CN108825782B - Welding seed hair equipment - Google Patents

Abstract

The invention provides a welding seed hair device. The processing device solves the technical problems that no corresponding one-step processing equipment exists in the prior art, the processing needs to be carried out for multiple times, the processing efficiency is low, and the like. The welding wool-planting device comprises a frame, wherein a driven shaft is horizontally arranged at one end of the frame, a driven wheel is fixed on the driven shaft, a driving shaft is horizontally arranged at the other end of the frame, the end part of the driving shaft is connected with a power structure capable of driving the driving shaft to rotate, a driving wheel is fixed on the driving shaft, a ring-shaped steel belt is sleeved between the driving wheel and the driven wheel and provided with a conveying section and a return section, a winding mechanism capable of winding yarns on the steel belt, a feeding mechanism I capable of conveying a bottom plate to the steel belt, an ultrasonic welding mechanism capable of welding the bottom plate and a yarn coil, a slitting mechanism capable of slitting semi-finished products and an output mechanism capable of outputting finished products are sequentially arranged on the frame; the frame is also provided with an auxiliary structure. The invention has the advantage of high production efficiency.

Description

Welding seed hair equipment

Technical Field

The invention belongs to the technical field of sealing strips, and relates to a wool welding device.

Background

The sealing strip is a product which seals things, is not easy to open, and has the functions of shock absorption, water resistance, sound insulation, heat insulation, dust prevention, fixation and the like. The sealing strip mainly comprises wool tops and hairbrush strips, and mainly comprises silk wool, films and a bottom plate.

In the prior art, no corresponding one-step processing equipment is needed, the processing is needed to be carried out for a plurality of times, and the processing efficiency is low, so that the design of a welding seed hair equipment is necessary.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a welding hair-growing device which has the characteristic of high production efficiency.

The aim of the invention can be achieved by the following technical scheme: the welding wool production equipment comprises a frame, and is characterized in that a driven shaft is horizontally arranged at one end of the frame, a driven wheel is fixed on the driven shaft, a driving shaft is horizontally arranged at the other end of the frame, the end part of the driving shaft is connected with a power structure capable of driving the driving shaft to rotate, a driving wheel is fixed on the driving shaft, a ring-shaped steel belt is sleeved between the driving wheel and the driven wheel, the steel belt is provided with a conveying section and a return section, and a winding mechanism capable of winding yarns on the steel belt, a first feeding mechanism capable of conveying a bottom plate to the steel belt, an ultrasonic welding mechanism capable of welding the bottom plate and a yarn coil, a cutting mechanism capable of cutting a semi-finished product and an output mechanism capable of outputting the finished product are sequentially arranged on the frame; the frame is also provided with an auxiliary structure.

The working principle of the invention is as follows: the driving shaft is driven to rotate through the power structure, the driving shaft drives the driving wheel to rotate, the driving wheel drives the steel belt to rotate, yarns are wound on the conveying section of the steel belt through the winding mechanism, the upper side and the lower side of the conveying section of the yarn coil and the steel belt are not contacted under the action of the auxiliary structure, the two bottom plates are respectively conveyed to the left side and the right side of the conveying section of the steel belt through the first feeding mechanism, the bottom plates and the yarn coil are welded together through the ultrasonic welding mechanism, the semi-finished products are divided into two through the dividing and cutting mechanism, the finished products are output through the output mechanism, and therefore one-step production of the sealing strip can be realized, and the production efficiency is high.

The auxiliary structure comprises a first mounting bar, a second mounting bar and a steel wire rope, wherein the first mounting bar is fixed at one end of the frame, the first mounting bar is close to the driven shaft, the second mounting bar is fixed at the other end of the frame, the second mounting bar is close to the driving shaft, one end of the steel wire rope is connected with the first mounting bar, the other end of the steel wire rope is connected with the second mounting bar, the steel wire rope comprises a first rope body, a second rope body, a third rope body and a fourth rope body, the first rope body and the second rope body are respectively located right above a conveying section of the steel belt, and the third rope body and the fourth rope body are respectively located right below the conveying section of the steel belt.

By adopting the structure, the upper side and the lower side of the conveying section of the yarn coil and the steel belt can be free from contact through the steel wire rope, and the slitting mechanism can not interfere with the steel belt when slitting the yarn coil.

The auxiliary structure further comprises a third installation bar, a fourth installation bar, a first positioning block and a second positioning block, wherein the third installation bar is fixed at one end of the frame, the third installation bar is close to the first installation bar, a first guide limiting groove capable of guiding and limiting one end of the steel wire is formed in the first positioning block, the conveying section of the steel belt penetrates through the first guide limiting groove, the fourth installation bar is fixed at the other end of the frame, the fourth installation bar is close to the second installation bar, a second guide limiting groove capable of guiding and limiting the other end of the steel wire is formed in the second positioning block, and the conveying section of the steel belt penetrates through the second guide limiting groove.

By adopting the structure, the steel wire rope can be conveniently installed through the functions of the first positioning block and the second positioning block.

The winding mechanism comprises a first mounting plate and a winding drum, the first mounting plate is fixed on a frame, the winding drum is rotatably arranged on the first mounting plate, the winding drum is horizontally arranged and is connected with a first driving structure capable of enabling the winding drum to rotate, one end of the winding drum is an input end, the other end of the winding drum is an output end, a winding channel penetrating through the input end and the output end is arranged in the winding drum, a conveying section of a steel belt penetrates through the winding channel, a plurality of mounting plates are sleeved outside the winding drum, a plurality of placing rods for placing yarn drums are arranged on the mounting plates, a plurality of guide holes communicated with the winding channel are formed in the side portion of the input end, and the guide holes are distributed in a ring shape.

