阅读说明：本技术 扫雪片刷的自动化生产设备的布丝紧固装置及其工艺 (Wire distribution fastening device of automatic production equipment of snow sweeping blade brush and process thereof ) 是由 刘大勇 于 2020-08-13 设计创作，主要内容包括：本发明公开了扫雪片刷的自动化生产设备的布丝紧固装置,属于扫雪片刷生产领域,包括工作台、滑动台、第三丝杆滑台、旋转组件、上料限位组件、紧固组件、转运组件和两个第三导轨,工作台设置在承载箱的旁侧,两个第三导轨呈对称设置在工作台的顶部,滑动台能够滑动安装在两个第三导轨上,第三丝杆滑台呈水平安装在工作台的顶部,旋转组件安装在滑动台的顶端,上料限位组件设置在工作台的旁侧,紧固组件安装在上料限位组件上,转运组件设置在工作台的旁侧。本发明解决了扫雪片刷利用人工进行布丝紧固作业,手动将塑料丝安装固定在圆环内的孔洞内,作业时间长,并且长时间下人工劳动力消耗大的问题。(The invention discloses a wire distribution fastening device of automatic production equipment of a snow sweeping piece brush, which belongs to the field of snow sweeping piece brush production and comprises a workbench, a sliding table, a third lead screw sliding table, a rotating assembly, a feeding limiting assembly, a fastening assembly, a transferring assembly and two third guide rails. The snow sweeping brush solves the problems that the snow sweeping brush is manually used for cloth wire fastening operation, plastic wires are manually installed and fixed in holes in the circular ring, the operation time is long, and the manual labor consumption is large for a long time.)

1. Sweep cloth silk fastener of automated production equipment of snow piece brush, its characterized in that: including workstation (51), sliding stand (52), third lead screw slip table (53), rotating assembly (54), the spacing subassembly of material loading (55), fastening components (56), transportation subassembly (57) and two third guide rails (58), workstation (51) sets up the side at bearing box (41), two third guide rail (58) are the symmetry and set up the top at workstation (51), sliding stand (52) can slidable mounting on two third guide rails (58), third lead screw slip table (53) are the top of horizontal installation at workstation (51) to the removal end and the sliding stand (52) fixed connection of third lead screw slip table (53), the top at sliding stand (52) is installed in rotating assembly (54), the spacing subassembly of material loading (55) set up the side at workstation (51), fastening components (56) are installed on the spacing subassembly of material loading (55), the transfer assembly (57) is arranged beside the workbench (51).

2. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 1, characterized in that: the rotating assembly (54) comprises a rotating shaft (541), a rotating disc (542), a third driving motor (543), a second gear (544) and a third gear (545), wherein the rotating shaft (541) can be rotatably mounted at the top end of the sliding table (52), the rotating disc (542) is fixedly connected with the top of the rotating shaft (541), the third driving motor (543) is vertically arranged below the top of the sliding table (52), the second gear (544) is fixedly connected with the bottom of the rotating shaft (541), the third gear (545) is fixedly connected with an output shaft of the third driving motor (543), and the third gear (545) is meshed with the second gear (544).

3. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 1, characterized in that: the feeding limiting assembly (55) comprises a limiting table (551), a limiting plate (552), a limiting block (553), a feeding part (554) and two limiting parts (555), the limiting table (551) is arranged at the side of the workbench (51), the limiting plate (552) is arranged at the top of the limiting table (551), the limiting block (553) is arranged at the top of the limiting plate (552), the limiting block (553) is in a semi-arc shape, the feeding part (554) is arranged at the side of the limiting table (551), the two limiting parts (555) are symmetrically arranged on the limiting plate (552), each limiting part (555) comprises a limiting cylinder (556) and a clamping block (557), the limiting cylinder (556) is horizontally arranged on the limiting plate (552), and the clamping block (557) is fixedly connected with the output end of the limiting cylinder (556).

4. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 3, wherein: the feeding part (554) comprises a feeding frame (5541), a conveying belt (5542), a feeding cylinder (5543), a feeding air clamp (5544), a transverse plate (5545) and a storage box (5546), wherein the feeding frame (5541) is arranged beside a limiting table (551), the conveying belt (5542) is installed at the top end of the feeding frame (5541), the feeding cylinder (5543) is installed on the conveying belt (5542), the feeding air clamp (5544) is fixedly connected with the output end of the feeding cylinder (5543), the transverse plate (5545) is fixedly connected with the inner wall of the feeding frame (5541), and the storage box (5546) is installed at the top of the transverse plate (5545).

5. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 4, wherein: an elastic rubber pad (5547) is arranged in the storage box (5546).

6. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 3, wherein: the fastening component (56) comprises a mounting plate (561), a vertical plate (562), a rotating disc (563), a wire winding machine (564), a fourth driving motor (565), a chain (566), four rotating pieces (567) and four guide wheels (568), wherein the mounting plate (561) is fixedly connected with the lower portion of the top of the limiting table (551), the vertical plate (562) is vertically arranged at the top of the mounting plate (561), the four guide wheels (568) are equidistantly and rotatably arranged on one end side wall of the vertical plate (562), the four rotating pieces (567) are rectangular and rotatably arranged on one end side wall of the vertical plate (562), the four rotating pieces (567) extend to the other end side wall of the vertical plate (562), the rotating disc (563) is abutted against the four guide wheels (568), the wire winding machine (564) is arranged on the rotating disc (563), and each rotating piece (567) comprises a rotating shaft (5671), Rotate wheel (5672) and sprocket (5673), pivot (5671) can rotate and install on the lateral wall of riser (562), rotate wheel (5672) and the one end fixed connection of pivot (5671) to rotate wheel (5672) and conflict with rolling disc (563), sprocket (5673) and the other end fixed connection of pivot (5671), chain (566) cover is established in the outside of all sprockets (5673), fourth driving motor (565) are the level and set up on the lateral wall of riser (562), and the output shaft of fourth driving motor (565) extends to one of them pivot (5671) fixed connection.

7. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 1, characterized in that: the transfer assembly (57) comprises a transfer table (571), a fourth screw rod sliding table (572), a manipulator (573) and two fourth guide rails (574), wherein the two fourth guide rails (574) are symmetrically arranged at the side of the workbench (51), the transfer table (571) can be slidably mounted on the two fourth guide rails (574), the fourth screw rod sliding table (572) is horizontally arranged at the side of one of the fourth guide rails (574), and the manipulator (573) is mounted at the top of the transfer table (571).

8. The wire cloth fastening device of an automated production facility of a snow sweeping blade brush as set forth in claim 7, wherein: the cloth wire cutting machine is characterized by further comprising a pressing device (6) and a cutting device (7), wherein the pressing device (6) and the cutting device (7) are sequentially arranged at the side of the cloth wire fastening device, the pressing device (6) comprises a first bottom plate (61), a first top plate (62), two pressing components (63) and four first sliding columns (64), the first bottom plate (61) is arranged at the side of the workbench (51), the four first sliding columns (64) are arranged on the first bottom plate (61) in a rectangular mode, the first top plate (62) is fixedly connected with the tops of the four first sliding columns (64), the two pressing components (63) are respectively arranged on the first bottom plate (61) and the first top plate (62), each pressing component (63) comprises a pressing cylinder (631) and a pressing plate (632), the pressing cylinder (631) is vertically arranged on the first bottom plate (61) or the first top plate (62), the pressing plate (632) can be slidably mounted in the four first sliding columns (64), and the pressing plate (632) is fixedly connected with the output end of the pressing air cylinder (631).

9. The automated snow sweeper brush production apparatus of claim 8, wherein: tailor device (7) including second bottom plate (71), second roof (72), lifter plate (73), tailor cylinder (74), tailor blade (75) and four second sliding column (76), the side at first bottom plate (61) is installed in second bottom plate (71), four second sliding column (76) are vertical setting on second bottom plate (71), second roof (72) are installed and are being the top of four second sliding column (76), lifter plate (73) can slidable mounting on four second sliding column (76), it is vertical setting on second bottom plate (71) to tailor cylinder (74) to the output and lifter plate (73) fixed connection of tailoring cylinder (74), it sets up in the top below of second roof (72) to tailor blade (75).

10. The process of wire-cloth fastening device of automatic production facility of snow sweeping blade brush as claimed in claim 9, characterized by comprising the steps of:

firstly, the two moving assemblies (47) work to clamp and move the circular ring to the rotating assembly (54), then the third screw rod sliding table (53) works to drive the sliding table (52) to move on the two third guide rails (58), and the sliding table (52) moves to a position close to the feeding limiting assembly (55);

then, the feeding limiting assembly (55) works to plug plastic wires into the mounting pins, the fastening assembly (56) works to tie steel wires tightly on the plastic wires in the mounting pins for fixation, the transferring assembly (57) works to plug the mounting pins with the plastic wires into holes in the circular ring, and after the plastic wires in one hole are mounted and fixed, the rotating assembly (54) works to drive the circular ring to rotate and repeats the steps until the plastic wires are mounted and fixed in all the holes in the circular ring;

and finally, the manipulator (573) enters the circular ring with the plastic wire installed into the pressing device (6) and the cutting device (7) for pressing and cutting the plastic wire orderly.

