CN108106991A - A kind of fluid sealant bond strength detection device and method - Google Patents

Abstract

The invention discloses a kind of fluid sealant bond strength detection device and methods, the tie rod for being used to adhere to fluid sealant including a pair of of fixture stand and two, fixture stand is equipped with compact heap, the through hole through compact heap and fixture stand is transversely provided on compact heap, the rear end center of tie rod is equipped with the location hole being adapted to the through hole, it is equipped in through hole and the transverse axis by being equipped with, the transverse axis is through the location hole of the fixture stand and tie rod rear end, and the clinch of tie rod front end is equipped with splicing face and for limiting tie rod around the position limiting structure for being glued the rotation of face normal direction.It efficiently solve the problems, such ass that the fluid sealant lap shear strength test device of the prior art is easy to that tie rod displacement and deflection occurs and causes test data inaccurate during experiment, the structure of the detecting device of the present invention is simple, tie rod displacement and deflection are small, test data accuracy is high, has very high practical value.

Description

A kind of fluid sealant bond strength detection device and method

Technical field

The invention belongs to fluid sealant bond strength detection technique fields, are detected more particularly, to a kind of fluid sealant bond strength Device and method.

Background technology

The plastic housing of lead-acid accumulator and lead terminal sealing are required for using fluid sealant, and the bond strength of fluid sealant is that reaction is close One index of the combination power of sealing and sealing material power, the combination power that bond strength is bigger both to be illustrated are better.In Magnificent people's republic's civil aviation professional standard MH/T6099-2013《Fluid sealant lap shear strength test method》In the 9.2nd Item：Test specimen is placed on puller system, with the speed tensile of 50.8mm/min ± 2.5mm/min, until two blocks of base materials separate, test Before answer centering clamp in case generate oblique pull.Most common detection fixture is as shown in Figure 10 at present, and a is puller system direction of pull, and b is Fixture, c are to have cured fluid sealant to be measured.The afterbody that fixture generally clamps tie rod d using jagged collet carries out stretching examination It tests, but due to be easy to causeing tie rod deflection when jagged collet clamps tie rod, is easy to occur during the experiment The phenomenon that tie rod displacement and deflection, causes test data inaccurate.Publication date is September in 2010 29 days, Publication No. The Chinese patent document of CN201594067U discloses a kind of utility model building binding tension tensile property detecting instrument, bag Oil pump systems, control and force value display, draw systems are included, oil pump systems are connected by petroleum pipeline with draw systems, drawing system System is connected by signal transmssion line with control and force value display, and draw systems include oil cylinder, connection leading screw, sensor, fixture, Oil cylinder bottom is connected with being connected leading screw connection, connection leading screw by sensor with fixture, and draw systems further include drawing ailhead, institute The fixing groove with the cooperation of drawing ailhead is offered on the fixture stated, fixture is combined by fixing groove with drawing ailhead.But the device Can not solve the problems, such as tie rod be easy to be subjected to displacement during experiment with deflection and cause test data inaccurate.

The content of the invention

The purpose of the present invention is the fluid sealant lap shear strength test devices for the solution prior art during experiment The problem of being easy to that tie rod displacement and deflection occurs and causes test data inaccurate provides a kind of simple in structure, tie rod displacement It is small with deflection, test data accuracy high fluid sealant bond strength detection device and method.

The used for achieving the above object technical solution of the present invention is：A kind of fluid sealant bond strength detection dress It puts, including a pair of of fixture stand and two for adhering to the tie rod of fluid sealant, is relatively provided with to clamp in each fixture stand Two compact heaps of the tie rod, through hole is transversely provided on the compact heap, and the through hole runs through the compact heap and the folder Has frame, the tie rod is flat structure, and the rear end center of tie rod is equipped with the location hole being adapted to the through hole, is worn in through hole Equipped with the transverse axis by being equipped with, the transverse axis is through the location hole of the fixture stand and tie rod rear end, the overlap joint of tie rod front end Portion is equipped with splicing face and for limiting tie rod around the position limiting structure for being glued the rotation of face normal direction.The present invention puller system fixture stand and On compact heap laterally（That is horizontal direction, a pair of of fixture stand of usual pulling force machine is arrangement up and down）Penetrability through hole, and phase are set Should ground tie rod rear end central axes upper Positioning holes, by tie rod to fluid sealant carry out tensile strength test when, with a horizontal stroke Axis is through the location hole on fixture stand, through hole and tie rod on compact heap, accordingly even when compact heap malcompression tie rod, tie rod will not Also drop from fixture stand and pulling force can be born, can pretightning force be applied with counter brace at this time, tie rod is made to be in preliminary tension-like State after tie rod is in tension, recycles compact heap to compress tie rod, at this moment since tie rod is in tension, pressure During tight block compresses tie rod, displacement and deflection very little that tie rod generates, therefore the accuracy of test data is very high, solves The fluid sealant lap shear strength test device of the prior art is easy to that tie rod displacement and deflection occurs and leads during experiment The problem of causing test data inaccurate.On the other hand, the clinch of tie rod front end of the present invention is equipped with relatively inclined for limiting tie rod The position limiting structure turned, this structure also limit displacement and the deflection of tie rod, it is ensured that the displacement and deflection that tie rod generates are limited In certain scope, so as to substantially increase the accuracy of test data.

Preferably, tie rod includes top brace and bottom brace, top brace and bottom brace are rectangular parallelepiped structure, two tie rods Center cross-sectional size it is identical, wherein the upper side of bottom brace front end is equipped with boss, and it is horizontal that the width of boss is more than brace center The width in section, boss are equipped with the rectangle cavity of front openings, the width of the rectangle cavity and the width of top brace front end It is adapted, the rectangle cavity of the front end of top brace insertion bottom brace described turns so as to form for limiting tie rod around face normal direction is glued Dynamic position limiting structure, the bottom surface of rectangle cavity forms the splicing face of bottom brace on bottom brace, described face and the bottom brace of being glued Upper side is at grade.Two its basic structures of tie rod of the present invention are same flat cuboid, wherein a drawing Item（Bottom brace）The upper side of front end is equipped with boss, and boss is higher than the upper side plane of flat cuboid, and the width at boss is big In setting one in the basic width of tie rod, boss and another tie rod（Top brace）The rectangle cavity of front end adaptation, top brace The rectangle cavity of front end insertion bottom brace is so as to form to limit the position limiting structure of tie rod rotation, and the position limiting structure is for preventing Two tie rods are rotated around face normal direction is glued, and tie rod is avoided to be deflected during gluing, are drawn within two days after causing sealing glue solidifying Item does not influence the accuracy of test data on the same line, but tie rod is in longitudinal direction（Direction of pull）It is upper unrestricted, i.e., not Top brace can freely vertically move in the cavity in bottom brace during gluing, therefore the position limiting structure does not interfere with influence test The accuracy of data.In addition the upper side of splicing face and bottom brace at grade, i.e., for splicing face, is drawn with two Item directly overlaps that effect is consistent, meets the requirement of fluid sealant lap shear strength test counter brace.

Preferably, the rectangle cavity depth of bottom brace be equal to top brace nose thickness and fluid sealant predetermined thickness it With；Boss is equipped with the pressing plate for covering the rectangle cavity, and boss is equipped with the screw hole for fixation clip.So it is being glued face Pressing plate can be utilized to compress after gluing, so as to which accurately control seals the thickness of gel coating, it be made to meet fluid sealant lap shear strong Requirement of the degree test to gluing layer thickness.

Preferably, the bottom surface of bottom brace rectangle cavity is equipped with two longitudinal flutings and one along three side walls of rectangle cavity Transverse concave groove, the both ends of the transverse concave groove extend to the both sides of the edge of boss, and the front end downside of top brace is set along outer rim There are step corresponding with the groove, the width of the step and being of same size for groove.Two longitudinal flutings and a transverse direction Groove makes splicing face become an isolated plane, so can accurately control the area in splicing face, meets fluid sealant overlap joint and cuts Shearing stress tests the requirement to rubberised layer area.

Preferably, transverse axis is screw rod, screw rod both ends are equipped with fixing nut, and transverse axis is consolidated by fixing nut and fixture stand It is fixed.

A kind of detection method of fluid sealant bond strength detection device, the upper side of bottom brace front end are equipped with boss, boss The rectangle cavity of front openings is equipped with, the width of the rectangle cavity is adapted with the width of top brace front end, rectangle cavity Bottom surface form bottom brace be glued face and with the upper side of bottom brace at grade, the transverse axis is screw rod, including with Lower step：

A. fluid sealant is coated on the downside of top brace front end and the splicing face of bottom brace, by the coated face phase of upper and lower tie rod It is right, it forms tie rod anti-rotation structure in the rectangle cavity of the front end insertion bottom brace of top brace and compresses, adhesive curing to be sealed.

B. the assembly of upper and lower tie rod is installed in the fixture stand of puller system after fluid sealant reaches testing conditions, pacified Using screw rod through the through hole in fixture stand and compact heap and through the location hole of tie rod rear end during dress, adjusting compact heap makes its patch Nearly tie rod, screw rod are fastened by nut and fixture stand.

C. puller system is opened, counter brace applies pretightning force, and the pretightning force is estimate fluid sealant pulling-out force 5% to 10%. Here fluid sealant pulling-out force refers to the maximum pull before the separation of two tie rods, i.e., the pulling force when estimating two tie rods separation is 20 kilograms, then the pretightning force that counter brace applies is 1 to 2 kilogram.

D. adjust compact heap make its compress tie rod, by fluid sealant lap shear strength test method counter brace assembly into Row stretches, until two tie rods separate.

Preferably, the bottom surface of bottom brace rectangle cavity is equipped with two longitudinal flutings and one along three side walls of rectangle cavity Transverse concave groove, the both ends of the transverse concave groove extend to the both sides of the edge of boss, and the front end downside of top brace is set along outer rim There are step corresponding with the groove, the width of the step and being of same size for groove, boss, which is equipped with, covers the rectangle The pressing plate of cavity, pressing plate are fixed by screw and boss, and the detection method is further comprising the steps of：

In step a, the sum of rubberization thickness of upper and lower tie rod fluid sealant is more than the predetermined thickness of fluid sealant, under top brace insertion After the rectangle cavity of tie rod, pressing plate is covered above rectangle cavity, pressing plate is fixed by screw and boss；Adhesive curing to be sealed Afterwards, remove in the space formed by the step on the front end downside edge of the groove and top brace of the rectangle cavity bottom surface periphery Extra fluid sealant.

The beneficial effects of the invention are as follows：It efficiently solves the fluid sealant lap shear strength test device of the prior art The problem of being easy to that tie rod displacement and deflection occurs and causes test data inaccurate during experiment, detection of the invention dress It puts simple in structure, tie rod displacement and deflection is small, test data accuracy is high, has very high practical value.

Description of the drawings

Fig. 1 is a kind of structure diagram of fluid sealant bond strength detection device of the present invention；

Fig. 2 is a kind of sectional view of bottom brace；

Fig. 3 is a kind of top view of bottom brace；

Fig. 4 is the right view of Fig. 2；

Fig. 5 is a kind of structure diagram of top brace；

Fig. 6 is the top view of Fig. 5；

Fig. 7 is a kind of lateral partial structurtes sectional view after upper and lower tie rod gluing overlap joint；

Fig. 8 is a kind of cross-sectional structure figure of clinch after upper and lower tie rod gluing；

Fig. 9 is another cross-sectional structure figure of clinch after upper and lower tie rod gluing；

Figure 10 is a kind of structure diagram of prior art fluid sealant bond strength detection fixture.

In figure, 1. fixture stands, 2. compact heaps, 3. location holes, 4. transverse axis, 5. splicing faces, 6. top braces, 7. bottom braces, 8. Boss, 9. rectangle cavitys, 10. pressing plates, 11. longitudinal flutings, 12. transverse concave grooves, 13. steps, a. puller systems pulling force side To, b. fixtures, c. fluid sealants, d. tie rods.

Specific embodiment

Below with reference to the embodiments and with reference to the accompanying drawing technical scheme is more specifically described.

