RU88448U1 - ADJUSTMENT TO DYNAMIC SMALL-SIZED SOLIDER - Google Patents

Abstract

1. The device for the hardness tester, designed for repeated measurements of the hardness of the material inside the product such as a long pipe, containing a holder for moving the hardness tester having a shutter release button on the test surface and a pressing unit to the test surface, characterized in that it further comprises a hardness tester charging unit in working position and the trigger mechanism for activating the hardness tester, while the node pressing against the test surface is equipped with a clamp of the pressed position of the hardness tester. ! 2. The device for the hardness tester, designed for repeated measurements of the hardness of the material inside the product such as a lengthy pipe according to claim 1, characterized in that the site of pressing against the test surface with the clamp of the pressed position of the hardness tester consists of a housing in which a moving spring-loaded strut equipped with a support roller is located , the unit for cocking the hardness tester into the working position is made in the form of a swinging fork connected by grooves to the trunnions of the ring resting on the shoulder of the cocking body, while turning the fork for cocking of the hardness tester is provided through a cable transmission from the handle of the cocking unit, and the trigger mechanism for triggering the hardness tester includes a swinging bar, supported by the trigger button of the hardness tester and connected through the rod, lever and cable transmission with the trigger.

Description

The invention relates to the field of measuring technology, in particular, to a device made in the form of a device, which is supplied with a hardness tester, for example, dynamic small-sized during repeated measurements of the hardness of the material inside a product such as a long pipe, for example, inside an autoclave reactor with a length of about 3 meters.

Non-destructive testing devices are known, including those for controlling the hardness of large-sized steel and cast iron products, which include a dynamic hardness tester 54-359M (see, for example, the article by Pavlov A.G. et al. " Non-destructive testing devices developed and manufactured by State Unitary Enterprise TsNIIMaterialov, Metalworking, 2001, No. 1, pp. 66-67. Moreover, with all the advantages of such devices, it is necessary to measure hardness in the depth of a large pipe type part, and even more so if it is necessary to make several measurements, and even with shift, there are great difficulties and hardships.

It is known to adapt to a TK type hardness tester (see, for example, RF patent for invention No. 2301984) intended for measuring the hardness of standard samples after end hardening, which it can be equipped with when hardening steels and alloys by end hardening in factory laboratories and educational institutions. The task in this case is to carry out the rotation of the investigated surfaces to the hardness tester not manually, but using various mechanisms. To do this, it contains a prismatic table, a clamping mechanism, a mechanism for moving the sample at a given distance, determined by a scale ruler. In this case, the sample is fixed in such a way that its test surface is normal to the load line P, and the end face of the sample is under the indenter. After that, the entire assembly is installed in the hardness tester, while moving the sample along the surface to be examined is carried out by the movement mechanism. However, this device for hardness tester cannot provide the ability to determine the required hardness measurements using a hardness tester inside a part of considerable length.

The technical result, to which the claimed utility model is directed, is to enable the required hardness measurements to be carried out using a dynamic small-sized hardness tester inside a part of a considerable length, while cocking and releasing the trigger button of the hardness tester, in addition, the hardness tester should be pressed against the investigated plane and is located at right angles to it.

To achieve the specified technical result in the inventive device for a dynamic small-sized hardness tester, designed for repeated measurements of the hardness of the material inside the product such as a long pipe, containing a holder for moving the hardness tester having a shutter release button on the test surface, the pressing unit to the test surface further comprises a hardness tapping device with a handle and a trigger mechanism for operating the hardness tester, while the node is pressed to the investigated surface is provided with a retainer pressed position durometer. In addition, the node pressing against the test surface with the clamp of the pressed position of the hardness tester can be made up of a housing in which there is a moving spring-loaded strut equipped with a support roller, the unit for charging the hardness tester into the working position can be made in the form of a swinging fork connected by grooves with the axles of the ring based on the shoulder of the cocking case, and the rotation of the plug for cocking the hardness tester can be provided through a cable transmission from the handle of the cocking unit, in addition durometer trigger mechanism may include rocking the bar resting on the shutter release button hardness and linked through thrust lever and wire-transfer to the release trigger.

The inventive device for the hardness tester with the indicated design features, including a holder for moving the hardness tester along the test surface, a pressing unit having a clamp of the pressed position, a unit for charging the hardness tester into the working position and the trigger mechanism for operating the hardness tester, allows making multiple measurements inside the part at a depth, bringing them to a display located outside the part.

Figure 1 shows a General view of the inventive device, in Fig. 2 - node pressure, figure 3 - trigger mechanism, figure 4 - cocking unit.

