JP5260618B2 - Target playground equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a play apparatus of target hitting, and an arrow thereof, maintaining the appearance of a state where an approach angle of the arrow is retained and the arrow is stuck therein, when playing with a dart, a bow, and a bowgun. <P>SOLUTION: A released arrow 100 flies, and an arrowhead 11 as a tip of the arrow passes on an arrowhead passing face 201. Then, the arrowhead 11 is collided with a buffer 203 and the power is lessened, so that the arrowhead is caught between bristles raised like a brush, on the collision face 22 to stop the arrowhead. At this point, in the arrowhead passage face 201, a linear body 21 supports a shaft part 12 of the arrow to support the shaft part 12 without being hung down therefrom. The approach angle of the arrow 100 is retained to maintain the appearance while the arrow is stuck in a target 200. <P>COPYRIGHT: (C)2012,JPO&amp;INPIT

Description

The present invention relates to a hitting play apparatus, and more particularly to an object released by a player using a tool or by a person's throwing at a predetermined target and a device for capturing the object.

The said object is an arrow used as competitions, practice, and toys, such as a bow, a dart, and a blowing arrow.

The arrow such as the bow or dart is a shape composed of three parts, an arrowhead part, a yagar part, and a yaba part, and the arrow of the blow arrow is a conical cylinder. This is a shape in which a part is a stalk part and a part having a sharp tip is an arrowhead part.

The arrows used for sports competitions and practice are to check the hit position by stopping the stabbing with the sharp tip of the arrowhead.

However, in the case of the sharp shape of the arrowhead, if it hits one person, it can be stabbed and it is very dangerous, so the arrows used for commercially available bow-shaped toys consider the risk As disclosed in Japanese Utility Model Laid-Open No. 53-006099 described in Japanese Patent Application Laid-Open No. H10-260, a product that adsorbs at the hit position using a sucker as the part of the arrowhead is proposed.

Moreover, since the tip of a blow arrow or dart arrow is also sharp and sharp, it is dangerous. For example, as shown in Japanese Utility Model Publication No. Sho 56-166069 described in Patent Document 2, the surface of the arrow tip and the target surface have a planar fastener structure. There have been proposed toys that are sticky by being made, and a magnet fixed to the tip of an arrow, such as utility model registration No. 3127809 described in Patent Document 3, and attached by a magnetic force like a metal.

Japanese Utility Model Publication 53-006099 56-166069 Utility Model Registration No. 3127809

The toy having the arrow structure disclosed in Patent Document 1 has a suction cup at the tip of the arrowhead, and the tip has a large and unbalanced shape compared to the arrowhead that is the axis of the arrow. Will not fly as expected. Also, depending on the power of the arrow and the angle of approach to the reaching site, the suction cup may not be reliably attracted.

Moreover, even if it adsorb | sucks, since the whole arrow is supported only by an adsorption | suction site | part, an arrow will hang down from an adsorption | suction site | part, and it will be like no force.

In the dart having the structure of the planar fastener disclosed in Patent Document 2, there is a case where it does not stick due to the power of the arrow. In the thing which the tip of the arrow currently disclosed by patent document 3 was made of the magnet, even if it hits the object in which the metal was built, it may be rebounded with the momentum that the arrow flew to there. Also, if the tip of the arrow is flat and the arrow hits perpendicularly, it will be attracted by a magnetic force, but if the approach to the target is oblique, it will not stick as expected and may fall off the target.

On the other hand, the power of the bow and arrow used in sports competitions is great, and with an arrow with a sharp tip, there is a possibility of serious injury in the event of an accident, so practice to release the arrow easily Things are difficult.

Also, the power of the arrow fired from a gun-shaped bow called a bowgun (crossbow) is not a tool that can be used easily and easily.

Therefore, the present invention for solving the above problems is as follows: (1) A target playground equipment having a function of fixing and capturing an arrow released by a player by a predetermined means at a collision position; The tip end side of a certain arrowhead part is a spherical surface, and the maximum diameter of the arrowhead part is larger than the diameter of the boundary part between the arrowhead part and the arrowhead part. The arrowhead passage surface has an arrowhead passage surface on the front side and a buffer portion on the rear side, and the arrowhead passage surface has a plurality of linear bodies arranged in parallel to each other, and the linear body has a horizontal direction. A plurality of linear bodies extending in parallel to each other at an interval less than the maximum diameter of the arrowhead portion between the arrowhead passage surface and the buffer portion. comprising a the arrowhead disengaged protective surface, the arrowhead passing surface and the arrowhead disengaged preventing surface, Allow passage of serial arrowhead portion, the buffer unit, the arrowhead portion absorbs the collision energy without the arrows that pass through the, between the buffer unit and the arrowhead disengaged protective surface, stopping the arrowhead portion, Acting as a locking means for preventing the arrow from falling off , the arrowhead passage surface supports the arrowhead portion so as to fix the direction and position of the arrow when the arrowhead portion passes, and the arrow is It solves with the target play equipment characterized by maintaining the appearance of the state of being stabbed.

