CN217585528U - Toy bullet and toy gun - Google Patents

Abstract

The utility model discloses a toy bullet and toy gun relates to toy technical field, and the toy bullet includes barrel and the absorption front end that integrative injection moulding made jointly, wherein, it is adsorbable in the surface of target object to adsorb the front end, the barrel can drive when the atress adsorb the front end is followed the separation on the surface of target object. Therefore, the cylinder body and the adsorption front end are integrally formed by injection molding, compared with the existing columnar body made of foam cotton, the cylinder body has higher structural strength, and the cylinder body is prevented from being torn by stress; meanwhile, the connecting strength between the cylinder body and the adsorption front end can be increased, the cylinder body and the adsorption front end are prevented from being separated from each other, and the durability of the toy bullet is improved; in addition, integrated into one piece's barrel and absorption front end can reduce manufacturing cost effectively, remove the equipment link from, effectively improve production efficiency.

Description

Toy bullet and toy gun

Technical Field

The utility model relates to a toy technical field, more specifically says, relates to a toy bullet and toy gun.

Background

Toy bullets, which can be classified into spherical, flat, cylindrical, etc. according to their shape and structure, and elastic, adsorptive, etc. according to their functional characteristics; for the sucker type soft bullet with wide application range in the market at present, as shown in fig. 1, the soft bullet 20 mainly includes a columnar body 20a and a sucker head 20b; the columnar body 20a is made of flexible materials, is soft in texture and ensures safety; the sucker head 20b is made of a material with certain flexibility, so that the adsorption capacity of the sucker head 20b is ensured;

when the soft bullet shooting device is used, a certain kinetic energy is given to the soft bullet 20 through a driving device such as a toy gun, the soft bullet 20 is shot out along a preset track and is finally adsorbed and fixed on the surface of a target object through the sucker head 20b at the end part, the interestingness is high, meanwhile, the safety can be ensured, and the flexibility and the special attention of hands and feet of young users can be developed to a certain degree;

although the existing soft toy ball can meet the use requirements of users, in the actual use process, the soft toy ball 20 still has certain disadvantages, such as:

firstly, as shown in fig. 2, when a user takes off the soft bullet 20 adsorbed on the surface of a target object, the sucker head 20b is still adsorbed on the surface of the object due to too large adsorption force, so that the flexible columnar body 20a is directly torn under the action of pulling force, and the structural strength of the columnar body 20a is low;

secondly, the connection strength between the columnar body 20a and the sucker head 20b is low, the columnar body and the sucker head are easily split, and finally the toy bullet 20 is damaged, so that the durability of the product is poor;

secondly, the columnar body 20a and the sucker head 20b need to be manufactured respectively, and the columnar body and the sucker head are manufactured by adopting different production and processing flows, so that the manufacturing cost is high; the two are connected by gluing and the like, so that the assembly is complicated and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in that, a toy bullet and a toy gun with high structural strength, strong durability, low manufacturing cost and high production efficiency are provided.

The utility model provides a technical scheme that its technical problem adopted is:

the application provides a toy bullet, which comprises a barrel body and an adsorption front end, wherein the barrel body and the adsorption front end are manufactured together through integral injection molding, the barrel body extends along the radial direction, the adsorption front end extends from one end of the barrel body towards the direction far away from the barrel body, the radius of the adsorption front end gradually increases towards the direction far away from the barrel body and is in a conical shape, and the adsorption front end is inwards sunken on the end face far away from the barrel body to form a vacuum adsorption groove;

the adsorption front end can be adsorbed and fixed on the surface of a target object, and the cylinder can drive the adsorption front end to be separated from the surface of the target object when being stressed.

In some embodiments, the central position of the bottom of the vacuum adsorption groove is provided with an injection molding water gap of the toy bullet.

In some embodiments, the end of the cylinder is provided with a blocking plate with a radius slightly larger than the outer diameter of the cylinder, and the cylinder is arranged on the blocking plate;

the cylinder body, the plugging plate and the adsorption front end are of an integrally formed structure.

In some embodiments, the radius of the containment plate is in the range of 14mm to 15mm.

In some embodiments, a reinforcing ring is disposed on the outer side wall of the barrel at a position close to the adsorption front end, and the reinforcing ring and the barrel are integrally formed.

In some embodiments, the stiffening ring has an outer diameter of 12mm to 13mm.

In some embodiments, the outer diameter of the cylinder gradually decreases in a direction away from the adsorption front end to form a wind-sheltering inclined plane.

