CN211558797U - Explode pearl impeller and explode pearl implantation device - Google Patents

Abstract

The application provides a device is implanted to explode pearl impeller and explode pearl, explodes the pearl impeller and includes body, puncture portion, push rod and promotion portion, and the body includes the pipe wall, and the chamber is acceptd in the formation limited formation of pipe wall, and puncture portion sets up in the body, and the push rod sets up in acceping the chamber, and the promotion position is located outside acceping the chamber, and promotion portion and push rod are connected, the direction of motion of promotion portion and the axial direction parallel of body. The application provides a puncture portion that explodes pearl impeller and explode pearl implantation device is used for acceping the chamber and be used for placing the pearl that explodes for the filter tip trompil of cigarette, and the cigarette after the trompil is installed in acceping the chamber, and the completion explodes the pearl through promoting the push rod and implants in will exploding the cigarette after the pearl impels the trompil, and the structure is exquisite, conveniently carries.

Description

Explode pearl impeller and explode pearl implantation device

Technical Field

The application relates to the technical field of tobacco flavor adjustment, in particular to an exploded bead pusher and an exploded bead implanting device.

Background

The puffing bead as a tobacco additive contains spice, and a user uses the puffing bead pusher to embed the puffing bead into a filter tip of a cigarette and then uses the puffing bead, so that the taste of the user can be enriched. However, the existing blasting ball pusher is too large in volume and inconvenient to carry.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an explodes pearl impeller and explodes pearl implantation device to solve above-mentioned technical problem.

The embodiment of the application realizes the aim through the following technical scheme.

According to a first aspect, the embodiment of the application provides an explosion ball pusher, the explosion ball pusher comprises a tube body, a puncture part, a push rod and a pushing part, the tube body comprises a tube wall, a cavity is formed in the tube wall in a limiting mode, the puncture part is arranged on the tube body, the push rod is arranged in the cavity, the pushing part is located outside the cavity, the pushing part is connected with the push rod, and the moving direction of the pushing part is parallel to the axial direction of the tube body.

In some embodiments, the pushing portion includes a shifting member and a connecting member, the shifting member is disposed on the tube wall, the connecting member connects the shifting member and pushes the shifting member, and the shifting member drives the push rod to move through the connecting member.

In some embodiments, the bead blasting unit further includes an elastic member, the elastic member is sleeved on the push rod, one end of the elastic member abuts against the push rod, and the other end of the elastic member abuts against the tube wall.

In some embodiments, the tube wall defines a receiving cavity spaced apart from the receiving cavity, and the puncturing portion is located in the receiving cavity.

In some embodiments, the central axis of the receiving cavity and the central axis of the receiving cavity coincide or are parallel.

In some embodiments, the tube body is further provided with a first opening and a second opening, the first opening is communicated with the accommodating cavity, the second opening is communicated with the accommodating cavity, and the first opening and the second opening are located on the same surface of the tube body or located on two surfaces of the tube body opposite to each other.

In some embodiments, the tube wall defines a ball passage extending through the tube wall and communicating with the receiving cavity.

In some embodiments, the tube body includes a main body and a sleeve, the accommodating cavity is formed in the main body, the accommodating cavities are respectively formed in the main body and the sleeve, the sleeve is provided with a communication port, the communication port is communicated with the accommodating cavity, the sleeve is movably arranged in the main body, and the sleeve can selectively move relative to the main body until the communication port is aligned with or dislocated with the ball passage.

In some embodiments, the tube includes a first position-limiting portion and a second position-limiting portion, the first position-limiting portion is disposed on the main body, the second position-limiting portion is disposed on the sleeve, and the first position-limiting portion and the second position-limiting portion cooperate with each other to limit a limit position of the sleeve relative to the main body.

In a second aspect, an embodiment of the present application provides an explosive bead implanting device, which includes the explosive bead pusher and the explosive bead accommodating box of any of the above embodiments, wherein the explosive bead accommodating box is connected to the explosive bead pusher.