To measure the hardness of the material inside the product such as a long pipe using a dynamic small-sized hardness tester, the claimed device is used. The hardness gage sensor, placed in the grip of the holder, must be inserted into the part, placed in the place to be studied, press the hardness gage sensor to the surface to be studied, remotely cock and lower it (trigger) it. The design of a dynamic small-sized hardness tester for determining the hardness of the material requires a 4-fold sequential actuation of the sensor to determine the hardness of the material in this place with an offset of at least 3 mm from the previous point of operation. For this, the clamped position is released, shifted by a distance of 3 ... 5 mm in any direction along the surface under study, and the clamp is fixed at a new point. Next, re-cocking and descent is performed, and so on up to 4 times, after which the hardness value in the selected units is displayed. Thus, by moving the hardness sensor along the investigated inner surface of the product, hardness is measured in any of the places of interest.

The inventive device for a hardness tester, for example, dynamic small-sized type 54-359M, contains a holder 1, in the form of a pipe, on which the tong 2 is mounted, and in which the sensor 3 of the hardness tester is fixed. For a clear movement along the axis, the block of rollers 4 is also intended, as well as the pressing unit, including a hollow stand 5 welded to the holder 1, in which the rod 6 is placed with a roller 7, resting on the upper surface of the investigated diameter. The rod 6 is spring-loaded with a spring 8, which allows you to freely enter it further with the help of a fork 9, a rod 10, a screw - latch 11 to fix the pressed position to the surface under study. In order to press the shutter release button 12 of the sensor 3 of the hardness tester at the right time, the trigger is made, including the trigger 13 connected via a cable gear 14, a lever 15, a rod 16 with a swinging rod 17 attached to one end of the rack 5 and the other the end resting on the trigger button 12 of the sensor 3 of the hardness tester. To return the strap 17 to its original position, a spring 18 is provided. For cocking the sensor 3 of the hardness tester, a node for cocking the sensor 3 of the hardness tester into the working position is provided, which is made in the form of a swinging fork 19 connected by grooves 20 to the pins 21 of the ring 22, resting on the shoulder 23 of the cocking housing 24 . In this case, the rotation of the plug 19 for cocking the sensor 3 of the hardness tester is ensured by cable transmission 25 and through the roller 26 from the handle 27 of the cocking unit. To return the fork 19 with the ring 22 to its original position, a spring 28 is provided.

To cock the triggering mechanism of the sensor 3 of the hardness tester, it is necessary by pulling the handle 27 to pull the cable of the cable transmission 25, informing the fork 19 along with the ring 22, and with them the cocking device of the sensor 3 through the roller 26. When the handle 27 is released, the fork 19 under the action the spring 28 together with the ring 22 and the cocking device of the sensor 3 is returned to its original position. Thus, the device is cocked.

To carry out the descent of the cocked hardness tester, the trigger mechanism is used when the trigger 13 is acted upon, transmitting the lever 15, and the traction 16 through the cable gear 14, to the swinging bar 17, which presses the trigger button 12 of the hardness tester. The device is triggering. When the trigger 13 is released under the action of the spring 18, the bar returns to its original position.

To carry out the pressing of the sensor 3 of the hardness tester and fixing, the pressing unit is used, when loosening the fixing screw 11, rotating it with a fork 9 using the rod 10, the sensor 3 can be moved along the surface to be examined, and tightening the fixing screw 11 provides its rigid fixation in the vertical position.

Claims (2)

1. The device for the hardness tester, designed for repeated measurements of the hardness of the material inside the product such as a long pipe, containing a holder for moving the hardness tester having a shutter release button on the test surface and a pressing unit to the test surface, characterized in that it further comprises a hardness tester charging unit in working position and the trigger mechanism for activating the hardness tester, while the node pressing against the test surface is equipped with a clamp of the pressed position of the hardness tester. 2. The device for the hardness tester, designed for repeated measurements of the hardness of the material inside the product such as a lengthy pipe according to claim 1, characterized in that the site of pressing against the test surface with the clamp of the pressed position of the hardness tester consists of a housing in which a moving spring-loaded strut equipped with a support roller is located , the unit for cocking the hardness tester into the working position is made in the form of a swinging fork connected by grooves to the trunnions of the ring resting on the shoulder of the cocking body, while turning the fork for cocking of the hardness tester is provided through a cable transmission from the handle of the cocking unit, and the trigger mechanism for triggering the hardness tester includes a swinging bar, supported by the trigger button of the hardness tester and connected through the rod, lever and cable transmission with the trigger.