CN204707018U - Button electrification structure - Google Patents

Abstract

The utility model relates to a kind of button electrification structure, and feature comprises " U " shape magnetic conduction iron, solenoid, installation sleeve, flexure strip, install bottom case, resiliency supported resetting structure, mounting structure, upper magnetic conduction iron, permanent magnet and lower magnetic conduction iron; Mounting structure and resiliency supported resetting structure are all located on install bottom case; " U " shape magnetic conduction iron is located on mounting structure; Solenoid is around the blind end of " U " shape magnetic conduction iron; Upper magnetic conduction iron, lower magnetic conduction iron and permanent magnet are all located on installation sleeve, and upper magnetic conduction iron and lower magnetic conduction iron lay respectively at the two poles of the earth of permanent magnet; Installation sleeve is located on mounting structure rotationally; The opening two ends of " U " shape magnetic conduction iron are between upper magnetic conduction iron and lower magnetic conduction iron thus form magnetic conductive loop, and the opening two ends of upper magnetic conduction iron and lower magnetic conduction iron " U " shape magnetic conduction iron relatively can swing up and down; The left end of flexure strip is fixed on installation sleeve, upper magnetic conduction iron or upper magnetic conduction iron, and the right-hand member of flexure strip is located on resiliency supported resetting structure.Its advantage is: structure is simple, compact, by pressing pressure energy self power generation.

Description

Button electrification structure

Technical field

The utility model relates to a kind of button electrification structure, particularly relates to a kind of button electrification structure of doorbell.

Background technology

There are two kinds of door bell transmission machines at present: a kind of door bell transmission machine need be installed battery and could use, and after battery failure, doorbell does not work, and uses inconvenience; Another kind of door bell transmission machine band automatic generating structure, although overcome the shortcoming of the inconvenience using battery, its complex structure.

Summary of the invention

The purpose of this utility model overcomes the deficiencies in the prior art and provides a kind of structure simple, compact, by pressing the button electrification structure of pressure energy self power generation.

In order to achieve the above object, the utility model realizes like this, it is a kind of button electrification structure, it is characterized in that comprising " U " shape magnetic conduction iron, solenoid, installation sleeve, flexure strip, install bottom case, resiliency supported resetting structure, mounting structure, upper magnetic conduction iron, permanent magnet and lower magnetic conduction iron; Wherein

Described mounting structure and resiliency supported resetting structure are all located on install bottom case;

Described " U " shape magnetic conduction iron is located on mounting structure or on install bottom case;

Described solenoid is around the blind end of " U " shape magnetic conduction iron;

Described upper magnetic conduction iron, lower magnetic conduction iron and permanent magnet are all located on installation sleeve, and upper magnetic conduction iron and lower magnetic conduction iron lay respectively at the two poles of the earth of permanent magnet, and upper magnetic conduction iron, lower magnetic conduction iron and permanent magnet are "working"-shaped after coordinating; Installation sleeve is located on mounting structure rotationally; The opening two ends of described " U " shape magnetic conduction iron are between upper magnetic conduction iron and lower magnetic conduction iron thus form magnetic conductive loop, and the opening two ends of upper magnetic conduction iron and lower magnetic conduction iron " U " shape magnetic conduction iron relatively can swing up and down;

The left end of described flexure strip is fixed on installation sleeve, upper magnetic conduction iron or upper magnetic conduction iron, and the right-hand member of flexure strip is located on resiliency supported resetting structure.

Described resiliency supported resetting structure comprises the resiliency supported pin of more than, and the upper end of described resiliency supported pin supports the right-hand member of flexure strip, and the lower end of resiliency supported pin is positioned on install bottom case.

Described resiliency supported resetting structure comprises the mount pad of cursor, torque spring and band installation shaft; Wherein said mount pad is arranged on install bottom case, the lower end of described cursor is located in the installation shaft of mount pad rotationally, described torque spring is set in the installation shaft of mount pad, torque spring one end is resisted against right-hand member cursor making the upper end of cursor support flexure strip, and the torque spring other end is resisted against on install bottom case or mounting structure.

