TWM334123U - Reciprocating-guiding device for wire-winding machine - Google Patents

Description

M334123 VIII. New description: [New technical field] The creation system has a reciprocating guiding device that relies on reciprocating movement, and the reciprocating movement is extremely flat, and the moving contact of the rotating belt is controlled by the motor. Set the location and make changes and other advantages as needed. [Prior Art] - (d) Figure 1-3, the conventional cable-type winding reciprocating device includes: - a control portion 81, a motor 82, a drive wheel 83, two guide wheels 84, - a reciprocating member 85, ^~ The banknote is 86 and a bobbin 87. The brake 4 81 is used to control the motor 82 to drive the driving wheel 83; the reciprocating member 85 is wound around the driving wheel 83 and the guiding wheel %; the yarn guiding device is fixed to the reciprocating member 85 on. 'The reciprocating element 85 is a type of steel cable, string or belt. A yarn can be wound around the bobbin by means of the yarn guide 86.

The reciprocating guide device of the traditional steel wire type winder has the following lack of stomach.

[1] Reciprocating movement is easy to shift and vibrate. Referring to the first figure, since the reciprocating member 85 is suspended between the two guide wheels 84, and bets to move along the X-axis of the horizontal, when the guide = 86 recorded _, the m-direction is shifted The fish vibrates 'the face, the yarn wound on the yarn tube 87 is inevitably somewhat uneven, affecting the quality of the winding work. 3 [2] The moving position cannot be precisely controlled. When the yarn guide is moving back and forth 5 M334123, the movement has two limit positions, respectively - the -th limit position? 1 and a second limit position P2. However, when a steel cable, a string or a general belt is used, since the contact between the cable, the string or the belt and the driving wheel 83 and the guide wheel 84 is a sliding contact, there is a slight slight sliding error. This will cause the guide yarn to be accurately turned over. If it exceeds the scale-limit health or the second limit position p2, it means that the area of the winding will become larger, that is, a defective product will be formed. [3] The motor mounting position cannot be changed as needed. The motor of the traditional cable-winding machine is fixed, it can't match the fines & slow (the tree must adjust the position of the unit to facilitate the space) or the design adjustment on the winding machine (may be due to the development design = adjust the parts The location to set the new component), changing its location, so that the two applications in the plant or the development design of the winding machine is limited. Therefore, it is necessary to develop new products to solve the above shortcomings and problems. [New content] The main purpose of the present invention is to provide a reciprocating guiding device for a winding machine, which makes the reciprocating movement smooth and smooth. - The object is to provide a reciprocating guiding device for a winding machine which allows precise control of the moving position of the driving belt. A further object of the present invention is to provide a reciprocating guiding device for a winding machine which allows the Ma Wei inspection to be changed as needed. The present invention provides a rewinding device of the winding type, comprising: a driving assembly, 俦$φ1 female. '," having a driving belt body, at least two wheel bodies and a driving element; the driving belt system Wrapped around the wheel body, and the drive is used to drive the motor to drive the wheel body to reciprocate the drive belt body; a slide rail portion has a first mating portion, the first mating portion The extending direction is defined as a reciprocating direction; a slider portion has a second mating portion and a fixing member, and the second mating portion and the first mating portion are mutually constrained; the fixing member is used Fixing the drive belt 'body and synchronously moving; thereby, the slider portion can only reciprocate along the _ reciprocating direction on the first mating portion; #一导纱部' is disposed on the slider The above-mentioned objects and advantages of the present invention are not difficult to understand from the detailed description of the selected embodiments and the drawings. The following embodiments are described in detail with reference to the drawings. After the creation · · [Embodiment] Tea reading second and third This creation system as a winding machine of a reciprocating guide means brother embodiment includes:

A driving component 1 and a driving component 13 are used for moving; a sliding rail 20 has a chute 21 and a small

