CN112575602B - Ultrasonic hot-fix rhinestone equipment - Google Patents

Abstract

The invention discloses ultrasonic hot-fix rhinestone equipment which comprises a hot-fix rhinestone pen, a fixing ring, a hand support, a handle, a sliding rod, an upper drilling opening, a sliding rail, a pressing plate, a pressing bar and an air channel, wherein the hot-fix rhinestone pen is arranged on the upper drilling opening; the hot drill pen comprises a middle support body, an upper connecting ring, a cover plate, a lower connecting ring, a hot drill bit fixed on the lower connecting ring, a cylinder positioned in the middle support body, a drill feeding pipe, a drill discharging assembly, a material sorting assembly and a material saving assembly; the upper connecting ring is provided with a chute; one side of the chute is communicated with a discharge hole; the invention improves the existing ultrasonic rhinestone hot-fix equipment, realizes automatic hot-fix rhinestones supply by the mutual matching of the drill discharging assembly, the drill feeding pipe, the material saving assembly and the material arranging assembly, and makes up the defect that the existing hot-fix rhinestone pen needs to continuously take materials from the outside during use, thereby wasting time and energy; meanwhile, the hot-fix rhinestone pen provides support for the hot-fix rhinestone pen, and the hot-fix rhinestone pen can finish hot-fix picture of cloth without pressing in the using process, so that the burden of operators is reduced, the user experience is enhanced, and the positioning accuracy is improved.

Description

Ultrasonic hot-fix rhinestone equipment

Technical Field

The invention belongs to the technical field of hot-fix rhinestone upper primer, and particularly relates to ultrasonic hot-fix rhinestone equipment.

Background

The hot-fix rhinestone is similar to the traditional diamond in appearance, the side surface of the hot-fix rhinestone is provided with a plurality of edge surfaces, and the areas of two end surfaces are one large and one small; the existing ultrasonic wave hot-fix drilling machine is used for hot-fix drilling on cloth; an ultrasonic hot-drilling machine, also called a point drilling machine, generally comprises a control host and a hot-drilling pen, wherein a high-voltage and high-frequency signal of 20KHZ (or 15 KHZ) is generated by utilizing a high-frequency sound wave generator of ultrasonic waves in the control host, the signal is converted into high-frequency mechanical vibration of components inside the hot-drilling pen through a transduction system, the high-frequency mechanical vibration is added on a diamond (sequin) absorbed on the hot-drilling pen through negative pressure, the temperature transmitted to an interface is increased through the friction of the surface of the diamond and the internal molecular components, when the temperature reaches the melting point of the diamond (sequin), the interface of the diamond (sequin) is rapidly melted and then filled in a gap between the interfaces, and when the vibration stops, the diamond (sequin) is simultaneously cooled and shaped under certain pressure, so that perfect welding is achieved; the ultrasonic wave ironing and drilling machine is widely applied to DIY and manual manufacturing due to small volume. The equipment has some defects that when the rhinestone is hot-pressed, the rhinestone can be fixed on the cloth by manually pressing the rhinestone-pressing pen, so that a novice hand is difficult to master the strength of the rhinestone, and the rhinestone is hard to use for a long time; and the hot fix rhinestones pen need absorb the hot fix rhinestones one by one from the container that contains the hot fix rhinestones when using, therefore need manual differentiation hot fix the gluey bottom surface and the glueless face that have of brill, complex operation and uninteresting influence user experience.

