CN205124787U - Spinning wheel formula winder for fishing of variable -ratio - Google Patents

Abstract

The utility model provides a spinning wheel formula winder for fishing of variable -ratio, contain a main part and install in a drive unit of this main part, one receives this drive unit interlock can produce pivoted receipts thread guide dish, one receives this drive unit interlock to receive winding reel and speed change gear that the thread guide coiled reciprocating motion for this, this speed change gear includes that one is meshed in this drive unit's worm wheel dish, one sets up in the separation and reunion piece of this worm wheel dish one side and the pinion gear unit that sets up between this worm wheel dish and this separation and reunion piece and the regulating unit of this separation and reunion piece of ability interlock. It can make this worm wheel dish produce the variable speed through the transmission of this pinion gear unit to operate this regulating unit.

Description

The Spinning wheel type coiling device for angling of variable-ratio

Technical field

The utility model relates to a kind of fishing tackle, particularly relates to a kind of Spinning wheel type coiling device for angling of variable-ratio.

Background technology

General Spinning wheel type coiling device for angling, comprise a main body, a rocking handle being located at this main body side, a rotating shaft and one and the vertically disposed reciprocating lever of this rotating shaft is provided with in this main body, this rocking handle is connected with this rotating shaft, this axis of rotation can be driven by rotating this rocking handle, and this rotating shaft is provided with a driving gear, this driving gear engages with a driven gear be located in this main body, this driven gear is provided with a biasing post, and the lower end of this reciprocating lever is provided with sliding shoe, this sliding shoe is provided with a chute, this biasing post is nested in this chute, when rotating this rotating shaft, this driving gear drives this driven gear to rotate, this biasing post moves along with this driven gear, thus final this reciprocating lever that drives moves back and forth.In addition, this rotating shaft is also provided with a worm gear, this reciprocating lever is provided with a worm screw, this worm gear and this worm engaging, this worm screw and a take-up godet affixed, this axis of rotation then this worm gear drives this worm screw to rotate, thus drives this take-up godet to rotate.The end of this reciprocating lever is connected with one and is positioned at spool outside this take-up godet, and this spool can be driven by this reciprocating lever and produce relative to this spool and move back and forth.

The shortcoming that existing Spinning wheel type coiling device for angling also exists is: this worm gear can only drive worm screw to rotate with a speed, can not realize speed change, cannot adapt to the shifting needs under different situation.

Again with TaiWan, China certificate number I389639 Patent Case, also comprise a body, mechanism passed in rotation being located at this body side, rotor passing on inter-agency kinetic energy in succession to rotate relative to this body by this rotation, one can produce the reel moved back and forth by the inter-agency reciprocating device that moves in succession of this rotation reception and registration and one by this reciprocating device interlock.Though this Patent Case can reach the application target of spinning wheel type line winder, but also cannot produce the function of speed change.

