CN211558789U - Containing box and bead blasting injection device - Google Patents

Abstract

The utility model provides a holding box, which is used for holding the blasting beads and comprises a first shell and a second shell, wherein the first shell comprises a panel and a first side wall connected with the panel, and the first side wall is provided with a first discharge hole in a through manner; the second shell comprises a bottom wall and a second side wall connected with the bottom wall, and a second discharge hole is formed in the second side wall in a penetrating mode; the second casing closes with first casing lid mutually, and first lateral wall sets up with the second lateral wall is relative, and first casing can rotate to first discharge opening and second discharge opening counterpoint or dislocation relative to the second casing. Wherein, rotate to first discharge opening and second discharge opening counterpoint or dislocation through the relative second casing of first casing to can control explode the pearl via first discharge opening, second discharge opening ejection of compact one by one, in order to obtain the pearl that explodes of suitable quantity, the simple operation. The utility model also provides an explode pearl injection device.

Description

Containing box and bead blasting injection device

Technical Field

The utility model relates to a tobacco apparatus technical field particularly, relates to a holding box and explode pearl injection device.

Background

With the continuous development of science and technology, the requirements of people on the living standard are continuously improved, and the requirements are embodied in various aspects of life, such as the use experience of cigarettes is improved by adding the popping beads in the cigarettes. The bead is used as a tobacco additive and contains spice, and the bead is embedded into a filter tip of a cigarette and then used, so that the taste of a user can be enriched.

If the user carries the pearl blasting injector and inserts the pearl blasting into the cigarette filter tip, because the pearl blasting is mostly stored in the pearl blasting packaging box or the pearl blasting packaging bag, the user easily spills a large amount of pearl blasting when extracting the pearl blasting in the packaging box or the packaging bag, and can not master the quantity of the pearl blasting that takes out. Therefore, the implantation of the blasting bead is more complicated for the user who is out.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a container and a shot-blasting injection device to improve the above problems.

The utility model discloses a following technical scheme realizes:

on one hand, the embodiment of the utility model provides a holding box, the holding box is used for holding the blasting bead, the holding box includes first casing and second casing, the first casing includes panel and the first lateral wall of being connected with the panel, first lateral wall is equipped with first discharge opening through; the second shell comprises a bottom wall and a second side wall connected with the bottom wall, and a second discharge hole is formed in the second side wall in a penetrating mode; the second casing closes with first casing lid mutually, and first lateral wall sets up with the second lateral wall is relative, and first casing can rotate to first discharge opening and second discharge opening counterpoint or dislocation relative to the second casing.

In some embodiments, the second housing is provided with a guide slot, and the first side wall is movably received in the guide slot.

In some embodiments, the containment box further comprises a transition piece, the transition piece being provided with a transition hole; the transition piece is connected to the bottom wall and is spaced from the second side wall, the transition piece and the second side wall jointly form a guide groove, and the first side wall is movably accommodated in the guide groove and selectively moves to the first discharge hole and the transition hole in an alignment or dislocation manner.

In some embodiments, the transition aperture is offset from the second outfeed aperture.

In some embodiments, the receiving box further comprises a limiting part connected between the transition piece and the second side wall; when the first side wall moves relative to the guide groove, the limiting part limits the moving stroke of the first side wall.

In some embodiments, the receiving box further comprises an elastic member disposed between the position-limiting portion and the first side wall.

In some embodiments, the guide slot is a groove opening in the bottom wall.

In some embodiments, the first side wall, the panel, and the bottom wall collectively form a receiving cavity; the containing box is also internally provided with a spacing part which divides the containing cavity into a bead blasting area for containing the bead blasting and a drying area for containing the drying agent, and the bead blasting area is communicated with the first discharge hole.

In some embodiments, the receiving box further includes a toggle member connected to a side of the panel facing away from the first side wall, and the toggle member protrudes relative to a surface of the panel.

