CN201417439Y - Mouse with wire winding mechanism - Google Patents

Abstract

The utility model relates to a mouse with wire winding mechanism, including an upper housing, a lower housing connected to the upper housing, a circuit board disposed on the lower housing, electric wires electrically connected to the circuit board, a wire winding portion provided between the upper housing and the lower housing with a pore, a flexible ring with a wire outlet pore, which is providedaround the winding portion. In the mouse, the electric wire passes through the pore and the wire outlet pore, and when the flexible ring rotates relatively to the winding portion, the electrical wireis wound between the winding portion and the flexible ring. The utility model can reaches the effect of wire winding without complicated design of the mechanism.

Description

The mouse of tool winding mechanism

Technical field

The utility model relates to a kind of mouse, is meant a kind of mouse of tool winding mechanism especially.

Background technology

Fig. 1, Fig. 2 are the synoptic diagram of existing mouse.See also Fig. 1, Fig. 2, existing mouse 10 comprises upper casing 11, lower casing 12, roller 13, line of electric force 14, roller groove 15 and USB web member 16.Roller groove 15 forms on the upper casing 11, and roller 13 is by being convexly set in upper casing 11 in the roller groove 15.Line of electric force 14 is connected with the circuit board that is arranged at mouse 10 inside (not icon), and USB web member 16 is connected with line of electric force 14 to provide mouse 10 and computer installation to link, as the usefulness of input unit.

Common mouse with winding mechanism is generally gear type, roller type and winding by hand formula at present, utilizing gear or roller to drive line of electric force 14 rotates to reach the effect of spiral, perhaps directly line of electric force 14 is wound on the mouse 10 with manual mode, the former two need provide the interlock design of gear and roller, may raise the cost, and the latter takes in comparatively inconvenience.

The utility model content

The utility model provides a kind of mouse of tool winding mechanism, comprise upper casing, lower casing, circuit board, line of electric force, spiral portion and flexible loop, lower casing is connected with upper casing, circuit board, be arranged on the lower casing, line of electric force and circuit board electrically connect, spiral portion is arranged between upper casing and the lower casing and comprises holes, flexible loop is around spiral portion and comprise wire hole, and wherein, line of electric force is by holes and wire hole, when flexible loop and spiral portion relatively rotate, line of electric force is wound between spiral portion and the flexible loop, and therefore, the utility model does not need complicated mechanism design (for example design gear or roller) can reach the effect that spiral is taken in.

Specifically, spiral portion is fixedly arranged on upper casing.

Spiral portion can be fixedly arranged on lower casing.

Spiral portion is narrow than the width of upper casing and lower casing.

Upper casing comprises first stopper section and inside surface, and first stopper section is located on the inside surface, and flexible loop is located between first stopper section and the inside surface to avoid slippage.

Lower casing comprises second stopper section and inside surface, and second stopper section is located on the inside surface, and flexible loop is located between second stopper section and the inside surface to avoid slippage.

The mouse of tool winding mechanism more comprises locking part, and upper casing more comprises first fixed orifice, and lower casing comprises second fixed orifice, locking part by first fixed orifice and second fixed orifice with fixedly upper casing and lower casing.

The mouse of tool winding mechanism more comprises the USB web member, and the USB web member is connected with line of electric force.

The mouse of tool winding mechanism more comprises roller, and upper casing comprises roller groove, and roller is arranged on the circuit board and by protruding in the roller groove.

Upper casing comprises outside surface, and outside surface comprises first press section and second press section, the adjacent setting in first press section and second press section.

For above-mentioned and other purpose of the present utility model, feature and advantage can be become apparent, cited below particularlyly go out embodiment, and conjunction with figs., be described in detail below:

Description of drawings

Fig. 1, Fig. 2 are the synoptic diagram of existing mouse;

Fig. 3 is the side view of the mouse of tool winding mechanism in the utility model;

Fig. 4 is the vertical view of the mouse of tool winding mechanism in the utility model;

Fig. 5 is along the sectional view of profile line 5-5 among Fig. 3;

Fig. 6 is the coiling synoptic diagram after the mouse of tool winding mechanism in the utility model is dismantled flexible loop.

Embodiment

Fig. 3 is the side view of the mouse of tool winding mechanism.Fig. 4 is the vertical view of the mouse of tool winding mechanism.

Please consult Fig. 3, Fig. 4 earlier, this mouse 20 comprises upper casing 21, lower casing 22, line of electric force 24, USB web member 31, roller 32 and flexible loop 26.The outside surface 212 of upper casing 21 is divided into first press section 214 and second press section 215 with as operating key, and first press section 214 and the 215 adjacent settings of second press section, and upper casing 21 more comprises roller groove 213, roller 32 is arranged at that circuit board 23 (seeing also Fig. 5) is gone up and roller 32 protrudes from shell 21 by roller groove 213, with as the rolling operating key.

In addition, flexible loop 26 is provided with wire hole 261, electrically connects with USB web member 31 to provide line of electric force 24 to pass the back.Lower casing 22 is connected with upper casing 21, and an end of line of electric force 24 is connected with USB web member 31, and the other end then is connected to mouse 20 inside.Flexible loop 26 is located between upper casing 21 and the lower casing 22, the user can hold flexible loop 26 and upper casing 21 connected to one another and lower casing 22 are rotated, or hold upper casing 21 connected to one another and lower casing 22 and flexible loop 26 is rotated, upper casing 21 and lower casing 22 are produced relative rotation with flexible loop 26 simultaneously, at this moment, line of electric force 24 can be wound in the spiral portion 25 (please arrange in pairs or groups and consult Fig. 5) between upper casing 21 and the lower casing 22 by wire hole 261.