Technical Field

The invention relates to the field of snow sweeping brush production, in particular to a wire distributing and fastening device of automatic production equipment of a snow sweeping brush.

Background

With the acceleration of the aging of China, particularly the outflow of people in northeast China, the labor force of young and old people is less and less, more and more products are difficult to manufacture manually, and because many young people in the northeast China develop to the south, the areas developed by coastal economy or the areas developed by southeast and south economy, the rest are old, weak, sick and pregnant, and much physical strength is not enough. The labor market is also market economy, the materials are rare and expensive, and since young people with labor are fewer and fewer, the enterprise needs to ask for the young workers, the salary requirement is higher and more difficult, so that many products are either made by adopting automatic equipment to replace labor, or the cost of labor is greatly increased, no way is provided for digestion, and the enterprise is directly closed. For example, in northeast, northwest, north China and the like, snow days are abundant, the snow accumulation time is long, most places adopt snow sweeping vehicles and snow shoveling vehicles to remove the snow on the road, and therefore the brushing amount of the snow sweeping sheet is very large.

The existing snow sweeping blade brush generally utilizes manpower to carry out wire distribution fastening operation, manually installs and fixes plastic wires in holes in a circular ring, has long operation time, and has large labor consumption in a long time.

Disclosure of Invention

The invention aims to provide a wire distribution fastening device of automatic production equipment of a snow sweeping blade brush, which aims to solve the problems that the conventional snow sweeping blade brush is generally manually used for wire distribution fastening operation, plastic wires are manually installed and fixed in holes in a circular ring, the operation time is long, and the manual labor consumption is high for a long time.

The invention provides a wire distribution fastening device of automatic production equipment of a snow sweeping piece brush, which comprises a workbench, a sliding table, a third screw rod sliding table, a rotating assembly, a feeding limiting assembly, a fastening assembly, a transferring assembly and two third guide rails, wherein the workbench is arranged beside a bearing box, the two third guide rails are symmetrically arranged at the top of the workbench, the sliding table can be slidably arranged on the two third guide rails, the third screw rod sliding table is horizontally arranged at the top of the workbench, the moving end of the third screw rod sliding table is fixedly connected with the sliding table, the rotating assembly is arranged at the top end of the sliding table, the feeding limiting assembly is arranged beside the workbench, the fastening assembly is arranged on the feeding limiting assembly, and the transferring assembly is arranged beside the workbench.

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

firstly, the invention clamps and moves the ring to the rotating assembly through the work of the two moving assemblies, then the work of the third screw rod sliding table drives the sliding table to move on the two third guide rails, the sliding table moves to a position close to the feeding limit assembly, then the feeding limit assembly works to plug the plastic wire into the mounting pin, then the fastening assembly works to tie the steel wire tightly on the plastic wire in the mounting pin for fixing, then the transferring assembly works to plug the mounting pin provided with the plastic wire into the hole in the ring, after the plastic wire in one hole is mounted and fixed, the rotating assembly works to drive the ring to rotate, the operation is repeated in sequence until the plastic wire is mounted and fixed in all the holes on the ring, finally the transferring assembly continues to work to put the ring provided with the plastic wire into the pressing device and the cutting device for post-processing without manual operation to mount and fix the plastic wire in the hole in the ring, the operation time is reduced, and the labor consumption is reduced.

Secondly, the third gear is driven to rotate by the third driving motor, the third gear drives the second gear to synchronously rotate, the second gear drives the rotating shaft and the rotating disc to rotate along with the rotating shaft, the circular ring on the rotating disc rotates, and plastic wires are conveniently arranged and fixed in all holes in the circular ring.

Thirdly, the mounting pin is moved into the limiting block through the work of the feeding part, then the limiting cylinders in the two limiting parts drive the clamping blocks to move, the two clamping blocks move relatively to clamp the mounting pin, then the feeding part continues to work to clamp and plug the plastic wire into the mounting pin, and finally the transfer assembly works to plug the mounting pin provided with the plastic wire into the hole in the circular ring.

