JPH0674190U - Amusement device - Google Patents

Abstract

(57) [Abstract] [Purpose] To provide an amusement device which actually uses water to increase a sense of reality and requires almost no maintenance work on water. In a game device provided with a water tank 3 forming a water surface 14, a water circulation path 37 for guiding the water in the water tank 3 from the water tank to an external filtering device 42 and returning the water from the filtering device to the water tank 3.
44, 48, 49, 51, 38 are provided, a water level sensor 40 is provided in the water tank 3, and water replenishing means 43, 54, 55 for replenishing water to the water circulation path according to a signal from the water level sensor 40 are provided.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a game device provided with a water tank that forms a water surface, for example, to imitate a boat race.

[0002]

[Prior art]

 2. Description of the Related Art Conventionally, a competition game device that imitates a race on a track such as a horse race or a car race is known, and is disclosed in, for example, Japanese Patent Laid-Open No. 1-94884.

In this competition game device, a model horse, an automobile, or the like runs on a plate surface imitating a truck.

By the way, in a game device that imitates a boat race, running a boat on a plate surface in the same manner as above causes a lack of realism and is entertaining. In such a case, the water surface is formed. It is desirable to provide a water tank and run a boat on this water surface.

[0005]

[Problems to be solved]

 However, when a water tank filled with water is used for such a game device or a game device, various problems occur in terms of quality maintenance and handling of water. In other words, the water stored in the aquarium tends to get dirty or spoil, so it has to be replaced regularly, which is troublesome, and even if a preservative is mixed with the water, significant improvement is not possible. I won't. In addition, the amount of water will decrease due to splashing or evaporation of water during play, so you must be careful to replenish water from time to time.

[0006]

[Means and Actions for Solving the Problems]

 The present invention has been made in view of such circumstances, and in the present invention, in a game machine provided with a water tank for forming a water surface, the water in the water tank is guided from the water tank to an external filtering device. In addition to providing a water circulation path for returning the water from the filtering device to the water tank, a water level sensor is provided in the water tank, and water supply means for supplying water to the water circulation path in response to a signal from the water level sensor is provided.

According to the present invention, the water in the aquarium constantly circulates along the water circulation path and is purified by the filtration device, so that the water quality does not deteriorate for a long period of time, and therefore replacement is also possible for a long period of time. It becomes unnecessary. Further, when the amount of water in the water tank decreases, the liquid level sensor detects it, and the signal from the liquid level sensor automatically supplies water. Once again, the need for water maintenance work is almost eliminated.

[0008]

【Example】

 Hereinafter, the present invention will be described with reference to an illustrated embodiment. FIG. 1 is an overall external view of a boat racing game apparatus 1 according to the present invention. A large dish-shaped water tank 3 is provided on the base 2, and the water tank 3 is filled with water. Then, a plurality of model boats 4 run around on the water surface to simulate an actual boat race. The traveling model boat 4 is illuminated by an illumination lamp 5 provided around the water tank 3.

A large number of satellites 6 are arranged on the front side of the base 2 so as to surround the water tank 3. Each satellite 6 is equipped with an operation panel 7, a coin slot 8, etc., so that coins can be inserted into the coin slot 8 and the operation panel 7 can be operated to vote for the expected winning boat. ing.

A screen 10 having a large screen is provided on the upper part of the pillar member 9 standing along the rear side of the water tank 3 so as to face the satellite 6 side. An image processed and formed by a computer based on the position of each model boat 4 is displayed on the screen 10, and images of the advancing model boats 4 from various angles are displayed moment by moment.

As shown in FIG. 2, the model boat 4 is supported by a carriage 12 traveling on a bottom plate 11 of the water tank 3 via a pillar 13 projecting upward and travels integrally with the carriage 12. The water level H of the water tank 3 is controlled so that the model boat 4 is in an appropriate water-shedding state, so that the model boat 4 looks as if it is floating above the water surface 14. The dolly 12 is provided with one deflectable front wheel 15 and a pair of left and right running parts 25, and these wheels roll to travel on the bottom plate 11 and smoothly change the running direction. You can Magnets 17 are fixed to the dolly 12 between the left and right rear wheels 16 and with a slight distance from the surface of the bottom plate 11.

A power supply plate 18 is stretched below the water tank 3 along the lower surface of the bottom plate 11, and a traveling path plate 19 is provided below the power supply plate 18 with a space. The traveling path plate 19 is constructed by stretching an acrylic plate 21 on the upper surface of a relatively thick position detecting plate 20, and a carrier 22 travels on the acrylic plate 21. A magnet 23 is provided above the carrier 22, and the magnet 23 faces the magnet 17 of the truck 12 with the bottom plate 11 of the water tank 3 interposed therebetween. Therefore, the carriage 12 follows the movement of the carrier 22 by the magnetic force between the magnets 17 and 23.

