阅读说明：本技术 一种具有集尘结构的转子缠棉线机 (Rotor twines cotton thread machine with dust collection structure ) 是由 许天明 夏杨 于 2019-11-07 设计创作，主要内容包括：本发明公开了一种具有集尘结构的转子缠棉线机,涉及转子缠棉线机技术领域,具体为台面板、转位支座和机架,所述台面板的上方安装有左主轴箱,所述主轴的轴端连接有飞叉座,所述左主轴箱的底面垂直焊接有主轴电机板,所述转位支座的上方安置有新主轴,所述机架焊接在台面板的外部,所述夹线导套的轴端安装有转子。该具有集尘结构的转子缠棉线机,动作连贯顺畅,自动化水平高,整机采用气缸作为执行部件,动作可靠稳定,在缠线过程中,与现有的缠绕机相比,本转子缠棉线机各部位机动性较强,在缠线、剪线、转子旋转等控制部位,不容易出现停顿或者接续不良等失误,且该转子缠棉线机工作效率高,产品质量较好,也较为稳定。(The invention discloses a rotor cotton winding machine with a dust collection structure, which relates to the technical field of rotor cotton winding machines, and specifically comprises a table board, a transposition support and a frame, wherein a left main shaft box is installed above the table board, the shaft end of a main shaft is connected with a fly fork seat, a main shaft motor plate is vertically welded on the bottom surface of the left main shaft box, a new main shaft is arranged above the transposition support, the frame is welded outside the table board, and a rotor is installed at the shaft end of a wire clamping guide sleeve. This rotor twine cotton machine with dust collecting structure, the action links up smoothly, and automatic level is high, and the complete machine adopts the cylinder as the executive component, and the action is reliable stable, at the kinking in-process, compares with current coiler, and each position mobility of this rotor twine cotton machine is stronger, at control position such as kinking, trimming, rotor rotation, is difficult to appear pausing or error such as bad that continues, and this rotor twine cotton machine work efficiency is high, and product quality is better, also comparatively stable.)

1. A rotor twines cotton machine with dust collection structure, includes deck plate (1), transposition support (11) and frame (29), its characterized in that: a left main shaft box (2) is installed above the table top plate (1), a main shaft (3) penetrates through the inside of the left main shaft box (2), a fly fork seat (4) is connected to the shaft end of the main shaft (3), fly fork rods (5) are respectively arranged at two ends of the fly fork seat (4), a main shaft motor plate (6) is perpendicularly welded on the bottom surface of the left main shaft box (2), the main shaft motor plate (6) vertically penetrates through the plate of the table top plate (1), a mold closing (8) is installed at the end portion of the fly fork seat (4), a new main shaft (12) is arranged above the transposition support (11), a new transposition shaft (13) is connected to the middle of the end portion of the new main shaft (12), an air cylinder (14) is installed at the end portion of the new transposition shaft (13), an air rod (15) is connected between the air cylinder (14) and the new transposition shaft (13), and a pressure wire moving air cylinder (17) is fixed on the, a wire clamping cylinder push plate (28) is connected with the movable end of the wire pressing pipe moving cylinder (17), a wire clamping sleeve (18) is installed at the center of the other end of the new main shaft (12), a wire clamping guide rod seat (19) is vertically connected with the upper surface of the other end of the new main shaft (12), a servo motor (27) is installed on the outer side of the new main shaft (12), the servo motor (27) is connected with the new main shaft (12) in a matched mode, the rack (29) is welded outside the table panel (1), a workbench (30) is arranged on one side of the rack (29), a trimming guide rod base (31) is arranged on one side of the edge of the upper surface of the table panel (1), a trimming transverse guide rod (32) is vertically connected with the end face of one side of the trimming guide rod base (31), a sliding seat (33) is sleeved on the outside of the trimming transverse guide rod (32), and a trimming vertical guide rod (34) is arranged above the sliding seat (, an upper sliding seat and a lower sliding seat (35) are sleeved outside the trimming vertical guide rod (34), a control cylinder (36) is installed on the outer wall of one side of the upper sliding seat and the lower sliding seat (35), the movable end of the control cylinder (36) is connected with a trimming head, a rotor (7) is installed at the shaft end of the trimming guide sleeve (21), and one end of the rotor (7) is connected with a rotor cylinder (37).

