JPS61205973A - Angling practicing apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention]

[Industrial Field of Application] The present invention relates to a fishing training machine suitable for use in fishing practice. [Prior Art] Island fishing has long been a popular hobby in both the East and the West. The real pleasure of fishing is the sense of urgency when determining the timing of the bite from among the good fish (as it is said,) and the sense of urgency when raising the fish (as it is said, the strong feeling of the fish being transmitted from the rod through the fishing line). It all comes down to the feel of the fish's pull. In particular, the freshwater fish, commonly known as the snail, attracts many anglers because it is difficult to judge when the fish will bite, and because of its dynamic drag. In fact, it is said that there are as many fishing clubs in Japan that specialize in fishing for crabs. −
There are very few fish, and it is not possible to go fishing frequently. For this reason, many anglers are eager to have as many opportunities as possible to fish in unfished areas. Also, if you don't have the opportunity to fish like this, your progress will slow down, and especially when it comes to fishing that requires a great deal of skill, like the above-mentioned henabuna fishing, it can actually slow down your skill. become. In view of the above-mentioned circumstances, this invention meets the demands of anglers who want to have as many fishing opportunities as possible, and also allows them to practice determining the timing of the bite from among a number of "fish". The purpose is to provide a fishing training machine that can do the following. [Means for Solving the Problem] In order to achieve the above object, the present invention provides a recording medium in which a moving subject is continuously recorded and a timing signal is recorded in accordance with the movement of the subject. , a reproduction means for reproducing and displaying the movement of the subject recorded on the recording medium and at the same time outputting the timing signal; an operation signal outputting means for outputting an operation signal when the operation member is operated; and an operation signal output means for outputting the operation signal when the operation member is operated; It is characterized by comprising a response means that responds if the operation signal is detected when the operation signal is being output. [Embodiment] An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. In this figure, 1 is a VTR (video tape recorder) which is popular in ordinary households.
] and the sound signal St' of one channel! , played by home television 2 6
The sound composition signal S2 of the other channel output from the VTR 1 is supplied to the simulation box 3. A fishing line 4 comes out from this simulated box 3, and this fishing line 4 is tied to a fishing rod 5. User

(not shown) raises and lowers the fishing rod 5 at appropriate timing while watching the video displayed on the television 2. Next, the recorded contents of the videotape played back by the VTR 1 will be explained. The recorded content of this videotape is divided into the first half and the second half.
It records information on fishing spots (targeted for snailfish), information on transportation to go to the fishing spots, local scenery and points, etc. The second half is completely reversed and becomes an image of a "float" that rises and falls depending on the amount of water as shown in FIG. 2. This second half is created as follows. In other words, at one of the points introduced in the first half, you can actually drop a fishing line and take pictures of the top and bottom of the float. After shooting, when editing in the studio, the reproduced image is shown to an expert to judge the timing of the biting, and at the same time, a pulse-shaped audio signal S2 is sent to the other channel of the editing tape. Record the evening/timing signal. As a result, when playing this latter part, WXa
As shown in the figure, a ``float'' that moves up and down due to the ``Yutashi'' trap is displayed on the television 2. At the same time, the audio signal S2 is
It is turned on when it is ``natashi'' ((b) and (e) in the diagram) that are judged to have caught on by experts. Next, the simulated box 3 will be explained. FIG. 4 is a sectional view showing the structure of the dummy box 3. Inside the simulated box 3, two chambers A and B are defined above and below by a horizontally fixed plate 10, and these chambers A and B communicate through a hole 10a formed approximately in the center of the plate 10. ing. Upper plate 3a of mock box 3
A circular hole 3b is formed right above the hole ZOa. A microswitch 11 is attached to the upper surface of the plate 10 around the hole 10a, and a contact switch 12 is attached to the upper surface of the upper plate 3a around the circular hole 3b. On the other hand, a DC motor 13 is fixed in the chamber B, and a pulley 14 is attached to the rotating shaft of the motor 13. One end of the fishing line 4 shown in Fig. K1 is wound around this goo IJ 14, and this fishing line 4 passes through the hole iob and the circular hole 3b2 to exit the mock box 3, and the other end is connected to the fishing rod as described above. It is tied to 5. In the part where this fishing line 4 is located in chamber A, there is a disk smaller than the circular hole 3b]5
is fixed, and when the disc 15 is lowered, the microswitch 11 is turned on. Also, fishing line 4
When K does not extend directly upward but is tilted (dotted chain line in the figure), the contact switch 12 is turned on. Also,
A control box 16 is fixed in the chamber B, and a power source for the motor 13 and a control circuit for the motor 13 are built into the control box 16. Next, FIG. 5 is a circuit diagram showing the configuration of this control circuit. In the figure, 26 is simply F/
It is set when the output of 21 rises. Also,
This F/F26 is a Noah gate (hereinafter simply referred to as NOR)
When the output of 22 becomes 101, it is reset. NAND
23 and NAND 24 constitute an F/F, and when the microswitch 11 is on, that is, the 11 disk 13 is lowered, the outputs of NAND 23 and NAND 24 (signal names SAO and 5AO) are 10" and 111, respectively. Meanwhile, the disk 13 is raised and the microswitch 11 is turned off.
