CN104760850A - Automatic wire winding device - Google Patents

Abstract

Disclosed is an automatic wire winding device. The automatic wire winding device comprises a base, a rotating wheel, a control portion and a driving portion. The control portion comprises a release shaft. The driving portion comprises a spiral spring and an abutting part, wherein the spiral spring is connected with the base and the rotating wheel, and provides rotation power for the rotating wheel, and the abutting part abuts against and presses the rotating wheel so as to provide rotation resistance. The release shaft can change the magnitude of the rotation resistance. When the magnitude of the rotation resistance is less than that of the rotation power, the rotating wheel is in a rotating state, and when the magnitude of the rotation resistance is larger than that of the rotation power, the rotating wheel is in a static state.

Description

Auto take-up

Technical field

The present invention relates to a kind of take-up, refer to a kind of auto take-up especially.

Background technology

In daily life activity in production, line is used frequently such as various electric wire, rope etc.But often tangled up and knotted after these lines use or when using, makes troubles to user.The method of existing these lines of arrangement is manual coilings, but manual take-up inefficiency and need in addition line is deposited.

Summary of the invention

In view of above content, be necessary to provide a kind of auto take-up.

A kind of auto take-up, comprise a base, a rotor wheel, a control part and a drive division, described control part comprises a release shaft, described drive division comprises a clockwork spring and and supports stop member, described clockwork spring is connected with described base and described rotor wheel and provides a rotational power to described rotor wheel, described stop member of supporting compresses described rotor wheel to provide a rotary resistance, described release shaft can change the size of described rotary resistance, when described rotary resistance is less than described rotational power, described rotor wheel is in a rotary state; When described rotary resistance is greater than described rotational power, described rotor wheel is in a quiescence.

Preferably, described control part also comprises a cover plate and a shell fragment, and described cover plate is fixed in described shell fragment one end, the other end and described release shaft inconsistent.

Preferably, described cover plate is provided with some knock holees, and described base is provided with some registration masts, and described knock hole coordinates with described registration mast makes described cover plate be positioned described registration mast.

Preferably, described stop member of supporting comprises some to only spring and some supporting stop axle, the described only axle that supports comprises one to stopping boss, described release shaft comprises a stop section, described only axle one end of supporting is contained in described to stopping spring, the other end and described rotor wheel inconsistent, described to support only spring one end inconsistent with described stop section, and the other end is with described inconsistent to stopping boss.

Preferably, when described rotor wheel is in described rotary state, the described only spring that supports has one first application force to the described only axle that supports; When described rotor wheel is in described quiescence, the described only spring that supports has one second application force to the described only axle that supports, and described second application force is greater than described first application force.

Preferably, described rotor wheel comprises a body, described body interior is provided with a receiving space and one first through hole, described body exterior is provided with a resettlement section, described stop member of supporting is contained in described receiving space, described release shaft supports stop member and described first through hole through described, and a line is wound in described body and is contained in described resettlement section.

Preferably, described base comprises a positioning boss, and described clockwork spring is sheathed on described positioning boss, described rotor wheel and described positioning boss is inconsistent prevents described rotor wheel from extruding described clockwork spring.

Preferably, described positioning boss is provided with a resigning hole, described release shaft comprises an operating side, described operating side is contained in described resigning hole, and described resigning hole is lower than described base lower surface and there is space between the edge of described resigning hole and described base lower surface and make described operating side stretch out described resigning hole and not protrude from described base.

Preferably, described release shaft is perpendicular to described base.

Preferably, when described rotor wheel is in rotary state, described rotor wheel rotates along a first direction; When described auto take-up makes line be drawn out of by an external force, described rotor wheel rotates along a second direction, and described first direction is contrary with described second direction.

Compared to prior art, above-mentioned auto take-up can make line automatic winding in described rotor wheel and be contained in described rotor wheel, improves the efficiency arranging line.

Accompanying drawing explanation

Fig. 1 is a three-dimensional exploded view of a better embodiment of auto take-up of the present invention.

Fig. 2 is a partial enlarged drawing of the auto take-up of Fig. 1.

Fig. 3 is another three-dimensional exploded view of the auto take-up of Fig. 1.

Fig. 4 is an assembly drawing of the auto take-up of Fig. 1.

Fig. 5 is a part sectional view of the auto take-up of Fig. 4.

Fig. 6 is another part sectional view of the auto take-up of Fig. 4.