2. The rotor-winding machine with dust-collecting structure as claimed in claim 1, wherein: the two sides of the bottom surface of the left spindle box (2) are welded with sliding blocks (10), the corresponding positions of the upper surface of the table top plate (1) are fixed with guide rails (9), and the sliding blocks (10) and the guide rails (9) are matched to form a sliding structure.

3. The rotor-winding machine with dust-collecting structure as claimed in claim 1, wherein: drawing die cylinder columns (16) are arranged at four corners of the end portion of the new main shaft (12), and the drawing die cylinder columns (16) penetrate through the four corners of the new main shaft (12) respectively.

4. The rotor-winding machine with dust-collecting structure as claimed in claim 1, wherein: a wire clamping guide rod (20) horizontally penetrates through the interior of the wire clamping guide rod seat (19), and a wire clamping moving plate (25) is sleeved on the exterior of the wire clamping guide rod (20).

5. The rotor-winding machine with dust-collecting structure as claimed in claim 4, wherein: the wire clamping guide sleeve (21) is installed at the shaft end of the wire clamping sleeve (18), the wire clamping coil (22) is sleeved outside the wire clamping sleeve (18), and the wire pressing plate (23) is vertically welded above the outer wall of the wire clamping coil (22).

6. The rotor-winding machine with dust-collecting structure as claimed in claim 5, wherein: the outer side surface of the wire clamping guide rod seat (19) is provided with a pneumatic cylinder (24), the movable end of the pneumatic cylinder (24) is connected with a wire clamping moving plate (25), and the other side surface of the wire clamping moving plate (25) is connected with a pneumatic control cylinder (26).

7. The rotor-winding machine with dust-collecting structure as claimed in claim 1, wherein: the shear line transverse guide rod (32) penetrates through the sliding seat (33) to form a sliding fit structure with the sliding seat (33), and the shear line vertical guide rod (34) penetrates through the inner part of the upper sliding seat (35) and the lower sliding seat (35) to form a sliding structure with the upper sliding seat and the lower sliding seat (35).

8. The rotor-winding machine with dust-collecting structure as claimed in claim 1, wherein: the central axis of the rotor (7) is superposed with the horizontal central line of the mold closing (8), and the outer side surface of the rotor (7) is attached to the outer end surface of the mold closing (8).

9. The rotor-winding machine with dust-collecting structure as claimed in claim 1, wherein: the upper surface opposite side edge screw connection of deck plate (1) has wire wheel board (38), and perpendicular the settling wire wheel pole (39) in the top of wire wheel board (38), wire wheel (40) are installed on the top of wire wheel pole (39), and one side top of wire wheel board (38) is provided with line frame (41).

Technical Field

The invention relates to the technical field of rotor cotton winding machines, in particular to a rotor cotton winding machine with a dust collection structure.

Background

In the rotor course of working, in order to guarantee the firmness of rotor installation, prevent that the rotor from skidding, need carry out the cotton thread winding to the rotor, the purpose is exactly through winding the cotton thread, improves the roughness of rotor, and behind the winding cotton thread, the wearing and tearing problem of rotor also will obtain the improvement of certain degree, the rotor is as one of the very important part in the rotary mechanism, the wearing and tearing deformation problem is more common, and is difficult to evade, and adopt the mode of winding the cotton thread, and is with low costs, effectual.

Because most modern times are automated production, the rotor is not wound by the cotton threads manually, but by special machine equipment, such as a rotor cotton thread winding machine, which is suitable automated production equipment.

However, when the existing rotor cotton winding machine winds the cotton on the rotor, the motion of the equipment is not coherent and smooth, the maneuverability of each part is poor, and the control parts such as winding, cutting and rotor rotation are easy to cause errors such as pause or poor connection, so that a person is required to watch and monitor the control parts, timely process and solve the problems, and delay the production.

