PL243637B1 - Head for passive testing of steel ropes - Google Patents

Abstract

The head for passive testing of steel ropes, consisting of a sliding or rolling guidance system mounted to the supporting frame through an adjustment system that adapts the guidance system to the tested rope diameter, is characterized by the fact that a two-part, replaceable head is attached to its supporting frame (2) using a handle (11). a protective sleeve (5) with a collar (12) on which a two-part positioning system with magnetometric sensors (7) placed around the tested rope (4) is mounted. The positioning system consists of two opening half-rings (9) connected by a hinge mounted on the flange (12) of the protective sleeve (5), with flexible strips (8) attached around the circumference to each half-ring (9) in a form bent to the axis of the protective sleeve (5). ), at the ends of which there are magnetometric sensors (7). The positioning system has elastic and flexible strips (8), which, after closing the half rings (9) on the flange (12) of the protective sleeve (5), position the magnetometric sensors (7) regardless of the diameter of the protective sleeve (5) matched to the diameter of the rope (4) in range from d₁=20mm to d₂₌60mm. At the end of each strip (8), behind the magnetometric sensor (7), there is a bumper (10) that determines the distance of the magnetometric sensor (7) from the outer surface of the protective sleeve (5) and at the same time from the tested rope (4), through the elastic adjustment of the strips (8). ) to any external diameter of the protective sleeve (5).

Description

The subject of the invention is a head for passive testing of steel ropes in order to record magnetic anomalies, using the remanence of the tested rope as a source of diagnostic information. This head makes it possible to generate a signature showing the occurrence of damage in the tested rope and enables testing of compact ropes.

There is a head known from patent description PL211613 B1 that uses the effect of magnetic memory of metal and natural magnetization in the Earth's magnetic field, which has bidirectional magnetic sensors for changes in the value of the tangential and normal components of the magnetic field intensity and gradient, placed in a divided housing radially every 90°. Also known from the Polish patent description PL211862 B1 is a head for testing rope tendons containing a magnetic circuit in the body, consisting of pole pieces, between which there is a permanent magnet, an armature and a segment sensor. The segmented sensor is located in the axis of symmetry of the magnetic circuit and consists of at least three individual measurement sensors, which are connected to their sliding mechanism. The spacing of individual measurement sensors is adjusted using a screw with a thread with two different pitches. One part of the screw has a left-hand thread and the other has a right-hand thread. A method for measuring the technical condition of ropes in lifting devices is known from the patent description PL237563 B1, in which the tested section of the rope is magnetized, with points B of the rope located closer to the magnetizing circuit being magnetized more strongly, while points A, further away from the magnetic circuit, are magnetized weaker. The method is characterized by the additional use of a demagnetizing circuit with a width L, which demagnetizes the weaker magnetized points of the rope through a non-magnetic separator. Depending on the diameter of the tested rope, the intensity of magnetization changes by changing the parameter L, related to the width of the magnetization circuit. The subject of this invention is also a device for measuring the technical condition of ropes of lifting devices, which is characterized by the fact that the ferromagnetic element of the movable part of the measurement sensor is equipped with a non-magnetic separator, magnetically dividing the measurement sensor into two parts and that it is mounted on the movable part of the measurement sensor. a demagnetizing circuit of width L. Likewise, GB2012966 A discloses a device of the above type which includes magnetizing means having pole pieces arranged to surround and provide a constant magnetizing force along the length of the wire rope, along its axis, and a Hall effect magnetic sensor under pole pieces in the air gaps to measure the magnetic field coupled to the object to provide, when compared to a level associated with a known rope in good condition, an indication of the condition of the cross-sectional surface of the rope under test. However, the Japanese patent JP2005089172 A discloses a rope tester that can relatively effectively and simultaneously inspect the damage of multiple steel ropes, can simplify the inspection and improve its effectiveness. In the wire rope tester, the passing ropes are magnetized by permanent magnets, and the magnetic leakage flux generated when the wire breaks is detected by the detection coil. The detector has multiple parallel channels to guide multiple wire ropes. Underneath each guide channel is a magnetic circuit element including a permanent magnet and a magnetization sensing body having a sensing coil member. Adjacent magnetization detection bodies are mutually offset in the longitudinal direction of the groove, and the magnetic poles of the permanent magnets are arranged in the opposite direction. In turn, patent application EP0845672 A1 discloses a device for monitoring the damage indicator of a steel rope. To check the condition of the wire rope, it is passed through a monitoring device and a damage indicator is provided to the user on a hand-held display.

One of the great advantages of this monitoring device is that it requires no interpretation from the user.

The aim of the invention is to develop a head that will enable the registration of magnetic anomalies using a passive method, without additional sources of magnetic field, where measurement sensors located around the tested rope will allow for the imaging of the scattering field, in which changes due to the breakage of wires in the tested rope are visible.

The essence of the head for passive testing of steel ropes, consisting of a sliding or rolling guidance system mounted to the supporting frame through an adjustment system that adapts the guidance system to the tested rope diameter, is characterized by the fact that a two-part, replaceable protective sleeve with a collar is attached to the supporting frame using a handle. which is equipped with a two-part positioning system with magnetometric sensors placed around the tested rope, which consists of two opening half-rings connected by a hinge, mounted on the flange of the protective sleeve, and elastic and flexible strips are attached to each half-ring around the circumference in the form of bent to the axis of the protective sleeve, at the ends of which there are magnetometric sensors, and behind them there are bumpers.

Preferably, the positioning system has the length of the strips selected so that their ends adhere elastically to the outer surface of the replaceable protective sleeve, regardless of its diameter, matched to the diameter of the rope in the range from di = 20 mm to d2 = 60 mm.

Preferably, at the end of each strip, behind the magnetometric sensor, there is a bumper (also called a limiter or slider) that determines the distance of the magnetometric sensor from the outer surface of the protective sleeve and, at the same time, from the tested rope, by elastically adapting the strips to any external diameter of the protective sleeve. The number of sensors placed around the perimeter depends on the dimensions of the active elements used.

The solution makes it possible to test ropes without additional magnetization. The advantage of the solution is the registration of the rope remanence and, after appropriate filtration, obtaining information about magnetic anomalies generated by damage.

The subject of the invention is shown in an exemplary embodiment in a schematic drawing, where Fig. 1 shows the location of the measuring elements and the guiding system of the tested rope, and Fig. 2 shows the positioning system of magnetometric sensors arranged around the tested rope.

The head according to the invention is equipped with a guidance system 1 and a two-part support frame 2 with an adjustment system 3 for the steel rope 4 and a positioning system 6 for magnetometric sensors 7.

The positioning system 6 consists of two symmetrical half-rings 9 connected by a hinge 13 and connected to the flange 12 of a two-piece protective sleeve 5 with different internal diameters, which are connected to a two-part supporting frame 2 by a handle 11. To each half-ring 9, elastic and flexible strips 8, made of non-magnetic material, bent to the axis of the rope 4 so that they adhere elastically to the protective sleeve 5 with diameters ranging from 20 mm to 60 mm. There are magnetometric sensors 7 at the ends of the strips 8, and behind them there are bumpers 10 that limit the distance of the magnetometric sensor 7 from the outer surface of the protective sleeve 5.

As shown in Fig. 1, the position of the measuring elements of the magnetometric sensors 7 depends on the diameter of the tested rope 4, which is related to the diameter of the protective sleeve 5. The example embodiment shows the position of the two extreme diameters of the protective sleeves 5, diameter di and diameter d2.

Electrical signals from each magnetometric sensor 7 are conducted along the surface of the strip 8 to the half ring 9, on which there are glued systems for conditioning the measurement signals. The protective sleeves 5 with a flange 12 and the positioning system 6 mounted on them are connected by a handle 11 to a two-part supporting frame 2, which is equipped with an adjustment system 3 of the guidance system 1 (rollers) that adjusts the head to the diameter of the tested rope 4. All structural elements of the measuring head are made are made of non-magnetic materials, e.g. plastic, aluminum, etc. Fig. 2 shows the positioning system 6 of magnetometric sensors 7 arranged around the tested rope 4, which consists of two symmetrically placed half-rings 9 connected by a hinge 13 enabling them to be fastened around the rope 4 on the collar 12 (with a constant external diameter) two-piece protective sleeve 5. The head is equipped with a set of replaceable protective sleeves 5 with different internal diameters with flanges 12 with a fixed diameter.

The positioning system 6 has elastic and flexible strips 8 which, after closing the half-rings 9 on the flange of the protective sleeve 5, position the magnetometric sensors 7 without additional regulatory elements.

List of symbols in the drawing:

- guidance system

- supporting frame

- regulation system

- rope

- protective sleeve

- positioning system

- magnetometric sensors

- strips

- half rings

- bumper

- handle

- collar

- hinge

Claims (3)

1. Head for passive testing of steel ropes, consisting of a sliding or rolling guidance system mounted to the supporting frame through an adjustment system that adapts the guidance system to the tested rope diameter, characterized in that a two-part replaceable is attached to the supporting frame (2) using a handle (11). protective sleeve (5) with a flange (12) on which a two-part positioning system (6) is mounted, which consists of two opening half-rings (9) connected by a hinge (13) mounted on the flange (12) of the protective sleeve (5), whereby Each half-ring (9) has elastic and flexible strips (8) attached around its circumference in the form of a protective sleeve (5) bent to the axis, with magnetometric sensors (7) located at their ends. 2. Head according to claim 2, characterized in that the positioning system (6) has elastic and flexible strips (8), which, after closing the half rings (9) on the flange (12) of the protective sleeve (5), position the magnetometric sensors (7) regardless of the diameter of the protective sleeve (5). ) matched to the diameter of the rope (4) in the range from d1 = 20 mm to d2 = 60 mm. 3. Head according to claim 3, characterized in that at the end of each elastic and flexible strip (8), behind the magnetometric sensor (7), there is a bumper (10) that determines the distance of the magnetometric sensor (7) from the outer surface of the protective sleeve (5) and, at the same time, from the tested rope (4). ).