The outputs of 2.4 are each inverted. Next, the F/F 30 is locked when the output (ER) of the inverter (hereinafter simply referred to as INY) 25 (signal name SA) rises. That is, the F/F 30 is set when the contact switch 12 is turned on. Also, F/F30 is NAND 23
It is reset when the output of becomes I01. Next, 31
．． 32 is a counter CNT (hereinafter simply referred to as CNT), and these CNTs 31 and 32 constitute an 8-bit counter. That is, these CNTs 31 and 32 count the falling edge of a pulse signal output from the NAND 27 in synchronization with the clock pulse CLK (hereinafter simply referred to as CLKl), and output the counted value in 8 bits. In this case, the 4-bit output of CNT32 is

[Read-only memory] 36 address terminal A. ~A11, and the output of the lowest pit of CNT31 (signal name PTSOVF) is supplied to the first input terminal of %N0R22. Note that the period of CLKl is 0.0
IS (seconds). Further, %CNT31°32 is cleared when the audio signal S2 rises. Next, C.N.T.
33 and 34 constitute an 8-bit counter, and M and N
The falling edge of the pulse signal output from the AND 28 in synchronization with the clock pulse CLK (hereinafter simply referred to as CLKo) counts 9, and the counted value is output in 8 bits. This 8-bit output is the address terminal A of the ROM36. −
Supplied to A7. Note that the period of CLKo is 0.0
It is 58. In addition, CNT33, 34 is an or game (hereinafter simply O).
It is cleared when the output of (r) becomes 111. On the other hand, 35 is O8 (hereinafter simply referred to as O8), and the output of F/F26 is Jl, and the NAND23
When the output becomes 111, the output becomes 11@ for about 1 second (C signal name MOFF). Further, 36 is a ROM (read only memory) which outputs the data stored at the address specified by 1CNT32-34. This R.O.
The memory of the M36 is divided into 256-byte blocks, and each block stores a data string whose values follow a predetermined pattern, and tension data and end data added to the beginning and end of the data string. has been done. In this case, the predetermined pattern is different for each block. Circles, in these data columns,
Each data is 80. It never exceeds H'fr. On the other hand, the tension data and end data are the same in each block, and the υ1 tension data has a value slightly larger than 0-H, and the end data has a value slightly larger than 80H. In this way, each block has 256
Since it is composed of bytes, each block is composed of CNT
32 4-bit output,
Before, the data stored in each block is %CNT3
3 and the 8-bit output of CNT34. Also, when the end data is read from this ROM 36, the output of INV 39 [signal name RD7] becomes 101.
become. The output of this iNV 39 is fed to the first input of 0R20. Next, CNT37 and CNT3g are
Configuring an 8-bit counter, clock pulse C
It counts the rising edge 9 of LK2 (hereinafter simply referred to as CLK2) and outputs the counted value in 8 bits. In this case, C.L.
The period of K2 is 100μθ, and CNT37.38 is constantly counting. Next, 40.41 is the comparator c
These CMP4CB=
41! -j: constitutes an 8-bit comparator. That is, these CMP40.41 are Rop, tp
The lower 7 bits C of the data output from CNT 36 (hereinafter referred to as data A) and CNTs 37 and 38 press Jl, while outputting 101 if B≦A. Also, CMP40 has the most significant bit C8 of the above data B.
The output of 0835 (MOFF) is supplied as bit], and when the output of 0835 becomes 'I', it becomes A unconditionally.