The application provides a puncture portion that explodes pearl impeller and explode pearl implantation device is used for acceping the chamber and be used for placing the pearl that explodes for the filter tip trompil of cigarette, and the cigarette after the trompil is installed in acceping the chamber, and the completion explodes the pearl through promoting the push rod and implants in will exploding the cigarette after the pearl impels the trompil, and the structure is exquisite, conveniently carries.

Drawings

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

Fig. 1 is a schematic structural diagram of an explosion ball pusher provided in an embodiment of the present application.

FIG. 2 is a schematic cross-sectional view of the popping bulb driver of FIG. 1 taken along line II-II.

Fig. 3 is a schematic structural diagram of an explosion ball pusher according to another embodiment of the present application.

FIG. 4 is an exploded view of the shot pusher of FIG. 1.

FIG. 5 is an exploded view of the shot pusher of FIG. 3.

FIG. 6 is a schematic cross-sectional view of the puff pusher of FIG. 1 as a cigarette opening.

FIG. 7 is a schematic cross-sectional view of the popping bulb pusher of FIG. 1 with a popped bead and a cigarette loaded therein.

FIG. 8 is a schematic cross-sectional view of the puff pusher of FIG. 1 pushing a puff into a cigarette.

FIG. 9 is a schematic cross-sectional view of the shot pusher of FIG. 3 taken along line IX-IX.

FIG. 10 is a schematic cross-sectional view of a shot pusher according to another embodiment of the present application.

FIG. 11 is an exploded view of a booster according to another embodiment of the present application.

Fig. 12 is a schematic structural view of the communication port of the shot blasting machine of fig. 1 facing the ball passage.

FIG. 13 is a schematic view of the communication port and ball passage in the shot blasting apparatus of FIG. 1 being misaligned.

FIG. 14 is a schematic view of the communication port of the shot blasting machine of FIG. 3 facing the ball passage.

FIG. 15 is a schematic view of the communication port and ball channel in the shot blasting apparatus of FIG. 3 being misaligned.

Fig. 16 is a schematic structural view of a communication port of a ball blasting unit facing a ball passage according to another embodiment of the present application.

Fig. 17 is a schematic structural view of a communication port of a ball blasting unit facing a ball passage according to another embodiment of the present application.

Fig. 18 is a schematic structural diagram of a bead blasting implantation device provided in an embodiment of the present application.

Fig. 19 is a schematic structural diagram of a device for implanting a burst bead according to another embodiment of the present disclosure.

FIG. 20 is a cross-sectional schematic view of the burst bead implantation device of FIG. 18.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1 and 2, an embodiment of the present application provides an explosive cartridge 100, where the explosive cartridge 100 includes a tube 10, a piercing part 20, a push rod 30 and a pushing part 40, the tube 10 includes a tube wall 11, the tube wall 11 defines an accommodation cavity 12, the piercing part 20 is disposed in the tube 10, the push rod 30 is disposed in the accommodation cavity 12, the pushing part 40 is located outside the accommodation cavity 12, the pushing part 40 is connected to the push rod 30, and a moving direction of the pushing part 40 is parallel to an axial direction of the tube 10.

The tubular body 10 is generally irregularly elongated and may be cylindrical as shown in fig. 1 or 3. In other embodiments, the tube 10 may be cubic, prismatic, etc. The tube wall 11 encloses a containing cavity 12, and the containing cavity 12 can be divided into a first containing section 120, a second containing section 121 and a third containing section 122 which are sequentially communicated. The first receiving section 120 is used for receiving the push rod 30. The second accommodating section 121 is used for accommodating the exploding bead 500 (fig. 5), and the radius of the second accommodating section 121 is approximately the same as or slightly larger than the size of the exploding bead 500. The length of the second accommodating section 121 can be set according to actual requirements, so that the second accommodating section 121 is configured to accommodate one or more than one popping beads 500, so as to implant a plurality of popping beads 500 into the cigarette 400 at one time.