Disclosure of Invention

The invention provides an ultrasonic hot fix rhinestone device which can automatically supply hot fix rhinestones and does not need pressing in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: an ultrasonic rhinestone ironing device comprises an rhinestone ironing pen, a mounting ring fixed on the rhinestone ironing pen, a hand support arranged on the mounting ring, a handle arranged on the hand support, a slide rod used for supporting the rhinestone ironing pen and the hand support, an upper drilling opening arranged at the top of the rhinestone ironing pen, a plurality of slide rails used for supporting the slide rods, a plurality of press plates fixed among the slide rails, a plurality of press bars positioned below the press plates, and a plurality of gas channels arranged on the rhinestone ironing pen; the hot drill pen comprises a middle support body connected with the mounting ring, an upper connecting ring fixed above the middle support body, a cover plate fixed on the upper connecting ring, a lower connecting ring fixed below the middle support body, a drill discharging assembly positioned in the middle support body, a hot drill fixed on the lower connecting ring, an air cylinder fixed in the middle support body, a drill conveying pipe positioned in the middle support body, a material sorting assembly arranged on the cover plate and a material saving assembly positioned below the material sorting assembly; the upper connecting ring is provided with a chute; one side of the chute is communicated with a discharge hole; the gas channel is arranged on the middle support body and communicated with the cylinder; the upper drill hole is formed in the cover plate; the drill feeding pipe is positioned right below the discharge hole; the hot drill pen is connected with the existing control host, and the control host provides an ultrasonic signal for the hot drill head and an air source for the air channel; when the hot-fix rhinestone is used, the hot-fix rhinestones are directly arranged in the upper connecting ring through the upper drill opening, the hot-fix rhinestones are conveyed to the positions above the hot-fix drill bits one by one through the matching work of the material arranging assembly, the material saving assembly and the drill conveying pipe in a mode that the rubber bottom faces downwards, then the hot-fix rhinestones are pressed downwards onto a cloth surface from the positions inside the hot-fix drill bits through the work of the air cylinder, and the hot-fix rhinestones are adhered to the cloth surface through the existing ultrasonic hot-fix rhinestones; the hot fix rhinestones are directly arranged inside the hot fix rhinestone pen, so that the weight of the hot fix rhinestone pen is increased, and the hot fix rhinestone pen is obviously laborious if a handheld mode is used; therefore, the hot-fix rhinestone pen is supported by the sliding rod without being held by hands, the hand support can slide on the sliding rod, the sliding rod can transversely move in the sliding rail, the handle is provided with a switch piece for controlling the cylinder to work, and the switch piece is purchased from the market; when the hot-fix rhinestone pen works, a hand is placed on the hand support, the handle is held by the hand, the hot-fix rhinestone pen can be moved to a specified position to finish hot-fix pictures by pushing the hot-fix rhinestone pen through the arm, and the arm is not suspended in the air in the process, so that the operation is not labored; the ultrasonic rhinestone hot-fix device improves the existing ultrasonic rhinestone hot-fix equipment, realizes automatic hot-fix rhinestones through the mutual matching of the rhinestone discharging assembly, the drill feeding pipe, the material saving assembly and the material arranging assembly, overcomes the defect that the existing hot-fix rhinestone pen needs to continuously take materials from the outside during use, is time-consuming and labor-saving, and saves time and labor; meanwhile, the hot-fix rhinestone pen provides support for the hot-fix rhinestone pen, the hot-fix rhinestone pen does not need to be pressed by hands in the using process, the hot-fix rhinestone pen can be used for completing the hot-fix picture of the cloth through the action of the air cylinder, the burden of operators is reduced, the user experience is enhanced, and the positioning precision is improved, so that the hot-fix rhinestone pen is more suitable for manual or DIY users.

The material arranging assembly comprises a motor fixed on the cover plate, a turning plate connected with the motor, a first gear fixed on the motor, a first connecting column arranged on the end face of the first gear, a mounting hole arranged at the bottom of the turning plate, a push block fixed in the mounting hole and a positioning assembly connected with the first gear through the first connecting column; the positioning assembly comprises a positioning block positioned in the sliding groove, a first spring fixed in the positioning block, a lantern ring positioned in the positioning block and fixedly connected with the first spring, a right-angle rod connected with the lantern ring, a support ring fixed at the bottom of the right-angle rod, a connecting rod connected with the right-angle rod and a fixing ring positioned at the bottom of the connecting rod; the fixing ring is connected with the first connecting column; the positioning block can horizontally slide in the sliding chute; the push block and the discharge hole are positioned on the circumference with the same diameter by taking the motor shaft as the axis; the bottom of the push block is a hemisphere, the top of the push block is fixed with a spring, and the top of the spring is fixed on the top surface of the mounting hole; the top of the turning plate is in a slope shape, the bottom of the turning plate has smaller slope change, the top surface and the bottom surface of the turning plate are provided with horizontal planes, a motor drives the turning plate to rotate when the turning plate works, the hot drill in the upper connecting ring continuously falls from the upper surface of the turning plate and is also shoveled, so that the hot drill continuously rolls and rotates, the hot drill with the rubber bottom surface facing downwards is clamped into the discharge hole in the moving process and is clamped by the positioning block from the side surface, so that the hot drill does not roll along with the rotation of the turning plate, when the turning plate is contacted with the hot drill, the slope surface at the bottom of the turning plate extrudes the hot drill to enable the hot drill to gradually and completely sink into the discharge hole, when the turning plate rotates until the pushing block is positioned right above the discharge hole, the pushing block downwards pops under the action of elasticity, the hot drill is pushed into the drill pipe, then the bottom of the pushing block is contacted with the side wall of the discharge hole, and the pushing block returns into the mounting hole again; if the hot-fix rhinestones fall into the discharge hole incorrectly, the hot-fix rhinestones in the discharge hole are cleaned through the transverse movement of the positioning block and the pushing of the turning plate; through the work of reason material subassembly, realize the directional removal of hot fix rhinestone, ensure that the gluey bottom surface of taking of hot fix rhinestone can correctly contact with the cloth.

