RU202624U1 - Device for supplying lubricating technological media - Google Patents

Abstract

The utility model relates to the field of metal cutting and is intended for supplying STS of plant and animal origin in the form of an aerosol, as well as irrigation, a freely falling jet and a jet under pressure, depending on the requirements for the technological operation. The device for supplying lubricating technological media contains a switch , thermostat, channels for compressed gas supply, screws for adjusting the supply of compressed gas, nozzle, channel for supplying CTC, screws for adjusting CTC supply, heat and electric heaters, crucible, refractory heat-insulating material, protective case, thermocouple of the thermostat, cover, gasket, fixing screws, pressure gauges, gas ionizer nozzle, power cable, power supply, container for STS. The technical result of the utility model is the ability to supply lubricating technological media (STS) of plant and animal origin to the cutting zone in the form of an aerosol, by irrigation, a freely falling jet, as well as a jet under pressure, p thereby expanding the area of using vegetable oils and animal fats in the machining industry. The simplicity of the design and the versatility of replacing individual units determines the reliability and relative low cost of manufacturing the device, and for the possibility of using an STS different from the STS located in the crucible, an additional container for the STS is provided, which allows the STS to be supplied both by a freely falling jet and by a jet under pressure. The device also contains a gas ionizer that allows ionized gas to be supplied to the nozzle to form an aerosol. 1il.

Description

The utility model relates to the field of metal cutting and is designed to supply lubricating technological media of plant and animal origin in the form of an aerosol, as well as irrigation, a freely falling jet and a jet under pressure, depending on the requirements for the technological operation.

Known jet apparatus for carrying out processes in liquid and gaseous media (USSR AS No. 265075, IPC B05G, publ. 03/09/1970, bull. No. 10 Analog), in which it is possible to adjust the lubricant supply by increasing or decreasing the mixing chamber by moving the diffuser relative to the nozzle using a ball mechanism.

The field of application of the apparatus is chemical engineering.

The disadvantages of such a device is the impossibility of using technological media in a solid state of aggregation.

Known design of a nozzle for spraying viscous liquids (AS USSR No. 417121, IPC B05b 7/12, publ. 05/25/1975, bull. No. 19 Analog), which allows you to regulate the supply of lubricant by installing a tube on the nozzle connecting the lubricant supply pipes and air. When heated air is mixed with molten lubricant, an air-droplet mixture is formed, which is fully transported through a heated flexible heat-insulated nozzle to the working surface.

The disadvantages of the analogue are the lack of the ability to regulate the heating temperature of the material, the need to use non-standard components to create the installation and the large dimensions of the structure.

Known nozzle for coating corrosive liquids (RF patent No. 2008980 C1, IPC ⁵ B05B 7/12, publ. 03/15/1994, bull. No. 9. Analog), in which the annular gap adjustment unit is made in the form of a nut and lock nut placed on the product pipe, installed with the possibility of axial movement relative to the inner cone, while the union nut is connected to the outer surface of the inner cone, covering the product pipe, the surface of which is made with a groove groove and a retainer. The interaction of the swirling air flows and the liquid phase leads to the fragmentation of the liquid into droplets and the formation of an air-liquid torch of the annular type.

The disadvantage of the analogue is the low range of regulation of the parameters of the sprayed torch, as well as the complexity of the design used.

Known sprayer (RF patent No. 2329873 C2, IPC ⁷ B05B 7/00, B05B 7/28, publ. 27.07.2008, bull. No. 7. Analog), in which the change in the annular gap due to axial movement of the pipe, coaxially located in the housing, determines the parameters of the sprayed gas-droplet flow.

The disadvantage of the known analogue is the small range of regulation of the gas-droplet flow.

Known device for supplying lubricating-cooling liquid (AS USSR No. 874320, IPC ³ , В24В 55/02 // В23Q 11/10, publ. 23.10.1981, Bull. No. 39 Analog), providing the possibility of using as a cutting fluid (coolant) for high-viscosity oils and greases. The principle of operation of the device is that, in order to ensure the possibility of using high-viscosity oils and lubricants as a coolant, the device is equipped with a heating element located inside the nozzle.

The disadvantages of the known device are the low versatility and complexity of adjusting the coolant flow rate, which is performed by increasing the diameter and the number of outlets, which creates additional difficulties associated with the manufacture and replacement of the metering nozzle, there is also no possibility in a wide range to adjust the coolant supply method, for example , in the form of an aerosol, the efficiency of which is associated with a decrease in consumption and a high penetrating power.

