CN111330297A - Flying body manufacturing equipment and flying body launching toy - Google Patents

Abstract

The invention provides a flying body manufacturing device and a flying body launching toy which can improve interestingness. A flying body manufacturing apparatus (100) is capable of manufacturing a flying body (FOB) for a flying body launching toy (200), and comprises a manufacturing mechanism (130) capable of manufacturing the flying body (FOB) by processing (cutting) a flying body material (FMA).

Description

Flying body manufacturing equipment and flying body launching toy

Technical Field

The present invention relates to a flight producing device capable of producing a flight for a flight launching toy, and a flight launching toy capable of mounting the flight producing device.

Background

Patent document 1 described later discloses a disc launching toy including a magazine capable of storing a plurality of discs in a stacked state. The disk launching toy can launch the disk stored in the magazine in a single shot mode or a continuous shot mode by using the driving roller driven by the electric motor by pulling the trigger.

Since the aforementioned disc-launching toy has magazine replacement as a main object, in order to achieve the magazine replacement, it is necessary to prepare a plurality of magazines and a plurality of discs for storing in the respective magazines in advance. However, since the disks may be lost or become unusable due to the shooting, the number of disks that can be used in the repeated shooting is reduced, and there is a possibility that the launching of the toy by the appreciation disks is hindered.

Documents of the prior art

Patent document

Patent document 1: japanese registered Utility model No. 3019879

Disclosure of Invention

Problems to be solved by the invention

The invention aims to provide a flying body manufacturing device and a flying body launching toy which can improve interestingness.

Means for solving the problems

The flying body manufacturing equipment of the invention can manufacture the flying body for the flying body launching toy, and the flying body manufacturing equipment comprises a manufacturing mechanism which can manufacture the flying body by processing the flying body material.

Further, the flying body launching toy of the present invention comprises: the flying body manufacturing equipment comprises an installation part and a launching mechanism, wherein the installation part can be used for installing the flying body manufacturing equipment, and the launching mechanism can launch the flying body manufactured by the flying body manufacturing equipment installed on the installation part.

ADVANTAGEOUS EFFECTS OF INVENTION

By adopting the flying body manufacturing equipment and the flying body launching toy provided by the invention, the flying body can be manufactured, so that the hidden danger of reducing the number of usable flying bodies can be eliminated and the interestingness is improved.

Drawings

Fig. 1 (a) is a plan view showing a flight production facility according to an application example of the present invention, fig. 1 (B) is a side view of fig. 1 (a), fig. 1 (C) is a bottom view of fig. 1 (a), and fig. 1 (D) is a partial broken view of a portion above the installation portion of fig. 1 (a) as viewed from below.

Fig. 2 (a) is a main part sectional view showing a detailed configuration of the cutting section and the operation section shown in fig. 1, and fig. 2 (B) is an explanatory view of creating a flight by the flight creation device shown in fig. 1.

Fig. 3 (a) to 3 (C) are explanatory views of the flight creation by the flight creation device shown in fig. 1.

Fig. 4 (a) is a plan view showing a flying object launching toy according to an application example of the present invention, fig. 4 (B) is a side view of fig. 4 (a), and fig. 4 (C) is a front view of fig. 4 (B).

Fig. 5 (a) and 5 (B) are explanatory diagrams of an example of a mechanism for interlocking the trigger unit and the striking unit of the firing mechanism shown in fig. 4, and the operation thereof.

Fig. 6 is an explanatory view of the installation of the flight producing apparatus shown in fig. 1 to the flight launching toy shown in fig. 4.

Fig. 7 is a front view showing a state in which the flight creation device shown in fig. 1 is attached to the flight launching toy shown in fig. 4.

Fig. 8 is an explanatory view of a1 st modification of the flight producing apparatus shown in fig. 1.

Fig. 9 is an explanatory view of a 2 nd modification of the flight producing apparatus shown in fig. 1.

Fig. 10 (a) and 10 (B) are explanatory views of a1 st modification of the flying object launching toy shown in fig. 4.

Fig. 11 is an explanatory view of a 2 nd modification of the flying body launching toy shown in fig. 4.

