Summary of the invention
Technical matters to be solved by this invention is to propose a kind of multi-dimension force sensor, and it is simple in structure, and is easy to assembly.
The present invention solves the problems of the technologies described above with following technical scheme:
A kind of multi-dimension force sensor comprises elastic body, loam cake and lower cover; Post strainometer on the said elastic body; Connect through screw between said elastic body, loam cake and the lower cover three; Said elastic body is between loam cake and lower cover, and there is convex platform in the place that loam cake contacts with elastic body, and there is lower convex platform in the place that lower cover contacts with elastic body.
Be covered with convex platform on said, loam cake and elastic body are contacted with this convex platform.
Said elastic body also can be provided with convex platform, and loam cake and elastic body are contacted with this convex platform.
Said loam cake contacts the convex platform of part with elastic body, also can be an independently part.
Be covered with lower convex platform under said, lower cover and elastic body are contacted with this lower convex platform.
Said elastic body also can be provided with lower convex platform, and lower cover and elastic body are contacted with this lower convex platform.
Said lower cover contacts the lower convex platform of part with elastic body, also can be an independently part.
Said elastic body is made up of left part, middle part and right part, and left part is connected through two thin walled beams with the middle part, and right part is connected through two thin walled beams with the middle part, and strainometer is affixed on the surface of thin walled beam, and every thin walled beam posts a strainometer at least.
Be covered with a big groove under said, the shape of big groove, size and elastic body are complementary, and elastic body is installed in the big groove.
Be covered with cableway on said, sensor cable passes the cable protective sleeve that places on the cableway and is connected with outside the realization.
The multi-dimension force sensor that the embodiment of the invention provides, simple and compact for structure, easy to assembly.
Embodiment
To combine the accompanying drawing in the embodiment of the invention below, the technical scheme in the embodiment of the invention is carried out clear, intactly description, obviously, described embodiment only is one embodiment of the present of invention, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the present invention's protection.
The multi-dimension force sensor that the embodiment of the invention provides comprises elastic body, loam cake and lower cover; Connect through screw between said elastic body, loam cake and the lower cover three; Said elastic body is between loam cake and lower cover, and there is convex platform in the place that loam cake contacts with elastic body, and there is lower convex platform in the place that lower cover contacts with elastic body.Said elastic body is made up of left part, middle part and right part, and left part is connected through two thin walled beams with the middle part, and right part is connected through two thin walled beams with the middle part, and strainometer is affixed on the surface of thin walled beam, and every thin walled beam pastes a strainometer at least.The multi-dimension force sensor that the embodiment of the invention provides, simple and compact for structure, easy to assembly.
When multi-dimension force sensor was stressed, loam cake was delivered to elastomeric middle part through convex platform with power, and lower cover is delivered to elastomeric left part and right part through lower convex platform with power, made elastomeric thin walled beam produce strain, and strainometer converts strain to electric signal output.
Need to prove, the convex platform between said loam cake and the elastic body, be located at loam cake or be located at elastic body or loam cake and elastic body on boss or convex platform are all arranged is individual part.Lower convex platform between said lower cover and the elastic body, be located at lower cover be located at elastic body or lower cover and elastic body on boss or lower convex platform are all arranged is individual part.
Need to prove that also the group bridge mode of strainometer can adopt the group bridge mode of full-bridge (upper and lower two faces that are every thin walled beam paste two strainometers), half-bridge (being above the thin walled beam or two strainometers of following subsides) or 1/4 bridge (being to paste a strainometer on every thin walled beam).
Below in conjunction with Fig. 1 to Fig. 4, a preferred embodiment of the present invention is elaborated.
One preferred embodiment in, as shown in Figure 1, multi-dimension force sensor comprises elastic body 1, loam cake 3 and lower cover 2; Elastic body 1, loam cake 3 and lower cover 2 threes are connected through screw 4, and elastic body 1 is between loam cake 3 and lower cover 2; There is convex platform 8 in the place that elastic body 1 contacts with loam cake 3, and there is lower convex platform 11 in the place that elastic body 1 contacts with lower cover 2.
