CN115251459A - Explode pearl and implant device - Google Patents

Abstract

The invention discloses a shot implantation device, which belongs to the technical field of shot cotton stick production equipment and comprises a shot implantation substrate, a cellucotton hole cutting mechanism and a shot pushing mechanism, wherein a glue stick slideway is arranged on the shot implantation substrate, a pair of through channels are arranged on the side walls of the glue stick slideway, each pair of through channels comprises a hole cutting channel and a pushing channel, and the hole cutting channels and the pushing channels are respectively communicated with the cellucotton hole cutting mechanism and the shot pushing mechanism; according to the invention, the fiber cotton hole cutting mechanism and the bead blasting pushing mechanism are oppositely arranged on two sides of the glue stick slide way, on one hand, the hole cutting procedure and the implanting procedure are oppositely arranged, and the structural volume of the device is reduced by the arrangement mode when viewed along the glue stick processing direction; on the other hand, in the reset process after the hole cutting tool finishes cutting work in the hole cutting process, the implantation process can be started immediately, the problem that the implantation process can be started only after the hole cutting tool is completely reset in the prior art is solved, and the shot blasting implantation efficiency is ensured.

Description

Explode pearl and implant device

Technical Field

The invention belongs to the technical field of bead blasting cotton stick production equipment, and particularly relates to a bead blasting implantation device.

Background

The fiber rod is commonly called as perfume core, oil storage integrated cotton and filtering cotton core, and is a fiber bundle formed by combining a plurality of fine porous fiber silk threads. The fiber rod is mainly used for naturally and slowly releasing air purification and products needing water diversion and filtering functions, and is suitable for industries such as daily use (products such as an air freshening fragrance device and an automobile perfume seat), electronics (products such as a USB micro humidifier, an electronic cigarette atomizer and a microcomputer sweeper), medical use (products such as a laboratory pipette, an oxygen generator and a humidification bottle), and the like;

at present, the bead blasting insertion work of a fiber rod mainly adopts mechanical punching and bead blasting implantation, for example, a bead blasting filter rod forming production system with the application number of 202120721551.2 comprises a forming machine, an opener arranged on the feeding side of the forming machine, a tray loading machine arranged on the discharging side of the forming machine, a high-speed bead implanting mechanism, a visual detection mechanism, an encoder following mechanism and a phase adjusting control mechanism, wherein the high-speed bead implanting mechanism is arranged on the front side of a frame of the forming machine and close to a strand inlet so as to implant bead blasting into the strand fed into the forming machine, the visual detection mechanism is arranged on the front side of the frame of the forming machine and close to an outlet of the formed filter rod so as to detect the bead blasting implantation condition in the formed filter rod, the encoder following mechanism is arranged on the opener and is in synchronous transmission connection with a strand conveying roller of the opener, and the phase adjusting control mechanism is in signal connection with the high-speed bead implanting mechanism, the visual detection mechanism and the encoder following mechanism respectively; the device has the advantages that on the basis of the former frame of the ordinary filter stick forming machine, a high-speed bead planting mechanism, a visual detection mechanism, a phase adjustment control mechanism and the like are additionally arranged, so that the forming production of the bead explosion filter stick can be completed;

the bead blasting pusher comprises an accommodating part, a tube body, a puncture rod, a push rod and a guide part, wherein the accommodating part is provided with an accommodating cavity, the tube body is connected with the accommodating part, the tube body is provided with an internal channel, the internal channel is communicated with the accommodating cavity, the puncture rod is accommodated in the accommodating cavity, the push rod is accommodated in the accommodating cavity, the guide part is arranged on the periphery of the accommodating part, and the guide part has the freedom degree of rotating around the accommodating part and is used for guiding the puncture rod and the push rod to reciprocate between the accommodating cavity and the internal channel. The trompil operation with cigarette and the operation of exploding the pearl and implanting all set up in same inside passage and go on in this patent to improve the space utilization of exploding the pearl impeller, make the volume of exploding the pearl impeller be unlikely to too big.