Fourthly, the fourth driving motor works to drive one of the chain wheels to rotate, the chain wheel drives all the chain wheels to rotate by utilizing the chain, all the chain wheels drive all the rotating wheels to rotate along with the chain wheels, all the rotating wheels drive the rotating disc and all the guide wheels to rotate along with the rotating disc, and the wire winder on the rotating disc rotates to tightly bundle the steel wires on the plastic wires in the mounting pins for fixing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a first schematic perspective view of a first molding apparatus of the present invention;

FIG. 5 is a schematic perspective view of a second molding apparatus according to the present invention;

FIG. 6 is a first perspective view of a second molding apparatus according to the present invention;

FIG. 7 is a second schematic perspective view of a second molding apparatus of the present invention;

FIG. 8 is a third schematic perspective view of a second molding apparatus of the present invention;

FIG. 9 is a first perspective view of the first cloth wire fastening device of the present invention;

FIG. 10 is a second perspective view of the cloth wire fastening device of the present invention;

FIG. 11 is a perspective view of the rotating assembly of the present invention;

FIG. 12 is a partial perspective view of a first embodiment of the wire fastening device of the present invention;

FIG. 13 is a second partial perspective view of the cloth wire fastening device of the present invention;

FIG. 14 is an enlarged view at B of FIG. 13;

FIG. 15 is a first perspective view of the fastening assembly of the present invention;

FIG. 16 is a second perspective view of the fastening assembly of the present invention;

FIG. 17 is a perspective view of a rotor according to the present invention;

fig. 18 is a schematic perspective view of the pressing device and the cutting device according to the present invention.

Reference numerals: a conveying frame 1, a conveying roller 11, a punching device 2, a U-shaped frame 21, a punching cylinder 22, a cutter head 23, a first molding device 3, a mounting seat 31, a molding wheel 32, a fixing hole 321, a rotating shaft 33, a first driving motor 34, a driving pulley 35, a driven pulley 36, a belt 37, a fixing plate 38, a fixing component 39, a bearing frame 391, a first screw rod sliding table 392, a connecting plate 393, a screw machine 394, a fixing bolt 395, a second molding device 4, a bearing box 41, a bearing shaft 42, a disc 43, a positioning ring 44, a welding component 45, a welding frame 451, a welding cylinder 452, an electric welding machine 453, a profiling component 46, a bearing plate 461, a second guide rail 462, a pressing grinding tool 463, a lifting cylinder 464, a moving component 47, a mounting frame, a first guide rail 471, a moving frame 473, a second driving motor 474, a first gear 475, a first rack 476, a clamping piece 477, a second screw rod sliding table 477, an L-shaped plate 4772, a clamping cylinder 4773, an arc clamp 4774, a wire-distributing fastening device 5, a workbench 51, a sliding table 52, a third screw rod sliding table 53, a rotating assembly 54, a rotating shaft 541, a rotating disc 542, a third driving motor 543, a second gear 544, a third gear 545, a feeding limiting assembly 55, a limiting table 551, a limiting plate 552, a limiting block 553, a feeding member 554, a feeding frame 5541, a conveying belt 5542, a feeding cylinder 5543, a feeding cylinder 5544, a cross plate 5545, a storage box 5546, an elastic rubber pad 5547, a limiting block 555, a limiting cylinder 556, a clamping block 557, a fastening assembly 56, a mounting plate 561, a vertical plate 562, a rotating disc 563, a wire winder 564, a fourth driving motor 565, a chain 566, a rotating member 567, a rotating shaft 5671, a rotating wheel 5672, a chain wheel 5673, a guide wheel 568, a transfer assembly 57, a transfer table 571, a fourth screw rod sliding table 572, a manipulator 573, a fourth guide rail 574, a third guide rail 58, a pressing device 6, the cutting device comprises a first bottom plate 61, a first top plate 62, a pressing assembly 63, a pressing air cylinder 631, a pressing plate 632, a first sliding column 64, a cutting device 7, a second bottom plate 71, a second top plate 72, a lifting plate 73, a cutting air cylinder 74, a cutting blade 75 and a second sliding column 76.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 18, an automatic production apparatus of a snow sweeping blade brush is provided in an embodiment of the present invention, and includes a conveying frame 1, a punching device 2, a first forming device 3, a second forming device 4, a wire cloth fastening device 5, a pressing device 6, and a cutting device 7, wherein a plurality of conveying rollers 11 are disposed in the conveying frame 1, the punching device 2 is mounted at a top of the conveying frame 1, the first forming device 3 is disposed at a side of the conveying frame 1, the second forming device 4 is disposed at a rear side of the conveying frame 1, the wire cloth fastening device 5 is mounted at a side of the second forming device 4, the pressing device 6 and the cutting device 7 are sequentially disposed at a side of the wire cloth fastening device 5, the punching device 2 includes a U-shaped frame 21, a punching cylinder 22, and a cutter head 23, the U-shaped frame 21 is fixedly connected to the top of the conveying frame 1, the punching cylinder 22 is vertically disposed at a top end of the U-shaped frame 21, the cutter head 23 is fixedly connected with the output end of the punching cylinder 22; the steel bar is conveyed by the conveying frame 1 to pass through the punching device 2, the punching cylinder 22 works to drive the cutter head 23 to automatically punch holes on the steel bar, then the punched steel bar enters the first forming device 3, the first forming device 3 forms the steel bar into a circular ring, the formed circular ring enters the second forming device 4, the second forming device 4 welds and presses and shapes the circular ring, then the processed circular ring moves into the wire distribution fastening device 5, the wire distribution fastening device 5 works to install plastic wires in holes in the circular ring, the plastic wires are tied and fixed by steel wires, then the circular ring with the plastic wires installed enters the pressing device 6, the pressing device 6 presses and presses the circular ring, the pressed plastic wires are tightly clamped in the groove, finally the pressed circular ring enters the cutting device 7, and the cutting device 7 cuts and cuts the plastic wires uniformly, the snow sweeping brush is formed, the operation of automatically producing the snow sweeping brush is realized, the manual semi-automatic production of the snow sweeping brush is not needed, the labor cost is reduced, and the manufacturing cost of the single-chip snow sweeping brush is reduced.

