CN211558790U - 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, explode the pearl impeller and include the body, puncture portion and push rod, the body is equipped with inner channel, puncture portion sets up in inner channel, puncture portion includes point portion and afterbody, puncture portion includes first puncture body and second puncture body, first puncture body and the fit in order to form point portion of second puncture body, first puncture body and the inseparable each other of second puncture body, the push rod is located the afterbody, and have the degree of freedom of following the first direction motion and the degree of freedom of following the second direction motion, wherein, first direction is from afterbody to point portion, the second direction is opposite with first direction. In the application provides a explode pearl impeller and explode pearl implantation device for the trompil operation of cigarette and explode pearl implantation operation all go on in same inside passage, avoided the cigarette because of the order reversal that packs into the operation passageway and lead to the condition of operation failure.

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 related art popping ball pusher is provided with two operation passages, one of which is a cigarette opening and the other of which is a cigarette implanted with a popped ball after the opening, however, a user may reverse the order of loading the cigarettes into the operation passages during the operation, resulting in a failure of the operation.

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.

In a first aspect, the present application provides an explosion ball pusher, the explosion ball pusher includes a tube body, a piercing part and a push rod, the tube body is provided with an internal channel, the piercing part is disposed in the internal channel, the piercing part includes a tip portion and a tail portion, the piercing part includes a first piercing body and a second piercing body, the first piercing body and the second piercing body are combined to form the tip portion, the first piercing body and the second piercing body can be separated from each other, the push rod is located at the tail portion, and has a degree of freedom moving along a first direction and a degree of freedom moving along a second direction, wherein the first direction is from the tail portion to the tip portion, and the second direction is opposite to the first direction.

In some embodiments, the first piercing body is secured to the body and the second piercing body is rotatably coupled to the body, the second piercing body being selectively rotatable with respect to the body into and out of engagement with the first piercing body.

In some embodiments, the bead blasting apparatus further comprises a link rotatably disposed in the tube, and the second piercing body is rotatably connected to the tube via the link.

In some embodiments, the bead blasting pusher further comprises a linkage mechanism respectively connected with the push rod and the second puncture body to drive the push rod to move in the inner channel and drive the second puncture body to be combined with and separated from the first puncture body.

In some embodiments, the linkage mechanism comprises a first gear rack, a second gear rack and a transition gear, the first gear rack is connected with the second puncture body and drives the second puncture body to rotate relative to the first puncture body, the second gear rack is connected with the push rod and drives the push rod to move, and the transition gear is in meshing transmission with the first gear rack and the second gear rack respectively.

In some embodiments, the first gear rack is provided with a through hole, and the second puncturing body comprises a connecting rod, wherein the connecting rod protrudes out of the internal channel and is clamped in the through hole.

In some embodiments, the direction of movement of the first gear rack relative to the body is perpendicular to the direction of movement of the second gear rack relative to the body.

In some embodiments, the tube body includes a tube wall, the tube wall further having a bead bursting channel extending through the tube wall and communicating with the internal channel.

In some embodiments, the bead blasting apparatus further comprises an elastic member, and the elastic member is sleeved on the push rod.

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 an among explode pearl impeller and explode pearl implantation device, puncture part and push rod set up at same inside passage, inside passage is used for packing into cigarette and explode the pearl, first puncture body and the body complex of second puncture are for the filter tip trompil of cigarette with forming sharp portion, and after the trompil alternate segregation so that the push rod moves towards the first direction with exploding in the cigarette behind the pearl propulsion trompil, make the trompil operation of cigarette and explode the pearl implant operation all go on in same inside passage, avoided the cigarette because of the order reversal of packing into operation channel and lead to the condition of operation failure.

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 an exploded schematic view of the shot pusher of FIG. 1.

FIG. 3 is a schematic view of the alternative view of the popping bulb driver of FIG. 1.

FIG. 4 is a schematic cross-sectional view of the shot pusher of FIG. 3 taken along line IV-IV.

FIG. 5 is a schematic view of a puff pusher incorporating a cigarette and a puff bead provided in accordance with an embodiment of the present application.