<B is established, and the output of the CMP 40 becomes 11''.Next, 42 is an AND gate (hereinafter simply referred to as AND), and its first input terminal is the output of the NAND 24 (S
A6) is supplied, and the output of CMP40 is supplied to the second input terminal. The output of this AND42 (signal name MD) is smoothed by a capacitor 43 and supplied to the motor 13. Note that RESET, which is supplied to the second input terminal of 0R20, is output once when the power is turned on, and 0
Reset with F/F26 via R20 and N0R22, and then 0R29'! CNT33 and 34 via
Clear. In the above configuration, when the user sets a videotape on the VTR 1 and starts recording, the guide, scenery, points, etc. of the fishing spot are displayed on the TV 2, and then "floating" appears on the screen.
is closed up. The user holds the fishing rod 5. At this time, the microswitch 11 is turned on by the disc 15, and the outputs of the NANDs 23 and 24 become 101 and "11," respectively.If the output of the NAND 24 is l11, the output of the AND42 is 101, and the No current is supplied to the KVTR 1.Next, an audio signal S2 is supplied from the KVTR 1 to the simulation box 3 at an appropriate "hit" as the "floating" shown on the screen rises and falls. When the audio signal S2 is supplied to the simulation box 3, CNTs 31 and 32 are cleared and the output becomes @01. This audio signal S2 is simultaneously NA
The signal is supplied to the first input terminal of ND21. On the other hand, NAND2
The output of NAND 24 is supplied to the second input terminal of 1, so that F/F 26 is set at the same time as the audio signal S2 falls, and the CL from NAND 27 is set.
A pulse signal synchronized with K is output, and the CNT 32 starts counting. Also, when F/F26 is set, N
A nine-pulse signal is output from the AND28 in synchronization with CLKo, and is supplied to the CNT34. However, since the output of NAND 23 is 101, 0R2
The output of 9 becomes 11@, and CNT33 and 34
Fi has been completed, so counting will not start. As a result, the output Fi'o' of %CNT33.34 is
# Without it, only the output of CNT32 goes up and the ROM
The data at the first address of each block in 36 is read out one after another. At this time, if the user overlooks the bite and does not adjust the rod 5, the count value of CNT32 will overflow and reach 101, and at the same time the output A of CNT31 will be I
IIK pl This resets the F/F 26 and stops counting the CNTs 32. The time from when the audio signal S2 is output until the CNT 32 stops counting is approximately 1,6 seconds. On the other hand, if the user does not overlook the biting, the above 0.16
If you match the fishing rod 5 in seconds, NAND23 and 24
The outputs of will be 111 and 001, respectively. NAND24
When the output of becomes IQI, AND 42 to CMP40
According to the output of
1, and the CNT 32 stops counting. NAND2
When the output of 3 becomes 111, the output of %0R29 becomes IQI, ? , CNT33 and 34 are cleared,
CN'l'33.34 starts 8-bit counting. As a result, the data string of the block specified by the CNT 32 of the ROM 36 is read out one after another.
It is supplied as data A to CMP40.41. on the other hand,
CNT3 supplying data B to CMP40.41
7.38 is triggered by CLK2, which is the fastest among the clock pulses CLK, and counts from OH to 7 FH, and the period is about 13 m5. CMP40 is 10g when B≦A
At this time, the output of AND42 becomes 111. This situation will be explained using the time chart shown in FIG. In this figure, the broken line indicates data B output from CNT 37.3B, and the solid line indicates data A read from ROM 36. B≦A holds true, for example, between t and t2, and the output of AND42 becomes 111 during this time. In this way, an irregular pulse signal is output from the AND 42, smoothed by the capacitor 43, and supplied to the motor 3. This generates torque in the motor 3, which attempts to reel in the fishing line 4, which causes the fishing rod held by the user to be pulled downward.In this case,
Since the pulse output from AND42 is irregular,
The current value supplied to the motor 3 changes, and the force that pulls the fishing rod 5 downward changes. As a result, the user can experience a sensation similar to the so-called "pull" of a fish. Next, the reading by the CNTs 33 and 34 progresses, and when the end data is read, the output of the INV 39 becomes 101.
