JP3162359U - Smart type shredder - Google Patents

Abstract

A smart type shredder that employs an AC machine and a DC machine that can automatically adjust the rotation speed is provided. A smart-type shredder having an electric control unit having an electric motor unit and a power source, wherein the electric control unit is connected to the electric current detection feedback unit and the electric current detection feedback unit. The input end is connected to the output end of the current detection feedback unit, and the output end has a pressure and speed adjustment shift unit connected to the input end of the motor unit. It can be applied not only to AC machines and induction machine shredders but also to DC machine shredders. Smart type that can detect the shred current of AC machine, induction machine or DC machine to adjust the motor to the optimum state, and can automatically switch to multi-stage speed arbitrarily according to the load. Automatic speed adjustment is possible, and an energy-saving low-noise shredder can be realized. [Selection] Figure 1

Description

  The present invention relates to a smart type shredding machine, and more particularly to a shredding machine that shreds various materials such as paper with a blade and shredding equipment. The present invention relates to an energy-saving low-noise shredder with adjustable speed.

  The conventional shredder has a constant rotation speed and the electric motor (motor) is driven at a constant power regardless of the number of materials to be shredded. When the number of the motors is small, the number of revolutions of the electric motor may be increased, and there has been a problem that electric power is wasted and noise is increased.

  Conventional motor speed control systems for shredders can manually adjust the speed of the motor. Moreover, according to the conventional automatic shift system of a shredder, the rotation speed of the electric motor can be detected by utilizing light control, and as a result, the electric motor can be automatically maintained at the set rotation speed. it can. As described above, according to the automatic shift system, the problems of the conventional shredder are somewhat solved.

However, according to the above proposal, the speed of the motor can be controlled by changing the coil number ratio of the motor. However, such a proposal can be applied to an AC machine, but cannot be applied to a DC machine. It was.
JP 2006-198620 A

  Accordingly, an object of the present invention is to provide a smart type shredder that employs an AC machine and a DC machine that can automatically adjust the rotation speed.

  Therefore, as a result of intensive studies to solve the above-described problems of the present invention, the inventor has paid attention to the fact that a smart type shredder can be realized by adopting a control device as described below. Based on this, I came up with the present invention.

  That is, the main purpose of the present invention can be applied to a shredder that uses an AC machine, an induction machine, or a DC machine. The energy-saving low-noise shredder with a speed-adjustable energy type that achieves speed-adjustable energy-saving low-noise that can be automatically switched to multiple speeds depending on the load. Is to provide

  In this specification, the smart type means a device including a function that detects an environmental change, controls itself, and operates according to the result. In particular, it includes a low energy type low noise shredder with adjustable speed.

Thus, according to the present invention, in claim 1,
A smart type shredder having an electric control unit with an electric motor unit and a power source,
The electric control unit is connected to the current detection feedback unit connected to the motor unit, the current detection feedback unit, the input end is connected to the output end of the current detection feedback unit, and the output end is connected to the input end of the motor unit. There is provided a smart type shredder characterized by having a pressure and speed adjusting shift unit connected thereto.

  According to the invention of claim 2, the current detection feedback unit has a two-pass comparator composed of an operational amplifier and a two-relay drive circuit, and the first control signal output terminal and the second control signal output terminal of the two-pass comparator are: 2. The smart type shredder according to claim 1, wherein the smart type shredder is connected to the control terminal of the two-relay drive circuit, and the sampling voltage input terminal of the two-pass comparator is connected to one end of the motor current sampling resistor of the motor unit. Is provided.

  According to the invention of claim 3, the two-relay drive circuit includes an electronic switch circuit comprising a first switch triode and a coil thereof connected in series to a first relay of a main circuit of the first switch triode, and a second switch circuit. An electronic switch circuit comprising a switch triode and its coil connected in series to a second relay of a second switch triode main circuit; and from the normally closed contact and normally open contact of the first relay and the second relay A smart type shredder according to claim 1 or 2, wherein the contact combination is connected to a pressure and speed adjustment shift unit.