(2) Further, in addition to the plurality of linear bodies in which the arrowhead passage surface and / or the arrowhead withdrawal prevention surface extends in parallel, the target is a plurality of lines in a direction intersecting the linear body. This is solved by the hitting play device according to (1) , characterized in that the linear body is further stretched.

(3) In addition, the arrows, the arrowhead portion leading end side is a spherical surface, in the claims arrow head is the tip of the arrow is characterized that it is an object to be covered configurations (1) or (2) This is solved by the described target playing equipment.

(4) Further, in addition, the arrow, the claims distal end side, wherein the arrowhead portion with a connecting means to the base end side and the spherical surface, that is configured to connect the Yagara portion (1) It solves by the hitting play equipment as described in thru | or (3) .

The target playing equipment according to the present invention, its arrow, and its target, with the player side as the target front, a plurality of linearly extending arrowhead passing surfaces are arranged on the front side, and the arrowhead passing surface is The arrowhead with a spherical surface on the tip side passes between the linear bodies, so that it collides with the buffer part installed on the rear side, the energy of the arrow is absorbed, and the arrow loses its power. The buffer part and the arrowhead reverse passing surface act as a locking means that fixes and stops the arrowhead part at the collision position, the arrowhead part is fixed, and the arrowhead passing surface through which the arrowhead part passes supports the arrowhead part. By supporting the arrowhead part and the arbor part in the target, the appearance angle of the arrow can be maintained and the appearance of the stuck state can be maintained.

Therefore, in the toy, according to the arrow of the present invention, when the arrow hits the arrow with a better shape and balance than the conventional arrow, the arrow does not fall off from the target. By stopping while keeping the angle at which it is approaching, it is possible to provide a more powerful toy compared to conventional toys by being able to more realistically represent the pattern of the arrow stuck.

On the other hand, with arrows released by darts, bows, bowguns, etc., arrows with less danger by attaching a cap-shaped arrowhead with a spherical tip or by replacing the arrowhead with a spherical tip, It is intended to provide a target that can reliably capture the arrow and that does not pierce the inside of the target, and can express the state where the arrow has been inserted.

It is the figure which showed the shape of the arrow. It is a figure explaining a target structure. It is a figure explaining the process by which an arrow is captured intentionally. It is a figure explaining the characteristic of the arrow by this invention. It is a figure explaining a target structure. It is a figure explaining capture of an arrow. It is a figure explaining the latching means of an arrow. It is a figure explaining the direction which stretches the linear body which comprises the target, and how to take out the arrow. It is a figure explaining capture | acquisition of the arrow of a blowing arrow. It is a figure explaining capture of the dart's arrow. It is a figure explaining capture | acquisition of the ball | bowl of target bird golf. It is a figure explaining the arrowhead part connected with the front-end | tip of another arrow.

First, in the present invention, the shape of the arrow 100 and the configuration of the target 200 are important. Therefore, the shape of the arrow 100 will be described with reference to FIG.

1A shows the shape of an arrow 100 used for a bow and arrow, a bow gun, or the like. The configuration of the arrow 100 is made up of three parts: an arrowhead part 11, an arrow handle part 12, and an arrow feather part 13. Since the arrow 100 of the competition is supposed to be pierced, the tip side v of the arrowhead 11 has a sharp shape.

Since it is dangerous if the tip side v is sharp like the arrow 100, the arrow 100 in the toy has a shape in which the tip side v of the arrowhead portion 11 forms a suction cup as shown in FIG. 1B. Proposed.

Most of the shape of the arrow 100 in which the tip side v of the arrowhead part 11 shown in FIG. 1A is sharp is an object used in sports competitions and the like, and is an object that disappears and stops when it is pierced.

Since the arrow with a sharp tip side v as described above is dangerous, the arrow used in the toy is made into a safety-conscious thing by making the shape as shown in FIG. 1B described above. If the shape of the arrowhead 11 is large, the balance is poor, it is difficult to hit the target location, and it is far from the original performance of the arrow.

Therefore, as shown in FIG. 1C, the arrow 100 in the present invention can reduce the risk in a competition arrow by making the tip side v of the arrowhead portion 11 a spherical surface. By bringing the shape of the arrow close to that of the arrow, a well-balanced arrow 100 can be formed.

The first feature of the arrow 100 according to the present invention is that the tip side v of the arrowhead 11 that is the tip of the arrow is a spherical surface.

The pattern of capturing the arrow by the target 200 according to the present invention will be described below with reference to examples. Examples of the shape of the arrow 100 to be captured include an arrow of a blown arrow and a dart arrow, in addition to an arrow having a long arrow handle 12 like the arrow of the bow shown in FIG. 1C. The capture of the arrow having the long shape of the arrow handle 12 will be described in the order of the claims in the following examples.

Example 1 explains the hitting play equipment described in claim 1.

FIG. 2 shows the configuration of the target 200 in the present invention that captures the arrow 100.