The material saving assembly comprises a supporting block positioned in the discharging hole, a guide rod arranged on one side of the supporting block, a second spring fixed at the bottom of the supporting block, a sliding sheet fixed at the bottom of the second spring, a fixed sliding block used for supporting the sliding sheet, a chute arranged on the side wall of the fixed sliding block, a third spring connected with the fixed sliding block and an intermediate plate connected with the third spring; the top of the slide block is fixed on the inner wall surface of the upper connecting ring; the guide rod is positioned in the chute; when the bottom of the turning plate is not extruded to scald the drill, the supporting block is positioned below the rhinestone in the discharge hole to support the rhinestone, so that the rhinestone is prevented from directly falling into the drill feeding pipe, after the bottom surface of the rhinestone falls downwards into the discharge hole, the supporting block is downwards moved by extrusion of the turning plate, the rhinestone is completely immersed into the discharge hole, when the pushing block pushes the rhinestone to downwards move, the supporting block is pushed by the rhinestone to move, the guide rod is obliquely downwards slid in the chute during the process, the supporting block is obliquely downwards moved to enable the supporting block to downwards move to flow out of a downwards moving space for the rhinestone to be moved into the drill pipe, and the supporting block is attached to the inner wall surface of the upper connecting ring under the action of the second spring during the process; the third spring pushes the middle plate to move transversely to drive the supporting plate to move transversely until the supporting plate moves to the position right below the discharge hole, the supporting plate is clamped into the discharge hole under the action of the second spring, and the material saving assembly is reset; due to the arrangement of the material saving assembly, the hot drills can flow into the drill conveying pipe only after being adjusted and oriented by the material arranging assembly, and the hot drills falling into the drill conveying pipe are guaranteed to be consistent in direction.

The drill pipe comprises a drill feeding channel, a notch arranged on the periphery of the drill feeding channel, a rotating blade positioned in the notch and connected with the drill feeding channel, a one-way wheel coaxially connected with the rotating blade, a latch connected with the notch and contacted with the one-way wheel, a bump arranged on the notch and a compensation notch arranged at the top of the drill feeding channel; the compensation gap is positioned right below the supporting block; the side surface of the lug is abutted against the side surface of the latch; the drill feeding channel is a circular channel, and the inner diameter of the drill feeding channel is the same as the diameter of the bottom surface of the rhinestone; the surface of the one-way wheel is a tooth-shaped surface with one side being arc-shaped and one side being straight; the top of each clamping tooth is semicircular, one side of each clamping tooth is in contact with the convex block, one side of the bottom of each clamping tooth is a cambered surface, the other side of each clamping tooth is a plane, and the clamping teeth are embedded into tooth grooves of the one-way wheel, so that the one-way wheel and the rotating blades can only rotate in one direction; the top of the bit feeding channel is tightly attached to the wall surface of the upper connecting ring, and the compensation notch is located on the sliding side of the supporting block, so that the supporting block can be conveniently moved out of the discharge hole.