The third containing section 122 is used for containing the cigarette 400, the radius of the third containing section 122 is slightly smaller than that of the cigarette 400, the cigarette 400 can be contained in the third containing section 122 because the filter tip of the cigarette 400 is soft and slightly elastic, and after the cigarette 400 is contained in the containing cavity 13, the filter tip of the cigarette 400 is abutted against the tube wall 11, so that the cigarette 400 is not easy to slide out of the containing cavity 12. In addition, the radius of the third housing section 122 is larger than that of the second housing section 121, and after the user loads the filter end of the cigarette 400 into the third housing section 122, the second housing section 121 blocks the cigarette 400 from further extending into the housing, so that the user knows that the cigarette 400 is loaded into the housing.

The puncturing part 20 is cylindrical, the end part thereof is tapered to form a tip, and the puncturing part 20 can protrude out of the tube 10 or can be contained in the cavity of the tube 10.

The push rod 30 has a cylindrical shape, and in the initial position, the push rod 30 is completely located in the first housing section 120 or slightly protrudes to the second housing section 121. The pushing portion 40 is exposed out of the tube 10, and the pushing portion 40 is connected to the push rod 30 for driving the push rod 30 to move in the accommodating cavity 12. The pushing part 40 and the push rod 30 can be two independent components, and the pushing part 40 and the push rod 30 can be formed into an integral structure by gluing in the process of assembling the explosion ball pusher 100. In other embodiments, the pushing portion 40 and the pushing rod 30 may be integrally formed by a mold.

Referring to fig. 4 and 5, the tube 10 may include a first tube case 101 and a second tube case 102, a slot (not shown) is formed on a sidewall of the first tube case 101, and a corresponding protruding rib is formed on a sidewall of the second tube case 103, and the protruding rib can be locked in the slot to detachably connect the first tube case 101 and the second tube case 102. When assembling the explosion ball pusher 100, the pushing portion 40 and the push rod 30 are first mounted in the first housing section 120, and then the second cartridge 102 is engaged with the first cartridge 101.

In use, as shown in figure 6, the pointed end of the piercing section 20 is used to perforate the filter of the cigarette 400, the second housing section 121 is used to house the bead 500, and then, as shown in figure 7, the perforated cigarette 400 is mounted in the third housing section 122; as shown in fig. 8, the pushing portion 40 is exposed from the tube 10, a user pulls the pushing portion 40 to move the pushing portion 40 relative to the tube 10 and drive the pushing rod 30 to move, the pushing rod 30 moves along the tube wall 11 enclosing the accommodating cavity 12 under the driving of the pushing portion 40, the moving directions of the pushing rod 30 and the pushing portion 40 are parallel to the axial direction of the accommodating cavity 12, the pushing rod 30 can move from the first accommodating section 120 to the third accommodating section 122, and since the popping beads 500 are located between the pushing rod 30 and the cigarette 400, the pushing rod 30 can push the popping beads 500 into the filter of the cigarette 400 during the movement of the pushing rod 30 toward the cigarette 400; when the push rod 30 is withdrawn from the hole of the filter of the cigarette 400, the popping beads 500 can be caught in the hole without slipping out of the filter due to the soft and slightly elastic filter of the cigarette 400, and at this time, the user can take out the cigarette 400 implanted with the popping beads 500 from the housing chamber 12 and use it.

In the bead blasting pusher 100 of the embodiment of the application, the puncturing part 20 is used for opening the filter of the cigarette 400, the accommodating cavity 12 is used for placing the bead blasting 500, the cigarette 400 after opening the filter is installed in the accommodating cavity 12, the bead blasting 500 is pushed into the cigarette 400 after opening the filter by pushing the push rod 30 to implant the bead blasting 500, and the bead blasting pusher is exquisite in structure and convenient to carry.

The pushing portion 40 includes a shifting member 41 and a connecting member 42 connected to each other, the shifting member 41 is disposed on the tube wall 11, the connecting member 42 is connected to the shifting member 41, and the shifting member 41 drives the push rod 30 to move through the connecting member 42.

The surface of the toggle part 41 is provided with a plurality of protrusions 410 which are arranged at intervals, and when a user triggers the toggle part 41, the protrusions 410 can increase the contact area between the user and the toggle part 41, so as to facilitate the toggle operation of the user.

