TECHNICAL FIELD
The present disclosure belongs to the technical field of toy guns, in particular to a speedloader.
BACKGROUND
Shell ejecting soft bullet toy gun is a kind of projectile toy that uses compressed air to launch soft bullets and make an ejection action at the same time. It includes three parts: gun body, magazine and soft-shell bullet. A soft-shell bullet consists of a cartridge and a soft bullet. The cartridge is made of PVC material, the soft bullet head is made of rubber material, and the soft bullet body is made of sponge material or foam material. Because the soft-shell bullet will not cause harm to human body after being fired, and can simulate the ejection action of imitation guns, it is loved by players and gradually replaces other bullet toy guns made of other materials on the market.
In order to realize continuous firing, players need to pre-load multiple soft bullets loaded into cartridges in the magazine. However, since the soft bullets and cartridges of the shell ejecting soft bullet gun are separated, every time when loading the magazine, the player needs to manually load each soft bullet into the cartridge first and then load it into the magazine, which is inconvenient and inefficient and affects the game experience.
Therefore, there is an urgent need in the industry to design a loader that can complete the soft bullet cartridge-loading operation in batches while quickly and labor-savingly loading the soft-shell bullets into the magazine.
SUMMARY
In order to solve at least one technical problem in the above-mentioned background technology, the disclosure provides a speedloader, comprising a speedloader body, a first pusher, a second pusher and a magazine; the speedloader body is provided with a cartridge loading cavity and a soft bullet loading cavity which are communicated with each other, the second pusher is slidably connected in the cartridge loading cavity, one side end of the speedloader body is detachably connected with the magazine, and the second pusher slides towards a direction of the magazine; the first pusher is slidably connected in the soft bullet loading cavity, and a sliding direction of the first pusher is perpendicular to that of the second pusher.
Further, the speedloader body comprises a housing and a clamper arranged on the housing; the clamper comprises a clamping frame, and the clamping frame is provided with a magazine loading cavity and a sliding clamping assembly; the magazine loading cavity is provided with a limit assembly, and the sliding clamping assembly drives the limit assembly to be clamped or unclamped with the magazine.
Further, the clamping frame comprises an upper clamping frame and a lower clamping frame, the upper clamping frame is provided with a clamping chute, the sliding clamping assembly comprises a wrench, a first clamping piece and a second clamping piece, the lower end of the first clamping piece passes through the clamping chute and is detachably and fixedly connected with one end of the second clamping piece, and the other end of the second clamping piece is provided with a limit chute, a first abutting surface is arranged below the limit chute, and the first clamping piece drives the first abutting surface to abut against or disengage from the limit assembly.
Further, a lower end face of the magazine is provided with a first clamping interface, and the lower clamping frame is provided with a second clamping interface; the limit assembly comprises a limit block fitted with the first clamping interface, and the limit block passes through the limit chute and the second clamping interface in turn to be clamped with the first clamping interface; a first elastic member is arranged below the limit block, a top end of the limit block is provided with a second abutting surface, and a lower end thereof is provided with a third abutting surface fitted with the first abutting surface; horizontal sliding of the wrench drives the first abutting surface to abut against or disengage from the third abutting surface, thus triggering the limit block to press down or release the first elastic member, so that the limit block is unclamped or clamped with the magazine.
Further, the speedloader body further comprises a protective cover, and an elastic fastener is slidably arranged on the protective cover; a front end of the elastic fastener is provided with a fourth abutting surface, a rear end thereof is provided with a second elastic member, and a side of the fourth abutting surface is provided with a fifth abutting surface.
Further, the wrench is provided with a sixth abutting surface fitted with the fifth abutting surface, and third elastic members are symmetrically arranged on both sides of the first clamping piece.
Further, a plurality of partition plates are arranged in the soft bullet loading cavity, and the partition plates divide the soft bullet loading cavity into a plurality of accommodating slots for placing soft bullets; front ends of the accommodating slots are all provided with through holes for the soft bullets to slide out.
Further, the first pusher comprises a manual push part and a push part connected with the manual push part, and the push part is provided with a plurality of push heads fitted with the positions of the through holes.
Further, a push buffer head is slidably arranged on the push part, a fourth elastic member is sleeved between the push buffer head and the push part, and the push buffer head is higher than the push part under the action of elastic force of the fourth elastic member.
Further, the lower clamping frame is provided with a slot, a cartridge stopper hinged with a lower end face of the lower clamping frame is arranged below the slot, a fifth elastic member is arranged below the cartridge stopper, and a seventh abutting surface is arranged on the cartridge stopper.