The carrier 22 is composed of an upper current collecting portion 24 having the magnet 23 and a lower traveling portion 25, both of which attach the current collecting portion 24 upward with respect to the traveling portion 25. They are connected via a biasing link member 26. Similar to the bogie 12 described above, the traveling unit 25 is movably supported on the traveling road board 19 by one deflectable front wheel 27 and a pair of left and right rear wheels 28. 28 are driven by independent motors 29. Therefore, by controlling the power supply to these motors 29 to change the rotational speeds of the left and right rear wheels 28, the running portion 25 can be run in any direction. The current collecting unit 24 is also provided with similar front wheels 30 and rear wheels 31, and these wheels are in rolling contact with the power supply plate 18 by the upward bias, so that the entire carrier 22 is Moves smoothly between the power supply plate 18 and the traveling road plate 19.

A current collecting unit 32 is provided in the current collecting unit 24, and a plurality of current collectors 33 projecting from the current collecting unit 32 come into contact with the power supply plate 18 with an appropriate pressure contact force of a spring to supply power. Power is supplied from the board 18. Then, this electric power is appropriately supplied to the left and right motors 29. This electric power is also supplied to front and rear oscillation coils 34a and 34b provided on the lower surface of the traveling portion 25 so as to face the traveling road plate 19, and cause the coils to oscillate.

On the position detecting plate 20, a large number of mutually insulated electric wires are arranged so as to be oriented in the X-axis direction and the Y-axis direction which are orthogonal to each other. When the oscillation coils 34a, 34b oscillate, the corresponding electric wires are arranged. Since an induced current flows, the position and orientation of the carrier 22 can be detected by detecting this. Then, this detected value is output to the microcomputer computing unit as position information, and the computing unit determines the next driving condition of the left and right motors 29 based on this position information and transmits the motor control signal as an infrared signal. To do.

The carrier 22 is provided with a light receiver 35 that receives the infrared signal, and the driving of the left and right motors 29 is controlled according to the received signal. The computer arithmetic unit also outputs an oscillation control signal for the oscillation coils 34a and 34b as an infrared signal, and this signal is received by the light receiver 35 and input to the oscillation coils 34a and 34b, and the oscillation coils 34a and 34b oscillate, respectively. Then, the position detecting plate 20 obtains the next position information and outputs it to the computer arithmetic unit.

The above operation is repeated for each carrier 22 corresponding to each model boat 4 at a rate of 30 to 60 times per second, and each carrier 22 travels along a certain route on the traveling road board 19. To drive. In response to this, in the water tank 3, each model board 4 runs along the water surface 14, and a race with a sense of reality is developed.

On the other hand, the XY coordinates of each carrier 22 are output from the computer arithmetic unit to a video system, and the video system forms an image that changes as the model boat 4 advances based on the XY coordinates. Is displayed on the screen 10.

The boat racing game apparatus 1 is provided with a water circulation path in which water in the water tank 3 is successively taken out of the water tank, purified, and then returned to the water tank. The main part of this water circulation path is organized as a water circulation unit 36 as schematically shown in FIG. 3, and is connected to the water tank 3 via an outflow pipe 37 and a reflux pipe 38. The water circulation unit 36 is also connected to the water tank 3 via an overflow pipe 39, and when the water level in the water tank 3 exceeds a predetermined value, the overflow water is returned to the water circulation unit 36 through the overflow pipe 39. The water tank 3 is provided with a water level sensor 40, from which a water level signal is sent to a control unit in the water circulation unit 36, which will be described later.

The water circulation unit 36 may be provided in a place avoiding the space in which the carrier 22 runs in the base 2, or may be separately provided outside the base 2.

FIG. 4 is an elevational view showing various pipes and equipments installed in the water circulation unit 36, FIG. 5 is a plan view of the same, and FIG. 6 is a system diagram showing a water circulation path in the water circulation unit 36. Is. As can be seen from these drawings, the water circulation unit 36 has a pump 41, a filtration device 42, and a replenishment tank 43 built therein, which are connected by a pipe line.

The outflow pipe 37 connected to the water tank 3 is connected to an inflow pipe line 44 in the unit 36. This inflow line 44 with a manual valve 45 ₁ and a motor-operated valve 46 is connected via a branch pipe 47 to a suction line 48 of the pump 41. Discharge line 49 of the pump 41 is in communication with a filtration device 42 through the manual valve 45 _2, a pressure gauge 50 indicating the discharge pressure of the pump 41 is found provided in the pipe line. An outlet pipe line 51 having a manual valve 45 ₃ is connected to the outlet side of the filtering device 42, and the outlet pipe line 51 is connected to the reflux pipe 38 communicating with the water tank 3. The outlet line 51 also drain pipe 52 is connected through the manual valve 45 _4, which is a drain in the circulation path Ri by the opening the manual valve 45 ₄ to be able to pull the waste water tank 53 .