Described resiliency supported resetting structure comprises in the pressing lever of " water chestnut " shape and back-moving spring; Described mounting structure is provided with installation support arm, what the opening two ends of described pressing lever were rotated is arranged on hold-down arm, the right-hand member of described flexure strip is located at the bend of pressing lever, and described back-moving spring is arranged on install bottom case, and the bend of pressing lever is located at the upper end of back-moving spring.

Described mounting structure comprises two erection supports, and described installation sleeve, upper magnetic conduction iron, lower magnetic conduction iron and permanent magnet are between two erection supports, and described installation sleeve is located on two erection supports rotationally.

The sleeve be provided with below the bend of described pressing lever, described jacket casing is located at the top of back-moving spring.

Described install bottom case is provided with erection column, and the middle and lower part of described back-moving spring is arranged with on erection column.

The utility model advantage is compared with prior art: structure is simple, compact, by pressing pressure energy self power generation.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment one of the present utility model;

Fig. 2 is the exploded view of Fig. 1;

Fig. 3 is the vertical view of Fig. 1;

Fig. 4 is the A-A cutaway view of Fig. 1;

Fig. 5 is the structural representation of embodiment two of the present utility model;

Fig. 6 is the exploded view of Fig. 5;

Fig. 7 is the vertical view of Fig. 5;

Fig. 8 is the B-B cutaway view of Fig. 5;

Fig. 9 is the structural representation of embodiment three of the present utility model;

Figure 10 is the exploded view of Fig. 9;

Figure 11 is the vertical view of Fig. 9;

Figure 12 is the C-C cutaway view of Fig. 9.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described further.It should be noted that at this, the explanation for these execution modes understands the utility model for helping, but does not form restriction of the present utility model.In addition, if below in described each execution mode of the utility model involved technical characteristic do not form conflict each other and just can be combined with each other.

In the utility model describes, term "left", "right", " on " and the orientation of the instruction such as D score or position relationship be based on orientation shown in the drawings or position relationship, it is only the utility model instead of require that the utility model with specific azimuth configuration and operation, therefore can not must be interpreted as restriction of the present utility model for convenience of description.

Embodiment one

As shown in Figures 1 to 4, it is a kind of button electrification structure, comprises " U " shape magnetic conduction iron 1, solenoid 2, installation sleeve 3, flexure strip 4, install bottom case 5, resiliency supported resetting structure, mounting structure 8, upper magnetic conduction iron 9, permanent magnet 10 and lower magnetic conduction iron 11; Wherein

Described mounting structure 8 and partial elastic support resetting structure and are all located on install bottom case 5;

Described " U " shape magnetic conduction iron 1 is located on mounting structure 8 or on install bottom case 5;

Described permanent magnetism coil 2 is around the blind end of " U " shape magnetic conduction iron 4;

Described upper magnetic conduction iron 9, lower magnetic conduction iron 11 and permanent magnet 10 are all located on installation sleeve 3, and upper magnetic conduction iron 9 and lower magnetic conduction iron 11 lay respectively at the two poles of the earth of permanent magnet 10, and upper magnetic conduction iron 9, lower magnetic conduction iron 11 and permanent magnet 10 are "working"-shaped after coordinating; Installation sleeve 3 is located on mounting structure 8 rotationally; The opening two ends of described " U " shape magnetic conduction iron 1 are between upper magnetic conduction iron 9 and lower magnetic conduction iron 11 thus form magnetic conductive loop, have the gap swung up and down between the opening two ends of " U " shape magnetic conduction iron 1 and upper magnetic conduction iron 9 and lower magnetic conduction iron 11, the opening two ends of upper magnetic conduction iron 9 and lower magnetic conduction iron 11 " U " shape magnetic conduction iron 1 relatively can swing up and down;

The left end of described flexure strip 4 is fixed on installation sleeve 3, upper magnetic conduction iron 9 or lower magnetic conduction iron 10, and the right-hand member of flexure strip 4 is located on resiliency supported resetting structure.