  According to the invention of claim 4, the pressure and speed adjustment shift unit has a silicon control and its trigger control circuit and output circuit, and the trigger control circuit has a bidirectional diode and a silicon control conduction time adjustment circuit. The silicon control conduction time adjustment circuit has a plurality of voltage dividing resistors, a filter capacitor and a contact combination comprising a first relay of the current detection feedback unit, a normally closed contact and a normally open contact of the second relay, and an output circuit. Is connected to the voltage receiving end of the electric motor unit, and a smart type shredder according to claim 1 or 2, is provided.

  According to a fifth aspect of the invention, the motor unit is one of an AC machine, an induction machine circuit unit, or a DC machine circuit unit. A breaker is provided.

  According to the invention of claim 6, the AC machine or induction machine circuit unit has an AC machine or induction machine and a motor current sampling resistor connected in series to the winding of the AC machine or induction machine, and motor current sampling. 6. The smart type shredder according to claim 5, wherein one end of the resistor is connected to a sampling voltage input end of the two-pass comparator, and the other end is connected in common.

  According to the invention of claim 7, the direct DC machine circuit unit includes a DC machine, a rectifier circuit, and a motor current sampling resistor connected in series to the winding of the DC machine, and one end of the motor current sampling resistor. The smart-type shredder according to claim 5, wherein the two-pass comparators are connected to a sampling voltage input terminal and the other terminals are connected in common.

  As described above, the present invention is excellent in versatility and can be applied to a shredder using an AC machine or induction machine, and can be applied to a shredder using a DC machine. It is possible to obtain an effect of low noise that can achieve energy saving.

  Hereinafter, the features and technical contents of the present invention will be described in detail with reference to the drawings. However, those drawings and the like are for reference and explanation, and the present invention is not limited thereto.

  As shown in FIG. 1, the present invention includes an electric motor unit 1, a current detection feedback unit 2, a pressure and speed adjustment shift unit 3, and a power source 4, and among them, a pressure and speed adjustment shift unit. 3, the input end is connected to the output end of the current detection feedback unit 2, the output end is connected to the input end of the electric motor unit 1, and the current detection feedback unit 2 is mainly used when the electric motor unit 1 is shredded. , The current is detected and the detection result is collated, and then transmitted to the pressure and speed adjustment shift unit 3. After receiving the result, the pressure and speed adjustment shift unit 3 performs automatic shift, The purpose of energy saving and low noise can be realized by feeding back to the motor unit 1 and adjusting the speed of the motor.

  Also, as shown in FIG. 2, when commercial power AC IN is input, the electric power is supplied to the motor unit 1 and the voltage and speed adjustment shift unit 3, and the voltage used by the current detection feedback unit 2 is the commercial power AC. Using IN, use a 12-24 volt power supply that steps down to a constant potential.

  The current detection feedback unit 2 includes a two-pass comparator B1 and a two-relay drive circuit B2 each including an operational amplifier. The first control signal output terminal OUTPUT1 and the second control signal output terminal OUTPUT2 of the two-pass comparator B1 are respectively driven by two relays. Connected to the control terminal of the circuit B2, the sampling voltage input terminal INPUT of the two-pass comparator B1 and the motor unit 1 are connected to one end of the motor current sampling resistor R19.

  The two-pass comparator B1 includes comparators IC1A and IC1B, the reference voltage of the comparator IC1A is set to V0 volts, the reference voltage of the comparator IC1B is set to V1 volts, and V0 volts is greater than V1 volts. large.

  When the sampling voltage V2 volts is smaller than V1 volts, the control signal output terminals OUTPUT2 and OUTPUT1 are maintained at the ideal low level 0 after being verified by the comparator B1.

  When the sampling voltage V2 volts is larger than V1 volts and smaller than V0 volts, after collation by the comparator B1, the output of the control signal output terminal OUTPUT2 becomes a high level of about 12 volts, and OUTPUT1 is ideal. Maintain low level 0.