Summary of the invention

The purpose of this utility model is to provide a kind of Spinning wheel type coiling device for angling that can produce the variable-ratio of speed changing function according to user demand.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, comprise a main body and be installed on a driver element of this main body, one can produce the take-up godet rotated by this driver element interlock, a spool and a speed change gear that can move back and forth relative to this take-up godet by this driver element interlock, this driver element comprises one and can rotate and be located in the rocking handle of this main body, one can produce rotation by this rocking handle interlock and along the rotating shaft of an Axis Extension, edge is perpendicular to the worm screw of this axis, one is arranged in this worm screw inside and can produces the reciprocating lever moved back and forth by this rotating shaft interlock, this speed change gear is installed on the upper cover of this main body and is sheathed on this rotating shaft, and comprise the worm gear dish that is engaged in this worm screw, a clutch part being arranged at this worm gear dish side, a regulon being arranged at pinion gear unit between this worm gear dish and this clutch part and this clutch part of energy interlock, this worm gear dish has the worm gear that several first holding section and are engaged in this worm screw, this clutch part has several the second holding section relative to described first holding section, operating this regulon can make the second holding section of this clutch part convert an occlusal position relative to the first holding section of this worm gear dish to by a separation point position, when separation point position, this clutch part is linked to the upper cover of this main body, and the rotatory force of this rotating shaft can make this worm gear dish produce speed change by the transmission of this pinion gear unit, when occlusal position, this clutch part departs from the upper cover in this main body, the rotatory force of this rotating shaft passes through the transmission of this pinion gear unit and described second holding section is engaged described first holding section, this worm gear dish of the rotatory force Direct driver of this rotating shaft rotates.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, this regulon comprise one be sheathed on the outside and speed change cover between this rocking handle and upper cover of this main body of this rotating shaft and one can by the adapter sleeve of this speed change cover interlock, this speed change cover is in hollow ring round, and there is an inner ring surface around this axis and severally helically extend shape around this axis and be located at the helical orbit of this inner ring surface, this adapter sleeve has the annular portion of this clutch part of energy interlock and majority and is connected to this annular portion and can by the hook of described helical orbit guiding, rotating this speed change cover can drive this adapter sleeve to produce displacement along this axis, and this clutch part of interlock converts along this axis relative to this worm gear dish between the generation of this separation point position and this occlusal position.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, the upper cover of this main body has a shoulder face perpendicular to this axis and several the 3rd holding section being located on this shoulder face, this clutch part also has a plane of a loop relative with this shoulder face and is severally arranged at this plane of a loop and relative to the 4th holding section of described 3rd holding section, when operating this regulon and make the second holding section of this clutch part be positioned at separation point position relative to the first holding section of this worm gear dish, the 4th holding section of this clutch part can be made to be positioned at a clamped position relative to the 3rd holding section of this upper cover, at operation this regulon and when making the second holding section of this clutch part be positioned at occlusal position relative to the first holding section of this worm gear dish, the 4th holding section of this clutch part can be made to be positioned at a disengaging configuration relative to the 3rd holding section of this upper cover.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, the worm gear dish of this speed change gear has an inner face in contrast to this worm gear and several jack-post protruded out by this inner face, this clutch part has one around this axis and can define the inner peripheral surface of a shrinkage pool, this pinion gear unit comprises an annular gear wheel being arranged at this inner peripheral surface, wheel for inputting being fixed in this rotating shaft, is severally located in this jack-post and is engaged in the pinion gear between this annular gear wheel and this wheel for inputting, and this wheel for inputting and described pinion gear can be sheathed in this shrinkage pool.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, first holding section of the worm gear dish of this speed change gear is located on this inner face periphery and indentation, this clutch part also has a crown be vertically connected in this inner peripheral surface, described second holding section is located on this crown and indentation, can be suitable with described first holding section sawtooth, 3rd holding section indentation described in this upper cover, 4th holding section of this clutch part is contrary with described second direction, holding section, and suitable with described 3rd holding section sawtooth.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, the clutch part of this speed change gear has one around this axis and can define the inner peripheral surface of a shrinkage pool, this pinion gear unit comprises an annular gear wheel being arranged at this inner peripheral surface, output wheel being fixed in this worm gear dish, a wrist frame being fixed in this rotating shaft and is severally located in this wrist frame and the pinion gear be engaged between this annular gear wheel and this output wheel, and this wrist frame and described pinion gear can be sheathed in this shrinkage pool.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, the wrist frame of this speed change gear has an outer face towards this worm gear dish and several jack-post protruded out towards this worm gear by this outer face, and the pinion gear of this pinion gear unit is located on described jack-post respectively.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, the worm gear dish of this speed change gear has an inner face in contrast to this worm gear, described first holding section is located on this inner face periphery and indentation, this clutch part also has a crown be vertically connected in this inner peripheral surface, and described second holding section is located on this crown and indentation.

The Spinning wheel type coiling device for angling of the utility model variable-ratio, the clutch part of this speed change gear has one around this axis and can define the inner peripheral surface of a shrinkage pool, this pinion gear unit comprises the wheel for inputting that is fixed in this rotating shaft, a wrist frame be sheathed between this wheel for inputting and this clutch part, an output wheel being fixedly arranged on this worm gear dish and be severally located in this wrist frame and the pinion gear be engaged between this wheel for inputting and this output wheel, this wrist frame, this wheel for inputting and described pinion gear can be sheathed in this shrinkage pool, and described pinion gear is class's gear-like, 3rd holding section indentation, described 4th holding section of this clutch part and indentation, the second holding section operating this clutch part is occlusal position relative to the first holding section of this worm gear dish, the rotatory force of this rotating shaft can make this this worm gear dish of worm gear dish Direct driver produce constant velocity rotation by the transmission of this pinion gear unit, second holding section of this clutch part is separation point position relative to the first holding section of this worm gear dish, the rotatory force of this rotating shaft can make this worm gear dish produce speed change rotation by the transmission of this pinion gear unit.

The beneficial effects of the utility model are: the setting utilizing this speed change gear entirety, and this worm gear dish, this clutch part, this pinion gear unit coordinate with this regulon, only need operate this regulon, this worm gear dish just can be made to produce different output speeds, and reach speed change object, this take-up godet in time can be made to produce different rotating speeds according to user demand, adaptability is stronger.

