RU162822U1 - Cryogenic treatment chamber of cast iron or steel products - Google Patents

Abstract

1. A chamber for cryogenic treatment of cast iron or steel products, comprising an outer and inner case, a cover, a control system with a valve connected to an inlet device installed in the inner case for supplying coolant to it, and a temperature sensor, characterized in that it is equipped with a fan with a heating element located on the inner surface of the lid, while the inner case is installed on the bottom of the outer case on perforated supports with the formation of a gap between their walls, and in the upper the parts of the outer and inner cases are connected by a plate of heat-insulating material, and the inner case is provided with a perforated tray, and in the upper part of the inner case and the lower central part of the outer case are channels communicating the capacity of the inner case with the said gap, which is in communication with the external environment, the ratio the passage section of the channels in the upper part of the inner case exceeds by 10-20 times the passage section of the valve connected to the inlet device for supplying coolant. 2. The chamber according to claim 1, characterized in that the outer and inner shells are made of porous insulating material and are lined with metal sheets. 3. The camera according to claim 1, characterized in that the inlet device is made in the form of a collector. 4. The camera according to claim 1, characterized in that the temperature sensor is connected to the control system. The chamber according to claim 1, characterized in that the lid is hinged from a porous heat-insulating material with a metal cladding, while the outer part of the metal cladding is connected to the inner part through a spacer made of heat

Description

Cryogenic processing chamber for cast iron or steel products

The utility model relates to metallurgy and can be used to harden, increase wear resistance, erosion resistance, cyclic strength of cast iron or steel products, including parts and tools, by thermal (cryogenic) processing.

Known heat treatment chamber (WO 02/14758 A1) consisting of multilayer thermally insulated walls, lids, bypass channels for the coolant, devices and channels for convection of air and hadonosa, control system.

The disadvantage of this chamber is the high consumption of coolant (liquid nitrogen): due to heat transfer through the walls of the chamber body, with increasing temperature in the chamber, it is necessary to supply additional portions of the coolant inside the chamber, which displace the atmosphere contained in it before that and having a temperature through a special opening close to the temperature inside the chamber (to the operating temperature of the cryogenic treatment) set by the control system.

The technical task of the utility model is to reduce the flow of refrigerant.

The technical result is achieved in a chamber for cryogenic processing of cast iron or steel products (hereinafter referred to as the chamber), comprising an external and internal housing, a cover, a control system with a valve connected to an inlet device installed in an internal housing for supplying coolant to it, and a temperature sensor . The chamber is equipped with a fan with a heating element located on the inner surface of the lid, while the inner case is mounted on the bottom of the outer case on perforated supports to form a gap between their walls, and in the upper part the outer and inner cases are connected by a plate of heat-insulating material, and the inner case is equipped with perforated tray, and in the upper part of the inner casing and the lower central part of the outer casing are channels communicating the capacity of the inner casing with omyanutym gap which communicates with the external environment, wherein the ratio of the flow channel cross section at the top of the inner housing exceeds 10-20 times the passage section of the valve connected to the inlet means for supplying coolant. The outer and inner shells are made of porous insulating material and are lined with metal sheets. The intake device is made in the form of a collector. The temperature sensor is connected to the control system. The cover is hinged from a porous heat-insulating material with a metal cladding, while the outer part of the metal cladding is connected to the inner part through a spacer made of heat-insulating material.

The utility model is illustrated by the drawings:

FIG. 1 - sectional camera;

FIG. 2 - camera, side view;

FIG. 3 - camera, rear view.

The chamber, which is an isothermal box 1, consists of a cover 2, external and internal cases 9, 10, made with the formation of a gap 27 between the walls of these buildings 9, 10. The cover 2 is hinged and mounted on hinge hinges 3 and equipped with a handle 4 and locking mechanisms 5.

The outer and inner cases 9, 10 are made of porous heat-insulating material, for example, polyurethane foam, and are lined with metal sheets to ensure operational strength. The inner casing 10 is installed on the bottom of the outer casing 9 through perforated supports 11 made, for example, of a square pipe with holes for free air passage. In the upper part, the outer and inner cases 9, 10 are connected by a plate 12 of a heat-insulating material that serves as a thermal bridge. The inner housing 10 is provided with a perforated tray 15, for example, a mesh installed on the bottom, for laying the processed products.