The drill discharging assembly comprises a second gear meshed with the first gear, a supporting plate and a rotary table which are coaxially connected with the second gear, a second connecting column arranged at the bottom of the rotary table, a pull rod connected with the rotary table through the second connecting column, a material ring positioned at one end of the pull rod, a fourth spring connected with the material ring, a stop block connected with the fourth spring, and a plurality of supporting strips used for supporting the material ring; a sliding groove is formed in the side face of the material ring; the block and the fourth spring are positioned in the sliding groove; one end of the pull rod is positioned in the sliding groove; the supporting bars are positioned on two sides of the material ring and fixed on the top of the lower connecting ring; the material ring is positioned below the drilling pipe; the motor drives first gear rotatory, it is rotatory to make second gear and carousel, and then drive the pull rod at the inslot sideslip that slides, promote the material ring and remove under the send brill passageway, the medial surface of material ring one end contact intermediate support body this moment, the carousel continues to rotate, because the effect of stop block and fourth spring, make the material ring stop bottom the send brill passageway, in order to ensure that the hot brill has enough time to fall into the material ring, the pull rod drives the material ring and removes under the cylinder afterwards, the cylinder work will be scalded and bored from the hot brill head and deliver to the cloth, scald the picture through current ultrasonic wave hot brill technique completion.

In summary, the invention has the following advantages: the invention improves the existing ultrasonic rhinestone hot-fix equipment, realizes automatic hot-fix rhinestones supply by the mutual matching of the drill discharging assembly, the drill feeding pipe, the material saving assembly and the material arranging assembly, and makes up the defect that the existing hot-fix rhinestone pen needs to continuously take materials from the outside during use, thereby wasting time and energy; meanwhile, the hot-fix rhinestone pen provides support for the hot-fix rhinestone pen, the hot-fix rhinestone pen can finish hot-fix pictures on cloth without pressing in the using process, the burden of operators is reduced, the user experience is enhanced, and the positioning precision is improved, so that the hot-fix rhinestone pen is more suitable for manual or DIY users to use.

Drawings

FIG. 1 is a schematic view of the present invention.

Fig. 2 is a partially enlarged view of a portion E in fig. 1.

Fig. 3 is a partially enlarged view of a portion F in fig. 1.

Fig. 4 is a front view of the rhinestone pen of fig. 1.

Fig. 5 is an isometric cross-sectional view taken along linebase:Sub>A-base:Sub>A of fig. 4.

Fig. 6 is a partially enlarged view of a portion G in fig. 5.

Fig. 7 is a partially enlarged view of a portion J in fig. 5.

Figure 8 is an exploded view of the material management assembly of figure 5.

Fig. 9 is a partially enlarged view of a portion H in fig. 8.

Fig. 10 is a schematic structural view of the material saving assembly in fig. 6.

Fig. 11 is a left side view of the economizer assembly of fig. 6.

Fig. 12 is an isometric cross-sectional view of fig. 11 taken along line B-B.

FIG. 13 is a front view of the drill pipe of FIG. 5.

Figure 14 is an isometric cross-sectional view taken along line C-C of figure 13.

Fig. 15 is a partially enlarged view of the portion I in fig. 14.

Fig. 16 is a right side view of the drill assembly of fig. 5.

Figure 17 is an isometric cross-sectional view of figure 16 taken along line D-D.

Detailed Description

In order to make the technical solutions of the present invention better understood, 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.

