초록 ▼

The invention relates to an automatically-limiting electric sausage filler and control methods thereof. A piston is positioned at the tail end of a toothed piston rod and integrated as a whole; a DC motor drives an automatic shaft, the automatic shaft is meshed with the toothed piston rod through a

The invention relates to an automatically-limiting electric sausage filler and control methods thereof. A piston is positioned at the tail end of a toothed piston rod and integrated as a whole; a DC motor drives an automatic shaft, the automatic shaft is meshed with the toothed piston rod through a gear train to drive the toothed piston rod to move up and down in a material cylinder, a meat outlet is formed at the bottom of the material cylinder, when the piston is arranged at the bottom of the material cylinder, the electric sausage filler has a lower limit; when the piston is arranged at the top of the material cylinder, the electric sausage filler has an upper limit; a lower limit signal detection element and an upper limit signal detection element are arranged on two sides of the toothed piston rod and correspond to an upper limit magnet strip and a lower limit magnet strip embedded on the toothed piston rod in an induction manner, and induction signals of the lower limit signal detection element and the upper limit signal detection element are sent to a control circuit which outputs a control signal to drive the DC motor to work. By virtue of the upper limit and the lower limit, the electric sausage filler is controlled to automatically fill sausages, overcurrent protection function is added in the control circuit for protecting the motor from stalling, so that a motor stalling protection device is omitted, and the cost is reduced; the sausage filling operation is simplified by virtue of the upper limit and the lower limit; and by virtue of the movement of the piston, the sausage filling process is fully automatic.

대표청구항 ▼

1. An automatically-limiting electric sausage filler, characterized by comprising a piston, an automatic shaft, a lower limit signal detection element, a lower limit magnet strip, a toothed piston rod, an upper limit signal detection element, a material cylinder, an upper limit magnet strip, a meat