FIG. 6 is a schematic view of a puff pusher for pushing a puff into a cigarette according to an embodiment of the present disclosure.

Fig. 7 is a schematic diagram of the explosion ball pusher according to the embodiment of the present application for completing the explosion ball implantation operation.

Fig. 8 is a schematic structural diagram of a bead blasting implantation device provided in an embodiment of the present application.

Fig. 9 is a schematic structural view from another perspective of the pop-bead implant device of fig. 8.

FIG. 10 is a schematic cross-sectional view of the blasting bead implantation device of FIG. 9 taken along line X-X.

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.

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.

Referring to fig. 1, the present embodiment provides a bead blasting cartridge 100, and the bead blasting cartridge 100 is used for implanting beads in a cigarette. The bead blasting machine 100 is used for facilitating users to manufacture common cigarettes into bead blasting cigarettes at any time according to self requirements to use the bead blasting machine.

Referring to fig. 2, the bead blasting pusher 100 includes a tube 10, a piercing part 20 and a pushing rod 30, the piercing part 20 and the pushing rod 30 are both disposed in the tube 10, the tube 10 is used for loading cigarettes and bead blasting, the piercing part 20 is used for perforating the cigarettes, and the pushing rod 30 is used for pushing the bead blasting into the cigarettes after perforation.

The tube 10 may have a rectangular, cylindrical, prismatic or other irregular rod-like structure. The tube 10 is provided with an inner passage 11, the inner passage 11 can be divided into a first accommodating section 110 and a second accommodating section 111, the first accommodating section 110 and the second accommodating section 111 are sequentially communicated and distributed along the axial direction of the tube 10, the first accommodating section 110 is used for accommodating the puncturing part 20, and the second accommodating section 111 is used for accommodating the push rod 30. The first receiving section 110 extends through one of the end faces of the tube 10 to facilitate loading of cigarettes and popped beads into the internal passageway 11 by a user. The radius of the first receiving section 110 may be slightly smaller than the radius of the cigarette, the cigarette can be loaded into the first receiving section 110 because the filter tip of the cigarette is soft and slightly elastic, and after the cigarette is loaded into the first receiving section 110, the filter tip of the cigarette is abutted against the side wall of the tube 10, so that the cigarette is not easy to slide out of the first receiving section 110.

Referring to fig. 3 and 4, the puncturing portion 20 is located in the first housing section 110. The piercing section 20 comprises a tip 24 and a tail 25, the tip 24 and the tail 25 being distributed in the direction of the second receiving section 111 from the first receiving section 110 in this order, and the tip 24 tapering to a sharp end, so that during the insertion of the cigarette into the inner channel 11, the tip 24 penetrates the cigarette and opens the cigarette 400.

Referring to fig. 5, the puncturing part 20 includes a first puncturing body 21 and a second puncturing body 22, and the first puncturing body 21 and the second puncturing body 22 are both in a sheet-like structure with a wide base and a sharp end, and can be combined with or separated from each other by relative rotation or movement. The outer contour of the piercing part 20 formed by the first piercing member 21 and the second piercing member 22 integrally is substantially cylindrical, which facilitates the formation of a hole in the filter of the cigarette 400 by allowing the user to grip the cigarette with the piercing part 20 as a rotation axis and rotate the cigarette several times with respect to the piercing part 20. In other embodiments, the outer contour of the puncturing part 20 formed by combining the first puncturing member 21 and the second puncturing member 22 may have an elliptic cylindrical or prismatic shape. Fig. 5 shows the first puncture body 21 and the second puncture body 22 in a combined state.

Referring to fig. 6, in the piercing part 20 formed by separating the first piercing body 21 and the second piercing body 22, the first piercing body 21 and the second piercing body 22 are spaced apart from each other and are relatively arched to form a reserve channel 23 therebetween, so that the pushing rod 30 in the subsequent operation pushes the popping bulb 500 into the cigarette 400 after the hole is opened through the reserve channel 23. Fig. 6 shows the first puncture body 21 and the second puncture body 22 in a separated state.