Based on above-mentioned prior art, discovery after the applicant research, explode the pearl implantation among the prior art and divide into the process of punching and the process of implanting that arranges in order, this kind of current situation leads to the structure volume of device great, in order to solve the bulky problem of structure, in the prior art will punch the process and implant the process and exist in same structure, reduce the structure volume with this mode, but such solution, also make after each part in the process of punching resets completely, implant the process and can start, it is longer to punch the process and implant the joining time between the process promptly, this efficiency that will lead to exploding the pearl implantation becomes very low, consequently, need to provide one kind and can reduce the structure volume and can guarantee to explode the novel equipment of pearl implantation efficiency again.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a shot implantation device which achieves the technical purposes of small structure volume and high implantation efficiency on the basis of oppositely arranging a cellucotton hole cutting mechanism and a shot pushing mechanism on two sides of a glue stick slide way.

In order to achieve the purpose, the invention provides the following scheme: the invention provides a blasting bead implanting device which comprises a blasting bead implanting base body, and a fiber cotton hole cutting mechanism and a blasting bead pushing mechanism which are respectively arranged on two sides of the blasting bead implanting base body, wherein a rubber rod slide way with the same cross-sectional shape as the rubber rod appearance is arranged on the blasting bead implanting base body, a plurality of paired through channels distributed at intervals are arranged on the side wall of the rubber rod slide way, each paired through channel comprises a hole cutting channel and a pushing channel, the axes of the hole cutting channels are coincident, the hole cutting channels are perpendicular to the rubber rod slide way, and the pushing channels are respectively communicated with the fiber cotton hole cutting mechanism and the blasting bead pushing mechanism.

Preferably, the cellucotton hole-cutting mechanism comprises a first reciprocating sliding base and a hole-cutting tool arranged on the first reciprocating sliding base, the first reciprocating sliding base is arranged on the rack in a sliding mode, and the first reciprocating sliding base is connected with the first reciprocating driving mechanism; the hole cutting tool is of a hollow pipe body structure, and an annular cutting edge is arranged at one end edge of the hollow pipe body structure.

Preferably, the annular cutting edge is a conical structure, a reducing end of the conical structure is provided with a through hole, and the through hole is communicated with the inside of the hollow pipe body structure.

Preferably, a first fixing seat is arranged on the rack, a waste ejection pin matched with the hole cutting tool for use is arranged on the first fixing seat, the waste ejection pin penetrates out of the hollow pipe structure along the axial direction, and an ejection end of the waste ejection pin is located outside the hole cutting channel.

Preferably, the hole cutting tool is connected with a rotary tool holder, the rotary tool holder is rotatably connected with the second fixing seat through a bearing, the rotary tool holder is connected with a first rotary driving mechanism, and the second fixing seat and the first rotary driving mechanism are both fixed on the first reciprocating sliding base.

Preferably, the bead blasting pushing mechanism comprises a bead blasting pushing base body and a second reciprocating sliding base which are adjacently arranged, a bead blasting pushing channel is formed in the bead blasting pushing base body, a bead blasting embedding channel is arranged above the bead blasting pushing channel, and the bead blasting pushing channel and the pushing channel are coaxial and have the same diameter; the bead blasting ejector pin capable of sliding in a reciprocating mode is arranged in the bead blasting pushing channel, the bead blasting ejector pin is arranged on the second reciprocating sliding base, the second reciprocating sliding base is arranged on the rack in a sliding mode, and the second reciprocating sliding base is connected with the second reciprocating driving mechanism.

Preferably, still be provided with in the frame and explode pearl adsorption apparatus structure, explode pearl adsorption apparatus structure including setting up magazine and the third fixing base in the frame, install the reciprocal actuating mechanism of third on the third fixing base, the reciprocal actuating mechanism of third is connected with explode pearl vacuum adsorption mouth, explode the initial adsorption station and the termination blanking station of pearl vacuum adsorption mouth respectively with the magazine with explode the pearl and put into the passageway and be linked together.