Accompanying drawing explanation

Fig. 1 is the three-dimensional combination figure of Spinning wheel type coiling device for angling first embodiment of the utility model variable-ratio;

Fig. 2 is a three-dimensional exploded view of this first embodiment;

Fig. 3 is a combination section of this first embodiment, illustrates that a clutch part is away from a worm gear dish, and can be slowed down by the transmission of a pinion gear unit;

Fig. 4 is the cutaway view got along the straight line IV-IV in Fig. 3;

Fig. 5 is an adjustment schematic diagram of this first embodiment, illustrates that this clutch part is sticked in this worm gear dish, and directly can drive this worm gear dish by a rotating shaft;

Fig. 6 is the three-dimensional exploded view of Spinning wheel type coiling device for angling second embodiment of the utility model variable-ratio;

Fig. 7 is a combination section of this second embodiment, illustrates that a clutch part is away from a worm gear dish, and can carry out speedup by the transmission of a pinion gear unit;

Fig. 8 is the cutaway view got along the straight line VIII-VIII in Fig. 7;

Fig. 9 is an adjustment schematic diagram of this second embodiment, illustrates that this clutch part is sticked in this worm gear dish, and directly can drive this worm gear dish by a rotating shaft;

Figure 10 is the three-dimensional exploded view of Spinning wheel type coiling device for angling the 3rd embodiment of the utility model variable-ratio;

Figure 11 is a combination section of the 3rd embodiment, illustrates that a clutch part is away from a worm gear dish, and can carry out speedup by the transmission of a pinion gear unit;

Figure 12 is the cutaway view got along the straight line Ⅹ II-Ⅹ II in Figure 11;

Figure 13 is the cutaway view got along the straight line Ⅹ III-Ⅹ III in Figure 11;

Figure 14 is an adjustment schematic diagram of the 3rd embodiment, illustrates that this clutch part is sticked in this worm gear dish, and drives this worm gear dish by a rotating shaft energy constant speed.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in detail.

Consult Fig. 1 and Fig. 2, first embodiment of the Spinning wheel type coiling device for angling of the utility model variable-ratio, the spool 4 that 3, one, the take-up godet that the driver element 2, comprising a main body 1 and be installed on this main body 1 is subject to this driver element 2 interlock can produce rotation can be moved back and forth relative to this take-up godet 3 by this driver element 2 interlock and a speed change gear 5.And this main body 1 comprises a upper cover 101 for this speed change gear 5 accommodating, this upper cover 101 has a shoulder face 102 (see Fig. 3) perpendicular to this axis L and several the 3rd holding section 103 (see Fig. 3) being located on this shoulder face 102, the 3rd holding section 103 indentation.

This driver element 2 comprises one and can rotate and the rocking handle 201 being located in this main body 1, one to extend along axis L and can produce by this rocking handle 201 interlock and rotates and be placed in the rotating shaft 202 of this upper cover, edge is perpendicular to a centre line L of this axis L ' worm screw 203 that extends, one be arranged in this worm screw 203 inner and can along this centre line L by this rotating shaft 202 interlock ' reciprocating lever 204 that moves back and forth of generation, a driving wheel 205 being fixedly arranged on this rotating shaft 202, one is located in this main body 1 and the driven pulley 206 engaged with this driving wheel 205, one is subject to this driven pulley 206 stopper and is connected to the sliding shoe 207 of this reciprocating lever 204.

This take-up godet 3 is installed on this main body 1 side, and can around this centre line L by this worm screw 203 interlock ' produce and rotate.

This spool 4 is connected to this reciprocating lever 204 and can along this centre line L ' move back and forth relative to this take-up godet 3.

Coordinate ginseng Fig. 3 and Fig. 4, this speed change gear 5 is sheathed on this rotating shaft 202, and comprises the regulon 40 that clutch part 20, that 10, one, a worm gear dish being engaged in this worm screw 203 is arranged at this worm gear dish 10 side is arranged at pinion gear unit 30 between this worm gear dish 10 and this clutch part 20 and this clutch part 20 of energy interlock.

This worm gear dish 10 has worm gear 11, the inner face 12 in contrast to this worm gear 11 being engaged in this worm screw 203, is severally located on this inner face 12 periphery and in convex jagged first holding section 13 and several jack-post 14 protruded out towards this clutch part 20 by this inner face 12.

This clutch part 20 has one around this axis L and can define the inner peripheral surface 22 of a shrinkage pool 21, a crown 23 be vertically connected in this inner peripheral surface 22, several relative to described first holding section 13 and second holding section 24 suitable with described first holding section 13 sawtooth, several along this axis L engaging ditch 25 of arranging contrary to this second holding section 24, a plane of a loop 26 relative with this shoulder face 102, severally be arranged at this plane of a loop 26 and relative to the 4th holding section 27 of described 3rd holding section 103, described second holding section 24 is located on this crown 23 and is groove zigzag, and described jack-post 14 is protruded out towards this shrinkage pool 21 by this inner face 12, described 4th holding section 27 also indentation, described 4th holding section 27 is contrary with described second direction, holding section 24, and it is suitable with described 3rd holding section 103 sawtooth.