As shown in fig. 1 to 17, an ultrasonic rhinestone ironing apparatus includes an rhinestone ironing pen 1, a mounting ring 2 fixed to the rhinestone ironing pen by means of threaded connection, a hand rest 3 disposed on the mounting ring, a handle 4 disposed on the hand rest, a slide bar 5 for supporting the rhinestone ironing pen and the hand rest, an upper drilling opening 6 disposed at the top of the rhinestone ironing pen, a plurality of slide rails 9 for supporting the slide bar, a plurality of pressing plates 7 fixed between the plurality of slide rails, a plurality of pressing bars 8 located below the pressing plates, and a plurality of gas passages 10 disposed on the rhinestone ironing pen; the hot-fix rhinestone pen 1 comprises a middle support body 13 fixed in a mounting ring, an upper connecting ring 12 fixed above the middle support body through threaded connection, a cover plate 11 fixedly connected on the upper connecting ring, a lower connecting ring 14 fixed below the middle support body through threaded connection, a drill discharging assembly 15 positioned in the middle support body, a hot-fix drill bit 16 fixedly connected on the lower connecting ring, an air cylinder 17 fixedly connected inside the middle support body, a drill conveying pipe 18 positioned in the middle support body, a material arranging assembly 19 arranged on the cover plate, and a material saving assembly 20 positioned below the material arranging assembly; the upper connecting ring is provided with a chute 121; one side of the chute is communicated with a discharge hole 122; the gas channel is arranged on the middle supporting body and is communicated with the cylinder; the upper drill hole is formed in the cover plate; the drill feeding pipe is positioned right below the discharge hole; the sliding rod 5 is inserted in the hand support 3, and the hand support 3 can horizontally slide on the sliding rod 5; the sliding rod 5 can move transversely in the sliding rail 9, so that the rhinestone hot-fix pen 1 can move transversely in the horizontal plane to a hot-fix position; the number of the pressing plates 7 is two, the pressing plates are positioned at two ends of the sliding rail 9 and connected with the bottom of the sliding rail 9 through threaded connection, the pressing plates 7 are loosened, the cloth is placed below the two pressing strips 8, the pressing strips 8 are poked to two sides to lay the cloth flat, and then the cloth can be fixed by retracting the pressing plates 7; the rhinestone hot fix pen 1 is connected with an existing control host, and the control host provides ultrasonic signals for a hot fix drill 16 and provides an air source for an air channel 10; the handle 4 is provided with a switch member for controlling the operation of the cylinder 17, which is commercially available; when the hot-fix rhinestone pen works, the arms are placed on the hand supports 3, the handle 4 is held by hands, the hot-fix rhinestone pen 1 can be moved to a specified position to finish hot-fix pictures by pushing the hot-fix rhinestone pen through the arms, the arms are not suspended in the air in the process, and the operation is not labored; the intermediate support body 13 is shaped as shown in fig. 5, and is provided with holes for passing the drill pipe 18 and the drill-out assembly 15 therethrough, and the drill pipe 18 is fixed in position by welding, and the drill-out assembly 15 is rotatably connected to the intermediate support body 13.

The material arranging component 19 comprises a motor 191 fixed on the cover plate 11, a turning plate 192 connected with the motor, a first gear 193 fixed at the bottom of a motor shaft in a key connection manner, a first connecting column 194 arranged on the end surface of the first gear, a mounting hole 197 arranged at the bottom of the turning plate, a push block 195 fixed in the mounting hole, and a positioning component 196 connected with the first gear through the first connecting column; the positioning assembly comprises a positioning block 1967 positioned in the sliding groove, a first spring 1966 fixed in the positioning block in a welding manner, a lantern ring 1965 positioned in the positioning block and fixedly connected with the first spring, a right-angle rod 1964 connected with the lantern ring through a thread connection, a support ring 1963 fixed at the bottom of the right-angle rod through a thread connection, a connecting rod 1961 hinged with the right-angle rod, and a fixing ring 1962 positioned at the bottom of the connecting rod; the fixing ring is connected with the first connecting column 194 through threads; the positioning block can horizontally slide in the sliding chute; the push block and the discharge hole 122 are positioned on the circumference with the same diameter by taking the motor shaft as the axis; the connecting rod 1961 is hinged with the first connecting column 194; the bottom of the push block 195 is a hemisphere, the top of the push block is welded with a spring, and the top of the spring is welded at the top of the mounting hole 197; when the hot-fix rhinestone automatic feeding device works, the motor 191 drives the turning plate 192 to rotate, the hot-fix rhinestones in the upper connecting ring 12 continuously fall from the upper surface of the turning plate 192 and are shoveled, so that the hot-fix rhinestones continuously roll and rotate, the hot-fix rhinestones with rubber bottoms facing downwards are clamped into the discharge hole 122 in the moving process and are clamped by the positioning block 1967 from the side surface, the positioning block 1967 cannot forcibly extrude the hot-fix rhinestones to be damaged when the right-angle rod 1964 continuously moves transversely, and the hot-fix rhinestones do not roll along with the rotation of the turning plate 192 at the moment; the shape of the turning plate 192 is as shown in fig. 8, the top of the turning plate 192 is in a slope shape, the bottom of the turning plate is provided with a gentle slope, the top surface and the bottom surface of the turning plate are provided with horizontal planes, the distance between the highest point of the bottom surface and the bottom surface of the upper connecting ring 12 is larger than the height of the iron rhinestone but smaller than the width of the iron rhinestone, the lowest point of the bottom surface of the turning plate is attached to the bottom surface of the upper connecting ring 12, when the turning plate 192 contacts the iron rhinestone, the slope surface of the bottom of the turning plate extrudes the iron rhinestone to enable the iron rhinestone to gradually and completely sink into the discharge hole 122, the turning plate 192 rotates until the push block 195 is positioned right above the discharge hole 122, the push block 195 pops out downwards under the action of the elastic force to push the iron rhinestone into the drill pipe 18, then the bottom hemisphere of the push block 195 contacts the side wall of the discharge hole 122, and the push block 195 returns to the mounting hole 197 again; if the rhinestone falls into the discharge hole 122 incorrectly, the rhinestone in the discharge hole 122 is cleaned by the lateral movement of the positioning block 1967 and the pushing of the turning plate 192.