Preferably, a transition substrate is arranged between the bead blasting implantation substrate and the bead blasting push-in substrate, a transition channel is formed in the transition substrate, and the transition channel, the bead blasting push-in channel and the push-in channel are coaxial and have the same diameter; the transition substrate is provided with a channel blocking assembly, the channel blocking assembly comprises a telescopic cylinder and a blocking plate which are connected, the transition substrate is provided with a sliding groove for the blocking plate to move, and the sliding groove is perpendicular to the transition channel.

Preferably, the sealing baffle is provided with an annular groove matched with an annular cutting edge of the hole cutting tool, and the annular cutting edge can be embedded into the annular groove.

Preferably, the base member is implanted to the pearl that explodes includes the main part that is connected with the transition base member, the excellent slide of glue by the main part with the transition base member encloses, the cut hole passageway sets up in the main part, push in the passageway with the transition passageway is same passageway.

Compared with the prior art, the invention has the following beneficial effects:

firstly, the invention adopts a mode of oppositely arranging the cellucotton hole cutting mechanism and the shot blasting pushing mechanism at two sides of the glue stick slideway, on one hand, the hole cutting procedure and the implanting procedure are oppositely arranged, and the structural volume of the device is reduced by the arrangement mode when viewed along the glue stick processing direction, thereby avoiding the problem of large structural volume of the device caused by the sequential arrangement of the hole cutting procedure and the implanting procedure in the prior art; on the other hand, in the hole cutting process, in the resetting process after the hole cutting tool finishes the cutting work, the implantation process can be started immediately, so that the problem that in the prior art, the implantation process can be started only after the hole cutting tool is completely reset is solved, and the implantation efficiency of the blasting shots is ensured;

secondly, the hole cutting tool is connected with the rotary tool apron, so that the hole cutting tool can feed a hole forward in a rotating state, a part of acting force acts on the axis direction of the glue stick in a rotating mode, and the problems that the glue stick is subjected to large lateral force and easily damaged due to the fact that only linear feeding movement is performed in the prior art are solved;

thirdly, in the invention, a transition matrix is arranged between the bead blasting implantation matrix and the bead blasting pushing matrix, and the transition matrix is provided with a channel blocking component, so that when the hole cutting tool performs cutting motion, the channel blocking component can push the direction of a cut object generated in the hole cutting process into the hole cutting tool, and the situation that partial cut object falls into the transition channel, the bead blasting pushing channel or the pushing channel to influence the effective operation of bead blasting pushing work is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in 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 inventive exercise.

FIG. 1 is a schematic structural view of a device for implanting a blasting bead according to the present invention;

FIG. 2 is a schematic view of a connection structure of the fiber cotton hole cutting mechanism and the blasting bead pushing mechanism in FIG. 1;

FIG. 3 is a schematic structural view of the fiber cotton hole cutting mechanism in FIG. 2;

FIG. 4 is a schematic view of the hole cutting tool of FIG. 3;

FIG. 5 is a schematic structural view of the blasting bead pushing mechanism in FIG. 2;

FIG. 6 is a schematic structural view of the bead blasting implant matrix of FIG. 2;

FIG. 7 is a cross-sectional view of FIG. 6;

FIG. 8 is a schematic view of the connection structure of the blasting bead implantation substrate and the transition substrate;

FIG. 9 is a cross-sectional view of the transition matrix of FIG. 8;