This pinion gear unit 30 comprise an annular gear wheel 31, being arranged at this inner peripheral surface 22 be fixed in this rotating shaft 202 wheel for inputting 32, be severally located in this worm gear dish 10 and be engaged in the pinion gear 33 between this annular gear wheel 31 and this wheel for inputting 32, this wheel for inputting 32 can be sheathed in this shrinkage pool 21 with described pinion gear 33, and described pinion gear 33 is located on described jack-post 14 respectively.

This regulon 40 comprises one and is sheathed on the outside and speed change between this rocking handle 201 and upper cover 101 of this main body 1 of this rotating shaft 202 and overlaps 41 and an adapter sleeve 42 that can overlap 41 interlocks by this speed change, this speed change cover 41 is in hollow ring round, and have one around this axis L inner ring surface 411 and severally helically extend shape around this axis L and be located at the helical orbit 412 of this inner ring surface 411, this adapter sleeve 42 have one can for described engaging ditch 25 hook establish and can this clutch part 20 of interlock annular portion 421 and be severally connected to this annular portion 421 and can by the hook 422 of described helical orbit 412 guiding.

Again as shown in Figures 1 and 3, the winder utilizing the assembly of above-mentioned component institute to complete is shown.

And as shown in Figures 3 and 4, when this speed change of rotation cover 41, and drive this adapter sleeve 42 to produce displacement along this axis L, and this clutch part 20 of interlock along this axis L relative to this worm gear dish 10 produce away from time, the second holding section 24 of this clutch part 20 can be made to be positioned at a separation point position relative to the first holding section 13 of this worm gear dish 10, now, 4th holding section 27 of this clutch part 20 is positioned at a clamped position relative to the 3rd holding section 103 of this upper cover 101, and pass through the annular gear wheel 31 of this pinion gear unit 30, wheel for inputting 32, the meshing relation of pinion gear 33, make this clutch part 20 energy transferring power to this worm gear dish 10.

When operator rotates this rocking handle 201, this rotating shaft 202 and this wheel for inputting 32 synchronous axial system can be driven, while this wheel for inputting 32 drives described pinion gear 33 to rotate relative to described jack-post 14, described pinion gear 33 also can produce planetary running along this annular gear wheel 31 around this axis L, and this worm gear dish 10 can be driven to rotate, so when operator rotates this rocking handle 201, the rotatory force of this rotating shaft 202 can make this worm gear dish 10 produce deceleration by the transmission of this pinion gear unit 30.Speed reducing ratio formula is as follows:

Again as shown in Figure 5, when this speed change of rotation cover 41, and drive this adapter sleeve 42 to produce displacement along this axis L, and this clutch part 20 of interlock along this axis L relative to this worm gear dish 10 convergence time, second holding section 24 of this clutch part 20 converts an occlusal position to relative to the first separation point position as shown in Figure 3, holding section 13 of this worm gear dish 10, 4th holding section 27 of this clutch part 20 is positioned at a disengaging configuration relative to the 3rd holding section 103 of this upper cover 101, and pass through the annular gear wheel 31 of this pinion gear unit 30, wheel for inputting 32, the meshing relation of pinion gear 33, this clutch part 20 can be made to produce structural link with this worm gear dish 10.

When operator rotates this rocking handle 201 again, this rotating shaft 202 and this wheel for inputting 32 synchronous axial system can be driven, and utilize this clutch part 20, this worm gear dish 10 is engaged all-in-one-piece effect with this pinion gear unit 30, this worm gear dish 10 then can be driven to rotate, briefly, when occlusal position, the rotatory force of this rotating shaft 202 can be rotated by this worm gear dish 10 of Direct driver, so when operator rotates this rocking handle 201, the rotatory force of this rotating shaft 202 can make this worm gear dish 10 produce constant velocity rotation.

Therefore, utilize this regulon 40 of operation can produce the effect of deceleration or constant velocity rotation, thus this take-up godet 3 can be made to produce different rotating speeds when take-up, the adaptability of operation is good.