The receiving cavity 12 forms an opening 110 on the tube wall 11, the opening 110 directly communicates with the first receiving section 120 and the exterior of the tube 10, and the connecting member 42 passes through the opening 100. During the movement of the pushing portion 40, the connecting member 42 abuts against the tube wall 11 enclosing the opening 100 to define a limit position of the movement of the pushing rod 30, for example, the structure shown in fig. 2 is described, referring to fig. 8, when the connecting member 42 abuts against the first opening tube wall 112, the pushing rod 30 is located at the first limit position extending into the third receiving section 122; referring to fig. 7, when the connecting member 42 abuts against the second opening tube wall 111, the position of the push rod 30 is retracted to the second limit position in the first accommodating section 120.

The bead blasting pusher 100 further includes an elastic member 50, the elastic member 50 is sleeved on the push rod 30, one end of the elastic member 50 abuts against the push rod 30, and the other end of the elastic member 50 abuts against the tube wall 11.

The elastic member 50 is used for providing an elastic force to the push rod 30, so that the push rod 30 can move back from the first limit position to the second limit position after pushing the popping bead 500 into the cigarette 400, so that the push rod 30 can return to the initial position without manual dialing back operation by a user, thereby reducing the operation steps of the user and improving the operability of the popping bead pusher 100.

The elastic member 50 may be a compression spring, a tension spring, or other types of springs, in this embodiment, the elastic member 50 is a compression spring, and when the push rod 30 is located at the first limit position, the elastic member 50 may be in an original state or a micro-pressure state; when the push rod 30 moves from the first limit position to the second limit position, the pressure degree of the elastic member 50 is gradually increased, and when the push rod 30 moves to the second limit position, the state of the maximum pressure degree is achieved; when the push rod 30 moves from the second limit position to the first limit position, the pressure of the elastic member 50 gradually decreases, and returns to the original state or the micro-pressure state when the push rod 30 moves to the first limit position.

The tube wall 11 defines an accommodating cavity 13, the accommodating cavity 13 (fig. 2) is spaced from the accommodating cavity 12, the accommodating cavity 13 and the accommodating cavity 12 can be respectively located on two opposite sides of the tube body 11, and the puncturing part 20 is located in the accommodating cavity 13. Since the piercing part 20 has a sharp tip, the piercing part 20 may be accidentally touched and punctured when the user carries or uses the bead breaking pusher 100, and the piercing part 20 is accommodated in the accommodating chamber 13 in this embodiment, so that the risk of the piercing part 20 to the user can be avoided.

The housing cavity 13 is formed in a shape adapted to the shape of the filter of the cigarette 400, and the main body of the puncturing part 20 is cylindrical, so that after the filter of the cigarette 400 is mounted in the housing cavity 13 and is perforated by the puncturing part 20, a user can grip the cigarette 400 with the puncturing part 20 as a rotating shaft and rotate the cigarette 400 relative to the puncturing part 20 for several turns, thereby facilitating the formation of the filter of the cigarette 400.

The central axis 130 of the receiving cavity 13 and the central axis 123 of the receiving cavity 12 coincide, as shown in fig. 2. In other embodiments, as shown in fig. 9 and 10, the central axis 130 of the accommodating chamber 13 and the central axis 123 of the accommodating chamber 12 are parallel.

Referring to fig. 3, the tube 10 further has a first opening 14 and a second opening 15, the first opening 14 is an opening of the accommodating cavity 13, the second opening 15 is an opening of the accommodating cavity 12, and the first opening 14 and the second opening 15 are located on the same surface of the tube 10. The user can put the cigarette 400 into the accommodating cavity 13 from the first opening 14 for drilling, and then put the cigarette 400 into the accommodating cavity 12 from the second opening 15 for bead blasting 500 implantation, because the first opening 14 and the second opening 15 are located on the same surface, the cigarette 400 can be installed in the accommodating cavity 12 without moving too long distance after being drilled through the puncturing part 20. In other embodiments, as shown in fig. 1, the first opening 14 and the second opening 15 are respectively located on two opposite surfaces of the tube 10.

Referring to fig. 3, the tube wall 11 defines a ball passage 16, and the ball passage 16 extends through the tube wall 11 and communicates with the receiving cavity 12.