On the other hand, the embodiment of the utility model provides a explode pearl injection apparatus, explode pearl injection apparatus includes like above-mentioned holding box and pushing mechanism, and pushing mechanism includes body, puncture portion and push rod. The pipe body is connected with the accommodating box, an accommodating cavity is arranged in the pipe body, a feed hole communicated with the accommodating cavity is formed in the pipe wall of the pipe body, and the feed hole is communicated with the second discharge hole oppositely; the puncture part is connected with the tube body; the push rod is movably accommodated in the accommodating cavity and can move relative to the tube body.

The embodiment of the utility model provides an among the holding box and the pearl injection device that explodes, rotate to first discharge opening and second discharge opening counterpoint or dislocation through the relative second casing of first casing to can control to explode the pearl via first discharge opening, the ejection of compact of second discharge opening one by one, in order to acquire the pearl that explodes of suitable quantity, the simple operation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic perspective view of an exploded bead injection device according to an embodiment of the present invention.

FIG. 2 is an exploded view of the pod in one embodiment of the pop-ball injection device shown in FIG. 1.

FIG. 3 is a schematic cross-sectional view of a containment case of another embodiment of the shot-blasting injection apparatus shown in FIG. 1.

FIG. 4 is a cross-sectional view of another state of the pod in another embodiment of the pop-ball injection device shown in FIG. 1.

Fig. 5 is a cross-sectional view of the receiving box shown in fig. 2.

Fig. 6 is a cross-sectional view of the receiving box shown in fig. 2 in another state.

FIG. 7 is a schematic cross-sectional view of the shot injection device shown in FIG. 1.

FIG. 8 is a schematic perspective cross-sectional view of the pushing mechanism of the shot injection device shown in FIG. 1.

Detailed Description

In order to make the technical field person understand the scheme of the present invention better, the following will combine the drawings in the embodiments of the present invention to clearly and completely describe the technical scheme in the embodiments of the present invention.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. The specification and claims do not intend to distinguish between components that differ in name but not function.

In the present invention, the terms "mounted," "connected," "secured," and the like are to be construed broadly unless otherwise explicitly stated or limited. For example, the connection can be fixed, detachable or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate member, or they may be connected through the inside of two elements, or they may be connected only through surface contact or through surface contact of an intermediate member. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art. Furthermore, the terms "first," "second," and the like are used merely for distinguishing between descriptions and not intended to imply or imply a particular structure.

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1, the present embodiment provides a shot-blasting injection device 200, where the shot-blasting injection device 200 includes a container 100 and a pushing mechanism 210, and the container 100 is connected to the pushing mechanism 210. In actual use, the containing box 100 is used for containing the exploded beads, and the pushing mechanism 210 is used for injecting the exploded beads discharged from the containing box 100 into the filter tip of the cigarette, so as to change the common cigarette into the exploded bead cigarette. The bead is used as a tobacco additive and contains spice, and the bead is embedded into a filter tip of a cigarette and then used, so that the taste of a user can be enriched.

In the embodiment of the present application, the accommodating box 100 has a substantially hollow structure such as a cylinder or a prism, so as to accommodate the popping beads. Specifically, referring to fig. 2, the accommodating box 100 includes a first casing 110 and a second casing 130, the second casing 130 covers the first casing 110 to form an accommodating cavity 101, and the accommodating cavity 101 is used for accommodating the popping beads.

The first housing 110 includes a panel 111 and a first sidewall 113 connected to the panel 111, the first sidewall 113 being substantially perpendicular to the panel 111. Alternatively, the panel 111 is substantially in the shape of a circular plate, the first sidewall 113 is substantially in the shape of a hollow cylinder, and the first sidewall 113 is connected to a substantially peripheral position of the panel 111, or may have a certain distance from an edge of the panel 111.

The second housing 130 includes a bottom wall 131 and a second side wall 133 connected to the bottom wall 131, the second side wall 133 being substantially perpendicular to the bottom wall 131. Alternatively, the bottom wall 131 is substantially a circular plate having the same size as the panel 111, and the second side wall 133 is substantially a hollow cylinder and surrounds and is connected to a peripheral edge of the bottom wall 131.