  When the sampling voltage V2 volts is larger than V0 volts, the outputs of the control signal output terminals OUTPUT2 and OUTPUT1 become a high level of about 12 volts after being verified by the comparator B1.

  The two-relay driving circuit B2 includes a first switch triode Q1, an electronic switch circuit whose coil KIA is connected in series to the first relay K1 of the first switch triode main circuit Q1, a second switch triode Q2, The coil K2A has an electronic switch circuit connected in series to the second relay K2 of the main circuit of the second switch triode Q2, and the normally closed contacts KIB and K2B of the first relay K1 and the second relay K2; A contact combination consisting of normally open contacts KIC and K2C is connected to the pressure and speed adjustment shift unit 3.

  When the control signal output terminals OUTPUT2 and OUTPUT1 are maintained at an ideal low level 0, the second switch triode Q2 and the first switch triode Q1 are not conducted, and the coils K1A of the first relay K1 and the second relay K2 K2A is not energized.

  When the output of the control signal output terminal OUTPUT2 is at a high level of about 12 volts, OUTPUT1 is maintained at an ideal low level 0. The second switch triode Q2 is conducted and the coil K2A of the second relay K2 is energized. The first switch triode Q1 is not conducted, and the coil K1A of the first relay K1 is not energized.

  When the outputs of the control signal output terminals OUTPUT2 and OUTPUT1 are at a high level of about 12 volts, the second switch triode Q2 and the first switch triode Q1 are turned on, and the coils K1A of the first relay K1 and the second relay K2 K2A is energized.

  The electric motor unit 1 is one of an AC machine, an induction machine circuit unit C1, and a DC machine circuit unit C2.

  The AC machine or induction machine circuit unit C1 has an AC machine or induction machine M and a motor current sampling resistor R19 connected in series to the winding of the AC machine or induction machine M, and one end of the motor current sampling resistor R19 is The sampling voltage input terminal INPUT of the two-pass comparator B1 is connected, and the other end is connected in common.

  The DC machine circuit unit C2 includes a DC machine A, a rectifier circuit D1, and a motor current sampling resistor R19 ′ connected in series to the winding of the DC machine A. The motor current sampling resistor R19 ′ has one end, The sampling voltage input terminal INPUT of the two-pass comparator B1 is connected, and the other end is connected in common.

  The pressure and speed adjustment shift unit 3 has a silicon control Q3, a trigger control circuit thereof, and an output circuit composed of R16 and C7. The trigger control circuit has a bidirectional diode D9 and a silicon control conduction time adjustment circuit. The silicon control conduction time adjusting circuit includes a plurality of voltage dividing resistors R13, R14, R15, filter capacitors C8, C9, a first relay of the current detection feedback unit 2, and a normally closed contact KIB of the second relays KI, K2. , K2B and normally open contacts KIC, K2C, and the output end MG1 of the output circuit consisting of R16, C7 is connected to the voltage receiving end MG or MG2 of the electric motor unit 1.

  The following is a work process when the voltage output terminal MG1 of the pressure and speed adjustment shift unit 3 is connected in series to the voltage receiving terminal MG of the AC machine or induction machine circuit unit C1. The work process when the voltage output terminal MG1 of the pressure and speed adjustment shift unit 3 is connected in series to the voltage receiving terminal MG2 of the DC machine circuit unit C2 is basically the same.

  When the coils K1A and K2A of the first relay and the second relay K1 and K2 are not energized, the first relay K1 and the second relay K2 are normally closed contacts K1B and K2B, and the selection resistors R13, R13 and C8 are It becomes a discharge circuit, and is made conductive by the control of the silicon control Q3 by the resistor R15 and the bidirectional diode D9, and the voltage of the voltage output terminal MG1 of the silicon control Q3 is changed. Since it is connected in series to the voltage receiving end MG of the induction machine circuit unit C1, the speed of the AC machine or the induction machine A changes, thereby realizing the purpose of speed adjustment.