The upper part of the inner casing 10 is provided with channels 13 communicating the capacity of the inner casing 10 with a gap of 2 7 (with interwall space 27). The channels 13 are made mainly in the form of one or more through holes equally distributed along the perimeter, made in the side walls of the inner housing 10, at the minimum possible distance from their upper edge. The channels 13 can also be made in the form of slots on the upper ends of the side walls of the inner case 10. The arrangement of the channels 13 in the upper part of the inner case 10 provides an exit from the capacity of the inner case 10 into the working gas gap 27 with the highest temperature. The total bore of the channels 13 mainly exceeds 10 to 20 times the bore of the valve 7. The lower part of the outer casing 9 is equipped with one or more channels 14, communicating the gap 27 with the external environment. Channel 14 is made in the form of a through hole 14 in the center of the bottom. When making several through holes 14, they are all located near the center of the bottom. The total flow area of the channels 14 is not less than the total flow area of the channels 13. Thus, the circulation of the working gas between the capacity of the inner housing 10 and the external environment surrounding the chamber.

The camera is equipped with a control system 6 with a valve 7 connected to an inlet device serving to supply coolant installed in the inner case 10. The inlet device is made in the form of a collector 16 - a metal tube 16 with uniformly distributed holes with a diameter of 1-1.5 mm, with a common the area of the openings is not less than the area of the passage section of the valve 7. The inlet device can be made in the form of nozzles or other devices through which liquid or gaseous coolant (for example, liquid or gaseous nitrogen) can t be fed into the container 10 of the inner housing.

The control system 6 is connected to the temperature sensor 28. The temperature sensor 28 and the collector 16 are installed through holes in the walls of the isothermal duct 1. Valve 7 is made in

in the form of an electromagnetic valve and provides a coolant supply through a metal sleeve 25 from the cryogenic tank to the collector 16.

At the upper end, formed by the outer and inner cases 9, 10, a gasket 17 is made of heat-insulating material, preventing the leakage of coolant through the joint with cover 2. Cover 2 is hinged, made of porous heat-insulating material (polyurethane foam) with metal lining, the outer part of the metal lining is connected with the inside through a spacer 18 of heat-insulating material. An impeller 19 of a centrifugal fan is located on the inner surface of the cover 2. The axis of the impeller 20 is brought out through the sealing sleeve 21 to the engine 22 mounted on the outer surface of the cover 2 and closed by a protective casing 23. Around the fan impeller 19 is installed a heating element 24, for example, an electric heater (electric heater).

The camera control system monitors the operation of the electromagnetic valve 7, the fan and the heating element 24, depending on the given program and the temperature sensor 28. The operation is controlled and the program parameters are entered using the touch screen 26 mounted on the control system body 6.

On the bottom of the camera mounted wheel support 8 for its movement.

The camera operates as follows.

The products to be processed are placed on the pallet 15. At the start of the working cycle of the chamber, a centrifugal fan is turned on, providing constant circulation of the atmosphere (a mixture of coolant and air) and a uniform temperature distribution in the capacity of the inner casing 10. The temperature sensor 28 is processed by the control system 6 for compliance with a given program and system control 6 opens and closes valve 7. At the same time, a portion of the coolant enters the chamber, displacing 10 atm contained in the capacity of the inner case scope through the channels 13 into the gap 27, and further, beyond the camera. If it is necessary to increase the temperature, the control system 6 includes a heating element 24.

Due to the fact that the gas temperature in the gap 27 (in the inter-wall space) is close to the temperature in the container of the inner chamber 10, heat transfer through the walls of the inner container 10 is minimal. The necessary thermal power of the chamber, at the same time, is ensured not only by the supply of a new coolant through valve 7, but also by the low temperature of the atmosphere located in the gap 27. Thus, a coolant savings of 25-50% is achieved in comparison with chambers in which the coolant is ejected from the working tanks are made directly into the external environment.

Claims (5)

1. A chamber for cryogenic treatment of cast iron or steel products, comprising an outer and inner case, a cover, a control system with a valve connected to an inlet device installed in the inner case for supplying coolant to it, and a temperature sensor, characterized in that it is equipped with a fan with a heating element located on the inner surface of the lid, while the inner case is installed on the bottom of the outer case on perforated supports with the formation of a gap between their walls, and in the upper the parts of the outer and inner cases are connected by a plate of heat-insulating material, and the inner case is provided with a perforated tray, and in the upper part of the inner case and the lower central part of the outer case are channels communicating the capacity of the inner case with the said gap, which is in communication with the external environment, the ratio the passage section of the channels in the upper part of the inner case exceeds by 10-20 times the passage section of the valve connected to the inlet device for supplying the coolant. 2. The chamber according to claim 1, characterized in that the outer and inner shells are made of porous insulating material and are lined with metal sheets. 3. The camera according to claim 1, characterized in that the intake device is made in the form of a collector. 4. The camera according to claim 1, characterized in that the temperature sensor is connected to the control system. 5. The chamber according to claim 1, characterized in that the lid is hinged from a porous heat-insulating material with a metal cladding, while the outer part of the metal cladding is connected to the inner part through a spacer of heat-insulating material.

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