The material saving component 20 comprises a supporting block 201 positioned in the discharge hole 122, a guide rod 204 arranged on one side of the supporting block, a second spring 202 fixedly connected to the bottom of the supporting block, a sliding sheet 203 welded to the bottom of the second spring, a fixed sliding block 205 used for supporting the sliding sheet, a sliding chute 206 arranged on the side wall of the fixed sliding block, a third spring 208 welded to the fixed sliding block, and a middle plate 207 welded to the third spring; the top of the slide block is welded and fixed on the inner wall surface of the upper connecting ring 12; the guide rod is positioned in the sliding groove; when the bottom of the turning plate 192 is not pressed to scald the drill, the supporting block 201 is located below the hot drill in the discharge hole 122 to support the hot drill, so that the hot drill is prevented from directly falling into the drill feed pipe 18, after the bottom surface of the hot drill falls into the discharge hole 122 downwards, the supporting block 201 moves downwards due to the extrusion of the turning plate 192, the hot drill is completely immersed into the discharge hole 122, when the pushing block 195 pushes the hot drill to move downwards, the hot drill pushes the supporting block 201 to move, the guide rod 204 tilts downwards and slides downwards in the chute 206 in the meantime, the supporting block 201 tilts downwards and moves until the discharge hole 122 is communicated with the drill feed pipe 18, and the supporting block 201 is attached to the inner wall surface of the connecting ring 12 under the action of the second spring 202 in the process; with the pushing block 195 moving upwards, the supporting block 201 has no side barrier, the third spring 208 pushes the middle plate 207 to move transversely, the supporting plate 201 is driven to move transversely until the supporting plate moves to the position right below the discharging hole 122, the supporting plate 201 is clamped into the discharging hole 122 under the action of the second spring 202, and the material saving assembly 20 is reset.

The drill pipe 18 comprises a drill feeding channel 187, a plurality of notches 181 arranged on the periphery of the drill feeding channel, a rotating blade 182 which is positioned in the notch and is rotatably connected with the drill feeding channel, a one-way wheel 183 coaxially connected with the rotating blade, a latch 184 which is hinged with the notch and is contacted with the one-way wheel, a bump 185 arranged on the notch, and a compensation notch 186 arranged on the top of the drill feeding channel; the compensation gap is positioned right below the supporting block 201; the side surface of the lug is abutted against the side surface of the latch; the bit feed passage 187 is a circular passage having an inner diameter equal to the diameter of the bottom surface of the rhinestone; the shape of the one-way wheel 183 and the latch 184 is as shown in fig. 15, and the surface of the one-way wheel 183 is a tooth-shaped surface with one arc side and one straight side; the top of the latch 184 is semicircular, one side of the latch is in contact with the bump 185, one side of the bottom of the latch 184 is a cambered surface, the other side of the latch is a plane, and the latch is embedded into a tooth groove of the one-way wheel 183, so that the one-way wheel 183 and the rotary vane 182 can only rotate in one direction, when the rhinestone has a turning trend, one side of the rhinestone is raised, the other side of the rhinestone is lowered, the raised side extrudes the rotary vane 182, and the rhinestone cannot be turned over due to the fact that the latch 184 is blocked by the bump 185, the one-way wheel 183 is blocked by the latch 184, and the rotary vane 182 cannot rotate, so that the rhinestone cannot be turned over, and the direction of the rhinestone in-feeding channel 187 is ensured not to be changed; the top of the drill feeding channel 187 is tightly attached to the wall surface of the upper connecting ring 12, and the compensation notch 186186 is located on the sliding side of the supporting block 201, so that the supporting block 201 can be conveniently removed from the discharging hole 122.