By adopting the structure, a plurality of yarn barrels are placed on the corresponding placing rod I, yarns are input to the conveying section of the steel belt through the guide holes, the winding barrels are driven to rotate through the driving structure, the yarns are sequentially wound on the conveying section of the steel belt along with the rotation of the winding barrels, and the yarn rolls are not contacted with the upper side and the lower side of the conveying section of the steel belt due to the action of the steel wire rope.

The mounting plate is also provided with a plurality of guide holes for guiding yarns.

By adopting the structure, the yarn can be guided through the guide hole, so that the yarn can be smoothly conveyed to the guide hole.

The number of the first feeding mechanisms is two, the first feeding mechanisms are arranged left and right relative to the steel belt, each first feeding mechanism comprises a second mounting plate and a feeding pipe, the second mounting plate is fixed on the frame, the feeding pipes are horizontally fixed on the second mounting plate and located on the side of the steel belt, and feeding channels for the bottom plate to pass through are formed in the feeding pipes.

By adopting the structure, the bottom plate can be smoothly conveyed through the conveying pipe.

The ultrasonic welding mechanism is characterized in that the ultrasonic welding mechanism is arranged in two, the two ultrasonic welding mechanisms are arranged left and right relative to the steel belt, each ultrasonic welding mechanism comprises a mounting plate III, an ultrasonic welding machine, a supporting wheel, a mounting seat and a first guide rod, the mounting plate III is fixed on the frame, the ultrasonic welding machine is fixed on the mounting plate III, the welding head of the ultrasonic welding machine is horizontally arranged, the welding head of the ultrasonic welding machine is propped against one side of the conveying section of the steel belt, the mounting seat is arranged on the mounting plate III, the mounting seat is connected with a moving assembly capable of driving the ultrasonic welding machine to move back and forth, the supporting wheels are rotatably arranged on the mounting seat, the supporting wheels can prop against the other side of the conveying section of the steel belt, a gap for the steel belt to pass through is reserved between the supporting wheels and the welding head of the ultrasonic welding machine, the first guide rod is vertically fixed on the mounting plate III, and the first guide rod is positioned on the side of the ultrasonic welding machine and is provided with a first guide part capable of enabling the bottom plate to be vertically guided.

By adopting the structure, the bottom plate conveyed by the conveying pipe is led to the conveying section of the steel belt in a vertical state through the first guide rod, the side part of the conveying section of the steel belt is supported through the supporting wheel, and under the action of the ultrasonic welding machine, the two bottom plates are respectively welded on the left side and the right side of the yarn roll on the conveying section of the steel belt, so that the welding is convenient.

The moving assembly comprises a cylinder, the cylinder is fixed on the mounting plate III, a piston rod of the cylinder is horizontally arranged, and the end part of the piston rod of the cylinder is connected with the mounting seat.

By adopting the structure, the piston rod of the control cylinder moves back and forth, the piston rod of the control cylinder drives the mounting seat to move back and forth, and the mounting seat drives the supporting wheel to move back and forth, so that the supporting wheel can be close to or far away from the steel belt.

The number of the slitting mechanisms is two, the two slitting mechanisms are arranged up and down relative to the conveying sections of the steel belt, each slitting mechanism comprises a mounting plate IV, a slitting knife, a rotating shaft and a mounting frame, the mounting plate IV is fixed on the frame, the mounting frame is fixed on the mounting plate IV, the rotating shaft is horizontally arranged on the mounting frame, one end of the rotating shaft is connected with a driving structure II capable of driving the rotating shaft to rotate, and the other end of the rotating shaft is connected with the slitting knife.

By adopting the structure, the second driving structure drives the rotating shaft to rotate, the rotating shaft drives the slitting knife to rotate, and the upper side and the lower side of the semi-finished product are slit by the slitting knife, so that the semi-finished product is divided into two sealing strips.

The number of the output mechanisms is two, the two output mechanisms are arranged left and right relative to the steel belt, each output mechanism comprises a mounting plate five, an output belt I and an output belt II, the mounting plate five is fixed on the frame, the output belt I and the output belt II are respectively arranged on the mounting plate five, and the output belt I and the output belt II have a gap for a finished product to pass through.

With the structure, the sealing strip of the finished product can be output through synchronous rotation of the output belt I and the output belt II.

The power structure comprises a gear motor, the gear motor is fixed on the frame, an output shaft of the gear motor is horizontally arranged, and the end part of the driving shaft is connected with the end part of the output shaft of the gear motor through a coupler.

By adopting the structure, the output shaft of the speed reducing motor is controlled to rotate, the output shaft of the speed reducing motor drives the driving shaft to rotate, and the driving shaft drives the driving wheel to rotate, so that the driving wheel can rotate.

The first driving structure comprises a first driving motor, a first main driving wheel, a first auxiliary driving wheel and a first driving belt, wherein the first driving motor is fixed on the frame, an output shaft of the first driving motor is horizontally arranged, the first main driving wheel is fixed at the end part of the output shaft of the first driving motor, the first auxiliary driving wheel is fixed at the output end of the winding drum, and the first driving belt is sleeved between the first main driving wheel and the first auxiliary driving wheel.

With the adoption of the structure, the output shaft of the first driving motor is controlled to rotate, the output shaft of the first driving motor drives the first main driving wheel to rotate, the first main driving wheel drives the first auxiliary driving wheel to rotate through the first driving belt, and the second auxiliary driving wheel drives the winding drum to rotate, so that the winding drum can rotate.

The second driving structure comprises a second driving motor, a second main driving wheel, a second driven driving wheel and a second driving belt, wherein the second driving motor is fixed on a fourth mounting plate, an output shaft of the second driving motor is horizontally arranged, the second main driving wheel is fixed at the end part of the output shaft of the second driving motor, the second driven driving wheel is fixed at one end of the rotating shaft, and the second driving belt is sleeved between the second main driving wheel and the second driven driving wheel.