2A is a perspective view showing an arrow 100 and a target 200 in which the tip side v of the arrowhead part 11 that is an arrow tip has a spherical surface. The target 200 has the player side in front of the target 200, has an arrowhead passage surface 201 on the front side, and has a buffer portion 203 on the rear side thereof, and the arrowhead passage surface 201 and the buffer portion 203 are spaced apart by a predetermined distance m. Box-shaped.

FIG. 2B illustrates the arrowhead passing surface 201. The arrowhead passing surface 201 is formed by stretching a plurality of linear bodies 21 in parallel to the frame 20, and the linear bodies 21 are arranged with an interval between adjacent ones at an interval width p that is about the diameter of the arrow handle 12. It is a thing of composition. The arrowhead passing surface 201 is installed so that the direction of the linear body 21 is in the horizontal direction in order to support the arrowhead 12 after the arrowhead 11 passes. As the material of the linear body 21, for example, a Tegus No. 10 used for fishing and a standard diameter (standard of Japan Fishing Products Industry Association) of about 0.520 mm are used.

The frame 20 can be made of synthetic resin such as plastic, metal such as aluminum, stainless steel, steel, or wood, and can be processed to stretch the linear body 21, and is distorted by stretching the linear body 21. It is preferable to select a material that is strong and durable so that it does not break when the arrow contacts. For example, an aluminum frame 20 having a width of about 1 centimeter and a thickness of about 3 millimeters is subjected to a process of making holes or attaching grooves at the same interval as the interval width p. By passing the linear body 21 through these holes and grooves, even if an arrow hits the linear body 21, the arrangement of the linear bodies 21 is not displaced.

FIG. 2C shows the buffer 203. The buffer part 203 is a collision surface 22 on the front side that receives the arrow 100, and is provided with a buffer material 23 on the back side to absorb the energy of the arrow 100.

FIG. 2D illustrates an example of the configuration of the buffer unit 203. The collision surface 22 is a surface on which brush-like hairs made of chemical fibers have a length of about 3 to 4 cm, and the buffer material 23 is a buffer portion 203 using cotton made of chemical fibers.

A pattern in which the arrow 100 is captured by the target 200 having the above configuration will be described with reference to FIG.

FIG. 3 shows a pattern in which the released arrow 100 flies and the arrowhead part 11 that is the arrowhead passes through the arrowhead passage surface 201.

As shown in FIG. 3A, the arrowhead portion 11 having energy and colliding with the arrowhead passage surface 201 is a linear body arranged in parallel as shown in FIG. 3B because the tip side v is a spherical surface. The interval width p of 21 is expanded and passes through the arrowhead passing surface 201 as shown in FIG. 3C.

Thereafter, as shown in FIG. 3D, the arrowhead portion 11 collides with the buffer portion 203 and loses its power, and acts as a locking means that is pinched between the brush-like hair feet of the collision surface 22 and stops the arrowhead portion. At this time, as shown in FIG. 3E, the arrowhead passage surface 201 through which the arrowhead section 11 has passed is supported by the linear body 21 supporting the arrowhead section 12 without the arrowhead section 12 hanging down. As shown in FIG. 3F, the arrowhead portion 11 is supported by the buffer portion 203, the arrow handle portion 12 is supported by the arrowhead passage surface 201, the approach angle of the arrow 100 is also maintained, and the appearance of the state stuck in the target 200 can be maintained. It can be done.

In addition, the said buffer part 203 uses a metal cotton for the collision surface 22 and uses a magnet for the arrowhead part 11, or uses the arrowhead part 11 as a metal and uses a magnet for the inside of the collision surface 22, so that the arrowhead part. There are also locking means or the like for stopping 11 at the arrival part of the collision surface 22.

In addition, the predetermined interval m for installing the buffer portion 203 and the arrowhead passage surface 201 varies depending on the length and weight of the arrow 100, but if the distance is slightly longer than the position where the center of gravity g of the length of the arrow 100 becomes, the arrow 100 is Easy to support.

The linear body 21 constituting the arrowhead passage surface 201 supports the arrow 100 by supporting it at least in the horizontal direction in order to prevent the arrow handle 12 from hanging downward. It becomes a play equipment.

However, depending on the magnitude of the power of the arrow, it is conceivable that the arrowhead part 11 is repelled from the buffer part 203. Therefore, a locking means for the arrowhead part 11 repelled from the buffer part 203 will be described in the second embodiment. . The second embodiment will be described below with respect to the hitting playground equipment described in claim 3.

The thing represented to FIG. 4 represents the structure used as the characteristic of the arrow 100 in this invention.

4A shows an arrowhead portion 11 and an arrow handle portion 12 that constitute the arrow 100. FIG. Of the shape of the arrowhead portion 11 that forms a spherical surface, which is the tip side v, which is the first feature of the arrow 100, the largest diameter is defined as the maximum diameter s. The region where the arrow handle 12 is connected to the base end side r of the arrowhead 11 is defined as a boundary portion f, and the diameter is smaller than the maximum diameter s of the arrowhead 11.

A shape in which the diameter of the boundary portion f is less than the maximum diameter s of the arrowhead portion 11 is the second feature of the arrow 100.

