RU174875U1 - DEVICE FOR COOLING CUTTING TOOLS BY SPRAYED SOZH - Google Patents

Abstract

The invention relates to devices for cooling and lubricating a cutting tool and a cutting zone by sprayed coolant during machining of structural materials and can be used for turning, drilling, milling, grinding and other operations. The technical task of this utility model is to create a cooling and lubrication device for a cutting tool the minimum amount of coolant to equip equipment for the processing of structural materials. The problem is solved in that in the device for cooling waiting for the cutting tool with sprayed coolant, including a liquid atomizer, a compressed air supply pipe and a liquid supply pipe, the liquid sprayer is made in the form of a hollow tube with fasteners, an air swirl with screw channels mounted on the outside of the swirl and a central channel for supplying it is mounted in the pipe liquid, and an outlet nozzle with a cylindrical channel, the swirl and nozzle being mounted so that an annular channel is formed between them, and the liquid atomizer is mounted on a flexible eyeliner, which is the holder of the device and the line for supplying compressed air, in which the tube for supplying fluid to the sprayer is mounted. In this case, the nozzle and swirl can be moved relative to each other to regulate the size of the annular channel, the spraying parameters are adjusted using shut-off and control valves, and the flexible tube can be mounted on a magnetic base. The proposed utility model contains a new set of essential features providing cooling and lubrication cutting tools with a minimum amount of coolant on equipment for processing structural materials. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to devices for cooling and lubricating a cutting tool and a cutting zone by sprayed coolant during the machining of structural materials and can be used for turning, drilling, milling, grinding and other operations.

Known sprayer according to patent No. 2187383 (IPC B05B 7/00, B04C 7/00, B23Q 11/10, application 2000119267/02 of 07/19/2000), intended for spraying various materials. The sprayer contains a housing made in the form of a vortex tube, a pipeline for supplying compressed gas, a sampling pipe and a nozzle for outputting the sprayed medium. The disadvantages of the known device are the lack of constructive ability to adjust the parameters of the torch of the sprayed material and the inability to minimize the amount of sprayed medium.

Another device is known according to patent No. 2288089 (IPC B23Q 11/10, application 2004110652/02 of 04/07/2004), intended for cooling and lubricating the cutting tool. The device is made in the form of a Laval nozzle contains a gas pipeline, a reservoir with a liquid or solid-phase lubricating component and an additional external nozzle, the main functions of which are to reduce the angle of expansion of the gas stream from the nozzle to reduce the amount of COTS used. The disadvantages of the known device are the complexity and bulkiness of the design, as well as the limited regulation of the parameters of the torch of the sprayed medium due to the rectilinear flow of air through the nozzle.

The closest in technical essence to the claimed utility model is a method of spraying liquid materials according to patent No. 2433031 (IPC B23Q 11/10, B05B 7/04, application 2009141107/02 of November 6, 2009).

In the known method, comprising supplying compressed air and liquid material through a tube to the mixer with the formation of a gas-droplet mixture in its mixing chamber, which is supplied as a spray torch to the surface to be treated, the parameters of the spray torch are controlled by varying the pressure of the supplied compressed air and changing the chamber volume mixing by longitudinal movement of the tube to supply liquid material, using a mixer with a removable sleeve located in it and made by replaceable pipes a flask for feeding liquid material and a nozzle.

The disadvantages of this design are:

- the inconvenience of use and the inability to provide the required amount of fluid for cooling and lubrication with frequent replacement of the cutting tool and operations due to the presence of replaceable elements of the device;

- limited regulation of the parameters of the torch of the sprayed liquid due to the rectilinear flow of air through the nozzle;

- the inability to minimize the amount of sprayed liquid due to the location of the tube for supplying liquid material in the mixing chamber;

- not provided for the design of the device holder on the equipment for processing structural materials and the supply of compressed air and liquid.

The technical task of this utility model is to create a device for cooling and lubricating a cutting tool with a minimum amount of coolant to equip equipment for processing structural materials.

The problem is solved in that in the device for cooling the cutting tool with sprayed coolant, including a hollow tube with an outlet nozzle connected to the compressed air line, and a coolant supply tube installed inside the hollow tube, an air swirl with screw channels mounted on the outer side of the swirl, and the Central channel for supplying fluid, and the output nozzle with a cylindrical channel, and the swirl and nozzle are installed so that between them an annular channel is formed, and spray Tel fluid mounted on flexible hoses, which device holder and backbone of the compressed air supply, wherein the liquid supply tube mounted to the spray gun. In this case, the nozzle and swirl can be moved relative to each other to regulate the size of the annular channel, the spraying parameters are adjusted using shut-off and control valves, and the flexible tube can be mounted on a magnetic base.

The utility model is illustrated in the graphic material of FIG. 1 - a device for cooling a cutting tool with atomized coolant.

The device (Fig. 1) consists of a hollow tube with fasteners (1), in which there is an air swirl (2) with screw channels (3) and an output nozzle (4), which form an annular channel (5). The central channel of the swirl using a fluid supply tube (6) is connected to the coolant tank. The device is mounted on a flexible eyeliner (7), designed to supply compressed air, in addition, a tube for supplying liquid to the spray gun is mounted in it.

The device operates as follows, compressed air is fed through a flexible lead into the screw channels 3 of the swirler 2, at the outlet of which a swirling flow is created in the chamber formed by the conical surfaces of the swirl 2 and nozzle 4. The swirling air flow passing through the annular channel (5) creates a zone of reduced pressure on the cut of the central channel of the swirler into which coolant is ejected through the fluid supply pipe (6). As a result of the interaction of the swirling air stream with the ejected coolant, a finely dispersed stream of sprayed coolant is formed. The movement of the swirl and the nozzle relative to each other allows you to adjust the size of the annular channel, which allows you to configure the spraying process. To adjust the parameters of spraying, the device contains shut-off and control valves to minimize the amount of coolant used. Depending on the requirements of operation, the device can be mounted on technological equipment stationary or using a magnetic base.

Thus, the device allows you to use the minimum amount of coolant for cooling and lubricating the cutting tool through the use of a finely dispersed stream of sprayed coolant directed to the cutting zone at the required distance from the tool as part of technological equipment for processing structural materials.

The proposed utility model in comparison with the closest analogue allows cooling and lubrication of the cutting tool with a minimum amount of coolant as a tooling as part of the processing equipment.

The proposed utility model can be used on equipment for processing structural materials during machining (turning, drilling, milling, grinding and other operations).

Claims (2)

1. A device for cooling a cutting tool with atomized coolant, comprising a hollow tube with an outlet nozzle connected to a line for supplying compressed air, and a coolant tube installed inside the hollow tube, characterized in that it is equipped with an air swirl with screw channels made on its outer surface and with a central channel connected to the coolant supply pipe, wherein said swirler and nozzle are made with conical surfaces and are installed with education m between the swirl and the nozzle of the annular channel, and between their conical surfaces there are chambers for creating a swirling flow, which is connected with the annular channel, and the line for supplying compressed air is made in the form of a flexible connection with the possibility of using it as a device holder and placing a tube in it for coolant supply. 2. The device according to p. 1, characterized in that the said nozzle and swirl are made with the possibility of movement relative to each other to adjust the spray parameters.

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