By adopting the structure, the output shaft of the driving motor II is controlled to rotate, the output shaft of the driving motor II drives the main driving wheel II to rotate, the main driving wheel II drives the auxiliary driving wheel II to rotate through the driving belt II, and the auxiliary driving wheel II drives the rotating shaft to rotate, so that the rotating shaft can rotate.

The film conveying device is characterized in that a feeding mechanism II capable of conveying films to the steel belt is further arranged on the frame, the feeding mechanism II comprises a mounting plate six, a moving seat, a guide rod, an upright post, a mounting bar five and a guide bar II, the mounting plate six is fixed on the frame, the mounting plate six is close to a driven shaft, the guide rod is horizontally fixed on the mounting plate, the guide rod is parallel to the driven shaft, the moving seat is arranged on the guide rod, the upright post is fixed on the moving seat, a placing bar II for placing films is fixed on the upright post, the mounting bar five is fixed on the frame, the mounting bar five is located between the mounting bar two and the mounting plate one end of the mounting bar five, the guide bar is located right above a conveying section of the steel belt, a guide portion II capable of horizontally guiding films is arranged on the guide bar two, an auxiliary block is further fixed on the other end of the mounting bar five, an auxiliary channel is formed in the auxiliary block, and the conveying section of the steel belt penetrates through the auxiliary channel.

When the sealing strip with the film is required to be produced, the film is rolled on the second placing rod, the film is horizontally guided to the position right above the conveying section of the steel belt through the second material guiding rod, and the film covers the left side and the right side of the conveying section of the steel belt under the action of the auxiliary channel of the auxiliary block, so that the film can be conveyed; under the action of the winding drum, the yarn wraps the film inside.

The machine frame is also provided with two trimming mechanisms, and the two trimming mechanisms are arranged left and right relative to the steel belt.

The trimming mechanism includes a shaping structure capable of shaping the filament and a trimming structure capable of trimming the filament.

By adopting the structure, the silk and wool of the sealing strip is shaped through the shaping structure, so that the silk and wool are completely and vertically arranged; and the silk and wool of the sealing strip are trimmed through the trimming structure, so that the heights of the silk and wool are consistent.

The shaping structure comprises a mounting plate seven, a shaping wheel I, a shaping wheel II, a rotating shaft I and a rotating shaft II, wherein the mounting plate seven is fixed on the frame, the mounting plate seven is positioned between the mounting plate four and the mounting plate five, the rotating shaft I and the rotating shaft II are respectively and vertically arranged on the mounting plate seven, the shaping wheel I is fixed at the upper end of the rotating shaft I, the shaping wheel II is fixed at the upper end of the rotating shaft II, and a driving assembly capable of enabling the rotating shaft I and the rotating shaft II to synchronously rotate is further arranged on the mounting plate seven.

By adopting the structure, the first rotating shaft and the second rotating shaft synchronously rotate through the driving assembly, the first rotating shaft and the second rotating shaft respectively drive the first shaping wheel and the second shaping wheel to rotate, and the silk wool of the sealing strip is shaped under the action of the first shaping wheel and the second shaping wheel, so that the shaping is reliable.

The driving assembly comprises a first gear, a second gear, a third driving motor, a third main driving wheel, a third driven wheel and a third driving belt, wherein the first gear is fixed in the middle of the first rotating shaft, the second gear is fixed in the middle of the second rotating shaft, the first gear is meshed with the second gear, the third driving motor is fixed on a mounting plate seven, an output shaft of the third driving motor is vertically arranged, the third main driving wheel is fixed at the end part of the output shaft of the third driving motor, the third driven wheel is fixed at the lower end of the first rotating shaft, and the third driving belt is sleeved between the third main driving wheel and the third driven wheel.

With the adoption of the structure, the output shaft of the driving motor III is controlled to rotate, the output shaft of the driving motor III drives the main driving wheel III to rotate, the main driving wheel III drives the auxiliary driving wheel III to rotate through the driving belt III, the auxiliary driving wheel III drives the rotating shaft I to rotate, the rotating shaft I drives the gear I to rotate, the gear I drives the gear II to rotate, and the gear II drives the rotating shaft II to rotate, so that the rotating shaft I and the rotating shaft II can synchronously rotate.

The trimming structure comprises an installation plate eight, a support plate and a trimmer, wherein the installation plate eight is fixed on the frame, the installation plate eight is positioned between the installation plate seven and the installation plate five, the support plate is fixed on the installation plate eight, an inclined support surface is arranged on the support plate, the trimmer is fixed on the support plate, a gap for a finished product to pass through is reserved between the trimmer and the support plate, and a cleaning assembly capable of cleaning waste wool is further arranged on the installation plate eight.

By adopting the structure, the silk and wool of the sealing strip are trimmed by the trimmer, so that the silk and wool heights of the sealing strip are consistent.

The frame is also provided with a plurality of leading-in components, each leading-in component comprises a supporting bar and two leading-in wheels, the supporting bar is fixed on the frame, the two leading-in wheels are respectively arranged on the supporting bar, and a gap for a steel belt to pass through is formed between the two leading-in wheels.

By adopting the structure, the steel belt can be guided by the guide-in wheel, so that the steel belt can smoothly enter the required position.

The welding wool production equipment further comprises a plow groove structure capable of carrying out plow groove on the bottom plate, the plow groove structure comprises a workbench, a discharging frame, a first supporting guide wheel, a second supporting guide wheel, a pressing roller, a traction roller, a fixing frame, a fixing strip, a fixing seat and a plow groove knife, wherein the workbench is connected with one end of the rack, the discharging frame is fixed at one end of the workbench, a discharging shaft for placing a bottom plate roll is arranged on the discharging frame, the fixing frame is fixed at the other end of the workbench, the pressing roller and the traction roller are horizontally arranged on the fixing frame, a gap for the bottom plate to pass through is formed between the pressing roller and the traction roller, the end part of the traction roller is connected with a power assembly capable of driving the traction roller to rotate, the fixing strip is fixed at the middle part of the workbench, the first supporting guide wheel and the second supporting guide wheel are rotatably arranged on the fixing strip, the fixing seat is fixed at the middle part of the workbench, the plow groove knife is horizontally arranged on the fixing seat, and a gap for the bottom plate to pass through is formed between the cutter head of the plow groove knife and the second supporting guide wheel.

