RU202622U1 - ACOUSTIC SEED NUMBER SENSOR - Google Patents

Abstract

The utility model relates to the field of control devices for sowing seeds of crop crops, containing a sensor for the number of seeds, and can be used in various designs of test equipment for testing the metering devices of precision seeders. The specified technical result is achieved by the fact that in the design of the acoustic sensor for the number of seeds to directly control the distribution of seeds in a row when testing the seeding devices of precision seeders, electrical signal leads, a dynamic microphone enclosed in a housing containing an electrical audio cable Jack 3.5 mm with connectors are used , cushioning rubber for mounting a dynamic microphone and a duralumin receiving plate. 1 ill.

Description

The proposed utility model relates to the field of control devices for sowing seeds of crop crops containing a sensor for the number of seeds, and can be used in various designs of test equipment for testing the seeding devices of precision seeders.

Known device (Patent for utility model 50363 RF (USSR) IPC ⁷ A01C 7/00, H01L 41/00. Piezocrystalline seed number sensor / Tarigin N.K., Kireev I.M., Koval Z.M .; applicant and patentee Russian Research Institute for Testing Agricultural Technologies and Machines (RosNIITiM) (RU) - No. 2005126000/22; application. 15.08.2005; publ. 20.01.2006, bull. No. 2. - 3 s: ill.), containing high-frequency quartz piezoelectric crystal, a sensor receiving plate made of a material with a low mechanical quality factor, electrical signal outputs, a sound insulator made of a layered cotton cloth and a base made of a massive steel bar, and individual parts of the sensor are assembled into a single functional unit using epoxy glue.

The main disadvantage of the design of the piezoelectric crystal sensor for the number of seeds is as follows. After the impact of the seed on the surface of the receiving plate, part of the energy of the mechanical pulse is converted by a quartz piezoelectric crystal into a measuring voltage pulse, which is fed to a microelectronic device for amplification, primary treatment and counting of seeds with measuring the time intervals between successive seeds.

The purpose of the utility model is to ensure control of the distribution of seeds in a row using an acoustic sensor instead of a high-frequency quartz piezoelectric crystal in the design when testing the seeding units of precision seeders.

To accomplish the set goal of the utility model, it is proposed to use an acoustic sensor for the number of seeds as a sensor for monitoring the seeding of seeds, the design diagram of which is shown in Fig. one.

The proposed acoustic sensor of the number of seeds (Fig. 1) consists of the outputs of the electrical signal 1, a dynamic microphone 2 enclosed in a housing 4, containing an electrical audio cable Jack 3.5 mm with connectors 6, rubber cushion 5 for attaching a dynamic microphone 2, and a receiving duralumin plates 3.

Enclosed in the housing 4 of the acoustic sensor of the number of seeds, a dynamic microphone 2 with electrical signal outputs 1 and a receiving duralumin plate 3 are fixed with a sound insulator made of cushion rubber 5 to exclude the contact propagation of sound waves from the receiving duralumin plate 3 to the housing 4. When the seeds come into mechanical contact with the receiving duralumin surface plate 3, the sound pressure acts on the diaphragm of a dynamic microphone 2 containing an electrical audio cable Jack 3.5 mm with connectors 6. The resulting voltage signals directly characterize the identical interaction of seeds with the receiving duralumin plate 3.

The advantages of the proposed utility model is the direct control of the distribution of seeds in the row when testing the seeding units of precision seeders.

Claims (1)

A seed number sensor containing a receiving plate, electrical signal outputs, a sound insulator, characterized in that instead of a piezo-crystalline seed number sensor with a high-frequency quartz piezo crystal, an acoustic seed number sensor with a dynamic microphone is used, enclosed in a housing containing an electrical audio cable Jack 3.5 mm with connectors , cushioning rubber for mounting a dynamic microphone and a duralumin receiving plate.

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