CN108946299B

CN108946299B - Lifting type quick winding equipment

Info

Publication number: CN108946299B
Application number: CN201810366953.8A
Authority: CN
Inventors: 郭强; 杨林
Original assignee: Mianyang Juxian Automation Equipment Co ltd
Current assignee: Mianyang Juxian Automation Equipment Co ltd
Priority date: 2018-04-23
Filing date: 2018-04-23
Publication date: 2020-12-29
Anticipated expiration: 2038-04-23
Also published as: CN108946299A

Abstract

The invention discloses lifting type quick winding equipment which comprises a first transverse frame, a second transverse frame and a third transverse frame, wherein a first roll shaft and a second roll shaft are erected on the first transverse frame, a third roll shaft is erected on the second transverse frame, a fourth roll shaft is erected on the third transverse frame, the connecting lines of the sections of the first roll shaft, the second roll shaft and the third roll shaft form an isosceles triangle, and the connecting line of the sections of the first roll shaft and the second roll shaft is the bottom edge of the isosceles triangle; the second roll shaft and the third roll shaft are driven by a motor to rotate; a through hole for the third roller shaft to pass through is formed in the second transverse frame, and the sleeve and the second transverse frame are meshed through mutually matched external threads and internal threads; the intelligent control system is characterized by further comprising a human-computer interaction module and a controller, wherein the input end of the controller is connected with the human-computer interaction module, and the output end of the controller is connected with the motor. The invention is used for solving the problem that the natural fiber rope is easy to be partially bent and knotted in the winding process in the prior art, and achieves the purpose of improving the winding quality of the natural fiber textile rope.

Description

Lifting type quick winding equipment

Technical Field

The invention relates to the field of winding, in particular to lifting type quick winding equipment.

Background

Winding machines are devices for winding linear objects on specific workpieces, and the wires wound by common winding machines are mostly enamelled copper wires (for winding inductance coils of electronic and electric products), enamelled aluminum wires, textile wires (for winding yarn spindles and yarn balls of textile machines), and electric heating wires and soldering wires for winding electric heating appliances, electric wires, cables and the like. In the prior art, most of textile threads are directly wound by using a roller to rotate, the mode can achieve a good winding effect on artificial fiber ropes with hard texture, but the ropes are easy to be locally bent or knotted for cotton and hemp natural fiber ropes with soft texture.

Disclosure of Invention

The invention aims to provide lifting type quick winding equipment, which aims to solve the problem that a natural fiber rope is easy to be partially bent and knotted in the winding process in the prior art and achieve the purpose of improving the winding quality of the natural fiber textile rope.

The invention is realized by the following technical scheme:

the lifting type quick winding equipment comprises a rack, wherein the rack comprises a first transverse frame, a second transverse frame and a third transverse frame which are sequentially distributed from top to bottom, the first transverse frame, the second transverse frame and the third transverse frame are fixedly connected with one another, supporting legs are arranged at the bottom of the third transverse frame, a first roller shaft and a second roller shaft are erected on the first transverse frame, a third roller shaft is erected on the second transverse frame, a fourth roller shaft is erected on the third transverse frame, the first roller shaft, the second roller shaft, the third roller shaft and the fourth roller shaft are parallel to one another, the third roller shaft and the fourth roller shaft are opposite to one another up and down, the connecting lines of the circle centers of the sections of the first roller shaft, the second roller shaft and the third roller shaft form an isosceles triangle, and the circle center of the section connecting line of the first roller shaft and the second roller shaft is the bottom edge of the isosceles triangle; the second roll shaft and the third roll shaft are driven by a motor to rotate; a through hole for a third roller shaft to pass through is formed in the second transverse frame, an internal thread is formed in the inner wall of the through hole, a sleeve is fixedly sleeved outside the third roller shaft, an external thread is formed in the outer surface of the sleeve, the external thread is matched with the internal thread, and the sleeve is meshed with the second transverse frame through the mutually matched external thread and internal thread; the motor is characterized by further comprising a human-computer interaction module and a controller, wherein the input end of the controller is connected with the human-computer interaction module, and the output end of the controller is connected with the motor.