In the embodiment of the present invention, when the first casing 110 and the second casing 130 are covered, the first sidewall 113 and the second sidewall 133 are disposed oppositely, and the panel 111 is substantially parallel to the bottom wall 131 and substantially concentric with the first sidewall 113 and the second sidewall 133, so as to form the accommodating cavity 101 together. Alternatively, the outer diameter of the first sidewall 113 is smaller than the inner diameter of the second sidewall 133, and when the first casing 110 and the second casing 130 are covered, the panel 111 substantially overlaps the end of the second sidewall 133, and the bottom wall 131 substantially overlaps the end of the first sidewall 113. At this time, the first sidewall 113, the panel 111 and the bottom wall 131 together form the accommodating chamber 101.

Further, the first side wall 113 is provided with a first discharging hole 1131 in a penetrating manner, the second side wall 133 is provided with a second discharging hole 1331 in a penetrating manner, and the first housing 110 can rotate relative to the second housing 130 until the first discharging hole 1131 and the second discharging hole 1331 are aligned or dislocated. The first discharging hole 1131 and the second discharging hole 1331 may be square, circular, polygonal, and the like, and are not limited herein. The size of a channel formed by the alignment of the first discharge hole 1131 and the second discharge hole 1331 is approximately the same as the size of the bead blasting, so that the bead blasting can be discharged through the first discharge hole 1131 and the second discharge hole 1331 one by one after the alignment of the first discharge hole 1131 and the second discharge hole 1331.

In the embodiment of the present invention, the rotation of the first casing 110 relative to the second casing 130 makes the first discharging hole 1131 and the second discharging hole 1331 align or dislocate, so that the number of the blasting beads discharged through the first discharging hole 1131 and the second discharging hole 1331 can be controlled. As shown in fig. 3, at this time, the first discharging hole 1131 and the second discharging hole 1331 are dislocated, and the exploded bead cannot be discharged from the accommodating box 100. As shown in fig. 4, at this time, the first discharging hole 1131 and the second discharging hole 1331 are aligned, and the popped beads can be discharged through the first discharging hole 1131 and the second discharging hole 1331.

Further, the size of a channel formed by the alignment of the first discharge hole 1131 and the second discharge hole 1331 is slightly larger than the outer diameter of the bead blasting, so that the bead blasting can be discharged through the first discharge hole 1131 and the second discharge hole 1331. Optionally, the thickness of the first sidewall 113 is slightly smaller than the outer diameter of the bead blasting to limit the number of the bead blasting passing through the first discharging hole 1131 to be one, so that the number of the bead blasting and discharging can be controlled by controlling the dislocation of the first discharging hole 1131 and the second discharging hole 1331. Meanwhile, when the shot blasting injection device 200 is not used, the leakage and the loss of the shot blasting in the carrying process can be prevented by the dislocation of the first discharging hole 1131 and the second discharging hole 1331.

In some embodiments, the first housing 110 may be a transparent cover and the second housing 130 may be a transparent housing, for example, both of which may be made of a transparent material, such as a polycarbonate material. Because the light transmittance of the polycarbonate is good, a user can directly observe the remaining amount of the popping beads contained in the accommodating cavity 101, and then can determine whether the popping beads need to be replenished according to the remaining amount.

Referring to fig. 2 again, the second housing 130 has a guide slot 135, and the first sidewall 113 is movably received in the guide slot 135. The guide groove 135 is used for guiding the rotation of the first housing 110 relative to the second housing 130, and when the first sidewall 113 moves along the guide groove 135, the alignment or dislocation of the first discharging hole 1131 and the second discharging hole 1331 can be realized.

Alternatively, as shown in fig. 3, the guiding groove 135 may be a groove opened on the bottom wall 131, and the groove is spaced apart from the second side wall 133 to guide the movement of the first side wall 113 received in the guiding groove 135, so as to realize the rotation of the first casing 110 relative to the second casing 130.