The drilling and discharging assembly 15 comprises a second gear 151 meshed with the first gear 193, a supporting plate 152 and a rotary table 153 which are coaxially connected with the second gear, a second connecting column 154 arranged at the bottom of the rotary table, a pull rod 155 hinged with the rotary table through the second connecting column, a material ring 156 positioned at one end of the pull rod, a fourth spring 158 connected with the material ring, a stop block 157 connected with the fourth spring, and a plurality of supporting strips 159 for supporting the material ring; the supporting bars are positioned at two sides of the material ring and fixed at the top of the lower connecting ring 14; the material ring is positioned below the drilling pipe; a sliding groove 1651 is formed in the side face of the material ring; the block and the fourth spring are positioned in the sliding groove; one end of the pull rod is positioned in the sliding groove; the intermediate support 13 supports the drill-out assembly 15 at the bottom of the support plate 153; the middle part of the material ring 156 is provided with a hole; the motor 191 drives the first gear 193 to rotate, so that the second gear 151 and the rotary disc 153 rotate, the pull rod 122 is driven to translate, the material ring 156 is pushed to move to the position under the drill feeding channel 187, one end of the material ring 156 contacts the inner side surface of the middle support body 13 at the moment, the rotary disc 153 continues to rotate, due to the action of the blocking block 157 and the fourth spring 1568, the pull rod 122 slides in the sliding groove 1651, the material ring 156 stays at the bottom of the drill feeding channel 187, so that the hot drill is guaranteed to have enough time to be clamped in the material ring 156, then the pull rod 122 drives the material ring 156 to move to the position under the air cylinder 17, the air cylinder 17 works to send the hot drill to the cloth from the hot drill head 16, and hot drawing is completed through the existing ultrasonic hot drill technology; the inner diameter of the hot drill bit 16 and the aperture of the material ring 156 are smaller than the diameter of the bottom surface of the hot drill by 0.2-0.5 mm, so as to ensure that the hot drill cannot turn over when moving in the material ring 156 and the hot drill bit 16.

The working process of the invention is as follows: the rhinestone is placed in the upper connecting ring 12 through the upper drill opening 6, the turning plate 192 is driven to rotate through the motor 191, the rhinestone is sent into the drill feeding channel 187 one by one in a mode that the rubber bottom faces downwards, and the support plate 201 controls the connection and disconnection of the discharge hole 122 and the drill feeding channel 187 in the process; the hot drills in the drill feeding channel 187 move downwards one by one, in the process, the rotary table 153 drives the material ring 156 to move to the position right below the drill feeding channel 187, the hot drills falling from the drill feeding channel 187 are fed into the material ring 156 from the hot drill opening, the pull rod 155 drives the material ring to move to the position right below the air cylinder 17, the air cylinder 17 works to press the hot drills downwards onto the cloth surface from the material ring 156 through the hot drill 16, and the hot drills are adhered to the cloth surface in the existing ultrasonic hot drill mode; when the rhinestone hot-fix pen 1 is moved, the arm is placed on the hand support 3, the handle 4 is held by the hand, the rhinestone hot-fix pen can be moved to a specified position by pushing the arm, and the switch piece on the handle 4 is pressed to enable the air cylinder 17 to work, so that the hot-fix is completed.

It is to be understood that the described embodiments are merely a few embodiments of the invention, 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 invention.