FIG. 10 is a schematic structural view of a bead blasting adsorption mechanism;

the device comprises a blasting bead implanting base body 1, a cellucotton hole cutting mechanism 2, a blasting bead pushing mechanism 3, a glue stick slide 4, a hole cutting channel 5, a pushing channel 6, a first reciprocating sliding base 7, a hole cutting tool 8, a rack 9, an annular cutting edge 10, a through hole 11, a first fixing base 12, a waste ejector pin 13, a rotary tool base 14, a second fixing base 15, a first rotary driving mechanism 16, a blasting bead pushing base body 17, a second reciprocating sliding base 18, a blasting bead pushing channel 19, a blasting bead placing channel 20, a blasting bead ejector pin 21, a blasting bead adsorption mechanism 22, a material box 23, a third fixing base 24, a blasting bead vacuum adsorption nozzle 25, a transition base body 26, a transition channel 27, a telescopic cylinder 28, a blocking plate 29, a sliding groove 30, an annular groove 31 and a cellucotton stick 32.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1 to 10, the present invention provides an explosive bead implanting device, which is mainly used for the explosive bead implanting operation of a fiber cotton stick 32, and certainly, the device can be used for the implanting or inserting operation of other objects, the device includes an explosive bead implanting base body 1 for storing the fiber cotton stick 32, a rubber stick slideway 4 with a cross-sectional shape identical to the rubber stick shape is arranged on the explosive bead implanting base body 1, the fiber cotton stick 32 moves in the rubber stick slideway 4, a plurality of paired through channels distributed at intervals are arranged on the side wall of the rubber stick slideway 4, the interval distance is determined according to the actual situation, for example, when the lengths of the fiber cotton sticks 32 required by different cigarettes are different, the interval distance can be changed due to different implanting positions of the explosive beads; the paired through channels comprise a hole cutting channel 5 and a pushing channel 6 which are coincident in axis and perpendicular to the glue stick slide 4, the diameters of the hole cutting channel 5 and the pushing channel 6 can be the same or different, and the paired through channels are determined according to actual conditions (the diameter of the hole cutting tool 8 is the same as that of the bead blasting thimble 21, and the diameters of the two channels can be the same), and what needs to be noted is that: in order to ensure the smoothness of the entrance of the hole cutting channel 5 and the pushing channel 6, chamfering is carried out on the edge of each channel; the cellucotton hole cutting mechanism 2 and the blasting bead pushing mechanism 3 are respectively arranged at two sides of the blasting bead implantation matrix 1, and the hole cutting channel 5 and the pushing channel 6 are respectively communicated with the cellucotton hole cutting mechanism 2 and the blasting bead pushing mechanism 3; the working process is as follows: the fiber cotton swab 32 which intermittently moves on the rubber swab slideway 4, the hole cutting tool 8 in the fiber cotton hole cutting mechanism 2 penetrates through the hole cutting channel 5 according to a preset extension length to enter the rubber swab slideway 4 within a time interval when the fiber cotton swab 32 stops moving, the fiber cotton swab 32 is continuously moved forwards to penetrate, hole cutting work is completed, and then the hole cutting tool 8 gradually retracts to an initial position; in the retracting process of the hole cutting tool 8, the blasting bead thimble 21 of the blasting bead pushing mechanism 3 starts to move, the corresponding preset length is also moved, the blasting beads are pushed into the cutting hole on the fiber cotton stick 32 through the pushing-in channel 6, the blasting bead implanting work is finished, and then the blasting bead thimble 21 is gradually retracted to the initial position; the fibrous swab 32 then continues to move the appropriate length and stops moving again, and the hole-cutting, implantation process described above is repeated.

It should be noted that: the hole cutting prop can extend into the push-in slideway, but the bead blasting thimble 21 can not extend into the hole cutting channel 5; the blasting beads in the blasting bead pushing mechanism 3 can be put in by an automatic material taking device, or a row of blasting beads can be put in the blasting bead tube in advance by arranging the blasting bead tubes arranged in a row, and the blasting beads enter the blasting bead pushing mechanism 3 under the action of gravity;

in conclusion, the invention adopts the mode that the cellucotton hole cutting mechanism 2 and the ball blasting pushing mechanism 3 are oppositely arranged on two sides of the glue stick slideway 4, on one hand, the hole cutting procedure and the implanting procedure are oppositely arranged, and when the glue stick is seen along the processing direction of the glue stick, the structural volume of the device is reduced by the arrangement mode, and the problem of large structural volume of the device caused by the sequential arrangement of the hole cutting procedure and the implanting procedure in the prior art is avoided; on the other hand, in the reset process after the hole cutting tool 8 finishes the cutting work in the hole cutting process, the implantation process can be started immediately, the problem that the implantation process can be started only after the hole cutting tool 8 is completely reset in the prior art is solved, and the blasting bead implantation efficiency is ensured.

