CN108469240A - Length measuring instrument and measurement method based on power electricity conversion sensor - Google Patents

Abstract

Length measuring instrument based on the conversion of power electricity and measurement method category linear measure longimetry field.Existing measurement length, the method for profile trace are very abundant, and still, people are in scientific experimentation, it is desirable to have new measuring technique, to provide new technical solution for linear measure longimetry, profile trace.In order to which linear measure longimetry, profile trace provide new technical solution, the invention discloses：Based on the length measuring instrument of power electricity conversion, including force snesor, for the elastic material to force snesor probe force, the elastic material, stress has one-to-one relationship with its deformation quantity, it is characterized in that：Top plate first end is hinged, and top plate second end is used to apply elastic force to elastic material, and when top plate is in different location, top plate exerts a force to elastic material different.The configuration of the present invention is simple.

Description

Length measuring instrument and measurement method based on power electricity conversion sensor

Technical field

The invention belongs to the multi-field application fields based on linear measure longimetry.

Background technology

Existing measurement length, the method for profile trace are very abundant, and still, people are in scientific experimentation, or wish Prestige has new measuring technique, to provide new technical solution for linear measure longimetry, profile trace.

Invention content：

In order to which linear measure longimetry, profile trace provide new technical solution, device disclosed by the invention includes force snesor, is used In the elastic material to force snesor probe force, the elastic material, stress has one-to-one relationship with its deformation quantity, special Sign is：Top plate first end is hinged, and top plate second end is used to apply elastic force, when top plate is in different location, top plate pair to elastic material Elastic material force is different.

Force snesor probe is to be fixedly connected with elastic material.

Elastic material is to be fixedly connected with top plate second end.

The elastic material is spring.

The elastic material is the deformation quantity elastic material directly proportional to its suffered elastic force.

Set spring is the spring for meeting Hooke's law.

Further include：Basal plane, basal plane is for placing determinand.Starting point of the basal plane as length.

Further include：Drag-line, under drag-line is for preventing top plate from falling.

The drag-line is elastic string.

Further include the mandril that top plate second end is equipped with, mandril is arc-shaped, and the radius of arc is equal to top plate second where mandril The distance of top plate first end, one end of mandril is held to be fixedly connected with top plate second end, the other end of mandril is used for elastic material Apply elastic force,

Further include sleeve, sleeve is hollow, and sleeve is bent camber, and the radius of arc is equal to arc where mandril where sleeve Radius, mandril extends to sleeve hollow space, and elastic material is set to sleeve inner, and when top plate is rotated to sleeve direction, mandril is deep Enter sleeve and applies elastic force to elastic material.

The center of circle of arc where mandril and mandril first end overlap.

The center of circle of arc where sleeve and mandril first end overlap.

The basal plane is uniform motion.

The basal plane is the upper surface of transmission belt.

The force snesor position is fixed.

The hinged shaft core position of top plate first end is fixed.

The distance of top plate first end to top plate second end is 1m.

The distance of top plate first end to top plate second end is 1.5m.

The distance of top plate first end to top plate second end is 2m.

The distance of top plate first end to top plate second end is 0.5m.

The distance of top plate first end to top plate second end is 2.5m.

The distance of top plate first end to top plate second end is 0.5-1m.

The distance of top plate first end to top plate second end is 1-2m.

The distance of top plate first end to top plate second end is 0.5-2.5m.

It further include sliding needle.

Length measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Determinand one end is positioned over basal plane by second step, and the other end withstands top plate second end, and top plate second end is to elastic material Force, elastic material deform upon, and generate deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the length of determinand.

Sportsman's height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, sportsman's foot plate surface are placed in basal plane, and crown highest point withstands top plate second end, and top plate second end is to elasticity Object exerts a force, and elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly sportsman's height.

Animal height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, animal foot plate surface are placed in basal plane, and body highest point withstands top plate second end, and top plate second end is to elastic material Force, elastic material deform upon, and generate deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly animal height.

Electrical equipment dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Electrical equipment is placed in basal plane by second step, and the peak of electrical equipment withstands top plate second end, and top plate second end is given Elastic material exerts a force, and elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly electrical equipment height.

Construction material dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Construction material is placed in basal plane by second step, and the peak of construction material withstands top plate second end, and top plate second end is given Elastic material exerts a force, and elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of construction material.

Craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Craftwork is placed in basal plane by second step, and the peak of craftwork withstands top plate second end, and top plate second end is to elasticity Object exerts a force, and elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

Length measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Determinand one end is positioned over basal plane by second step, and the other end withstands top plate second end, and top plate second end passes through mandril It exerting a force to elastic material, elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the length of determinand.

Sportsman's height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, sportsman's foot plate surface are placed in basal plane, and crown highest point withstands top plate second end, and top plate second end passes through top Bar exerts a force to elastic material, and elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly sportsman's height.