The present disclosure has the following beneficial effects:
- (1) The speedloader of the present disclosure realizes fast and labor-saving loading by arranging a first pusher on the speedloader body to push soft bullets into cartridges in batches, and pushing the soft bullets loaded into cartridges into the magazine connected with the speedloader body in one go by means of a second pusher, thus improving the game experience of players.
- (2) The speedloader of the present disclosure is provided with a clamper on the speedloader body, and the magazine and the protective cover are clamped through the sliding clamping assembly on the clamper and the limit assembly, so as to ensure that the soft bullets loaded into the cartridge can be smoothly pushed into the magazine, and such a structural design is ingenious.
- (3) The speedloader of the present disclosure is provided with a protective cover on the speedloader body, which can prevent the soft bullet and the cartridge from being ejected due to squeezing when they are pushed by the first pusher and the second pusher, thus ensuring that the soft-shell bullet is smoothly loaded in the magazine. The structure is simple, convenient and practical.
BRIEF DESCRIPTION OF DRAWINGS
A brief introduction is made below to the figures necessary for the description of the embodiment or the prior art to illustrate the technical solution in the embodiments of the present disclosure or in the prior art more clearly. Apparently, the figures in the following description are only some embodiments of the present disclosure, and those of ordinary skill in the art can derive other drawings from these figures without creative work.
FIG. 1 is a schematic view of an overall structure of the speedloader according to the present disclosure;
FIG. 2 is a schematic view of an overall structure of the speedloader in an unfolded state according to the present disclosure;
FIG. 3 is an exploded view of an overall structure of the speedloader according to the present disclosure;
FIG. 4 is a schematic view of an assembly structure of the clamper of the speedloader according to the present disclosure;
FIG. 5 is an exploded view of an assembly structure of the clamper of the speedloader according to the present disclosure;
FIG. 6 is a schematic view illustrating a structure of the limit block in the clamper of the speedloader according to the present disclosure;
FIG. 7 is a schematic view illustrating a structure of the magazine of the speedloader according to the present disclosure;
FIG. 8 is a schematic view illustrating a structure of the protective cover of the speedloader according to the present disclosure;
FIG. 9 is a schematic view illustrating a structure of the elastic fastener of the speedloader according to the present disclosure;
Wherein, 1—speedloader body, 11—cartridge loading cavity, 12—soft bullet loading cavity, 120—partition plate, 121—accommodating slot, 122—through hole, 13—housing, 130—upper housing, 131—lower housing, 132—slideway block, 14—clamper, 140—clamping frame, 1400—upper clamping frame, 1401—lower clamping frame, 1402—clamping chute, 1403—second clamping interface, 1404—slot, 141—magazine loading cavity, 142—sliding clamping assembly, 1420—wrench, 1421—first clamping piece, 1422—second clamping piece, 1423—limit chute, 1424—first abutting surface, 1425—sixth abutting surface, 1426—third elastic member, 1427—second loading column, 143—limit assembly, 1430—limit block, 1431—first elastic member, 1432—second abutting surface, 1433—third abutting surface, 144—cartridge stopper, 1440—seventh abutting surface, 145—fifth elastic member, 15—protective cover, 150—elastic fastener, 1500—fourth abutting surface, 1501—fifth abutting surface, 1502—first loading column, 151—second elastic member, 152—upper protective cover shell, 153—lower protective cover shell, 1530—loading cavity, 2—first pusher, 21—manual push part, 22—push part, 220—push head, 23—push buffer head, 24—fourth elastic member, 3—second pusher, 31—sliding rail, 4—magazine, 41—first clamping interface.
DETAILED DESCRIPTION OF THE EMBODIMENTS
The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the present disclosure. Apparently, the embodiments described are only some rather than all of the embodiments of the present disclosure. Based on the embodiments of the present disclosure, all other embodiments obtained by ordinary persons skilled in the art without creative efforts shall fall within the protection scope of the present disclosure.
It should be noted that in the present disclosure, in the absence of contrary explanation, the locating words such as “upper, lower, top and bottom” are usually used for the directions shown in the drawings, or for the parts themselves in upright, vertical or gravitational directions; likewise, for ease of understanding and description, “inside” and “outside” refer to inside and outside with respect to the contours of each component itself, but the above-mentioned location words are not used to limit the present disclosure.
The present disclosure will be described in detail below with reference to FIGS. 1 through 9 and specific embodiments thereof.