Consult Fig. 6, Fig. 7 and Fig. 8 again, the second embodiment of the Spinning wheel type coiling device for angling of the utility model variable-ratio, is this speed change gear 5 ' with the difference of the first embodiment.This speed change gear 5 ' also comprises clutch part 20 ', the regulon 40 ' being arranged at pinion gear unit 30 ' between this worm gear dish 10 ' and this clutch part 20 ' and this clutch part 20 ' of energy interlock that 10 ', one, a worm gear dish being engaged in this worm screw 203 is arranged at this worm gear dish 10 ' side.And this main body 1 comprises one for the upper cover 101 ' of this speed change gear 5 ' accommodating with this rotating shaft 202, this upper cover 101 ' has a shoulder face 102 ' perpendicular to this axis L and several the 3rd holding section 103 ' being located on this shoulder face 102 ', the 3rd holding section 103 ' indentation.

This worm gear dish 10 ' has a worm gear 11 ' being engaged in this worm screw 203, inner face 12 ' in contrast to this worm gear 11 ', is severally located on this inner face 12 ' periphery and in convex jagged first holding section 13 '.

This clutch part 20 ' has one around this axis L and can define the inner peripheral surface 22 ' of a shrinkage pool 21 ', a crown 23 ' be vertically connected in this inner peripheral surface 22 ', several relative to described first holding section 13 ' and second holding section 24 ' suitable with described first holding section 13 ' sawtooth, several along this axis L engaging ditch 25 ' of arranging contrary to this second holding section 24 ', several the 4th holding section 27 ' relative to described 3rd holding section 103 ', described second holding section 24 ' is located on this crown 23 ' and indentation, described 4th holding section 27 ' is contrary with described second direction, holding section 24 ', and it is suitable with described 3rd holding section 103 ' sawtooth.

This pinion gear unit 30 ' comprises the annular gear wheel 31 ' that is arranged at this inner peripheral surface 22 ', an output wheel 32 ' being fixed in this worm gear dish 10 ', a wrist frame 33 ' being fixed in this rotating shaft 202 and be severally located in this wrist frame 33 ' and the pinion gear 34 ' be engaged between this annular gear wheel 31 ' and this output wheel 32 ', this wrist frame 33 ' has an outer face 331 ' towards this worm gear dish 10 ' and several jack-post 332 ' protruded out towards this worm gear 10 ' by this outer face 331 ', described pinion gear 34 ' is located on described jack-post 332 ' respectively, and this wrist frame 33 ' can be sheathed in this shrinkage pool 21 ' with described pinion gear 34 '.

The structure of this regulon 40 ' is identical with the first embodiment, also comprises one and is sheathed on the outside and speed change be positioned between this rocking handle 201 and upper cover 101 ' of this main body 1 of this rotating shaft 202 and overlaps 41 ' and one this speed change can be subject to overlap 41 ' interlock and be buckled in the adapter sleeve 42 ' of this clutch part 20 '.

And as shown in Figures 7 and 8, when the overall assembly of this winder completes, and rotate this speed change cover 41 ', and drive this adapter sleeve 42 ' to produce displacement along this axis L, and this clutch part 20 ' of interlock along this axis L relative to this worm gear dish 10 ' produce away from time, the second holding section 24 ' of this clutch part 20 ' can be made to be positioned at a separation point position relative to the first holding section 13 ' of this worm gear dish 10 ', now, 4th holding section 27 ' of this clutch part 20 ' is positioned at a clamped position relative to the 3rd holding section 103 ' of this upper cover 101 ', by the annular gear wheel 31 ' of this pinion gear unit 30 ', output wheel 32 ', wrist frame 33 ', the meshing relation of pinion gear 34 ', make this clutch part 20 ' energy transferring power to this worm gear dish 10 '.

When operator rotates this rocking handle 201, this rotating shaft 202 and this wrist frame 33 ' synchronous axial system can be driven, while this wrist frame 33 ' drives described pinion gear 34 ' to rotate around this axis L, described pinion gear 34 ' also can produce planetary running along this annular gear wheel 31 ', and this output wheel 32 ' and worm gear dish 10 ' can be driven to rotate, so, when operator rotates this rocking handle 201, the rotatory force of this rotating shaft 202 can make this worm gear dish 10 ' produce speedup by the transmission of this pinion gear unit 30 '.Speed increasing ratio formula is as follows:

Again as shown in Figure 9, when this speed change of rotation cover 41 ', and drive this adapter sleeve 42 ' to produce displacement along this axis L, and this clutch part 20 ' of interlock along this axis L relative to this worm gear dish 10 ' convergence time, the second holding section 24 ' of this clutch part 20 ' can be made to convert an occlusal position to relative to the first separation point position as shown in Figure 7, holding section 13 ' of this worm gear dish 10 ', now, 4th holding section 27 ' of this clutch part 20 ' is positioned at a disengaging configuration relative to the 3rd holding section 103 ' of this upper cover 101 ', can make to produce structural link between this clutch part 20 ' and this worm gear dish 10 ' by this pinion gear unit 30 '.