Specifically, the first molding device 3 includes an installation seat 31, a molding wheel 32, a rotation shaft 33, a first driving motor 34, a driving pulley 35, a driven pulley 36, a belt 37, a fixing plate 38 and a fixing component 39, the installation seat 31 is disposed at a side of the conveying frame 1, the molding wheel 32 can be rotatably installed in the installation seat 31 through the rotation shaft 33, a fixing hole 321 is disposed on the molding wheel 32, one end of the rotation shaft 33 extends to an outside of the installation seat 31, the first driving motor 34 is disposed at a side of the installation seat 31, the driving pulley 35 is fixedly connected with an output shaft of the first driving motor 34, the driven pulley 36 and the rotation shaft 33 extend to one end of the outside of the installation seat 31, the belt 37 is sleeved outside the driving pulley 35 and the driven pulley 36, and the fixing plate 38 is fixedly connected with an outer side wall of the installation seat 31, the fixing component 39 is vertically arranged on the fixing plate 38; one end of the punched steel bar is fixed in the forming wheel 32 through the work of the fixing component 39, then the work of the first driving motor 34 drives the driving belt pulley 35 to rotate, the driving belt pulley 35 drives the driven belt pulley 36 to rotate by utilizing the belt 37, the driven belt pulley 36 drives the rotating shaft 33 to rotate along with the rotating shaft, the rotating shaft 33 drives the forming wheel 32 to rotate along with the rotating shaft, and the forming wheel 32 rotates to form the steel bar into a circular ring.

Specifically, the fixing assembly 39 comprises a bearing frame 391, a first screw rod sliding table 392, a connecting plate 393, a screw machine 394 and a fixing bolt 395, wherein the bearing frame 391 is vertically installed on the fixing plate 38, the first screw rod sliding table 392 is installed in the bearing frame 391, the connecting plate 393 is fixedly connected with the moving end of the first screw rod sliding table 392, the screw machine 394 is installed on the connecting plate 393, and the fixing bolt 395 is arranged at the output end of the screw machine 394; the screw machine 394 is driven to move downwards through the work of the first screw rod sliding table 392, when the fixing bolt 395 moves to be in contact with the fixing hole 321, the fixing screw is installed in the fixing hole 321 through the work of the screw machine 394, and one end of a punched steel bar is fixed in the forming wheel 32.

In particular, the second forming device 4 comprises a bearing box 41, a bearing shaft 42, a disk 43, a positioning ring 44, a welding assembly 45, a profiling assembly 46 and two moving assemblies 47, the bearing box 41 is arranged at the rear side of the conveying frame 1, the bearing shaft 42 is vertically arranged at the top of the bearing box 41, the disc 43 is fixedly connected with the top of the carrying box 41, the positioning ring 44 is arranged on the top of the disc 43, the welding assemblies 45 are arranged at the side of the disc 43, the two moving assemblies 47 are symmetrically arranged at the two sides of the bearing box 41, the profiling assembly 46 is mounted on top of one of the moving assemblies 47, the welding assembly 45 comprises a welding carriage 451, a welding cylinder 452 and a welding bug 453, the welding frame 451 is arranged at the side of the disc 43, the welding cylinder 452 is horizontally arranged at the top of the welding frame 451, and the electric welding machine 453 is fixedly connected with the output end of the welding cylinder 452; the annular ring cover after the shaping is established in holding ring 44, then welding cylinder 452 work drives electric welding 453 and removes, and electric welding 453 removes to being close to ring department, and electric welding 453 work welds closed to the annular ring, and then die mould subassembly 46 work is pressed the shaping to the annular ring, and two last removal subassemblies 47 work remove the annular ring to cloth silk fastener 5 in.