4B shows some examples of shapes that are characteristic of the arrow 100. FIG. The tip end side v of the arrowhead part 11 is a rounded spherical surface, and the boundary part f between the arrowhead part 11 and the arrowhead part 12 is the base end side r of the arrowhead part 11 as shown in FIG. A shape that gradually decreases toward the surface, a step that forms a step as shown in b in the figure, a shape in which the arrow handle 12 gradually extends from the boundary part f toward the rear of the arrow, as shown in c in the figure, etc. There is a feature that the diameter of the boundary part f is smaller than the maximum diameter s of the arrowhead part 11.

The material of the arrowhead portion 11 constituting the arrow 100 is not damaged by colliding with the buffer portion 203 constituting the target 200, and natural and chemical materials such as cured plastic, hard rubber, and wood can be used. It is preferable to select a material with sufficient consideration.

The material of the arrow handle part 12 constituting the arrow 100 is, for example, a natural material such as bamboo or wood, or a chemical material such as carbon or plastic, and the arrow feather part 13 is a natural material such as toba or cloth. And chemical materials.

It is preferable to select the material of the arrowhead part 11, the arrow handle part 12, and the arrow feather part 13 in consideration of the compatibility with the material of each part constituting the arrow 100, the weight balance of the entire arrow 100, and the like.

Next, in order to reliably capture the arrow 100 having the second feature, the configuration of the target 200 provided with the arrowhead dropout prevention surface 202 will be described with reference to FIG.

5A is a perspective view showing the target 200 in the present invention. The target 200 includes at least one arrowhead passage surface 201 in a layered manner from the front side, and includes a buffer portion 203 on the rear side. An arrowhead removal prevention surface 202 is provided between the arrowhead passage surface 201 and the buffer portion 203. This is a configuration provided.

The configuration of the arrowhead passing surface 201 is the same as that described in FIG. In addition, although it is not necessary to set the interval width p for arranging the linear bodies 21 at an interval narrower than the diameter of the maximum diameter s of the arrowhead portion 11, it supports that the arrow handle 102 does not hang down, and the arrow 100 In order to more accurately hold the approach path, it is preferable that the interval width p is made narrower than the diameter of the arrowhead so that the linear body 21 contacts the arrowhead portion 12.

The arrowhead withdrawal prevention surface 202 will be described with reference to FIG. 5B. In the arrangement of the linear bodies 21 constituting the arrowhead withdrawal prevention surface 202, the interval width p between adjacent ones becomes an interval width p narrower than the maximum diameter s of the arrowhead portion 11 constituting the arrow 100 to be used. It was installed.

The material of the frame 20 constituting the arrowhead passage surface 201 and the arrowhead removal prevention surface 202 is preferably strong enough not to be deformed by stretching the linear body 21 and strong enough not to break when the arrow 100 collides. Metals such as aluminum, brass, copper, and steel, and those made of resin such as hardened plastic and ceramic, and wooden frames can be used.

As the material of the linear body 21 constituting the arrowhead passage surface 201 and the arrowhead removal prevention surface 202, it is preferable to select a material that is durable without being damaged by friction due to the passage of the arrow 100. Natural and chemical fibers Can be used. In addition, for example, if a thread of Tegus 10 (standard diameter 0.520 mm) or less is used for the linear body 21 used for the target 200 that captures the weak arrow 100 of the toy, the power of archery or Bogan etc. The target 200 that receives a strong arrow can deal with the difference in power of various arrows by using a thick linear body 21 of No. 10 or more and examining the material of the linear body 21.

The buffer portion 203 constituting the target 200 will be described with reference to FIG. 5C. The buffer portion 203 has a collision surface 22 on the surface layer side that receives the arrow 100, and a buffer material 23 on the back side.

The collision surface 22 is preferably made of a material having strength that prevents the arrowhead 11 from repeatedly breaking and penetrating due to the impact, and softness that suppresses repulsion.

The material of the collision surface 22 that receives powerful arrows such as archery and bowgan is made of, for example, a strong fiber that is kneaded with metal, or a sheet or leather made of natural or chemical fiber. It is preferable to select a material that does not penetrate due to the collision of the arrow and that is less likely to wear due to repeated collisions.

On the other hand, the power of the arrow 100 used for the toy is that the force that collides with the collision surface 22 is much smaller than that of the arrow 100 for sports competitions, etc. As an example, a denim material is used.

The material of the collision surface 22 described above is preferably selected in consideration of durability depending on the power of the released arrow 100 and the material of the arrowhead portion 11 constituting the arrow.

The material of the cushioning material 23 constituting the cushioning section 203 is preferably a material that sufficiently absorbs the impact of the arrow and absorbs and releases energy. For example, a powerful arrow can be made of natural or chemical fiber. In addition, an amount of cotton or sponge-like material is set to a thickness of about 30 centimeters.

On the other hand, since the power of the arrow in the imitation toy is small, the amount of the material is set to be about 1 to 2 centimeters, for example.