In the present embodiment, the first puncture body 21 and the second puncture body 22 are coupled and decoupled by relative rotation. For example, the first piercing body 21 can be fixed inside the tubular body 10; the second puncture body 22 may further include a rotation shaft (not shown) exposed outside the tube 10 from the first receiving portion 110, and a user may rotate the rotation shaft to drive the second puncture body 22 to rotate relative to the tube 10. Under the drive of the user, the second puncture body 22 can rotate relative to the first puncture body 21 until the sharp ends of the first puncture body 21 and the second puncture body 22 are mutually abutted to be in a combined state. The second puncture body 22 may also be rotated with respect to the first puncture body 21 until the sharp ends of the first puncture body 21 and the second puncture body 22 are spaced apart from each other and form the reserve channel 23 to be in a separated state. In the present embodiment, the initial state of the puncturing part 20 is set to a state in which the first puncturing body 21 and the second puncturing body 22 are combined. In other embodiments, the second puncture body 22 is fixed to the tube 10, and the first puncture body 21 is rotatably connected to the tube 10; or the first puncture body 21 is rotatably connected to the tube 10, the second puncture body 22 is rotatably connected to the tube 10, and the first puncture body 21 and the second puncture body 22 can rotate relatively.

The push rod 30 may have a rectangular rod shape, an elliptical cylinder shape, a prism shape, etc., and in the present embodiment, the main body of the push rod 30 has a cylindrical shape. The push rod 30 is movably disposed within the interior channel 11 and has freedom to move in a first direction from the tail portion 25 to the tip portion 24 and a freedom to move in a second direction opposite the first direction. The push rod 30 may include a protrusion (not shown) exposed from the second receiving section 111 to the outside of the tube 10, and a user may push the protrusion to drive the push rod 30 to move in the first direction and the second direction.

The push rod 30 may be completely accommodated in the second accommodating section 111 in the initial state, or may slightly extend from the second accommodating section 111 to the first accommodating section 110 and be located at the tail portion 25 of the puncturing portion 20. The user can drive the push rod 30 to move, so that the push rod 30 pushes the exploded bead 500 into the cigarette 400 after the hole is opened, as shown in fig. 6, the push rod 30 is in a state of pushing the exploded bead 500 into the cigarette 400 after the hole is opened. Under the push of the user, the push rod 30 can move from the second housing section 111 to the first housing section 110 along the first direction and push the popped bead 500 into the holed cigarette 400 through the reserved channel 23, and after the implantation of the popped bead 500 for the cigarette 400 is completed, the push rod 30 can reversely retract into the second housing section 111 along the second direction.

In the process of using the bead blasting pusher 100, a user may first separate the first puncture body 21 and the second puncture body 22 from each other to form a reserved channel 23, load the bead blasting 500 into the first housing section 110 and slide the bead blasting 500 to the tail 25 of the puncture part 20 through the reserved channel 23, then combine the first puncture body 21 and the second puncture body 22 to form a tip 24, and load the cigarette 400 into the first housing section 110 and make the puncture part 20 pierce the cigarette 400, as shown in fig. 5; the first puncture body 21 and the second puncture body 22 are separated from each other to form an open hole in the cigarette 400, the reserved channel 23 is formed after the first puncture body 21 and the second puncture body 22 are separated, and finally the push rod 30 is driven to move along the first direction, so that the popping beads 500 are pushed into the cigarette 400 after the empty hole is opened along the reserved channel 23, as shown in fig. 6. When the push rod 30 exits the hole of the filter of the cigarette 400, the bead 500 can be stuck in the hole without sliding out of the filter because the filter of the cigarette 400 is soft and slightly elastic, as shown in fig. 7; the user can then remove the cigarette 400 with the popped bead 500 implanted and use it.