When operator rotates this rocking handle 201 again, this rotating shaft 202 and this wrist frame 33 ' synchronous axial system can be driven, and utilize this clutch part 20 ', this worm gear dish 10 ' is engaged all-in-one-piece effect with this pinion gear unit 30 ', this worm gear dish 10 ' then can be driven to rotate, briefly, when occlusal position, the rotatory force of this rotating shaft 202 can be rotated by this worm gear dish 10 ' of Direct driver, so when operator rotates this rocking handle 201, the rotatory force of this rotating shaft 202 can make this worm gear dish 10 ' produce constant velocity rotation.

Therefore, utilize this regulon 40 ' of operation also can produce the effect of speedup or constant velocity rotation, thus this take-up godet 3 can be made to produce different rotating speeds when take-up, the adaptability of operation is good.

Consult Figure 10 and Figure 11 again, the 3rd embodiment of the Spinning wheel type coiling device for angling of the utility model variable-ratio, is this speed change gear 5 with the difference of above-described embodiment ".This speed change gear 5 " also comprise the worm gear dish 10 that is engaged in this worm screw 203 ", one be arranged at this worm gear dish 10 " clutch part 20 of side ", one be arranged at this worm gear dish 10 " and this clutch part 20 " between pinion gear unit 30 " and this clutch part 20 of energy interlock " regulon 40 ".And this main body 1 comprises one for this speed change gear 5 accommodating " with the upper cover 101 of this rotating shaft 202 ", this upper cover 101 " there is a shoulder face 102 perpendicular to this axis L " and be severally located on this shoulder face 102 " the 3rd holding section 103 ", the 3rd holding section 103 " indentation.

This worm gear dish 10 " there is the worm gear 11 that is engaged in this worm screw 203 ", one in contrast to this worm gear 11 " inner face 12 ", be severally located on this inner face 12 " periphery and the first holding section 13 of indentation ".

This clutch part 20 " have one around this axis L and a shrinkage pool 21 can be defined " inner peripheral surface 22 ", one is vertically connected in this inner peripheral surface 22 " crown 23 ", several relative to described first holding section 13 " the second holding section 24 ", several along this axis L and this second holding section 24 " the contrary engaging ditch 25 arranged ", one with this shoulder face 102 " relative plane of a loop 26 ", severally be arranged at this plane of a loop 26 " and relative to described 3rd holding section 103 " the 4th holding section 27 ", described second holding section 24 " and described first holding section 13 " the suitable also indentation of sawtooth, described 4th holding section 27 " with described second holding section 24 " direction is contrary, and with the suitable also indentation of described 3rd holding section 103 sawtooth.

Consult Figure 12 and Figure 13, this pinion gear unit 30 " comprise the wheel for inputting 31 that is fixed in this rotating shaft 202 ", one be sheathed on this wheel for inputting 31 " and this clutch part 20 " between wrist frame 32 ", one be fixedly arranged on this worm gear dish 10 " output wheel 33 " and be severally located in this wrist frame 32 " and be engaged in this wheel for inputting 31 " and this output wheel 33 " between pinion gear 34 "; this wrist frame 32 ", this wheel for inputting 31 " with described pinion gear 34 " can be sheathed in this shrinkage pool, described pinion gear 34 " in class's gear-like.This wrist frame 32 " be provided with three chutes 321 " (see Figure 10), this clutch part 20 " inner peripheral surface relative set three can be sheathed on described chute 321 " in protuberance 28 "; so wrist frame 32 " with clutch part 20 " be structural link, this clutch part 20 " can only at wrist frame 32 " chute 321 " to produce along this axis L and move up and down.

This regulon 40 " structure identical with the first embodiment, also comprising one, to be sheathed on this rotating shaft 202 outside and be positioned at this rocking handle 201 and this upper cover 101 " between speed change overlap 41 " and one this speed change can be subject to overlap 41 " interlock and be buckled in this clutch part 20 " engaging ditch 25 " adapter sleeve 42 ".

And as shown in figure 11, when the overall assembly of this winder completes, and rotate this speed change cover 41 ", and drive this adapter sleeve 42 " produce displacement along this axis L, and this clutch part 20 of interlock " along this axis L relative to this worm gear dish 10 " produce away from time, this clutch part 20 can be made " the second holding section 24 " relative to this worm gear dish 10 " and the first holding section 13 " be positioned at a separation point position, simultaneously, this clutch part 20 can be made " the 4th holding section 27 " relative to this upper cover 101 " and the 3rd holding section 103 " be positioned at a clamped position, that is, 4th holding section 27 " and the 3rd holding section 103 " engaged.