In some embodiments, the barrel is provided with a rounded portion on an end remote from the adsorption front end.

On the other hand, the application also provides a toy gun, which comprises an excitation device and the toy bullet in any technical scheme, wherein the excitation device is used for propping the toy bullet to eject along a preset track.

In some embodiments, the toy gun further comprises a housing and a magazine disposed on the housing for receiving the toy cartridge.

The utility model discloses a toy bullet and toy gun have following beneficial effect at least:

the utility model discloses a toy bullet and toy gun relates to the toy technical field, and the toy bullet includes barrel and absorption front end that integrative injection moulding made jointly, so, the injection moulding integrated into one piece of both makes the barrel have higher structural strength compared with the existing columnar body that adopts the foam cotton to make, avoids its atress to tear; meanwhile, the connecting strength between the cylinder body and the adsorption front end can be increased, the cylinder body and the adsorption front end are prevented from being separated from each other, and the durability of the toy bullet is improved; in addition, integrated into one piece's barrel and absorption front end can reduce manufacturing cost effectively, remove the equipment link from, effectively improve production efficiency.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

FIG. 1 is a schematic view showing a structure of a soft bullet of a toy in the prior art;

FIG. 2 is a schematic view showing the structure of the toy soft bullet of FIG. 1 in a state where the cylindrical body is torn;

FIG. 3 is a schematic view of a toy bullet according to a preferred embodiment of the present invention;

figure 4 is a schematic structural view of the toy bullet of figure 3 from another angle;

figure 5 is a side view of the toy bullet of figure 3.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figures 3 and 4 illustrate toy bullet 10 in some embodiments of the invention that can be fitted to a toy gun and fired along a predetermined trajectory upon actuation of the toy gun. The toy bullet 10 may include a barrel 1 and an adsorption front end 2; the adsorption front end 2 is arranged on the cylinder 1. The cylinder body 1 plays a role in balancing the whole weight of the toy bullet, so that the toy bullet 10 keeps balance in the flying process, and the flying distance of the toy bullet 10 is increased.

As shown in fig. 3, fig. 3 and fig. 5, the cylinder 1 and the adsorption front end 2 are integrally formed by injection molding, the cylinder 1 extends along a radial direction, the adsorption front end 2 extends from one end of the cylinder 1 towards a direction far away from the cylinder 1, the radius of the adsorption front end 2 gradually increases towards the direction far away from the cylinder 1 and is tapered, and the adsorption front end 2 is recessed inwards on an end surface far away from the cylinder 1 to form a vacuum adsorption groove 21; wherein, the adsorption front end 2 can be adsorbed and fixed on the surface of a target object, and the cylinder 1 can drive the adsorption front end 2 to be separated from the surface of the target object when being stressed.

It can be understood that the cylinder 1 is cylindrical, a cavity 14 penetrating along the axis is arranged inside the cylinder 1, one side of the cavity 14 is exposed outside the cylinder 1, and the other side of the cavity 14 opposite to the cavity is provided with the adsorption front end 2; the central axis of the cavity 14 and the central axis of the cylinder 1 are overlapped with each other, so that the gravity center deviation of the toy bullet 10 caused by uneven thickness of the side wall of the cylinder 1 is avoided, and the flying stability of the bullet is ensured. The adsorption front end 2 is cone-shaped, has certain elastic resetting performance, and can be adsorbed on the surface of a target object, so that the toy bullet 10 is integrally fixed. A closed cavity is defined between the surface of vacuum adsorption groove 21 and target object jointly, strikes and takes place deformation to the absorption front end 2 on target object surface, compresses this closed cavity's volume, afterwards, because absorption front end 2 has the performance that elasticity resets, has the drive that drives vacuum adsorption groove 21 and reset jointly to make absorption front end 2 stably adsorb in the surface of target object under the effect of atmospheric pressure.

It will also be appreciated that the central axis of the suction tip 2 is arranged to coincide with the central axis of the barrel 1, so that the overall centre of the toy bullet 10 is more towards the centre position, further increasing the flight distance of the toy bullet 10. The radius of adsorbing front end 2 is towards the direction of keeping away from barrel 1 crescent for the lateral wall of adsorbing front end 2 is the arc, and the adsorption front end 2 of arc lateral wall has stronger adsorption affinity.