Generally, when a user needs to implant a plurality of popping beads 500 into the same cigarette 400 and is limited that the containing cavity 12 cannot contain a corresponding number of popping beads 500 at the same time, the user needs to perform the popping bead implanting operation for a plurality of times, that is, after each time of implanting a popping bead 500, the user takes out the cigarette 400 from the containing cavity 12, adds the next popping bead 500 into the containing cavity 12, and then reinstalls the cigarette 400 into the containing cavity 12 and continues to implant the popping bead 500, and the operation is repeated so as to implant a plurality of popping beads 500 into the same cigarette 400. In the embodiment, by arranging the ball passage 16 and making the popping beads 500 fall into the accommodating cavity 12 through the ball passage 16, since the path of the popping beads 500 entering the second accommodating section 121 does not need to pass through the third accommodating section 122, the user does not need to repeatedly take out and put in the cigarette 400 in the process of implanting a plurality of popping beads 500 into the cigarette 400, so that the operation steps of the user can be reduced, and the efficiency of implanting a plurality of popping beads 500 by the user can be improved.

Referring to fig. 12 to 15, the tubular body 10 includes a main body 17 and a sleeve 18, the main body 17 is substantially rectangular or cylindrical, the sleeve 18 is substantially cylindrical, and the main body 17 and the sleeve 18 can move relatively. The accommodating cavity 13 is formed in the main body 17, the accommodating cavities 12 are respectively formed in the main body 17 and the sleeve 18, the sleeve 18 is provided with a communication port 182, the communication port 182 is communicated with the accommodating cavities 12, the sleeve 18 is rotatably arranged in the main body 17, and the sleeve 18 can be selectively rotated relative to the main body 17 until the communication port 182 is opposite to or dislocated with the ball passage 16.

The outer contour of the sleeve 18 may be cylindrical, elliptic cylindrical or prismatic, and when the sleeve 18 is protruded from the main body 17, the portion of the outer contour of the sleeve 18 connected to the main body 17 is cylindrical, and the other portion of the outer contour of the sleeve 18 may be cylindrical or other shapes. When the sleeve 18 is completely fitted to the main body 17, the outer profile of the sleeve 18 is cylindrical. In this embodiment, the sleeve 18 has a cylindrical outer profile to facilitate rotation of the sleeve 18 relative to the body 10. The second housing section 121 and the third housing section 122 are located in the sleeve 18, and the communication port 182 directly communicates with the second housing section 121.

When the explosive cartridge is used, a user can firstly rotate the sleeve 18 relative to the main body 17 until the communication port 182 is opposite to the ball passage 16 (shown in fig. 12 or fig. 14), the explosive cartridge 500 positioned in the ball passage 16 enters the second accommodating section 121 through the communication port 182, and the second accommodating section 121 can only accommodate one explosive cartridge 500 because the radial dimension of the second accommodating section 121 is slightly larger than that of the explosive cartridge 500; after the popped ball 500 falls into the second housing section 121, the user can rotate the sleeve 18 relative to the main body 17 until the communication opening 182 is misaligned with the ball passage 16 (shown in fig. 13 or fig. 15), so that the popped ball 500 of the second housing section 121 cannot fall into the ball passage 16 from the communication opening 182; finally, the user can push the pushing part 40 again, so that the pushing rod 30 can push one popping bead 500 into the cigarette 400 at a time. Further, when the push rod 30 returns to the second limit position, the communication port 182 is displaced from the ball passage 16, and the popped ball 500 in the ball passage 16 does not fall into the housing chamber 12 through the communication port 182.

When the sleeve 18 is mostly embedded in the main body 17, as shown in fig. 15, the tube 10 further includes a boss 19 disposed on the sleeve 18, the boss 19 is located outside the receiving cavity 12, and a user can move the boss 19 to facilitate the rotation of the sleeve 18 relative to the main body 17.

Referring to fig. 12, the tube 10 includes a first position-limiting portion 171 and a second position-limiting portion 181, the first position-limiting portion 171 is disposed on the main body 17, the second position-limiting portion 181 is disposed on the sleeve 18, and the first position-limiting portion 171 and the second position-limiting portion 181 cooperate with each other to limit a limit position of the sleeve 18 relative to the main body 17.

