KR200303929Y1 - Hitting Sensor Apparatus - Google Patents

Abstract

Durable, small volume and weight hitting sensor device suitable for use in hitting game machines. An air pressure generating means is installed at a portion to be hit. The air pressure generating means has an air inlet and an air inlet provided with a check valve to allow air inflow from the outside but prevents outflow of air. When the internal compressed air is discharged through the air outlet. The sensing assembly includes a frame, a breakaway plate, and an optical sensor. A through hole is formed in the frame in the vertical direction, and a nozzle is provided at the lower end of the through hole, and a plunger having an outer diameter smaller than that of the through hole is inserted in the through hole. The air outlet of the air pressure generating means and the frame nozzle are connected by a hose. The release preventing plate is installed in the transverse direction above the frame to prevent the plunger from escaping upward. The optical sensor includes a pair of light emitting elements and a light receiving element, and is installed between the frame and the separation prevention plate, wherein the light sensor is arranged to block an optical path between the light emitting element and the light receiving element when the plunger protrudes from an upper end of the through hole. .

Description

Hitting Sensor Apparatus

The present invention relates to a sensor, and more particularly to a blow sensor for use in a hitting game machine and the like.

Unlike electronic entertainment, where the user operates the game by pressing a button with the brain activity while staring at the screen with almost no physical exercise, the traditional game machine, which has a physical exercise, brings health promotion effect and is effective in relieving stress. Continues to gain popularity. Examples of such a game machine include a mole catching game machine hitting a hammer when protruding upward and downward movable objects through a hole of a main body plate, or a punching game machine hitting a punching ball or a human-shaped object.

In such a hitting game machine, a separate hitting sensor is generally employed for each hitting target or hitting portion. For example, a striking game machine employs a blow sensor for each moving object, that is, a mole, and a punching game machine employs a separate sensor for each punching ball or each punching part. Here, examples of the punching game machine provided with a number of punching sites are registered utility model No. 0280240 registered on June 18, 2002 (designated name: detection device for hitting game machine), published on November 29, 2001 It is described in Unexamined-Japanese-Patent No. 2001-0105459.

However, the impact sensor or the pressure sensor is used as a hit sensor of the conventional hitting game machine, and these sensors may be damaged or malfunction when repeatedly priced, so that the detection and score addition of the hit number may be inaccurate. have. In addition, when a plurality of sensors are used in one game machine, as in the above-mentioned mole catching machine or punching game machine, there is a problem in that the volume and weight of the overall sensor device increase and the cost of the sensor device increases.

The present invention has been made to solve the above-mentioned problems, and to provide a hit sensor device with high durability, small volume and weight as suitable for use in a game machine as its technical problem.

1 is a perspective view of an embodiment of a blow sensor device according to the present invention.

2 is an exploded perspective view of the sensing assembly.

3 is a cross-sectional view of the sensing assembly.

According to the blow sensor device of the present invention for achieving the above technical problem, the sensing assembly is installed separated from the hitting part. An air pressure generating means is installed at a portion to be hit. The air pressure generating means has an air inlet and an air inlet provided with a check valve to allow air inflow from the outside but prevents outflow of air. When the internal compressed air is discharged through the air outlet. The sensing assembly includes a frame, a breakaway plate, and an optical sensor. A through hole is formed in the frame in the vertical direction, and a nozzle is provided at the lower end of the through hole, and a plunger having an outer diameter smaller than that of the through hole is inserted in the through hole. The air outlet of the air pressure generating means and the frame nozzle are connected by a hose. The release preventing plate is installed in the transverse direction above the frame to prevent the plunger from escaping upward. The optical sensor includes a pair of light emitting elements and a light receiving element, and is installed between the frame and the separation prevention plate, wherein the light sensor is arranged to block an optical path between the light emitting element and the light receiving element when the plunger protrudes from an upper end of the through hole. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows an embodiment of a blow sensor device according to the present invention.

