JPH02119735A - Motor-driven reel - Google Patents

Abstract

PURPOSE:To backup a RAM without using a cell or battery by connecting a capacitor for backup of a CPU and element for preventing backflow to positions between power source terminals for the RAM for memorizing control data, such as delivery amount of a fishline, and the power source. CONSTITUTION:Input terminals 30 and 32 of a power source are connected to a storage battery, etc., and a diode 36 which is an element for preventing backflow is arranged so as to pass a current only in the direction of an arrow (A). The positive pole of a capacitor 40 for backup is placed between the diode 36 and power source terminals (Vcc) of a CPU 38 and the negative pole is earthed. Thereby, the memory in the RAM of the CPU 38 in reducing a voltage applied to the input terminals 30 and 32 to zero is backed up by the capacitor 40.

Description

[Detailed description of the invention] (Industrial application field) The present invention relates to an electric reel.

(Prior Art) In recent electric reels, measuring means for measuring the amount of fishing line let out from the spool, for example, a rubber roller is brought into contact with the outer periphery of the spool around which the fishing line is wound. It is possible to measure by rotating the accompanying roller, detecting the number of rotations of the roller by the number of ON and OFF times of a reed switch, etc., and calculating the relationship with the outer circumference of the roller using a microcomputer system. . Also,
Since it has become possible to measure the amount of fishing line being let out, it has become possible to automatically let out the fishing line at a predetermined water depth, such as when fishing on a shelf. Furthermore, by adopting a microcomputer system, it has become possible to control the rotational speed of the motor, that is, the rotational speed of the spool when winding up the fishing line. These control functions are made possible by storing various data in the RAM included in the microcomputer system. However, since a battery is used as a power source for the electric reel, the mainstream method for connecting the battery terminal and the electric reel is to use a clip, and the clip may come off. If the clip comes off while using the electric reel, not only will the electric reel motor stop, but the data stored in the RAM will be erased, and even if you connect the clip again, it will not be remembered. Data will not be recovered. As a result, the amount of fishing line that is fed out becomes unclear, and in the case of shelving, it is necessary to wind up the fishing line and then perform shelving again. The rotational speed of the spool also needs to be adjusted again. Therefore, by incorporating a button-shaped lithium battery as a backup power source for the RAM, it is possible to prevent the RAM from disappearing when the power is turned off.

(Problems to be Solved by the Invention) However, the conventional electric reel described above has the following problems.

Hack-ups using lithium batteries must be replaced when the battery reaches the end of its life, and it is difficult to predict when it will be replaced, and if the battery runs out while using the electric reel, the data stored in the RAM will be lost, as mentioned above. This will cause trouble. In addition, recently, since the operating environment in which movable reels are used is at sea, which is relatively poor, a method has been proposed in which the electrical circuit part is sealed with an insulating and moisture-proof encapsulant such as urethane. However, it is not possible to fill the part that accommodates the battery, and if the battery is made replaceable, there is a risk that moisture or salt may enter the electric circuit section from the part that accommodates the battery. If the battery is sealed with a filler with the battery attached, it becomes impossible to replace the battery, and when the battery is exhausted, the entire electric reel becomes unusable even if everything else is normal except the battery.

Therefore, it is an object of the present invention to provide an electric reel that can perform bank amplification of RAM without using batteries.

(Means for solving problems) In order to solve the above problems, the present invention has the following configuration.

That is, in an electric reel that includes a spool around which the fishing line is wound, a motor that rotates the spool, and a microcomputer system that controls the amount of the fishing line, etc. A backflow prevention element connected between a RAM that stores control data such as the feeding amount of the RAM, and a power supply terminal of the RAM or a CPU containing the RAM and a power supply to allow current to flow only in the direction of the power supply terminal. , one end is connected between the backflow prevention element and the power supply terminal of the RAM or a CPU incorporating the RAM,
The other end is characterized by being equipped with a grounded CPU backup capacitor.

(effect) The effect will be explained.

Normally the capacitor is charged and if the power goes out,
The current from the capacitor is prevented from flowing to ground by the backflow prevention element, and the current from the capacitor is prevented from flowing to the ground by the backflow prevention element.
Since a discharge voltage is applied to the power supply terminal of U, the memory contents of the RAM are backed up. Also, since the capacitor is connected to the electrical circuit, there is no need to replace it.