Description of the reference numerals

100. A flying body manufacturing device; 110. an apparatus main body; 120. an installed part; 130. manufacturing a mechanism; 131. a setting part; 132. a cutting part; 132a, a cutting knife; 133. an operation section; 134. a pressing part; 135. a1 st restriction part; 136. a holding section; 137. a1 st receiving part; 138. a support portion; 139. a 2 nd restriction part; 140. 2 nd installation holding part; FMA, material of a flying body; FOB, a flying body; 200. a flying body launching toy; 210. a toy body; 220. an installation part; 230. a launching mechanism; 231. a grip portion; 232. a trigger part; 233. a striking section; 234. a barrel portion; 235. a 2 nd accommodating part; 236. a suppression unit; 240. the 1 st installation holding part.

Detailed Description

Structure and function of flying body manufacturing equipment

First, the structure and function of a flight generation facility to which the present invention is applied will be described based on an example thereof with reference to fig. 1 to 3. For convenience, the lower side of fig. 1 (a) is denoted as front, the upper side is denoted as rear, the left side is denoted as right, the right side is denoted as left, the proximal side is denoted as upper, the distal side is denoted as lower, and the other drawings are denoted as the same direction as described above.

The flight production facility 100 shown in fig. 1 to 3 can produce a flight FOB (see fig. 3C) used in a flight launching toy 200 described later, in two states, i.e., a state of not being attached to the flight launching toy 200 and a state of being attached to the flight launching toy 200. The flight production facility 100 can produce the flight FOB by processing, preferably cutting, the flight material FMA (see fig. 3 (B)) which is formed of a thick paper, preferably a corrugated cardboard, larger than the flight FOB, and which has a predetermined shape, preferably a disk shape.

The flying body FOB may be in any shape as long as it can be launched from the flying body launching toy 200, and may be in a polygonal shape or the like. The material FMA of the flight object may be a cardboard (hard board), a soft synthetic resin sheet, a foamed synthetic resin sheet, or the like as long as it can be cut.

As shown in fig. 1 to 3, the flight production apparatus 100 includes: the device body 110, the mounted part 120, and the producing means 130 capable of producing the flying object FOB.

The apparatus main body 110 has a substantially rectangular parallelepiped shape in appearance. The attached portion 120 is a portion used when the flight producing device 100 is attached to the flight launching toy 200, and has linear grooves 121 that are symmetrical in the front-rear direction and are provided from the right end to the left end at the lower end of the front surface and the lower end of the rear surface of the device main body 110.

The manufacturing mechanism 130 includes: the setting portion 131, the cutting portion 132, the operation portion 133, the pressing portion 134, the 1 st regulating portion 135, the holding portion 136, and the housing portion 137.

The installation portion 131 is formed of a gap portion provided at a substantially center in the vertical direction of the device main body 110 so as to be open on the front surface, the rear surface, and the right surface of the device main body 110. The installation part 131 is a part for inserting and extracting the flight object material FMA from the right surface, the front surface, or the rear surface of the apparatus main body 110, and the vertical interval is larger than the thickness of the flight object material FMA.

The cutting section 132 includes: a columnar rotating portion 132b provided with a cutting blade 132a on the lower surface, and a quadrangular prism-shaped elevating portion 132c having an annular groove 132c1 on the inner surface for rotatably supporting the rotating portion 132b, and the elevating portion 132c is disposed in a quadrangular prism-shaped hole 110a in the device main body 110 so as to be capable of elevating. The shape of the cutting blade 132a is not particularly limited as long as it can cut the flight material FMA by the rotation of the rotating portion 132b, but when the cutting is performed by unidirectional rotation, it is preferably a right triangle shape (1 oblique side becomes a blade), and when the direction of rotation is not limited, it is preferably an isosceles triangle shape (two oblique sides become blades). Further, a quadrangular prism-shaped or polygonal prism-shaped shaft portion 132b1 other than a quadrangular prism is provided at the center of the upper surface of the rotating portion 132b, and cam support portions 132d are provided symmetrically in the front and rear at the upper end portions of the front and rear surfaces of the lifting portion 132 c. Although not shown, the elevating portion 132c is biased upward by an elastic member such as a compression coil spring. That is, the lifting unit 132c of the cutting unit 132 can only be lifted and lowered, and the rotating unit 132b and the cutting blade 132a can be lifted and lowered and rotated as the lifting unit 132c is lifted and lowered. When it is considered that the cutting blade 132a is exposed when the apparatus main body 110 is viewed from below, the following configuration may be adopted: a rotatable non-elevating protection disk is provided below the elevating portion 132c, for example, at the lower end of the hole 110a, and after the elevating portion 132c is lowered, the cutting blade 132a protrudes downward from the slit of the protection disk. In the present embodiment, the flight material FMA is cut by the rotation of the cutter 132a, but the present invention is not limited to this method, and for example, the cutter 132a may be formed in a shape corresponding to the contour of the flight material FMA, so that the flight material FMA can be cut by punching the flight material FMA by the vertical movement of the cutter 132 a.