The limit position of the sleeve 18 rotating relative to the main body 17 may be set to be the position where the communication port 182 is over against the ball passage 16, so that the user can know that the communication port 182 is over against the ball passage 16 when rotating to the limit position, and the user does not need to spend too much time to perform the alignment operation, which can improve the convenience and efficiency of the user operation. For example, as shown in fig. 12 and 14, when the sleeve 18 rotates relative to the main body 17 until the first stopper 171 and the second stopper 181 abut against each other, the position of the sleeve 18 is an extreme position in which the communication port 182 faces the ball passage 16.

The first limiting portion 171 and the second limiting portion 181 may be matched by a limiting block and a limiting groove, or by a limiting block and a limiting block. For example, as shown in fig. 12 and 13, the first limiting portion 171 is a limiting block, and the second limiting portion 181 is a limiting block. As shown in fig. 14 and 15, the first position-limiting portion 171 is a position-limiting groove, and the second position-limiting portion 181 is a position-limiting block.

In some embodiments, referring to fig. 16 and 17, the sleeve 18 is movably disposed on the main body 17, and the sleeve 18 is selectively movable relative to the main body 17 until the communication port 182 is aligned with or misaligned with the ball passage 16. The direction in which the sleeve 18 moves relative to the body 17 is parallel to the direction in which the push portion 40 pushes the push rod 30 to move. The sleeve 18 may include a boss 19, and the boss 19 is exposed from the body 17 to facilitate the user to move by pushing the boss 19 and driving the sleeve 18 to move relative to the body 17. The boss 19 may have the same structure as the push portion 40.

During use, a user can firstly move the sleeve 18 relative to the main body 17 until the communication port 182 is opposite to the ball channel 16 (shown in fig. 16), after the exploded bead 500 located in the ball channel 16 enters the second accommodating section 121 through the communication port 182, the user can reversely move the sleeve 18 relative to the main body 17 until the communication port 182 is staggered with the ball channel 16 (shown in fig. 17), so that the exploded bead 500 of the second accommodating section 121 cannot fall into the ball channel 16 from the communication port 182, and meanwhile, the sleeve 18 is gradually close to the push rod 30 in the process of reversely moving relative to the main body 17, so that the user can push the exploded bead 500 into the cigarette 400 without pushing the push rod 30, and the efficiency of the user in operating the exploded bead pusher 100 is improved.

Referring to fig. 18 and 19, an embodiment of the present application provides an explosion bead implanting apparatus 300, the explosion bead implanting apparatus 300 includes the explosion bead driver 100 and the explosion bead accommodating case 200 of any of the above embodiments, and the explosion bead driver 100 is connected to the explosion bead driver 100.

In the device 300 is implanted to the pearl of this application embodiment, explode the pearl and hold box 200 and be used for depositing and explode pearl 500, the user just can make the cigarette that explodes the pearl according to above-mentioned operation, need not to carry the cigarette 400 of multiple different grade type, can alleviate the burden that the user carried cigarette 400.

The cartridge 200 is used to store the blasting beads 500 and to provide the blasting beads 500 to the blasting bead pusher 100. The cartridge 200 and the cartridge pusher 100 may be an integral structure, for example, the tube 10 of the cartridge 200 and the cartridge pusher 100 is formed by a mold; or the cartridge 200 and the cartridge pusher 100 may be two separate parts, which are integrated by gluing; alternatively, the cartridge 200 and the cartridge pusher 100 may be two separate components, which are detachably connected, for example, the cartridge 200 and the cartridge pusher 100 are connected by a screw, a snap, or the like.

The cartridge 200 is an injection-molded part, the cartridge 200 can be made of polycarbonate, and the light transmittance of the cartridge 200 made of polycarbonate is good, so that a user can observe the remaining amount of the cartridge 200 without disassembling the cartridge 200, and the user can determine whether to supplement the cartridge 500 to the cartridge 200 according to the remaining amount.