Animal height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, animal foot plate surface are placed in basal plane, and body highest point withstands top plate second end, and top plate second end passes through mandril It exerting a force to elastic material, elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly animal height.

Electrical equipment dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Electrical equipment is placed in basal plane by second step, and the peak of electrical equipment withstands top plate second end, and top plate second end is logical Mandril to be crossed to exert a force to elastic material, elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly electrical equipment height.

Construction material dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Construction material is placed in basal plane by second step, and the peak of construction material withstands top plate second end, and top plate second end is logical Mandril to be crossed to exert a force to elastic material, elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of construction material.

Craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Craftwork is placed in basal plane by second step, and the peak of craftwork withstands top plate second end, and top plate second end passes through top Bar exerts a force to elastic material, and elastic material deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

Length measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Determinand one end is positioned over basal plane by second step, and basal plane drives determinand movement, determinand highest point to slip over top plate Second end, top plate second end exert a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：Bullet when determinand highest point slips over top plate second end The numerical value of power is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the length of determinand.

Sportsman's height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, player stands stand on basal plane, and basal plane drives Athletess, and sportsman crown highest point slips over top plate the Two ends, top plate second end exert a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：Bullet when determinand highest point slips over top plate second end The numerical value of power is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of sportsman.

Animal height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, animal stand on basal plane, and basal plane drives animal movement, animal bodies highest point to slip over top plate second end, Top plate second end exerts a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：When animal bodies highest point slips over top plate second end The numerical value of elastic force is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of animal.

Electrical equipment height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, electrical equipment are placed in basal plane, and basal plane drives electrical equipment movement, and electrical equipment highest point slips over top plate the Two ends, top plate second end exert a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：When electrical equipment highest point slips over top plate second end The numerical value of elastic force is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of electrical equipment.

Construction material height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, construction material are placed in basal plane, and basal plane drives construction material movement, and construction material highest point slips over top plate the Two ends, top plate second end exert a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：When construction material highest point slips over top plate second end The numerical value of elastic force is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of construction material.

Craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, craftwork are placed in basal plane, and basal plane drives craftwork movement, craftwork highest point to slip over top plate second end, Top plate second end exerts a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：Bullet when craftwork highest point slips over top plate second end The numerical value of power is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

Electrical equipment profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Electrical equipment is placed in basal plane by the first step, and electrical equipment waits for that the face of trace is in top, and basal plane drives electrical equipment Uniform motion, electrical equipment and basal plane are opposing stationary,

Second step, top plate second end start to contact electrical equipment, and top plate second end is rotated around top plate first end, and elastic material is opened Beginning deformation,

Third walks, and waits for that trace face undergoes top plate second end, and force snesor obtains F-t images,

4th step, the shape of F-t images are exactly the shape that electrical equipment waits for trace face.

Craftwork profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Craftwork is placed in basal plane by the first step, and craftwork waits for that the face of trace is in top, and basal plane drives craftwork at the uniform velocity to transport Dynamic, craftwork and basal plane are opposing stationary,

Second step, top plate second end start contact process product, and top plate second end is rotated around top plate first end, and elastic material starts Deformation,

Third walks, and waits for that trace face undergoes top plate second end, and force snesor obtains F-t images,

4th step, the shape of F-t images are exactly the shape that craftwork waits for trace face.

Construction material profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Construction material is placed in basal plane by the first step, and construction material waits for that the face of trace is in top, and basal plane drives construction material Uniform motion, construction material and basal plane are opposing stationary,

Second step, top plate second end start to contact construction material, and top plate second end is rotated around top plate first end, and elastic material is opened Beginning deformation,

Third walks, and waits for that trace face undergoes top plate second end, and force snesor obtains F-t images,

4th step, the shape of F-t images are exactly the shape that construction material waits for trace face.

To device used by above method, can further limit：

The distance of top plate first end to top plate second end is 1m.

The distance of top plate first end to top plate second end is 1.5m.

The distance of top plate first end to top plate second end is 2m.

The distance of top plate first end to top plate second end is 0.5m.

The distance of top plate first end to top plate second end is 2.5m.

The distance of top plate first end to top plate second end is 0.5-1m.

The distance of top plate first end to top plate second end is 1-2m.

The distance of top plate first end to top plate second end is 0.5-2.5m.

The invention belongs to the multi-field application fields based on linear measure longimetry.

The application field for particularly belonging to power electricity conversion sensor especially belongs to the elevation carrection neck of animal or human body Domain, electrical case outlines trace field, craftwork profile trace field, construction material profile trace field.

