RU188787U1 - SHOCK-POINT MARKER - Google Patents

Abstract

The shock-point marking device relates to the field of mechanical engineering, more specifically, to devices for applying information data to the surface of metal products, which is a marking, i.e. conventional signs, letters, numbers, graphic signs or inscriptions on an object, for the purpose of its further identification, indication of its properties and characteristics. Markirator contains stamping head with percussion mechanism for carbide needle, electronic control system and clamping device. On the contact surface of the clamping device neodymium magnets are fixed, which create a clamping force. EFFECT: increased reliability of fixing the marking device in the working position and increased convenience in use. 3 il.

Description

The utility model relates to the field of mechanical engineering, more specifically, to devices for applying to the surface of metal products information data representing a marking, i.e. conventional signs, letters, numbers, graphic signs or inscriptions on an object, for the purpose of its further identification, indication of its properties and characteristics.

There is a method of marking products according to the patent of the Russian Federation for invention No. 2611997, publ. 03/01/2017.

The method consists in performing marking indented. To perform it, use a marking machine in the form of a stamp with an individual symbolic sign. The marking includes a main identification mark in the form of a symbolic mark and an additional identification mark in the form of a recess of a round shape. Pressing the mark on the surface of the product is carried out to a depth of not more than 0.5 mm.

The technical solution allows to ensure the identification of products relative to their brand, to increase and expand the identification and information capabilities of marking, to simplify and reduce the technological operations during its implementation.

The disadvantage of this method of marking is the limited field of information available to be applied to the product, since stamps with a stable image are used.

Known shock-point method of marking (see http://dpm-system.ru/katalog-tovarov/igloudarnaya-pnevmaticheskaya-markirovka).

Shock-point method is to use equipment equipped with a needle of high strength, made of hard alloys in combination with ceramics. Such a shock dot marker creates small grooves in the surface of the product. A set of grooves created by needles, form inscriptions and images in the form of letters, numbers, bar codes, etc. items. Such images are easily perceived by both human eyes and special scanners, whose function is to identify products.

To secure the marking device on the product, devices are used to fix the marking device on the surface.

Known electromagnetic clamp (see Yandex. Pictures electromagnetic clamping of the marking machine), consisting of a thrust bracket with a clamping plate, electromagnets attached to it (2x or 4x), with power supply through the power supply, reducing the voltage of the electrical network from 220V to 18V.

The lack of electromagnetic clamping is the large size and complexity of the service. The clamp contains a number of components necessary for the operation of an electromagnet, including an electromagnet winding, a control cable, a power supply unit, and a lowering of the power supply network.

The task of the claimed utility model is to simplify the design of the shock-point marking machine with a clamping device.

The technical result is to increase the reliability of the fixation of the markirator in the working position and increased ease of use.

The technical result is achieved by a percussion point marking device containing a punching head with a percussion mechanism for a carbide needle, an electronic control system and a clamping device. On the contact surface of the clamping device neodymium magnets are fixed, which create a clamping force.

Neodymium magnet is a permanent, powerful rare-earth magnet consisting of an alloy of neodymium, boron and iron (see ru.wikipedia.org> Neodymium magnet). Known for its power of attraction and high resistance to demagnetization.

The drawings show the inventive percussion point marker.

FIG. 1 - a general view of a portable shock-point markirator installed in the working position on the product being marked; FIG. 2 - thrust frame of the marker in the axonometric projection, view from the side of the pressed working surface; FIG. 3 - portable shock-point markirator with an electromagnetic clip.

Markirator 1 contains in the head part a punching head in which there is a percussion mechanism with a needle 2 and a stop frame 3. The frame is pressed to the surface of the marked product 4 by means of neodymium magnets attached to it 5. Electromagnets are mounted on analogous devices with electromagnetic clamp on the support frame 6

Neodymium magnets make it possible to obtain better clamping properties of the device, lower metal consumption of the structure, lower cost of the device, to increase the ease of use, including in conditions of limited access to the marked surface. To install the marker it is sufficient to bring the clamp together with the actuator of the marker to the marked surface. When this occurs, a reliable coupling (magnetic biasing) of the clamp to the marked surface due to the action of neodymium magnets.

When operating the utility model, it was confirmed that the claimed technical result is achieved - improving the reliability of fixing the marking device in the working position and increasing convenience in use.

Claims (1)

Shock-point markirator containing stamping head with percussion mechanism for carbide needle, electronic control system and clamping device, characterized in that neodymium magnets are fixed on the contact surface of the clamping device to create a clamping force.

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