Disclosure of Invention

In view of the defects of the prior art, the invention provides a rotor cotton winding machine with a dust collection structure, which solves the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a rotor cotton thread winding machine with a dust collection structure comprises a table board, a transposition support and a machine frame, wherein a left main shaft box is installed above the table board, a main shaft penetrates through the inside of the left main shaft box, a flying fork seat is connected to the shaft end of the main shaft, flying fork rods are respectively arranged at two ends of the flying fork seat, a main shaft motor plate is vertically welded on the bottom surface of the left main shaft box and vertically penetrates through the plate of the table board, a mold closing is installed at the end part of the flying fork seat, a new main shaft is arranged above the transposition support, a new transposition shaft is connected to the middle of the end part of the new main shaft, a cylinder is installed at the end part of the new transposition shaft, an air rod is connected between the cylinder and the new transposition shaft, a line pressing pipe moving cylinder is fixed on the side wall of the new main shaft, a line clamping cylinder push plate is connected to the movable end of the line pressing pipe moving cylinder, the upper surface of the other end of the new main shaft is vertically connected with a wire clamping guide rod seat, a servo motor is installed on the outer side of the new main shaft, the servo motor and the new main shaft are connected in a matched mode, the rack is welded to the outer portion of the table panel, a workbench is arranged on one side of the rack, a wire shearing guide rod base is arranged on one side of the edge of the upper surface of the table panel, a wire shearing transverse guide rod is vertically connected to the end face of one side of the wire shearing guide rod base, a sliding seat is sleeved on the outer portion of the wire shearing transverse guide rod, a wire shearing vertical guide rod is arranged above the sliding seat, an upper sliding seat and a lower sliding seat are sleeved on the outer portion of the wire shearing vertical guide rod, a control cylinder is installed on the outer wall of one side of the upper sliding seat and the lower sliding seat, a shear head is connected to.

Optionally, the left spindle box is welded with sliding blocks on two sides of the bottom surface of the left spindle box, guide rails are fixed on corresponding positions of the upper surface of the table top plate, and the sliding blocks and the guide rails are matched to form a sliding structure.

Optionally, four corners of the end portion of the new spindle are provided with drawing die cylinder columns, and the drawing die cylinder columns respectively penetrate through the four corners of the new spindle.

Optionally, a wire clamping guide rod horizontally penetrates through the inside of the wire clamping guide rod seat, and a wire clamping moving plate is sleeved outside the wire clamping guide rod.

Optionally, a wire clamping guide sleeve is installed at the shaft end of the wire clamping sleeve, a wire clamping coil is sleeved outside the wire clamping sleeve, and a wire pressing plate is vertically welded above the outer wall of the wire clamping coil.

Optionally, a pneumatic cylinder is installed on the outer side surface of the wire clamping guide rod seat, the movable end of the pneumatic cylinder is connected with the wire clamping moving plate, and the other side surface of the wire clamping moving plate is connected with a pneumatic control cylinder.

Optionally, the shear line horizontal guide rod penetrates through the sliding seat and the sliding seat to form a sliding fit structure, and the shear line vertical guide rod penetrates through the inner part of the upper sliding seat and the lower sliding seat to form a sliding structure with the upper sliding seat and the lower sliding seat.

Optionally, the central axis of the rotor coincides with the horizontal central line of the mold closing, and the outer side surface of the rotor and the outer end surface of the mold closing are attached to each other.

Optionally, the other side edge of the upper surface of the deck plate is connected with a wire wheel plate through screws, a wire wheel rod is vertically arranged above the wire wheel plate, a wire wheel is installed at the top end of the wire wheel rod, and a wire frame is arranged above one side of the wire wheel plate.

The invention provides a rotor cotton winding machine with a dust collection structure, which has the following beneficial effects:

1. this rotor twine cotton machine with dust collecting structure, the action links up smoothly, and automatic level is high, and the complete machine adopts the cylinder as the executive component, and the action is reliable stable, at the kinking in-process, compares with current coiler, and each position mobility of this rotor twine cotton machine is stronger, at control position such as kinking, trimming, rotor rotation, is difficult to appear pausing or error such as bad that continues, and this rotor twine cotton machine work efficiency is high, and product quality is better, also comparatively stable.

2. The sliding fit between the sliding block and the guide rail is utilized, so that the left spindle box can move on the table board, and the left spindle box can be rapidly assembled and moved; the upright post of the drawing die cylinder ensures the accuracy and stability of the movement of the new main shaft; the clamping line guide rod is arranged on the base, the clamping line guide rod is arranged on the clamping line guide rod, the clamping coil is arranged on the clamping line sleeve and can move along the clamping line sleeve, the line pressing plate is used for pressing a line and achieving the purpose of fastening the line, and the pneumatic cylinder and the pneumatic control cylinder are used for controlling the position of the clamping line guide rod to move on the clamping line guide rod base.