Because the present invention can apply in many fields, invention and created name of the invention may be：

Length measuring instrument based on power electricity conversion sensor；Biological development index measurement based on power electricity conversion sensor Instrument；Athletes ' body index measuring instrument based on power electricity conversion sensor；Electrical equipment profile based on power electricity conversion sensor Hodoscope；Craftwork profile hodoscope based on power electricity conversion sensor；Construction material trace based on power electricity conversion sensor Instrument；Length measuring instrument；Biological development index measuring instrument；Athletes ' body index measuring instrument；Electrical equipment profile hodoscope；Technique Product profile hodoscope；Construction material hodoscope.Title of the present invention may be the measurement method using device described above, example Such as：Length measurement method based on power electricity conversion sensor；Biological development index measurement method based on power electricity conversion sensor； Athletes ' body index measurement method based on power electricity conversion sensor；Electrical equipment profile based on power electricity conversion sensor is retouched Mark method；Craftwork profile tracking method based on power electricity conversion sensor；Building wood material wheel based on power electricity conversion sensor Wide tracking method；Length measurement method；Biological development index measurement method；Athletes ' body index measurement method；Electrical equipment Profile tracking method；Craftwork profile tracking method, construction material profile tracking method.Profile based on power electricity conversion sensor Trace device.

The present invention is linear measure longimetry, elevation carrection, profile trace provide a kind of new technical solution, and the present invention has knot Simple, the easy to use advantage of structure.

Description of the drawings

Fig. 1 is the structural schematic diagram of the embodiment of the present invention one.

Fig. 2 is the structural schematic diagram of the embodiment of the present invention two.

Fig. 3 is the structural schematic diagram of the embodiment of the present invention three.

Fig. 4 is the structural schematic diagram of the embodiment of the present invention four.

Fig. 5 is the structural schematic diagram of the embodiment of the present invention five.

Fig. 6 is the structural schematic diagram of the embodiment of the present invention six.

Fig. 7 is the structural schematic diagram of the embodiment of the present invention seven.

In figure：1- top plates, 11- top plate first ends, 12- top plate second ends, 2- force snesors, 21- force snesors probe, 3- Articulated shaft, 4- elastic materials, 5- basal planes, 6- drag-lines, 7- mandrils, 8- sleeves, 9- slide needle.

Specific implementation mode

Embodiment one

It is the structural schematic diagram of the embodiment of the present invention one referring to attached drawing 1.

Device of the present invention include for force snesor probe 21 force elastic materials 4, the elastic material 4, Stress has one-to-one relationship with its deformation quantity, it is characterized in that：Top plate first end 11 is hinged, and top plate second end 12 is used for bullet Property object 4 apply elastic force, when top plate 1 is in different location, top plate 1 exerts a force difference to elastic material 4.

It is hinged, it is exactly the rotary meaning, that is to say, that top plate first end 11 is rotated using articulated shaft 3.

Force snesor 2 is common sensor, and mechanical quantity is transformed to electrical quantities to measure mechanical quantity, that is, It says, force snesor 2 is a kind of power electrical switching device, and used force snesor 2 is exactly the sensor using power electricity conversion work. There are many kinds of force snesors 2, has some to be only able to display real-time measuring data, such as common greens seller's electronic scale；What is had can be with The image contributed and changed over time is done, that is, obtains F-t images, such force snesor 2 is frequently utilized for scientific and technical experiment. Art technology related technical personnel have seen this specification may determine that selection which type of force snesor 2.

The component that force snesor 2 is used to detect power size is referred to as force snesor probe 21.

Why embodiment one can measure lengthWhat its principle isIt measure length working method be What

It is understood that force snesor 2 is measuring force size, it is also known that elastic material 4, such as spring, such as rubber Rope, such as rubber block, the size and deformation quantity of their stress have one-to-one relationship, the knots modification of length to also belong to deformation Amount, the basic principle of foundation of the present invention are exactly deformation quantity to be transformed to the size of power, then the size conversion of power are changing for length Variable.

It has seen after this specification, it is to be understood that the position of articulated shaft 3 is fixed, power passes various equivalent modifications The position of sensor 2 is also fixed, in Figure of description, has used and common has indicated that fixed method illustrates that position is fixed.

Further：

Force snesor probe 21 is to be fixedly connected with elastic material 4.In fact, force snesor probe 21 and elastic material 4 be not solid Fixed connection, only contacts, also possible.Because applying elastic force need not be fixedly connected, contact, certainly, welding It can also.Be fixedly connected can measure it is relatively reliable, without free travel.

Elastic material 4 is to be fixedly connected with top plate second end 12.In fact, contact is also possible.Fixed advantageous effect It is that measurement is relatively reliable, without free travel.

If elastic material 4 and force snesor probe 21, top plate 1 are all only to contact, then, it is necessary to other device controls The position of spring processed, in case elastic material 4 (such as spring) tumbles.

The elastic material 4 is spring.Spring is good elastic material 4.There is spring larger deformation quantity, spring not only may be used To be stretched, can also be compressed.For force snesor 2, force snesor probe 21 under tensions or opposite with pulling force Power (namely pressure), force snesor 2 show numerical value be different (such as+5N, -5N).Spring is still typical full The elastic material 4 of sufficient Hooke's law, such elastic material 4, when deformation, it is linear very well, preferably spring is as elastic material 4.

