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Circuit for controlling automatic feeder

A feeding and circuit technology, applied in applications, animal feeding devices, animal husbandry, etc., can solve the problem that the circuit of automatic food dispenser has not been reported, there are few automatic food dispensers, and it can ensure that it does not fall when food cannot be given, etc. question

Active Publication Date: 2017-02-22
广西南宁灵康赛诺科生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the automatic test system for the cognitive and behavioral abilities of primate experimental animals, the system needs to decide whether to reward food according to the operation of the experimental animals, and when giving food rewards, it is necessary to control the amount of food to maintain the continuous improvement of the experimental animals. Cooperating ability; therefore, in the automatic test system of primate experimental animal cognitive behavior ability, it is necessary to be able to recognize the system command, when the food needs to be given, the food can be given in time and the amount of the food can be automatically controlled, and when the food cannot be given An automatic food dispenser that ensures that food does not fall; but at present, there are still few reports about the automatic food dispenser at home and abroad, especially the reliable circuit of the automatic food dispenser is almost unreported

Method used

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  • Circuit for controlling automatic feeder
  • Circuit for controlling automatic feeder

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specific Embodiment 1

[0013] A circuit for controlling an automatic feeder, characterized in that it includes an Arduino circuit board 1, a relay with an optocoupler isolation module 13, a photosensitive resistance sensor module 7, and a forward and reverse drive motor 12; the relay band with an optocoupler isolation module 13 The signal trigger terminal (IN) port 16 of the Arduino circuit board 1 is connected to the digital output (No. 12) port 2 of the Arduino circuit board 1, and the power supply (DC-) interface 17 of the relay with an optocoupler isolation module 13 is connected to the negative pole of the working power supply and the The (GND) interface 3 of the Arduino circuit board 1 is connected; the power supply (DC+) interface 18 of the relay with optocoupler isolation module 13 is connected to the positive pole of the working power supply; the analog signal output terminal 8 of the photosensitive resistance sensor module 7 is connected to the The analog input (A0) port 6 of the Arduino ci...

specific Embodiment 2

[0016] A circuit for controlling an automatic feeder, comprising an Arduino circuit board 1, a relay with an optocoupler isolation module 13, a photosensitive resistance sensor module 7, and a forward and reverse drive motor 12; (IN) port 16 is connected with the digital output (No. 12) port 2 of the Arduino circuit board 1, and the power supply (DC-) interface 17 of the relay band optocoupler isolation module 13 is connected with the negative pole of the working power supply and the Arduino circuit board The (GND) interface 3 of 1 is connected; the power supply (DC+) interface 18 of the relay with optocoupler isolation module 13 is connected to the positive pole of the working power supply; the TTL switch signal output terminal 22 of the photosensitive resistance sensor module 7 is connected to the Arduino circuit The digital input (No. 1) port 21 of the board 1 is connected.

[0017] One of the power lines of the forward and reverse driving motor 12 is connected to the posit...

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Abstract

The invention discloses a circuit for controlling an automatic feeder. The circuit comprises an Arduino circuit board, a relay module with optical coupling isolation, a photosensitive resistance sensor module and a positive and negative driving motor. The signal trigger end of the relay module with optical coupling isolation is connected with a digital output port of the Arduino circuit board, and a power (DC-) interface of the relay module with optical coupling isolation is connected with a negative electrode of a working power source and a (GND) interface of the Arduino circuit board. A power (DC+) interface of the relay module with optical coupling isolation is connected with a positive electrode of the working power source. The TTL switching signal output end of the photosensitive resistance sensor module is connected with a digital input port of the Arduino circuit board, or the analog signal end of the photosensitive resistance sensor module is connected with an analog input port of the Arduino circuit board. A power line of the positive and negative driving motor is connected with the output end of the relay module with optical coupling isolation. The circuit is reliable and low in price.

Description

technical field [0001] The invention belongs to the technical field of automatic test of cognitive behavior ability of primate experimental animals, and in particular relates to a circuit for controlling an automatic feeder. Background technique [0002] In the automatic test system for the cognitive and behavioral abilities of primate experimental animals, the system needs to decide whether to reward food according to the operation of the experimental animals, and when giving food rewards, it is necessary to control the amount of food to maintain the continuous improvement of the experimental animals. Cooperating ability; therefore, in the automatic test system of primate experimental animal cognitive behavior ability, it is necessary to be able to recognize the system command, when the food needs to be given, the food can be given in time and the amount of the food can be automatically controlled, and when the food cannot be given An automatic food dispenser that does not ...

Claims

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Application Information

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IPC IPC(8): A01K5/02
CPCA01K5/02
Inventor 岳峰韦伟
Owner 广西南宁灵康赛诺科生物科技有限公司