CN212872017U - Cable flexibility testing device - Google Patents

Abstract

The utility model discloses a cable flexibility testing device and a testing method thereof, wherein the testing device comprises an upper support frame and a lower support frame, the upper support frame is provided with an upper pulley, the left side and the right side of the lower support frame are both provided with a plurality of symmetrical left mounting position holes and right mounting position holes, and the lower pulleys mounted on the left mounting position holes and the right mounting position holes are symmetrical; the test method comprises the following steps: 1) preparing a cable sample, wherein the length of the cable sample is determined according to the maximum diameter OD of a finished cable; 2) according to the outer diameter range, selecting the diameters of the upper pulley and the lower pulley, the radiuses and the depths of pulley grooves of the upper pulley and the lower pulley, and determining the pin distance; 3) the cable test piece is horizontally placed on the two lower pulleys, then the electronic press is operated to lower the upper pulley, the upper pulley is stopped at the top of the cable test piece, then the upper pulley is pressed at the speed of 100mm/min until the maximum force value is reached, the pressing is stopped, the maximum force value of the force in the test is recorded, and the test of the flexibility of the cable test piece can be carried out scientifically and reasonably.

Description

Cable flexibility testing device

Technical Field

The utility model relates to a cable pliability testing arrangement for carry out the pliability test to the cable. The utility model discloses still relate to above-mentioned testing arrangement's test method.

Background

Along with the development of science and technology, at the key equipment in many fields, like high temperature boiler, fill electric pile, new forms of energy electric automobile, communication computer lab, nuclear power station, data center, wind power generation etc. these key equipment are small, and the inner space is narrow and small, requires that the cable of inside use has higher flexibility, improves the installation and lays and the convenience when using, increases the utilization ratio in equipment space.

Two tests related to cable flexibility within the cable industry and standards at present are the flex test and the sway test. And (3) a deflection test: for 4mm²The test is needed to be carried out on the following flexible cable, the cable needs to move back and forth on the two guide wheels for 30000 times, and finally, the conductor is checked to be not broken, and the insulating sheath does not crack. And (3) swing test: for 6mm²The test is needed to be carried out on the flexible cable, the cable needs to be bent for 5000 times at +/-90 degrees, and finally the conductor is checked to be free of wire breakage, and the insulating sheath does not crack. What the two tests can directly feed back is whether the toughness of the cable conductor and the mechanical properties of the insulation and sheath materials meet the requirements. Theoretically speaking, the cable has better flexibilityThis test is easier to pass, but it does not provide data on the amount of flexibility of the cable that can be fed back. At present, no specific test method and equipment requirements for flexibility of finished cables exist in the existing cable standards, and when a client has the requirement for flexibility of the cable, a cable manufacturer usually achieves the purpose of flexibility of the cable by reducing the diameter of monofilaments of a fine conductor and the hardness of insulating and sheath high polymer materials. But the change degree can meet the requirement of the client, and no corresponding test method and equipment test exists. Most of the cables are manually bent to feel the flexibility of the cables and sent to a client side, so that the client side can see whether the cables meet the requirements or not during actual processing. Such methods have too many uncertainty factors, randomness, low reproducibility of repetition, and are inefficient in whether cable verification is feasible.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a cable pliability testing arrangement and test method are provided has realized the test to cable scientific and reasonable's flexibility.

In order to solve the technical problem, the utility model discloses a cable flexibility testing device, it includes upper bracket and lower carriage, upper bracket, lower carriage distribute from top to bottom, the upper end of upper bracket, the lower extreme of lower carriage connect the electronic press; an upper pulley is arranged on the upper support frame; the left side of the lower support frame is provided with a plurality of left mounting position holes, the right side of the lower support frame is provided with a plurality of right mounting position holes, and the left mounting position holes and the right mounting position holes are symmetrical; the distance between one left mounting position hole and the right mounting position hole which is symmetrical to the left mounting position hole is the pin distance; the left mounting position hole and the right mounting position hole are both provided with lower pulleys, and the lower pulleys arranged on the left mounting position hole and the right mounting position hole are symmetrical; the tested cable sample is positioned between the upper pulley and the lower pulley.

The testing method of the cable flexibility testing device comprises the following steps:

(1) a cable sample is prepared, the length of which depends on the finished maximum diameter OD of the cable.