As a specific embodiment, the cellucotton hole-cutting mechanism 2 in the invention is described as follows, the mechanism comprises a first reciprocating slide base 7 and a hole-cutting cutter 8 arranged on the first reciprocating slide base 7, the first reciprocating slide base 7 is arranged on a frame 9 in a sliding way, and the first reciprocating slide base 7 is connected with a first reciprocating driving mechanism; wherein, first reciprocating drive mechanism drives first reciprocating slide base 7 and makes reciprocal linear motion, and hole cutter 8 makes linear motion along with first reciprocating slide base 7, and what need notice here is: the hole cutting prop is arranged on the first reciprocating sliding base 7, and a plurality of hole cutting tools 8 are arranged on the first reciprocating sliding base 7 at intervals mainly because the hole cutting tools 8 are provided, so that simultaneous cutting of a plurality of holes is completed; the hole cutting tool 8 is a hollow pipe structure, an annular cutting edge 10 is arranged at one end edge of the hollow pipe structure, the diameter of the annular cutting edge 10 is smaller than that of the fiber cotton stick 32, and the fiber cotton cut by the annular cutting edge 10 enters the hollow pipe structure.

As an optimized implementation scheme of the annular cutting edge 10, the annular cutting edge 10 is of a conical structure, the reducing end of the conical structure is provided with the through hole 11, the through hole 11 is communicated with the interior of the hollow pipe structure, and the conical structure is used for reducing the resistance of cutting into the fiber cotton swab 32 and is beneficial to achieving a good cutting effect.

As an embodiment of the invention, in cooperation with the hole cutting tool 8, the frame 9 of the invention is provided with a first fixed seat 12, the first fixed seat 12 is provided with a waste material thimble 13 used in cooperation with the hole cutting tool 8, the waste material thimble 13 axially penetrates through the hollow pipe structure, the material ejecting end of the waste material thimble 13 is located outside the hole cutting channel 5, and when the hole cutting tool 8 returns to the initial position, the waste material thimble 13 ejects the waste material out of the hollow pipe structure.

As an implementation scheme for optimizing the cutting process of the hole cutting tool 8, in the invention, the hole cutting tool 8 is connected with the rotary tool holder 14, the rotary tool holder 14 is rotatably connected with the second fixed seat 15 through a bearing, the rotary tool holder 14 is connected with the first rotary driving mechanism 16, and the second fixed seat 15 and the first rotary driving mechanism 16 are both fixed on the first reciprocating sliding base 7, namely, the hole cutting tool 8 is connected with the rotary tool holder 14, so that the hole cutting tool 8 can feed a hole forward in a rotating state, and a part of acting force acts on the axis direction of a glue stick in a rotating mode, thereby avoiding the problems that the glue stick is subjected to large lateral force and easily damaged due to the fact that only linear feeding motion is performed in the prior art.

As a specific embodiment, the bead blasting pushing mechanism 3 of the present invention is introduced as follows, and the mechanism includes a bead blasting pushing base 17 and a second reciprocating sliding base 18 which are adjacently arranged, a bead blasting pushing channel 19 is formed on the bead blasting pushing base 17, a bead blasting inserting channel 20 is formed above the bead blasting pushing channel 19, and the bead blasting pushing channel 19 and the pushing channel 6 are coaxial and have the same diameter; a bead blasting thimble 21 sliding in a reciprocating manner is arranged in the bead blasting pushing channel 19, the bead blasting thimble 21 is arranged on a second reciprocating sliding base 18, the second reciprocating sliding base 18 is arranged on the rack 9 in a sliding manner, and the second reciprocating sliding base 18 is connected with a second reciprocating driving mechanism; wherein, the second reciprocating drive mechanism drives the second reciprocating slide base 18 to make reciprocating linear motion, the bead blasting thimble 21 makes linear motion along with the second reciprocating slide base 18, and what needs to be noticed here is: the bead blasting thimbles 21 are arranged on the second reciprocating sliding base 18, and a plurality of bead blasting thimbles 21 are arranged on the second reciprocating sliding base 18 at intervals to complete the pushing of a plurality of beads at the same time.