Referring to fig. 18 and 19, the cartridge 200 includes a case 201 and a cap 202, the case 201 and the first housing 101 are formed as an integral structure, and the cap 202 and the second housing 102 are formed as another integral structure, which are detachably connected, for example, by interference fit through a shaft hole. For example, referring to fig. 20, the box 201 is provided with four mounting cylinders 203, and the four mounting cylinders 203 are distributed along the side wall of the box 201; the box cover 202 is provided with mounting columns 204, the radius of each mounting column 204 is slightly larger than the inner diameter of each mounting cylinder 203, the number of the mounting columns 204 is the same as that of the mounting cylinders 203, the positions of the four mounting columns 204 correspond to those of the four mounting cylinders 203 one by one, and the mounting columns 204 and the mounting cylinders 203 are in interference fit to realize connection of the two integrated structures.

The bead blasting accommodating box 200 is provided with a bead blasting outlet 205, and the bead blasting 500 in the bead blasting accommodating box 200 enters the pipe body 10 through the bead blasting outlet 205. The box body 201 is provided with a guide plate 206, the guide plate 206 includes a first plate body (not shown) and a second plate body (not shown) connected to each other, the first plate body is disposed at the bead blasting outlet 205 and parallel to the central axis of the bead blasting outlet 205, and the second plate body extends from one end of the first plate body away from the bead blasting outlet 205 and is perpendicular to the first plate body.

The explosive bead accommodating box 200 is also internally provided with a partition plate 207, the partition plate 207 encloses an accommodating space 2070, the accommodating space 2070 is used for accommodating a drying agent, and the drying agent can adsorb moisture of air in the explosive bead accommodating box 200 and prevent the explosive bead 500 from being affected with damp; while the desiccant is spaced from the squib 500 by the spacer 207 so as not to block the path of the squib 500 rolling towards the squib outlet 205.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (10)

1. An explosion bead pusher, comprising:

the pipe body comprises a pipe wall, and the pipe wall defines a containing cavity;

a puncture portion provided to the tube body;

the push rod is arranged in the accommodating cavity; and

the pushing part is located outside the containing cavity and connected with the push rod, and the moving direction of the pushing part is parallel to the axial direction of the pipe body.

2. The shot blasting unit of claim 1, wherein the pushing portion comprises a stirring member and a connecting member connected with each other, the stirring member is disposed on the tube wall, the connecting member connects the stirring member with the pushing portion, and the stirring member drives the push rod to move through the connecting member.

3. The bead blasting unit of claim 1, further comprising an elastic member, wherein the elastic member is sleeved on the push rod, one end of the elastic member abuts against the push rod, and the other end of the elastic member abuts against the tube wall.

4. The booster of claim 1 wherein said tube wall defines a containment cavity spaced from said containment cavity, said piercing portion being located in said containment cavity.

5. A booster according to claim 4 characterised in that the central axis of the containment chamber and the central axis of the containment chamber are coincident or parallel.

6. The bead blasting pusher according to claim 4, wherein the tube further has a first opening and a second opening, the first opening is in communication with the accommodating cavity, the second opening is in communication with the accommodating cavity, and the first opening and the second opening are located on the same surface of the tube or on two opposite surfaces of the tube respectively.

7. The booster of claim 4 wherein the tube wall defines a ball passage extending through the tube wall and communicating with the housing cavity.

8. The shot blasting apparatus as claimed in claim 7, wherein said tubular body comprises a main body and a sleeve, said receiving cavities are formed in said main body and said sleeve, respectively, said sleeve is provided with a communication port, said communication port is communicated with said receiving cavities, said sleeve is movably disposed in said main body, said sleeve is selectively movable relative to said main body until said communication port is aligned with or misaligned with said ball passage.

9. The shot pusher of claim 8, wherein the tube includes a first stop portion and a second stop portion, the first stop portion being disposed on the body, the second stop portion being disposed on the sleeve, the first stop portion and the second stop portion cooperating to define a limit position of the sleeve relative to the body for rotation.

10. A pop-bead implantation device, comprising:

the booster of any one of claims 1 to 9; and

and the bead blasting accommodating box is connected with the bead blasting pusher.

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