  When the second relay K2-like coil K2A is energized and the coil K1A of the first relay K1 is not energized, the first relay K2 becomes a normally open contact K2C, and the relay K1 becomes a normally closed contact K1B. Resistors R12 and R13 form a parallel circuit, and a parallel circuit composed of R12 and R13 and C8 form a discharge circuit. The resistor R15 and the bidirectional diode D9 are turned on by controlling the silicon control Q3, and the silicon control Q3 Since the voltage at the voltage output terminal MG1 is changed and the voltage output terminal MG1 is connected in series with the voltage receiving terminal MG of the AC machine or induction machine circuit unit C1, the speed of the AC machine or induction machine A is increased. Change, thereby realizing the purpose of speed adjustment.

  When the coils K1A and K2A of the first relay and the second relay K1 and K2 are energized, the first relay K1 and the second relay K2 are normally open contacts K1C and K2C, and the commercial power AC2 is the first relay. It reaches the voltage output terminal MG1 of the silicon control Q3 via the normally open contact K1C of K1, and changes the voltage at the voltage output terminal MG1, and the voltage output terminal MG1 is connected to the AC machine or induction machine circuit unit C1. Since it is connected in series with the voltage receiving end MG, the speed of the AC machine or the induction machine A changes, and the purpose of speed adjustment is realized.

It is a principle block diagram of the shredder by one Embodiment of this invention. 1 is a circuit diagram of a shredder according to an embodiment of the present invention.

1. Electric motor unit 2. 2. Current detection feedback unit 3. Pressure and speed adjustment shift unit Power supply

Claims (7)

A smart type shredder having an electric control unit with an electric motor unit and a power source,
The electric control unit is connected to the current detection feedback unit connected to the motor unit, the current detection feedback unit, the input end is connected to the output end of the current detection feedback unit, and the output end is connected to the input end of the motor unit. A smart type shredder having a pressure and speed adjusting shift unit connected thereto.   The current detection feedback unit has a two-pass comparator composed of an operational amplifier and a two-relay drive circuit, and the first control signal output terminal and the second control signal output terminal of the two-pass comparator are respectively connected to the control terminals of the two-relay drive circuit. The smart type shredder according to claim 1, wherein a sampling voltage input terminal of the two-pass comparator is connected to one end of an electric motor current sampling resistor of the electric motor unit.   A two-relay drive circuit includes an electronic switch circuit comprising a first switch triode and its coil connected in series with a first relay of the main circuit of the first switch triode, a second switch triode and its coil, respectively. A switch triode main circuit connected to a second relay in series with an electronic switch circuit, and a contact combination consisting of a first relay and a normally closed contact and a normally open contact of the second relay, pressure and speed The smart type shredder according to claim 1 or 2, wherein the smart type shredder is connected to an adjustment shift unit.   The pressure and speed adjustment shift unit has a silicon control and its trigger control circuit and output circuit, the trigger control circuit has a bidirectional diode and a silicon control conduction time adjustment circuit, It has a large number of voltage dividing resistors, a filter capacitor and a contact combination consisting of the first relay of the current detection feedback unit and the normally closed contact and the normally open contact of the second relay, and the output circuit is the voltage receiving end of the motor unit. The smart type shredder according to claim 1, wherein the shredder is connected to the smart type.   3. The smart type shredder according to claim 1, wherein the electric motor unit is one of an AC machine and an induction machine circuit unit or a DC machine circuit unit.   The AC machine or induction machine circuit unit has an AC machine and induction machine, and a motor current sampling resistor connected in series with the winding of the AC machine and induction machine, and one end of the motor current sampling resistance is sampled by the two-pass comparator. 6. The smart type shredder according to claim 5, wherein the smart type shredder is connected to a voltage input end and the other end is commonly connected. The DC machine circuit unit has a DC machine, a rectifier circuit, and a motor current sampling resistor connected in series with the winding of the DC machine, and one end of the motor current sampling resistor is connected to the sampling voltage input terminal of the two-pass comparator. 6. The smart type shredder according to claim 5, wherein the other ends are connected in common.