As a specific embodiment of the automatic material taking device, an exploding bead adsorption mechanism 22 is arranged on a rack 9, the exploding bead adsorption mechanism 22 comprises a material box 23 and a third fixed seat 24 which are arranged on the rack 9, a third reciprocating drive mechanism is arranged on the third fixed seat 24 and is connected with an exploding bead vacuum adsorption nozzle 25, an initial adsorption station and a blanking termination station of the exploding bead vacuum adsorption nozzle 25 are respectively communicated with the material box 23 and an exploding bead placing channel 20, the third reciprocating drive mechanism comprises a second rotary drive mechanism and a swing arm which are rotatably connected, a long circular hole is formed in the swing arm, a plurality of exploding bead vacuum adsorption nozzles 25 are arranged on an L-shaped mechanical arm at intervals, the mechanical arm passes through the long circular hole and is connected with an inverted U-shaped sliding groove arranged on the third fixed seat 24 in a sliding fit manner through a bearing, the swing arm rotates to the process that the material box 23 absorbs the exploding beads, the mechanical arm is driven to perform linear ascending motion, transverse translational motion and linear descending motion in sequence, after absorption, the original route returns, the exploding beads are placed in the exploding beads in the channel 20, the exploding beads enter in the exploding bead implanting channel 19, and the bead pushing work is completed; conventional techniques for vacuum suction nozzles are not described in detail herein.

As a specific embodiment, a transition matrix 26 is arranged between the blasting bead implantation matrix 1 and the blasting bead pushing matrix 17, a transition channel 27 is formed in the transition matrix 26, and the transition channel 27, the blasting bead pushing channel 19 and the pushing channel 6 are coaxial and have the same diameter; be provided with the passageway on the transition base member 26 and seal the subassembly, the passageway seals the subassembly including telescopic cylinder 28 and the fender 29 that are connected, set up the sliding tray 30 that supplies to seal the baffle 29 and remove on the transition base member 26, sliding tray 30 perpendicular to transition passageway 27, adopt promptly to implant base member 1 and explode the pearl and push into and be provided with transition base member 26 between the base member 17 exploding the pearl, and be provided with the mode of passageway fender subassembly on transition base member 26, make when the cutting tool 8 carries out the cutting motion, the fender 29 in the passageway seals the subassembly can push into the cutting tool 8 with the excision thing direction of cutting the hole in-process production, avoid partial excision thing to drop to transition passageway 27, explode pearl propelling movement passageway 19 or push into the effective of the pearl propelling movement work of influence in the passageway 6.

As an advantageous embodiment of the blocking plate 29, the blocking plate 29 according to the present invention is provided with an annular groove 31 which is matched with the annular cutting edge 10 of the hole cutter 8, and the annular cutting edge 10 can be inserted into the annular groove 31.

As an optimized embodiment of the baffle plate 29, the shot implantation substrate 1 comprises a main body and a transition substrate 26 which are connected, a glue stick slide way 4 is defined by the main body and the transition substrate 26, a hole cutting channel 5 is arranged on the main body, and a pushing channel 6 and a transition channel 27 are the same channel.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the invention and the core idea thereof; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (10)

1. The utility model provides a device is implanted to explode pearl, its characterized in that includes that explode the pearl and implant the base member and divide the row and be in the cellucotton cut hole mechanism and the explode pearl push mechanism of base member both sides are implanted to the explode pearl, the glue stick slide that cross sectional shape and glue stick appearance are the same is seted up on the explode pearl implantation base member, set up a plurality of interval distribution on the lateral wall of glue stick slide and link up the passageway in pairs, link up the passageway in pairs and include axis coincidence and all perpendicular to the cut hole passageway and the push channel of glue stick slide, cut the hole passageway with the push channel is linked together with cellucotton cut hole mechanism and explode pearl push mechanism respectively.