Embodiment 1

In embodiment 1 as shown in Figure 1, a kind of fluid sealant bond strength detection device, including a pair of of fixture stand 1 and two with In the tie rod of attachment fluid sealant c, the tie rod includes top brace 6（See Fig. 5 Fig. 6）With bottom brace 7（See Fig. 2 Fig. 3 Fig. 4）, on Tie rod and bottom brace are rectangular parallelepiped structure, and the center cross-sectional size of two tie rods is identical, and the clinch of tie rod front end is equipped with Splicing face 5, is relatively provided with to clamp two compact heaps 2 of the tie rod in each fixture stand, horizontal on the compact heap To equipped with through hole, the through hole runs through the compact heap and the fixture stand, and the tie rod is flat structure, the rear end of tie rod Center is equipped with the location hole 3 being adapted to the through hole, is equipped in through hole and the transverse axis 4 by being equipped with, the transverse axis are spiral shell Bar, for screw rod through the location hole of the fixture stand and tie rod rear end, screw rod both ends pass through fixing nut equipped with fixing nut, screw rod It is fixed with fixture stand.

The upper side of bottom brace front end is equipped with boss 8, and the width of boss is more than the width of brace center cross section, on boss Rectangle cavity 9 equipped with front openings, the width of the rectangle cavity is adapted with the width of top brace front end, before top brace The rectangle cavity of embedded bottom brace is held so as to form to limit tie rod on the position limiting structure for being glued the rotation of face normal direction, bottom brace The upper side of the splicing face of the bottom surface composition bottom brace of rectangle cavity, the splicing face and bottom brace is at grade.

The detection method of the fluid sealant bond strength detection device of embodiment 1, comprises the following steps：

A. fluid sealant is coated on the downside of top brace front end and the splicing face of bottom brace, by the coated face phase of upper and lower tie rod It is right, it forms tie rod anti-rotation structure in the rectangle cavity of the front end insertion bottom brace of top brace and compresses（See Fig. 7 Fig. 8）, treat close Sealing cures.

B. the assembly of upper and lower tie rod is installed in the fixture stand of puller system after fluid sealant reaches testing conditions, pacified Using screw rod through the through hole in fixture stand and compact heap and through the location hole of tie rod rear end during dress, adjusting compact heap makes its patch Nearly tie rod, screw rod are fastened by nut and fixture stand.

C. puller system is opened, counter brace applies pretightning force, and the pretightning force is estimate fluid sealant pulling-out force 5% to 10%.

D. adjust compact heap make its compress tie rod, by fluid sealant lap shear strength test method counter brace assembly into Row stretches, until two tie rods separate.

Embodiment 2

The bottom surface of rectangle cavity on 2 bottom brace of embodiment is equipped with two longitudinal flutings 11 and one along three side walls of rectangle cavity Transverse concave groove 12, the both ends of the transverse concave groove extend to the both sides of the edge of boss, and the front end downside of top brace is along outer rim Equipped with step 13 corresponding with the groove, the width of the step and being of same size for groove, the rectangle cavity depth of bottom brace Degree is equal to the sum of the nose thickness of top brace and the predetermined thickness of fluid sealant, and boss is equipped with the pressing plate for covering the rectangle cavity 10, boss is equipped with the screw hole for fixation clip, remaining is same as Example 1.

The detection method of the fluid sealant bond strength detection device of embodiment 2, in addition to the step of embodiment 1, further include with Lower step：

In step a, the sum of rubberization thickness of upper and lower tie rod fluid sealant is more than the predetermined thickness of fluid sealant, under top brace insertion After the rectangle cavity of tie rod, pressing plate is covered above rectangle cavity, pressing plate is fixed by screw and boss（See Fig. 9）；It is to be sealed After adhesive curing, the sky that is formed by the step on the front end downside edge of the groove and top brace of the rectangle cavity bottom surface periphery Between remove extra fluid sealant.

In addition to the implementation, in the scope disclosed in claims of the present invention and specification, skill of the invention Art feature or technical data can be reselected and combined, and so as to form new embodiment, these are all art technologies Personnel need not carry out what creative work can be realized, therefore the embodiment that these present invention are not described in also should be regarded as this The specific embodiment of invention and within protection scope of the present invention.

Claims (8)

1. a kind of fluid sealant bond strength detection device, including a pair of of fixture stand（1）And two tie rods for being used to adhere to fluid sealant, It is relatively provided with to clamp two compact heaps of the tie rod in each fixture stand（2）, which is characterized in that the compact heap On be transversely provided with through hole, the through hole runs through the compact heap and the fixture stand, and the tie rod is flat structure, tie rod Rear end center is equipped with the location hole being adapted to the through hole（3）, it is equipped in through hole and the transverse axis by being equipped with（4）, it is described Transverse axis is through the location hole of the fixture stand and tie rod rear end, and the clinch of tie rod front end is equipped with splicing face（5）And for limiting Tie rod is around the position limiting structure for being glued the rotation of face normal direction.