The water in the water tank 3 is constantly circulated between the water tank 3 and the water circulation unit 36 via the outflow pipe 37, the pipe lines 44, 48, 49, 51 and the reflux pipe 38 by the suction and discharge actions of the pump 41. In the meantime, it is filtered and purified by the filtering device 42. The circulating water amount is adjusted by operating the manual valve 45 ₃ while watching the pressure gauge 50.

The overflow pipe 39 is connected to a replenishment tank 43, and the overflow water from the water tank 3 is dropped into the replenishment tank 43. Water for replenishment is stored in the replenishment tank 43. Since the water depth of the water tank 3 is about 35 to 40 mm, the water in the water tank 3 and the water in the supply tank 43 are colored in order to simulate the deep water depth. In the replenishment tank 43, a water replenishment pipeline 54 connected to the branch pipe 47 extends to near the bottom. An electric valve 55 is provided in the water supply line 54.

An electric valve controller 57 for controlling the electric valves 46, 55 is provided on an operation panel 56 attached to the water circulation unit 36 for operating the pump 41 and the like. The control unit receives the water level signal from the water level sensor 40 and sends a control signal to the motor-operated valves 46 and 55 in response to the water level signal to open and close them appropriately. As a result, when the water level is proper, the motor-operated valve 55 is closed, only the electric valve 46 is opened at an appropriate opening, and the water in the water tank 3 is simply circulating, but the water level is at a predetermined value. If the value decreases from the value, the opening degree of the electric valve 46 decreases according to the degree, and the electric valve 55 gradually opens.

As a result, the amount of water taken out from the water tank 3 to the outflow pipe 37 is reduced, and the water in the replenishment tank 43 is sucked by the pump 41 through the water replenishment pipe line 54 accordingly, so that the water is supplied from the reflux pipe 38 to the water tank The amount of water returning to 3 becomes larger than the amount of water taken out from the outflow pipe 37, the amount of water in the water tank 3 increases, and the water level recovers. When the water level is restored, the motor-operated valve 55 is closed, but when the water level transiently rises above a predetermined value, excess water is returned to the replenishment tank 43 via the overflow pipe 39.

The replenishment tank 43 is provided with an empty sensor 58, and when the water level in the replenishment tank 43 is below a predetermined value, the water leak alarm 59 is activated by a signal from the empty sensor 58 and the water tank 3 or Announce that a leak has occurred somewhere in the water circulation path.

[0029]

[Effect of device]

 According to the present invention, it is possible to obtain an amusement machine which actually uses water to increase a sense of reality and which requires almost no maintenance work on water such as replacement and replenishment of water.

[Brief description of drawings]

FIG. 1 is an overall external view of a boat racing game device according to the present invention.

FIG. 2 is an elevational view showing a drive mechanism of the model boat.

FIG. 3 is a schematic diagram showing a connection relationship between a water tank and a water circulation unit.

FIG. 4 is an elevational view showing a configuration of a water circulation path.

FIG. 5 is a plan view showing a configuration of a water circulation path.

FIG. 6 is a system diagram of a water circulation path.

[Explanation of reference numerals] 1 ... boat racing game device, 2 ... base, 3 ... water tank, 4 ... model boat, 5 ... illumination light, 6 ... satellite, 7 ... operation panel,
8 ... Coin slot, 9 ... Support member, 10 ... Screen, 11
… Bottom plate, 12… Bogie, 13… Posts, 14… Water surface, 15… Front wheel, 16
... rear wheel, 17 ... magnet, 18 ... power supply plate, 19 ... running path plate, 20 ... position detection plate, 21 ... acrylic plate, 22 ... carrier, 23 ... magnet,
24 ... Current collecting part, 25 ... Running part, 26 ... Link member, 27 ... Front wheel,
28 ... rear wheel, 29 ... motor, 30 ... front wheel, 31 ... rear wheel, 32 ... collector unit, 33 ... collector, 34 ... oscillation coil, 35 ... photoreceiver,
36 ... Water circulation unit, 37 ... Outflow pipe, 38 ... Reflux pipe, 39 ... Overflow pipe, 40 ... Water level sensor, 41 ... Pump, 42 ... Filtration device, 43
... replenishment tank, 44 ... inflow line, 45 ... manual valve, 46 ... motor valve, 47 ... branch line, 48 ... suction line, 49 ... discharge line, 50 ... pressure gauge, 51 ... outlet line, 52 ... Drain pipe, 53 ... Waste water tank, 54 ... Water supply pipe, 55 ... Motor valve, 56 ... Operation panel, 57 ... Control unit, 58 ... Empty sensor, 59 ... Leak alarm

Claims (1)

[Scope of utility model registration request] 1. A game device provided with a water tank for forming a water surface, wherein a water circulation path for guiding water in the water tank from the water tank to an external filter device and returning the water from the filter device to the water tank is provided in the water tank. A game device comprising a water level sensor, and water supply means for supplying water to the water circulation path in response to a signal from the water level sensor.