The blow sensor device of FIG. 1 includes an air pressure generating unit 10, a hose 20, and a sensing assembly 30. The pneumatic pressure generating unit 10 is a portion hit by external force and generates compressed air when it is hit, and the hose 20 delivers the compressed air from the pneumatic pressure generating unit 10 to the sensing assembly 30. In addition, the sensing assembly 30 generates an electrical signal indicating whether the blow from the compressed air to output to a signal processing circuit (not shown).

The air pressure generating unit 10 is made of rubber, and has a shape in which a donut-shaped tube 14 is coupled to a base 12 having a substantially rectangular cross section. An air outlet (not shown) and an air inlet (not shown) connected to the hose 20 are provided at the rear of the base 12. The air inlet allows air to be introduced from the outside, but prevents the outflow of air. A check valve 16 is installed. In such an air pressure generating unit 10, when hit from the outside, the outer circumferential surface of the tube 14 is pressed inward, and the air inside the tube 14 is discharged to the hose 20 through the air outlet. At this time, the check valve 16 is prevented from flowing out to the air inlet. When the blow is complete, the outer circumferential surface of the tube 14 is restored to its original state by elasticity. At this time, external air is introduced into the tube 16 through the check valve 16 and the air inlet.

In the sensing assembly 30, the through-holes 42a to 42h are formed in the frame 40 in the up and down direction, and the end of the hose 20 is coupled to the lower end of each through hole 42a to 42h. (Not shown in FIG. 1) is installed. As can be seen in Figures 2 and 3, in each through hole 42a to 42h, a plunger 46 whose outer diameter is smaller than the inner diameter of the through hole is inserted. As will be described later, a locking step for supporting the plunger 46 from below is formed below the through holes 42a to 42h.

An anti-separation plate 60 is installed above the frame 40 to prevent the plunger 46 from escaping upward. The anti-seizure plate 60 is spaced from the upper surface of the frame 40 by the spacer 52. It is fastened to the frame 40 by the screw 54 in a state spaced by a predetermined interval.

An optical sensor 70 is installed between the frame 40 and the separation prevention plate 60 to correspond to each through hole 42a to 42h. In a preferred embodiment, the optical sensor 70 has a structure in which the light emitting element and the light receiving element face each other in a support that is in the form of a "dimple" to a horseshoe. Accordingly, when the plunger 46 protrudes above the through hole 40 by the air pressure from below, the plunger 46 blocks the optical path between the light emitting element and the light receiving element, and the blocking of the optical signal causes light emission. A pulse is generated in a circuit connecting the device and the light receiving device, and a separate signal processing circuit provided on the printed circuit board recognizes that the air pressure generating unit 10 has been hit based on the pulse. Such a signal processing circuit can be easily implemented by those skilled in the art to which the present invention pertains, and thus a detailed description thereof will be omitted.

2 is an exploded perspective view of the sensing assembly, and FIG. 3 is a cross-sectional view of the sensing assembly. 2 and 3, the assembly process of the sensing assembly 30 will be described.

First, the plunger 46 is inserted into each of the through holes 42a to 42h of the frame 40. A locking jaw 44 is formed in the lower portion of each of the through holes 42a to 42h, and the locking jaw 44 supports the plunger 46 from below. Next, the optical sensor 70 is installed in each of the through holes 42a to 42h. As described above, the optical sensor 70 includes a light emitting device 72 and a light receiving device 74 which are installed to face each other, and may be fixed to the upper surface of the frame 40 by using an adhesive or a screw. Next, the spacer 52 is placed on the frame 40 and the release preventing plate 60 is fastened to the frame 40 using the screw 54 thereon. On the other hand, the nozzle 48 is formed separately from the frame 40 may be screwed or interference fit to the bottom of the through-holes (42a ~ 42h).