By adopting the structure, one end of the bottom plate on the discharging shaft is sequentially wound on the first supporting guide wheel and the second supporting guide wheel, and penetrates out from between the pressing roller and the traction roller, the bottom plate is moved through the traction roller, a plow groove is carried out on the bottom plate under the action of a plow groove knife and the second supporting guide wheel, and after the plow groove is well carried out, the bottom plate is led into the steel belt through the feeding pipe.

Compared with the prior art, the welding seed hair equipment has the advantages that:

according to the invention, the driving shaft is driven to rotate by the power structure, the driving shaft drives the driving wheel to rotate, the driving wheel drives the steel belt to rotate, yarns are wound on the conveying section of the steel belt by the winding mechanism, the upper side and the lower side of the conveying section of the steel belt are not contacted under the action of the auxiliary structure, two bottom plates are respectively conveyed to the left side and the right side of the conveying section of the steel belt by the first feeding mechanism, the bottom plates and the yarns are welded together by the ultrasonic welding mechanism, the semi-finished product is divided into two strips by the dividing mechanism, and the finished product is output by the output mechanism, so that one-step production of the sealing strip can be realized, and the production efficiency is high.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a removed portion of the present invention.

Fig. 3 is a schematic perspective view of a winding mechanism according to the present invention.

Fig. 4 is a schematic perspective view of an ultrasonic welding mechanism according to the present invention.

Fig. 5 is a partial enlarged view at a in fig. 1.

Fig. 6 is a schematic plan view of the shaping structure of the present invention.

Fig. 7 is a schematic perspective view of the plow groove structure of the present invention.

In the figure, 1, a rack; 2. a mounting plate six; 3. a driven shaft; 4. driven wheel; 5. a fifth mounting bar; 6. a first mounting plate; 7. driving a first motor; 8. a steel strip; 9. a support bar; 10. a third mounting plate; 11. a feed pipe; 12. a mounting plate IV; 13. a mounting plate seven; 14. a mounting plate eight; 15. a mounting plate V; 16. a speed reducing motor; 17. a driving wheel; 18. an output belt I; 19. an output belt II; 20. a second mounting bar; 21. a mounting strip IV; 22. a second positioning block; 23. a second mounting plate; 24. an introduction wheel; 25. a first positioning block; 26. a third mounting bar; 27. a first mounting strip; 28. an auxiliary block; 29. a second material guide rod; 30. a wire rope; 31. placing a second rod; 32. a column; 33. a movable seat; 34. a guide rod; 35. a winding drum; 35a, an introduction hole; 36. a primary drive wheel I; 37. driving a first belt; 38. a first slave driving wheel; 39. a mounting plate; 39a, guide holes; 41. placing a first rod; 42. a cylinder; 43. a mounting base; 44. a support wheel; 45. an ultrasonic welding machine; 46. a first material guide rod; 47. a dividing knife; 48. a mounting frame; 49. a rotating shaft; 51. a secondary driving wheel II; 52. a second driving belt; 53. a second main driving wheel; 54. a second driving motor; 55. shaping wheel I; 56. shaping wheel II; 57. a support plate; 58. a trimmer; 59. a first rotating shaft; 61. a second rotating shaft; 62. a second gear; 63. a first gear; 64. a slave drive wheel III; 65. a third driving belt; 66. a third driving motor; 67. a main driving wheel III; 68. a work table; 69. a fixing seat; 71. plow groove knives; 72. a second supporting guide wheel; 73. a traction roller; 74. a fixing frame; 75. a pinch roller; 76. supporting a first guide wheel; 77. a fixing strip; 78. a discharging shaft; 79. and (5) discharging the material frame.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 7, the welding hair-growing device comprises a frame 1, wherein a driven shaft 3 is horizontally arranged at one end of the frame 1, a driven wheel 4 is fixed on the driven shaft 3, and in the embodiment, the driven wheel 4 is fixed on the driven shaft 3 in a key connection mode; a driving shaft is horizontally arranged at the other end of the frame 1, the end part of the driving shaft is connected with a power structure capable of driving the driving shaft to rotate, a driving wheel 17 is fixed on the driving shaft, and in the embodiment, the driving wheel 17 is fixed on the driving shaft in a key connection mode; a steel belt 8 in a ring shape is sleeved between the driving wheel 17 and the driven wheel 4, and in the embodiment, the steel belt 8 adopts the existing products available in the market; the steel strip 8 has a conveying section and a return section; the frame 1 is sequentially provided with a winding mechanism capable of winding yarns on the steel belt 8, a feeding mechanism I capable of conveying the bottom plate to the steel belt 8, an ultrasonic welding mechanism capable of welding the bottom plate and the yarn coil, a slitting mechanism capable of slitting semi-finished products and an output mechanism capable of outputting the finished products; the frame 1 is also provided with an auxiliary structure.

The auxiliary structure comprises a first installation strip 27, a second installation strip 20 and a steel wire rope 30, wherein the first installation strip 27 is fixed on one end of the frame 1, and in the embodiment, the first installation strip 27 is fixed on one end of the frame 1 in a bolt connection mode; the first installation bar 27 is close to the driven shaft 3, the second installation bar 20 is fixed at the other end of the frame 1, the second installation bar 20 is close to the driving shaft, one end of the steel wire rope 30 is connected with the first installation bar 27, and in the embodiment, one end of the steel wire rope 30 is connected with the first installation bar 27 in a bolt connection mode; the other end of the steel wire rope 30 is connected with the second installation bar 20, and in the embodiment, the other end of the steel wire rope 30 is connected with the second installation bar 20 in a bolt connection mode; the steel wire rope 30 comprises a rope body I, a rope body II, a rope body III and a rope body IV, wherein the rope body I and the rope body IV are respectively positioned right above the conveying section of the steel belt 8, and the rope body III and the rope body IV are respectively positioned right below the conveying section of the steel belt 8.