Main element nomenclature

Base	10
		Positioning boss	12
Resigning hole	120
		Registration mast	14
Rotor wheel	20
		Body	22
Resettlement section	24
		Receiving space	26
First through hole	28
		Line	30
Drive division	40
		To stop member	42
Support only upper cover	420
		Support only lower cover	422
Support only axle	424
		Support only boss	4242
Support only spring	426
		Accepting groove	428
Second through hole	429
		Clockwork spring	44
Control part	50
		Shell fragment	52
Fixed orifice	522
		Cover plate	54
Knock hole	542
		Third through-hole	544
Release shaft	56
		Operating portion	560
Stop section	562
		To not-go-end	564

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Refer to Fig. 1 to Fig. 3, in a preferred embodiment of the present invention, a kind of auto take-up is in order to receive a line 30, and described auto take-up comprises base 10, rotor wheel 20, actuator 40 and a control part 50.

Described base 10 is provided with a positioning boss 12 and some positioning pillars 14, described positioning boss 12 is provided with a resigning hole 120, and described resigning hole 120 is lower than described base 10 outside face and there is a gap (see Fig. 3) between the edge of described resigning hole 120 and described base 10 outside face.

Described rotor wheel 20 comprises a body 22, and described body 22 inside is provided with receiving space 26 and one first through hole 28, and described body 22 outside is provided with a resettlement section 24.

Described actuator 40 comprises one and supports stop member 42 and a clockwork spring 44.Described stop member 42 of supporting comprises one and supports only upper cover 420, and support only lower cover 422, and support only axle 424 and and support only spring 426.The described only axle 424 that supports comprises one to stopping boss 4242.Described only upper cover 420 and the described only lower cover 422 that supports of supporting is provided with one second through hole 429 and some accepting grooves 428.Described only axle 424 one end of supporting is contained in and describedly supports only spring 426, with described, described only spring 426 one end of supporting supports that to stop boss 4242 inconsistent.Described is that arc is described stuck with described rotor wheel 20 to stopping axle 424 to prevent to stopping axle 424 away from described only spring 426 one end of supporting.The described only axle 424 that supports is contained in described accepting groove 428 with the described only spring 426 that supports.The described only upper cover 420 that supports is fixed on described to stopping lower cover 422.

Described control piece 50 comprises shell fragment 52, cover plate 54 and a release shaft 56.Described shell fragment 52 is provided with a fixed orifice 522.Described cover plate 54 is provided with some knock holees 542 and a third through-hole 544.Described release shaft 56 comprises operating portion 560, stop section 562 and and supports not-go-end 564.Described stop section 562 is extended from the described not-go-end 564 that supports, and described operating portion 560 extends from described stop section 562.

Please continue to refer to Fig. 4, during assembling, described clockwork spring 44 is sheathed on described positioning boss 12 and one end other end that is connected with described rotor wheel 20 and is connected with described base 10.Described clockwork spring 44 provides a rotational power for described rotor wheel 20.Described rotor wheel 20 prevents described rotor wheel 20 from extruding described clockwork spring 44 with described positioning boss 12 is inconsistent.The described receiving space 26 being contained in described rotor wheel 20 to stop member 42.Described to only axle 424 is inconsistent away from the described body 22 to stopping spring 426 one end and described rotor wheel 20.Described stop member 42 of supporting provides a rotary resistance for described rotor wheel 20.The knock hole 542 of described cover plate 54 coordinates with the registration mast 14 of described base 10 makes described cover plate 54 be positioned described registration mast 14.Lower surface to not-go-end 564 and described cover plate 54 upper surface of described release shaft 56 are inconsistent, described stop section 562 through described cover plate 54 third through-hole 544 and described support stop member 42 the second through hole 429 and be contained in and describedly support stop member 42, described operating portion 560 is contained in the resigning hole 120 of described base 10.Described to only spring 426 is inconsistent with described stop section 562.The upper surface supporting not-go-end 564 that described cover plate 54 other end and described release shaft 56 are fixed on by described fixed orifice 522 in described shell fragment 52 one end is inconsistent.