In the present embodiment, described resiliency supported resetting structure comprises two resiliency supported pin 6, and the upper end of described resiliency supported pin 6 supports the left end of flexure strip 4 and connects, and the lower end of resiliency supported pin 6 is positioned on install bottom case 5.Separately; install bottom case 5 is provided with sliding seat 7; sliding seat 7 is provided with sliding tray 71; the lower end of two resiliency supported pin 6 is arranged in sliding tray 71 corresponding separately; the effect of sliding seat 7 is padded drain pan 5; to make the other end of resiliency supported pin 6 can be pressed onto install bottom case 5, sliding seat 7 also can protect install bottom case 5, in case the use of grinding away.

In the present embodiment, described mounting structure 8 comprises two erection supports, and described installation sleeve 3, upper magnetic conduction iron 8, lower magnetic conduction iron 11 and permanent magnet 10 are between two erection supports, and described installation sleeve (3) is located on two erection supports rotationally.

During use, staff down presses the right-hand member of flexure strip 4, flexure strip 4 drives upper magnetic conduction iron 9, lower magnetic conduction iron 11 and permanent magnet 10 to rotate clockwise, now energy stored by flexure strip 4, when letting go, under the effect of resiliency supported pin 6, flexure strip 4 transient burst of energy is in order to overcome upper magnetic conduction iron 9 and lower magnetic conduction iron 11 to the attraction of " U " shape magnetic conduction iron 1, and such flexure strip 4 can drive magnetic conduction iron 9, lower magnetic conduction iron 11 and permanent magnet 10 to rotate counterclockwise instantaneously; Due in pressing and dispose procedure, upper magnetic conduction iron 9 and " U " shape magnetic conduction iron 1 and lower magnetic conduction iron 11 create the magnetic field of change, and solenoid 2 is responded to and produces electricity, and solenoid 2 provides required electricity for wiring board.

Embodiment two

As shown in Fig. 5 to 8, other is the same with embodiment one, and difference is the mount pad 13 that described resiliency supported resetting structure comprises cursor 12, torque spring 14 and band installation shaft; Wherein said mount pad 13 is arranged on install bottom case 5, the lower end of described cursor 12 is located in the installation shaft of mount pad 13 rotationally, described torque spring 14 is set in the installation shaft of mount pad 13, torque spring 14 one end is resisted against right-hand member cursor 12 making the upper end of cursor 12 support flexure strip 4, torque spring 14 other end is resisted against (torque spring 14 other end also can be resisted against on mounting structure 8, also can reach same effect) on install bottom case 5.During work, when the right-hand member of flexure strip 4 is by past pressing down, cursor 12 rotates clockwise thereupon, and when the power pressing flexure strip 4 disappears, under the effect of torque spring 14, cursor 12 rotates counterclockwise, and is up pushed away by the right-hand member of flexure strip 4.The operation principle of generating is the same with embodiment one, no longer describes in detail.

Embodiment three

As shown in Fig. 9 to 12, other is the same with embodiment one, and difference is that described resiliency supported resetting structure comprises in the pressing lever 15 of " water chestnut " shape and back-moving spring 16; Described mounting structure 8 is provided with support arm 81 is installed, the opening two ends of described pressing lever 15 are installed in rotation on hold-down arm 81, the right-hand member of described flexure strip 4 is located at the bend of pressing lever 15, described back-moving spring 16 is arranged on install bottom case 5, and the bend of pressing lever 15 is located at the upper end of back-moving spring 16.During work, down press the bend of pressing lever 15, the right-hand member of flexure strip 4 also moves down thereupon, and when pressing force disappears, under the effect of back-moving spring 16, the bend of pressing lever 15 rotates counterclockwise, and is up pushed away by the right-hand member of flexure strip 4.The operation principle of generating is the same with embodiment one, no longer describes in detail.

In the present embodiment, be provided with sleeve 151 in the below of the bend of described pressing lever 15, described sleeve 151 is set in the top of back-moving spring 16.

In the present embodiment, described install bottom case 5 is provided with erection column 51, the middle and lower part of described back-moving spring 16 is arranged with on erection column 51.