For another example Figure 11 and coordinate ginseng Fig. 1, 4th holding section 27 " and the 3rd holding section 103 " engaged, this wrist frame 32 " then together with this clutch part 20 " be equipped in this upper cover 101 ", when operator rotates this rocking handle 201, this rotating shaft 202 can be driven, this wheel for inputting 31 " synchronous axial system, utilize this wheel for inputting 31 " drive described pinion gear 34 " relative to this wrist frame 32 " rotate, described pinion gear 34 " rotation can drive this output wheel 33 " and worm gear dish 10 " rotate, due to pinion gear 34 " be set to class's gear, so wheel for inputting 31 can be arranged as required ", pinion gear 34 " class's gear, output wheel 33 " number of teeth obtains speedup or deceleration object.So when operator rotates this rocking handle 201, the rotatory force of this rotating shaft 202 is by this pinion gear unit 30 " transmission this worm gear dish 10 can be made to produce speedup or deceleration.Speedup or speed reducing ratio formula as follows:

R (input speed/output speed)=1/ (wheel for inputting 33 " with pinion gear 34 " gear ratio/output wheel 33 of epimere " and with pinion gear 34 " gear ratio of hypomere)

Again as shown in figure 14, when rotating this speed change cover 41 again "; and drive this adapter sleeve 42 " produce displacement along this axis L, and this clutch part 20 of interlock " along this axis L relative to this worm gear dish 10 " convergence time, this clutch part 20 can be made " the second holding section 24 " relative to this worm gear dish 10 " and the first holding section 13 " separation point position as shown in Figure 13 converts an occlusal position to.Meanwhile, this clutch part 20 can be made " the 4th holding section 27 " relative to this upper cover 101 " and the 3rd holding section 103 " be positioned at a disengaging configuration.

In the 4th holding section 27 " relative to the 3rd holding section 103 " in disengaging configuration time the second holding section 24 " relative to the first holding section 13 " and engaging time, the rotatory force of this rotating shaft 202 is by this pinion gear unit 30 " transmission can make this worm gear dish 10 and " produce constant velocity rotation, that is, by this pinion gear unit 30 " this clutch part 20 can be made " and this worm gear dish 10 " between produce structural link, this worm gear dish 10 of rotatory force energy Direct driver of this rotating shaft 202 " rotate.

Therefore, utilize this regulon 40 of operation " also can produce the effect of (speedup or deceleration) or constant velocity rotation, thus this take-up godet 3 can be made to produce different rotating speeds when take-up, the adaptability of operation is good.

Claims (10)

1. the Spinning wheel type coiling device for angling of a variable-ratio, comprise a main body, and be installed on a driver element of this main body, one can produce the take-up godet rotated by this driver element interlock, a spool and a speed change gear that can move back and forth relative to this take-up godet by this driver element interlock, this main body comprises a upper cover for this speed change gear accommodating, this driver element comprises one and can rotate and be located in the rocking handle of this main body, one can produce rotation by this rocking handle interlock and be placed in the rotating shaft of this upper cover along an Axis Extension, edge is perpendicular to the worm screw of this axis, one is arranged in this worm screw inside and can produces the reciprocating lever moved back and forth by this rotating shaft interlock, the feature of this winder is:

This speed change gear, be installed on the upper cover of this main body and be sheathed on this rotating shaft, and comprise the worm gear dish that is engaged in this worm screw, a clutch part being arranged at this worm gear dish side, a regulon being arranged at pinion gear unit between this worm gear dish and this clutch part and this clutch part of energy interlock, this worm gear dish has the worm gear that several first holding section and are engaged in this worm screw, this clutch part has several the second holding section relative to described first holding section, operating this regulon can make the second holding section of this clutch part convert an occlusal position relative to the first holding section of this worm gear dish to by a separation point position, when separation point position, this clutch part is linked to the upper cover of this main body, and the rotatory force of this rotating shaft can make this worm gear dish produce speed change by the transmission of this pinion gear unit, when occlusal position, this clutch part departs from the upper cover in this main body, the rotatory force of this rotating shaft passes through the transmission of this pinion gear unit and described second holding section is engaged described first holding section, this worm gear dish of the rotatory force Direct driver of this rotating shaft rotates.

2. the Spinning wheel type coiling device for angling of variable-ratio according to claim 1, it is characterized in that: this regulon comprise one be sheathed on the outside and speed change cover between this rocking handle and upper cover of this main body of this rotating shaft and one can by the adapter sleeve of this speed change cover interlock, this speed change cover is in hollow ring round, and there is an inner ring surface around this axis and severally helically extend shape around this axis and be located at the helical orbit of this inner ring surface, this adapter sleeve has the annular portion of this clutch part of energy interlock and majority and is connected to this annular portion and can by the hook of described helical orbit guiding, rotating this speed change cover can drive this adapter sleeve to produce displacement along this axis, and this clutch part of interlock converts along this axis relative to this worm gear dish between the generation of this separation point position and this occlusal position.