The blow sensor device of FIGS. 1 to 3 is installed as follows. First, the air pressure generating unit 10 is installed in the hitting portion of the game machine. For example, in the case of a punching game machine in which a plurality of punching parts are provided, each pneumatic generator 10 may be installed inside the cushion layer of the doll at each punching part. On the other hand, after the sensing assembly 30 is assembled in the manner described above, each nozzle is connected to each pneumatic generator 10 through a respective hose, the optical sensor is connected to the printed circuit board.

The blow sensor device of FIGS. 1 to 3 operates as follows.

When the air pressure generating unit 10 is pressed in the course of the game, the air inside the air pressure generating unit 10 is compressed and supplied to the frame through-holes 42a to 42h via the air outlet and the hose 20. In the frame through-holes 42a to 42h, the plunger 10 rises upward by the air pressure to protrude. At this time, the departure prevention plate 60 prevents the plunger 10 from being separated from the frame through-holes 42a to 42h. In addition, the collision sound of the escape prevention plate 60 and the plunger 10 may increase the zest of the game. When the optical path between the light emitting element and the light receiving element is blocked by the protruding plunger 10, a pulse is generated in a circuit connecting the light emitting element and the light receiving element, and the pulse is supplied to a signal processing circuit on the printed circuit board to generate air pressure. The fact that the blow of the part 10 is recognized is recognized.

After the air introduced through the gap between the plunger 10 and the frame through-holes 42a to 42h is discharged, the plunger 10 falls down by gravity and is restored to its original shape. In this case, the locking jaw 44 is a plunger ( Supporting 10 from the lower side prevents it from passing through the frame through holes 42a to 42h. On the other hand, while the plunger 10 protrudes upward and is restored to its original shape, the plunger 10 may be discharged to the outside together with air from which fine dust or foreign matter inside the hose and frame through-holes 42a to 42h are discharged. Here, in order to facilitate the discharge of such foreign matter, as shown in FIG. 2, a through hole may be formed in the transverse direction at approximately the center of the plunger 10.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. For example, in the above description, only one light emitting element-light-receiving element pair is provided between each through-hole and the separation preventing plate of the frame, but a plurality of light-emitting element-light-receiving element pairs form a layer for at least one through hole. It can also be installed. In this case, the signal processing circuit may determine the rising height of the plunger based on the signals from the plurality of light emitting element-light receiving element pairs, and determine the blow strength of the air pressure generating portion associated with the through hole.

Therefore, the above-described embodiments are to be understood as illustrative in all respects and not as restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

As described above, according to the present invention, since the sensing assembly is separated from the hitting portion, the durability of the sensing assembly is increased. In addition, there is an effect of reducing the overall volume and weight of the sensor device in a game machine having a plurality of sensors.

Claims (4)

An air inlet and an air inlet for enabling air inflow from the outside but preventing the outflow of air is provided, and generates air pressure to discharge the compressed air therein through the air outlet when it is hit by an external force. Way; A hose having one end coupled to an air outlet of the air pressure generating means; A through hole is formed in an up and down direction, and a nozzle is installed at a lower end of the through hole and coupled to another end of the hose, and a plunger whose outer diameter is smaller than the inner diameter of the through hole is inserted into the through hole; An anti-separation plate installed on the upper side of the frame to prevent the plunger from escaping upward; And An optical sensor installed between the frame and the release preventing plate, the optical sensor being arranged to block an optical path between the light emitting element and the light receiving element when the plunger protrudes from an upper end of the through hole; Blow sensor device comprising a. The method of claim 1, A plurality of through holes are formed in parallel in the frame, and a separate nozzle is installed in each of the plurality of through holes, and a separate plunger is inserted therein. Separate air pressure generating means is coupled by a separate hose for each of the plurality of nozzles, Strike sensor device provided with a separate optical sensor corresponding to each of the plurality of plungers. The method of claim 2, At least one of the plurality of light sensors is a strike sensor device is provided between a plurality of light emitting element-light receiving element layer between the frame and the separation prevention plate. The method of claim 1, And a plurality of light emitting element-light receiving element pairs are disposed between the frame and the separation preventing plate.