The operation unit 133 includes: a main rotating portion 133a disposed on the upper surface of the apparatus main body 110, and an auxiliary rotating portion 133b rotatably provided on the shaft portion 133a1 of the main rotating portion 133 a. A columnar transmission unit 133c is provided in the center of the lower surface of the main rotating unit 133a, the transmission unit 133c has a hole 133c1 in which the shaft portion 132b1 of the rotating unit 132b is accommodated so as to be non-rotatable but vertically movable, and the transmission unit 133c is rotatably supported by a hole (reference numeral omitted) provided in the upper portion of the device main body 110. That is, the operating portion 133 can rotate the main rotating portion 133a in the same direction by gripping the sub rotating portion 133b and rotating it in, for example, the clockwise direction in fig. 1 (a), and can rotate the rotating portion 132b of the cutting portion 132 in the same direction via the transmission portion 133c and the shaft portion 132b1 in accordance with the rotation of the main rotating portion 133 a. Further, since the main rotating portion 133a can rotate without the sub rotating portion 133b, the shaft portion 133a1 and the sub rotating portion 133b can be removed from the operating portion 133.

The pressing portion 134 has: a handle portion 134a having a substantially U-shape in plan view, shaft portions 134b provided on inner surfaces of both end portions of the handle portion 134a and rotatably supported in holes (reference numerals are omitted) of the apparatus main body 110, and cam portions 134c provided symmetrically in the front-rear direction on the respective shaft portions 134b, and an outer peripheral surface of each cam portion 134c is brought into contact with an upper surface of each cam support portion 132d of the elevating portion 132 c. Although not shown, the pressing portion 134 is biased counterclockwise in fig. 1 (B) by an elastic member such as a torsion coil spring. That is, the pressing portion 134 can lower the lifting portion 132c of the cutting portion 132 via the cam portion 134c and the cam supporting portion 132d by gripping the grip portion 134a and rotating it clockwise in fig. 1 (B).

The 1 st regulating portion 135 is a movable portion at least partially disposed in the installation portion 131, and includes a1 st regulating portion main body 135a having a rectangular parallelepiped shape and an elastic member 135b such as a compression coil spring for biasing the 1 st regulating portion main body 135a rightward, and in the present embodiment, the 1 st regulating portion main body 135a is provided so as to protrude into the installation portion 131 at the center in the front-rear direction of the deepest portion in the left-right direction of the installation portion 131. The 1 st regulating unit 135 may be provided to regulate the lowering of the raising and lowering unit 132c of the cutting unit 132 in the protruding state (see fig. 2 a). That is, the 1 st regulating portion 135 may be configured to allow the lifting portion 132c of the cutting portion 132 to descend by allowing the handle portion 134a of the pressing portion 134 to rotate clockwise in fig. 1B after the 1 st regulating portion body 135a is pressed and moved to the left by the flight material FMA inserted into the installation portion 131 (see fig. 2B). In other words, the 1 st limiter 135 may be configured such that the cutting unit 132 moves to a position where the first limiter body 135a can be cut after the 1 st limiter body 135a is pressed and moved to the left by the flight material FMA inserted into the installation unit 131.

The flight material holding portion 136 has a rectangular parallelepiped shape, and is provided at the lower end portions of the front and rear surfaces of the lifting portion 132c of the cutting portion 132 so that the lower end portions thereof protrude from the lower surface of the lifting portion 132c in front-rear symmetry. That is, after the handle portion 134a of the pressing portion 134 is rotated clockwise in fig. 1B to lower the lifting portion 132c of the cutting portion 132, the flight material holding portion 136 can hold the flight material FMA inserted into the installation portion 131 by pressing it downward (see fig. 3 a).

