CN204425310U - Flexible omnidirectional touch sensor - Google Patents

Abstract

The utility model provides a kind of flexible omnidirectional touch sensor, belongs to sensor technical field.Flexible omnidirectional touch sensor comprises the first flexible contact terminals (1), the second flexible contact terminals (2) and elastic insulated flexible pipe (3), and described the first flexible contact terminals (1) and the second flexible contact terminals (2) are separated by and being axially combined with the inwall of flexible pipe (3) in a spiral manner along flexible pipe (3).The utility model provides flexible omnidirectional position transducer can respond to displacement signal any direction within the scope of certain angle being detected, what substantially increase flexible sensor installs and uses scope, require low to the accuracy of form and position of mounting surface, greatly reduce production cost.

Description

Flexible omnidirectional touch sensor

Technical field

The utility model relates to a kind of flexible omnidirectional touch sensor, belongs to sensor technical field.

Background technology

Figure 1A is the structural representation of flexible sensor under the effect not having external force that prior art provides, as shown in Figure 1, flexible sensor of the prior art comprises flexible contact terminals 1, flexible contact terminals 2, overcoat 3, holding wire 4 and holding wire 5, described flexible contact terminals 1 is for be made by fexible conductor material, and it is electrically connected with holding wire 4; Described flexible contact terminals 2 is for be made by fexible conductor material, and it is electrically connected with holding wire 5; Described overcoat 3 is for be made by elastic insulating material, and its underpart is plane, and top is hemisphere, and flexible contact terminals 1 is arranged at the top in overcoat 3, and flexible contact terminals 2 is arranged at the bottom in overcoat 3.

Figure 1B is the structural representation of flexible sensor under the effect not having external force that prior art provides, as shown in Figure 1B, when the top perpendicular to overcoat 3 is subject to power, overcoat 3 produces deformation, thus the contact terminal 1 in portion disposed thereon is contacted with the contact terminal 2 on top, holding wire 4 and 5 is electrically connected.This flexible location transducer (position switch) of the prior art only can detect the displacement signal at a specific direction (perpendicular to overcoat 3) top, be the displacement signal that some direction-changeable can be detected in some use occasion, designer has to select the servomechanism of multiple transducer or complexity to realize above-mentioned purpose.

Summary of the invention

For overcoming the shortcoming existed in prior art, goal of the invention of the present utility model is to provide a kind of flexible omnidirectional touch sensor, it can respond to displacement signal any direction within the scope of certain angle being detected, what substantially increase flexible sensor installs and uses scope, require low to the accuracy of form and position of mounting surface, greatly reduce production cost.

For realizing described goal of the invention, a kind of flexible omnidirectional touch sensor, it comprises the first flexible contact terminals 1, second flexible contact terminals 2 and elastic insulated flexible pipe 3,, the first described flexible contact terminals 1 and the second flexible contact terminals 2 are separated by and being axially combined with the inwall of flexible pipe 3 in a spiral manner along flexible pipe 3.

Preferably, the first described flexible contact terminals 1 and the second flexible contact terminals 1 are N bar, and are uniformly distributed along flexible pipe 3 radial direction is staggered, and described N is the natural number be greater than.

Preferably, the first flexible contact terminals 1 is connected with the first holding wire, and the second flexible contact terminals 2 is connected with secondary signal line.

Compared with prior art, the flexibility that the utility model provides is omnidirectional, and touch sensor can respond to displacement signal any direction within the scope of certain angle being detected, what substantially increase flexible sensor installs and uses scope, require low to the accuracy of form and position of mounting surface, greatly reduce production cost.

Accompanying drawing explanation

Figure 1A is the structural representation of flexible sensor under the effect not having external force that prior art provides;

Figure 1B is the structural representation of flexible sensor under the effect having external force that prior art provides;

The basic outline drawing of the flexible omnidirectional touch sensor of 4 line styles that Fig. 2 provides for the utility model;

Fig. 3 touches line 1 for the flexible omnidirectional touch sensor flexibility of 4 line styles that the utility model provides and flexibility touches line 2 distribution schematic diagram in elastic insulated pipe;

The flexible omnidirectional touch sensor of the 4 line styles radially generalized section that Fig. 4 provides for the utility model;

The flexible omnidirectional touch sensor of the 6 line styles radially generalized section that Fig. 5 provides for the utility model.