The auxiliary structure further comprises a third mounting bar 26, a fourth mounting bar 21, a first positioning block 25 and a second positioning block 22, wherein the third mounting bar 26 is fixed at one end of the frame 1, and in the embodiment, the third mounting bar 26 is fixed at one end of the frame 1 in a bolt connection manner; the third mounting bar 26 is close to the first mounting bar 27, a first guiding and limiting groove capable of guiding and limiting one end of the steel wire is formed in the first positioning block 25, the conveying section of the steel belt 8 passes through the first guiding and limiting groove, the fourth mounting bar 21 is fixed at the other end of the frame 1, and in the embodiment, the fourth mounting bar 21 is fixed at the other end of the frame 1 in a bolt connection mode; the mounting bar IV 21 is close to the mounting bar II 20, a guide limit groove II capable of guiding and limiting the other end of the steel wire is formed in the positioning block II 22, and the conveying section of the steel belt 8 passes through the guide limit groove II; with this structure, the installation of the wire rope 30 can be facilitated by the action of the first positioning block 25 and the second positioning block 22.

According to practical situations, the scheme can also be adopted, the auxiliary structure comprises a steel wire rope 30, the steel wire rope 30 is fixed on the steel belt 8, the steel wire rope 30 comprises a first rope body, a second rope body, a third rope body and a fourth rope body, the first rope body and the fourth rope body are respectively positioned on the outer surface of the steel belt 8, a gap is reserved between the first rope body and the second rope body, the third rope body and the fourth rope body are respectively positioned on the inner surface of the steel belt 8, and a gap is reserved between the third rope body and the fourth rope body.

The winding mechanism comprises a first mounting plate 6 and a winding cylinder 35, wherein the first mounting plate 6 is fixed on the frame 1, and in the embodiment, the first mounting plate 6 is fixed on the frame 1 in a bolt connection mode; the winding drum 35 is rotatably arranged on the first mounting plate 6, the winding drum 35 is horizontally arranged, the winding drum 35 is connected with a first driving structure capable of enabling the winding drum 35 to rotate, one end of the winding drum 35 is an input end, the other end of the winding drum 35 is an output end, a winding channel penetrating through the input end and the output end is arranged in the winding drum 35, a conveying section of the steel belt 8 penetrates through the winding channel, a plurality of mounting discs 39 are sleeved outside the winding drum 35, and in the embodiment, the number of the mounting discs 39 is three; the mounting plates 39 have a plurality of first placement bars 41 for placing the yarn packages, in this embodiment, six first placement bars 41 on each mounting plate 39; the side of the input end is also provided with a plurality of lead-in holes 35a communicated with the winding channel, and in the embodiment, the number of the lead-in holes 35a is twelve; and the introduction holes 35a are annularly distributed.

The mounting plate 39 is also provided with a plurality of guide holes 39a for guiding yarns; in the present embodiment, thirty guide holes 39a are also provided in the mounting plate 39; with this structure, the yarn can be guided through the guide hole 39a and smoothly fed to the guide hole 35 a.

The number of the first feeding mechanisms is two, the first feeding mechanisms are arranged left and right relative to the steel belt 8, the first feeding mechanisms comprise a second mounting plate 23 and a feeding pipe 11, the second mounting plate 23 is fixed on the frame 1, and in the embodiment, the second mounting plate 23 is fixed on the frame 1 in a bolt connection mode; the feeding pipe 11 is horizontally fixed on the second mounting plate 23, and the feeding pipe 11 is positioned at the side part of the steel belt 8, and a feeding channel for the bottom plate to pass through is arranged in the feeding pipe 11.

The number of the ultrasonic welding mechanisms is two, the two ultrasonic welding mechanisms are arranged left and right relative to the steel belt 8, each ultrasonic welding mechanism comprises a mounting plate III 10, an ultrasonic welding machine 45, a supporting wheel 44, a mounting seat 43 and a guide rod I46, the mounting plate III 10 is fixed on the frame 1, and in the embodiment, the mounting plate III 10 is fixed on the frame 1 in a bolt connection mode; the ultrasonic welder 45 is fixed on the mounting plate III 10, the welding head of the ultrasonic welder 45 is horizontally arranged, the welding head of the ultrasonic welder 45 is propped against one side of the conveying section of the steel belt 8, the mounting seat 43 is arranged on the mounting plate III 10, the mounting seat 43 is connected with a moving assembly capable of driving the ultrasonic welder to move back and forth, the supporting wheel 44 is rotatably arranged on the mounting seat 43, the supporting wheel 44 is propped against the other side of the conveying section of the steel belt 8, a gap for the steel belt 8 to pass through is reserved between the supporting wheel 44 and the welding head of the ultrasonic welder 45, the first guide rod 46 is vertically fixed on the mounting plate III 10, the first guide rod 46 is positioned on the side part of the ultrasonic welder 45, and the first guide rod 46 is provided with a first guide part capable of enabling the bottom plate to be vertically guided.

The moving assembly comprises an air cylinder 42, wherein the air cylinder 42 is fixed on the mounting plate III 10, and in the embodiment, the air cylinder 42 is fixed on the mounting plate III 10 in a bolt connection mode; the piston rod of the air cylinder 42 is horizontally arranged, and the end part of the piston rod of the air cylinder 42 is connected with the mounting seat 43; with this structure, the piston rod of the control cylinder 42 drives the mounting seat 43 to move back and forth, and the mounting seat 43 drives the supporting wheel 44 to move back and forth, so that the supporting wheel 44 can be close to or far from the steel belt 8.