Preferably, as shown in Figure 1, loam cake 3 is provided with convex platform 8, screw hole 9 and cableway 10, and sensor cable 6 passes the cable protective sleeve 5 that places on the cableway 10 and is connected with outside the realization.Lower cover 2 is provided with big groove 7, and the shape of big groove 7, size and elastic body 1 are complementary, and the two ends of big groove 7 are provided with the lower convex platform 11 that contacts with elastic body, and lower cover 2 also is provided with screw hole 12.Elastic body 1 is installed in the big groove 7 through screw, and the middle part of elastic body 1 contacts with the convex platform of loam cake 8, and elastomeric left part contacts with the lower convex platform 11 at big groove two ends respectively with right part.
As shown in Figure 2, elastic body 1 is made up of left part 21, middle part 22 and right part 23, and left part 21 is connected through two thin walled beams 24 with middle part 22, and right part 23 is connected through two thin walled beams 24 with middle part 22.Strainometer 25 is affixed on four thin walled beams 24 of elastic body 1, and when elastic body 1 was stressed, strain mainly concentrated on these four thin walled beams 24.Elastic body 1 dual-side has along the position and connects screw hole 27 on several, and two ends are provided with the following screw hole 28 that connects that is connected with lower cover 2, and two ends are reserved with pilot hole 29.Screw 4 passes screw hole 9 and screw hole 27 and realizes being connected of loam cakes 3 and elastic body 1, and screw 4 passes being connected of screw hole 12 and screw hole 28 realization lower covers 2 and elastic body 1.Simultaneously, elastic body 1 also is provided with trough 26, is used to put electric wire, and trough 26 also can be located on the loam cake 3 as required.
As shown in Figure 4, the embodiment of the invention adopts the half-bridge form to carry out the Strain Meter Set bridge, is made up of eight strainometers altogether.Resistance R 9 and R10 (available strainometer replacement) are affixed on position shown in Figure 3 or big, the indeformable position of other rigidity.Strainometer 25 (be R1~R8) be divided into four groups to stick on respectively on four thin walled beams 24, as shown in Figure 3.Four groups of strainometer R1~R8 form bridge circuit shown in Figure 4 with bridge circuit dummy strain gauge R9, R10 respectively.As shown in Figure 4, when the stressed generation strain of elastic body 1, bridge circuit dummy strain gauge R9 and R10 resistance do not change, and R1, R2 change in resistance Δ R1, Δ R2 are converted into voltage signal CH1; R3, R4 change in resistance Δ R3, Δ R4 are converted into voltage signal CH2; R5, R6 change in resistance Δ R5, Δ R6 are converted into voltage signal CH3; R7, R8 change in resistance Δ R7, Δ R8 are converted into voltage signal CH4.According to four voltages output signal CH1, CH2, CH3, CH4,, then can calculate X, the Y coordinate of application point of stressed FZ and the power of Z direction through following formula if adopt coordinate system as shown in Figure 4.Behind the coordinate system transformation, then following formula respective change.
FZ=C?1*(CH?1+CH2+CH3+CH4)
X=C2*(CH1+CH2-CH3-CH4)/(FZ/C1)
Y=C3*(CH2+CH4-CH1-CH3)/(FZ/C1)
Wherein, C1, C2, C3 are the calibration coefficients of sensor, are obtained by transducer calibration.
Need to prove,, can realize, perhaps add specific circuit and realize at sensor internal through microprocessor to the calculating of above-mentioned formula.
A kind of multi-dimension force sensor of the present invention, simple and compact for structure, easy to assembly, satisfied the measurement of power and application point thereof well.
The multi-dimension force sensor that the embodiment of the invention provides, beneficial effect specific as follows:
(1), simple and compact for structure, easy to assembly, the thin thickness of multi-dimension force sensor that provides of the embodiment of the invention, minimum thickness can reach 5 millimeters.
(2), the multi-dimension force sensor that provides of the embodiment of the invention, the coordinate of the application point of ergometry and power simultaneously.
The above is a preferred implementation of the present invention; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; Can also make some improvement and retouching, these improvement and retouching also are regarded as protection scope of the present invention.