CN2665698Y

CN2665698Y - Stretching clamp for tension mechanical property test of thin film material

Info

Publication number: CN2665698Y
Application number: CN 200320113756
Authority: CN
Inventors: 付绍云; 潘勤彦
Original assignee: Technical Institute of Physics and Chemistry of CAS
Current assignee: Technical Institute of Physics and Chemistry of CAS
Priority date: 2003-12-30
Filing date: 2003-12-30
Publication date: 2004-12-22
Anticipated expiration: 2013-12-30

Abstract

The utility model discloses a tensile testing jig which is used in film materials tensile mechanical performance test. The jig comprises two collets which are used in clamping film samples, an axle with convex part and a beam whose extension direction is perpendicular to the extension direction of the axle. A via-hole is arranged in the center of the extension position of the beam; one end of the axle is embedded in the via-hole and carries telescopic motion along the via-hole. A compression spring is arranged between the convex part and the beam. Two force rods are distributed symmetrically on the two sides of the axle, one end of each is connected with the convex part of the axle through a connecting rod. The two ends of the connecting rod are connected with the force rod and convex part respectively in rotation. The other end of each force rod is connected with a collet respectively. Each force rod is respectively connected with one end of the beam in rotation between the two ends of the force rod. The tensile testing jig of the utility model is simple in structure and convenient in clamping, which effectively overcomes the phenomenon of specimen sliding.

Description

The stretching clamp that is used for the membraneous material stretching mechanical property testing

Technical field

The utility model relates to employed anchor clamps in the measuring technique, and more particularly, the utility model relates to a kind of stretching clamp that is suitable for carrying out the membraneous material performance test under low temperature environment.

Background technology

Stretching clamp is an one of critical component of measuring the tensile mechanical properties of material.In process of the test, the two ends of measured material sample are fixed by stretching clamp respectively, then anchor clamps are fixedlyed connected with cupping machine, testing machine is by the anchor clamps tensile sample, and measurement data is connected to control collection on the computing machine by high precision, high-sensitive instrument.Mechanical properties such as the pulling strengrth of final acquisition sample, elastic modulus, extensibility.

Along with the development of membraneous material, especially membraneous material application is at low temperatures constantly expanded, and research membraneous material mechanical property at low temperatures just seems and becomes more and more important.At present when the tensile mechanical properties of MEASUREMENTS OF THIN material, the film stretching test fixture that domestic and international testing machine factory provides adopts the screw fastening compact form usually, its friction force that mainly produces by clamping surface rubber gasket clamps the both ends of sample, carries out tension test thereby be connected with testing machine.The structure of this anchor clamps as shown in Figure 1, film sample 1 is clamped between two-layer rubber gasket 2 and 3, and is arranged on the whole in the rectangular enclosure 4, exerts pressure to rubber gasket 2 by a nut 5 that is threaded with shell 4, so that film sample 1 is clamped.

The shortcoming of this anchor clamps is:

1) anchor clamps are difficult for installation, sample centering performance is bad;

2) when measuring the tensile property of material at low temperatures, because the special nature of low temperature environment, threaded anchor clamps can produce loosening, between anchor clamps and the sample serious skidding can take place;

3) rubber gasket at this anchor clamps clamping sample place becomes fragile at low temperatures, also is not suitable for using under the low temperature.

Summary of the invention

The purpose of this utility model is to provide a kind of stretching clamp that is suitable under low temperature environment film sample being carried out stretching mechanical property testing.

To achieve these goals, the utility model provides a kind of stretching clamp that is used for the membraneous material stretching mechanical property testing, comprising:

Two are used for the chuck of clamping film sample betwixt;

An axle, this axle has a protruding block;

A crossbeam, the bearing of trend of this crossbeam are perpendicular to the bearing of trend of axle, and crossbeam has a through hole in the centre position of its bearing of trend, and an end of described axle is embedded in this through hole and can makes stretching motion along this hole;

The compression spring that between described protruding block and crossbeam, is provided with;

Be symmetrically distributed in two power bars of described axle both sides, an end of every power bar all is connected by the protruding block of connecting link with axle respectively, and the two ends of described connecting link are rotatably connected with power bar and protruding block respectively; The other end of every power bar all is connected with a chuck respectively; Every power bar all is rotatably connected with an end of described crossbeam respectively between its two ends.