As shown in FIG. 1, the embodiment of the present disclosure provides a speedloader, which comprises a speedloader body 1, a first pusher 2, a second pusher 3 and a magazine 4; the speedloader body 1 is provided with a cartridge loading cavity 11 and a soft bullet loading cavity 12 which are communicated with each other, the second pusher 3 is slidably connected in the cartridge loading cavity 11, one side end of the speedloader body 1 is detachably connected with the magazine 4, and the second pusher 3 slides towards a direction of the magazine 4; the first pusher 2 is slidably connected in the soft bullet loading cavity 12, and a sliding direction of the first pusher 2 is perpendicular to that of the second pusher 3. In this embodiment, the first pusher 2 is slidably arranged on a rear side of the speedloader body 1, the second pusher 3 is slidably arranged on a left side of the speedloader body 1, and the magazine 4 is relatively arranged on a right side of the speedloader body 1.
In the disclosure, the soft bullet loading cavity 12 is located behind the cartridge loading cavity 11. A player first needs to fix and mount the magazine 4 in the speedloader body 1, secondly loads the soft bullets and cartridges into the soft bullet loading cavity 12 and the cartridge loading cavity 11 respectively, then the first pusher 2 is driven to push the soft bullets into cartridges located in the cartridge loading cavity 11, and finally the second pusher 3 is driven to push a batch of soft bullets loaded into cartridges into the magazine 4. It achieves the purpose of rapid and labor-saving loading in batches, which greatly improves the game experience of players.
Specifically, as shown in FIGS. 2 to 5, in this embodiment, the speedloader body 1 comprises a housing 13 and a clamper 14 arranged on the housing 13; the clamper 14 comprises a clamping frame 140, and the clamping frame 140 is provided with a magazine loading cavity 141 and a sliding clamping assembly 142; the magazine loading cavity 141 is provided with a limit assembly 143, and the sliding clamping assembly 142 drives the limit assembly 143 to be clamped or unclamped with the magazine 4; the housing 13 comprises an upper housing 130 and a lower housing 131; the clamper 14 is arranged between the upper housing 130 and the lower shell 131, and the upper housing 130 and the lower housing 131 are buckled to form a cartridge loading cavity 11 and a soft bullet loading cavity 12; after the magazine 4 is inserted into the magazine loading cavity 141, the limit assembly 143 is driven by pushing the sliding clamping assembly 142 to be clamped or unclamped with the magazine 4, thus realizing the limiting fixation of the magazine 4 by the clamper 14, thus, it is ensured that the soft-shell bullets are smoothly and accurately pushed into the magazine 4 by the second pusher 3.
Specifically, as shown in FIGS. 3 to 6, in this embodiment, the clamping frame 140 comprises an upper clamping frame 1400 and a lower clamping frame 1401; the upper clamping frame 1400 is provided with a clamping chute 1402; the sliding clamping assembly 142 comprises a wrench 1420, a first clamping piece 1421 and a second clamping piece 1422; the clamping chute 1402 is cross-shaped, and the second clamping piece 1422 is slidably arranged between the lower clamping frame 1401 and a lower housing 131, the lower end of the first clamping piece 1421 passes through the clamping chute 1402 and is detachably and fixedly connected with one end of the second clamping piece 1422; the other end of the second clamping piece 1422 is provided with a limit chute 1423, the first clamping piece 1421 is slidably connected with the upper clamping frame 1400 by means of the clamping chute 1402, and the first clamping piece 1421 can slide back and forth along a horizontal direction on the clamping chute 1402, then, the second clamping piece 1422 fixedly connected with it is driven to move back and forth. A first abutting surface 1424 is arranged below the limit chute 1423; when the second clamping piece 1422 moves forward and backward driven by the first clamping piece 1421, the first abutting surface 1424 abuts against or disengages from the limit assembly 143.
Specifically, as shown in FIGS. 3 to 7, in this embodiment, a lower end face of the magazine 4 is provided with a first clamping interface 41, and the lower clamping frame 1401 is provided with a second clamping interface 1403; the limit assembly 143 comprises a limit block 1430 fitted with the first clamping interface 41, and the limit block 1430 passes through the limit chute 1423 and the second clamping interface 1403 in turn to be clamped with the first clamping interface 41; a first elastic member 1431 is arranged below the limit block 1430, a top end of the limit block 1430 is provided with a second abutting surface 1432, and a lower end thereof is provided with a third abutting surface 1433 fitted with the first abutting surface 1424. In this embodiment, the first abutting surface 1424 and the third abutting surface 1433 are inclined surfaces fitted with each other. Horizontal sliding of the wrench 1420 drives the first abutting surface 1424 to abut against or disengage from the third abutting surface 1433, thus triggering the limit block 1430 to press down or release the first elastic member 1431, so that the limit block 1430 is unclamped or clamped with the magazine 4.