3. the Spinning wheel type coiling device for angling of variable-ratio according to claim 2, it is characterized in that: the upper cover of this main body has a shoulder face perpendicular to this axis and several the 3rd holding section being located on this shoulder face, this clutch part also has a plane of a loop relative with this shoulder face and is severally arranged at this plane of a loop and relative to the 4th holding section of described 3rd holding section, when operating this regulon and make the second holding section of this clutch part be positioned at separation point position relative to the first holding section of this worm gear dish, the 4th holding section of this clutch part can be made to be positioned at a clamped position relative to the 3rd holding section of this upper cover, at operation this regulon and when making the second holding section of this clutch part be positioned at occlusal position relative to the first holding section of this worm gear dish, the 4th holding section of this clutch part can be made to be positioned at a disengaging configuration relative to the 3rd holding section of this upper cover.

4. the Spinning wheel type coiling device for angling of variable-ratio according to claim 3, it is characterized in that: the worm gear dish of this speed change gear has an inner face in contrast to this worm gear and several jack-post protruded out by this inner face, this clutch part has one around this axis and can define the inner peripheral surface of a shrinkage pool, this pinion gear unit comprises the annular gear wheel that is arranged at this inner peripheral surface, a wheel for inputting being fixed in this rotating shaft, severally be located in this jack-post and be engaged in the pinion gear between this annular gear wheel and this wheel for inputting, this wheel for inputting and described pinion gear can be sheathed in this shrinkage pool.

5. the Spinning wheel type coiling device for angling of variable-ratio according to claim 4, it is characterized in that: the first holding section of the worm gear dish of this speed change gear is located on this inner face periphery and indentation, this clutch part also has a crown be vertically connected in this inner peripheral surface, described second holding section is located on this crown and indentation, can be suitable with described first holding section sawtooth, 3rd holding section indentation described in this upper cover, 4th holding section of this clutch part is contrary with described second direction, holding section, and suitable with described 3rd holding section sawtooth.

6. the Spinning wheel type coiling device for angling of variable-ratio according to claim arbitrary in claim 1 to claim 3, it is characterized in that: the clutch part of this speed change gear has one around this axis and can define the inner peripheral surface of a shrinkage pool, this pinion gear unit comprises an annular gear wheel being arranged at this inner peripheral surface, output wheel being fixed in this worm gear dish, a wrist frame being fixed in this rotating shaft and is severally located in this wrist frame and the pinion gear be engaged between this annular gear wheel and this output wheel, and this wrist frame and described pinion gear can be sheathed in this shrinkage pool.

7. the Spinning wheel type coiling device for angling of variable-ratio according to claim 6, it is characterized in that: the wrist frame of this speed change gear has an outer face towards this worm gear dish and several jack-post protruded out towards this worm gear by this outer face, and the pinion gear of this pinion gear unit is located on described jack-post respectively.

8. the Spinning wheel type coiling device for angling of variable-ratio according to claim 7, it is characterized in that: the worm gear dish of this speed change gear has an inner face in contrast to this worm gear, described first holding section is located on this inner face periphery and indentation, this clutch part also has a crown be vertically connected in this inner peripheral surface, and described second holding section is located on this crown and indentation.

9. the Spinning wheel type coiling device for angling of variable-ratio according to claim arbitrary in claim 1 to claim 3, it is characterized in that: the clutch part of this speed change gear has one around this axis and can define the inner peripheral surface of a shrinkage pool, this pinion gear unit comprises the wheel for inputting that is fixed in this rotating shaft, a wrist frame be sheathed between this wheel for inputting and this clutch part, an output wheel being fixedly arranged on this worm gear dish and be severally located in this wrist frame and the pinion gear be engaged between this wheel for inputting and this output wheel, this wrist frame, this wheel for inputting and described pinion gear can be sheathed in this shrinkage pool, and described pinion gear is class's gear-like, the second holding section operating this clutch part is occlusal position relative to the first holding section of this worm gear dish, the rotatory force of this rotating shaft can make this this worm gear dish of worm gear dish Direct driver produce constant velocity rotation by the transmission of this pinion gear unit, second holding section of this clutch part is separation point position relative to the first holding section of this worm gear dish, the rotatory force of this rotating shaft can make this worm gear dish produce speed change rotation by the transmission of this pinion gear unit.

10. the Spinning wheel type coiling device for angling of variable-ratio according to claim 3, is characterized in that: the 3rd holding section indentation of the upper cover of this main body, described 4th holding section of the clutch part of this speed change gear and indentation.