Specifically, each of the moving assemblies 47 includes a mounting frame 471, a first guide rail 472, a moving frame 473, a second driving motor 474, a first gear 475, a first rack 476 and a clamping member 477, the mounting frame 471 is disposed beside the carrying box 41, the first guide rail 472 is horizontally disposed on the top of the mounting frame 471, the moving frame 473 is slidably mounted on the first guide rail 472, the second driving motor 474 is horizontally disposed at the bottom end of the moving frame 473, the first rack 476 is mounted beside the first guide rail 472, the first gear 475 is fixedly connected to an output shaft of the second driving motor 474, the first gear 475 is engaged with the first rack 476, and the clamping member 477 is mounted in the moving frame 473; the clamping piece 477 is used for abutting and clamping the circular ring, then the second driving motor 474 works to drive the first gear 475 to rotate, and the first gear 475 is meshed with the first rack 476, so that the first gear 475 drives the moving frame 473 to move on the first guide rail 472, and the moving frame 473 drives the circular ring to synchronously move into the cloth thread fastening device 5.

Specifically, the clamping member 477 comprises a second screw rod sliding table 4771, an L-shaped plate 4772, a clamping cylinder 4773 and an arc clamp 4774, the second screw rod sliding table 4771 is vertically arranged in the moving frame 473, the L-shaped plate 4772 is fixedly connected with the moving end of the second screw rod sliding table 4771, the clamping cylinder 4773 is horizontally arranged at the top of the L-shaped plate 4772, and the arc clamp 4774 is fixedly connected with the output end of the clamping cylinder 4773; drive L template 4772 through second lead screw slip table 4771 work and go up and down, L template 4772 drives the arc and presss from both sides 4774 and remove to suitable position, then die clamping cylinder 4773 work drives the arc and presss from both sides 4774 and contradict with the ring, and two arc that remove in the subassembly 47 press from both sides 4774 relative movement and carry out the conflict to press from both sides tightly to the ring.

Specifically, the profiling assembly 46 includes a bearing plate 461, a second guide rail 462, a lower milling tool 463 and a lifting cylinder 464, wherein the bearing plate 461 is installed on the top of the moving frame 473, the second guide rail 462 is vertically arranged in the bearing plate 461, the lower milling tool 463 can be slidably installed on the second guide rail 462, the lifting cylinder 464 is vertically arranged on the top of the bearing plate 461, and the output end of the lifting cylinder 464 extends to be fixedly connected with the lower milling tool 463; the lifting cylinder 464 works to drive the press grinding tool 463 to move downwards on the second guide rail 462, and the press grinding tool 463 moves downwards to press and shape the ring.

Specifically, the wire distribution fastening device 5 includes a workbench 51, a sliding table 52, a third lead screw sliding table 53, a rotating assembly 54, a feeding limiting assembly 55, a fastening assembly 56, a transferring assembly 57 and two third guide rails 58, the workbench 51 is disposed beside the carrying box 41, the two third guide rails 58 are symmetrically disposed on the top of the workbench 51, the sliding table 52 can be slidably mounted on the two third guide rails 58, the third lead screw 53 is horizontally mounted on the top of the workbench 51, the moving end of the third lead screw sliding table 53 is fixedly connected with the sliding table 52, the rotating assembly 54 is mounted on the top end of the sliding table 52, the feeding limiting assembly 55 is disposed beside the workbench 51, the fastening assembly 56 is mounted on the feeding limiting assembly 55, and the transferring assembly 57 is disposed beside the workbench 51; the two moving assemblies 47 work to clamp and move the circular ring to the rotating assembly 54, then the third screw rod sliding table 53 works to drive the sliding table 52 to move on the two third guide rails 58, the sliding table 52 moves to a position close to the feeding limiting assembly 55, then the feeding limiting assembly 55 works to plug plastic wires into the mounting pins, next the fastening assembly 56 works to tie the steel wires tightly on the plastic wires in the mounting pins for fixing, then the transferring assembly 57 works to plug the mounting pins provided with the plastic wires into the holes in the circular ring, after the plastic wires in one hole are mounted and fixed, the rotating assembly 54 works to drive the circular ring to rotate, the operation is repeated in sequence until the plastic wires are mounted and fixed in all the holes in the circular ring, finally the transferring assembly 57 continues to work to enable the circular ring provided with the plastic wires to enter the pressing device 6 and the cutting device 7 for post-processing without manual operation to mount and fix the plastic wires in the holes in the circular ring, the operation time is reduced, and the labor consumption is reduced.