It should be noted that, compared with the existing split manufacturing later-stage assembly mode, the toy bullet 10 in the scheme can be manufactured by only using one set of mold through the injection molding of the integrally-formed barrel 1 and the adsorption front end 2, and a plurality of injection molding cavities can be arranged in a single set of mold, and each injection molding cavity correspondingly forms one toy bullet 10, so that on one hand, the production and processing efficiency of the toy bullet 10 is effectively improved, and on the other hand, a production line is not required to be independently allocated for the production of the barrel 1 and a production line is not required to be independently allocated for the production of the adsorption front end 2, meanwhile, the complexity of later-stage assembly is also avoided, and the manufacturing and processing cost is reduced;

it should be further noted that the barrel 1 and the adsorption front end 2 which are integrally formed and jointly manufactured can be formed by injection molding of the same sizing material, the barrel 1 and the adsorption front end 2 which are formed by melting the sizing material have higher flexibility and improved strength, and the barrel 1 is prevented from being torn under stress; secondly, compare in the sticky mode in the components of a whole that can function independently later stage of making, barrel 1 and the absorption front end 2 that integrative injection moulding made have stronger more reliable joint strength between, avoid the connected position fracture separation of the two, improve the durability of product.

As shown in fig. 4, in some embodiments, the groove bottom center position of the vacuum suction groove 21 may be provided as an injection molding nozzle 22 of the toy bullet 10.

It should be noted that the injection molding nozzle 22 refers to a position where the rubber material flows into the injection molding cavity along a runner in the mold, and in the cooling molding process after injection molding, the rubber material at the nozzle 22 is usually difficult to remove and level, and even if the level can be removed, the trace after removal of the nozzle is still very obvious, which affects the appearance of the product.

Understandably, the water gap is arranged in the vacuum adsorption groove 21, so that the glue remained at the water gap 22 can be prevented from influencing the appearance of the toy bullet 10; meanwhile, the residual sizing material of the water gap 22 at the position does not affect the deformation, reset and the like of the adsorption front end 2; in summary, the surface flatness of the toy bullet 10 is improved while the adsorption performance of the toy bullet 10 is ensured.

As shown in fig. 3, 4 and 5, the end of the cylinder 1 may be provided with a blocking plate 3 having a radius slightly larger than the outer diameter of the cylinder 1 in some embodiments, and the cylinder 1 is disposed on the blocking plate 3; wherein, barrel 1, shutoff board 3 and absorption front end 2 are the integrated into one piece structure.

It can be understood that one side of the blocking plate 3 is directly exposed in the cavity of the cylinder 1, and the blocking plate 3 plays a role in connecting the cylinder 1 and the adsorption front end 2. After the toy bullet 10 is shot out, when the adsorption front end 2 impacts the surface of a target object, the adsorption front end 2 also receives an opposite acting force, the recoil force is transmitted to the blocking plate 3 to enable the blocking plate 3 to be sunken and deformed at the central position, and the blocking plate 3 plays a role in buffering; subsequently, in the process of reducing the recoil force, the plugging plate 3 is reset, so that the cylinder body 1 and the adsorption front end 2 are correctly aligned again, and the dislocation and the deviation of the cylinder body 1 and the adsorption front end 2 after multiple uses are avoided.

As shown in fig. 3 to 5, the radius of the closure plate 3 may be set to 14mm to 15mm in some embodiments.

Understandably, the radius of the blocking plate 3 is set to be 14mm to 15mm, and the radius is still smaller than the radius of the maximum radius on the adsorption front end 2, so that the blocking plate 3 is prevented from generating redundant friction with air while the buffering effect of the blocking plate 3 is ensured to be large enough, and the flying distance of the toy bullet 10 is ensured.

As shown in fig. 3 to 5, in some embodiments of the toy bullet 10, the outer side wall of the barrel 1 is provided with a reinforcement ring 11 at a position adjacent to the suction front end 2, and the reinforcement ring 11 is integrally formed with the barrel 1.

It will be appreciated that the stiffening ring 11 serves to reinforce the mechanical strength of the side wall of the barrel 1 at a location adjacent the suction front end 2, improving the durability of the toy bullet 10.

It can be understood that, in the process of impact of the adsorption front end 2 to the surface of the target object, the recoil force is transmitted to the side wall of the cylinder 1 through the adsorption front end 2, and is preferentially transmitted to the position on the side wall of the cylinder 1 close to the adsorption front end 2, so that the position is very easy to bend and damage, and the arrangement of the reinforcement ring 11 can effectively improve the mechanical strength at the position, and effectively improve the durability of the product.

In some embodiments of the toy bullet 10, the stiffening ring 11 has an outer diameter of 12mm to 13mm, as shown in figures 3 to 5.