In order to ensure the conformity of the test sample, when the curvature L of the original state of the cable test sample is larger than the diameter OD of the cable, the cable test sample is kept in a straight state for 16 hours and then participates in the test.

(2) And measuring the maximum outer diameter of the cable sample, selecting the diameters of the upper pulley and the lower pulley, the radiuses and the depths of the pulley grooves of the upper pulley and the lower pulley according to the outer diameter range, and determining the pin distance.

(3) The electronic press machine is connected with the upper supporting frame and the lower supporting frame, the cable sample is horizontally placed on the two lower pulleys (the pulleys are provided with pulley grooves, the diameters of the pulley grooves are larger than the outer diameters of the cables, the cables are placed on the pulleys and can be clamped into the pulley grooves, the two ends of the cables are not required to be clamped and fixed), then the electronic press machine is operated to reduce the upper pulleys, the upper pulleys are stopped at the tops of the cable samples, then the upper pulleys are pressed down at the speed of 100mm/min until the maximum force value is reached, the pressing down is stopped, and the maximum force value of the force in the test is recorded.

For the accuracy of the test, a plurality of cable samples are prepared and sequentially tested to obtain the maximum force values of the plurality of cable samples, and the average value of the maximum force values is calculated to obtain the final test value.

The relationship among the distances between the cable sample and the upper pulley, the lower pulley and the pin is as follows:

the diameter of the upper pulley is 2.4-2.5 times of the maximum diameter of the cable sample, the diameter of the lower pulley is 3.5 times of the maximum diameter of the cable sample, and if the pulleys are too large, the lower pulleys at two ends are difficult to rotate when the cable sample is pressed and bent, so that the friction force of the sample is increased, test data is increased, and the cable fails. If the pulley is too small, the pulley rotates faster when bending downwards, and the accuracy of test data is influenced.

The radius of the wheel groove and the depth of the wheel groove of the upper pulley and the lower pulley are 0.5-0.6 times of the maximum diameter of the cable sample, and the cable sample slides left and right due to overlarge radius of the wheel groove and the depth of the wheel groove, so that the force value is unstable during testing; undersize can lead to the cable can't complete and pulley face contact, causes the easy roll-off pulley test of cable one end to become invalid when the test.

The pin distance is 9.1 times of the maximum diameter of the cable sample, and the cable sample is naturally bent when the pin distance is too large, so that test data is inaccurate. When the pin distance is too small, the testing distance of the cable sample is reduced, so that the lower pressure testing force value is larger and deviates from the actual value, and the numerical value is not matched with the actual application.

Cable sample length is 10 times of cable sample maximum diameter and adds the diameter of a lower pulley that corresponds, then upwards takes the integer of 5 or 10(mm), and cable sample one end roll-off pulley gear in advance when sample length undersize can lead to the test, and the frictional force of cable sample both ends cable and pulley is big when sample length excessively can lead to the test, leads to the data inaccurate. The data in the table are accurate and reasonable numerical values obtained according to the maximum diameter of the cable sample, and the cable corresponding to the measured flexibility value can completely meet the actual use requirements of customers.

The principle of the flexibility testing method is based on the fact that the force used by the cable in the bending process is different for different outer diameters and lengths, the force used by the cable in the bending process is smaller when the cable with better flexibility is bent, and the larger the force is, the smaller the value tested by the device and the method is, the better the flexibility of the cable is.

The utility model has the advantages that:

1. the utility model discloses the device has realized the experimental mechanization of cable flexibility degree, has got rid of the uncertain factor of the result of leaning on feeling judgement cable flexibility degree before.

2. The utility model discloses the method has included the test and made the sample condition length, and included the correction method that the sample did not conform to before the test; the specific requirements for the test device are included: the diameters of the upper and lower pulleys, the radius of the inner groove of the pulley, the depth of the groove and the position of the position hole enable cables with different outer diameters to be scientifically and reasonably tested; the method comprises the specific operation steps of the test and how to determine the test result, and the like, and the utility model discloses the method realizes that the cables with different diameters and sizes can both carry out the test of scientific and reasonable flexibility.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of a dimension testing apparatus of the present invention.

Fig. 2 is a schematic view of another dimension testing device of the present invention.

Fig. 3 is a schematic view of the curvature L of the cable specimen in its original state being greater than the cable diameter OD.

Detailed Description

As shown in fig. 1 and 2, the cable flexibility testing device comprises an upper support frame 3 and a lower support frame 1, wherein the upper support frame 3 and the lower support frame 1 are distributed up and down, and the upper end of the upper support frame 3 and the lower end of the lower support frame 1 are connected with an electronic press; an upper pulley 4 is arranged on the upper support frame 3; a plurality of left mounting position holes (namely A, B, C, D, E, F, G, H position holes on the left side of the lower support frame 1) are formed in the left side of the lower support frame 1, a plurality of right mounting position holes (namely A, B, C, D, E, F, G, H position holes on the right side of the lower support frame 1) are formed in the right side of the lower support frame, and the left mounting position holes and the right mounting position holes are symmetrical; the distance between one left mounting position hole and the right mounting position hole which is symmetrical to the left mounting position hole is the pin distance. The lower pulleys 2 are arranged on the left mounting position hole and the right mounting position hole, and the lower pulleys 2 arranged on the left mounting position hole and the right mounting position hole are symmetrical; the tested cable sample is positioned between the upper pulley 4 and the lower pulley 2.

The lower pulley 2: the pulley radius and the depth of the pulley inner groove are required, and the two outer pulleys are used for placing and supporting cable samples during testing.

The upper pulley 4: the device has the requirements of pulley radius, the radius of the pulley inner groove and the depth, and is used for pressing down a cable sample during testing.

A/B/C/D/E/F/G/H position hole (mounting position hole): as shown in the figures 1 and 2, the test position is a pin test position and is used for selecting and fixing the position of the lower pulley, namely the distance between pins A and A is 36.4mm, the distance between pins B and B is 50.2mm, the distance between pins C and C is 63.7mm, the distance between pins D and D is 81.9mm, the distance between pins E and E is 109.2mm, the distance between pins F and F is 145.6mm, the distance between pins G and G is 191.1mm, and the distance between pins H and H is 254.8 mm.

The testing method of the cable flexibility testing device comprises the following steps:

(1) five cable samples (cable samples) were prepared, the cable sample length being dependent on the finished maximum diameter OD of the cable.

To ensure the conformity of the test specimen, the test was carried out after holding the cable specimen in a straight state (using suitable mechanical means of the prior art) for 16 hours, as shown in fig. 3, when the curvature L of the original state of the cable specimen is greater than the diameter OD of the cable.

(2) And measuring the maximum outer diameter of the cable sample, selecting the diameters of the upper pulley 4 and the lower pulley 2, the radiuses and the depths of the pulley grooves of the upper pulley 4 and the lower pulley 2 according to the outer diameter range, and determining the pin distance.

(3) The upper support frame 3 and the lower support frame 1 are connected with an electronic press machine, a cable sample is horizontally placed on the two lower pulleys 2, then the electronic press machine is operated to lower the upper pulleys, the upper pulleys 4 are stopped at the top of the cable sample, then the upper pulleys 4 are pressed downwards at the speed of 100mm/min until the maximum force value is reached, the pressing is stopped, and the maximum force value F of the force in the test is recorded.

And sequentially testing the five cable samples to obtain the maximum force values of the five cable samples, and calculating the average value of the five maximum force values to obtain the final test value.

The relationship between the distance between the cable sample and the distance between the upper pulley 4, the distance between the lower pulley 2 and the distance between the pins is as follows:

the above-mentioned embodiment does not limit the utility model in any way, and all the technical solutions that adopt the mode of equivalent replacement or equivalent transform to obtain all fall within the protection scope of the utility model.

Claims (2)

1. The cable flexibility testing device is characterized by comprising an upper supporting frame and a lower supporting frame, wherein the upper supporting frame and the lower supporting frame are distributed up and down, and the upper end of the upper supporting frame and the lower end of the lower supporting frame are connected with an electronic press; an upper pulley is arranged on the upper support frame; the left side of the lower support frame is provided with a plurality of left mounting position holes, the right side of the lower support frame is provided with a plurality of right mounting position holes, and the left mounting position holes and the right mounting position holes are symmetrical; the distance between one left mounting position hole and the right mounting position hole which is symmetrical to the left mounting position hole is the pin distance; the left mounting position hole and the right mounting position hole are both provided with lower pulleys, and the lower pulleys arranged on the left mounting position hole and the right mounting position hole are symmetrical; the tested cable sample is positioned between the upper pulley and the lower pulley.

2. The cable flexibility testing device according to claim 1, wherein: the relationship among the distances of the upper pulley, the lower pulley and the pins is as follows:

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