The material of the cushioning material 23 and the amount to be used are preferably selected in consideration of the power of the released arrow 100 and the relationship with the material of the arrowhead portion 11 constituting the arrow.

With reference to FIG. 6, a pattern in which the arrow 100 is captured by the target 200 having the configuration including the arrowhead withdrawal prevention surface 202 shown in FIG. 5A will be described.

As shown in FIG. 6A, when the released arrow 100 collides with the linear body 21 forming the arrowhead passing surface 201 installed on the front side of the target 200, the linear body 21 is caused by the power (energy) of the arrow. The space p is widened by the tip side v of the spherical surface of the arrowhead 11 and widens and passes through this part. The pattern is the same as that shown in FIGS. 3A, 3B and 3C of the first embodiment.

The interval width p of the linear bodies 21 pushed and spread by the arrowhead section 11 is narrowed, and the arrow-shaped section 12 passes between the narrowed linear bodies 21.

Thereafter, as shown in FIG. 6B, the arrowhead portion 11 collides with the arrowhead withdrawal prevention surface 202.

The process in which the arrowhead part 11 passes through the arrowhead removal prevention surface 202 is the same as the passage of the arrowhead passage surface 201.

After passing through the arrowhead withdrawal prevention surface 202, the arrowhead section 11 collides with the buffer section 203 installed on the rear side, as shown in FIG. 6C, so that energy is absorbed by the buffer section 203. At this time, the arrow 100 However, if the power does not disappear, it will be repelled from the buffer 203 and the arrowhead 11 may be returned in the direction of the arrowhead removal prevention surface 202.

Therefore, as shown in FIG. 7A, the arrowhead portion 11 of the arrow 100 that rebounds back from the buffer portion 203 is replaced with a portion where the diameter of the boundary portion f between the arrowhead portion 11 and the arrowhead portion 12 is small as shown in FIG. 7B. As shown in FIG. 7C, the arrowhead 11 is reversed by the base end r being hooked on the linear body 21 so that the arrowhead removal preventing surface 202 is reversed. Stop without passing.

At this time, as shown in FIG. 7D, the arrowhead part 11 stops between the buffer part 203 and the arrowhead removal prevention surface 202, as shown in FIG. Since the arrow 100 does not fall off, even when the arrowhead 11 is separated from the collision surface 22, the arrow handle 12 is supported by the arrowhead passage surface 201 and the arrowhead removal prevention surface 202, so that the reaching position is stuck. It can be held.

It is preferable that the linear body 21 is stretched in the horizontal direction in order to prevent the arrow 100 from dropping and the arrow handle 12 from hanging down by the arrow tip passing surface 201 and the arrow tip removal preventing surface 202 of the target 200. However, as shown in FIG. 7E, when several layers of the arrowhead passage surface 201 are installed, not all of them are stretched in the horizontal direction, but the arrow 100 can be supported and the arrow handle 12 does not hang down. It is preferable to install in such a manner.

The third embodiment describes a configuration that ensures the capture of an arrow more than the target 200 described in claim 3.

FIG. 8 shows the structure of the target 200 described in claim 4. FIG. 8A shows the configuration of the linear body 21 that constitutes the arrowhead passage surface 201 and the arrowhead removal prevention surface 202. The resistance when the arrows 100 are in contact with each other by extending a plurality of linear bodies 21 parallel to the first x direction and further extending the linear bodies 21 in the intersecting second y direction. The arrow 100 is sandwiched from four directions by the linear body 21 and fixed, and the pinned arrow 100 stops without swinging left and right.

An example of the arrangement of the linear bodies 21 is shown in FIG. 8B. By arranging the linear bodies 21 so as to cross like a mesh like 1, 2, 3, etc., the color arrangement of the linear bodies 21 And, depending on how you stretch, you can add variations in design.

A state in which the arrow 100 is stuck in the target 200 is shown in FIG. 8C. FIG. 8C shows a cross section of the arrow 100 and the target 200 as viewed from the side. The approach path and the flight angle are known by the difference in the position where the arrow 100 passes through the arrowhead passage surface 201 and the arrowhead removal prevention surface 202, and the arrow handle 12 has two points of the arrowhead passage surface 201 and the arrowhead removal prevention surface 202. By being supported by, the stuck state can be maintained.

It should be noted that the arrow 100 is stable and easy to stop by placing a distance so that the position at which the center of gravity g of the arrow 100 stops is between the arrowhead passing surface 201 and the buffer portion 203. It is preferable to determine the predetermined interval m in consideration of the above. In addition, since the center of gravity g is stopped between the arrowhead passage surface 201 and the arrowhead removal prevention surface 202, the arrow 100 can be easily supported by the linear body 21, so the installation interval u between the arrowhead passage surface 201 and the arrowhead removal prevention surface 202 is set. It is preferable to decide.