Understandably, the outer diameter of the reinforcement ring 11 is set to 12mm to 13mm, so that the problem that the outer diameter of the reinforcement ring 11 is too large and the toy bullet 10 rubs with air in the horizontal flying process can be avoided, and the flying distance is ensured while the durability of the toy bullet 10 is improved.

As shown in fig. 3 to 5, in some embodiments of the toy bullet 10, the outer diameter of the cylinder 1 gradually decreases away from the adsorption front end 2 to form a wind-sheltered slope 12.

It will be appreciated that during horizontal flight of the toy bullet 10, the air flow will flow rapidly along the wind-shielding slope 12 without delay, avoiding excessive friction with the air and improving the flight performance of the toy bullet 10.

In some embodiments of the toy bullet 10, as shown in figures 3 to 5, the barrel 1 is provided with a rounded corner 13 at the end remote from the suction front end 2.

Understandably, the round corner part 13 can prevent the edge of the cylinder body 1 from being damaged due to the phenomenon of stress concentration when the driving mechanism drives the edge.

The toy gun of some embodiments of the present invention includes an excitation device and a toy bullet 10, wherein the excitation device is configured to eject the toy bullet 10 along a predetermined trajectory.

It will be appreciated that the excitation means may be any of a variety of known devices, mechanisms, assemblies or components disposed on the toy that are capable of transferring kinetic energy to the toy bullet 10; when the excitation device works, the toy bullet 10 is driven to move along a preset track and is ejected out of the toy gun.

The toy gun may also include a housing and a magazine disposed on the housing for receiving the toy cartridge 10 in some embodiments.

It will be appreciated that the magazine serves to store the toy bullet 10 and to load the toy bullet 10 into a predetermined position within the housing so that the trigger mechanism triggers the ejection of the bullet.

The utility model discloses a toy bullet 10 and toy gun have following beneficial effect at least:

the utility model discloses a toy bullet 10 and toy gun relates to the toy technical field, toy bullet 10 includes barrel 1 and absorption front end 2 that integrative injection moulding made jointly, so, the injection moulding integrated into one piece of both makes barrel 1 have higher structural strength compared with the existing columnar body that adopts the foam cotton to make, avoids its atress to tear; meanwhile, the connection strength between the cylinder body 1 and the adsorption front end 2 can be increased, the mutual separation between the cylinder body and the adsorption front end 2 is avoided, and the durability of the toy bullet 10 is improved; in addition, integrated into one piece's barrel 1 and absorption front end 2 can reduce manufacturing cost effectively, remove the equipment link from, effectively improve production efficiency.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and implement the present invention accordingly, which can not limit the protection scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. A toy bullet is characterized by comprising a barrel body and an adsorption front end which are integrally formed by injection molding, wherein the barrel body extends along a radial direction, the adsorption front end extends from one end of the barrel body towards a direction far away from the barrel body, the radius of the adsorption front end is gradually increased towards the direction far away from the barrel body and is in a cone shape, and the adsorption front end is inwards recessed on an end face far away from the barrel body to form a vacuum adsorption groove;

the adsorption front end can be adsorbed and fixed on the surface of a target object, and the cylinder can drive the adsorption front end to be separated from the surface of the target object when being stressed.

2. The toy bullet of claim 1, wherein a central position of a bottom of the vacuum suction groove is provided as an injection molding nozzle of the toy bullet.

3. The toy bullet of claim 1, wherein the end of said barrel is provided with a closure plate having a radius slightly larger than the outer diameter of said barrel, said barrel being disposed on said closure plate;

the cylinder body, the plugging plate and the adsorption front end are of an integrally formed structure.

4. The toy bullet of claim 3, wherein the radius of the containment plate is in the range of 14mm to 15mm.

5. The toy bullet of claim 1, wherein a reinforcing ring is provided on an outer side wall of said barrel at a position adjacent to said suction front end, said reinforcing ring being integrally formed with said barrel.

6. The toy bullet of claim 5, wherein the outer diameter of the reinforcing ring is 12mm to 13mm in size.

7. The toy bullet of claim 1, wherein the outer diameter of the barrel is gradually reduced away from the adsorption front end to form a wind-sheltered slope.

8. The toy bullet of claim 1, wherein said barrel is provided with a rounded corner on the end remote from said suction front end.

9. A toy gun, comprising an excitation device and a toy bullet as claimed in any one of claims 1 to 8, said excitation device being adapted to eject said toy bullet along a predetermined trajectory.

10. The toy gun of claim 9, further comprising a housing and a magazine disposed on the housing, the magazine for receiving the toy cartridges.

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