2. fluid sealant bond strength detection device according to claim 1, which is characterized in that the tie rod includes top brace （6）With bottom brace（7）, top brace and bottom brace are rectangular parallelepiped structure, and the center cross-sectional size of two tie rods is identical, wherein The upper side of bottom brace front end is equipped with boss（8）, the width of boss is more than the width of brace center cross section, before boss is equipped with The rectangle cavity of side opening（9）, the width of the rectangle cavity is adapted with the width of top brace front end, and the front end of top brace is embedding It is described for limiting tie rod on the position limiting structure for being glued face normal direction and rotating, bottom brace so as to form to enter the rectangle cavity of bottom brace The upper side of the splicing face of the bottom surface composition bottom brace of rectangle cavity, the splicing face and bottom brace is at grade.

3. fluid sealant bond strength detection device according to claim 2, which is characterized in that the rectangle cavity of the bottom brace Depth is equal to the sum of the nose thickness of top brace and the predetermined thickness of fluid sealant.

4. fluid sealant bond strength detection device according to claim 3, which is characterized in that the boss is equipped with capping institute State the pressing plate of rectangle cavity（10）, boss is equipped with the screw hole for fixation clip.

5. fluid sealant bond strength detection device according to claim 2, which is characterized in that the bottom brace rectangle cavity Bottom surface is equipped with two longitudinal flutings along three side walls of rectangle cavity（11）An and transverse concave groove（12）, the transverse concave groove Both ends extend to the both sides of the edge of boss, and the front end downside of top brace is equipped with step corresponding with the groove along outer rim （13）, the width of the step and being of same size for groove.

6. according to any one of the claim 1-5 fluid sealant bond strength detection devices, which is characterized in that the transverse axis is spiral shell Bar, screw rod both ends are equipped with fixing nut, and transverse axis is fixed by fixing nut and fixture stand.

7. a kind of detection method using fluid sealant bond strength detection device described in claim 1, the upside of bottom brace front end Face is equipped with boss, and boss is equipped with the rectangle cavity of front openings, the width of the rectangle cavity and the width of top brace front end Be adapted, the bottom surface of rectangle cavity form bottom brace be glued face and with the upper side of bottom brace at grade, the horizontal stroke Axis is screw rod, it is characterised in that is comprised the following steps：

A. fluid sealant is coated on the downside of top brace front end and the splicing face of bottom brace, by the coated face phase of upper and lower tie rod It is right, it forms tie rod anti-rotation structure in the rectangle cavity of the front end insertion bottom brace of top brace and compresses, adhesive curing to be sealed；

B. the assembly of upper and lower tie rod is installed in the fixture stand of puller system after fluid sealant reaches testing conditions, during installation Using screw rod through the through hole in fixture stand and compact heap and through the location hole of tie rod rear end, adjusting compact heap makes it close to drawing Item, screw rod are fastened by nut and fixture stand；

C. puller system is opened, counter brace applies pretightning force, and the pretightning force is estimate fluid sealant pulling-out force 5% to 10%；

D. adjusting compact heap makes it compress tie rod, is drawn by fluid sealant lap shear strength test method counter brace assembly It stretches, until two tie rods separate.

8. detection method according to claim 7, which is characterized in that the bottom surface of bottom brace rectangle cavity is along rectangle cavity Three side walls are equipped with two longitudinal flutings and a transverse concave groove, and the both ends of the transverse concave groove extend to the two sides of boss Edge, the front end downside of top brace are equipped with step corresponding with the groove, the width of the step and the width of groove along outer rim Spend identical, boss is equipped with the pressing plate for covering the rectangle cavity, and pressing plate is fixed by screw and boss, and the detection method is also Comprise the following steps：

In step a, the sum of rubberization thickness of upper and lower tie rod fluid sealant is more than the predetermined thickness of fluid sealant, under top brace insertion After the rectangle cavity of tie rod, pressing plate is covered above rectangle cavity, pressing plate is fixed by screw and boss；Adhesive curing to be sealed Afterwards, remove in the space formed by the step on the front end downside edge of the groove and top brace of the rectangle cavity bottom surface periphery Extra fluid sealant.