DE202015004374U1 - Device for tensile test by compression - Google Patents

Abstract

Tensile testing device (10) allowing tensile tests on test pieces (50), such as bolt / screw shaped metal parts, by the compression method, characterized in that it comprises: - a centering sleeve (20) allowing such centering of the tensile tester (10) that it fits on a board of the hydraulic press; - A lower chucking part (30), which allows clamping of the movably in the centering sleeve (20) positioned bolt / screw (the test piece) (50) from one side, and a pressure application bearing surface (31), on a Pressure user (70) exerts pressure; - An upper chucking part (40), which allows a clamping of immovably positioned in the centering sleeve (20) bolt / screw (the test piece) (50) from the other side, and Druckanwenderbohrungen (41), through which the pressure user (70) runs; - A pressing piston (80) which transmits the compression force by means of the pressure user (70) on the lower clamping part.

Description

FIELD OF TECHNOLOGY

The invention relates to a device for tensile testing by compression, which is proposed to measure the strength of iron, steel, copper, zinc and similar metals and alloys thereof, as used in many industries, and to determine their fracture values.

STATE OF THE ART

Currently, tensile tests are carried out with the aid of a laboratory instrument, which is called a tensile tester. The results or fracture values are determined by means of the device, by drawing from both ends of a sample taken from the material to be tested according to the standards (until breakage).

In the known conventional tensile testers both ends of the milled stud or screw test piece removed from the material to be tested are connected to the jaws of the tensile tester, and the test piece is subjected to strain with the movement and force exerted on one of the jaws. The power is held until it breaks. The result of the tensile test is read after the break from the display of the device.

The tensile tester shall test for tensile strength of flat iron steel products or profile materials used in the Bosphorus Bridge, strength of the 8-10 m anchor bolts supporting the bridge legs, conformity with the standards of strength values of the bolts to be used there, or any of the possible Strength losses for these screws, when subjected to the anticorrosive hot dip galvanizing process exceeding the value required by the standards, are always carried out using such tensile testing devices.

However, train testing devices are expensive devices that small business owners can not afford because they are not mass produced. Therefore, such devices are more likely to be available in the laboratories of TSE, Kosgeb and Metallurgy, the mechanical engineering or civil engineering departments of the universities, which are publicly funded. Apart from that, these devices are also available in the laboratories of a small number of large car, machine and iron and steel producers.

Very high performance tensile testers are available in research laboratories and some iron and steelmaking facilities. There are a very small number of these devices and their rated output can be up to a maximum of 150-200 tons. From time to time, however, greater carrying capacities are required. Train test stands capable of carrying out tests requiring such performance are scarce.

The prior art pull-testing devices are not available to small-scale industries, such as medium-sized businesses, both because of their cost and because of transportation difficulties. Therefore, the production of a low-cost and easily transportable tensile tester is required.

US Pat. US 8,322,227 is a voltage testing device for use in a voltage test used to evaluate the connection strength between an arbitrary body and a pressure applying electronic instrument, consisting of a base, a voltmeter, a rack and a clamp.

A holding element and a component carrying the voltmeter are attached to the base. This part contains a holding element and a clamping section.

In US Pat. US 2014 109694 On the other hand, a tensile tester consists of a base, a tensiometer and a link mechanism. An object is stationary adapted at its base. The tensiometer is installed on the moving base, and the object to be measured is connected to the tensiometer from its clamping part. The connection mechanism includes an elastic member and a positioning member. The elastic member is disposed between the base and the tensiometer, and then the measurement is performed. The frame is connected to the clamping portion of the part which holds the frame and exerts pressure in the direction of the base. The clamp is located on the base, which is positioned adjacent the frame to compress the pressure user.

However, as can be seen from the above-mentioned examples, a low-cost, easily transportable tensile tester adopting the compression test for tensile testing has not yet been developed, and the defect in this matter is obvious.

As a result, there has been a demand for innovation in the field of technology due to the above-mentioned problems.

BRIEF DESCRIPTION OF THE INVENTION

The present invention relates to a compression testing apparatus which overcomes all the above drawbacks and provides some additional advantages for the field of the art.

The main object of the invention is to propose a tensile testing device using the compression method.

Another object of the invention is to minimize the cost of the tensile testing device.

A further object of the invention is to propose a low-weight tension testing device which occupies less space and, if necessary, can be easily transported in the cargo space of a motor vehicle.

A further object of the invention is to ensure that the train testing apparatus is widely used, with the aim of also enabling medium-sized enterprises to gain access to the train testing device.

Another object of the invention is to solve the problem, which is that tests of 150-160 tons can not be carried out because the maximum load capacity of the devices on the market is around 150-160 tons, and so on Performing tensile tests with higher load capacities.

A further object of the invention is to terminate the dependency of the manufacturers on the institutions having tensile testing devices and to allow each manufacturer to perform their own tensile tests.

Another object of the invention is to provide a device that is capable of compressive stress tests and fits itself into the cargo hold of a motor vehicle since its weight is about 100 kg by reducing the weight of the tensile tester, which is about 2000-3000 kg is.