(Embodiments) Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the configuration will be explained. FIG. 1 shows the electric reel 0 of this embodiment.

12 is a spool around which a fishing line 14 is wound. The spool 12 is rotated by a DC motor 16,
The fishing line 14 can be wound up.

Reference numeral 18 denotes an operation unit including input switch 20, 22, 24, .
26 and an LCD display are provided. Although not shown on the back side of the operation unit 18, there is a roller that comes into contact with the outer periphery of the spool I2 around which the fishing line 14 is wound and rotates as the spool 12 rotates, and the rotation speed and direction of the roller are output from the Hall element. A detection unit is provided for detecting by. Further, an electric circuit section, which will be described later, is also provided on the back side of the operating section 18 and housed in a suitable casing, and the casing is filled with urethane resin having electrical insulation and moisture-proofing properties.

Next, the above-mentioned electric circuit will be explained with reference to FIG.

Reference numerals 30 and 32 indicate input terminals of the power supply, which are connected to a lead-acid battery (not shown), to which 12 V DC is applied.

Reference numeral 34 denotes an over-discharge protection circuit, which is provided to prevent the voltage of the lead-acid battery (not shown) from becoming, for example, 7.5V or higher, that is, to prevent the performance of the lead-acid battery from being excessively degraded due to over-discharge.

36 is a diode which is a backflow prevention element, and allows current to flow only in the direction of arrow A, that is, in the direction of the power supply terminal Vcc of the CPU 38. Note that a transistor may be used instead of the backflow prevention element.

A backup capacitor 40 is an electrolytic capacitor whose positive electrode is connected between the diode 36 and the power supply terminals Vc and c of the CPU 38, and whose negative electrode is grounded. In addition, the fully charged voltage of capacitor 40 is 16■, and the capacity is 100μF.
are used. This capacitor 40 serves as a power source for backing up the memory of the RAM of the CPU 3 B, which will be described later, when the voltage applied to the input terminals 30 and 32 becomes zero.

Since the capacitor 40 has a capacity of 100μF, CPU3
Considering that the current consumption of the 8 in standby mode is several microamperes, it is possible to back up the memory for about 1 hour.

38 is a CPU, which is a type of microprocessor with built-in ROM and RAM. The CPU 38 receives input from the input kasuinochi 20, 22, 24, 26 and data on the rotation speed and rotation direction of the roller input from the detection unit 42 via the Hall elements H1 and H2 for information processing. . A detection unit 42 is located in the RAM within the CPU 38.
Information processed by the CPU 38 based on the data detected by the CPU 38 is temporarily stored. Programs and the like that control the operation of the CPU 38 are stored in advance in the ROM.

As mentioned above, the LCD display 2B is provided in the operation unit 18, and displays the information sent from the CP tJ 33, that is, the amount of fishing line 14 being fed out, the water depth of the set shelf, and the motor 1.
6, the rotational speed or the ratio of rotational speeds, etc. are displayed.

There are four inputs 20, 22, 24, and 26, and 20 is the ON10 F F of the motor and the motor 16.
This is a switch that changes the rotation speed of the motor to high-speed motor or low-speed motor. 22 is a stop switch, and motor 1
In addition to stopping the rotation of the motor 16, this switch also causes the motor 16 to instantaneously move only while it is pressed after the motor 16 is stopped. 24 is a switch whose rotational speed decreases in proportion to the time the motor 16 is pressed in the low speed mode, and which adjusts the water depth of the shelf when the motor 16 is OFF.

Reference numeral 26 is a switch whose rotational speed increases in proportion to the time the motor 16 is pressed in the low speed mode, and which clears the set water depth of the shelf to zero when the motor 16 is OFF.

As described above, the detection unit 42 detects the output cover turns of the Hall elements H1 and H2 that rotate with the rotation of the roller (not shown).
The O38 recognizes the rotational speed from the number of rotations of the roller, and further distinguishes whether the fishing line 14 is fed out or wound up from the rotational direction.

44 is a drive circuit, which, when a pulse outputted from a terminal 46 of the CPU 38 is inputted via an inverting circuit 48, energizes the motor 16 only when the inputted pulse is the old GH. Therefore, the longer the old gh time per period of the pulse input to the drive circuit 44, the faster the rotational speed of the moke 16 becomes.

Note that the pulses issued from the terminal 46 of the CPU 38 are determined by the switches 20, 24, and 26.