In the bead blasting pusher 100 provided by the application, the puncturing part 20 and the pushing rod 30 are arranged in the same internal channel 11, the internal channel 11 is used for loading the cigarette 400 and the bead blasting 500, the first puncturing body 21 and the second puncturing body 22 are combined to form the tip part 24 which is a filter opening of the cigarette 400, and are separated from each other after the opening so that the pushing rod 30 moves towards the first direction to push the bead blasting 500 into the cigarette 400 after the opening, so that the opening operation of the cigarette 400 and the bead blasting 500 implanting operation are both carried out in the same internal channel 11, and the condition that the operation of the cigarette 400 fails due to the fact that the sequence of loading the cigarette 400 into the operation channels is reversed is avoided.

In some embodiments, referring to fig. 2, the first puncturing member 21 is fixed to the tube 10, and the first puncturing member 21 and the tube 10 can be integrally formed by a molding process; or the first puncture body 21 and the tube body 10 are independent parts and fixed to each other by gluing, buckling or the like. The second puncture body 22 is rotatably connected to the tube 10, and the axis of rotation of the second puncture body 22 with respect to the tube 10 may be perpendicular to the center line of the inner passage 11. The rotation shaft of the second puncturing body 22 can be exposed from the first receiving section 110 to the outside of the tube 10, which is helpful for the user to rotate the rotation shaft to rotate the second puncturing body 22 relative to the tube 10 to be combined with the first puncturing body 21 to open the hole of the cigarette 400, and simultaneously, the rotation shaft can also rotate the second puncturing body 22 relative to the tube 10 to be separated from the first puncturing body 21 so as to facilitate the pushing rod 30 to push the popping beads 500 into the cigarette 400 after the hole is opened.

In some embodiments, referring to fig. 2, the first puncture body 21 includes a first tip 210 and a first flat end 211, and the first tip 210 and the first flat end 211 are disposed opposite to each other. The second puncture body 22 includes a second pointed end 220 and a second flat end 221, and the second pointed end 220 is disposed opposite to the second flat end 221. The second pointed end 220 of the second puncture body 22 and the first pointed end 210 of the first puncture body 21 together serve as the tip 24 of the puncture part 20, and the first flat end 211 of the first puncture body 21 and the second flat end 221 of the second puncture body 22 together serve as the tail 25 of the puncture part 20.

Referring to fig. 2 and 4, the shot blasting apparatus 100 further includes a connecting rod 40, the connecting rod 40 is rotatably disposed on the tubular body 10, and the second puncture body 22 is rotatably connected to the tubular body 10 through the connecting rod 40. The connecting rod 40 is bent to form two cylindrical rod bodies, wherein one rod body extends from the tube 10 into the inner channel 11 and is connected to the second flat end 221 of the second puncture body 22, and the other rod body is completely located outside the tube 10, which is helpful for a user to operate the other rod body to rotate the second puncture body 22 relative to the first puncture body 21. The connecting rod 40 and the second puncture body 22 can be integrally formed by a mold; or the connecting rod 40 and the second puncture body 22 are respectively independent parts and are integrated by gluing. In the case where the bead blasting cartridge 100 includes the link 40, the second piercing body 22 may not include a rotating shaft, and the link 40 may be used instead of the rotating shaft to rotate the second piercing body 22 relative to the tubular body 10.

In some embodiments, referring to fig. 4, the tube 10 includes a tube wall 12, the tube wall 12 is provided with a bead blasting channel 120, the bead blasting channel 120 penetrates the tube wall 12 and communicates with the inner channel 11, and the bead blasting channel 120 may be opposite to the first puncture body 21.

Generally, when a user needs to implant a plurality of beads 500 into the same cigarette 400 and is limited that the reserved channel 23 of the puncturing part 20 cannot accommodate a corresponding number of beads 500 at the same time, the user needs to perform the bead 500 implanting operation several times, that is, after each bead 500 is implanted, the cigarette 400 is taken out of the first accommodating section 110, and the next bead 500 is added and placed into the reserved channel 23 of the puncturing part 20, and then the cigarette 400 is re-installed into the first accommodating section 110 and is continuously implanted with the bead 500, and the operation is repeated, so that a plurality of beads 500 can be implanted into the same cigarette 400. In the embodiment, by arranging the bead blasting channel 120 and enabling the bead blasting 500 to directly fall into the surface of the first puncture body 21 through the bead blasting channel 120, the user does not need to repeatedly take out and load the cigarette 400 in the process of implanting a plurality of bead blasting 500 into the cigarette 400, which is helpful for reducing the operation steps of the user and improving the efficiency of implanting a plurality of bead blasting 500 for the user. In addition, the present embodiment facilitates the combination of the bead blasting unit 100 and the bead 500 accommodating box by providing the bead blasting channel 120, and the bead blasting outlet of the bead 500 accommodating box is communicated with the bead blasting channel 120, and directly provides the bead blasting unit 100 with the bead blasting 500.