Preferably, the elastic material 4 is the deformation quantity elastic material 4 directly proportional to its suffered elastic force.

Preferably, set spring is the spring for meeting Hooke's law.

Embodiment two

Referring to attached drawing 2, the structural schematic diagram of the embodiment of the present invention two.

Further include：Basal plane 5, basal plane 5 is for placing determinand.Starting point of the basal plane 5 as length.It measures between 2 points Length always has starting point, terminal, top plate second end 12 to be used as terminal, then, basal plane 5 is exactly to be used as starting point.

Embodiment three

It is the structural schematic diagram of the present invention referring to attached drawing 2.

Further include：Drag-line 6, under drag-line 6 is for preventing top plate 1 from falling.6 one end of drag-line connects top plate 1,6 other end position of drag-line Set fixation.

Preferably, the drag-line 6 is elastic string.

Using embodiment one, two, three, the method for measuring length or height is such：

Length measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Determinand one end is positioned over basal plane 5 by second step, and the other end withstands top plate second end 12, and top plate second end 12 is given Elastic material 4 exerts a force, and elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the length of determinand.

Need to illustrate has：As measurement method, there are basal planes 5 by the present invention, and still, as product, basal plane 5 is not must Must.Because basal plane 5 can select ground, even metope.Remove basal plane 5, product of the present invention be can individually produce, Sale, so, scope of protection of the present invention can remove basal plane 5.

It may also be noticed that have：It has seen after the measuring principle described in this specification, those skilled in the art should know：Base Distance S of the face 5 apart from top plate second end 12, when measuring S, top plate 1 and elastic material 4 should be not no free travels, The free travel, that is, when the compression of top plate second end 12 or tensile elasticity object 4, need by one end clear area Domain, this section of white space top plate second end 12 and elastic material 4 are not in contact with, cannot receive certainly in this way.

It may also be noticed that have：

There is one-to-one relationship according to elastic force numerical value F and deformation quantity L, learn the numerical value of L.How the numerical value of L is learned To those skilled in the art, this is not thing.Since using elastic material 4, the deformation quantity of elastic material 4 and Suffered elastic force is relevant, then, the relationship of deformation quantity and elastic force should just be learned in advance, both can be by testing measurement Method obtains in advance, can also be calculated by searching for databook, can also directly be demarcated using reference instrument.Also It is to say, when I sees that force snesor 2 shows elastic force, I is known that the deformation quantity of elastic material 4, this deformation quantity, either Decrement can also be amount of tension.Said that force snesor 2 can show power size, and can show in front Pressure or pulling force.

It may also be noticed that have：

When applying elastic force to top plate 1 without other things, the numerical value that force snesor 2 is shown may not be zero, for example, The measurement of force snesor 2 is not reset, such as influence caused by 1 gravity of top plate, such as influence caused by 4 gravity of elastic material, this Field technology personnel should know when reading or data processing, to adjust accordingly.Exactly connect greens seller people, all knows Road electronic scale is it is noted that reset, let alone scientific worker.

We can measure the height of sportsman with the device, and the height of sportsman is one of athletes ' body index.

Sportsman's height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, sportsman's foot plate surface are placed in basal plane 5, and crown highest point withstands top plate second end 12, top plate second end 12 It exerting a force to elastic material 4, elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly sportsman's height.

Animal height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, animal foot plate surface are placed in basal plane 5, and body highest point withstands top plate second end 12, and top plate second end 12 is given Elastic material 4 exerts a force, and elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly animal height.

Various equivalent modifications it is to be understood that the present invention measure be basal plane 5 arrive top plate second end 12 distance, top plate Second end 12 may be touched by the angle on animal head, it is also possible to which the back of animal touches, trained dynamic if it is some Object, it is also possible to which fore paw touches, and those skilled in the art are not every it is to be understood that when measuring animal height with the present invention A kind of animal is all suitable, and animal worker should select suitable animal.For example pig is measured with regard to proper.

Those skilled in the art can select suitable top plate 1, top plate 1 that can select plate, also may be used according to measurement object To be rod dress, it is, of course, preferable to plate.

The hinged shaft core position of top plate first end 11 is fixed.

The distance of top plate first end 11 to top plate second end 12 is 1m.

The distance of top plate first end 11 to top plate second end 12 is 1.5m.

The distance of top plate first end 11 to top plate second end 12 is 2m.

The distance of top plate first end 11 to top plate second end 12 is 0.5m.

The distance of top plate first end 11 to top plate second end 12 is 2.5m.

The distance of top plate first end 11 to top plate second end 12 is 0.5-1m.

The distance of top plate first end 11 to top plate second end 12 is 1-2m.

The distance of top plate first end 11 to top plate second end 12 is 0.5-2.5m.

Similarly, there can also be these measurement methods：

Electrical equipment dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Electrical equipment is placed in basal plane 5 by second step, and the peak of electrical equipment withstands top plate second end 12, top plate second End 12 exerts a force to elastic material 4, and elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly electrical equipment height.

Construction material dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Construction material is placed in basal plane 5 by second step, and the peak of construction material withstands top plate second end 12, top plate second End 12 exerts a force to elastic material 4, and elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of construction material.

For those skilled in the art it is to be understood that there are many kinds of construction materials, should select can suitably utilize the present apparatus The material for measuring height or length measures, for example, the device that ceramic tile can be described by the present invention measures, talcum powder is just not Row, still, packing the packing case of talcum powder can be measured.

Craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Craftwork is placed in basal plane 5 by second step, and the peak of craftwork withstands top plate second end 12, top plate second end 12 It exerting a force to elastic material 4, elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

Similarly, various equivalent modifications have some not it is to be understood that there is some craftworks that can be measured by the present invention Row.For example, the thing of marble carving, so that it may which, to measure, calligraphy work cannot be measured by the present invention.

Example IV

Referring to attached drawing 4, the structural schematic diagram of the embodiment of the present invention four.

Further include the mandril 7 that top plate second end 12 is equipped with, mandril 7 is arc-shaped, and the radius of 7 place arc of mandril is equal to top plate Second end 12 arrives the distance of top plate first end 11, and one end of mandril 7 is fixedly connected with top plate second end 12, the other end of mandril 7 For giving elastic material 4 to apply elastic force,

Further include sleeve 8, sleeve 8 is hollow, and sleeve 8 is bent camber, and the radius of 8 place arc of sleeve is equal to 7 institute of mandril In the radius of arc, mandril 7 extends to 8 hollow space of sleeve, and elastic material 4 is set to inside sleeve 8, and top plate 1 is revolved to 8 direction of sleeve When turning, mandril 7 gos deep into sleeve 8 and applies elastic force to elastic material 4.

It is preferable that 7 place plane of mandril and 12 Plane of rotation of top plate second end overlap.In other words：7 institute of mandril is really Fixed plane and 12 Plane of rotation of top plate second end overlap.Why use and determines two wordsBecause mandril 7 is an arc, arc Shape can determine a plane.

Device described in embodiment one, two, three, all has a problem that：The numerical value that power is read from force snesor 2 is then true Shape variable, and obtained deformation quantity error is larger.

It is why suchThe reason is that：The direction that top plate second end 12 applies elastic force is not perpendicular to force snesor probe 21, or can not possibly be always vertical, because top plate 1 is rotation.And the size of force snesor 21 esthesis of probe is typically the side of having To, that is to say, that the elastic force that force snesor probe 21 detects is the pressure in vertical probe contacts face direction.

How that solves this technical problemThe technical solution that example IV provides exactly solves this technology Problem, example IV institute is attainable to be had the technical effect that：Top plate 1 (is not certainly, as motor when rotation Continuously turn-take, but say and turn over certain radian), which angle no matter is rotated to, the power that force snesor probe 21 is experienced is all It is perpendicular to probe contacts face.

Slightly understand that the people of a mechanical knowledge both knows about, power is vector, can be decomposed, if measure elastic force size it is necessary to Allow elastic force perpendicular to the contact surface of force snesor probe 21, this is basic common sense.We with the power of 10 newton perpendicular to electronic scale, Electronic scale shows 10 newton, if with 10 newton, be not orthogonal to the power of electronic scale contact surface and act on electronic scale, electronic scale is aobvious The power shown is not just 10 newton.Certainly, greens seller's electronic scale makes reading be converted to kilogram by internal circuit in the market.

How example IV reaches such technique effectIt looks at：Mistake of 7 second end of mandril close to elastic material 4 Journey is exactly mandril 7 extends internally process to sleeve 8, and the radius of 7 place arc of mandril is equal to top plate second end 12 to top plate the The distance of one end 11, the radius of 8 place arc of sleeve are equal to the radius of 7 place arc of mandril, then, mandril 7 can cover It puts in, exit in cylinder 8, to elasticity of compression object 4, such as spring, or by taking spring as an example, continuing with seeing：Spring is not only Length, that is, elongation, compression can be changed axially along, it can also be perpendicular to its axial bending.It, can be in example IV Accomplish that elastic material 4 (such as spring) always applies the elastic force of vertical direction to force snesor probe 21.In other words, elastic material 4 is vertical 21 are popped one's head in force snesor, and in other words, for 4 force direction of elastic material perpendicular to force snesor probe 21, this is most basic common sense.

Those skilled in the art are it is to be understood that sleeve 8 needs to give mandril 7 certain lift area, and otherwise, mandril 7 is just beaten Calculation is stretched into inside sleeve 8, is just blocked by sleeve 8.

Those skilled in the art not allow elastic material 4 (such as spring) edge it is to be understood that should be smooth as possible in sleeve 8 Its axial direction by too many resistance.

Those skilled in the art, can be in sleeve 8 close to top plate it is to be understood that mandril 7 falls off from sleeve 8 in order to prevent A baffle for having opening is arranged in the opening at two ends 12, and top plate 1 is arranged one for preventing from gear in that one end for stretching into sleeve 8 The card of plate abjection.

Further：

The center of circle of 7 place arc of mandril and 7 first end of mandril overlap.Why this technical characteristic is not necessary technology spy SignBecause passing through some simple mechanical devices, so that it may to be converted to：7 first end of the center of circle and mandril of 7 place arc of mandril It is misaligned.So the center of circle of 7 place arc of mandril and 7 first end of mandril overlap, it is not essential features.

The center of circle of 8 place arc of sleeve and 7 first end of mandril overlap.It is not essential features, reason is same as above.

Based on example IV, there can be several measurement methods：

Length measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Determinand one end is positioned over basal plane 5 by second step, and the other end withstands top plate second end 12, and top plate second end 12 is logical Mandril 7 to be crossed to exert a force to elastic material 4, elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the length of determinand.

Sportsman's height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, sportsman's foot plate surface are placed in basal plane 5, and crown highest point withstands top plate second end 12, top plate second end 12 It being exerted a force to elastic material 4 by mandril 7, elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly sportsman's height.

Animal height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, animal foot plate surface are placed in basal plane 5, and body highest point withstands top plate second end 12, and top plate second end 12 is logical Mandril 7 to be crossed to exert a force to elastic material 4, elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly animal height.

Electrical equipment dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Electrical equipment is placed in basal plane 5 by second step, and the peak of electrical equipment withstands top plate second end 12, top plate second End 12 is exerted a force by mandril 7 to elastic material 4, and elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly electrical equipment height.

Construction material dimension measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Construction material is placed in basal plane 5 by second step, and the peak of construction material withstands top plate second end 12, top plate second End 12 is exerted a force by mandril 7 to elastic material 4, and elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of construction material.

Craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Craftwork is placed in basal plane 5 by second step, and the peak of craftwork withstands top plate second end 12, top plate second end 12 It being exerted a force to elastic material 4 by mandril 7, elastic material 4 deforms upon, and generates deformation quantity L,

Third walks, and reads the elastic force numerical value F of force snesor 2,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

Embodiment five and embodiment six

It is simple in order to draw referring to attached drawing 5,6, it gives top priority to what is the most important, section components is omitted.But based on described above, appoint What clearheaded people both knows about what component is omitted.The basal plane 5 is movement.

The movement of basal plane 5 has any benefitIt answers：It can dynamically measure, improve measurement efficiency.Object is measured in basal plane 5 On, as basal plane 5 moves, when by top plate second end 12, just have detected height or length.

Preferred embodiment：The basal plane 5 is the upper surface of transmission belt.Determinand is namely placed in the upper surface of transmission belt, is allowed Transmission belt drives.The basal plane 5 that attached drawing 5,6,7 is drawn is exactly transmission belt.

Those skilled in the art are it is to be understood that 2 position of force snesor described in all embodiment of the present invention is fixed. For the ease of dynamically measuring, for top plate 1, top plate second end 12 should be the point nearest apart from basal plane 5, and otherwise, elastic force is most The position that big position may be not present in determinand and top plate second end 12 occurs.In other words, 1 different location distance of top plate The distance of basal plane 5 is not exactly the same, and distance of the top plate second end 12 apart from basal plane 5 is nearest.Preferable scheme is that：Top plate 1 is cut Face is straight, and it is acute angle that 1 place straight line of top plate and basal plane 5, which have angle, angle, and preferably 10 degree -45 of angle is spent, further , preferably 20 degree -30 degree.

Based drive basal plane 5 can provide following measurement method：

Length measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Determinand one end is positioned over basal plane 5 by second step, and basal plane 5 drives determinand movement, determinand highest point to slip over top Plate second end 12, top plate second end 12 exert a force to elastic material 4, and elastic material 4 deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor 2 are learned：When determinand highest point slips over top plate second end 12 The numerical value of elastic force is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the length of determinand.

Sportsman's height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, player stands stand on basal plane 5, and basal plane 5 drives Athletess, sportsman crown highest point to slip over top plate Second end 12, top plate second end 12 exert a force to elastic material 4, and elastic material 4 deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor 2 are learned：When determinand highest point slips over top plate second end 12 The numerical value of elastic force is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of sportsman.

Animal height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, animal stand on basal plane 5, and basal plane 5 drives animal movement, animal bodies highest point to slip over top plate second end 12, top plate second end 12 exerts a force to elastic material 4, and elastic material 4 deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor 2 are learned：Animal bodies highest point slips over top plate second end 12 When elastic force numerical value be F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of animal.

Electrical equipment height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, electrical equipment are placed in basal plane 5, and basal plane 5 drives electrical equipment movement, electrical equipment highest point to slip over top plate Second end 12, top plate second end 12 exert a force to elastic material 4, and elastic material 4 deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor 2 are learned：Electrical equipment highest point slips over top plate second end 12 When elastic force numerical value be F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of electrical equipment.

Construction material height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, construction material are placed in basal plane 5, and basal plane 5 drives construction material movement, construction material highest point to slip over top plate Second end 12, top plate second end 12 exert a force to elastic material 4, and elastic material 4 deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor 2 are learned：Construction material highest point slips over top plate second end 12 When elastic force numerical value be F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of construction material.

Craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane 5 apart from top plate second end 12,

Second step, craftwork are placed in basal plane 5, and basal plane 5 drives craftwork movement, craftwork highest point to slip over top plate second end 12, top plate second end 12 exerts a force to elastic material 4, and elastic material 4 deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor 2 are learned：When craftwork highest point slips over top plate second end 12 The numerical value of elastic force is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

Various equivalent modifications it is to be understood that when using such method come when measurement, used power sensing Device 2 cannot only show the sensor of instantaneous elastic force numerical value, and to select to show the force snesor 2 of F-t images.

From F-t images, the numerical value of elastic force when determinand highest point slips over top plate second end 12 is found, is people in the art The technical ability that member should grasp.It is that 4 deformation of elastic material changes maximum position, many force snesors 2 have because of that position It is automatically found the function of maximum value.

It is to be understood that determinand is moved with basal plane 5, the direction of motion should be about from top plate the those skilled in the art Top plate second end 12 is directed toward in one end 11, if counter motion, may be blocked by top plate second end 12.In other words, determinand The direction of motion is to be parallel to the direction that basal plane 5 is directed toward 12 place vertical plane of top plate second end from top plate first end 11.

Embodiment seven

It is the structural schematic diagram of the present invention referring to attached drawing 7.It further include sliding needle 9.Sliding needle 9 is at rod-shaped, sliding 9 one end of needle and top Plate 1 is fixedly connected, and 9 other end of sliding needle is used for contact measured object, and sliding needle 9 and top plate 1 have angle, the angle of sliding needle 9 and vertical plane More than the angle of top plate 1 and vertical plane, such benefit is available with sliding needle 9 and carrys out contact measured object, convenient for determinand in cunning 9 contact point of needle slides.And higher object can be measured, if because object is too high, top plate first end 11 may be touched, It is just blocked like that by top plate first end 11, has sliding needle 9, be equivalent to and extend top plate 1, and shorten lateral distance.

Embodiment eight

If basal plane 5 is uniform motion, moreover, elastic material 4 meets Hooke's law, then, just using the present invention It can complete trace work.WhyWhat its principle is

Illustrating by taking attached drawing 7 as an example, an object, some face has certain profile, then, which passes through top plate second When holding 12 (if there is sliding needle 9, when being exactly by sliding needle 9), the F-t image shapes and contact that force snesor 2 is described When by profile be it is similar, it is said herein it is similar do not refer to that F-t images and contour images are similar, but refer to contour images Proportionally zoom in or out, it is just completely consistent with F-t images, that is to say, that it is said herein similar, refer to similar triangle It is similar as shape.We can be used directly to the F-t images that force snesor 2 obtains to indicate contour images to be measured.

The basal plane 5 of uniform motion, means, in F-t images, length ratio represented by t axis, and and base parallel equal to determinand The length ratio in 5 place face of face.So can just obtain：Force snesor 2 describe F-t image shapes and contact when by wheel Exterior feature is similar.

Various equivalent modifications, which should arrive, to be known：The present invention cannot measure the profile of week, and user should be according to circumstances The present invention is selected, and outlining cannot be all brought in any face of any object.

Various equivalent modifications, which should arrive, to be known：Top plate second end 12 (or sliding needle 9) cannot be allowed to block determinand.

Various equivalent modifications, which should arrive, to be known：There is the object of discontinuous surfaces for certain, or has top plate second end 12 can not touch the object of whole tested surfaces, be that discomfort shares outlining of the present invention.

Certainly, if expecting F-t images, the force snesor 2 should be selected with the power for describing F-t image functions Sensor 2, if it is desired to the profile that export is described, that, which is preferably force snesor 2, has image export function, and image export function is not It is necessary, because people can obtain the image of 2 screen of force snesor with picture pick-up device or scanning device.

Electrical equipment profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Electrical equipment is placed in basal plane 5 by the first step, and electrical equipment waits for that the face of trace is in top, and basal plane 5, which drives, electrically to be set Standby uniform motion, electrical equipment and basal plane 5 are opposing stationary,

Second step, top plate second end 12 start to contact electrical equipment, and top plate second end 12 is rotated around top plate first end 11, bullet Property object 4 start deformation,

Third walks, and waits for trace face experience top plate second end 12, and force snesor 2 obtains F-t images,

4th step, the shape of F-t images are exactly the shape that electrical equipment waits for trace face.

Craftwork profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Craftwork is placed in basal plane 5 by the first step, and craftwork waits for that the face of trace is in top, and basal plane 5 drives craftwork at the uniform velocity Movement, craftwork and basal plane 5 are opposing stationary,

Second step, top plate second end 12 start contact process product, and top plate second end 12 is rotated around top plate first end 11, elasticity Object 4 starts deformation,

Third walks, and waits for trace face experience top plate second end 12, and force snesor 2 obtains F-t images,

4th step, the shape of F-t images are exactly the shape that craftwork waits for trace face.

Construction material profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Construction material is placed in basal plane 5 by the first step, and construction material waits for that the face of trace is in top, and basal plane 5 drives Building wood Expect uniform motion, construction material and basal plane 5 are opposing stationary,

Second step, top plate second end 12 start to contact construction material, and top plate second end 12 is rotated around top plate first end 11, bullet Property object 4 start deformation,

Third walks, and waits for trace face experience top plate second end 12, and force snesor 2 obtains F-t images,

4th step, the shape of F-t images are exactly the shape that construction material waits for trace face.

Explanation：1, wait for that the face of trace refers in top：Wait for trace facing towards top plate second end 12.

2, it explains " experience " in " waiting for trace face experience top plate second end 12 " the words, exactly passes fully through.Like being Scanner light-sensitive element passes fully through picture to be scanned, and just to have obtained picture the same, should we also say that, scanner light-sensitive element Undergo picture to be scanned.

The present invention when expression method, if it is necessary, can used by device restriction.

Each embodiment of the present invention, can be applied in combination in zone of reasonableness.

Method to being arrived involved in description of the invention, used device can further limit：

The distance of top plate first end to top plate second end can be 1m.

The distance of top plate first end to top plate second end can be 1.5m.

The distance of top plate first end to top plate second end can be 2m.

The distance of top plate first end to top plate second end can be 0.5m.

The distance of top plate first end to top plate second end can be 2.5m.

The distance of top plate first end to top plate second end can be 0.5-1m.

The distance of top plate first end to top plate second end can be 1-2m.

The distance of top plate first end to top plate second end can be 0.5-2.5m.

The present invention has the advantages that simple in structure.

Claims (4)

1. based on the length measuring instrument of power electricity conversion sensor, including force snesor, for the bullet to force snesor probe force Property object, the elastic material, stress and its deformation quantity have one-to-one relationship, it is characterized in that：Top plate first end is hinged, top plate Second end is used to apply elastic force to elastic material, and when top plate is in different location, top plate exerts a force to elastic material different.

2. the length measurement method based on length measuring instrument, it is characterized in that：

The length measuring instrument, including force snesor, the elastic material for exerting a force to force snesor probe, the elastic material, Stress has one-to-one relationship with its deformation quantity, and top plate first end is hinged, and top plate second end is used to apply elastic force to elastic material, When top plate is in different location, top plate exerts a force to elastic material different；

It is characterized in that：

The measuring process of the method includes：

The first step learns distance L1 of the basal plane apart from top plate second end,

Determinand one end is positioned over basal plane by second step, and basal plane drives determinand movement, determinand highest point to slip over top plate second End, top plate second end are exerted a force by mandril to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：Elastic force when determinand highest point slips over top plate second end Numerical value is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add L1 acquired results to be exactly the length of determinand.

3. craftwork height measurement method, it is characterized in that：

The measuring process of the method includes：

The first step learns distance S of the basal plane apart from top plate second end,

Second step, craftwork are placed in basal plane, and basal plane drives craftwork movement, craftwork highest point to slip over top plate second end, top plate Second end exerts a force to elastic material, and elastic material deforms upon, and it is L to generate maximum deformation quantity,

Third walks, and the F-t images obtained according to force snesor are learned：Elastic force when craftwork highest point slips over top plate second end Numerical value is F,

4th step has one-to-one relationship according to elastic force numerical value F and deformation quantity L, learns the numerical value of L,

5th step, L add S acquired results to be exactly the height of craftwork.

4. electrical equipment profile tracking method, it is characterized in that：

It the described method comprises the following steps：

Electrical equipment is placed in basal plane by the first step, and electrical equipment waits for that the face of trace is in top, and basal plane drives electrical equipment at the uniform velocity Movement, electrical equipment and basal plane are opposing stationary,

Second step, top plate second end start to contact electrical equipment, and top plate second end is rotated around top plate first end, and elastic material starts shape Become,

Third walks, and waits for that trace face undergoes top plate second end, and force snesor obtains F-t images,

4th step, the shape of F-t images are exactly the shape that electrical equipment waits for trace face.