Please continue to refer to Fig. 5 and Fig. 6, when line 30 is wound in described rotor wheel 20 by needs, an external force is applied to described release shaft 56, described release shaft 56 is moved to described cover plate 54 direction from an initial position, and by described shell fragment 52 jack-up.Because the contact part of described release shaft 56 562 is taper, along with the movement of described release shaft 56, the described deformation quantity supporting only spring 426 diminishes and makes describedly to support the only rotary resistance of axle 424 to the body 22 of described rotor wheel 20 and diminish, when the rotational power that described clockwork spring 44 provides is greater than described rotary resistance, described rotational power makes described rotor wheel 20 rotate along a first direction, line 30 automatic winding is in described rotor wheel 20, now described rotor wheel 20 is in a rotary state, and the described only spring 426 that supports has one first application force to the described only axle 424 that supports.When disappearing to described release shaft 56 externally applied forces, described shell fragment 52 makes described release shaft 56 get back to described initial position, because the contact part of described release shaft 56 562 is taper, along with the movement of described release shaft 56, support only axle 424 described in the described deformation quantitative change ambassador supporting only spring 426 and the rotary resistance of the body 22 of described rotor wheel 20 is become large, when the rotational power that described clockwork spring 44 provides is less than described rotary resistance, described rotor wheel 20 stops operating, described line 30 stops being wound around described rotor wheel 20, now described rotor wheel 20 is in a quiescence, the described only spring 426 that supports has one second application force to the described only axle 424 that supports.Described second application force is greater than described first application force.

When line 30 pulls out described auto take-up by an External Force Acting, described rotor wheel 20 rotates along a second direction, and described second direction is opposite to the first direction.Described clockwork spring 44 is tightened so that again provide rotational power to described rotor wheel 20 when line 30 is wound in described rotor wheel 20 by needs.

In one embodiment, described auto take-up is applied in a mouse, described mouse has a wireline mode and a wireless mode, during described mouse use wireless mode, a mouse connection lead is contained in mouse by described auto take-up and carries out wireless mode operation to be user-friendly to described mouse.

Above-mentioned auto take-up can make line automatic winding in described rotor wheel and be contained in described rotor wheel, improves the efficiency arranging line.

Claims (10)

1. an auto take-up, comprise a base and a rotor wheel, it is characterized in that: described auto take-up also comprises a control part and a drive division, described control part comprises a release shaft, described drive division comprises a clockwork spring and and supports stop member, described clockwork spring is connected with described base and described rotor wheel and provides a rotational power to described rotor wheel, described stop member of supporting compresses described rotor wheel to provide a rotary resistance, described release shaft can change the size of described rotary resistance, when described rotary resistance is less than described rotational power, described rotor wheel is in a rotary state, when described rotary resistance is greater than described rotational power, described rotor wheel is in a quiescence.

2. auto take-up as claimed in claim 1, it is characterized in that: described control part also comprises a cover plate and a shell fragment, described cover plate is fixed in described shell fragment one end, the other end and described release shaft inconsistent.

3. auto take-up as claimed in claim 2, it is characterized in that: described cover plate is provided with some knock holees, described base is provided with some registration masts, and described knock hole coordinates with described registration mast makes described cover plate be positioned described registration mast.

4. auto take-up as claimed in claim 1, it is characterized in that: described stop member of supporting comprises some to only spring and some supporting stop axle, the described only axle that supports comprises one to stopping boss, described release shaft comprises a stop section, described only axle one end of supporting is contained in described to stopping spring, the other end and described rotor wheel inconsistent, described to support only spring one end inconsistent with described stop section, and the other end is with described inconsistent to stopping boss.

5. auto take-up as claimed in claim 4, is characterized in that: when described rotor wheel is in described rotary state, and the described only spring that supports has one first application force to the described only axle that supports; When described rotor wheel is in described quiescence, the described only spring that supports has one second application force to the described only axle that supports, and described second application force is greater than described first application force.

6. auto take-up as claimed in claim 1, it is characterized in that: described rotor wheel comprises a body, described body interior is provided with a receiving space and one first through hole, described body exterior is provided with a resettlement section, described stop member of supporting is contained in described receiving space, described release shaft supports stop member and described first through hole through described, and a line is wound in described body and is contained in described resettlement section.

7. auto take-up as claimed in claim 1, it is characterized in that: described base comprises a positioning boss, described clockwork spring is sheathed on described positioning boss, described rotor wheel and described positioning boss is inconsistent prevents described rotor wheel from extruding described clockwork spring.

8. auto take-up as claimed in claim 7, it is characterized in that: described positioning boss is provided with a resigning hole, described release shaft comprises an operating side, described operating side is contained in described resigning hole, and described resigning hole is lower than described base lower surface and there is space between the edge of described resigning hole and described base lower surface and make described operating side stretch out described resigning hole and not protrude from described base.

9. auto take-up as claimed in claim 1, is characterized in that: described release shaft is perpendicular to described base.

10. auto take-up as claimed in claim 1, is characterized in that: when described rotor wheel is in rotary state, described rotor wheel rotates along a first direction; When described auto take-up makes line be drawn out of by an external force, described rotor wheel rotates along a second direction, and described first direction is contrary with described second direction.