In some embodiments, referring to fig. 4, the bead blasting unit 100 further includes a linkage mechanism 50, and the linkage mechanism 50 is respectively connected to the second puncture body 22 and the push rod 30 to realize the linkage of the two. For example, the link mechanism 50 drives the push rod 30 to move in the first direction, and drives the first and second puncture bodies 21 and 22 to shift from the integrated state to the separated state; the linkage mechanism 50 can also drive the push rod 30 to move in the second direction and drive the first and second puncturing bodies 21 and 22 to change from the separated state to the combined state. The linkage mechanism 50 is arranged in the embodiment, so that the steps of operating the bead blasting pusher 100 by a user are reduced, and the implantation efficiency of the bead blasting 500 is improved. The linkage mechanism 50 may be linked by a gear and a gear bar, or may be linked by a gear, a gear bar and a worm.

In this embodiment, the linkage mechanism 50 includes a transition gear 51, a first gear rack 52 and a second gear rack 53, the transition gear 51 and the second gear rack 53 are both located in the tube 10, and the first gear rack 52 extends from the tube 10 into the tube 10.

The transition gear 51 is rotatably located in the tube 10, the transition gear 51 may be divided into two gears with different tooth numbers, the two gears are relatively fixed and rotate synchronously, one of the two gears is in meshing transmission with the first gear rack 52, the other gear is in meshing transmission with the second gear rack 53, and the transition gear 51 rotates relative to the tube 10, so that the first gear rack 52 and the second gear rack 53 respectively move relative to the tube 10. The direction of movement of the first gear rack 52 relative to the tubular body 10 is perpendicular to the direction of movement of the second gear rack 53 relative to the tubular body 10, for example the second gear rack 53 moves along the axial direction of the tubular body 10 and the direction of movement of the first gear rack is perpendicular to the axial direction of the tubular body 10.

The first gear rack 52 is an elongated structure. The first gear rack 52 is provided with a through hole, and the connecting rod 40 protrudes out of the inner channel 11 and is clamped in the through hole to realize sliding connection with the first gear rack 52. Since the connecting rod 40 and the second puncturing body 22 are fixedly connected, when the first gear rack 52 moves relative to the tube body 10, the connecting rod 40 and the first gear rack 52 slide relative to each other and the connecting rod 40 rotates relative to the tube body 10, so that the second puncturing body 22 rotates relative to the first puncturing body 21. Further, in the case where the second puncture body 22 includes a rotating shaft, the bead blasting pusher 100 may not include the link 40, and the rotating shaft may be slidably connected to the first gear rack 52 instead of the link 40.

The second gear rack 53 is in a strip structure, and the second gear rack 53 is fixedly connected with the push rod 30. The second gear rack 53 and the push rod 30 may be integrally formed by a mold; or the second rack 53 and the push rod 30 are separate parts, and the two parts are connected by gluing, screwing, or buckling. Since the second gear rack 53 is fixedly connected with the push rod 30, when the second gear rack 53 moves relative to the tube 10, the push rod 30 moves relative to the tube 10 to a corresponding degree.