1. An automatically-limiting electric sausage filler, characterized by comprising a piston, an automatic shaft, a lower limit signal detection element, a lower limit magnet strip, a toothed piston rod, an upper limit signal detection element, a material cylinder, an upper limit magnet strip, a meat outlet, a DC motor and a control circuit, wherein the piston is positioned at the tail end of the toothed piston rod and integrated as a whole, the DC motor drives the automatic shaft, the automatic shaft is meshed with the toothed piston rod through a gear train to drive the toothed piston rod to move up and down in the material cylinder, the meat outlet is formed at the bottom of the material cylinder, when the piston is arranged at the bottom of the material cylinder, the electric sausage filler has a lower limit; when the piston is arranged at the top of the material cylinder, the electric sausage filler has an upper limit; the lower limit signal detection element and the upper limit signal detection element are arranged on two sides of the toothed piston rod and correspond to the upper limit magnet strip and the lower limit magnet strip embedded on the toothed piston rod in an induction manner, and induction signals of the lower limit signal detection element and the upper limit signal detection element are sent to the control circuit which outputs a control signal to drive the DC motor to work. 2. The automatically-limiting electric sausage filler of claim 1, characterized in that the lower limit signal detection element and the upper limit signal detection element are of reed switches or Hall elements. 3. The automatically-limiting electric sausage filler of claim 2, characterized in that signals of the speed control potentiometer are input into the speed control circuit, and then the speed control circuit outputs a voltage signal to control the rotating speed of the DC motor through the forward/reverse drive circuit; the overcurrent protection circuit detects input current of the DC motor, and outputs a control signal to the forward/reverse drive circuit when the input current is higher than the current limit, the forward/reverse drive circuit controls the DC motor to stop, and the overcurrent protection circuit outputs a signal to light the overcurrent fault lamp up; when the fault lamp is on, the signal processing circuit locks and disables all operation keys after getting a fault signal from the overcurrent protection circuit, and the operation keys can be restored by pressing a stop switch reset button;after the down switch is pressed, a signal is input into the signal processing circuit, then the signal processed by the signal processing circuit is input into the forward/reverse drive circuit, and the forward/reverse drive circuit drives the DC motor to rotate forward and drives the piston to move down; a lower limit signal is input into the signal processing circuit, then the processed signal is input into the forward/reverse drive circuit, the forward/reverse drive circuit drives the DC motor to rotate reversely and drives the piston to move up until an upper limit signal is input into the signal processing circuit, and the signal processing circuit outputs a stop signal to the forward/reverse drive circuit to control the DC motor to stop. 4. The automatically-limiting electric sausage filler of claim 1, characterized in that the control circuit comprises a signal input part, a signal processing circuit, a forward/reverse drive circuit, a speed control circuit, an overcurrent protection circuit and an overcurrent fault lamp, the input part comprises an up switch, a down switch, a lower limit signal detection element, an upper limit signal detection element, a stop switch and a speed control potentiometer, signals of the speed control potentiometer are input into the speed control circuit, and then the speed control circuit outputs a voltage signal to control the rotating speed of the DC motor through the forward/reverse drive circuit; the overcurrent protection circuit detects input current of the forward DC motor and outputs a control signal to the forward/reverse drive circuit, then the forward/reverse drive circuit controls the DC motor to stop, and the overcurrent protection circuit outputs a signal to the overcurrent fault lamp; signals of the up switch, the down switch, the lower limit signal detection element and the upper limit signal detection element are sent to the signal processing circuit for processing, then the signal processing circuit outputs a signal to the forward/reverse drive circuit to drive the DC motor to rotate forward, rotate reversely or stop. 5. The automatically-limiting electric sausage filler of claim 4, characterized in that signals of the speed control potentiometer are input into the speed control circuit, and then the speed control circuit outputs a voltage signal to control the rotating speed of the DC motor through the forward/reverse drive circuit; the overcurrent protection circuit detects input current of the DC motor, and outputs a control signal to the forward/reverse drive circuit when the input current is higher than the current limit, the forward/reverse drive circuit controls the DC motor to stop, and the overcurrent protection circuit outputs a signal to light the overcurrent fault lamp up; when the fault lamp is on, the signal processing circuit locks and disables all operation keys after getting a fault signal from the overcurrent protection circuit, and the operation keys can be restored by pressing a stop switch reset button;after the down switch is pressed, a signal is input into the signal processing circuit, then the signal processed by the signal processing circuit is input into the forward/reverse drive circuit, and the forward/reverse drive circuit drives the DC motor to rotate forward and drives the piston to move down; a lower limit signal is input into the signal processing circuit, then the processed signal is input into the forward/reverse drive circuit, the forward/reverse drive circuit drives the DC motor to rotate reversely and drives the piston to move up until an upper limit signal is input into the signal processing circuit, and the signal processing circuit outputs a stop signal to the forward/reverse drive circuit to control the DC motor to stop. 6. The automatically-limiting electric sausage filler of claim 1, characterized in that signals of the speed control potentiometer are input into the speed control circuit, and then the speed control circuit outputs a voltage signal to control the rotating speed of the DC motor through the forward/reverse drive circuit; the overcurrent protection circuit detects input current of the DC motor, and outputs a control signal to the forward/reverse drive circuit when the input current is higher than the current limit, the forward/reverse drive circuit controls the DC motor to stop, and the overcurrent protection circuit outputs a signal to light the overcurrent fault lamp up; when the fault lamp is on, the signal processing circuit locks and disables all operation keys after getting a fault signal from the overcurrent protection circuit, and the operation keys can be restored by pressing a stop switch reset button;after the down switch is pressed, a signal is input into the signal processing circuit, then the signal processed by the signal processing circuit is input into the forward/reverse drive circuit, and the forward/reverse drive circuit drives the DC motor to rotate forward and drives the piston to move down; a lower limit signal is input into the signal processing circuit, then the processed signal is input into the forward/reverse drive circuit, the forward/reverse drive circuit drives the DC motor to rotate reversely and drives the piston to move up until an upper limit signal is input into the signal processing circuit, and the signal processing circuit outputs a stop signal to the forward/reverse drive circuit to control the DC motor to stop. 7. A control method of the automatically-limiting electric sausage filler of claim 6, characterized in that the control circuit further comprises a foot switch, a switch-on signal of the foot switch is input into the signal processing circuit, then the switch-on signal processed by the signal processing circuit is input into the forward/reverse drive circuit, and the forward/reverse drive circuit drives the DC motor to rotate forward and drives the piston to move down; a switch-off signal of the foot switch is input into the signal processing circuit, and then the signal processing circuit outputs a stop signal to the forward/reverse drive circuit.