Further, the groove opened in the bottom wall 131 is a discontinuous annular groove, i.e., the annular groove has a boundary to define the moving stroke of the first sidewall 113 by the length of the annular groove. As shown in fig. 3, the end a of the first sidewall 113 is the first limit position of the first sidewall 113 when relatively rotating and abutting against the boundary of the guide slot, and at this time, the first discharging hole 1131 and the second discharging hole 1331 are dislocated, so that the popped bead cannot be discharged from the container 100. As shown in fig. 4, when the end B of the first sidewall 113 abuts against the boundary of the guide groove, the second limit position of the first sidewall 113 is set, at this time, the first discharging hole 1131 and the second discharging hole 1331 are aligned, and the popped bead can be discharged through the first discharging hole 1131 and the second discharging hole 1331. Therefore, in the actual use process, the user can determine that the first discharging hole 1131 and the second discharging hole 1331 are in alignment or dislocation by the abutment of the end a or the end B of the first sidewall 113 and the boundary of the guide groove, so that the user can clearly know whether the popped beads in the current accommodating box 100 can be discharged.

Referring to fig. 5, in another embodiment, the receiving box 100 further includes a transition piece 150, and the transition piece 150 is provided with a transition hole 151. Transition piece 150 is coupled to bottom wall 131 and is spaced apart from second sidewall 133, and transition piece 150 and second sidewall 133 cooperate to form guide slot 135. In the present embodiment, the transition piece 150 is substantially a hollow cylindrical structure or a ring-shaped structure, and has a radial dimension smaller than that of the second sidewall 133 to be received in the space formed by the second sidewall 133, so as to form the guide groove 135 together with the second sidewall 133. Alternatively, in other embodiments, the transition piece 150 may be a partially cylindrical or annular structure that may be positioned generally corresponding to the second discharge opening 1331 and opposite (optionally generally concentrically positioned) the second sidewall 133 to form the guide slot 135. The first sidewall 113 is movably received in the guide slot 135 and selectively moves to align or misalign the first discharging hole 1131 with the transition hole 151. Alternatively, the transition piece 150 may be a hollow cylinder with an outer diameter smaller than the inner diameter of the second sidewall 133, or may be a plate shape spaced along a circular track with an inner diameter smaller than the second sidewall 133.

In an actual use process, the bead blasting in the accommodating cavity 101 enters the transition hole 151 through gravity (or artificial shaking of the accommodating box 100), and then the first sidewall 113 moves along the guide groove 135 to the first discharge hole 1131 to align with the transition hole 151, so that the bead blasting enters the first discharge hole 1131 through the transition hole 151. Finally, the first sidewall 113 is moved along the guide groove 135 to align the first discharge hole 1131 with the second discharge hole 1331, so that the popped beads are discharged through the first discharge hole 1131 and the second discharge hole 1331. Optionally, the transition hole 151 may be disposed offset from the second discharge hole 1331. At this time, the first side wall 113 needs to be rotated to align the first discharging hole 1131 with the transition hole 151, and then rotated to misalign the first discharging hole 1131 with the transition hole 151, and aligned with the second discharging hole 1331, the blasting beads can be discharged through the first discharging hole 1131 and the second discharging hole 1331, so as to control the discharging number of the blasting beads in the accommodating box 100.

Further, the receiving box 100 further includes a limiting portion 170, and the limiting portion 170 is connected between the transition piece 150 and the second sidewall 133. When the first sidewall 113 moves relative to the guide groove 135, the limiting portion 170 limits the moving stroke of the first sidewall 113. As shown in fig. 5, when the end a of the first sidewall 113 abuts against the limiting portion 170, the first limit position of the first sidewall 113 is defined, at this time, the first discharging hole 1131 is aligned with the transition hole 151, and the bead blasting can enter the first discharging hole 1131 through the transition hole 151. As shown in fig. 6, the end B of the first sidewall 113 rotates relatively and is the second limit position of the first sidewall 113 when approaching the limiting portion 170 (or abutting against the limiting portion 170), at this time, the first discharging hole 1131 and the second discharging hole 1331 are aligned, and the bead blasting entering the first discharging hole 1131 can be discharged through the first discharging hole 1131 and the second discharging hole 1331. In the actual use process, the user can judge that the first discharging hole 1131 and the transition hole 151 are in alignment through the abutment of the end a or the end B of the first side wall 113 and the limiting portion 170, and the first discharging hole 1131 and the second discharging hole 1331 are in alignment, so that the user can clearly know whether the popping beads in the current accommodating box 100 can be discharged.