Embodiment

The basic outline drawing of the flexible omnidirectional touch sensor of 4 line styles that Fig. 2 provides for the utility model; Fig. 3 touches line 1 for the flexible omnidirectional touch sensor flexibility of 4 line styles that the utility model provides and flexibility touches line 2 distribution schematic diagram in elastic insulated pipe.As Figure 2-3, the flexibility that the utility model provides is omnidirectional, and touch sensor comprises the first flexible contact terminals 1, second flexible contact terminals 2 and elastic insulated flexible pipe 3, and the first described flexible contact terminals 1 and the second flexible contact terminals 2 are separated by and being axially combined with the inwall of flexible pipe 3 in a spiral manner along flexible pipe 3.First flexible contact terminals 1 and the second flexible contact terminals 2 cross section are circular or oval line style.

The first described flexible contact terminals 1 and the second flexible contact terminals 2 are N number of, and are uniformly distributed along flexible pipe 3 radial direction is staggered, described N be greater than or equal to 1 natural number.Preferably, described first flexible contact terminals 1 and the second flexible contact terminals 2 are two, as shown in Figure 4, also can be three, as shown in Figure 5.First flexible contact terminals 1 is connected with the first holding wire 4, and the second flexible contact terminals 2 is connected with secondary signal line 5.Dry inert gas is filled with in flexible pipe.

General principle of the present utility model is: the first flexible contact terminals 1 and the second flexible contact terminals 2 are separated by and along the radial equipartition of flexible pipe, then along flexible pipe axially in a spiral manner be adhered on the inwall of flexible pipe 3, so spirality distribution on the inwall of flexible pipe 3 at the first flexible contact terminals 1 and the second flexible contact terminals 2.First flexible contact terminals 1 signal conductor 4 is drawn, and the second flexible contact terminals 2 signal conductor 5 is drawn, and then seals being filled with dry inert gas in elastic insulated flexible pipe, as which form the flexible omnidirectional touch sensor of line style.The flexible omnidirectional touch sensor of line style that the utility model provides can be fixed by any way, interts or be assemblied on the parts that need to survey dimensional deformation.When external force causes the radial deformation of the either direction of elastic insulated flexible pipe 3, the first flexible contact terminals 1 in pipe all will be made to contact with the second flexible contact terminals 2, thus holding wire line 4 and holding wire 5 are electrically connected.When external force is eliminated, normality replied by elastic insulated flexible pipe, and the first flexible contact terminals 1 in pipe is separated with the second flexible contact terminals 2.

According to application or purposes, the first flexible contact terminals in the flexible omnidirectional touch sensor of the line style that the utility model provides and the second flexible contact terminals all can be designed to 1,2 or 3, thus form the flexible omnidirectional touch sensor of 2 lines, 4 lines or 6 line styles.Basic principle is: one, the first flexible contact terminals 1 and the second flexible contact terminals 2 are always radially 180 degree of distributions, so, the distortion of resilient flexibility flexible pipe any position along the circumferential direction, capital causes contacting of spiral first flexible contact terminals 1 of hose inner wall and the second flexible contact terminals 2, realizes the output of signal; Two, design the pitch of different screw contacts line, the multidirectional deformation signal that can realize different demand exports, and pitch is less, and deviation sensitivity is higher vertically for it.

Key point of the present utility model is the screw arrangement utilizing fexible conductor, realizes the detection to the radial displacement signal of radial direction arbitrarily of circumference.Simultaneously because transducer is manufactured by flexible material, adopt and paste, intert, the mode such as to fix, on the two dimension that can simply be installed on any shape or three-dimensional surface.Be widely used in industrial safety protection, industrial door automatic shutter controls, and motorcar electric Car's door controlling and anti-pinching car window control, the bin level intelligentization of tiered warehouse facility controls, the fields such as building automatic control, that is, can be applied to the occasion of various displacement or shape control.

The above is only that execution mode of the present utility model has done detailed description; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection range of the present utility model.

Claims (3)

1. the omnidirectional touch sensor of flexibility, it comprises the first flexible contact terminals (1), the second flexible contact terminals (2) and elastic insulated flexible pipe (3), it is characterized in that, described the first flexible contact terminals (1) and the second flexible contact terminals (2) are separated by and being axially combined with the inwall of flexible pipe (3) in a spiral manner along flexible pipe (3).

2. the omnidirectional touch sensor of flexibility according to claim 1, it is characterized in that, described the first flexible contact terminals (1) and the second flexible contact terminals (1) are N bar, and be uniformly distributed along flexible pipe (3) radial direction is staggered, described N be greater than 1 natural number.

3. the omnidirectional touch sensor of flexibility according to claim 2, is characterized in that, the first flexible contact terminals (1) is connected with the first holding wire, and the second flexible contact terminals (2) is connected with secondary signal line.