Described compression spring is sheathed on the described axle.

Described power bar and chuck are rotatably connected.These anchor clamps further comprise a chute, and in described two chucks one can be fixedlyed connected with chute, and another of described two chucks is slidably disposed in the chute.

The side that is used for the clamping film sample of described chuck is a serrated-surface.

The utility model tensile test fixture is compared with the anchor clamps of existing use both at home and abroad, and simple in structure, convenient mounting and clamping has overcome the phenomenon that test specimen skids at low temperatures effectively, and can realize various product measurement under low temperature environment, has saved cost greatly.Cryogenic tensile anchor clamps of the present utility model can be used for normal temperature and cryogenic mechanics performances such as the pulling strengrth, elastic modulus, fracture elongation of MEASUREMENTS OF THIN material.

Description of drawings

Fig. 1 is screw thread screwing type film stretching anchor clamps synoptic diagram;

Fig. 2 is the structural representation of stretching clamp of the present utility model;

Fig. 3 is the structural representation of the axle in the stretching clamp of Fig. 2, and wherein (a) is front elevation, (b) is side view;

Fig. 4 is the synoptic diagram of the crossbeam in the stretching clamp of Fig. 2, and wherein (a) is front elevation, (b) is the cut-open view of A-A line, (c) is the cut-open view along the B-B line;

Fig. 5 is the synoptic diagram of the connecting link in the stretching clamp of Fig. 2, and wherein (a) is front elevation, (b) is the cut-open view of C-C line;

Fig. 6 is the synoptic diagram of the power bar in the stretching clamp of Fig. 2, and wherein (a) is front elevation, (b) is the cut-open view of D-D line;

Fig. 7 is the structural representation of the chuck in the stretching clamp of Fig. 2;

Fig. 8 is the structural representation of the chute in the stretching clamp of Fig. 2;

Fig. 9 is the structural representation of the chuck of fixedlying connected with the chute of Fig. 8.

Specific embodiments

Below in conjunction with the drawings and specific embodiments the utility model is described in further detail.

Fig. 2 is the integral body assembling synoptic diagram of stretching clamp of the present utility model.As shown in Figure 2, stretching clamp of the present utility model is to be left-right symmetric along axle 10 basically.These anchor clamps comprise that two are used for the chuck 30 and 30 ' of clamping film sample betwixt, and an axle 10 that has protruding block 13.One end of axle 10 embeds a crossbeam 20, and the bearing of trend of this crossbeam 20 is perpendicular to the bearing of trend of axle 10.Crossbeam 20 has a through hole 21 (Fig. 4) in the centre position of its bearing of trend, an end of axle 10 is embedded in this through hole 21 and can makes stretching motion along this hole, and this will describe in detail in the content below.On the axle between protruding block 13 and the crossbeam 20, be with a compression spring 50.

As shown in Figure 2, two power bars 60 and 60 ' are symmetrically distributed in the both sides of axle 10, and power bar 60 is connected with protruding block 13 with 70 ' by connecting link 70 respectively with an end of 60 '.The two ends of connecting link 70 are rotatably connected with power bar 60 and protruding block 13 respectively, and the two ends of connecting link 70 ' are rotatably connected with power bar 60 ' and protruding block 13 respectively.Power bar 60,60 ' the other end are connected with chuck 30,30 ' respectively.Power bar 60 and 60 ' is rotatably connected with an end of crossbeam 20 respectively between its two ends.

To describe the structure of each ingredient of stretching clamp of the present utility model below in detail.