In some embodiments, the receiving box 100 further includes an elastic member 190, and the elastic member 190 is disposed between the position-limiting portion 170 and the first sidewall 113. The elastic member 190 may be a spring, an elastic sheet, or other structures having an elastic deformation function, and an elastic supporting force is formed between the limiting portion 170 and the first sidewall 113 through the elastic member 190, and when a distance between the limiting portion 170 and the first sidewall 113 changes, the first housing 110 may be reset through deformation of the elastic member 190. For example, as shown in FIG. 5, in an unstressed state (or an initial compressed state) of the resilient member 190, the first discharge opening 1131 is aligned with the transition opening 151 such that the bead charge enters the first discharge opening 1131 via the transition opening 151. At this time, the first discharging hole 1131 and the second discharging hole 1331 are dislocated to prevent the popping beads from discharging from the containing box 100. As shown in fig. 6, when the elastic member 190 is in a stressed deformation state (or a further compression deformation state), the first discharging hole 1131 is aligned with the second discharging hole 1331, so that the bead blasting entering the first discharging hole 1131 can be discharged through the first discharging hole 1131 and the second discharging hole 1331. After the popped bead is discharged from the discharge hole, the force applied to the elastic member 190 is withdrawn, and the elastic member 190 recovers and pushes the first casing 110 to return to the state where the first discharge hole 1131 and the second discharge hole 1331 are dislocated (as shown in fig. 5). Therefore, after the bead is exploded from the discharge hole, the user does not need to manually reset the first housing 110, so that the accommodating box 100 is more convenient to use. Moreover, the first housing 110 capable of automatically resetting can keep the bead explosion accommodated in the accommodating box 100 sealed and dry, so as to avoid the influence on the user experience caused by improper preservation and deterioration of the bead explosion.

Referring to fig. 2 again, the accommodating box 100 is further provided with a partition portion 180, the partition portion 180 divides the accommodating cavity 101 into a bead blasting area for accommodating beads and a drying area for accommodating a drying agent, and the bead blasting area is communicated with the first discharging hole 1131. In some embodiments, the partition 180 may be a hollow cylinder disposed approximately in the middle of the bottom wall 131 and surrounding a relatively closed area to define the drying zone and the bead blasting zone. Optionally, the partition 180 may be provided with an opening that communicates the drying region with the bead blasting region, so as to absorb the water vapor in the bead blasting region to the drying region through the opening, so as to ensure that the bead blasting region is kept dry, thereby preventing the bead blasting region from being affected by the water vapor and deteriorating.

Referring to fig. 1 again, the receiving box 100 further includes a toggle member 160, the toggle member 160 is connected to a side of the panel 111 away from the first side wall 113, and the toggle member 160 protrudes relative to a surface of the panel 111. In the embodiment of the present invention, the toggle member 160 is toggled to drive the first casing 110 to rotate relative to the second casing 130, so as to realize the alignment or dislocation of the first discharging hole 1131 and the second discharging hole 1331. Optionally, the surface of the toggle member 160 is provided with a plurality of protrusions arranged at intervals, and when the user triggers the toggle member 160, the protrusions can increase the contact area between the user and the toggle member 160, so as to facilitate the toggle operation of the user.