A device for supplying lubricating technological media (STS) is known (patent for a useful model of the Russian Federation No. 197266 IPC B23Q 11/10, publ. 04/16/2020. Bulletin No. 11. Prototype), intended for supplying lubricating technological media of plant and animal origin to in the form of an aerosol, as well as irrigation, a freely falling jet and a jet under pressure, depending on the requirements for the technological operation.

The disadvantage of such a device is the low versatility of the design, because to use another type of STS, it is necessary to completely use up the STS, which is in the crucible; there is also no possibility of supplying ionized gas to form an air-oil mixture.

The technical result of the utility model is the ability to supply lubricating technological media (STS) of plant and animal origin to the cutting zone in the form of an aerosol, irrigation, a freely falling jet, as well as a jet under pressure, thereby expanding the area of using vegetable oils and animal fats in the machining industry. The simplicity of the design and the versatility of replacing individual units determines the reliability and relatively low cost of manufacturing the device, and for the possibility of using an STS different from the STS located in the crucible, an additional container for the STS is provided, which allows the STS to be supplied both by a freely falling jet and by a jet under pressure, as well the device contains a gas ionizer, which expands the technological capabilities of the device.

A device for supplying lubricating technological media (STS) to the cutting zone during blade processing, containing a nozzle for feeding STS into the cutting zone and channels for feeding STS into the nozzle, while the channels are equipped with heat and electric heaters installed along, the device is also equipped with a channel connected to the STS supply and a crucible located in a housing with a refractory heat-insulating material for placing the STS, closed with a lid with a gasket and fixing screws, on the outside of which heat and electric heaters are installed, a channel for supplying compressed gas connected to a nozzle made with the possibility of mixing compressed gas with a heated STS to form an aerosol , while a thermocouple is installed in the crucible, connected to a thermostat connected through a switch to the power supply circuit of heat electric heaters, and screws are installed in the channels for supplying compressed gas and STS to adjust the supply of compressed gas and STS, respectively, and for the possibility of using STS different from STS, find supplied in the crucible, an additional container for the STS is provided, which allows the STS to be supplied both by a freely falling jet and by a jet under pressure; the device also contains a gas ionizer, which expands the technological capabilities of the device.

The difference between this technical solution and the prototype is the fact that for the possibility of using an STS different from the STS located in the crucible, an additional container for the STS is provided, which allows the STS to be supplied both by a freely falling jet and by a jet under pressure; the device also contains a gas ionizer , which expands the technological capabilities of the device.

The utility model is shown in the drawing:

fig. 1 is a structural diagram of a device for supplying lubricating technological media.

The device for supplying lubricating technological media contains a switch 1, a thermostat 2, channels for supplying compressed gas 3, 16, 19, screws for adjusting the supply of compressed gas 4, 17, 24, nozzle 5, channel for supplying CTC 6, screws for adjusting the supply of CTC 7, 22, heat and electric heaters 8, 20, crucible 9, refractory heat-insulating material 10, protective case 11, thermocouple of thermostat 12, cover 13, 30, gasket 14, 29, fixing screws 15, 28, pressure gauges 18.25, gas ionizer nozzle 21 , power cable 23, power supply 26, capacity for STS 27.

The principle of operation of the device is as follows. Crucible 9 with STS, with the help of cover 13, gasket 14 and fixing screws 15, is hermetically closed, then power is supplied to heat and electric heaters 8, 20 using switch 1, after which the channel for feeding STS 6 and crucible 9 with STS are heated ... The heating temperature of the STS in the crucible 9 is controlled by the thermostat 2, the thermocouple 12 of which is installed on the cover 13 and immersed in the heated STS. On the thermostat scale 2, the required heating temperature of the STS is recorded, upon reaching which, the system will automatically turn off the power to the heat and electric heaters 8, 20. The molten STS, through the channel for supplying STS 6, enters the nozzle 5, then compressed gas is supplied through the channel for supplying compressed gas 3 gas, resulting in the mixing of the STS and compressed gas in the nozzle 5 of the device, forming an aerosol. With the help of screws for adjusting the supply of compressed gas 4, 17, manometers 18, 25 and a screw for adjusting the supply of CTC 7, the necessary aerosol parameters are provided. To supply STS with a freely falling jet, the supply of compressed gas is blocked by means of screws to adjust the supply of compressed gas 4.17. To supply the STS with a jet under pressure, through the compressed gas supply channel 16, compressed gas is supplied to the crucible 9, which displaces the STS. The STS flow is regulated by means of the STS 7 flow adjustment screw.