Below by reference to the accompanying drawings detailed description is made to execution mode of the present utility model, but the utility model is not limited to described execution mode.For the ordinary skill in the art, carry out multiple change, amendment, replacement and distortion when not departing from principle of the present utility model and aim to these execution modes still to fall within protection range of the present utility model.

Claims (7)

1. a button electrification structure, is characterized in that comprising " U " shape magnetic conduction iron (1), solenoid (2), installation sleeve (3), flexure strip (4), install bottom case (5), resiliency supported resetting structure, mounting structure (8), upper magnetic conduction iron (9), permanent magnet (10) and lower magnetic conduction iron (11); Wherein

Described mounting structure (8) and resiliency supported resetting structure are all located on install bottom case (5);

Described " U " shape magnetic conduction iron (1) is located on mounting structure (8) or on install bottom case (5);

Described solenoid (2) is around the blind end of " U " shape magnetic conduction iron (4);

Described upper magnetic conduction iron (9), lower magnetic conduction iron (11) and permanent magnet (10) are all located on installation sleeve (3), upper magnetic conduction iron (9) and lower magnetic conduction iron (11) lay respectively at the two poles of the earth of permanent magnet (10), and upper magnetic conduction iron (9), lower magnetic conduction iron (11) and permanent magnet (10) are "working"-shaped after coordinating; Installation sleeve (3) is located on mounting structure (8) rotationally; The opening two ends of described " U " shape magnetic conduction iron (1) to be positioned between magnetic conduction iron (9) and lower magnetic conduction iron (11) thus to form magnetic conductive loop, and the opening two ends of upper magnetic conduction iron (9) and lower magnetic conduction iron (11) " U " shape magnetic conduction iron (1) relatively can swing up and down;

The left end of described flexure strip (4) is fixed on installation sleeve (3), upper magnetic conduction iron (9) or upper magnetic conduction iron (10), and the right-hand member of flexure strip (4) is located on resiliency supported resetting structure.

2. button electrification structure according to claim 1, it is characterized in that described resiliency supported resetting structure comprises the resiliency supported pin (6) of more than, the upper end of described resiliency supported pin (6) supports the right-hand member of flexure strip (4), and the lower end of resiliency supported pin (6) is positioned on install bottom case (5).

3. button electrification structure according to claim 1, is characterized in that described resiliency supported resetting structure comprises the mount pad (13) of cursor (12), torque spring (14) and band installation shaft; Wherein said mount pad (13) is arranged on install bottom case (5), the lower end of described cursor (12) is located in the installation shaft of mount pad (13) rotationally, described torque spring (14) is set in the installation shaft of mount pad (13), torque spring (14) one end is resisted against right-hand member cursor (12) making the upper end of cursor (12) support flexure strip (4), and torque spring (14) other end is resisted against on install bottom case (5) or mounting structure.

4. button electrification structure according to claim 1, is characterized in that described resiliency supported resetting structure comprises in the pressing lever (15) of " water chestnut " shape and back-moving spring (16); Described mounting structure (8) is provided with support arm (81) is installed, what the opening two ends of described pressing lever (15) were rotated is arranged on hold-down arm (81), the right-hand member of described flexure strip (4) is located at the bend of pressing lever (15), described back-moving spring (16) is arranged on install bottom case (5), and the bend of pressing lever (15) is located at the upper end of back-moving spring (16).

5. button electrification structure according to claim 1, it is characterized in that described mounting structure (8) comprises two erection supports, described installation sleeve (3), upper magnetic conduction iron (8), lower magnetic conduction iron (11) and permanent magnet (10) are between two erection supports, and described installation sleeve (3) is located on two erection supports rotationally.

6. button electrification structure according to claim 4, it is characterized in that the sleeve (151) be provided with below the bend of described pressing lever (15), described sleeve (151) is set in the top of back-moving spring (16).

7. button electrification structure according to claim 4, it is characterized in that being provided with erection column (51) on described install bottom case (5), the middle and lower part of described back-moving spring (16) is arranged with on erection column (51).