Next, the CPU using the capacitor 40, which is a feature of the present invention,
Memory backup of the RAM included in 38 will be explained. In normal use, a drive voltage of 5V (old GH) is applied to the power supply terminal VCC of the CPU 38 via the diode 36, and the CPLJ 38 performs normal operations. At this time, the capacitor 40 is charged, and the charging voltage is 1
If the voltage exceeds 6V, the overflow current will fall to ground. In this state, the input terminal 30.32
When power supply to the capacitor 40 is stopped, the capacitor 40 discharges.

At this time, since the diode 36 having the direction of the arrow is placed between the input terminal 30, 32 and the capacitor 40, the discharge current from the capacitor 40 is drawn by the resistor 50, but the diode 36 blocks the reverse flow. and can be applied to the power supply terminal Vcc of CP tJ 38. The memory of the RAM of CPLJ3B is maintained by applying the discharge voltage from the capacitor 40 to the power supply terminal Vcc. At that time, 5TART of CPU38
Low is input to the terminal as described later, and the CPU 38 enters the standby state, and the current consumption is a few microns.
It becomes A. As a result, if the capacitor 40 is fully charged, memory hack-up can be performed for about one hour, and during that time the connection between the lead-acid battery and the input terminals 30 and 32 can be returned to the previous state.

Note that the overcurrent protection circuit 34 will be briefly explained here.

The Zener diode 52 of the overcurrent prevention circuit 34 has a Zener voltage set to 7.5V. This 7.5V is the minimum allowable voltage of a lead-acid battery (not shown), and is a voltage value at which the performance of the lead-acid battery deteriorates significantly when it becomes 7.5V or less.

In the normal state, 12V is applied to the input terminals 30 and 32, so the Zener die No. 1-52 is turned on, the transistor 54 is also turned on, and the 5TART terminal of the CPU3B is turned on.
light, and the CPU 38 becomes active. on the other hand,
When the voltage applied to the input terminal 30.32 becomes less than 7.5V, the Zener diode 52 turns OFF and the transistor 5
4 is also turned off. Therefore, the 5TART of CPU38 is completed! , and the CPU 3B enters the standby state. When the CPU 38 enters the standby state, the motor 1
6 stops.

If there is no overdischarge protection circuit 34, the voltage of the lead acid battery will be 7.
．． Even if 5■ is divided, there is no Zener diode 52, so C
The 5TART terminal of PO3B does not go low directly, and although the motor 16 slows down, it continues to rotate until the voltage of the capacitor 40 falls below the hack-up voltage of CPU3B, so the lead-acid battery is discharged to less than 7.5V. Put it away. Therefore, the overdischarge protection circuit 34 can prevent overdischarge of the lead acid battery.

Although various preferred embodiments of the present invention have been described below, the present invention is not limited to the above-mentioned embodiments (for example, the RAM is built in the CPJ and is provided separately from the CPLJ). Of course, many modifications may be made without departing from the spirit of the invention.

(Effects of the Invention) By using the electric reel according to the present invention, RAM memory backup can be performed without using a battery, eliminating the need for battery replacement and preventing loss of RAM storage content due to battery exhaustion.

Further, even if the electric circuit portion is sealed with resin, since the memory bank amplifier is performed by the capacitor, the capacitor does not need to be replaced, so resin sealing becomes possible.

[Brief explanation of the drawing]

FIG. 1 is a plan view of an electric reel according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of its electric circuit. 10... Electric reel, 12... Spool, 14
...Fishing line, 16...Motor, 30.32...
Input terminal, 36... Diode, 38... CP
LJ, Vcc...power supply terminal, 40...capacitor.

Claims (1)

[Scope of Claims] 1. An electric reel having a spool around which a fishing line is wound, a motor for rotating the spool, and a microcomputer system for controlling the amount of the fishing line to be fed out, etc., wherein the microcomputer system includes: , a RAM that stores control data such as the amount of fishing line to be fed out, and a reverse current that is connected between the power supply terminal and the power supply of the RAM or the CPU incorporating the RAM, and allows the current to flow only in the direction of the power supply terminal. An electric reel comprising: a prevention element; and a CPU backup capacitor, one end of which is connected between the backflow prevention element and the power supply terminal of the RAM or a CPU incorporating the RAM, and the other end of which is grounded.