CN1877482B - Tilting lever type control device with reduced angle motion - Google Patents

Abstract

The invention relates the control device, comprising module (21) of tilting mechanism (210), control rod (31) and actuating mechanism (3). The control rod (31) has the second and the third type, the actuating mechanism (3) comprises return rod (33) with the third type, between control rod (31) and tilting mechanism (210), the control rod is on the return rod, the return rod is on the tilting mechanism (210), and the tilting mechanism (210) produces the larger angle action.

Description

Tilting lever type control device with the angle motion that reduces

The present invention relates generally to machine control unit, relate in particular to the machine control unit that in electric switchgear, uses.

More precisely, the present invention relates to a kind of control device, it comprises a kind of control device, comprise shell, at least one module of tilting gearing is equipped with, and the actuating mechanism that is used for tilting gearing, wherein this tilting gearing is installed as and can winds main axis primary importance and the second place between the runout fixing with respect to shell, and wherein this arrestment mechanism comprises at least one first control lever, this at least one first control lever is installed as can wind with respect to shell and fixes and more or less be parallel to the first near-end axis of main axis and rotate, and this at least one first control lever active link to tilting gearing so that tilting gearing tilt.

This class device especially is fit to be used for to be configured for switch or conversion equipment that electrically operated baffle plate (shutter) or curtain (curtain) are controlled.

In this case, each less module of size is carried out electric switch function, makes the tilting gearing that wherein is provided with these modules can have relatively large angle motion, thereby can obtain the optimal separation between the different electricity conditions of this module.

On the other hand, control lever (its must be give prominence to being operated) is specifically designed the requirement that can satisfy in ergonomics, aesthetics and the possible standardization areas, like this may the limited angular action.

Meet that this paper is contextual to the object of the present invention is to provide a kind of control device, its structure makes above-mentioned afoul demand to be met.

For this reason, though device of the present invention is additionally followed the general norm that above place of matchmakers provides, but be primarily characterized in that actuating mechanism also comprises first back bar, first back bar forms active link between first control lever and tilting gearing, and be installed as to wind and fix and more or less be parallel to the first far-end axis of main axis and rotate with respect to shell, wherein, first control lever comprises the functional unit that optionally is pressed on first back bar, the functional unit of first control lever is at the first near-end axis and against between at least one spring of first control lever, first back bar comprises the functional unit that optionally is pressed on the tilting gearing, the functional unit of first control lever between the functional unit of the first far-end axis and first back bar, thereby make the angular movement that control lever had of winning make the angular movement of the inclination that tilting gearing produces less than it.

By convention, term as used in this specification " near-end (proximal) " and " far-end (distal) " only have pure and strict relative meaning.In other words, defined here near-end axis and far-end axis only be mutually away from, and be not to mean that the true or relevant character of virtual component limits to the far-end axis is far away with the near-end axis is nearer.

Preferably, the first far-end axis is separated mutually with the plane that is formed by the main axis and the first proximal shaft line, and its separation distance is greater than the separation distance of the first near-end axis and main axis.

In a kind of form of indefiniteness, tilting gearing can all be stablized in each of its primary importance and the second place, and module is a bistable state in this case.

Actuating mechanism can also comprise second control lever and second back bar, the same with first back bar collaborative work each other of second control lever with second back bar and first control lever, the second control lever setting and be installed as and rotate around the second near-end axis, the second back bar setting and be installed as and can rotate, the setting of second control lever and second back bar around the second far-end axis with respect to the symmetrical plane that passes main axis and with the symmetry that is provided with of first control lever and first back bar.

In this case, the first and second near-end axis preferably overlap, thereby form the common single rotation of first and second control levers, and symmetrical plane passes described axis.

For each back bar, the inventive system comprises the far-end axis support member that for example forms or be arranged in the shell.

Described device can comprise two modules that are arranged in the shell and arrange along main axis, and described two modules are equipped with tilting gearing separately, and described tilting gearing all is installed as around the main axis runout.

Each back bar preferably has oar shape form, and an one hinged edge forms corresponding far-end axis, and has the functional unit on the tilting gearing that optionally is pressed at least one module, and described hinged edge extends along an edge of shell.

Similarly, each control lever for example has the form of the baffle plate that is equipped with functional unit, and described control lever is supported by shell at near-end axis place.

In the advantageous applications of device of the present invention, each module comprises the electric switch that is equipped with at least three terminals, wherein, be in the primary importance or the second place, determine that the first terminal and second terminal still are that the 3rd terminal electrically contacts according to the tilting gearing of module.

In this case, shell is preferably made by electrically insulating material, for example the condensate by molded manufacturing.

Device of the present invention is particularly useful for the baffle plate of electronic control or curtain are operated.

By following be guided bone and nonrestrictive description only with reference to accompanying drawing carried out, it is clear that further feature of the present invention and beneficial effect will become.