Referring to fig. 7, the pushing mechanism 210 includes a tube 211, a puncturing part 213 and a pushing rod 215. The tube body 211 is connected to the accommodating box 100, an accommodating cavity 201 is arranged in the tube body 211, a feed hole 203 communicated with the accommodating cavity 201 is arranged on the tube wall of the tube body 211, and the feed hole 203 is relatively communicated with the second discharge hole 1331; the puncture part 213 is connected to the tube 211; the push rod 215 is movably received in the receiving cavity 201 and can move relative to the tube 211. In the embodiment of the present invention, the piercing part 213 forms a channel for accommodating the bead blasting on the cigarette, and the bead blasting entering the accommodating cavity 201 through the first discharging hole 1131, the second discharging hole 1331 and the feeding hole 203 can be pushed into the channel by the push rod 215, so that the bead blasting can be injected into the cigarette.

In the embodiment of the present invention, the tube 211 and the accommodating box 100 can be integrally formed, for example, the tube 211 and the accommodating box 100 are integrally formed by molding, injection molding, and the like. In some embodiments, the tube 211 and the receiving box 100 can be two separate parts, which are adhered together by glue or connected together by a detachable structure (e.g., a snap structure, etc.).

Referring to fig. 7 again, the accommodating cavity 201 is disposed along the length direction of the tube 211, an injection cavity 205 for accommodating cigarettes is further disposed at one end of the tube 211, and the injection cavity 205 is communicated with the accommodating cavity 201. Optionally, the injection chamber 205 has an inner diameter greater than or equal to the outer diameter of the filter of the cigarette so that the cigarette can be received within the injection chamber 205. The inner diameter of the housing 201 is greater than or equal to the outer diameter of the squib to allow the movement of the squib within the housing 201. Further, the inner diameter of the receiving cavity 201 is smaller than the inner diameter of the injection cavity 205, so that a limit step is formed at the joint of the receiving cavity 201 and the injection cavity 205, so as to limit the insertion depth of the cigarette.

In the embodiment shown in fig. 7, the puncturing part 213 is substantially cylindrical, and the end thereof is tapered to form a tip, and the puncturing part 213 may protrude from the tube 211 or may be accommodated in the cavity of the tube 211. Alternatively, the piercing part 213 may be disposed at an end of the tube 211 far from the injection cavity 205, and the piercing part 213 may also be disposed between two ends of the tube 211, which is not limited herein. In use, the piercing portion 213 may perforate the filter of the cigarette to form a channel for receiving a bead.

Further, the push rod 215 is substantially cylindrical, and the push rod 215 is accommodated in the accommodating cavity 201 and moves in a longitudinal direction of the tube body 211. The push rod 215 is movable through the housing chamber 201 to the injection chamber 205 to push the popped beads in the housing chamber 201 into the cigarette filter in the injection chamber 205.

In the actual use process, the filter tip of the cigarette is perforated through the piercing part 213, then the filter tip of the cigarette is accommodated in the injection cavity 205, the first discharging hole 1131 and the second discharging hole 1331 are aligned by rotating the first shell 110 and the second shell 130, so that the popping beads in the accommodating box 100 can enter the accommodating cavity 201 through the first discharging hole 1131, the second discharging hole 1331 and the feeding hole 203, and then the popping beads are injected into the perforated hole of the filter tip of the cigarette through the push rod 215. Because the material of the cigarette filter tip is generally elastic material such as cotton, the popping beads can be clamped in the open hole and cannot slide out of the filter tip, so that the common cigarette is changed into the popping bead cigarette. Therefore, the user can take out the cigarette injected with the popping beads for use so as to experience the popping beads cigarette capable of meeting different taste requirements.