The number of the slitting mechanisms is two, the two slitting mechanisms are arranged up and down relative to the conveying sections of the steel belt 8, each slitting mechanism comprises a mounting plate IV 12, a slitting knife 47, a rotating shaft 49 and a mounting frame 48, the mounting plate IV 12 is fixed on the frame 1, and in the embodiment, the mounting plate IV 12 is fixed on the frame 1 in a bolt connection mode; the mounting bracket 48 is fixed on mounting panel four 12, and axis of rotation 49 level sets up on mounting bracket 48, and axis of rotation 49 one end links to each other with first drive structure second that can drive its rotation, and the axis of rotation 49 other end links to each other with cutting knife 47.

The number of the output mechanisms is two, the two output mechanisms are arranged left and right relative to the steel belt 8, each output mechanism comprises a mounting plate five 15, an output belt one 18 and an output belt two 19, the mounting plate five 15 is fixed on the frame 1, the output belt one 18 and the output belt two 19 are respectively arranged on the mounting plate five 15, and the output belt one 18 and the output belt two 19 have a gap for a finished product to pass through; in this embodiment, the power sources of the first output belt 18 and the second output belt 19 are the prior art; with this structure, the sealing strip of the finished product can be output by the synchronous rotation of the output belt I18 and the output belt II 19.

The power structure comprises a gear motor 16, the gear motor 16 is fixed on the frame 1, and in the embodiment, the gear motor 16 is fixed on the frame 1 in a bolt connection mode; the output shaft of the gear motor 16 is horizontally arranged, and the end part of the driving shaft is connected with the end part of the output shaft of the gear motor 16 through a coupler.

The first driving structure comprises a first driving motor 7, a first main driving wheel 36, a first driven wheel 38 and a first driving belt 37, wherein the first driving motor 7 is fixed on the frame 1, and in the embodiment, the first driving motor 7 is fixed on the frame 1 in a bolt connection mode; the output shaft of the first driving motor 7 is horizontally arranged, the first main driving wheel 36 is fixed at the end part of the output shaft of the first driving motor 7, the first auxiliary driving wheel 38 is fixed at the output end of the winding drum 35, and the first driving belt 37 is sleeved between the first main driving wheel 36 and the first auxiliary driving wheel 38.

The second driving structure comprises a second driving motor 54, a second main driving wheel 53, a second driven wheel 51 and a second driving belt 52, wherein the second driving motor 54 is fixed on the fourth mounting plate 12, and in the embodiment, the second driving motor 54 is fixed on the fourth mounting plate 12 in a bolt connection manner; the output shaft of the second driving motor 54 is horizontally arranged, the second main driving wheel 53 is fixed at the end part of the output shaft of the second driving motor 54, the second driven wheel 51 is fixed at one end of the rotating shaft 49, and the second driving belt 52 is sleeved between the second main driving wheel 53 and the second driven wheel 51.

The frame 1 is also provided with a feeding mechanism II which can convey the film to the steel belt 8, the feeding mechanism II comprises a mounting plate six 2, a movable seat 33, a guide rod 34, a stand column 32, a mounting bar five 5 and a guide rod two 29, the mounting plate six 2 is fixed on the frame 1, and in the embodiment, the mounting plate six 2 is fixed on the frame 1 in a bolt connection mode; the mounting plate six 2 is close to the driven shaft 3, the guide rod 34 is horizontally fixed on the mounting plate, the guide rod 34 is parallel to the driven shaft 3, the movable seat 33 is arranged on the guide rod 34, the upright post 32 is fixed on the movable seat 33, the second placing rod 31 for placing the film roll is fixed on the upright post 32, the mounting bar five 5 is fixed on the frame 1, and in the embodiment, the mounting bar five 5 is fixed on the frame 1 in a bolt connection mode; and the installation strip five 5 is positioned between the installation strip two 20 and the installation plate one 6, the material guide rod two 29 is horizontally fixed at one end of the installation strip five 5, the material guide rod two 29 is positioned right above the conveying section of the steel belt 8, the material guide rod two 29 is provided with a material guide part two which can lead in the film horizontally, the other end of the installation strip five 5 is also fixed with an auxiliary block 28, an auxiliary channel is arranged on the auxiliary block 28, and the conveying section of the steel belt 8 passes through the auxiliary channel.

The frame 1 is also provided with two trimming mechanisms, and the two trimming mechanisms are arranged left and right relative to the steel belt 8; the trimming mechanism comprises a trimming structure capable of trimming the silk and the hair and a trimming structure capable of trimming the silk and the hair; by adopting the structure, the silk and wool of the sealing strip are shaped through the shaping structure, so that the silk and wool are completely and vertically arranged; and the silk and wool of the sealing strip are trimmed through the trimming structure, so that the heights of the silk and wool are consistent.

The shaping structure comprises a mounting plate seven 13, a shaping wheel one 55, a shaping wheel two 56, a rotating shaft one 59 and a rotating shaft two 61, wherein the mounting plate seven 13 is fixed on the frame 1, and in the embodiment, the mounting plate seven 13 is fixed on the frame 1 in a bolt connection mode; and the mounting plate seven 13 is positioned between the mounting plate four 12 and the mounting plate five 15, the rotating shaft one 59 and the rotating shaft two 61 are respectively vertical on the mounting plate seven 13, the shaping wheel one 55 is fixed at the upper end of the rotating shaft one 59, the shaping wheel two 56 is fixed at the upper end of the rotating shaft two 61, and the mounting plate seven 13 is also provided with a driving assembly capable of synchronously rotating the rotating shaft one 59 and the rotating shaft two 61.