Fig. 1 is the exploded perspective view according to device of the present invention;

Fig. 2 is the cut-open view of the amplification of the device shown in Fig. 1 when primary importance;

Fig. 3 is the cut-open view of the amplification of the device shown in Fig. 1 when the second place;

Fig. 4 to 6 shows the figure according to the change in location of device of the present invention;

Fig. 7 and 8 shows the figure that is incorporated into according to two different conditions of the module in the device of the present invention.

As previously mentioned, the present invention relates to a kind of control device, it is particularly useful for the operation of the baffle plate or the curtain of electronic control.

This device comprises the shell of for example being made by insulating material 1, is equipped with one or more modules (for example 21 and 22) of tilting gearing (for example 210 and 220) separately, and the actuating mechanism 3 that is used for these tilting gearings.

In advantageous applications of the present invention, module 21 (perhaps module 21 and 22 one of them) generally include electric switch.

Each tilting gearing (for example 210 and 220) be installed as can be between two positions of winding the main axis X0 fixing with respect to shell 1 runout, when using two modules, module 21 and 22 is arranged along main axis X0.

Actuating mechanism 3 comprises one or two control lever, for example 31 and 32.

Each control lever 31 and 32 is installed as and can rotates around the near-end axis X1 that more or less is parallel to main axis X0, and near-end axis X1 is fixing with respect to shell 1, and described control lever is supported by shell 1 at near-end axis X1 place.

In addition, each control lever 31 and 32 active links are to tilting gearing 210 or tilting gearing 210 and 220, so that its inclination.

According to the present invention, actuating mechanism 3 also comprises one or more back bars (for example 33 or 34), distributes to control corresponding bar (for example 31 or 32) separately.

Each back bar 33 and 34 control corresponding bar 31 or 32 and tilting gearing 210 and 220 (or tilting gearing 210 and 220 one of them) between form active link.

Each back bar 33 and 34 also is installed as and can rotates around corresponding far-end axis (for example X21 and X22), and described far-end axis is fixing with respect to shell 1, and more or less is parallel to main axis X0.

Each control lever 31 and 32 comprises the functional unit that optionally is pressed on corresponding back bar 33 or 34 (for example 310 or 320).

As its parts, each back bar 33 and 34 comprise optionally be pressed in tilting gearing 210 and 220 (perhaps tilting gearing 210 and 220 one of them) on corresponding functional unit 330 or 340.

By this structure, each control lever 31 and 32 has angular movement, and this angular movement makes tilting gearing 210 or install the angular movement of 210 and 220 inclinations that produce less than it.

Especially shown in Fig. 2 to 6, control lever 31 and 32 is installed symmetrically with respect to the symmetrical plane P that passes main axis X0, and back bar 33 and 34 is installed symmetrically with respect to symmetrical plane P equally, therefore, far-end axis X21 and X22 are mutually symmetrical with respect to this plane P, and control lever 31 and 32 axis are mutually symmetrical with respect to this plane P too.

Equally as shown in these figures, as a kind of modification, control lever 31 and 32 can have the same axis X 1 that is arranged in symmetrical plane P, thereby symmetrical plane P passes main axis X0 and near-end axis X1.

Common and the symmetrical plane P separation of each far-end axis X21 or X22, its separation distance is greater than the separation distance of near-end axis X1 and main axis X0.

Each control lever 31 and 32 is monostable, and stably is back to the rest position shown in Fig. 2 and 4 by one or more springs (for example R), only makes this position change at the user Shi Caineng that exerts pressure.

Each tilting gearing 210,220 is can be only stable in one of them of two obliquity, and in this case, corresponding module 21 and 22 is monostable.

Comprise that in these modules under the situation of electric switch, they promptly adopt the pulsed control method.

But each tilting gearing 210 and 220 also can all be stablized when each of two obliquity, and in this case, corresponding module 21 and 22 is bistable.

Comprise that in these modules under the situation of electric switch, they promptly adopt the control method by the contact that has formed, shown in Fig. 7 and 8.

In these modules 21 and 22 each all is equipped with at least three terminals, and for example 211 to 213 and 221 to 223.

When the tilting gearing 210 of module 21 is set to first obliquity, the first terminal 211 of module 21 contacts with second terminal 212, and when tilting gearing 210 was set to second obliquity, the first terminal 211 of module 21 contacted with the 3rd terminal 213 of same module.

Equally, when the tilting gearing 220 of module 22 is set to first obliquity, the first terminal 221 of module 22 contacts with second terminal 222, and when tilting gearing 220 was set to second obliquity, the first terminal 221 of module 22 contacted with the 3rd terminal 223 of same module.

As shown in Figure 1, device of the present invention comprises support member 4 valuably, its formation or be arranged in the shell 1, and support at the axis X 21 or the X22 place of each back bar 33 or 34.