2. The device for implanting the populous according to claim 1, wherein the cellucotton hole-cutting mechanism comprises a first reciprocating slide base and a hole-cutting tool arranged on the first reciprocating slide base, the first reciprocating slide base is arranged on the frame in a sliding manner, and the first reciprocating slide base is connected with a first reciprocating driving mechanism; the hole cutting tool is of a hollow pipe body structure, and an annular cutting edge is arranged at one end edge of the hollow pipe body structure.

3. The pop-bead implant device of claim 2, wherein the annular cutting edge is a tapered structure, a reduced diameter end of the tapered structure being provided with a through-hole, the through-hole communicating with an interior of the hollow tube structure.

4. The device of claim 3, wherein the rack is provided with a first fixing seat, the first fixing seat is provided with a waste ejector pin used in cooperation with the hole cutting tool, the waste ejector pin axially penetrates through the hollow tube structure, and an ejector end of the waste ejector pin is located outside the hole cutting channel.

5. The device for implanting a popped ball of claim 4, wherein the hole cutter is connected to a rotary cutter holder, the rotary cutter holder is rotatably connected to the second fixing base through a bearing, the rotary cutter holder is connected to a first rotary driving mechanism, and the second fixing base and the first rotary driving mechanism are both fixed to the first reciprocating sliding base.

6. The device for implanting the blasting beads according to claim 1, wherein the blasting bead pushing mechanism comprises a blasting bead pushing base body and a second reciprocating sliding base which are adjacently arranged, a blasting bead pushing channel is formed in the blasting bead pushing base body, a blasting bead implanting channel is arranged above the blasting bead pushing channel, and the blasting bead pushing channel and the pushing channel are coaxial and have the same diameter; the bead blasting ejector pin capable of sliding in a reciprocating mode is arranged in the bead blasting pushing channel, the bead blasting ejector pin is arranged on the second reciprocating sliding base, the second reciprocating sliding base is arranged on the rack in a sliding mode, and the second reciprocating sliding base is connected with the second reciprocating driving mechanism.

7. The shot blasting implantation device according to claim 6, wherein the rack is further provided with a shot blasting adsorption mechanism, the shot blasting adsorption mechanism comprises a magazine and a third fixed seat, the magazine and the third fixed seat are arranged on the rack, a third reciprocating driving mechanism is mounted on the third fixed seat, the third reciprocating driving mechanism is connected with the shot blasting vacuum adsorption nozzle, and an initial adsorption station and a finishing blanking station of the shot blasting vacuum adsorption nozzle are respectively communicated with the magazine and the shot blasting implantation channel.

8. The blasting bead implanting device according to claim 6 or 7, wherein a transition substrate is arranged between the blasting bead implanting substrate and the blasting bead pushing substrate, a transition channel is formed in the transition substrate, and the transition channel, the blasting bead pushing channel and the pushing channel are coaxial and have the same diameter; the transition substrate is provided with a channel blocking assembly, the channel blocking assembly comprises a telescopic cylinder and a blocking plate which are connected, the transition substrate is provided with a sliding groove for the blocking plate to move, and the sliding groove is perpendicular to the transition channel.

9. The device of claim 8, wherein the sealing baffle is provided with an annular groove that is coincident with an annular cutting edge of the hole cutter, the annular cutting edge being insertable into the annular groove.

10. The device of claim 9, wherein the bead implantation substrate comprises a main body and a transition substrate that are connected, the glue stick slide is enclosed by the main body and the transition substrate, the hole cutting channel is disposed on the main body, and the push-in channel and the transition channel are the same channel.

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