• – die Zentrierhülse, die das derartige Zentrieren der Zugprüfungsvorrichtung ermöglicht, dass sie auf das Brett der Hydraulikpresse passt;
• – das untere Einspannteil, welches das Einspannen des beweglich in der Zentrierhülse positionierten Bolzens/der Schraube (des Prüfstück) von einer Seite aus ermöglicht, und eine Druckanwender-Lagerfläche enthält, auf die der Druckanwender Druck ausübt;
• – das obere Einspannteil, welches das Einspannen des unbeweglich in der Zentrierhülse positionierten Bolzens/der Schraube (des Prüfstücks) von der anderen Seite aus ermöglicht, und Druckanwenderbohrungen enthält, durch die hindurch der Druckanwender verläuft;
• – den Presskolben, der die Kompressionskraft mittels der Druckanwender auf den unteren Einspannteil überträgt.

The invention relates to a tensile tester, the tensile tests on metal test pieces (bolt / screw, nut, etc.) allows, where a tensile test is to be performed by the compression method, characterized in that the device comprises

• - The centering sleeve, which allows such centering of the tensile tester that it fits on the board of the hydraulic press;
• - The lower clamping part, which allows the clamping of the movably positioned in the centering pin / screw (the test piece) from one side, and a pressure application bearing surface on which the pressure user exerts pressure;
• - The upper clamping part, which allows the clamping of immovably positioned in the centering pin / screw (of the test piece) from the other side, and contains Druckanwenderbohrungen through which the pressure user passes;
• - The plunger, which transmits the compression force by means of the pressure users on the lower clamping part.

DESCRIPTION OF THE DRAWINGS

Further features and advantages of the invention will become apparent from the exemplary embodiments which refer to the accompanying drawings.

1 - Perspective view from above of the tension testing device of the invention in disassembled state

2 - Perspective view from below of the tension testing device of the invention in disassembled state

3 - Cross-sectional view of the tensile tester of the invention in the assembled state

4 - Cross-sectional view of the tensile tester of the invention in the assembled state

5 - Cross-sectional view of the lower clamping part of the tensile testing device of the invention

6 - Top view of the lower clamping part of the tension testing device of the invention

7 - Cross-sectional view of the upper clamping part of the tension testing device of the invention

8th - Top view of the upper clamping part of the tension testing device of the invention

The drawings are not necessarily drawn to scale, and details that are not required for understanding the present invention may be omitted. Furthermore, elements that are at least substantially identical, or at least substantially have identical functions, represented by the same reference numerals.

LIST OF REFERENCE NUMBERS

10

Zugprüfungsvorrichtung

20

centering

30

lower clamping part

31

Storage area of the printing user

32

Bolt / screw (test piece) threaded bore

40

Upper clamping part

41

Pressure user bores

42

Bolt / screw (test piece) through bore

50

Bolt / screw (test piece)

60

mother

70

pressure users

80

plunger

81

Force introduction surface

DETAILED DESCRIPTION OF THE INVENTION

In this detailed description, preferred embodiments of the tensile testing device ( 10 ) of the invention are described solely for a better understanding of the subject matter and are in no way to be construed as limiting.

1 shows the perspective view from above of the tensile tester ( 10 ), and 2 shows the perspective view from below. The tensile tester ( 10 ) is proposed for carrying out tensile tests by compression and is in its preferred embodiment with a cylindrical centering sleeve ( 20 ) formed so as to have a wider diameter at the bottom side as a general appearance. In the centering sleeve ( 20 ) is a round shaped lower clamping part ( 30 ), which is capable of floatation, a bolt / screw (test piece) threaded hole ( 32 ) in its center and its upper part as a printing user storage area ( 31 ) is trained.

The bolt / screw (the test piece) ( 50 ) is at the threaded hole ( 32 ) in the middle of the lower clamping part ( 30 ), and the print users ( 70 ) are located on the print user storage area ( 31 ) at the upper part of the lower clamping part ( 30 ) available. The print user ( 31 ) and the bolt / screw (the test piece) ( 50 ) pass through the upper clamping part ( 40 ) at the upper section and the bolt / screw (the test piece) ( 50 ) passes through the bolt / screw through bore ( 42 ) in the middle of the upper clamping part ( 40 ) and is by means of the mother ( 60 ) attached from above. The print user ( 70 ) on the other hand run through the pressure user bores ( 41 ) at the upper clamping part ( 40 ) and extend to the plunger ( 80 ) at the top.

The operating principle of the tensile tester ( 10 ), whose sectional view in the assembled state in 3 is shown and its cross-sectional view in 4 is shown is as follows: the centering sleeve ( 20 ) is placed on the board of the hydraulic press. The bolt to be tested / the bolt to be tested (the test piece) ( 50 ) is placed in the middle of the lower clamping part ( 30 ) lying bolt / screw (test piece) threaded hole ( 32 ) screwed. A threaded hole ( 32 ) of suitable size, which is drilled according to calculations, lies in the middle of the lower clamping part ( 30 ), which is able to move in the centering sleeve ( 20 ) to move up and down. The Bolt / Screw (test piece) threaded holes ( 32 ) are used to secure the bolt / bolt to be tested (the test piece) ( 50 ) which is threaded at one end or at both ends and from the bolt / bolt to be tested (the test piece) ( 50 ) with the lower clamping part ( 30 ) is pulled out.