The 1 st housing part 137 is provided inside a portion of the apparatus main body 110 below the installation part 131, and can house the flying object FOB produced by cutting by the cutting part 132 in a superimposed state (see fig. 3 a).

Here, an example of a method of producing the flight FOB by the flight producing device 100 (in a state of not being attached to the flight launching toy 200) will be described.

In the production, the flying body production apparatus 100 is placed on a flat surface such as a table. Then, a flight material FMA such as corrugated cardboard is inserted into the deepest portion of the installation portion 131, and the 1 st limiter 135 is displaced leftward by the flight material FMA (see fig. 2B). Then, the handle portion 134a of the pressing portion 134 is rotated clockwise in fig. 1 (B) to lower the lifting portion 132c of the cutting portion 132, so that the cutting blade 132a of the cutting portion 132 bites into the flight material FMA, and the flight material FMA inserted into the setting portion 131 is held by the holding portion 136 (see fig. 3 (a)). Then, the sub-rotating portion 133B of the operating portion 132 is gripped and rotated, for example, in the clockwise direction in fig. 1 (a), and the main rotating portion 133a is rotated in the same direction, so that the cutting blade 132a of the cutting portion 132 biting into the flight material FMA is rotated in the same direction (see fig. 3 (B)). The flight material FMA is cut into a circular shape by this rotation to produce a flight FOB, and the produced flight FOB falls by its own weight (see fig. 3 (a)).

Next, in the production of the flight FOB, the same procedure as described above is performed by returning the handle portion 134a of the pressing portion 134 and then shifting the flight material FMA inserted into the installation portion 131 in the front-rear direction, for example. Since the produced flying body FOB falls by its own weight (see fig. 3 a), when the flying body production apparatus 100 is placed on a flat surface such as a desk, the first flying body FOB is placed on a region corresponding to the storage section 137 of the flat surface such as the desk, and the second and subsequent flying body FOB in the storage section 137 are superposed thereon. Therefore, by lifting the flight production equipment 100 after producing a required number of flight FOBs, the produced flight FOBs can be obtained while being kept overlapped. Further, since the right side of the storage section 137 illustrated in fig. 1 is opened, the produced flying body FOB can be obtained while being kept overlapped by shifting the flying body production equipment 100 to the left after the required number of flying body FOB are produced.

Structure and function of flying toy

Next, the structure and function of the flying body launching toy according to the present invention will be described based on an example of the flying body launching toy to which the present invention is applied, with reference to fig. 4 and 5. For convenience, the left side of fig. 4 (a) is indicated as front, the right side is indicated as rear, the upper side is indicated as right, the lower side is indicated as left, the near side is indicated as upper, the far side is indicated as lower, and the other drawings are indicated in the same direction as described above.

The flight launching toy 200 shown in fig. 4 and 5 can be equipped with the flight preparation device 100 described above, and can launch the flight FOB produced by the flight preparation device 100 as it is in a state where the flight preparation device 100 is installed.

As shown in fig. 4 and 5, the flying body launching toy 200 includes: a toy body 210, a mounting part 220, a launching mechanism 230 capable of launching a flying object FOB, and a1 st mounting holding part 240.

The toy body 210 has a substantially rectangular parallelepiped shape in appearance. The attachment portion 220 is a portion used when the flight producing apparatus 100 is attached to the flight launching toy 200, and has a recessed portion 221 having a rectangular shape in plan view, and linear protrusions 222 provided from the left end to the right end on the front surface and the rear surface inside the recessed portion 221. The thickness and height of each protrusion 222 are slightly larger than the width and depth of each groove 121 of the mounted portion 120 of the flight producing device 100, and can be inserted into and pulled out from each groove 121.

The launching mechanism 230 includes: a grip 231, a trigger 232, a striking portion 233, a barrel portion 234, a housing portion 235, and a suppression portion 236.

The grip 231 can be gripped by fingers, the trigger unit 232 can be pulled by fingertips in a state where the grip 231 is gripped, and the striking unit 233 can strike the flight FOB by the trigger unit 232.

As a mechanism for interlocking the trigger unit 232 and the striking unit 233, a mechanism shown in fig. 5 can be exemplified. It goes without saying that other mechanisms may be employed as long as the flight object FOB can be hit (launched) by the trigger unit 232.

