RU104316U1 - DEVICE FOR DETERMINING CAVITIES AND DEFECTS IN MATERIALS - Google Patents

Abstract

 A device for determining cavities and defects in materials, comprising a body, hammer, tip and solenoid, characterized in that the hammer is made of a solid material having a hardness of HV 10 ÷ 1000 MPa and a density of ρ 0.5 ÷ 10 g / cm3, and the surface of the hammer in contact with the solenoid is covered with a ferromagnetic layer of thickness h.

Description

The utility model relates to test equipment and can be used to identify defects in the form of cavities and heterogeneities in the structure of the test material in building and other structures.

A device for determining defects in materials is known, comprising a body, a drummer with a rod located therein, a tip interacting with the drummer, and an electromagnetic rebound velocity sensor; a solenoid connected to a diode and an alternating current source; the sensor has a ferromagnetic cap rigidly connected to the rod and the permanent magnet of the speed sensor / A.S. USSR, No. 1597688 A2, G01, No. 3/52; Bull. No. 37 dated 07.10.90 /.

Closest to the claimed utility model is a device for determining cavities and defects in materials, comprising a housing, a drummer with a rod located therein, a tip, a solenoid, a membrane and a rigid annular plate interacting with the surface of the test material. / A.S. USSR, No. 1758502 A1, G01N 3/52, Bull. No 32 from 08/30/92 /.

A disadvantage of the known devices is that the striker is made of steel ferromagnetic material and a massive tip, which reduces the sensitivity of the rebound in the presence of a cavity or defect in the test material.

As experiments have shown, when diagnosing the quality of the test material, determining the cavities and defects in it, it is not always advantageous to use a heavy steel hammer.

The objective of the proposed utility model is to increase the sensitivity of the device by increasing the rebound of the striker from the test material.

The problem is solved due to the fact that in the device for determining cavities and defects in materials containing a housing (not shown in the drawing), the hammer, tip and solenoid, the hammer is made of a solid material having a hardness of HV 10 ÷ 1000 MPa and density ρ 0, 5 ÷ 10 g / cm ³ , and the surface of the impactor in contact with the solenoid is covered with a ferromagnetic layer of thickness h.

Figure 1 presents the drummer of the device for determining cavities and defects in materials.

A device for determining cavities and defects in materials, contains a housing (not shown in the drawing), hammer 1, tip 2 and solenoid 3, hammer 2 is made of a solid material having a hardness of HV 10 ÷ 1000 MPa and a density of ρ 0.5 ÷ 10 g / cm ³ , and the surface of the striker 1 in contact with the solenoid 3 is covered with a ferromagnetic layer 4 of thickness h, which closes with the magnetic circuit of the solenoid of the electromagnetic unit of the device (not shown in FIG. 1).

A device for determining cavities and defects in materials as follows.

The drummer placed and installed in the electromagnetic device is in contact with the solenoid, which in turn is connected to the magnetic circuit of the electromagnetic unit (not shown in FIG. 1). The impactor falls on the test material, upon impact, the impactor tip contacts the test material and bounces off it, acts on the sensor, which detects its rebound speed, the magnitude of the latter depends on the presence of cavities, defects and on the hardness of the studied surface of the material.

The advantages of the proposed hammer is that a hammer made of non-ferromagnetic material interacts with the magnetic circuit of the motor solenoid, thereby performing its duty cycle. The rebound speed of the striker is noticeably greater, and therefore the signal on the sensor is stronger if the strike is carried out by a "light" striker on the test material with a density ρ = 0.5 ÷ 4 g / cm ³ , for example, made of wood, plastic, magnesium or aluminum alloys , and the striker contains a layer of ferromagnetic material h, in addition, such strikers can be used in electromagnetic motors, increasing the difference in signals when a light striker bounces from an exemplary quality material from the same material, but with defects, cavities and pu totami. And the greater the difference in the speed of the rebound of the drummer, the easier it is to diagnose the test material: wood, plastic, lightweight building concrete, etc.

Claims (1)

A device for determining cavities and defects in materials, comprising a housing, a hammer, a tip and a solenoid, characterized in that the hammer is made of a solid material having a hardness of HV 10 ÷ 1000 MPa and a density of ρ 0.5 ÷ 10 g / cm ³ and the surface the impactor in contact with the solenoid is covered with a ferromagnetic layer of thickness h.