, the output of 0R20 becomes f 11, and N0
The output of R22 becomes 101 and F/F 26 is reset. As a result, the output of NAND28 becomes 101
Then, the counting of the CNT 34 stops. At the same time, 0
The output of 835 is M1mVC for 1 second, which is CMP
40. Then, regardless of the data read from the ROM 36 and the count values of CNTs 37 and 38, the strict condition KA<B will be satisfied, % AND
The output of 42 becomes 101. As a result, current is no longer supplied to the motor 13, and the fishing rod 5 is no longer pulled (in other words, there is no response at all.Next, when the output of 0835 reaches 10 degrees, there will be a case where B≦A is established again. In this case, since the end data is slightly larger than 80H, it is shown in Figure 7 as 5:
[The pulse width of the pulse output from AND42 is narrow;
Therefore, the current supplied to the motor 13 is small. As a result, the motor 13 rotates multiple times to wind up the fishing line 4. When the microswitch 11 is turned on by the circle [15] that descends as the motor 13 rotates, the NAND2
The output of 4 is M 1 m, and the output of AND42 is 11
1 and the rotation of the motor 13 stops. At the same time, the output of NAND23 becomes 101 and CNT33, 34
is cleared. Next, a case where the fishing rod 5 is raised incorrectly will be explained. As is well known, when fishing for henabuna, you must raise the fishing rod straight up. In this embodiment, when the fishing rod 5 is pulled up diagonally, the fishing line 4 comes into contact with the contact switch 12, and the contact switch 12 is turned on. Now, I combined the appropriate "hit" K fishing rod mentioned above,
When the fishing rod 5 is raised diagonally, the output of the INV 25 changes to 111, the F/F 30 is set, and the F/F 26 is reset. Also, when F/F30 is set, the output of 0R29 is 1.
11, the υCNTs 33 and 34 are reset, and as a result, the aforementioned tension data is read from the ROM 36. On the other hand, when F/F26 is reset, 08
35 output becomes 11" for 1 second), the response applied to fishing rod 5 disappears. Next, when the output of 0835 becomes 101, CMP40
．． 41, tension data and CNT37.3
8 is compared with the output data of No.8. As mentioned above, if the tension data is a slightly larger value than 0, a pulse signal with a narrow pulse width is output from the AND 42, as in the case shown in FIG.
It rotates and the fishing line 4 is wound up. Then, when the descending disc 15 turns on the micro switch 11, the motor 13
Stops when rotating. Next, a case will be described in which the user misjudges the timing of the bite and raises the fishing rod 5. If the fishing rod 5 is raised by misjudging the timing, the output of the NAND 23 will be 111, but since the F/F 26 is not set, the output of 0835 will immediately become IIm, so there will be no response. After one second, the motor 13 rotates 9 times and the fishing line 4 is reeled in. In this way, you can practice the timing of bringing the fishing rod ft by watching the float reflected on the TV screen. In the embodiment, the user is informed that the timing is correct by the touch applied to the fishing rod, but it is of course possible to notify the user by other methods such as a buzzer or lamp. To,
Of course, a manual switch or the like may also be used. [Effects of the Invention] As explained above, according to the present invention, a moving subject is continuously recorded, and the luck of the subject is also recorded. a recording medium on which a timing signal is recorded in accordance with the timing signal; and a reproducing means for reproducing and displaying the motion of the subject recorded on the recording medium and outputting the timing signal at the same time;
The device includes an operation signal output means that outputs an operation signal when the operation member is operated, and a response means that performs a response operation if the operation signal is detected while the timing signal is being output. You can enjoy the atmosphere of fishing at home. In addition, you can practice determining the timing of the bite from among the many ``hitashi'', and you will not lose your skills even if you do not have the opportunity to actually fish.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention, FIG. 2 is a diagram showing an example of the screen displayed on the television 2 of the same embodiment, and FIG. 3 shows the state of the screen and the audio S2. FIG. 4 is a cross-sectional view showing the configuration of the simulated box used in the same example, FIG. 5 is a circuit diagram showing the control circuit used in the same example, and FIG. Figure 7 shows
3 is a time chart for explaining the operation of each of the same control circuits. l...VTR, 2...TV C or higher 1
．． 2 is a possible means), 5... Fishing rod (operating member),
11... Micro switch (operation signal output means), 13... Motor (response means). Figure 1 Figure 3 Figure 4

Claims (1)

[Claims] A recording medium in which a moving subject is continuously recorded and a timing signal recorded in accordance with the movement of the subject; and a recording medium in which the movement of the subject recorded on the recording medium is reproduced and displayed, and the timing signal is simultaneously recorded. an operation signal output means that outputs an operation signal when the operation member is operated; and a response means that operates in response if the operation signal is detected while the timing signal is being output. A fishing training machine characterized by comprising: