JP3549132B2 - Strain gauge with protector - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a strain gauge with a protector, and more particularly, to a strain gauge with a protector that is useful to be attached to an object to be measured in a severe environment.
[0002]
[Prior art]
In order to measure the loading weight of a vehicle such as a truck, a strain gauge is attached to the driven wheel shaft of the vehicle, or attached to a gear case that covers a differential gear unit connected to the drive wheel shaft, and the strain gauge is used. The own weight of the vehicle is obtained based on the obtained strain detection output. In this case, the surrounding environment of the strain gauge to be fixed is exposed to wind and rain, is in a high temperature state, is in a state where muddy water or oil is attached thereto, and foreign matter such as dust and pebbles is not allowed. The strain gauge is protected by a protector because it may be hit from a road surface and collide.
[0003]
As a specific example, there is a strain gauge with a protector described in Japanese Patent Publication No. 57-39362 filed by the present applicant.
That is, as shown in FIG. 12 showing a substantially half-section of this protector-equipped strain gauge and FIG. 13 showing a cutaway view of the upper surface thereof, a hard protective outer casing 1 is made of cast iron or a cast material such as zinc, aluminum or the like. Alternatively, it is formed by die casting, and an inlet 2 for a lead wire cord 3 such as a cabtire cord is provided at one end.
[0004]
The bottom surface of the outer casing 1 has a flat portion except for a lower portion of the hollow portion 5 provided in the center portion and a portion except for protruding portions of flanges 16 and 17 described later, and a packing 4 is attached to the flat portion. Is being worn. A pressing member 6 formed of a synthetic rubber block cut out of a neoprene sheet is disposed at the center of the hollow portion 5.
A strain gauge element 7 is adhered to the lower surface of the pressing member 6, and each element of the strain gauge element 7 is guided to a terminal 9 by means such as a ribbon wire 8, and a desired bridge circuit can be formed. It is connected to the core wire 10 of the line cord 3.
[0005]
The lead wire cord 3 is fixed to the outer casing 1 by a fastening nut 11 with a guiding hole, and is located between the tip of the fastening nut 11 with the guiding hole and the bottom surface of the inlet 2 of the outer casing 1. The watertight state is maintained by the ring 12.
When such an arrangement is completed, the periphery of the terminal 9 and the periphery of the pressing member 6 are fixed inside the cavity 5 by a filler 5a such as a synthetic rubber softer than the pressing member 6 such as silicone rubber or vulcanized synthetic rubber. Then, fixing without special consideration such as screws is performed, and a moisture-proof and dust-proof structure can be obtained.
[0006]
The filling with the filler 5a does not completely fill the hollow portion 5, leaving a certain amount of vacant space, and it is more convenient to provide a relief against deformation during pressurization. However, it is natural that the filling with the filler 5a is performed so as to cover and cover portions requiring moisture proof, such as the terminal 9 and the tip of the core wire 10 of the lead wire.
Further, flanges 16 and 17 projecting from both sides in the longitudinal direction of the outer casing 1 are provided, and the lower surfaces of the flanges 16 and 17 have a thickness such that the lower surface of the packing 4 in a free state slightly projects. Is formed.
[0007]
The protruding dimension is fixed to the surface to be measured by a fixing screw through fixing screw insertion holes 18 and 19 formed in the flanges 16 and 17, and when the bottom surface is almost in contact with the surface to be measured, the pressing member 6 Is pressed to apply an optimal pressing force to the strain gauge 7. The thickness of the pressing member 6 and the thickness of the packing 4 are selected so that, in a free state before the outer casing 1 is attached to the surface to be measured, the gauge element 7 projects slightly below the surface where the gauge element 7 is attached to the object to be measured. Have been.
[0008]
Accordingly, when the outer casing 1 is fixed to the object to be measured, a fixed pressing force specified by the material and thickness of the packing 4 is applied by fixing the protruding surfaces of the flanges 16 and 17 to the object to be measured. In this state, the strain gauge element 7 is sealed in a state surrounding the periphery thereof. The strain gauge element 7 is given a pressing force of a certain value specified by the material and thickness of the pressing member 6, and the strain gauge element 7 is fixed. At this time, even if there is a slight change in the tightening force of the outer casing 1 with respect to the object to be measured, the pressing force on the strain gauge element 7 maintains the above-described constant value, An accurate measurement can be performed.
[0009]
[Problems to be solved by the invention]
The conventional strain gauge with a protector can meet a certain demand, but cannot meet a special demand.
That is, the first problem is that since the outer casing of the conventional strain gauge with protector is made of die-casting or the like, the price becomes high, and it is not possible to respond to the recent demand for strict price reduction. .
[0010]
The second problem is that, in the conventional strain gauge with a protector, since the connection lead for connecting the gauge element of the strain gauge and the core wire of the connection cord is merely covered with the filler, a large vibration is generated. If the strain gauge with the protector is used in an environment that frequently occurs, the covered connection lead causes fatigue failure due to its vibration, and its cross section gradually decreases, and in the worst case, There is a risk of being cut.
[0011]
Also, the core wire of the connection cord has the same problem as the above-described connection lead. In addition, since the connection lead and the core portion of the connection cord are filled and covered in the free state, a tensile force is applied to the connection lead when the strain gauge with the protector is attached and fixed to the object to be measured, resulting in a measurement error. May occur, and in an extreme case, the connection lead may be broken. Also, there is a similar fear in the core portion of the connection cord.
[0012]
The third problem is that the outer casing of the strain gauge with a protector is entirely made of a thick-walled die-cast or the like, which increases the weight of the outer casing. Is increased, and depending on the object to be measured, the component of the moment of inertia gives a measurement error to the original measured value, so that the measurement accuracy may be deteriorated.
[0013]
Further, the fourth problem is that, in the conventional strain gauge with protector, since the flange portion to be attached to the object to be measured is thick and extends around the periphery, the entire apparatus becomes large, and the mounting space becomes large. And the weight may increase. In addition, if the overall apparatus is to be miniaturized, the flange width becomes narrow, and the efficiency of tightening bolts and nuts for attaching to an object to be measured is significantly impaired. In addition, since the flange portion has a vertically rising main body adjacent thereto, a work space for inserting a bolt through the mounting hole of the flange portion and tightening the nut is extremely narrow, and work efficiency is significantly deteriorated. That is.
[0014]
The fifth problem is that in a conventional strain gauge with a protector, the direction in which the gauge lead for connecting the gauge element of the strain gauge and the core wire of the connection cord is pulled out is limited to one direction. Specially designed so that each connection lead can be projected in one direction by bending the gauge tab to form a long film pattern because the connection lead can not be handled as it is in multiple directions like the gauge element of The gauge pattern must be made. In this case, the size of the gauge base increases, and the price increases significantly.
[0015]
The sixth problem is that, in a conventional strain gauge with a protector, a double-sided tape or the like is stuck to the element forming surface of the strain gauge and is temporarily fixed to an elastic member, and is actually attached to an object to be measured. When the liquid adhesive is applied to the gauge base of the strain gauge and pressed against the surface to be measured of the object to be measured, the adhesive flows out to the surroundings, penetrates into the packing surface, and the sealing performance of the box body. That is,
[0016]
A seventh problem is that, in the conventional strain gauge with protector, a watertight clamp structure of a cable for transmitting a strain detection output to an external device is provided with a tightening nut with a guide hole, an O-ring, etc. There are drawbacks in that relatively expensive parts are used, the assembling work is complicated, and the entire structure is enlarged.
[0017]
Therefore, the present invention has been made in view of the above-described circumstances, and a first object of the present invention is to provide a gage element of a strain gage and a core wire of a connection cord even when a strain gage with a protector is used under a large vibration environment. Strain with a protector that does not cause fatigue failure due to vibration in the gauge lead or the core wire of the connection cord that connects the To provide a gauge.
[0018]
A second object of the present invention is to provide a protector-equipped strain gauge that can meet the recent demand for strict price reduction.
Further, a third object of the present invention is to provide a strain gauge with a protector which reduces the total weight, reduces the value of the moment of inertia, increases the vibration resistance, reduces the measurement error, and withstands an external impact. To provide.
[0019]
Further, a fourth object of the present invention is that a gauge lead for connecting a gauge element of a strain gauge and a core wire of a connection cord may be drawn in any direction, and is generally used. It is an object of the present invention to provide a protector-equipped strain gage that can be used with any kind of strain gage and does not reduce accuracy.
[0020]
A fifth object of the present invention is to reduce the size of the entire device of the strain gauge with a protector, and to increase the degree of freedom in tightening bolts and nuts for attaching to the object to be measured, thereby significantly improving work efficiency. An object of the present invention is to provide a strain gauge with a protector.
Further, a sixth object of the present invention is to provide a strain gauge with a protector having a very high moisture-proof property while having a simple and inexpensive configuration.
[0021]
A seventh object of the present invention is to provide a method for applying a liquid adhesive to a gauge base of the strain gauge and pressing the strain gauge against a measured surface of the measured object when the strain gauge is actually attached to the measured object. Furthermore, even if the adhesive flows out to the surroundings, it does not penetrate into the seal member in the vicinity and impair the sealing characteristics, and on the contrary, prevents the seal member from entering the gauge base side of the strain gauge. It is another object of the present invention to provide a protector-equipped strain gauge capable of exhibiting extremely high moisture resistance.
[0022]
An eighth object of the present invention is to provide a watertight clamp structure for a cable for transmitting a strain detection output to an external device, which does not use relatively expensive parts, and which is easy to assemble, and has an overall structure. It is an object of the present invention to provide a protector-equipped strain gauge capable of reducing the size of the device.
[0023]
[Means for Solving the Problems]
The invention according to claim 1 is a method according to claim 1,7In order to achieve the purpose of, in a strain gauge with a protector that can be covered with a protector around the object to be measured while being attached to the object to be measured,
A multi-core cable for transmitting the strain detection output of the strain gauge to an external electric measuring instrument, and a plurality of terminal tabs having a plurality of terminal tabs and projecting from one end of each of the terminal tabs from a terminal portion of the multi-core cable. The cable core is electrically connectedRelay terminal plate,Connected to gauge tabs provided at both ends of gauge elementGauge leadConnected to the other end of the plurality of terminal tabs of the relay terminal plate viaA strain gauge,
at leastOne end is openHas a substantially cylindrical shapeGauge storage memberWhen,
A mounting member having a mounting portion for mounting the gauge housing member on the object to be measured,
A terminal portion of the multi-core cable, the plurality of cable cores, and the relay terminal, in a state where the strain gauge is disposed so as to slightly protrude from an opening surface of the gauge storage member inside the gauge storage member. Plate, the gauge lead, and the strain gaugeElasticThe material has a gap on the inner surface side of the other end of the gauge storage member.Molded togetherMold body,
An elastic member inserted into the gap between the inner wall surface on the other end side of the gauge housing member and the upper surface of the mold body,
On the surface of the mold body housed inside the gauge housing member on which the strain gauge is provided, an annular shape is formed along the outer circumference smaller than the inner circumference of the open end of the gauge housing member so as to surround the strain gauge. A viscoelastic sealing member such as butyl rubber is filled between the annularly formed projection and the side wall of the gauge housing member.It is a feature.
[0025]
Claim2The invention described in the above, the first to the first7In order to achieve the above object, the mounting member is made of a plate material, and an intermediate portion is fixed to the other end side of the gauge housing member.ToA mounting portion having a screw insertion hole through which a fixing screw for mounting the gauge storage member to the object to be measured is extended, and a portion further extended from the mounting portion is the gauge storage member. The bent portion is bent substantially at a right angle to the opening surface side, and the tip of the bent portion is configured to have a stopper portion formed by a predetermined amount shorter by the position of the opening surface of the gauge housing member. Is what you do.
[0027]
ContractRequest3In order to achieve the above-mentioned first to seventh objects, the invention described in the above, when the seal member is filled between the protrusion and the side wall of the gauge storage member, when the gauge storage member is attached to the object to be measured An escape hole is formed in the mold body to release the compressed excess of the seal member.
[0028]
Claim4In order to achieve the above-mentioned first to seventh objects, the invention described in (1) is characterized in that the gauge housing member having a substantially rectangular cylindrical shape whose one end is opened and the other end is closed by a mounting member is multi-core on one side surface. A notch portion through which a bellows-like protection tube for covering the cable is inserted is formed, and a first protection tube guide is formed by extending a side surface adjacent to the side surface on which the notch portion is formed by a predetermined length,
The mounting member is made of a single plate, and an intermediate portion is formed as a closing lid on the other end side of the gauge storage member, extends in a direction away from the intermediate portion, and covers the gauge storage member. First and second attachment portions are respectively formed with screw insertion holes through which fixing screws for attaching to a measurement object are inserted, and further, the tip sides of the first and second attachment portions extend respectively. The first and second stopper members are provided and are bent at substantially right angles to one end side of the gauge storage member, and the length of the bent portion is set slightly shorter than the length of the gauge storage member. A second protection tube guide is formed by cutting out a portion where the protection tube is inserted into one of the first and second stopper members.
[0029]
[Action]
The strain gauge with a protector configured as described above is suitable as a strain detector for a self-weight meter installed on a truck or the like.For example, a strain gauge is applied to an object to be measured such as a differential gear case or a vehicle front axle. In addition to effectively functioning to attach the gauge, the circumference of the attached strain gauge is covered with a protector so that it can be protected from dust, moisture, stepping stones and the like.
[0030]
This strain gauge with a protector is a strain gauge arranged in a substantially cylindrical gauge housing member having one end opened and the other end closed by a mounting member so as to slightly protrude from the opening end surface of the one end. And a gauge lead having one end connected to the gauge tab of the strain gauge, a relay terminal plate connected to the other end of the gauge lead, and a distal end of the multi-core cable having a distal end connected to the relay terminal plate. Each is housed, and by integrally molding with a mold material having a predetermined elasticity in a state where an elastic member is inserted between the gauge housing member and the closed side inner end surface, the dustproof function, the moistureproof function, and the In addition to fulfilling the protective function, it also functions to prevent disconnection accidents.
[0031]
That is, the periphery of the strain gauge is guarded by a gauge housing member and a mounting member, and the opening of the gauge housing member is covered with a mold material, so that moisture resistance, dust resistance, water resistance, oil resistance, impact resistance, etc. Also, since the gauge lead in a very weak state is integrally molded with the above-mentioned molding material, no accident such as cutting occurs.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 to 3 show the appearance of a strain gauge with a protector showing one embodiment of the present invention. FIG. 1 is a plan view, FIG. 2 is a bottom view, and FIG. 3 is a right side view. The multi-core cable 22 connected to the main body 21 of the protector-equipped strain gauge 100 is for transmitting the strain gage output to an external measuring instrument such as a strain gauge (not shown). A connector for electrical connection to an external measuring instrument is connected, and a bellows-shaped flexible protective tube 23 is put on the other terminal part, and the terminal part is connected to the main body part 21 in a waterproof and dustproof watertight state.
[0033]
In this multi-core cable 22, a shield conductor is housed in a sheath having heat resistance and oil resistance, and four or six core wires are housed therein. The protective tube 23 covering the other end of the multi-core cable 22 is a corrugated tube having heat resistance, oil resistance, pressure resistance, and vibration resistance, and having good familiarity with a sealant such as butyl rubber. The multi-core cable 22 is formed to soften the external vibration or impact without directly applying the multi-core cable 22 or to increase the bending radius at the root when the multi-core cable 22 is moved to prevent the cable breakage. .
[0034]
In addition, the exploded perspective view shown in FIG. 4 and the part A of the main body 21 shown in FIG. 3 are cut away and enlarged to project from the end of the multi-core cable 22 covered with the protective tube 23 as shown in FIG. The base portion of the cable core wire 24 is provided with a sealing portion 23A which has been subjected to a sealing treatment with a suitable adhesive or a sealing material such as butyl rubber to be in a water-tight state, and a plurality (4 in this example) protruding from the sealing portion 23A. The respective ends of the cable core wires 24 are connected by soldering to a plurality (six in this example) of terminal tabs 26 patterned as a conductor film on the relay terminal plate 25.
[0035]
The strain gauge 27 has a strain gauge 27 for detecting the strain generated in the object to be measured. The polyimide thin plate forming the base of the strain gauge 27 is thin-filmed with, for example, a copper-nickel alloy or a nickel-chromium alloy. At both ends of the formed gauge element 28 (see FIG. 2), a gauge tab 29 (see FIG. 5) integrally formed of the same material as the gauge element 28 in a thin film is provided with a gauge lead 30 (FIGS. 8 is electrically connected, and the other end of the gauge lead 30 is connected to a plurality of terminal tabs 26 of the relay terminal plate 25, respectively.
[0036]
Reference numeral 31 denotes a gauge storage member, which is formed in a tubular shape (square tubular shape) having an open end face 31A at one end. As shown in FIG. 4, the gauge housing member 31 is formed by bending a belt-like stainless steel (for example, SUS304) into a substantially rectangular shape. However, only one of the four sides is extended to form a surplus portion 31D, and a side adjacent to this side is formed with a cutout portion 31B slightly larger than the diameter of the protective tube 23 described above. The end of the protection tube 23 is located in the notch 31B, and the side surface is guided by the extra length 31D. Further, the mold body 32 is housed inside the opening end face 31A of the gauge housing member 31.
[0037]
The manufacture of the mold body 32 is performed as follows using a mold jig (not shown).
First, a cable core wire 24 protruding from the end of the multi-core cable 22 is soldered to one end of a terminal tab 26 of the relay terminal plate 25, and a gauge lead 30 of a strain gauge 27 is soldered to the other end of the terminal tab 26, Foreign substances such as flux adhering to these solder connection portions are cleaned.
[0038]
Thereafter, the strain gauge 27 is temporarily fixed with a double-sided adhesive tape at a predetermined portion of the jig such that the gauge base slightly protrudes from the opening end face 31A of the gauge housing member 31. Portion, that is, the sealing portion 23A of the protective tube 23 is temporarily fixed to the cutout portion 31B of the gauge housing member 31 by the clamp member, and the relay terminal plate 25 to which the plurality of cable core wires 24 are connected is placed on the upper part of the strain gauge 27. To be located at At this time, the gauge lead 30 located between the strain gauge 27 and the relay terminal plate 25 is provided with an S-shaped loose margin for preventing cutting.
[0039]
Also, the protrusions 32A having a triangular cross section formed in an annular shape over the outer periphery smaller than the outer periphery of the opening end surface 31A of the gauge housing member 31 are formed on the surface on which the strain gauge 27 is provided. A tool is provided, and a surrounding space 31C, which is lower, is formed around the protrusion 32A. In addition, a relief hole 32B is formed in the upper part of the surrounding space 31C so as to be drilled on the inner wall side of the intermediate portion 33A of the mounting member 33. The surrounding space 31C will be filled later with a sealing member 36 having a high viscoelasticity, such as butyl rubber, between the protrusion 32A and the inner side wall of the gauge housing member 31. The surplus at that time is led to the escape hole 32B.
[0040]
The elastic member 37 located on the upper part of the mold body 32 is temporarily fixed with, for example, a double-sided adhesive tape in a state where the elastic member 37 is applied to the inner wall of the intermediate portion 33A of the mounting member 33 by a jig.
As described above, the strain gauge 27, the relay terminal plate 25, the cable core wire 24, the protection tube 23, the seal portion 23A, the gauge lead 30, the elastic member 37, and the like are temporarily fixed inside the gauge housing member 31 by a mold jig (not shown). In this state, the epoxy resin is filled from the filling port 34.
[0041]
When the filling liquid level is filled to a position substantially equal to the lower surface of the elastic member 37, the strain gauge 27 is arranged inside the gauge storage member 31 so as to slightly protrude from the opening surface 31 </ b> A of the gauge storage member 31. The terminal portion of the core cable 22, the plurality of cable core wires 24, the relay terminal plate 25, the gauge leads 30, and the strain gauges 27 are formed with a material having predetermined elasticity, for example, an epoxy resin in the opening in the gauge housing member 31. A mold body 32 integrally molded with a gap on the side opposite to the surface 31A is formed.
[0042]
Further, in the molded body 32, an elastic member 37 made of cylindrical silicon rubber is provided in a gap portion 31 </ b> C between the inner wall surface of the intermediate portion 33 </ b> A of the mounting member 33 and the upper surface of the molded body 32. It is inserted in a state in which it coincides with the central axis. Further, the seal member 36 is filled between the protrusion 32A and the side wall of the gauge housing member 31, and the escape hole 32B for releasing the compressed seal member 36 when the gauge housing member 31 is attached to the object to be measured. Is formed on the mold body 32.
After a predetermined amount of the filler is filled from the filling port 34, the filling port 34 is closed by the nameplate 33F.
[0043]
Next, details of the mounting member 33 will be described. The attachment member 33 is formed by bending a stainless steel (SUS304) band-shaped plate similar to the material of the above-described gauge storage member 31 at each of its longitudinal ends, and is provided on the back surface of the intermediate portion 33A. The side opposite to the opening end surface 31A of the gauge housing member 31 (the upper surface side in FIG. 4) is temporarily fixed by spot welding in a state of contact with the gauge housing member 31, and then the joint surfaces of both are welded by nickel brazing means. And fix it. Attachments 33B and 33B for attaching the gauge housing member to the object to be measured are formed so as to extend from the intermediate portion 33A in directions different from each other.
[0044]
In addition, it has two screw insertion holes 35, 35 through which stud bolts 51 for attaching the gauge housing member 31 to the object to be measured are inserted, and extends to the mounting portions 33B, 33B to open the gauge housing member 31. It has two stopper portions 33C and 33D that are bent at a substantially right angle to the surface 31A side, and whose distal end of the bent portion is slightly shorter than the position of the opening end surface 31A of the gauge housing member. The stopper portion 33D of the two stopper portions 33C and 33D has a cut-out portion corresponding to the protection tube 23 of the multi-core cable 22. The cut-out portion 33E and the extra-length portion 31D of the gauge housing member 31 are notched. The protection tube 23 of the multi-core cable 22 is guided by the first protection tube guide in the enclosed portion.
[0045]
When the strain gauge 100 with the protector as described above is attached to the object 50 to be measured, an appropriate amount of an adhesive is applied to the gauge base of the strain gauge 27, and the two gauges that are erected and fixed to the object 50 to be measured. Each of the stud bolts 51 is passed through the screw insertion hole 35, a flat washer 52 and a spring washer 53 are positioned above the stud bolt 51, and tightened with a nut 54.
[0046]
The tightening torque at this time is set by setting a torque wrench to, for example, 80 kg · cm, and by tightening at this set value, the pressing force of the strain gauge 27 becomes 3 kg / cm.²  Automatically.
That is, the fastening stops when the opening surface 31A of the gauge housing member 31 comes into contact with the surface to be measured by this tightening, whereby the strain gauge 27 protruding from the opening surface 31A is pushed into the inside thereof. On the other hand, pressure is generated. This pressing force can be adjusted by presetting the resin filling amount of the mold body 32 and the protrusion dimension from the opening surface 31A.
[0047]
In this example, the elastic member 37 is interposed so as to generate a pressing force in the direction from the center of the strain gauge 27 to the outside so that the pressing force is applied to the axis of the strain gauge 27. An extra part of the adhesive applied to the gauge base will be pushed outward. The extruded adhesive does not leak to the seal member 36 because the protrusions 32A are sealed to the surface of the measured object 50 in a pressed state.
[0048]
Further, the sealing member 36 is compressed by fastening and fixing the gauge housing member 31, but the compressed portion does not leak to the strain gauge 27 side due to the presence of the projection ridge 32A, and furthermore, due to the presence of the escape hole 32B. Since it is guided to the escape hole 32B, it is possible to prevent the strain gauge 27 from being pushed upward during pressurization and causing poor adhesion.
[0049]
By the way, when the tightening of the predetermined torque is completed by the nut 54, it stops when the outer frame portion of the opening surface 31A of the gauge housing member 31 comes into contact with the surface to be measured, and each of the stopper portion 33C and the stopper portion 33D. The tip is slightly away from the measurement surface of the object 50 (for example, 1.5 mm). When the tightening torque increases for some reason, the respective ends of the stopper portion 33C and the stopper portion 33D come into contact with the object 50 to be measured. The members such as the gauge storage member 31 can be protected.
[0050]
Therefore, in the above-described embodiment of the present invention, since the strain gauge with the protector forms the main body portion 21 including the gauge storage member 31 and the attachment member 33 by bending a band-shaped plate, the material cost is reduced. Is not only low, but also the processing cost is low, so that the cost can be significantly reduced as compared with the conventional casting type or die casting type.
[0051]
Further, even when a strain gauge with a protector is used in a large vibration environment, all of the gauge lead 30 for connecting the gauge element 28 of the strain gauge 27 to the cable core 24 and the cable core 24 of the multi-core cable 22 are completely removed. Since the molded body 32 is integrated by being filled and filled with the filler, fatigue accumulates in the gauge lead 30 due to vibration, causing a disconnection accident, or an error component is mixed in the detection output of the strain gauge 27. In addition, since there is no gap and the cavity 31C exists above the mold body 32 in the gauge housing member 31, the mold body 32 is fixed only at the outer periphery, and the middle part can be flexed freely. Even in the state where excessive stress is applied to the member, the escape is performed, so that each member is not adversely affected.
[0052]
Also, since the main body 21 is formed by bending the band-shaped plate material to form the gauge storage member 31 and the attachment member 33, the overall weight can be reduced as compared with die casting or casting. Accordingly, the value of the moment of inertia becomes extremely small, so that the vibration resistance is improved, and a highly accurate strain measurement can be performed even under vibration.
Further, the stud bolt 51, which is a member for attaching and fixing the strain gauge 27 to the object 50 to be measured, is located on the flat upper surface of the main body 21, so that there is no member that restricts the working space in the vicinity, so tightening is performed. Work space for work can be widened, and work efficiency can be improved.
[0053]
Further, the direction in which the gauge lead 30 of the strain gauge 27 is pulled out is not limited to one direction as in the related art, but may be any direction. Therefore, any commercially available strain gauge can be used.
In addition, when the strain gauge 27 is actually attached to the object 50 to be measured, a liquid adhesive is applied to the gauge base of the strain gauge 27 and pressed against the surface to be measured of the object to be measured. Does not penetrate into the vicinity of the seal member 36 and impair the sealing characteristics, and conversely, the seal member 36 penetrates into the gauge base side of the strain gage and adheres to the strain gage. And adversely affect creep characteristics and the like.
[0054]
As a specific example of the measured object 50 to which the strain gauge with a protector is attached, as shown in FIG. 9, a side portion of a differential gear portion 56 driven by a drive shaft (a so-called propeller shaft) 55 of the vehicle has a loading weight. Focusing on the fact that it has the property of being elastically deformed in accordance with the condition, two stud bolts 51 are erected and fixed on the front part of the gear case of the differential gear portion 56, If the main body 21 is fixed to the differential gear portion 56 by inserting the nut 35 into the differential gear portion 56 (not shown in FIG. 9), the strain generated in the differential gear portion 56, that is, the shear strain (bending) corresponding to the weight of the vehicle. The weight of the vehicle can be measured by detecting the same as described above.
[0055]
Further, in the main body portion 21 of the strain gauge with a protector fixed to the differential gear portion 56, there is a large possibility that foreign substances such as mud, sand, and pebbles are jumped up from a traveling road surface and these hit the strain gauge with a protector. Even in such a bad environment, since the strain gauge 27 is guarded by the gauge housing member 31 and the attachment member 33, no breakage accident occurs.
[0056]
As described above, the main body 21 of the strain gauge with a protector is attached to and fixed to the object to be measured, as described above, in addition to the mode in which the stud bolt 51 is implanted and fixed to the object to be measured, as shown in FIG. May be fixed using a clamp band 58 made of a stainless steel band. This method is effective when stud bolts cannot be welded. That is, in this example, the strain (shear strain or bending strain) of the front shaft portion 57 of the vehicle has a property of being elastically deformed according to the loaded weight. The weight of the vehicle can be measured.
[0057]
That is, the main body 21 is positioned at a predetermined position of the front shaft portion 57, the clamp band 58 is positioned at the screw insertion hole 35, and a predetermined tightening force is applied by winding the clamp band 58 by the tightening portion 59. In the same manner as described above, the strain gauge 27 (not shown in FIG. 10) can be adhesively fixed to the surface to be measured of the front shaft portion 57 with a predetermined pressing force.
[0058]
Note that the various embodiments of the present invention described so far show examples in which the surface to be measured of the object to be measured is a flat surface. However, as shown in FIG. The present invention can also be applied to a case where the measured surface of the target object 60 is a convex surface.
That is, when two stud bolts 51 are planted in the longitudinal direction of the measured object 60, the main body 21 is attached thereto, and tightened by the nuts 54 as described above, the opening surface 31A of the gauge housing member 31 is closed. Of the four sides to be formed, the center of two sides perpendicular to the longitudinal direction of the measured object 60 abuts on the outer surface of the measured object 60, and is perpendicular to the longitudinal direction of the measured object 60. The two stoppers 33C and 33D are fixed in a state where they are slightly raised from the peripheral surface of the measured object 60.
[0059]
However, since the strain gauge 27 is integrally molded as a molded body 32 and the pressing force of the elastic member 37 is applied in the central axis direction of the strain gauge 27, the gauge base of the strain gauge 27 is Since the adhesive is attached to the object 60 in close contact with the convex surface, a stable strain output can be obtained. Incidentally, the curvature R of the convex surface can be stably fixed to 100 mm when the entire shape of the mounting member 33 is 30 mm wide and 55 mm long.
[0060]
It is to be noted that the present invention is not limited to the above-described and exemplified embodiments, and it is needless to say that various modified embodiments may be made without departing from the scope of the invention. For example, the shape of the gauge housing member is a rectangular tube shape, but may be a cylindrical shape or an elliptical cylindrical shape, and any shape can be adopted.
Further, the stopper portions 33C and 33D provided in the longitudinal direction of the mounting member 33 additionally have a function of guarding foreign substances, but this guard portion is also formed in a direction orthogonal to the longitudinal direction. Alternatively, it may be formed only in a direction orthogonal to the longitudinal direction.
[0061]
In addition, the attachment member 33 is provided as a separate member with respect to the gauge storage member 31 and is integrated by spot welding, brazing, or the like. However, the gauge storage member may be integrated with the attachment member. .
The means for forming the molded body is completely arbitrary. In short, a connection member including a strain gauge, a gauge tab, a gauge lead, a multi-core cable, a cable core, a relay terminal plate, a terminal tab, and the like is provided with a predetermined electric power. What is necessary is just to cover the whole in the state where it was connected and the predetermined positional relationship was maintained.
[0062]
In addition, in the above-described embodiment, the mounting of the strain gauge with the protector on the object to be measured is performed by implanting a stud bolt on the object to be measured and fixing it with a nut. An internal thread may be formed on the object, and the main body may be fixed to the internal thread via a bolt. Depending on the mode of the object to be measured, the bolt may be fixed to the main body and the side of the object to be measured may be fixed. Alternatively, it may be fixed with a nut.
[0063]
【The invention's effect】
As is apparent from the above description, according to the present invention,In a strain gage with a protector that can be covered with a protector in a state of being attached to an object to be measured,
A multi-core cable for transmitting the strain detection output of the strain gauge to an external electric measuring instrument, and a plurality of terminal tabs having a plurality of terminal tabs and projecting from one end of each of the terminal tabs from a terminal portion of the multi-core cable. A relay terminal plate to which the cable core wire is electrically connected, and a strain gauge connected to the other ends of the plurality of terminal tabs of the relay terminal plate via gauge leads connected to gauge tabs provided at both ends of the gauge element,
A gauge storage member having a substantially cylindrical shape with at least one end opened,
A mounting member having a mounting portion for mounting the gauge housing member on the object to be measured,
A terminal portion of the multi-core cable, the plurality of cable cores, and the relay terminal, in a state where the strain gauge is disposed so as to slightly protrude from an opening surface of the gauge storage member inside the gauge storage member. Plate, the gauge lead, and the strain gauge, a molded body integrally molded with a gap on the inner surface side of the other end of the gauge housing member with a material having predetermined elasticity,
An elastic member inserted into the gap between the inner wall surface on the other end side of the gauge housing member and the upper surface of the mold body,
On the surface of the mold body housed inside the gauge housing member on which the strain gauge is provided, an annular shape is formed along the outer circumference smaller than the inner circumference of the open end of the gauge housing member so as to surround the strain gauge. Since it is configured such that a sealing member having high viscoelasticity such as butyl rubber is filled between the annularly formed projection and the side wall of the gauge housing member,First, it is used in a large vibration environment, and even if the gauge lead or core wire is subjected to vibration, it will not break due to fatigue, and the gauge lead or lead wire may be inadvertently pulled when installing the strain gauge. There is no danger of breaking the wire, and furthermore, since it is guarded by the molded strain gauge and the connection member gauge storage member, foreign matter such as mud, sand, pebbles, etc. hits like a self-weight meter, for example. It is possible to provide a protector-equipped strain gauge which does not cause breakage or failure even when used in such a severe environment.
[0064]
Secondly, the strain gauge is molded with an elastic mold together with the gauge lead and the tip of the multi-core cable of the relay terminal board in a state that the strain gauge slightly protrudes from the opening end face on one end side of the gauge housing member. Since an elastic member is interposed between the gauge housing member and the closed inner end surface, when the strain gauge is attached to the object to be measured using an adhesive, a certain pressing force is applied to the adhesive surface of the strain gauge. Since the adhesive is cured in a state where pressure is applied, it is possible to provide a strain gauge with a protector that can stably and surely attach the strain gauge to an object to be measured.
[0065]
Third, a mounting member for fixing the gauge housing member to the object to be measured is formed of a plate member, and an intermediate portion is fixed to the other end side (opposite to the opening end) of the gauge housing member. Since the mounting portion is formed by extending from the portion in different directions to form a mounting portion, and a screw insertion hole through which a fixing screw is inserted is formed in the mounting portion, a nut is screwed into the fixing screw when tightening. It is possible to provide a strain gauge with a protector that has a large work space and can easily and quickly perform a tightening operation.
[0066]
Fourthly, stopper portions formed at both ends of the mounting portion of the mounting member at substantially right angles to the opening end surface side of the gauge housing member, and having the bent portion formed by a predetermined length shorter than the opening end surface by a predetermined amount. Since the stopper is provided, if the nut screwed into the fixing screw is inadvertently tightened too much, the stopper will contact the object to be measured and play the role of the stopper, so that a strain with a protector that can prevent excessive tightening Gauges can be provided.
[0067]
Fifth, since the gauge housing member and the mounting member are both formed of a thin strip, they can be made lightweight and inexpensive and small in size, so that even when measuring strain under vibration, Since the strain gauge with a protector is lightweight and can keep the moment of inertia small, it is possible to provide a strain gauge with a protector with good vibration resistance, which is substantially unaffected by the strain gauge installation.
[0068]
Sixth, since the gauge lead is molded integrally with the strain gauge, any strain gauge can be used since there is no restriction on the direction in which the gauge lead connected to the gauge tab can be pulled out. It is possible to provide a strain gauge with a protector that is highly versatile and extremely advantageous in terms of cost and accuracy as compared with a gauge in which only a specific strain gauge can be used.
[0069]
Seventh, since a projection having a triangular cross section formed in an annular shape so as to surround the strain gauge is formed on the surface on which the strain gauge is provided, a liquid adhesive is applied to the gauge base of the strain gauge to cover it. When the adhesive flows to the surroundings when pressed against the surface to be measured of the measurement object, the adhesive is blocked by the protrusions, and does not flow out to the seal member in the vicinity to impair the sealing characteristics. The strip can prevent the seal member from entering the gauge base side of the strain gauge, appropriately prevent the adhesion from being hindered, and provide a strain gauge with a protector that can exhibit extremely high moisture resistance. .
[Brief description of the drawings]
FIG. 1 is a plan view showing the appearance of a strain gauge with a protector according to an embodiment of the present invention.
FIG. 2 is a bottom view showing the appearance of a strain gauge with a protector according to one embodiment of the present invention.
FIG. 3 is a right side view showing an appearance of a strain gauge with a protector according to one embodiment of the present invention.
FIG. 4 is an exploded perspective view of a main part of a strain gauge with a protector according to one embodiment of the present invention.
FIG. 5 is an enlarged view showing a part of the strain gauge with a protector shown in FIG.
FIG. 6 is an enlarged rear view showing a back surface of the strain gauge with a protector according to the embodiment of the present invention.
FIG. 7 is an enlarged plan view showing a main body of the strain gauge with a protector shown in FIG. 1;
FIG. 8 is an enlarged front view showing a main body of the strain gauge with a protector shown in FIG. 3;
FIG. 9 is a perspective view showing an example of a mounting mode of a strain gauge with a protector according to one embodiment of the present invention.
FIG. 10 is a perspective view showing another example of a mounting mode of the strain gauge with a protector according to the embodiment of the present invention.
FIG. 11 is a perspective view showing an example in which the measured object of the strain gauge with a protector according to the present invention is a curved surface portion.
FIG. 12 is a vertical sectional side view showing an example of a conventional strain gauge with a protector.
FIG. 13 is a bottom view showing an example of a conventional strain gauge with a protector.
[Explanation of symbols]
21 Body
22 multi-core cable
23 Protection tube
23A Seal part
24 Cable core
25 Relay terminal board
26 Terminal tab
27 Strain gauge
28 gauge element
29 gauge tab
30 gauge lead
31 gauge storage member
31A Open end face
31B Notch
31C Surrounding space
32 Mold body
32A protrusion
32B relief hole
33 Mounting member
33A middle part
33B mounting part
33C Stopper part
33D stopper
33E Notch
33F nameplate
34 Filling port
35 Screw insertion hole
36 Sealing member
37 elastic members
50, 60 Object to be measured
51 stud bolt
52 Flat washer
53 Spring washer
54 nuts
55 Drive shaft (propeller shaft)
56 Differential gear section
57 Front shaft
58 Clamp band
59 Tightening part
100 Strain gauge with protector

Claims (4)

In a strain gage with a protector that can be covered with a protector in a state of being attached to an object to be measured,
A multi-core cable for transmitting the strain detection output of the strain gauge to an external electric measuring instrument, and a plurality of terminal tabs having a plurality of terminal tabs and projecting from one end of each of the terminal tabs from a terminal portion of the multi-core cable. A relay terminal plate to which the cable core wire is electrically connected, and a strain gauge connected to the other ends of the plurality of terminal tabs of the relay terminal plate via gauge leads connected to gauge tabs provided at both ends of the gauge element,
A gauge storage member having a substantially cylindrical shape with at least one end opened,
A mounting member having a mounting portion for mounting the gauge housing member on the object to be measured,
A terminal portion of the multi-core cable, the plurality of cable cores, and the relay terminal, in a state where the strain gauge is disposed so as to slightly protrude from an opening surface of the gauge storage member inside the gauge storage member. Plate, the gauge lead, and the strain gauge, a molded body integrally molded with a gap on the inner surface side of the other end of the gauge housing member with a material having predetermined elasticity,
An elastic member inserted into the gap between the inner wall surface on the other end side of the gauge housing member and the upper surface of the mold body,
On the surface of the mold body housed inside the gauge housing member on which the strain gauge is provided, an annular shape is formed along the outer circumference smaller than the inner circumference of the open end of the gauge housing member so as to surround the strain gauge. A strain gauge with a protector , comprising: a projection; and a sealing member having high viscoelasticity such as butyl rubber is filled between the annular projection and a sidewall of the gauge housing member . The mounting member is made of a plate material, the intermediate portion is fixed to the other end of said gauge housing member, the, respectively that of the different directions from the intermediate part, for mounting the gauge housing member to the object to be measured A mounting portion having a screw insertion hole through which the fixing screw is inserted is extended, and a portion further extended from the mounting portion is bent substantially at a right angle to the opening surface side of the gauge housing member, and the bending is performed. 2. The strain gauge with a protector according to claim 1 , wherein a tip of the portion has a stopper portion formed to be shorter by a predetermined amount depending on a position of the opening surface of the gauge housing member. The sealing member is filled between the side wall of the gauge housing member and the protrusion strip, escape holes for releasing the excess compressed the seal member when installing the gauge housing member to the measurement object The strain gauge with a protector according to claim 1 , wherein the strain gauge is formed on a molded body. The gauge housing member having a substantially rectangular cylindrical shape whose one end is opened and the other end is closed by a mounting member has a cutout formed on one side thereof, through which a bellows-like protective tube for covering the multi-core cable is inserted. A first protective tube guide is formed by extending a side surface adjacent to the side surface with the notch portion by a predetermined length,
The mounting member is made of a single plate, and an intermediate portion is formed as a closing lid on the other end side of the gauge storage member, extends in a direction away from the intermediate portion, and covers the gauge storage member. First and second attachment portions are respectively formed with screw insertion holes through which fixing screws for attaching to a measurement object are inserted, and further, the tip sides of the first and second attachment portions extend respectively. The first and second stopper members are provided and are bent at substantially right angles to one end side of the gauge storage member, and the length of the bent portion is set slightly shorter than the length of the gauge storage member. 1 and one in any one of claims 1 to 3 in which the protective tube, characterized in that the second protective tube guide cut away the portion to be inserted, which are formed of the second stopper member Strain gauge with protector described.

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