The bolt to be tested / the bolt to be tested (the test piece) ( 50 ), the lower section of which at the lower clamping part ( 30 ), which is able to move in the centering sleeve ( 20 ) up and down, passes through the bolt / screw (test piece) through hole ( 42 ) in the upper clamping part ( 40 ) from its top and is by means of the nut ( 60 ) at the top of the bolt / screw (test piece) through hole ( 42 ) attached. The print user ( 70 ) stored on the print user storage area ( 31 ) on the surface of the lower clamping part ( 30 ) are passed through the pressure application bores ( 41 ) at the upper clamping part ( 40 ) and extend to the plunger ( 80 ) at the top. In this way, the bolt to be tested / the bolt to be tested (the test piece) ( 50 ) at both ends between the lower clamping part ( 30 ) below and the upper clamping part ( 40 ) at the top of the tensile tester ( 10 ) held. In this case, the upper clamping part ( 40 ) in the centering sleeve ( 20 ), while the lower clamping part ( 30 ) in the centering sleeve ( 20 ) free is.

The print user ( 70 ) on the other hand run through the pressure application bores ( 41 ), which at the upper clamping part ( 40 ), together with the plunger ( 80 ), and the ends of the print user ( 70 ) are located on the print user storage area ( 31 ) on the top of the lower clamping part ( 30 ) at.

The upper platen of the hydraulic press applies force P to the tensile tester from the force application surface (FIG. 81 ) at the top of the plunger ( 80 ) out. The of the plunger ( 80 ) coming force P is trying hard, the bolt to be tested / the screw to be tested (the test piece) ( 50 ) by applying pressure to the lower clamping part ( 30 ) by means of the print user ( 70 ) to squeeze, stretch and break.

At break, the tensile test is completed by compression, and the value of breaking strength is read from the hydraulic press indicator.

The tensile tester ( 10 ) is so easily transportable that it fits in the cargo space of each motor vehicle, and has a light weight so that it can be brought by a private vehicle to the nearest neighbor with a hydraulic press. The device has features such as low cost, low weight, and easy transportation.

Another important feature is that, when testing strengths such as tensile strength, yield strength and wear resistance, without the diameter of bolts / screws ( 50 ) with a large diameter, such. For example, to reduce 60-80 mm, a huge tensile tester with a tensile or breaking capacity of 350-400 tonnes would be needed (its weight is approximately 4000-5000 kg), which is currently unavailable in Turkey. However, it would be possible to solve this problem by the present invention with a device having a weight of about 100 kg, which can be transported in the hold of a private vehicle.

The invention relates to a tensile testing device ( 10 ), the tensile tests on specimens ( 50 ), such as bolt / screw-shaped metal parts made possible by the compression method, characterized in that it comprises: the centering sleeve ( 20 ), which enables such centering of the tensile testing device ( 10 ) allows it to fit on the board of the hydraulic press; the lower clamping part ( 30 ), which the clamping of the movable in the centering sleeve ( 20 ) positioned bolt / screw (test piece) ( 50 ) from one side, and a print user storage area ( 31 ) to which the print user ( 70 ) Exerts pressure; the upper clamping part ( 40 ), which is the clamping of the immovable in the centering sleeve ( 20 ) positioned bolt / screw (test piece) ( 50 ) from the other side, and print user holes ( 41 ) through which the print user ( 70 ) runs; the plunger ( 80 ), the compression force by means of the pressure users ( 70 ) transmits to the lower chucking part.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 8322227 [0008]
• US 2014109694 [0010]

Claims (3)

Tensile testing device ( 10 ), the tensile tests on specimens ( 50 ), such as bolt / screw shaped metal parts made possible by the compression method, characterized in that it comprises: - a centering sleeve ( 20 ), which is such a centering of the tensile tester ( 10 ) allows it to fit on a board of the hydraulic press; A lower clamping part ( 30 ), which is a clamping of the movable in the centering sleeve ( 20 ) positioned bolt / screw (test piece) ( 50 ) from one side, and a print user storage area ( 31 ) to which a print user ( 70 ) Exerts pressure; An upper clamping part ( 40 ), which is a clamping of the immovable in the centering sleeve ( 20 ) positioned bolt / screw (test piece) ( 50 ) from the other side, and print user holes ( 41 ) through which the print user ( 70 ) runs; A plunger ( 80 ), the compression force by means of the pressure users ( 70 ) transmits to the lower chucking part. Tensile testing device ( 10 ) according to claim 1, characterized in that the tensile testing device ( 10 ) Pens as print users ( 70 ) used. Tensile testing device ( 10 ) according to claim 1 or 2, characterized in that it contains a coarsely shaped force introduction surface on the upper part of the plunger.

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