Specifically, the rotating assembly 54 includes a rotating shaft 541, a rotating disk 542, a third driving motor 543, a second gear 544 and a third gear 545, wherein the rotating shaft 541 is rotatably mounted at the top end of the sliding table 52, the rotating disk 542 is fixedly connected with the top of the rotating shaft 541, the third driving motor 543 is vertically arranged below the top of the sliding table 52, the second gear 544 is fixedly connected with the bottom of the rotating shaft 541, the third gear 545 is fixedly connected with the output shaft of the third driving motor 543, and the third gear 545 is engaged with the second gear 544; the third driving motor 543 works to drive the third gear 545 to rotate, the third gear 545 drives the second gear 544 to synchronously rotate, the second gear 544 drives the rotating shaft 541 and the rotating disc 542 to rotate along with the rotating shaft, the ring on the rotating disc 542 rotates, and plastic wires are conveniently installed and fixed in all holes in the ring.

Specifically, the feeding limiting assembly 55 comprises a limiting table 551, a limiting plate 552, a limiting block 553, a feeding piece 554 and two limiting blocks 555, the limiting table 551 is arranged at the side of the workbench 51, the limiting plate 552 is arranged at the top of the limiting table 551, the limiting block 553 is arranged at the top of the limiting plate 552, the limiting block 553 is in a semi-arc shape, the feeding piece 554 is arranged at the side of the limiting table 551, the two limiting blocks 555 are symmetrically arranged on the limiting plate 552, each limiting block 555 comprises a limiting cylinder 556 and a clamping block 557, the limiting cylinder 556 is horizontally arranged on the limiting plate 552, and the clamping block 557 is fixedly connected with the output end of the limiting cylinder 556; move the mounting pin to the stopper 553 through material loading piece 554 work in, then the spacing cylinder 556 in two stoppers 555 drives and presss from both sides tight piece 557 and removes, and two clamp tight piece 557 relative movement press from both sides tight the mounting pin, and material loading piece 554 continues to work afterwards and presss from both sides the plastic wire clamp and packs into the mounting pin in, transport subassembly 57 work at last and pack into the hole in the ring with the mounting pin of installing the plastic wire.

Specifically, the feeding member 554 includes a feeding frame 5541, a conveyor belt 5542, a feeding cylinder 5543, a feeding air clamp 5544, a transverse plate 5545 and a storage box 5546, the feeding frame 5541 is arranged beside the limiting table 551, the conveyor belt 5542 is mounted at the top end of the feeding frame 5541, the feeding cylinder 5543 is mounted on the conveyor belt 5542, the feeding air clamp 5544 is fixedly connected with the output end of the feeding cylinder 5543, the transverse plate 5545 is fixedly connected with the inner wall of the feeding frame 5541, and the storage box 5546 is mounted at the top of the transverse plate 5545; the conveying belt 5542 works to drive the feeding cylinder 5543 to move, when the feeding cylinder 5543 moves above the storage box 5546, the feeding cylinder 5543 works to drive the feeding air clamp 5544 to move downwards to clamp an installation pin or a plastic wire in the storage box 5546, and the installation pin and the plastic wire are moved and fed.

Specifically, an elastic rubber pad 5547 is arranged in the storage box 5546; the elastic rubber pad 5547 protects the mounting pins and plastic wires in the storage box 5546 from being damaged.

Specifically, the fastening assembly 56 includes a mounting plate 561, a vertical plate 562, a rotating disk 563, a wire winder 564, a fourth driving motor 565, a chain 566, four rotating members 567, and four guide wheels 568, the mounting plate 561 is fixedly connected to a lower portion of a top portion of the limiting table 551, the vertical plate 562 is vertically disposed on the top portion of the mounting plate 561, the four guide wheels 568 are equally spaced and rotatably mounted on a side wall of one end of the vertical plate 562, the four rotating members 567 are rectangular and rotatably mounted on a side wall of one end of the vertical plate 562, the four rotating members 567 extend to a side wall of the other end of the vertical plate 562, the rotating disk 563 is abutted against the four guide wheels 568, the wire winder 564 is mounted on the rotating disk 563, each of the rotating members 567 includes a rotating shaft 5671, a rotating wheel 5672, and a chain wheel 5673, the rotating shaft 5671 is rotatably mounted on a side wall of the vertical plate 562, the rotating wheel 5672 is fixedly connected to one end of the, the rotating wheel 5672 is abutted against the rotating disc 563, the chain wheels 5673 are fixedly connected with the other end of the rotating shaft 5671, the chain 566 is sleeved outside all the chain wheels 5673, the fourth driving motor 565 is horizontally arranged on the side wall of the vertical plate 562, and the output shaft of the fourth driving motor 565 extends to one of the rotating shafts 5671 to be fixedly connected; one of the chain wheels 5673 is driven to rotate by the operation of the fourth driving motor 565, the chain wheel 5673 drives all the chain wheels 5673 to rotate by using the chain 566, all the chain wheels 5673 drive all the rotating wheels 5672 to rotate along with the chain wheels, all the rotating wheels 5672 drive the rotating disc 563 and all the guide wheels 568 to rotate along with the chain wheels 5673, and the wire winder 564 on the rotating disc 563 rotates to tightly tie the steel wire on the plastic wire in the mounting pin for fixing.