The driving assembly comprises a first gear 63, a second gear 62, a third driving motor 66, a third main driving wheel 67, a third driven wheel 64 and a third driving belt 65, wherein the first gear 63 is fixed in the middle of the first rotating shaft 59, the second gear 62 is fixed in the middle of the second rotating shaft 61, the first gear 63 is meshed with the second gear 62, the third driving motor 66 is fixed on the seventh mounting plate 13, and in the embodiment, the third driving motor 66 is fixed on the seventh mounting plate 13 in a bolt connection mode; the output shaft of the driving motor III 66 is vertically arranged, the main driving wheel III 67 is fixed at the end part of the output shaft of the driving motor III 66, the auxiliary driving wheel III 64 is fixed at the lower end of the first rotating shaft 59, and the driving belt III 65 is sleeved between the main driving wheel III 67 and the auxiliary driving wheel III 64.

The trimming structure comprises a mounting plate eight 14, a supporting plate 57 and a trimmer 58, wherein the mounting plate eight 14 is fixed on the frame 1, and in the embodiment, the mounting plate eight 14 is fixed on the frame 1 in a bolt connection manner; and the mounting plate eight 14 is located between the mounting plate seven 13 and the mounting plate five 15, the supporting plate 57 is fixed on the mounting plate eight 14, the supporting plate 57 is provided with an inclined supporting surface, the trimmer 58 is fixed on the supporting plate 57, a gap for a finished product to pass through is formed between the trimmer 58 and the supporting plate 57, and the mounting plate eight 14 is also provided with a cleaning component capable of cleaning waste wool, wherein in the embodiment, the cleaning component adopts the prior art.

The frame 1 is also provided with a plurality of leading-in components, in this embodiment, the number of the leading-in components is three; the guiding assembly comprises a supporting bar 9 and two guiding wheels 24, the supporting bar 9 is fixed on the frame 1, the two guiding wheels 24 are respectively arranged on the supporting bar 9, and a gap for the steel belt 8 to pass through is arranged between the two guiding wheels 24; with this structure, the steel strip 8 can be guided by the guide rollers 24 to smoothly enter the desired position.

In this embodiment, the steel strip 8 has serrations on both sides to allow better welding of the base plate, yarns and film.

The welding seed hair device also comprises a plow groove structure capable of carrying out plow grooves on the bottom plate, wherein the plow groove structure comprises a workbench 68, a discharging frame 79, a first supporting guide wheel 76, a second supporting guide wheel 72, a compression roller 75, a traction roller 73, a fixing frame 74, a fixing strip 77, a fixing seat 69 and a plow groove knife 71, the workbench 68 is connected with one end of the rack 1, the discharging frame 79 is fixed on one end of the workbench 68, a discharging shaft 78 for placing a bottom plate roll is arranged on the discharging frame 79, the fixing frame 74 is fixed on the other end of the workbench 68, the compression roller 75 and the traction roller 73 are horizontally arranged on the fixing frame 74, a gap for the bottom plate to pass through is reserved between the compression roller 75 and the traction roller 73, and the end part of the traction roller 73 is also connected with a power assembly capable of driving the traction roller to rotate; the fixed strip 77 is fixed in the middle of the workbench 68, the first support guide wheel 76 and the second support guide wheel 72 are rotatably arranged on the fixed strip 77, the first support wheel is positioned above the second support wheel, the fixed seat 69 is fixed in the middle of the workbench 68, the fixed seat 69 is positioned between the discharging frame 79 and the fixed strip 77, the plow groove knife 71 is horizontally arranged on the fixed seat 69, and a gap for the bottom plate to pass through is reserved between the knife head of the plow groove knife 71 and the second support guide wheel 72.

With this structure, one end of the bottom plate on the discharge shaft 78 is wound around the first supporting roller 76 and the second supporting roller 72 in this order, and is passed out from between the pinch roller 75 and the pull roller 73, and the bottom plate is moved by the pull roller 73, and is grooved by the grooved blade 71 and the second supporting roller 72, and after the grooved is finished, the bottom plate is guided to the steel strip 8 through the feed pipe 11.

The working principle of the invention is as follows: the output shaft of the speed reducing motor 16 is controlled to drive the driving shaft to rotate, the driving shaft drives the driving wheel 17 to rotate, the driving wheel 17 drives the steel belt 8 to rotate, and the conveying section of the steel belt 8 can sequentially pass through a winding station, a welding work and a slitting station; putting a plurality of yarn barrels on corresponding first placing rods 41, inputting the yarns into a conveying section of the steel belt 8 through a leading-in hole 35a, controlling an output shaft of a first driving motor 7 to drive a first main driving wheel 36 to rotate, driving a first auxiliary driving wheel 38 to rotate through a first driving belt 37 by the first main driving wheel 36, driving a winding barrel 35 to rotate through the first auxiliary driving wheel 38, and sequentially winding the yarns on the conveying section of the steel belt 8 along with the rotation of the winding barrel 35; the bottom plate is conveyed to a first guide rod 46 through a conveying pipe 11; the bottom plates are led into the conveying section of the steel belt 8 in a vertical state through a first guide rod 46, the side parts of the conveying section of the steel belt 8 are supported through supporting wheels 44, and under the action of an ultrasonic welding machine 45, the two bottom plates are respectively welded on the left side and the right side of a yarn roll on the conveying section of the steel belt 8; an output shaft of a second control driving motor 54 drives a second main driving wheel 53 to rotate, the second main driving wheel 53 drives a second auxiliary driving wheel 51 to rotate through a second driving belt 52, the second auxiliary driving wheel 51 drives a rotating shaft 49 to rotate, the rotating shaft 49 drives a slitting knife 47 to rotate, and the slitting knife 47 slits the upper side and the lower side of a semi-finished product to divide the semi-finished product into two sealing strips; the finished sealing strip can be output through the synchronous rotation of the output belt I18 and the output belt II 19.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (6)