Since the arrow 100 captured by the target 200 is only sandwiched between the linear bodies 21, it can be easily pulled out and used again. However, when the shape of the arrowhead 11 is, for example, a shape having a step at the boundary portion f as shown in b of FIG. 4A, the root of the arrowhead 11 is firmly caught on the linear body 21 and it is difficult to remove. is expected. In this case, as shown in FIG. 8D, the buffer portion 203 and the arrowhead passing surface 201 can be opened and closed, and the arrow can be taken out by pulling it in the w direction that has passed through the arrow 100 in the open state.

As mentioned above, although the target play equipment for the arrow in which the arrow handle part 12 is long as used in bows and arrows, bow guns and the like has been described in Examples 1 to 3, in Example 4 below, The hitting playground equipment for the arrow whose arrow handle 12 has a short shape will be described.

In Example 4, in the arrow 100 according to claim 5, the capture of an arrow in which the arrow handle 12 has a short shape like an arrow used in a blowing arrow and a dart will be described.

FIG. 9 is a diagram for explaining a play tool for blowing arrows.

FIG. 9A shows the configuration of the arrow 100 of the blow arrow. The arrow 100 has a conical shape, a pointed portion on the distal end side v is an arrowhead portion 11, and a conical portion connected to the proximal end side r is a pedicle portion 12 (shaft). An arrow is used in which the arrowhead portion 11 is pierced by a polystyrene foam, or an arrow is inserted in a plywood board using a nail or the like in the arrowhead portion 11.

Therefore, as shown in FIG. 9B, the tip end v of the arrowhead 11 is a spherical surface, the maximum diameter s is about 6 millimeters, the total length is about 4 centimeters, and the weight is about 0.5 grams.

For example, the material of the arrowhead portion 11 of the arrow 100 is a synthetic resin, and the arrow handle portion 12 is made of a soft and light material such as paper, cellulose, or nylon material.

The blow arrow 100 can be captured by using the structure of the target 200 detailed in the first to fourth embodiments.

The configuration for capturing the arrow 100 will be described. The state illustrated in FIG. 9C represents a state in which the arrow 100 is captured by the arrowhead passing surface 201 and the arrowhead removal prevention surface 202. For example, the thread used for the linear body 21 is thinned so as not to obstruct the passage of the arrow 100, the interval width p between the linear bodies 21 is widened, and the arrow 100 is curved downward and flies. Since it is conceivable to do so, the direction of the linear body 21 of the arrowhead passage surface 201 is stretched vertically to make it easy to pass. Since the arrow handle 12 is light, it can be supported by the linear body 21 stretched in the vertical direction.

FIG. 9D shows a cross section of the state in which the arrow 100 is captured by the target 200 as seen from the side. When the arrowhead portion 11 of the arrow 100 is stopped by the locking means, the arrowhead portion 12 is conical and the diameter greatly increases toward the rear, so the diameter q of the arrowhead portion 12 is the distance between the linear bodies 21. The arrow-shaped part 12 is sandwiched and supported and fixed to the interval width p of the linear body 21 by slightly extending the predetermined interval m from the position where it is equal to the width p.

As an example, the wire 21 is made of nylon material having a thickness of about Tegus 0.6 (standard diameter 0.405 mm), and the interval width p between the wires 21 is 6 which is the maximum diameter s of the arrowhead 11. It is set as the structure installed in about 4-5 millimeters with respect to millimeter.

Hereinafter, the dart hitting play equipment will be described with reference to FIG.

The configuration of the dart arrow 100 used in a competition or the like will be described with reference to FIG. 10A. The arrow 100 has an arrowhead portion 11 (point), a front half portion 12z (barrel) of the arrowhead portion, and a rear half portion 12j of the arrowhead portion from the arrow tip direction. (Shaft) and yaba part 13 (flight). These parts are often interchangeable.

The dart includes a hard dart d and a soft dart e. The part of the arrowhead portion 11 (point) is made of a metal material, and the soft dart e is made of a plastic material. The arrowhead portion 11 of the soft dart e is often a consumable item when it hits the target. There are also a wide variety of types, such as hardness, tenacity, and length, which differ from manufacturer to manufacturer. In recent years, a metal point called a conversion point has come out, in which only the tip of the soft dart is made of metal so that it can cope with the hard dart d.

Hard darts d are heavier in weight, and official rules allow barrels of up to 50 grams (a metal part corresponding to the first half 12z of the arrow handle), but in practice 20 grams to 25 grams Often used. Soft darts are often lighter than this, and are often about 16 to 20 grams, and the total weight of the arrow 100 is about 20 to 60 grams.

On the other hand, the dart arrow 100 in the toy has a shape without a point (arrowhead portion 11) as shown in FIG. 10B, and a magnet is attached to the tip portion l of the front half portion 12z (barrel) of the arrowhead portion. In addition, an object that can be stuck by using a configuration of a planar fastener has been proposed.

Therefore, the arrow 100 shown in FIGS. 10A and 10B described above is an arrow 100 having a shape in which the tip side v of the arrowhead portion 11 is a spherical surface as shown in FIG. 10C. In the case where the arrowhead portion 11 (point) such as the hard dart d or the soft dart e can be exchanged, as shown in FIG. 10D, the distal end side v of the arrowhead portion 11 becomes a spherical surface and is connected to the proximal end r. The arrowhead part 11 provided with is proposed.