And at least one limit stop portion 22, the slide X; the face 32 sliding surface 31, the at least one second slide 7 31 is in contact with the sliding slot 21; the 7 M334123 two = face: the system and the limit portion paste paste ^ =_ and can move synchronously; the limit portion 22 knows that the block can only reciprocate in the reciprocating direction X in the chute 21; the guide v40' is disposed on the slider portion 3〇 and has a The yarn guide hole* is thus the winding guide of the present invention. The drive belt body u of the X drive and the member 1G rotates relative to the slip portion %. The forest moving body 11 scales use one of the structures of the belt body, the miscellaneous, and the similar timing belt. As shown in the fourth figure, the second real version of the present invention is different from the first embodiment only in that three wheel bodies 12 are provided, and the remaining functions are the same.第五5A and 5BB are the first type of the slider portion of the present invention, and the fixing member 33 of the slider portion 30 has a vertical groove 331 for fixing the driving belt body 11 The vertical groove 331 is recessed on the predetermined element 33. In addition, as shown in the sixth and sixth B-pictures, it is the second core of the slider portion 3 of the present creation. The fixing member 33 of the half/month block portion 30 also has a vertical recess 331 for fixing the surface moving belt body U, which is convexly convex on the fixing member 33. Referring to the seventh figure, the third embodiment of the present invention is the same as the second embodiment. The difference is only that the driving belt body n of the driving component 1 is relatively perpendicular to the sliding portion 20. Turn. In addition, as shown in the eighth figure, it is a third type of the slider portion 3, and the fixing member 33 has a horizontal groove 332 for fixing the driving belt body 11. The water 8 M334123 is flat. The groove 332 is recessed on the fixing element %. Please also refer to the ninth figure, which is a fourth type of the slider portion 3, the fixing member has eight horizontal grooves 332' for fixing the driving belt body U, and the horizontal groove 332 is externally protruding. On the fixed element magic. As shown in FIG. 10, the driving belt body u has a plurality of teeth (1), and the 'wheel body 12 has a corresponding groove 12, and the tooth portion m and the groove 121 are combined with each other. The drive belt body 11 and the wheel body 12 can be accurately driven to each other. _ : Read the tenth - and twelfth ®, which is the fourth embodiment of the present invention, which is substantially the same as the first embodiment. The difference lies in the chute 2 and the limit collision 22 (such as the second The first sliding portion 31 and the second sliding surface 32 (shown in the second figure) together form a second mating portion. 3〇A (general round hole); by the first and second mating portions 20A and 30A being mutually constrained 'to make the slider portion 30 only fit the first mating portion 2A, and to reciprocate along the reciprocating movement The direction X reciprocates; and the drive unit 1 〇, the rail portion 20 and the slider portion 3 _ move perpendicular to each other in the movement direction X. As shown in the fourteenth and fifteenth drawings, the fifth embodiment of the present invention is almost the same as the fourth gamma known example, and the only change is the driving component 1〇, the sliding portion 2〇, and the sliding. The block portions 30 are horizontally moved in the moving direction X. In addition, the driving belt body 11 and the fixing member 33 have at least the following fixed structures: [a] As shown in FIG. 11A, the driving belt body n and the fixing element phantom vertical groove 331 are Tight fit structure. M334123~[b] As shown in the tenth-Bth diagram, the driving belt body u is provided with the tooth portion (1), and the vertical groove 331 of the fixing member 33 is provided with a fixed tooth 33A. For example, as shown in FIG. 11C, the driving belt body u is provided with a fixing surface 1 , and the fixing member 33 is provided with a fixing pin 33β penetrating the vertical groove 331 , by which the fixing pin 33B is fixed The fixing surface 112 fixes the driving belt body u and the fixing member 33 to each other. / Of course, the fixing structure of the driving belt body u and the fixing member 33 can be implemented on one of the vertical groove 331 and the horizontal groove 332. Also, the present invention restricts the sliding surface of the sliding portion by the sliding groove and the limiting portion of the sliding portion, and the second sliding surface can only be moved along the reciprocating direction of the simple sliding portion, by the two-sided structure The mutual restriction of the slider allows the slider portion to be relatively stable on the sliding portion, and can be arranged to be perpendicular to the sliding portion or horizontal to the sliding portion according to the her Rotating, you can make the lining belt change at the same time with the _ riding part change (four) movement mode, a considerable breakthrough. The advantages and functions of this creation can be summarized as follows: The green part of the paste is provided with a chute and a limit stop, which can be precisely controlled with the position of the slider portion, respectively, in the moving position of the drive belt. When the driving belt of the _M334123 adopts the structure of the low ductility belt and the chain money like the timing belt, the moving position of the driving belt body can accurately control 'relatively and accurately drive the guide on the slider portion. The yarn section winds the yarn neatly. [3] The motor mounting position can be changed as needed. The driving elements of this creation can be changed horizontally or vertically by the touch of the slide, so that the appropriate installation position can be changed at any time in accordance with the opening direction of the 'lang or the shaft. _ The above money is borrowed from her fine work, and the other examples are not to be separated from the spirit and scope of this creation. By the above 4, the detailed description can make it possible for the well-known artisans to understand that the creation of this art is indeed up to the scope of the patent law, and to propose a new type of patent application. M334123 [Simplified illustration of the drawings] The first drawing is a schematic view of a conventional device. The second drawing is a perspective view of the first embodiment of the present invention. The third drawing is a plan view of the fourth embodiment of the present invention. The top view of the fifth embodiment of the embodiment is a schematic diagram of the first type of the slider portion of the present invention. The fifth B diagram is a cross-sectional view of the first type of the slider portion of the present creation. The second type of the slider portion of the present invention is a cross-sectional view of the second type of the slider portion of the present invention. The seventh diagram is a perspective view of the third embodiment of the present creation. The figure is the schematic diagram of the third type of the slider part of the creation. The ninth diagram is the schematic diagram of the fourth type of the slider part of the creation. The tenth figure is the schematic diagram of the driving belt body and the wheel body of the present invention. The eleventh A diagram is the first fixed embodiment of the driving belt body and the solid technology part of the present invention. The tenth-B diagram is intended to be the creation of the second embodiment of the present invention. The third fixed embodiment of the driving belt body and the fixing element of the present invention is the tenth Fig. 13 is a perspective view of a fourth embodiment of the present invention. Fig. 14 is a plan view of a fourth embodiment of the present invention. Fig. 14 is a perspective view of a fifth embodiment of the present invention. Plan of the embodiment [Description of main components] 10 drive assembly 11 drive belt 111 tooth portion 112 fixing surface 12 wheel body 121 groove 13 drive member 20 sliding portion 20A first mating portion 21 chute 22 limit portion 30 Slider portion 30A second mating portion 31 first sliding surface 32 second sliding surface 33 fixing member 33A fixing tooth 33B fixing pin member 331 vertical groove 332 horizontal groove 40 yarn guiding portion 41 yarn guiding hole 81 control portion 82 motor 83 Drive wheel 84 guide wheel 85 reciprocating element 86 yarn guide 87 bobbin P1 first limit position P2 second limit position X reciprocating direction