Each back bar 33 or 34 can have oar shape form, and an one hinged edge 331 and 341 forms corresponding axis X 21 or X22 and along an edge setting of shell 1.

Therefore, each in these oars all is equipped with the functional unit 330 or 340 on the tilting gearing 210 and/or 220 that optionally is pressed in one or more modules 21 and 22.

Equally, each control lever 31 or 32 can have the form of the baffle plate that is equipped with functional unit 310 or 320, especially as shown in Figure 1.

Claims (11)

1. control device, comprise shell (1), at least one module (21) of tilting gearing (210) is equipped with, and the actuating mechanism (3) that is used for described tilting gearing, described tilting gearing (210) is installed as and can winds main axis (X0) primary importance and the second place between the runout fixing with respect to described shell (1), described arrestment mechanism (3) comprises at least one first control lever (31), described at least one first control lever (31) be installed as can wind fixing and more or less be parallel to the first near-end axis (X1) of described main axis (X0) and rotate with respect to described shell (1), and described at least one first control lever (31) active link to described tilting gearing (210) so that described tilting gearing (210) tilt, it is characterized in that, described actuating mechanism (3) also comprises first back bar (33), described first back bar (33) forms active link between described first control lever (31) and described tilting gearing (210), and be installed as can wind fixing and more or less be parallel to the first far-end axis (X21) of described main axis (X0) and rotate with respect to described shell (1), wherein, described first control lever (31) comprises the functional unit (310) that optionally is pressed on described first back bar (33), the functional unit (310) of described first control lever (31) is positioned at the first near-end axis (X1) and against between at least one spring (R) of described first control lever (31), described first back bar (33) comprises the functional unit (330) that optionally is pressed on the described tilting gearing (210), the functional unit (310) of described first control lever (31) is positioned between the functional unit (330) of the first far-end axis (X21) and described first back bar (33), thereby makes angular movement that described first control lever (31) had make the angular movement of the inclination that described tilting gearing (210) produces less than it.

2. control device as claimed in claim 1, it is characterized in that, the described first far-end axis (X21) is separated mutually with the plane (P) that is formed by described main axis (X0) and the described first near-end axis (X1), and its separation distance is greater than the separation distance of the described first near-end axis (X1) with described main axis (X0).

3. control device as claimed in claim 1 is characterized in that, described tilting gearing (210) is all stablized in each of its primary importance and the second place, thereby described module (21) is a bistable state.

4. the described control device of each claim as described above, it is characterized in that, described actuating mechanism (3) comprises second control lever (32) and second back bar (34), the same with described first back bar (33) collaborative work each other of described second control lever (32) with described second back bar (34) and described first control lever (31), described second control lever (32) is provided with and is installed as and can rotate around the second near-end axis (X1), described second back bar (34) is provided with and is installed as and can rotate around the second far-end axis (X22), the setting of described second control lever (32) and described second back bar (34) with respect to the symmetrical plane that passes described main axis (X0) (P) and with the symmetry that is provided with of described first control lever (31) and described first back bar (33).

5. control device as claimed in claim 4, it is characterized in that the described first and second near-end axis (X1) overlap, thereby form described first and second control levers (31,32) common single rotation, and described symmetrical plane (P) passes described rotation.

6. control device as claimed in claim 4 is characterized in that, for each back bar (33,34), described control device comprises the far-end axis support member (4) that forms or be arranged in the described shell (1).

7. control device as claimed in claim 1, it is characterized in that, it comprises two modules (21 that are arranged in the described shell (1) and arrange along described main axis (X0), 22), described two modules (21,22) are equipped with tilting gearing (210,220) separately, described tilting gearing (210,220) all is installed as around described main axis (X0) runout.

8. control device as claimed in claim 4 is characterized in that, each back bar (33,34) has oar shape form, the corresponding far-end axis of an one hinged edge (331,341) formation (X21, X22), and have and optionally be pressed in described at least one module (21,22) functional unit (330,340) on the described tilting gearing (210,220), described hinged edge (331,341) extends along an edge of described shell (1).

9. control device as claimed in claim 1 is characterized in that, each control lever (31,32) has the form of the baffle plate of the functional unit of being equipped with (310,320), and described control lever (31,32) is located to be supported by described shell (1) at described near-end axis (X1).

10. control device as claimed in claim 1 is characterized in that, each module (21,22) comprise and be equipped with at least three terminal (211-213, electric switch 221-223), wherein, according to described module (21,22) described tilting gearing (210,220) be in the primary importance or the second place, determine described the first terminal (211,221) and described second terminal (212,222) still described the 3rd terminal (213,223) electrically contacts.

11. control device as claimed in claim 1 is characterized in that, described shell (1) is made by electrically insulating material.

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