During the operation of the linkage mechanism 50, since the first gear rack 52 protrudes out of the tubular body 10, the user can operate the first gear rack 52 to move, on one hand, the connecting rod 40 slides relative to the first gear rack 52 and the second puncture body 22 rotates relative to the first puncture body 21, on the other hand, the transition gear 51 rotates and drives the second gear rack 53 to move, and the second gear rack 53 drives the push rod 30 to move in the inner channel 11. Because the gear transmission mode is stable and the transmission precision is high, the smooth linkage between the second puncture body 22 and the push rod 30 is facilitated, and the phenomena of transmission failures such as shell clamping and the like are not easy to occur. In addition, the present embodiment can also control the moving speed of the first gear rack 52 and the second gear rack 53 by adjusting the number of teeth of the two gears, thereby controlling the rotating speed of the second puncturing body 22 and the moving speed of the push rod 30. In the case where the explosion ball pusher 100 includes the second gear rack 53, the push rod 30 may not include a cam portion, and the second gear rack 53 replaces the cam portion to realize the movement of the push rod 30 with respect to the tube 10.

Referring to fig. 4, the bead blasting pusher 100 further includes an elastic member 60, and the elastic member 60 is sleeved on the push rod 30. The elastic member 60 is used to provide an elastic force to the push rod 30, so that the push rod 30 moves in the second direction and retracts into the second housing section 111 after pushing the popping bead 500 into the cigarette 400, so that the user can return the push rod 30 to the initial position without manually performing a retracting operation, which helps to reduce the number of operation steps of the user and improve the operability of the popping bead driver 100.

The elastic member 60 may be a compression spring, a tension spring, or other type of spring, in this embodiment, the elastic member 60 is a compression spring, one end of the elastic member 60 abuts against the push rod 30, and the other end of the elastic member 60 abuts against the tube 10. When the push rod 30 is completely accommodated in the second accommodating section 111, the elastic member 60 may be in an original state or a micro-pressure state; during the movement of the push rod 30 in the first direction, the pressure of the elastic member 60 gradually increases; during the movement of the push rod 30 in the second direction, the pressure of the elastic member 60 is gradually reduced, and the push rod 30 returns to the original state or the micro-pressure state when being completely accommodated in the second accommodating section 111.

Referring to fig. 8, the present embodiment further provides a device 300 for implanting a burst bead, wherein the device 300 includes the burst bead driver 100 and the burst bead accommodating case 200 of any of the above embodiments, and the burst bead driver 100 is connected to the burst bead accommodating case 200.

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; or the cartridge 200 and the cartridge pusher 100 may be two separate parts, which are detachably connected, for example, the cartridge 200 and the cartridge pusher 100 are connected by a screw, a buckle, 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 500 in 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.

In the device 300 for implanting the popped bead according to the embodiment of the present application, the popped bead accommodating box 200 can provide the popped bead 500 for the popped bead pusher 100, the piercing part 20 and the pushing rod 30 are disposed in the same internal passage 11, the internal passage 11 is used for loading the cigarette 400 and the popped bead 500, the first puncture body 21 and the second puncture body 22 are combined to form the tip 24 to be the filter opening of the cigarette 400, and are separated from each other after the opening so that the pushing rod 30 moves in the first direction to push the popped bead 500 into the cigarette 400 after the opening, so that the opening operation of the cigarette 400 and the operation of implanting the popped bead 500 are both performed in the same internal passage 11, and the situation that the operation of the cigarette 400 fails due to the reverse order of loading the operation passages is avoided.

Referring to fig. 9 and 10, the cartridge 200 includes a case 201 and a case cover 202, and the case 201 and the case cover 202 are detachably connected, for example, by an interference fit through a shaft hole. For example, the box body 201 is internally provided with four mounting cylinders 203, and the four mounting cylinders 203 are distributed along the side wall of the box body 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 box body 201 comprises a first box body side wall 2010 and a second box body side wall 2011 which are arranged at intervals, the first box body side wall 2010 is provided with a first bead blasting outlet 2012, the second box body side wall 2011 is provided with a second bead blasting outlet 2013, the second bead blasting outlet 2013 is staggered with the first bead blasting outlet 2012, and the second bead blasting outlet 2013 is communicated with the bead blasting channel 120. The bead blasting accommodating box 200 further comprises a push block 208, the push block 208 is movably arranged between the first box body side wall 2010 and the second box body side wall 2011, the push block 208 is provided with a bead blasting through hole 2080, the bead blasting through hole 2080 is set to be only capable of accommodating one bead blasting 500, the push block 208 can selectively move relative to the box body until the bead blasting through hole 2080 is just opposite to the first bead blasting outlet 2012 or the second bead blasting outlet 2013, and the push block 208 is exposed out of the box body 201 so as to facilitate pushing operation of a user.