3. The sliding seat can horizontally move on the trimming transverse guide rod, and similarly, the upper sliding seat and the lower sliding seat can also move up and down on the basis of the trimming vertical guide rod; the mold is closed for pressing the yarn, and the yarn is pressed on the rotor, so that the fastening and winding of the cotton yarn are realized; the line wheel is used for winding the cotton thread, and the line frame is used for tractive and pulling the cotton thread for the cotton thread receives certain pulling force at the in-process of kinking, and line wheel and line frame also can twine the discarded cotton thread, thereby clears up the waste wire on the deck plate, reaches collection dirt and convenient clear effect purpose.

Drawings

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

FIG. 2 is a schematic view of the structure above the table top plate according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of the present invention.

In the figure: 1. a table top plate; 2. a left main spindle box; 3. a main shaft; 4. a flying fork base; 5. a fly fork rod; 6. a spindle motor plate; 7. a rotor; 8. closing the mold; 9. a guide rail; 10. a slider; 11. a transposition support; 12. a new main shaft; 13. a new indexing shaft; 14. a cylinder; 15. a gas lever; 16. drawing a die cylinder upright post; 17. the wire pressing pipe moves the cylinder; 18. a wire clamping sleeve; 19. a wire clamping guide rod seat; 20. a wire clamping guide rod; 21. a wire clamping guide sleeve; 22. clamping a coil; 23. a wire pressing plate; 24. a pneumatic cylinder; 25. a wire clamping moving plate; 26. a pneumatic control cylinder; 27. a servo motor; 28. a wire clamping cylinder push plate; 29. a frame; 30. a work table; 31. a trimming guide rod base; 32. shearing a horizontal guide rod; 33. a sliding seat; 34. trimming a vertical guide rod; 35. an upper and lower sliding seat; 36. a control cylinder; 37. a rotor cylinder; 38. a wire wheel plate; 39. a reel rod; 40. a wire wheel; 41. a wire frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. 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 3, the present invention provides a technical solution: a rotor cotton thread winding machine with a dust collecting structure comprises a table board 1, a transposition support 11 and a frame 29, a left main spindle box 2 is arranged above the table board 1, the inner part of the left main spindle box 2 penetrates through the main spindle 3, the shaft end of the main spindle 3 is connected with a fly fork seat 4, two ends of the fly fork seat 4 are respectively provided with a fly fork rod 5, the bottom surface of the left main spindle box 2 is vertically welded with a main spindle motor plate 6, and a main shaft motor plate 6 vertically penetrates through the plate of the table top plate 1, a die closing 8 is arranged at the end part of the fly fork seat 4, slide blocks 10 are welded at two sides of the bottom surface of the left main shaft box 2, a guide rail 9 is fixed at the corresponding position of the upper surface of the table top plate 1, and the sliding block 10 and the guide rail 9 are matched to form a sliding structure, and by utilizing the sliding fit between the sliding block 10 and the guide rail 9, the left spindle box 2 can move on the table panel 1, so that the left spindle box 2 can be rapidly assembled and moved;

a new main shaft 12 is arranged above the indexing support 11, a new indexing shaft 13 is connected in the middle of the end part of the new main shaft 12, an air cylinder 14 is installed at the end part of the new indexing shaft 13, an air rod 15 is connected between the air cylinder 14 and the new indexing shaft 13, drawing die air cylinder columns 16 are arranged at four corners of the end part of the new main shaft 12, the drawing die air cylinder columns 16 respectively penetrate through the four corners of the new main shaft 12, the drawing die air cylinder columns 16 ensure the moving accuracy and stability of the new main shaft 12, a line pressing pipe moving air cylinder 17 is fixed on the side wall of the new main shaft 12, a line clamping air cylinder push plate 28 is connected at the movable end of the line pressing pipe moving air cylinder 17, a line clamping sleeve 18 is installed at the center of the other end of the new main shaft 12, a line clamping guide rod seat 19 is vertically connected on the upper surface of the other end of the new main shaft 12, a line clamping guide rod 20 horizontally penetrates through the inner part, the wire clamping guide rod comprises a wire clamping guide rod base 20, a wire clamping guide sleeve 21, a wire clamping coil 22, a wire pressing plate 23, a pneumatic cylinder 24, a movable end of the pneumatic cylinder 24, a pneumatic control cylinder 26 and a pneumatic control cylinder 26, wherein the wire clamping guide rod base 20 is arranged on the wire clamping guide rod 25 in a movable mode, the wire clamping guide sleeve 21 is arranged at the shaft end of the wire clamping sleeve 18, the wire clamping coil 22 is sleeved outside the wire clamping sleeve 18, the wire pressing plate 23 is vertically welded above the outer wall of the wire clamping coil 22, the wire clamping coil 22 is arranged on the wire clamping sleeve 18 and can move along the wire clamping sleeve 18 in a position, the wire pressing plate 23 is used for pressing wires to achieve the purpose of fastening wires, the pneumatic cylinder 24 is arranged on the outer side face of the wire clamping guide rod base 19, the movable end of the pneumatic cylinder 24 is connected with;