In the mechanism illustrated in fig. 5, the trigger unit 232 has an elastically deformable engagement portion 232a at its rear portion, and is biased forward by an elastic member 232b such as a compression coil spring. The striking unit 233 has an engaged portion 233a at the rear portion thereof, which is engageable with the engaging portion 232a, and is biased forward by an elastic member 233b such as a compression coil spring (see fig. 5 a). That is, when the trigger unit 232 is pulled, the engaged portion 232a of the striking unit 233 is moved backward by the engaging portion 232a, and when the trigger unit 232 is pulled to a predetermined position, the engaging portion 232a is disengaged from the engaged portion 233a by the abutment with the disengagement portion 210B in the toy main body 210, and the striking unit 233 is moved forward strongly by the elastic member 233B to strike the flying object FOB (see fig. 5B). When the fingertip is separated from the trigger unit 232 after the striking or the pulling force is weakened, the trigger unit 232 returns by the elastic member 232b, and the engaging unit 232a also returns to the position where it can be engaged with the engaged unit 233a of the striking unit 233 again (see fig. 5 a).

The barrel portion 234 includes: a guide hole 234a having a horizontally long rectangular shape as viewed from the front surface, and a linear recessed portion 234c provided at the center in the front-rear direction of the bottom surface of the guide hole 234a so that guide surfaces 234b are formed on both the left and right sides of the bottom surface of the guide hole 234 a. The height and width of the guide hole 234a are slightly larger than the thickness and diameter of the flight object FOB, and the height position of each guide surface 234B is flush with and continuous with a surface (not shown) on which the flight object FOB is placed before striking (see fig. 5B). Further, the width of the concave portion 234c is smaller than the diameter of the flight object FOB.

The receiving portion 235 is cylindrical and is provided between the bottom surface of the recess 221 of the mounting portion 220 and a surface on which the flying object FOB before the striking is placed. The inner diameter of the storage portion 235 is larger than the diameter of the flight object FOB, and the flight object FOB can be stored in a stacked state (see fig. 4 (a)).

The suppression unit 236 includes: an inclined surface 236a inclined toward the recess 234c from the surface on which the flying object FOB before striking is placed, the inclined surface having the same width as the recess 234c, and a linear protrusion 236b provided at the center of the recess 234c in the lateral direction with a space in the forward direction from the inclined surface 236 a. The suppressing portion 236 suppresses the emission of an article smaller than the flight object FOB, for example, a coin or street coin, and the height of the protrusion 236b is slightly smaller than the depth of the recess 234 c.

When the suppression unit 236 is supplemented, the maximum diameter of the coin is 26.5mm which is a 500 yen coin, and the diameter of the street coin is 20mm to 30mm, so that it is possible to suppress the erroneous emission of the articles smaller than the flight object FOB by setting the diameter of the flight object FOB within the range of 35mm to 45mm by using a width slightly larger than the above-mentioned diameter as the width of the inclined surface 236 a. Even if an object smaller than the flying object FOB is erroneously ejected, the ejection can be suppressed by the protrusion 236 b.

That is, the flying object launching toy 200 can launch only the flying object FOB of a predetermined shape as a launching object, and the flying object FOB that has been struck by the striking part 233 is launched from the front end of the barrel part 234 (guide hole 234a) in a state where the left and right end portions thereof are guided by the respective guide surfaces 234b (see fig. 4 a).

The 1 st mounting/holding portion 240 includes a holding portion main body 241 and an elastic member 243 such as a compression coil spring for biasing the protrusion 242 of the holding portion main body 241 forward, and the protrusion 242 is inserted into a guide hole 210a provided at an upper end portion of the left surface of the toy main body 210. The height of the holder main body 241 is greater than the depth of the recess 221 of the mounting part 220, and the upper surface position thereof is slightly lower than the upper surface position of the mounting part 220. The function of the 1 st mounting holder 240 will be described later.

Method of installing flying body manufacturing apparatus to flying body launching toy, etc

Next, a method of mounting the flight producing apparatus 100 to the flight launching toy 200 and a function in a mounted state will be described with reference to fig. 6 and 7. For convenience, the left side of fig. 6 is indicated as front, the right side as rear, the upper side as right, the lower side as left, the proximal side as up, the distal side as down, and the other figures are indicated in the same direction as described above.