The arrow 100 described above can be captured by using the configuration of the target 200 detailed in the first to fourth embodiments as a basis. A pattern captured by the target 200 is shown in FIG. 10E. FIG. 10E shows a cross section of the dart arrow 100 and the target 200 as viewed from the side. If the center of gravity g of the dart's arrow 100 is located at the site of the front half 12z (barrel) of the arrowhead part when the arrowhead part 11 is fixed and stopped, as shown in FIG. The arrow 100 can be stably supported by setting the position at which the arrowhead passage surface 201 hits the rear half of the front half 12z of the arrow handle.

For example, when the total length of the arrow 100 is about 6 cm and the location 3 cm from the tip side v of the arrowhead part 11 is the center of gravity g of the arrow 100, the predetermined interval m between the arrowhead passing surface 201 and the buffer part 203 is about 4 cm. It is possible to stably support the arrow 100 by installing it at a position exceeding the center of gravity g.

The linear body 21 forming the arrowhead passing surface 201 is made of nylon material Tegus No. 10 (standard diameter 0.520 mm), and the interval width p between the linear bodies 21 is about the diameter of the arrow handle 12. Or it is a configuration that is stretched so that it is a little narrower than that.

As described above, in the first to fourth embodiments, the configuration of the target 200 that captures the various arrows 100 has been described, but among the above-described arrows, the blade having a shape similar to the arrow of the blowing arrow (described in the fourth embodiment and FIG. 9A). There is an attached ball.

For example, it is a synthetic resin-based winged ball used as a kind of mini golf, called target bird golf. A golf ball with badminton wings. The bladed sphere can be captured by using the configuration detailed in Examples 1 to 4 as a basis.

Hereinafter, a configuration for capturing the winged sphere according to the fifth embodiment will be described with reference to FIG.

FIG. 11A shows a winged ball of target bird golf. In the description, the name of each part of the winged sphere is replaced with the name of the arrow 100.

When the configuration of the winged sphere is replaced with an arrow 100, the ball-shaped portion is the arrowhead portion 11 and the blade portion is the arrowhead portion 12. The size of the arrow 100 (ball with wings) is about 105 mm in total length, the maximum diameter s of the arrowhead part 11 (ball part) is about 40 mm, the large diameter part of the arrow handle part 12 (wings) is about 65 mm, and the weight It is about 27 grams. The diameter of the boundary part f between the arrowhead part 11 (ball part) and the arrow handle part 12 (blade) is about 20 millimeters.

A configuration for capturing the arrow 100 (a sphere with wings) will be described using the configuration of the target 200 described in the fourth embodiment described in detail in the third embodiment.

The target 200 shown in FIG. 11B includes an arrowhead passage surface 201 on the front side, a buffer portion 203 on the rear side, and an arrowhead removal prevention surface 202 between the arrowhead passage surface 201 and the buffer portion 203. It is the composition which has.

As an example, as a material of the linear body 21 constituting the arrowhead passage surface 201 and the arrowhead removal prevention surface 202, a material of nylon material Tegus No. 10 (standard diameter 0.520 mm) is used. As shown in FIG. 4, the linear body 21 is stretched in parallel with the frame 20 with an interval width p narrower than about 40 millimeters of the maximum diameter s of the arrowhead portion 11 (ball portion) being about 30 millimeters. The linear body 21 is stretched in the first x direction and further in the second y direction so as to intersect.

FIG. 11D shows a side cross-section of the target 200. The predetermined interval m for installing the arrowhead passing surface 201 and the buffer portion 203 is set to about 60 to 80 millimeters with respect to about 105 millimeters of the total length of the arrow 100 (winged sphere). Since the maximum diameter s of the arrowhead part 11 (ball part) is about 40 mm, the installation distance k between the buffer part 203 and the arrowhead removal prevention surface 202 is set to about 30 to 40 mm. 11 (ball part) becomes a locking means by being sandwiched between the buffer part 203 and the arrowhead withdrawal prevention surface 202. The linear body 21 that forms the arrowhead passing surface 201 holds and stops the state that has reached the target 200 by sandwiching and supporting the portion of the arrow handle 12 (blade) that expands conically.

As shown in FIG. 11E, the arrow 100 (ball with wings) has a heavier part of the arrowhead 11 (ball part) than the part of the arrow handle 12 (wings). When the part 11 is directed in the traveling direction and falls, the arrow 100 (winged ball) is received by entering the target 200 from the tip v side of the arrowhead 11 (ball part) toward the target 200. The target 200 can be captured more reliably by placing it slightly obliquely so that the front side faces upward.

With the above configuration, the arrow 100 (the winged ball) is a target play device that can be fixed and held at the reaching position and maintain the appearance of being stuck in the target 200.

In addition, since badminton, a feather of a battledore, and the like are similar in shape, they can be captured by the configuration of the present invention.