a servo motor 27 is arranged on the outer side of the new main shaft 12, the servo motor 27 is connected with the new main shaft 12 in a matching way, a frame 29 is welded on the outer portion of the table panel 1, a workbench 30 is arranged on one side of the frame 29, a trimming guide rod base 31 is arranged on one side of the edge of the upper surface of the table panel 1, a trimming transverse guide rod 32 is vertically connected with one side end face of the trimming guide rod base 31, a sliding seat 33 is sleeved on the outer portion of the trimming transverse guide rod 32, a trimming vertical guide rod 34 is arranged above the sliding seat 33, an upper sliding seat 35 and a lower sliding seat 35 are sleeved on the outer portion of the trimming vertical guide rod 34, the trimming transverse guide rod 32 penetrates through the sliding seat 33 and the sliding seat 33 to form a sliding fit structure, the trimming vertical guide rod 34 penetrates through the inner portion of the upper sliding seat 35 and the lower sliding seat 35 to form a sliding structure, the sliding seat 33 can horizontally move on the trimming transverse guide rod 32, and similarly, the upper sliding seat 35 can, a control cylinder 36 is arranged on the outer wall of one side of the upper and lower sliding seats 35, a scissor head is connected with the movable end of the control cylinder 36, a rotor 7 is arranged at the shaft end of the thread clamping guide sleeve 21, a rotor cylinder 37 is connected with one end of the rotor 7, the central axis of the rotor 7 is overlapped with the horizontal central line of the mold closing 8, the outer side surface of the rotor 7 is mutually attached to the outer end surface of the mold closing 8, the mold closing 8 is used for pressing a thread into the rotor 7, so that the fastening and winding of the cotton thread are realized, a wire wheel plate 38 is screwed on the other side edge of the upper surface of the table panel 1, a wire wheel rod 39 is vertically arranged above the wire wheel plate 38, a wire wheel 40 is arranged at the top end of the wire wheel rod 39, a wire frame 41 is arranged above one side of the wire wheel plate 38, the wire wheel 40 is used for winding the cotton thread, the wire frame 41 is used for drawing and pulling the cotton thread, so that the cotton thread is, thereby cleaning the waste wire on the table panel 1 and achieving the purposes of dust collection and convenient cleaning.

In summary, when the rotor cotton winding machine with the dust collecting structure is used, the rotor 7 is firstly arranged at the end part of the yarn clamping guide sleeve 21, then the rotor cylinder 37 is opened, the movable end of the rotor cylinder 37 is tightly pressed against the end part of the rotor 7, then the servo motor 27 can be started to drive the new main shaft 12 to rotate, the yarn clamping sleeve 18, the yarn clamping guide rod 20 and the like start to rotate, the rotor 7 rotates, cotton yarns are led into the position of the rotor 7 from the end part of the fly fork rod 5, then the cotton yarns are wound and fixed on the rotor 7 along with the rotation of the rotor 7 and the continuous pressing of the mold closing 8, after a certain number of turns of winding, the control cylinder 36 pushes the scissor head arranged at the end part of the rotor 7 to cut off the yarns, then the yarns are wound, the yarns are uniformly wound on the rotor 7, then the mold closing 8 retreats, the rotor 7 rotates at a constant speed, the cotton yarns are wound on the end part of the rotor 7, the scissor head is close to the thread end again, the thread end is cut off, all parts are retreated, and the thread winding work of the rotor 7 can be finished.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.