Referring to axle 10 shown in Figure 3 and in conjunction with Fig. 2.One end of axle 10 has a perforate 12, and this perforate 12 is connected with cupping machine when experiment.Below perforate 12, axle 10 has a stopper 11, and this stopper 11 guarantees that axle 10 is connected centering with cupping machine when experiment.Stopper 11 can be for being fixed on the discrete component of axle on 10, also can with axle 10 monolithic moldings.The below of stopper 11 is fixed with a protruding block 13, and this protruding block 13 is preferably integrally formed with axle 10.Have a hole 14 on the protruding block 13, for example be used to hold securing members such as pin, so that the end of protruding block 13 with connecting link 70 and 70 ' is rotatably connected.The other end 15 of axle 10 is contained in the through hole 21 (Fig. 4) of crossbeam 20.In Fig. 2, be with a compression spring 50 on the axle 10, between protruding block 13 and crossbeam 20.

Referring to crossbeam shown in Figure 4 20 and in conjunction with Fig. 2.See more clearly in Fig. 4 (b), crossbeam 20 is essentially " worker " shape, and position has a through hole 21 in the middle of it, is used to hold an end 15 (Fig. 3) of axle 10, and an end 15 of axle 10 can be in this through hole 21 stretching motion.The two ends of crossbeam 20 have recess 22 and 22 ', are respectively applied for

acceptance bar

60 and 60 '.Through hole 23 and 23 ' is arranged on recess 22 and 22 ' on every side, is used to hold for example securing member such as pin, so that power bar 60 and 60 ' is rotatably connected with crossbeam 20 respectively.As shown in Figure 2, the bearing of trend of crossbeam 20 is vertical with the direction of axle 10.

Referring to connecting link shown in Figure 5 70 and in conjunction with Fig. 2.The two ends of connecting link 70 have through hole 71 and 72.Wherein through hole 72 matches with the hole 14 (Fig. 3) on the protruding block 13, by making as securing members such as

pins connecting link

70 and 13 rotating connections of protruding block.Through hole 71 is rotatably connected with an end of power bar 60.Connecting link 70 ' is identical with the structure of connecting link 70, and is connected with power bar 60 ' with protruding block 13 with symmetrical manner.

Referring to power bar 60 shown in Figure 6 and in conjunction with Fig. 2.The two ends of power bar 60 have through hole 61 and 63.Near the middle part of power bar 60 in other words between through hole 61 and 63, power bar 60 also has through hole 62.The through hole 63 of power bar 60 matches with the through hole 71 (Fig. 5) of connecting link 70, so that hold as securing members such as pins, thereby power bar 60 and connecting link 70 1 ends is rotatably connected.The through hole 62 of power bar 60 is contained in the recess 22 (Fig. 4) with crossbeam 20, matches with the through hole 23 (Fig. 4) of crossbeam 20 holding as securing members such as pins, thereby power bar 60 and crossbeam 20 1 ends are rotatably connected.The through hole 61 of power bar 60 is used for being connected with chuck 30.Power bar 60 ' is identical with power bar 60 structures, and is connected with connecting link 70 ', crossbeam 20 and chuck 30 ' with symmetrical manner.

Referring to chuck shown in Figure 7 30,30 ' and in conjunction with Fig. 2.Chuck 30 has a recess 32, is used for an end of acceptance bar 60.The blind hole 31 of passing recess 32 matches with the through hole 61 (Fig. 6) of power bar 60 holding as securing members such as pins, thereby an end of power bar 60 is connected with chuck 30.The side 33 that chuck 30 is used for the clamping film sample preferably has jagged surperficial (not shown), so that the holding force of enhancing to be provided.