To reduce the heat losses of the heated STS, a refractory heat-insulating material 10 is located on the outer part of the crucible 9, protected from external mechanical impact by a metal protective casing 11.

Also, the device has an additional container for the CTC 27, which, with the help of the cover 30, the gasket 29 and the fixing screws 28, is hermetically sealed for the possibility of supplying the CTC with a jet under pressure. An additional container for the CTC 27 increases the versatility of the device, provided that there is still CTC left in the crucible 9, and it is not possible to use it up completely. In order to use the CTC, which is located in the container for CTC 27, it is necessary to block the CTC supply located in the crucible 9 using the screw for adjusting the supply of CTC 7, then using the screw to adjust the supply of compressed gas 24, and the channel for supplying compressed gas 19, compressed gas is supplied to the channel for supplying CTC 6, to clean the channel for supplying CTC 6 from the previous CTC, then using the screw for adjusting the supply of compressed gas 24, the supply of compressed gas to the channel for supplying CTC 6 is blocked. Using the screw for adjusting the supply of CTC 22 , is supplied by the STS, which is in the container for the STS 27. To supply the STS with a jet under pressure, through the channels for supplying compressed gas 16, into the container for the STS 27, compressed gas is supplied, displacing the STS. The STS flow is regulated by means of a screw for adjusting the STS 22 supply. The device is additionally equipped with a gas ionizer consisting of a gas ionizer nozzle 21, which is located in the compressed gas supply channel 3, and is connected to the power unit 26 through a power cable 23.

The device works as follows: the STS is immersed in the crucible, then closed with a lid. The tightness of the cover installation is ensured by the presence of a gasket and fixing screws. With the help of the switch, power is supplied to the heat and electric heaters and the crucible is heated from the STS and channels for supplying the STS. The heating temperature of the STS is controlled by a thermostat, the thermocouple of which is located on the crucible lid and immersed in the volume of the molten STS. At the moment the required temperature is reached, the thermostat automatically turns off the power to the heat and electric heaters until the temperature of the molten STS drops below a fixed value, then the power to the heat electric heaters is re-supplied. The CTC feed is made using a screw to adjust the CTC feed. Also, compressed gas is supplied through the channel for supplying compressed gas, which mixes with the molten CTC in the nozzle of the device, forming an aerosol, which in turn is regulated using screws for supplying compressed gas, a screw for adjusting the CTC, and pressure gauges. To supply the STS with a freely falling jet, the supply of compressed gas is blocked by means of screws to adjust the supply of compressed gas. To supply the STS with a jet under pressure, through the channel for supplying compressed gas, compressed gas is fed into the crucible, which ensures the transportation of the molten STS through the channels for supplying the STS to the nozzle. The flow rate of the CTC is controlled by a screw for adjusting the CTC flow. To reduce the heat losses of the heated STS, a refractory heat-insulating material is located on the outer part of the crucible, protected from external mechanical impact by a metal protective case. Also, the device has an additional tank for the STS, which is connected to the channel for supplying the STS. The capacity for the STS increases the versatility of using the device, in the case when it is necessary to use another STS, and the STS, which is in the crucible, cannot be completely used up. Also, the device is additionally equipped with a gas ionizer, consisting of a gas ionizer nozzle, which is located in the channel for supplying compressed gas, and is connected to the power unit via a power cable.

Claims (1)

A device for supplying lubricating technological media (STS) to the cutting zone during blade processing, containing a nozzle for feeding STS into the cutting zone and channels for supplying STS to the nozzle, while the channels are equipped with heat-electric heaters installed along the line, and the device is equipped with a channel connected to the STS supply channel and a crucible located in a housing with a refractory heat-insulating material for placing the STS, closed with a lid with a gasket and fixing screws, on the outside of which heat and electric heaters are installed, a channel for supplying compressed gas connected to a nozzle made with the possibility of mixing compressed gas with a heated STS to form an aerosol, at the same time, a thermocouple is installed in the crucible, connected to a thermostat connected through a switch to the power supply circuit of heat electric heaters, and screws are also installed in the channels for supplying compressed gas and STS to adjust the supply of compressed gas and STS, respectively, characterized in that for the possibility of using STS from personal from the STS located in the crucible, an additional container for the STS is provided.

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