When the flight producing device 100 is attached to the flight launching toy 200, as shown in fig. 6, the holding part main body 241 of the 1 st attachment holding part 240 is displaced rightward by the fingertips, and the left surface side of the recess 221 of the attachment part 220 is completely opened. Then, the right surface of the flight producing device 100 is opposed to the left surface of the flight launching toy 200, and the respective groove portions 121 of the mounted portion 120 of the flight producing device 100 are inserted into the respective protrusion portions 222 of the mounting portion 210 of the flight launching toy 200. After the insertion is completed, as shown in fig. 7, the holding unit main body 241 of the 1 st installation holding unit 240 is restored, and the holding unit main body 241 prevents the inserted flight manufacturing apparatus 100 from moving leftward.

When the flight object FOB is produced by the flight object production device 100 in a state where the flight object production device 100 is attached to the flight object launching toy 200, the flight object FOB is produced by the flight object production device 100 in the same manner as in the method example described above.

In a state where the flight production device 100 is attached to the flight launching toy 200, the first flight FOB produced by the flight production device 100 is placed on the striking part 233 and the guide surface 234b around the striking part 233 via the storage part 137 of the flight production device 100 and the storage part 235 of the flight launching toy 200 (see fig. 4a), and the second and subsequent flight FOB are superimposed on the storage part 235. If the number of flying bodies FOB which cannot be all inserted into the storage portion 235 is produced, the remaining flying bodies FOB are stored in the storage portion 137 of the flying body production equipment 100 in a superimposed state.

When the required number of flying bodies FOB are produced and then the flying bodies FOB are launched, the grip portion 231 is gripped by fingers and the trigger portion 232 is pulled by the fingertips. Thereby, the lowermost flying body FOB accommodated in the accommodating portion 235 in an overlapped state is struck by the striking portion 233, and the struck flying body FOB is launched from the tip of the barrel portion 234 (guide hole 234a) in a state where the left and right end portions thereof are guided by the respective guide surfaces 234b (see fig. 4 a).

Effect of solving problems

As described above, since the flight production facility 100 can produce the flight FOB, even when the number of usable flight FOB is reduced by repeated firing, the flight FOB can be easily supplemented, thereby eliminating the risk of reducing the number of usable flight FOB and enhancing the enjoyment.

In particular, since the flight object FOB can be created in a state in which the flight object creation device 100 is attached to the flight object launching toy 200, the flight object FOB can be supplemented arbitrarily and easily during use of the flight object launching toy 200.

Flight body manufacturing apparatus and flight body launching toy modification

(1) If the vertical dimension of the housing 137 of the flight production facility 100 is large, the first produced flight FOB may be inclined particularly in the middle of falling. In such a case, the following settings may be made: as illustrated in fig. 8, a plate-shaped support portion 138 that can be extended toward the housing portion 137 is provided at a position above the housing portion 137, and the flying object FOB produced by cutting by the cutting portion 132 can be temporarily supported. The support portion 138 may be provided as follows: since the handle portion 134a of the pressing portion 134 is preferably extended toward the housing portion 137 when rotated clockwise in fig. 1 (B), a mechanism for switching the rotation when the handle portion 134a is rotated clockwise in fig. 1 (B), for example, a mechanism using a link, a gear, a cam, or the like, is provided in the apparatus main body 110, and the support portion 138 is extended toward the housing portion 137 by the mechanism and returned to the non-protruding position as the handle portion 134a is returned.