Claims (1)

1. An ultrasonic rhinestone hot-fix device comprises a hot-fix rhinestone pen (1), a mounting ring (2) fixed on the hot-fix rhinestone pen, a hand support (3) arranged on the mounting ring, a handle (4) arranged on the hand support, a slide bar (5) used for supporting the hot-fix rhinestone pen and the hand support, an upper drilling opening (6) arranged at the top of the hot-fix rhinestone pen, a plurality of slide rails (9) used for supporting the slide bars, a plurality of press plates (7) fixed among the slide rails, a plurality of press bars (8) positioned below the press plates, and a plurality of gas channels (10) arranged on the hot-fix rhinestone pen; the method is characterized in that: the hot drill pen (1) comprises a middle support body (13) connected with the mounting ring, an upper connecting ring (12) fixed above the middle support body, a cover plate (11) fixed on the upper connecting ring, a lower connecting ring (14) fixed below the middle support body, a drill discharging assembly (15) positioned in the middle support body, a hot drill bit (16) fixed on the lower connecting ring, an air cylinder (17) fixed inside the middle support body, a drill conveying pipe (18) positioned in the middle support body, a material sorting assembly (19) arranged on the cover plate and a material saving assembly (20) positioned below the material sorting assembly; a chute (121) is arranged on the upper connecting ring; one side of the chute is communicated with a discharge hole (122); the gas channel is arranged on the middle support body and communicated with the cylinder; the upper drilling opening is formed in the cover plate; the drill feeding pipe is positioned right below the discharge hole;

the material arranging component (19) comprises a motor (191) fixed on the cover plate (11), a turning plate (192) connected with the motor, a first gear (193) fixed on the motor, a first connecting column (194) arranged on the end face of the first gear, a mounting hole (197) arranged at the bottom of the turning plate, a push block (195) fixed in the mounting hole, and a positioning component (196) connected with the first gear through the first connecting column; the positioning assembly comprises a positioning block (1967) positioned in the sliding groove, a first spring (1966) fixed in the positioning block, a lantern ring (1965) positioned in the positioning block and fixedly connected with the first spring, a right-angle rod (1964) connected with the lantern ring, a support ring (1963) fixed at the bottom of the right-angle rod, a connecting rod (1961) connected with the right-angle rod and a fixing ring (1962) positioned at the bottom of the connecting rod; the fixing ring is connected with a first connecting column (194); the positioning block can horizontally slide in the sliding chute; the push block and the discharge hole (122) are positioned on the circumference with the same diameter by taking the motor shaft as the axis;

the material saving assembly (20) comprises a supporting block (201) positioned in the discharge hole (122), a guide rod (204) arranged on one side of the supporting block, a second spring (202) fixed at the bottom of the supporting block, a sliding sheet (203) fixed at the bottom of the second spring, a fixed sliding block (205) used for supporting the sliding sheet, an inclined groove (206) arranged on the side wall of the fixed sliding block, a third spring (208) connected with the fixed sliding block and a middle plate (207) connected with the third spring; the top of the slide block is fixed on the inner wall surface of the upper connecting ring (12); the guide rod is positioned in the chute;

the drill pipe (18) comprises a drill feeding channel (187), notches (181) arranged on the periphery of the drill feeding channel, a rotating blade (182) positioned in the notch and connected with the drill feeding channel, a one-way wheel (183) coaxially connected with the rotating blade, a latch (184) connected with the notch and contacted with the one-way wheel, a convex block (185) arranged on the notch and a compensation notch (186) arranged at the top of the drill feeding channel; the compensation notch is positioned right below the supporting block (201); the side surface of the lug abuts against the side surface of the latch;

the drill discharging assembly (15) comprises a second gear (151) meshed with the first gear (193), a supporting plate (152) and a rotary table (153) which are coaxially connected with the second gear, a second connecting column (154) arranged at the bottom of the rotary table, a pull rod (155) connected with the rotary table through the second connecting column, a material ring (156) positioned at one end of the pull rod, a fourth spring (158) connected with the material ring, a stopping block (157) connected with the fourth spring, and a plurality of supporting strips (159) used for supporting the material ring; a sliding groove (1651) is formed in the side face of the material ring; the block and the fourth spring are positioned in the sliding groove; one end of the pull rod is positioned in the sliding groove; the supporting bars are positioned at two sides of the material ring and fixed at the top of the lower connecting ring (14); the material ring is positioned below the drill pipe.

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