Claims (1)

M334123 IX. Patent application scope: 1 . A reciprocating guiding device for a winding machine, comprising: a driving component having at least one driving belt body, at least two wheel bodies and a driving element; the driving belt system Wrapped around the wheel body, and the driving element is used to drive the wheel body to reciprocate the driving belt body; _ - the miscellaneous portion has a _ first mating portion, and the extending direction of the first engaging portion is - 疋 为 为 一 往复 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ For fixing the driving belt body and synchronously moving: thereby, the riding block portion can only reciprocate in the reciprocating direction on the first engaging portion; the % portion is disposed on the sliding portion and has - Guide hole. [2] The reciprocating guiding device for the winding machine according to claim 1, wherein the driving belt system adopts one of a low structure; the first ductility of the sliding portion is similar to a chain, a chain, and the like. The extending direction of the knot groove of the timing belt _ reciprocating direction; the mating portion includes a sliding slot and at least one limiting stop, the second sliding surface of the sliding portion, the first sliding position contact, the shoe The second mating system includes at least H moving surface and at least For the winding machine described in item 2, the sliding surface of the sliding ring is limited to the reciprocating guiding device of the sliding groove, wherein one of the 14 M334123 is To fix the fixing component, tt|-r nji /x disposed in the vertical groove and the horizontal groove to drive the belt body. 4. = Ride:: The reciprocating guide for the winding machine of the third aspect, wherein the structure is tightly fitted. And the _ straight groove and the _ branch are =: r set the horizontal groove 'and the water component is set, wherein: 6. The reciprocating guide for the winding machine as described in claim 3 (4)驱动 The driving belt system is provided with a plurality of teeth; the fixed tooth is fixed to the straight groove, and the difficult groove is correspondingly provided with the groove corresponding to the wheel system. 7 The reciprocating guiding device for the winding machine according to claim 3, wherein: the ΰ海 driving f system is provided with a plurality of teeth; the solid fixing element is provided with the horizontal groove, and the The horizontal groove is correspondingly provided with fixed teeth; the wheel system is correspondingly provided with a groove. The reciprocating guide device for a winding machine according to the third aspect of the invention, wherein: the driving belt system is provided with a fixing surface; the fixing member is configured to set the vertical groove and penetrate the vertical four The slot is provided with a fixing pin member shed pin to be fixed to the coffee surface, so that the driving belt body and the fixing M334123 element are fixed to each other. 9. The reciprocating guide for a winding machine according to claim 3, wherein: the driving belt system is provided with a fixing surface; the fixing member is provided with the horizontal groove and penetrates the horizontal groove A fixing pin is provided for fixing to the fixing surface, so that the driving belt body and the fixing element are fixed to each other.