(2) In the present embodiment, the description has been given of the mode in which the flight object FOB used in the flight object launching toy 200 is produced in two states, that is, the state in which the flight object launching toy 200 is not attached and the state in which the flight object launching toy 200 is attached, but in the case where the flight object FOB is produced in the state in which the flight object launching toy 200 is not attached, for example, there is a risk that the hand of the user may be injured by the partial penetration of the flight object material FMA of the cutting section 132. The flying body FOB can be manufactured only in a state of being attached to the flying body launching toy 200, and the hand of the user does not touch the cutting blade 132a of the cutting section 132, so that the above-mentioned danger can be prevented or suppressed. In this case, the following settings may be set: as illustrated in fig. 9, the 2 nd regulating portion 139 that can press the groove portion 121 when the groove portions 121 of the flight producing device 100 are inserted into the respective projection portions 222 of the flight launching toy 200 is provided at the left end portion of at least one groove portion 121 of the attached portion 120 of the flight producing device 100, and the lowering regulation of the lifting portion 132c of the cutting portion 132 by the 1 st regulating portion 135 can be released in a state where the flight producing device 100 is attached to the flight launching toy 200. In this case, the following settings may be set: a mechanism for converting the displacement when the 2 nd limiter 139 is pressed, for example, a mechanism using a link, a gear, a cam, or the like, is provided in the device main body 110, and the 1 st limiter 135 is displaced leftward by this mechanism. Needless to say, the 2 nd restricting part 139 may be provided in the flight object launching toy 200, and in this case, the following arrangement is sufficient: a mechanism for converting the displacement when the 2 nd limiter 139 is pressed is provided in the toy body 210, and the 1 st limiter 135 is displaced leftward by this mechanism. In this case, since the 1 st regulating portion 135 is not displaced according to the installation of the material for the flight object FMA to the predetermined position, it is not necessary to be arranged at the center in the front-rear direction of the deepest portion in the left-right direction of the installation portion 131, and it can be arranged, for example, at the center in the left-right direction of the installation portion 131, that is, directly below the cutting portion 132. Since the 1 st regulating portion 135 is provided at a position corresponding to the cut portion 132 in advance, the flight material FMA cannot be provided below the cut portion 132, and thus the user can clearly recognize that the flight FOB cannot be produced in a state where the flight material FOB is not mounted on the flight launching toy 200.

(3) The flight object FOB may be manufactured by the flight object manufacturing apparatus 100 in a state where a magazine (not shown) having a storage section capable of storing a plurality of flight objects FOB in a stacked state without including a launching mechanism is attached. At this time, by making it possible to press the 2 nd regulating part 139 when the magazine is attached to the flight producing apparatus 100, the lowering regulation of the lifting part 132c of the cutting part 132 by the 1 st regulating part 135 can be released in a state where the flight producing apparatus 100 is attached to the magazine, and therefore, the danger by the above-described cutting blade can be prevented or suppressed. Further, by providing the magazine to be attachable to the flight launching toy 200, the plurality of flight FOB stored in the storage section of the magazine can be launched smoothly by the flight launching toy 200.

(4) When the flight FOB is produced in a state where the flight production device 100 is attached to the flight launching toy 200, if the handle 134a of the pressing part 134 is rotated clockwise in fig. 1 (B), the force due to the rotation may reach the attachment portions of both, thereby displacing the attachment position of the flight production device 100, and the 1 st attachment holding part 240 may be damaged or may not function normally due to the displacement. In consideration of such a case, the following settings may be made: as illustrated in fig. 10, when the 1 st regulating portion 135 is moved to the left by inserting the flight material FMA into the installation portion 131 of the flight producing apparatus 100, and the grip portion 134a of the pressing portion 134 is rotated clockwise in fig. 1 (B), or when the 2 nd regulating portion 139 illustrated in fig. 9 is pressed, the 2 nd installation holding portion 140 which can protrude from the lower surface of the apparatus main body 110 by means of a mechanism for converting the above-described displacement, for example, a mechanism using a link, a gear, a cam, or the like, is provided, and the protruding 2 nd installation holding portion 140 is inserted into the hole 250 provided in the bottom surface of the recess portion 221 of the installation portion 220 of the flight launching toy 200. Needless to say, the 2 nd installation holding part 140 may be provided in the flight launching toy 200, and in this case, the following arrangement is sufficient: a 2 nd mounting/holding part 140 is provided which can protrude from the bottom surface of the recess 221 of the mounting part 220 of the toy body 210 by means of a mechanism for converting the displacement, and the protruding 2 nd mounting/holding part 140 is inserted into a hole (not shown) provided in the lower surface of the device body 110 of the flight-material producing device 100.

(5) A decorative portion for optimizing the appearance of the flying body launching toy 200 can be appropriately provided to the flying body launching toy 200. Fig. 11 shows an example in which a decorative part 300 for decorating a grip part 231 of the flying object launching toy 200 is attached to the grip part 231. The decorative part 300 is formed of a corrugated cardboard, a cardboard (hard paper board), or the like, and is attached to the grip 231 by screwing a screw SCR inserted into the attachment hole 300a into a screw hole 231a provided in the grip 231 after covering the grip 231. Although not shown in the drawings, as the decorative part, a member imitating a silencer (muffler) of a gun, a member imitating a folded butt, a member imitating a sight glass, or the like can be suitably used in addition to a member for making the barrel part 234 look long and a member for making the entire flying body launching toy 200 look large.