1. The welding wool production equipment comprises a frame, and is characterized in that a driven shaft is horizontally arranged at one end of the frame, a driven wheel is fixed on the driven shaft, a driving shaft is horizontally arranged at the other end of the frame, the end part of the driving shaft is connected with a power structure capable of driving the driving shaft to rotate, a driving wheel is fixed on the driving shaft, a ring-shaped steel belt is sleeved between the driving wheel and the driven wheel, the steel belt is provided with a conveying section and a return section, and a winding mechanism capable of winding yarns on the steel belt, a first feeding mechanism capable of conveying a bottom plate to the steel belt, an ultrasonic welding mechanism capable of welding the bottom plate and a yarn coil, a cutting mechanism capable of cutting a semi-finished product and an output mechanism capable of outputting the finished product are sequentially arranged on the frame; the frame is also provided with an auxiliary structure; the winding mechanism comprises a mounting plate I and a winding drum, wherein the mounting plate I is fixed on a frame, the winding drum is rotatably arranged on the mounting plate I and is horizontally arranged, the winding drum is connected with a driving structure I capable of enabling the winding drum to rotate, one end of the winding drum is an input end, the other end of the winding drum is an output end, a winding channel penetrating through the input end and the output end is arranged in the winding drum, a conveying section of a steel belt penetrates through the winding channel, a plurality of mounting plates are sleeved outside the winding drum, a plurality of placing rods I for placing yarn drums are arranged on the mounting plates, a plurality of guide holes communicated with the winding channel are formed in the side part of the input end, and the guide holes are distributed in a ring shape; the first feeding mechanisms are arranged in number and are arranged left and right relative to the steel belt, each first feeding mechanism comprises a second mounting plate and a feeding pipe, the second mounting plate is fixed on the frame, the feeding pipe is horizontally fixed on the second mounting plate, the feeding pipes are positioned on the side parts of the steel belt, and feeding channels for the bottom plate to pass through are formed in the feeding pipes; the ultrasonic welding machine comprises a mounting plate III, an ultrasonic welding machine, a supporting wheel, a mounting seat and a guide rod I, wherein the mounting plate III is fixed on a frame, the ultrasonic welding machine is fixed on the mounting plate III, a welding head of the ultrasonic welding machine is horizontally arranged, the welding head of the ultrasonic welding machine is propped against one side of a conveying section of the steel belt, the mounting seat is arranged on the mounting plate III, the mounting seat is connected with a moving assembly capable of driving the ultrasonic welding machine to move back and forth, the supporting wheel is rotationally arranged on the mounting seat, the supporting wheel is propped against the other side of the conveying section of the steel belt, a gap for the steel belt to pass through is reserved between the supporting wheel and the welding head of the ultrasonic welding machine, the guide rod I is vertically fixed on the mounting plate III, the guide rod I is positioned on the side part of the ultrasonic welding machine, and the guide rod I is provided with a guide part I capable of enabling a bottom plate to be vertically led in; the number of the slitting mechanisms is two, the two slitting mechanisms are arranged up and down relative to the conveying sections of the steel belt, each slitting mechanism comprises a mounting plate IV, a slitting knife, a rotating shaft and a mounting frame, the mounting plate IV is fixed on the frame, the mounting frame is fixed on the mounting plate IV, the rotating shaft is horizontally arranged on the mounting frame, one end of the rotating shaft is connected with a driving structure II capable of driving the rotating shaft to rotate, and the other end of the rotating shaft is connected with the slitting knife; the number of the output mechanisms is two, the two output mechanisms are arranged left and right relative to the steel belt, each output mechanism comprises a mounting plate five, an output belt I and an output belt II, the mounting plate five is fixed on the frame, the output belt I and the output belt II are respectively arranged on the mounting plate five, and the output belt I and the output belt II have a gap for a finished product to pass through.

2. The welding and inoculating hair device according to claim 1, wherein the auxiliary structure comprises a first mounting bar, a second mounting bar and a steel wire rope, the first mounting bar is fixed on one end of the frame, the first mounting bar is close to the driven shaft, the second mounting bar is fixed on the other end of the frame, the second mounting bar is close to the driving shaft, one end of the steel wire rope is connected with the first mounting bar, the other end of the steel wire rope is connected with the second mounting bar, the steel wire rope comprises a first rope body, a second rope body, a third rope body and a fourth rope body, the first rope body and the fourth rope body are respectively located right above a conveying section of the steel belt, and the third rope body and the fourth rope body are respectively located right below the conveying section of the steel belt.

3. The hair welding and inoculating device according to claim 1, wherein the moving assembly comprises a cylinder fixed on a third mounting plate, a piston rod of the cylinder is horizontally arranged, and a piston rod end of the cylinder is connected with the mounting seat.

4. The hair welding and inoculating device according to claim 1, wherein the power structure comprises a gear motor, the gear motor is fixed on the frame, an output shaft of the gear motor is horizontally arranged, and an end part of the driving shaft is connected with an end part of an output shaft of the gear motor through a coupler.

5. The hair welding and inoculating device according to claim 1, wherein the first driving structure comprises a first driving motor, a first main driving wheel, a first auxiliary driving wheel and a first driving belt, the first driving motor is fixed on the frame, an output shaft of the first driving motor is horizontally arranged, the first main driving wheel is fixed at the end part of the output shaft of the first driving motor, the first auxiliary driving wheel is fixed on the output end of the winding drum, and the first driving belt is sleeved between the first main driving wheel and the first auxiliary driving wheel.

6. The hair welding and inoculating device according to claim 1, wherein the second driving structure comprises a second driving motor, a second main driving wheel, a second driven driving wheel and a second driving belt, the second driving motor is fixed on a fourth mounting plate, an output shaft of the second driving motor is horizontally arranged, the second main driving wheel is fixed at the end part of the output shaft of the second driving motor, the second driven driving wheel is fixed at one end of the rotating shaft, and the second driving belt is sleeved between the second main driving wheel and the second driven driving wheel.