The invention provides lifting type quick winding equipment aiming at the problem that local bending and knotting phenomena are easy to occur in the prior art, a rack comprises three layers of transverse frames which are fixedly connected with each other, supporting legs are arranged at the bottom of a third transverse frame and used for supporting the whole rack on the ground, a second roller shaft and a third roller shaft are driving shafts and are driven by motors to rotate respectively, a first roller shaft and a fourth roller shaft are driven shafts, and workers send instructions through a man-machine interaction module and control the work of the two motors after receiving the instructions through a controller, so that the winding speed of the winding equipment is controlled. Wherein the third roller is connected with the second horizontal frame through the sleeve, and the sleeve is fixed to be established outside the third roller, therefore sleeve and third roller synchronization action, realize the cooperation through the screw thread that matches each other between the through-hole on sleeve and the second horizontal frame, consequently when the motor drives the third roller and rotates, drive the sleeve and carry out synchronous rotation, because the existence of screw thread, the sleeve can carry out linear motion on the axis direction to drive the third roller and carry out linear motion along the axis direction. Through the positive and negative rotation of control motor, can realize the reciprocating motion of third roller in the axis direction to this makes the weaving cotton rope can carry out horizontal relative movement on the third roller, provides the power of dragging of side direction for the weaving cotton rope by the third roller, makes the weaving line also can receive the effort in the side direction, further improves the surface tension of weaving cotton rope, compares in prior art very big improvement holistic extension nature, improved wire winding quality and homogeneity. When the winding device is used specifically, a natural fiber textile rope to be wound firstly winds the fourth roller shaft for one circle, then the rope winds the third roller shaft from the third roller shaft to the second roller shaft from bottom to top, then the rope winds the first roller shaft from the upper part of the first roller shaft, finally the rope winds the second roller shaft from the lower part of the second roller shaft from bottom to top, the third roller shaft moves reversely after the stroke is finished, and at the moment, the motor of the second roller shaft is preferably controlled to stop working. The third roller shaft is used as a driving shaft to provide power for upward movement of the cord, and simultaneously pulls the cord wound on the fourth roller shaft in a whole circle, so that the cord entering the invention can be unfolded on the fourth roller shaft, the connecting lines of the section circle centers of the first roller shaft, the second roller shaft and the third roller shaft form an isosceles triangle, and the connecting line of the section circle centers of the first roller shaft and the second roller shaft is the bottom edge of the isosceles triangle, therefore, the connecting line from the third roller shaft to the first roller shaft is the bevel edge of the isosceles triangle, so that the cord from the third roller shaft to the first roller shaft has a larger movement elevation in the vertical direction, the cord can be fully pulled and stretched in the upward moving process, and the gravity is used for assisting in stretching the cord. Because the wire is wound around the third roller shaft from the third roller shaft to the direction of the second roller shaft, the wire from the third roller shaft to the first roller shaft is subjected to the reaction force of the surface of the third roller shaft, and the wire is spread by the actively rotating third roller shaft. Similarly, because the cotton rope winds on the second roller shaft from bottom to top from the lower part of the second roller shaft after bypassing the first roller shaft, the surface of the first roller shaft can apply acting force on the cotton rope, and the cotton rope is spread again, so that the phenomenon of local bending and knotting of the cotton rope can be greatly avoided.

The human-computer interaction module and the controller are both fixed on the top surface of the first transverse frame. So as to be convenient for the operation and control of workers.

Preferably, the human-computer interaction module is a touch screen module. The touch screen module integrates input and display, can reduce the occupied space and is convenient to use.

The motor is a stepping motor. Ensuring the control precision and accuracy.

Preferably, one end of the third roll shaft is connected with the output end of the speed reducer, and the input end of the speed reducer is connected with the motor. The driving force to the third roller shaft is increased by the speed reducer.

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

1. according to the lifting type quick winding equipment, the third roller serves as a driving shaft to provide power for upward movement of the cord, and meanwhile, the cord wound on the fourth roller in a whole circle is pulled, so that the cord entering the lifting type quick winding equipment can be unfolded on the fourth roller, the cord from the third roller to the first roller has a large movement elevation in the vertical direction, the cord can be fully pulled and stretched in the upward movement process, and the gravity is utilized to provide assistance for stretching of the cord.

2. According to the lifting type quick winding device, the cord bypasses the third roller shaft from the third roller shaft to the direction of the second roller shaft, so that the cord from the third roller shaft to the first roller shaft can be subjected to the reaction force of the surface of the third roller shaft, and the cord is spread through the third roller shaft which rotates actively. Similarly, because the cotton rope winds on the second roller shaft from bottom to top from the lower part of the second roller shaft after bypassing the first roller shaft, the surface of the first roller shaft can apply acting force on the cotton rope, and the cotton rope is spread again, so that the phenomenon of local bending and knotting of the cotton rope can be greatly avoided.

2. According to the lifting type rapid winding device, the reciprocating motion of the third roller shaft in the axis direction can be realized by controlling the forward and reverse rotation of the motor, so that the textile cord can transversely move relatively on the third roller shaft, the third roller shaft provides lateral pulling force for the textile cord, the textile cord can also bear acting force in the lateral direction, the surface tension of the textile cord is further improved, and compared with the prior art, the lifting type rapid winding device greatly improves the whole extension property and improves the winding quality and uniformity.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic illustration of an embodiment of the present invention in operation;

fig. 3 is a sectional view of the third roller axis according to the embodiment of the present invention.