Power bar 60 adopts the mode of fixedlying connected or being rotatably connected with chuck 30.When adopting fixedly connected mode, chuck 30 ' is identical with chuck 30 structures, and is connected with power bar 60 ' with symmetrical manner.When being rotatably connected between power bar 60 and chuck 30 and power bar 60 ' and the chuck 30 ', skid in order to prevent chuck, chuck 30 and 30 ' preferably is arranged in the chute 80, and is fixedlyed connected with chute 80 in the bottom of chuck 30 '.Chute 80 as shown in Figure 8 has through hole 81 and 82.Correspondingly, chuck 30 ' shown in Figure 9 also has hole 35 ' and 36 ', matches with the through

hole

81 and 82 of chute 80 respectively in hole 35 ' and 36 ', holding as securing members such as screws, thereby chuck 30 ' is fixed on the chute 80.

As shown in Figure 2, stretching clamp of the present utility model is when work, direction along arrow 90 and 90 ' is pressed power rail 60 and 60 ', under the drive of connecting link 70 and 70 ', protruding block 13 drives axle 10 downward compression springs 50, one end 15 of axle 10 further stretches in the through hole 21 of crossbeam 20, or until passing this through hole 21.Simultaneously, chuck 30 and 30 ' moves along arrow 100 and 100 ' direction respectively in chute 80 under the drive of

power bar

60 and 60 '.The film sample (not shown) is placed between two chucks 30 and 30 ' then, loosen power bar 60 and 60 ', spring 50 upwards promotes protruding block 13, under the drive of connecting link 70 and 70 ', power bar 60 and 60 ' opposite direction motion along arrow 90 and 90 ', and chuck 30 and 30 ' under the drive of power bar 60 and 60 ' in chute 80 respectively along the motion of the opposite direction of arrow 100 and 100 ', at last the film sample (not shown) is clamped.

After treating that anchor clamps install sample, the through hole on the axle 10 12 and the universal connecting shaft of testing machine are fixed with pin.Be placed at last in the airtight cryogenic tensile experiment container and measure.

Can select different spring 50 for use, to regulate the size of chuck 30 and 30 ' clamping dynamics, the serrated-surface at chuck position can effectively prevent the problem of skidding that sample occurs in experimentation.

For preventing that stretching clamp of the present utility model each position that is rotatably connected in use from landing might occur test is impacted, therefore be provided with pad by connection surface, and adopting spring collar that its embedding pin depression position is fixed at gasket surface as securing members such as pins.

Each parts in the utility model comprise the axle 10, crossbeam 20, connecting link 70 and 70 ', power bar 60 and 60 ', chuck 30 and 30 ', the chute 80 that have protruding block 13, all can adopt low temperature resistant stainless steel 1Cr18Ni9Ti material to prepare.

The results showed, stretching clamp of the present utility model can well be applied to the stretching mechanical of low temperature environment 77K and measure, can be accurately under room temperature and low temperature, reliably, stably pulling strengrth, elastic modulus, the fracture elongation of MEASUREMENTS OF THIN compound substance, anchor clamps itself do not have influence to test findings.All in the gauge length scope of standard code, distortion evenly shows that the design of these anchor clamps retaining part is comparatively reasonable for the work shoulder place not damaged of sample, fracture location; Show that with the sample test result data repeatability is better, can think that anchor clamps itself do not have influence substantially to measuring through a plurality of simultaneously.

Claims

1, a kind of stretching clamp that is used for the membraneous material stretching mechanical property testing is characterized in that, this stretching clamp comprises:

Two are used for the chuck of clamping film sample betwixt;

An axle, this axle has a protruding block;

2, stretching clamp according to claim 1 is characterized in that, described compression spring is sheathed on the described axle.

3, stretching clamp according to claim 1 is characterized in that, described power bar and chuck are rotatably connected.

4, stretching clamp according to claim 3 is characterized in that, further comprises a chute, and in described two chucks one can be fixedlyed connected with chute, and another of described two chucks is slidably disposed in the chute.

5, stretching clamp according to claim 1 is characterized in that, the side that is used for the clamping film sample of described chuck is a serrated-surface.