

[0044] In the variant illustrated, said load cell 1 comprises a monobloc structure 4, substantially parallelepiped in shape, having two longer sides 41, 42 and two shorter sides 43, 44.

[0045] Said monobloc structure 4 comprises a flexible element 2, attached to which are one or more extensometers 3 that read the mechanical deformation by means of the variation of electrical resistance that this deformation causes on their electrical circuit.

[0046] Advantageously, the structural layout of said flexible element 2 comprises a double beam.

[0047] Said monobloc structure 4 comprises a first upper central portion 5 raised by a height d with respect to two lateral edge strips 6, 7 parallel to the two shorter sides 43, 44.

[0048] Said raised first upper central portion 5 produces a top plate for receiving and supporting the leg of the silos, in particular its end plate 19.

[0049] A first 8 and a second 9 groove with substantially U-shaped section are provided between said lateral edge strips 6, 7 and said first raised upper central portion 5.

[0050] The variation of height d between said first upper central portion 5 and said lateral edge strips 6, 7 produces a step useful to allow deformation of the flexible element 2, preventing the end plate 19 from touching the two lateral edge strips 6, 7.

[0051] Said monobloc structure 4 comprises a second lower central portion 10 recessed with respect to two lateral edge strips 11, 12 also parallel to the two shorter sides 43, 44.

[0052] Said two lateral edge strips 11, 12 produce a bottom base plate for supporting said load cell 1 on a ground surface P.

[0053] Said two lateral edge strips 11, 12 also act as ground support for said flexible element 2 producing said double beam layout.

[0054] A third 13 and a fourth 14 groove with substantially U-shaped section are provided between said lateral edge strips 11, 12 and said second recessed lower central portion 10.

[0055] The variation of height between said second recessed lower central portion 10 and said ground surface P produces a spacer that creates the free space inside which the flexible element 2 can effectively deform as a consequence of the load above without interfering with the ground surface P.

[0056] Said monobloc structure 4 comprises ground fastening means for said load cell 1.

[0057] Said ground fastening means comprise four holes 15a, 15b, 15c, 15d, arranged in proximity of the four corners of said parallelepiped monobloc structure 4.

[0058] Said ground fastening means also comprise four corresponding screws 16a, 16b, 16c, 16d, adapted to engage the four holes 15a, 15b, 15c, 15d of the monobloc structure 4 and four corresponding threaded bushings inserted stably in holes (not illustrated) produced in said ground surface P.

[0059] As is evident from FIG. 2, two 15a, 15b of said four holes extend to intercept a same longer side 41 of said monobloc structure 4, so that the load cell 1 is easily removable from below the silos by removing only two of these screws, also for replacement or maintenance.

[0060] Said monobloc structure 4 further comprises fastening means of the load cell 1 to said portion of metallic silo to be weighed, and consequently to the perforated end plate 10 of the leg of the silos.

[0061] Said fastening means comprise a blind threaded hole 17 provided at the centre of said first raised upper central portion 5 and a corresponding screw 18, this latter adapted to co-act with said blind threaded hole 17 engaging the hole 20 of said end plate 19 of the leg of the silos.

[0062] Said monobloc structure 4 is made of metallic material hardened by quenching so as to obtain greater strength.

[0063] Said monobloc structure 4 is made, for example, of stainless steel or nickel-plated steel so as to obtain a solid and safe monobloc structure.