When a player inserts the magazine 4 through the magazine loading cavity 141, the magazine 4 abuts against the second abutting surface 1432, and the second abutting surface 1432 is forced to move downward to compress the first elastic member 1431; the limit block 1430 moves downward until a top of the limit block 1430 is flush with an upper end face of the lower clamping frame 1401; at this moment, the magazine 4 can continue to slide forward until the first clamping interface 41 on the magazine 4 is located directly above the limit block 1430; the compressed first elastic member 1431 is decompressed, and the limit block 1430 is pushed out and inserted into the first clamping interface 41 to complete the limiting fixation of the magazine 4; when the magazine 4 needs to be pulled out after loading, the player only needs to pull the wrench 1420 to slide it horizontally forward; the first clamping piece 1421 connected with it drives the first abutting surface 1424 on the second clamping piece 1422 to press the third abutting surface 1433 on the limit block 1430, so that the limit block 1430 is stressed and moves downward to press the first elastic member 1431, and the limit block 1430 is disengaged from the clamp with the first clamping interface 41 on the magazine 4; the magazine 4 loaded with soft-shell bullets can now be easily removed.
Specifically, as shown in FIGS. 2, 3, 8 and 9, in this embodiment, the speedloader body 1 further comprises a protective cover 15, and an elastic fastener 150 is slidably arranged on the protective cover 15; a front end of the elastic fastener 150 is provided with a fourth abutting surface 1500, a rear end thereof is provided with a second elastic member 151, and a side of the fourth abutting surface 1500 is provided with a fifth abutting surface 1501. The protective cover 15 includes an upper protective cover shell 152 and a lower protective cover shell 153; an elastic fastener 150 is arranged between the upper protective cover shell 152 and the lower protective cover shell 153; one side of the protective cover 15 is clamped with the upper housing 130 by means of the elastic fastener 150, and the other side thereof is hinged with the upper housing 130 to realize quick clamping and folding of the protective cover 15. In order to ensure the stability of buckling and clamping between the protective cover 15 and the upper housing 130, in this embodiment, the elastic fastener 150 is designed with fourth abutting surfaces 1500 symmetrically arranged at a front end thereof, first loading columns 1502 symmetrically arranged at a rear end thereof, and fifth abutting surfaces 1501 symmetrically arranged on the sides of the fourth abutting surface 1500. Preferably, both the fourth abutting surface 1500 and the fifth abutting surface 1501 are inclined planes, and the second elastic member 151 is sleeved on the first loading column 1502; the lower protective cover shell 153 is provided with a loading cavity 1530 for accommodating the first loading column 1502 and the second elastic member 151. When a player buckles the protective cover 15 downward, the fourth abutting surface 1500 is forced to squeeze and the second elastic member 151 is compressed, so that the elastic fastener 150 moves along a direction of the loading cavity 1530, and the protective cover 15 is clamped on the upper housing 130. It should be noted that in this embodiment, the upper housing 130 is provided with a clamping interface (not shown in the figure) fitted with the elastic fastener 150.
Specifically, as shown in FIGS. 2, 3, 8 and 9, in this embodiment, the wrench 1420 is provided with a sixth abutting surface 1425 fitted with the fifth abutting surface 1501, and third elastic members 1426 are symmetrically arranged on both sides of the first clamping piece 1421. In order to ensure the horizontal sliding stability of the wrench 1420, second loading columns 1427 are symmetrically disposed at two sides of the first clamping piece 1421, and a third elastic member 1426 is sleeved on the second loading column 1427. When a player wants to open the protective cover 15, he/she only needs to pull the wrench 1420 backward horizontally; the sixth abutting surface 1425 squeezes the fifth abutting surface 1501, so that the elastic fastener 150 is stressed and further squeezes the second elastic member 151 to make it in a compressed state; at this moment, the elastic fastener 150 is disengaged from the upper housing 130, and the protective cover 15 can be easily opened.
Specifically, as shown in FIGS. 2 to 3, in this embodiment, nine partition plates 120 are arranged in the soft bullet loading cavity 12, and the partition plates 120 divide the soft bullet loading cavity 12 into eight accommodating slots 121 for placing soft bullets; front ends of the accommodating slots 121 are all provided with through holes 122 for the soft bullets to slide out. According to the present disclosure, a corresponding number of partition plates 120 can be provided according to the loading quantity of different types of magazines 4, so as to achieve the purpose of loading the magazine 4 in one go.