Reference numbers and corresponding part names in the drawings:

1-a first transverse frame, 2-a second transverse frame, 3-a third transverse frame, 4-supporting legs, 5-a first roller shaft, 6-a second roller shaft, 7-a third roller shaft, 8-a fourth roller shaft, 9-a motor, 10-a human-computer interaction module, 11-a controller, 12-a sleeve and 13-a speed reducer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Example 1:

the lifting type quick winding device shown in fig. 1 to 3 comprises a frame, wherein the frame comprises a first transverse frame 1, a second transverse frame 2 and a third transverse frame 3 which are sequentially distributed from top to bottom, the first transverse frame 1, the second transverse frame 2 and the third transverse frame 3 are fixedly connected with each other, the bottom of the third transverse frame 3 is provided with a supporting leg 4, a first roll shaft 5 and a second roll shaft 6 are erected on the first transverse frame 1, a third roll shaft 7 is erected on the second transverse frame 2, a fourth roller shaft 8 is erected on the third transverse frame 3, the first roller shaft 5, the second roller shaft 6, the third roller shaft 7 and the fourth roller shaft 8 are parallel to each other, the third roller shaft 7 is opposite to the fourth roller shaft 8 up and down, the connecting lines of the circle centers of the sections of the first roller shaft 5, the second roller shaft 6 and the third roller shaft 7 form an isosceles triangle, the connecting line of the circle centers of the sections of the first roller shaft 5 and the second roller shaft 6 is the bottom side of an isosceles triangle; the second roller shaft 6 and the third roller shaft 7 are driven by a motor 9 to rotate; a through hole for the third roller shaft 7 to pass through is formed in the second transverse frame 2, an internal thread is formed in the inner wall of the through hole, a sleeve 12 is fixedly sleeved outside the third roller shaft 7, an external thread is formed on the outer surface of the sleeve 12, the external thread is matched with the internal thread, and the sleeve 12 is meshed with the second transverse frame 2 through the mutually matched external thread and internal thread; the intelligent control system is characterized by further comprising a human-computer interaction module 10 and a controller 11, wherein the input end of the controller 11 is connected with the human-computer interaction module 10, and the output end of the controller 11 is connected with the motor 9. The human-computer interaction module 10 and the controller 11 are both fixed on the top surface of the first transverse frame 1. The human-computer interaction module 10 is a touch screen module. The motor 9 is a stepping motor. One end of the third roller shaft 6 is connected with the output end of a speed reducer 13, and the input end of the speed reducer 13 is connected with the motor 9.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. Lifting type quick winding equipment comprises a rack and is characterized in that the rack comprises a first transverse frame (1), a second transverse frame (2) and a third transverse frame (3) which are sequentially distributed from top to bottom, the first transverse frame (1), the second transverse frame (2) and the third transverse frame (3) are fixedly connected with each other, supporting legs (4) are arranged at the bottom of the third transverse frame (3), a first roller shaft (5) and a second roller shaft (6) are erected on the first transverse frame (1), a third roller shaft (7) is erected on the second transverse frame (2), a fourth roller shaft (8) is erected on the third transverse frame (3), the first roller shaft (5), the second roller shaft (6), the third roller shaft (7) and the fourth roller shaft (8) are parallel to each other, the connecting lines of the sections of the third roller shaft (7) and the fourth roller shaft (8) are vertically aligned, and the circle centers of the first roller shaft (5), the second roller shaft (6) and the third roller shaft (7) form an isosceles triangle, the connecting line of the circle centers of the sections of the first roll shaft (5) and the second roll shaft (6) is the bottom edge of an isosceles triangle; the second roll shaft (6) and the third roll shaft (7) are driven by a motor (9) to rotate; a through hole for the third roll shaft (7) to pass through is formed in the second transverse frame (2), an internal thread is formed in the inner wall of the through hole, a sleeve (12) is fixedly sleeved outside the third roll shaft (7), an external thread is formed in the outer surface of the sleeve (12), the external thread is matched with the internal thread, and the sleeve (12) is meshed with the second transverse frame (2) through the mutually matched external thread and internal thread; the intelligent control system is characterized by further comprising a human-computer interaction module (10) and a controller (11), wherein the input end of the controller (11) is connected with the human-computer interaction module (10), and the output end of the controller (11) is connected with the motor (9); the human-computer interaction module (10) and the controller (11) are fixed on the top surface of the first transverse frame (1); the human-computer interaction module (10) is a touch screen module;

when the winding device is used specifically, natural fiber textile cords to be wound are firstly wound around the fourth roller shaft (8) for one circle, then the cords are wound around the third roller shaft (7) from the third roller shaft (7) to the second roller shaft (6) from bottom to top, then the cords are wound around the first roller shaft (5) from the upper part of the first roller shaft (5), and finally the cords are wound on the second roller shaft (6) from the lower part of the second roller shaft (6) from bottom to top.

2. Lifting fast winding device according to claim 1, characterized in that said motor (9) is a stepping motor.

3. Lifting fast spooling apparatus as claimed in claim 1, characterized in that the third roller (7) is connected at one end to the output of a reducer (13), the input of the reducer (13) being connected to the motor (9).