In some embodiments, referring to fig. 8, a fitting hole 2111 is formed through a tube wall of the tube body 211, and the fitting hole 2111 communicates with the accommodating cavity 201; the pushing mechanism 210 further includes an operating member 217, the operating member 217 is disposed through the matching hole 2111 and connected to the push rod 215, and the operating member 217 is configured to drive the push rod 215 to move relative to the tube 211. Optionally, a plurality of protrusions arranged at intervals are disposed on the surface of the control member 217, and when the user touches the control member 217, the protrusions can increase the contact area between the user and the control member 217, so as to facilitate the shifting operation of the user. Further, a spring can be arranged in the tube body 211, the push rod 215 is sleeved with the spring, an elastic supporting force effect is formed between the tube wall of the tube body 211 and the push rod 215, when the push rod 215 pushes the exploded bead out of the tube body 211, the spring is elastically deformed, and after the injection of the exploded bead is completed, the spring is restored to be deformed so that the push rod 215 can automatically reset. Wherein, when the push rod 215 is at the first limit position, the spring is in the initial state (at this time, the spring can be in the relaxed state or the compressed state); when pressure is applied to enable the push rod 215 to be at the second limit position, the spring is in a compressed state to generate elastic deformation, and the push rod 215 injects the exploded bead into the cigarette; when the pressure is withdrawn, the spring is deformed again to restore the initial state, and the push rod 215 is automatically reset.

The embodiment of the utility model provides a holding box 100 rotates to first discharge opening 1131 and second discharge opening 1331 counterpoint or dislocation through first casing 110 relative second casing 130 to can control to explode the pearl via the ejection of compact of first discharge opening 1131, second discharge opening 1331 one by one, in order to acquire the pearl that explodes of suitable quantity, the simple operation. Furthermore, carry out the trompil to the cigarette through puncture portion 213, will get into the trompil of acceping the chamber 201 and blow the pearl injection cigarette through discharge opening, feed port 203 through push rod 215, its structure is exquisite portable, and the process of blowing the pearl injection is comparatively convenient.

In the description herein, references to the description of the terms "one embodiment," "some embodiments," or the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Claims (10)

1. A holding box for holding a popping bead, the holding box comprising:

the first shell comprises a panel and a first side wall connected with the panel, and the first side wall is provided with a first discharge hole in a penetrating manner;

the second shell comprises a bottom wall and a second side wall connected with the bottom wall, and a second discharge hole is formed in the second side wall in a penetrating mode; the second shell covers the first shell, the first side wall is opposite to the second side wall, and the first shell can rotate relative to the second shell to align or dislocate the first discharging hole and the second discharging hole.

2. The receiving box of claim 1, wherein the second housing defines a guide slot therein, and the first side wall is movably received in the guide slot.

3. The pod of claim 2, further comprising a transition piece, the transition piece having a transition hole; the transition piece is connected to the bottom wall and spaced from the second side wall, the transition piece and the second side wall jointly form the guide groove, and the first side wall is movably accommodated in the guide groove and selectively moves to the first discharge hole and the transition hole to be aligned or dislocated.

4. The receiving box of claim 3, wherein the transition hole is offset from the second outfeed hole.

5. The pod of claim 3, further comprising a stop portion coupled between the transition piece and the second sidewall; when the first side wall moves relative to the guide groove, the limiting part limits the moving stroke of the first side wall.

6. The receiving box according to claim 5, further comprising an elastic member disposed between the limiting portion and the first sidewall.

7. The receiving box of claim 2, wherein the guiding groove is a groove formed in the bottom wall.

8. The receiving box of claim 1, wherein the first side wall, the panel and the bottom wall collectively form a receiving cavity; the accommodating box is also internally provided with a spacing part which divides the accommodating cavity into an explosive bead area for accommodating explosive beads and a drying area for accommodating drying agents, and the explosive bead area is communicated with the first discharge hole.

9. The receiving box according to any one of claims 1 to 8, further comprising a toggle member connected to a side of the panel facing away from the first side wall, the toggle member protruding relative to a surface of the panel.

10. A pop-bead injection device, comprising:

the receiving box according to any one of claims 1 to 9; and

a pushing mechanism, the pushing mechanism comprising:

the pipe body is connected to the accommodating box, an accommodating cavity is formed in the pipe body, a feed hole communicated with the accommodating cavity is formed in the pipe wall of the pipe body, and the feed hole is communicated with the second discharge hole oppositely;

a puncture part connected to the tube body; and

the push rod is movably contained in the containing cavity and can move relative to the pipe body.

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