(6) In addition to the above-described (1) to (5), the attached portion 120 and the creating means 130 provided in the flight producing apparatus 100 may be replaced with other structures and means capable of performing the same functions as described above, and the attaching portion 220, the launching means 230, and the 1 st attachment holding portion 240 provided in the flight launching toy 200 may be replaced with other structures and means capable of performing the same functions as described above.

Claims (22)

1. A flying body manufacturing apparatus capable of manufacturing a flying body for a flying body launching toy, wherein,

the flight producing apparatus includes a producing mechanism capable of producing the flight by processing a flight material.

2. The flying body manufacturing apparatus according to claim 1,

the flight producing device has a mounted part which can be mounted on the flight launching toy, and is configured to produce the flight in a state of being mounted on the flight launching toy.

3. The flying body manufacturing apparatus according to claim 1 or 2, wherein,

the flying body is in a predetermined shape.

4. The flight production apparatus according to claim 3, wherein,

the predetermined shape is a disk shape.

5. The flying body manufacturing apparatus according to any one of claims 1 to 4,

the material of the flight body is a thick paper larger than the flight body.

6. The flight production apparatus according to claim 5, wherein,

the thick paper is corrugated board.

7. The flying body manufacturing apparatus according to any one of claims 1 to 6,

the machining is a cutting machining.

8. The flying body manufacturing apparatus according to any one of claims 1 to 7,

the manufacturing mechanism comprises: the flying body material cutting device comprises a setting part capable of setting the flying body material, a cutting part capable of cutting the flying body material arranged on the setting part, and an operation part capable of operating the cutting part.

9. The flight production apparatus according to claim 8, wherein,

the setting part comprises a gap part for inserting and pulling the flying body material.

10. The flight production apparatus according to claim 8 or 9, wherein,

the cutting part is provided with a cutting knife.

11. The flying body manufacturing apparatus according to claim 10,

the cutting blade is configured to be displaceable by the operation portion.

12. The flying body manufacturing apparatus according to any one of claims 8 to 11,

the manufacturing mechanism further includes a movable pressing portion for displacing the cutting portion to a cutting position.

13. The flying body manufacturing apparatus according to claim 12, wherein,

the manufacturing mechanism further includes a material holding portion capable of holding the material of the flight member provided in the installation portion as the pressing portion moves.

14. The flying body manufacturing apparatus according to any one of claims 8 to 13,

the manufacturing mechanism further includes a1 st housing portion that can house the flying object manufactured by cutting by the cutting portion in a superimposed state.

15. The flying body manufacturing apparatus according to any one of claims 12 to 14,

the producing mechanism further includes a support portion capable of supporting the flight body produced by the cutting of the cutting portion as the pressing portion moves.

16. A flying body launching toy, wherein,

this flying body launches toy includes: an installation part to which the flight producing device according to any one of claims 1 to 15 can be installed, and a launching mechanism that can launch the flight produced by the flight producing device installed in the installation part.

17. The flying body launching toy according to claim 16,

the flying body launching toy further includes a1 st installation holding part, and the 1 st installation holding part can hold the flying body manufacturing equipment installed on the installation part.

18. The flying body launching toy according to claim 17,

at least one of the flight launching toy and the flight producing device has a restriction section that allows the movement of the pressing section described in claim 12 under the condition that the flight producing device is attached to the attachment section.

19. The flying body launching toy according to any one of claims 16 to 18,

at least one of the flying body launching toy and the flying body producing device further includes a 2 nd installation holding portion capable of holding the flying body producing device under a condition that the flying body producing device is installed to the installation portion.

20. The flying body launching toy according to any one of claims 16 to 19,

the launching mechanism includes: the flight device comprises a movable trigger part, a striking part capable of striking the flying body by the trigger part, and a barrel part capable of guiding the flying body struck by the striking part.

21. The flying body launching toy of claim 20,

the launching mechanism further includes a 2 nd receiving portion capable of receiving the flight bodies manufactured by the flight body manufacturing apparatus mounted to the mounting portion in a stacked state.

22. The flying body launching toy according to claim 20 or 21,

the launching mechanism further includes a suppression section capable of suppressing the launching of an article smaller than the flight.

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