Specifically, the transfer assembly 57 includes a transfer table 571, fourth screw sliding tables 572, a manipulator 573 and two fourth guide rails 574, the two fourth guide rails 574 are symmetrically arranged at the side of the working table 51, the transfer table 571 can be slidably mounted on the two fourth guide rails 574, the fourth screw sliding tables 572 are horizontally arranged at the side of one of the fourth guide rails 574, and the manipulator 573 is mounted at the top of the transfer table 571; the circular rings are clamped by the manipulator 573, then the fourth screw rod sliding table 572 works to drive the transfer table 571 to move on the two fourth guide rails 574, the transfer table 571 drives the manipulator 573 to move along with the transfer table, so that the manipulator 573 can conveniently plug the mounting pins provided with the plastic wires into the holes in the circular rings, and the manipulator 573 can conveniently enter the circular rings provided with the plastic wires into the pressing device 6 and the cutting device 7 for post-processing.

Specifically, the pressing device 6 includes a first bottom plate 61, a first top plate 62, two pressing components 63, and four first sliding columns 64, the first bottom plate 61 is installed beside the workbench 51, the four first sliding columns 64 are arranged on the first bottom plate 61 in a rectangular shape, the first top plate 62 is fixedly connected to the tops of the four first sliding columns 64, the two pressing components 63 are respectively arranged on the first bottom plate 61 and the first top plate 62, each pressing component 63 includes a pressing cylinder 631 and a pressing plate 632, the pressing cylinder 631 is vertically arranged on the first bottom plate 61 or the first top plate 62, the pressing plate 632 can be slidably installed in the four first sliding columns 64, and the pressing plate 632 is fixedly connected to an output end of the pressing cylinder 631; the circular ring with the plastic wires installed is placed on the pressing plate 632, then the two pressing cylinders 631 work to drive the pressing plate 632 to move relatively, the pressing plate 632 moves to press the circular ring, and the pressed plastic wires are tightly clamped in the grooves.

Specifically, the cutting device 7 includes a second bottom plate 71, a second top plate 72, a lifting plate 73, a cutting cylinder 74, a cutting blade 75 and four second sliding columns 76, the second bottom plate 71 is mounted beside the first bottom plate 61, the four second sliding columns 76 are vertically arranged on the second bottom plate 71, the second top plate 72 is mounted on the tops of the four second sliding columns 76, the lifting plate 73 can be slidably mounted on the four second sliding columns 76, the cutting cylinder 74 is vertically arranged on the second bottom plate 71, the output end of the cutting cylinder 74 is fixedly connected with the lifting plate 73, and the cutting blade 75 is arranged below the top of the second top plate 72; the pressed circular rings are placed on the lifting plate 73, then the cutting cylinder 74 drives the lifting plate 73 to move upwards, the lifting plate 73 drives the circular rings to move upwards synchronously, the plastic wires on the circular rings move upwards to the cutting blades 75, and the cutting blades 75 cut the plastic wires uniformly to form the snow sweeping sheet brush.

The working principle of the invention is as follows: when the device works, a steel bar is conveyed by a conveying frame 1 to pass through a punching device 2, a punching cylinder 22 works to drive a tool bit 23 to automatically punch the steel bar, then the punched steel bar enters a first forming device 3, the first forming device 3 forms the steel bar into a circular ring, the formed circular ring enters a second forming device 4, the second forming device 4 performs welding and pressing forming on the circular ring, then the processed circular ring moves into a wire distribution fastening device 5, the wire distribution fastening device 5 works to install plastic wires in holes in the circular ring, the plastic wires are fastened and fixed by steel wires, then the circular ring with the plastic wires is arranged in a pressing device 6, the pressing device 6 presses the circular ring, the pressed plastic wires are tightly clamped in a groove, finally the pressed circular ring enters a cutting device 7, and the cutting device 7 performs uniform cutting on the plastic wires, the snow sweeping brush is formed, the operation of automatically producing the snow sweeping brush is realized, the manual semi-automatic production of the snow sweeping brush is not needed, the labor cost is reduced, and the manufacturing cost of the single-chip snow sweeping brush is reduced.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.