When a user needs to add the bead blasting driver 100 with the bead blasting 500, the user can move the push block 208 relative to the box body 201 until the bead blasting through hole 2080 faces the first bead blasting outlet 2012, and at the moment, the bead blasting 500 falls into the bead blasting through hole 2080 from the first bead blasting outlet 2012; then, the user moves the push block 208 relative to the box body 201 until the bead blasting through hole 2080 is opposite to the second bead blasting outlet 2013, and at the moment, the bead blasting 500 falls into the second bead blasting outlet 2013 from the bead blasting through hole 2080 and enters the bead blasting channel 120. The device 300 for accommodating and implanting the blasting beads 500 of the embodiment enables the blasting bead accommodating box 200 to provide only one blasting bead 500 for the blasting bead pusher 100 per operation by the relative movement of the push block 208 and the box body 201.

Referring to fig. 10, a partition board 207 is further disposed in the explosive ball containing box 200, the partition board 207 encloses an accommodating space 2070, the accommodating space 2070 is used for accommodating a desiccant, and the desiccant can adsorb moisture in air in the explosive ball containing box 200 to prevent the explosive ball 500 from being affected with damp; while the desiccant is spaced from the popping bulb 500 by the spacer 207 so as not to block the path of the popping bulb 500 rolling toward the first popping bulb outlet 2012.

In this application, the terms "mounted," "connected," "secured," and the like are to be construed broadly unless otherwise specifically 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 application can be understood by those of ordinary skill in the art as appropriate.

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 description of the terms "some embodiments," "other embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiments or examples is included in at least one embodiment or example of the invention. In this application, 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 application can be combined and combined by those skilled in the art without contradiction.

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:

a tube body provided with an internal passage;

the puncture part is arranged in the internal channel and comprises a tip part and a tail part, the puncture part comprises a first puncture body and a second puncture body, the first puncture body and the second puncture body are combined to form the tip part, and the first puncture body and the second puncture body can be separated from each other; and

and the push rod is positioned at the tail part and has a degree of freedom moving along a first direction and a degree of freedom moving along a second direction, wherein the first direction is from the tail part to the tip part, and the second direction is opposite to the first direction.

2. The booster of claim 1 wherein said first piercing body is fixed to said body and said second piercing body is rotatably connected to said body, said second piercing body being selectively rotatable relative to said body into and out of engagement with said first piercing body.

3. The popping bead pusher of claim 1 further comprising a linkage rotatably disposed in said barrel, said second piercing body being rotatably connected to said barrel by said linkage.

4. The bead blasting pusher according to claim 1, further comprising a linkage mechanism respectively connected to the push rod and the second piercing body for driving the push rod to move within the internal passage and for driving the second piercing body to fit and separate from the first piercing body.

5. The shot blasting unit of claim 4, wherein the linkage mechanism comprises a first gear rack, a second gear rack and a transition gear, the first gear rack is connected with the second puncture body and drives the second puncture body to rotate relative to the first puncture body, the second gear rack is connected with the push rod and drives the push rod to move, and the transition gear is in meshing transmission with the first gear rack and the second gear rack respectively.

6. The booster of claim 5, wherein the first rack gear is provided with a through hole, and the second piercing body comprises a connecting rod, and the connecting rod protrudes out of the inner channel and is clamped in the through hole.

7. A booster according to claim 5 in which the direction of movement of the first gear relative to the tube is perpendicular to the direction of movement of the second gear relative to the tube.

8. The popping bulb driver of claim 1 wherein the tube body includes a tube wall, the tube wall further having a bead popping passage extending through the tube wall and communicating with the internal passage.

9. The popping bead pusher of claim 1 further comprising an elastic member, said elastic member being sleeved on said push rod.

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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