Specifically, as shown in FIGS. 2 to 3, in this embodiment, the first pusher 2 comprises a manual push part 21 and a push part 22 connected with the manual push part 21, and the push part 22 is provided with eight push heads 220 fitted with the positions of the through holes 122; both ends of the push part 22 are further slidably provided with push buffer heads 23, and a fourth elastic member 24 is sleeved between the push buffer head 23 and the push part 22. Here, the push buffer head 23 is made of a stud bolt with nuts at both ends. The fourth elastic member 24 presses against a front nut so that the push buffer head 23 is higher than the push head 220. When a player pushes in the manual push part 21 horizontally, the push head 220 on the push part 22 will be driven to horizontally push out soft bullets located in the accommodating slot 121. When the push buffer head 23 abuts against a front wall of the soft bullet loading cavity 12, the fourth elastic member 24 is compressed by force. The push head 220 continues to move forward until the soft bullets are completely pushed into the cartridge loading cavity 11. At this moment, the manual push part 21 is released, and the fourth elastic member 24 resets to push the push head 220 back into the soft bullet loading cavity 12. On the one hand, the push buffer head 23 can prevent the soft bullet from being incompletely pushed into the cartridge and affecting the smooth loading of the cartridge; on the other hand, it can also make the push head 220 return to the soft bullet loading cavity 12 under the action of the fourth elastic member 24 after completing the push, preventing the push head 220 from protruding out of the soft bullet loading cavity 12 to hinder the second pusher 3 from sliding in the direction of the magazine.
Specifically, as shown in FIGS. 3 to 5, in this embodiment, a slot 1404 is arranged on the lower clamping frame 1401, a cartridge stopper 144 hinged with a lower end face of the lower clamping frame 1401 is arranged below the slot 1404, a fifth elastic member 145 is arranged below the cartridge stopper 144, and a seventh abutting surface 1440 is arranged on the cartridge stopper 144. By setting the cartridge stopper 144, it can be ensured that the cartridges are stably placed in the cartridge loading cavity 11 and accurately aligned with the soft bullets above. When the soft bullets are loaded into cartridges, the player horizontally pushes the second pusher 3 to the right; the soft-shell bullets extrude the seventh abutting surface 1440 under force, and the seventh abutting surface 1440 rotates downward under force to compress the fifth elastic member 145, so that the soft bullets loaded into cartridges are pushed into the magazine 4 in batches, thereby completing the loading operation.
Specifically, as shown in FIG. 3, in this embodiment, the second pusher 3 is provided with a sliding rail 31, and the lower housing 131 is provided with a slideway block 132 fitted with the sliding rail 31. By providing the sliding rail 31 and the slideway block 132, it can be ensured that the second pusher 3 smoothly slides into the speedloader body 1, and the whole loading process is smooth without jamming. Correspondingly, in this embodiment, the first pusher 2 is further provided with a sliding rail, and the soft bullet loading cavity 12 is provided with a fitted sliding rail, which will not be described again here.
The working principle of the speedloader in the present disclosure is as follows:
- first, a player needs to insert an empty magazine 4 into the magazine loading cavity 141, and confirm that the limit block 1430 has been clamped on a first clamping interface 41 of the magazine 4. Secondly, the player pulls the wrench 1420 horizontally backward to open the protective cover 15, pulls the first pusher 2 horizontally backward and the second pusher 3 horizontally leftward respectively, loads a plurality of soft bullets and cartridges correspondingly, buckles the protective cover 15, and then pushes the first pusher 2 horizontally forward, load the soft bullets in batches into cartridges in the cartridge loading cavity 11, then push the second pusher 3 horizontally to the right, push the soft bullets loaded into cartridges into the magazine 4 in one go, and finally pull the wrench 1420 horizontally forward to remove the magazine 4, thus completing the loading operation.
It should be noted that the terms “the first”, “the second” and so on in the specification, claims and drawings of this application are used to distinguish similar objects, but not necessarily used to describe a specific sequence or precedence. It should be understood that the data thus used may be interchanged, as appropriate, so that embodiments of the present application described herein can be implemented in an order other than those illustrated or described herein.
The present disclosure has been further described above with reference to specific embodiments, but it should be understood that the specific description herein shall not be construed as limiting the essence and scope of the present disclosure. All modifications made by ordinary persons skilled in the art to the above embodiments after reading this specification fall within the protection scope of the present disclosure.
Patent Application
20250198715