Fig. 5 is along the sectional view of profile line 5-5 among Fig. 3.Coiling synoptic diagram after the mouse of Fig. 6 position tool winding mechanism is dismantled flexible loop.

Please consult Fig. 3, Fig. 5, Fig. 6 simultaneously, mouse 20 more includes spiral portion 25 and circuit board 23.Upper casing 21 comprises first stopper section 27 and inside surface 28, first stopper section 27 is located on the inside surface 28, and flexible loop 26 is sticked between first stopper section 27 and the inside surface 28 to avoid slippage, similarly, lower casing 22 comprises second stopper section 29 and inside surface 30, second stopper section 29 is located on the inside surface 30, and flexible loop 26 is sticked between second stopper section 29 and the inside surface 30 to avoid slippage.

Though flexible loop 26 is sticked between first stopper section 27, inside surface 28, second stopper section 29 and the inside surface 30, but flexible loop 26 still can relatively rotate with respect to spiral portion 25, and form a space 34 between first stopper section 27, second stopper section 29, spiral portion 25 and flexible loop 26, space 34 can hold the line of electric force 24 that is wound in the spiral portion 25.

Circuit board 23 is arranged on the lower casing 22 and is positioned at the inside of spiral portion 25, and spiral portion 25 is arranged between upper casing 21 and the lower casing 22 and comprise holes 251, because line of electric force 24 electrically connects with circuit board 23, so line of electric force 24 must pass holes 251 and could be connected with circuit board 23.Therefore, the line of electric force 24 that is connected with circuit board 23 can just can expose to mouse 20 through the wire hole 261 of flexible loop 26 by holes 251 earlier again.

When the user holds flexible loop 26 and rotates upper and lower shell 21,22 when producing relative rotation, or be hold, lower casing 21,22 and rotate flexible loop 26 when producing relative rotation, line of electric force 24 can be subjected to the restriction of wire hole 261 and begin to twine spiral portion 25 by wire hole 261 to enter space 34, after rotation after a while, line of electric force 24 can be wound in the spiral portion 25 fully, to reach the effect of spiral.And the state of spiral after finishing can be with reference to shown in Figure 6, and as can be known, this mouse does not need complicated mechanism design (for example design gear or roller) can reach the effect that spiral is taken in.

It should be noted that spiral portion 25 can be fixedly arranged on upper casing 21 or lower casing 22, the width D 1 of spiral portion 25 is narrow than the width D 2 of upper casing 21 and lower casing 22.

In addition, this mouse 20 more comprises locking part 33, and upper casing 21 comprises first fixed orifice 211, and lower casing 22 comprises second fixed orifice 221, locking part 33 by second fixed orifice 221 and first fixed orifice 211 with fixedly upper casing 21 and lower casing 22, to guarantee the assembling close-fitting of mouse 20.

Claims (10)

1. the mouse of a tool winding mechanism is characterized in that comprising;

Upper casing;

Lower casing is connected with this upper casing;

Circuit board is arranged on this lower casing;

Line of electric force electrically connects with this circuit board;

Spiral portion is arranged between this upper casing and this lower casing and comprises a holes; And

Flexible loop is around this spiral portion and comprise a wire hole;

Wherein, this line of electric force is by this holes and this wire hole, and when this flexible loop and this spiral portion relatively rotated, this line of electric force was wound between this spiral portion and this flexible loop.

2. the mouse of tool winding mechanism as claimed in claim 1 is characterized in that described spiral portion is fixedly arranged on this upper casing.

3. the mouse of tool winding mechanism as claimed in claim 1 is characterized in that this spiral portion is fixedly arranged on this lower casing.

4. the mouse of tool winding mechanism as claimed in claim 1 is characterized in that this spiral portion is narrow than the width of this upper casing and this lower casing.

5. the mouse of tool winding mechanism as claimed in claim 1, it is characterized in that described upper casing comprises one first stopper section and an inside surface, this first stopper section is located on this inside surface, and this flexible loop is located between this first stopper section and this inside surface to avoid slippage.

6. the mouse of tool winding mechanism as claimed in claim 1, it is characterized in that this lower casing comprises one second stopper section and an inside surface, this second stopper section is located on this inside surface, and this flexible loop is located between this second stopper section and this inside surface to avoid slippage.

7. the mouse of tool winding mechanism as claimed in claim 1, it is characterized in that further comprising a locking part, and this upper casing more comprises first fixed orifice, and this lower casing comprises second fixed orifice, this locking part by this second fixed orifice and this first fixed orifice to fix this upper casing and this lower casing.

8. the mouse of tool winding mechanism as claimed in claim 1 is characterized in that further comprising a USB web member, and this USB web member is connected with this line of electric force.

9. the mouse of tool winding mechanism as claimed in claim 1 it is characterized in that further comprising a roller, and this upper casing comprises a roller groove, and this roller is arranged on this circuit board and by protruding in this roller groove.

10. the mouse of tool winding mechanism as claimed in claim 1 is characterized in that described upper casing comprises an outside surface, and this outside surface comprises first press section and second press section, this first press section and this adjacent setting in second press section.

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