In Example 6, the arrowhead portion 11 having a spherical surface on the tip side according to claims 6 and 7 is used as an arrow (pointed by the pointed end of the arrow) that is normally used for Japanese bows, western bows, bowguns, and the like. The structure of the arrow 100 that can be captured by the target 200 proposed in the present invention by being coated or connected to the arrow having an arrowhead portion that is pierced into the head) will be described.

What is shown in FIG. 12A illustrates the arrowhead part 11 configured to be worn on the arrowhead t of the arrow 100 that is normally used.

The arrowhead portion 11 is formed in a sac shape with a front end side v as a spherical surface and a hole h that can be fitted into the arrow tip t of the arrow 100 that is normally used on the base end side r. The hole h is configured so as not to impair the balance of the arrow 100 when it is attached to the arrow 100 through the center of the arrowhead 11.

As shown in FIG. 12B, the arrow tip 11 can be captured by the target 200 of the present invention by fitting the arrow tip t into the arrow tip t of the arrow 100 that is normally used. It will be.

Moreover, in the arrow 100 which is normally used, the connection part of the arrowhead part 11 and the arrow handle part 12 is fitted by being connected by a screw structure of a male screw and a female screw or an uneven structure. The arrowhead part 11 and the arrow handle part 12 can be separated, and there are some that can be used by exchanging the arrowhead part 11.

As for the structure, the connection part of the arrowhead part 12 is a female screw, and the base end side r of the arrowhead part 11 is a male screw (or vice versa), or the connection part of the arrowhead part 12 is concave and the arrowhead part. The base end side r of 11 is convex (the reverse is also possible) and can be connected.

Therefore, as shown in FIG. 12C, the arrowhead portion 11 of the arrow 100 that is normally used is removed from the arrow handle portion 12 and connected with the male screw provided on the proximal end r of the arrowhead portion 11 as shown in FIG. 12D. Alternatively, the arrowhead portion 11 described in claim 7 is provided by including a connecting means having a structure in which a convex portion is inserted (or vice versa).

By replacing the arrowhead 11 with the above structure, the target 200 having the configuration described in detail in the first to third embodiments is used. As an example, the purpose of using the clothes and the arrowhead part 11 provided with the connecting means is a shape called “eight verses” in the Japanese bow. For its shaping, it proposes arrows and targets that can be practiced in places where it was difficult to practice in the past.

Moreover, in Bogan etc., the arrowhead part 11 which made the front end side the spherical surface proposes the arrow which is safer than the conventional arrow, and the target which captures the arrow.

The material of the arrowhead 11 can be cured rubber, synthetic resin, or the like, but it is desirable to use a natural or chemical material in consideration of strength and durability that do not break due to impact when colliding with the target 200. .

DESCRIPTION OF SYMBOLS 100 ... Arrow 11 ... Yajiri (yajiri) part 12 ... Yagara (yagara) part 13 ... Yaha (ya spring) part 200 ... Target 201 ... Yajiri passage surface 202 ... Yajiri removal prevention surface 20 ... Frame 21 ... Linear body 203 ... buffer part 22 ... collision surface 23 ... buffer material

Claims (4)

In the target playground equipment having a function of fixing and capturing an arrow released by a player by a predetermined means at a collision position, the arrow has a spherical surface at the tip side of the arrowhead part which is an arrowhead, and the arrowhead part Is larger than the diameter of the boundary between the arrowhead part and the arrowhead part, and the target for capturing the arrow has the player's side forward, the arrowhead passage surface on the front side, and the buffer part on the rear side. The arrowhead passage surface has a plurality of linear bodies arranged in parallel with each other and stretched, and the linear body has at least one surface stretched in the horizontal direction, Between the arrowhead passage surface and the buffer portion, there is provided an arrowhead removal prevention surface in which a plurality of linear bodies are stretched in parallel with each other at an interval less than the maximum diameter of the arrowhead portion, the arrowhead passage surface and the arrowhead disengaged preventing surface allow passage of the arrowhead portion, the buffer unit, the arrowhead portion Absorbing the collision energy without the arrows that pass through, between the buffer unit and the arrowhead disengaged protective surface, stopping the arrowhead portion, acts as a locking means for preventing the coming off of the arrow, the arrowhead The passing surface supports the arrow handle so as to fix the direction and position of the arrow when passing through the arrowhead, and maintains the appearance of the state where the arrow is stuck. Playground equipment. In addition to the plurality of linear bodies in which the arrowhead passage surface and / or the arrowhead slip-off preventing surface extends in parallel, the target includes a plurality of linear bodies in a direction intersecting the linear body. The target play equipment according to claim 1, wherein the play equipment is further stretched. The arrows, by the tip-side spherical surface and has been arrowhead portion, against plaything manner according to claim 1 or 2 arrowhead is the tip of the arrow is characterized in that it is a configuration that is the covered. The hitting play device according to claim 1, 2 or 3, wherein the arrow has a configuration in which a tip end side is a spherical surface and an arrowhead portion having a connecting means on the base end side is connected to the arrow handle portion. .

Images