SU962726A1 - Shaft furnace for heat treatment of articles - Google Patents

Description

The invention relates to electrothermal equipment, in particular to low-temperature cage electric furnaces with convective heat transfer and can be used for heating or cooling products in the field of mechanical engineering.

Known furnace containing the outer and inner frame, heaters, a damper for regulating the supply of air- _{) 0} spirit and whatnot for-details. The bookcase has openings in the side walls through which air passes {1].

However, heated air enters _the product in various quantities depending on the height of the product, which leads to uneven heating or drying in height.

Closest to the proposed one in technical essence is the design of a shaft electric furnace with a working temperature of up to 700 ° C. The shaft furnace contains a lining, on- ·.

There are heaters, a centrifugal fan and a cylindrical screen. The heat carrier, driven by the fan between the cylindrical screen and the lining, is supplied with sver-. xy into the working space, giving heat to the products and then enters the suction pipe. On the. the upper part of the product gets a coolant with a higher temperature than the lower part, since as the heat is transferred to the product along its height, the coolant temperature drops [2].

With high requirements for uniform heating of the product by its height, the desired results are not achieved in such a furnace design. In addition, it is difficult to achieve a high uniformity of the coolant flow in the cross section of the space. ·. .

The purpose of the invention is improving the quality of heat treatment. ·

This goal is achieved by the fact that in a shaft furnace containing a chamber, a circulation fan and screens, screens are made in the form of cylinders. There are several shells installed in the chamber concentrically with a gap, with rows of holes located on one screen vertically and on the other at an angle to the vertical, while the outer screen is mounted on movable rollers with the possibility of rotation around the vertical axis of the furnace.

The tangent of the angle of inclination of the rows of holes to the vertical is equal to the ratio of the width of the holes to the distance between the extreme holes of the vertical row, and the step between the rows of holes is equal to the double width of the holes.

At the same time, a seal is installed between the screens at the ends.

In FIG. 1 shows a shaft furnace, a section; in Fig. · 2 - rows of holes of the screens; in FIG. 3 “position of the screens during the operation of the furnace; figure 4 is a horizontal section of the screens.

The shaft furnace for heat treatment of products contains a heating or cooling chamber 1 with heaters 2 located on the inner surface of the furnace, a recirculation fan 3 located on the bottom of the chamber 1. Screens 4 and 5 are mounted concentrically with a gap between the product and the heaters 2. The inner screen 4 is rigidly fixed on the fan casing 3 and has sealing bands 6 in the upper and lower parts, which provide sealing of the gap between the screens, and the outer screen 5 is mounted on the rollers 7 concentrically with the screen 4 and can rotate around the screen 4 via a flange part with a ring gear associated with the drive 8. The screens 4 and 5 are cylindrical and the sleeve have openings 9, for example rectangular. On one of the screens, the openings 9 are located on the vertical axis of the screen, and on the second, at an angle cZ to the vertical axis. The angle of inclination oL is determined by the ratio of the width b of the hole 9 to the distance L. between the extreme holes of the row.

In the process of operation of the furnace, the coolant is supplied by the fan 3 to the space between the external screen 5 and the heaters 2, heats up and, through the combined parts of the openings 9 of the screens 4 and 5, is directed to the product.

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The screen 5 rotates continuously in relation to the screen 4, as a result of which the living section of the combined part of the holes 9, and therefore the amount of air supplied to the product, changes in height of the product with a cycle depending on the pitch of the rows of holes 9 and the speed of rotation of the screen 5 · The screen rotates from the drive 8 through the gear, 'resting the flange part on the rollers 7.

The advantage of the proposed furnace is to ensure high uniformity of heating or cooling in height due to the cyclical change in the amount of supplied coolant in height, at which the maximum of the coolant moves from bottom to top, and then without changing the direction of rotation of the screen from top to bottom. The implementation of the screens in the form of concentrically arranged cylindrical shells provides a uniform supply of coolant to the working space along its horizontal settlement, and the location of the holes on one of the screens at an angle to the vertical, and on the other along the vertical axis, allows the coolant flow to move along the height of the working space, which is one of the main standing dimensions which it on the rollers and the flanged part with the ring gear, provides a cyclical movement of the heat carrier flow those of the working space, which ultimately leads to improved uniformity of heating.

reasons affecting equal heating or cooling. The rotation of the external screen is provided by the installation

Claims (2)

(5) MINE TEMPERATURE FOR THERMAL TREATMENT The invention relates to electrothermal equipment, in particular to low temperature equipment for convection heat exchangers, and can be used for heating or cooling products in engineering. A furnace is known that has an outer frame and an inner frame, heaters, behind the slider to regulate the air supply and a shelf for parts. The bookcase has holes in the side walls through which air passes | one . However, heated air enters the product in different quantities depending on the height of the product, which leads to uneven heating or drying in height. Closest to the proposed technical essence is the design of a shaft electric furnace with a working temperature up to. The shaft furnace contains a lining, heaters, a centrifugal fan, and a cylindrical screen are located on the COISSEAL. The heat carrier, which is blown by the fan between the cylindrical screen and the lining, enters from above into the working space, giving off heat to the products and then enters the suction nozzle. On. the upper part of the product gets coolant with a higher temperature than the bottom suit, as the heat of the product decreases along its height, as the heat of the product is released along its height 2. With high demands on the uniform heating of the product along its height in such a furnace design, the desired results are not achieved. In addition, it is difficult to achieve a high uniformity of flow of the heat transfer fluid over the cross section of the Space. The purpose of the invention is to improve the quality of heat treatment. . The goal is achieved by the fact that in a shaft furnace containing a chamber, a circulation fan and screens, the screens are made in the form of cylindrical shells installed concentrically in the chamber with a gap, with rows of holes arranged on one screen vertically, the other is at an angle to the vertical, while the external screen is mounted on moving rollers with the possibility of rotation around the vertical axis of the furnace. The tangent of the angle of inclination of the row of holes to the vertical is equal to the ratio of the width of the hole to the distance between the extreme holes of the vertical row, and the pitch between the rows of holes is equal to twice the width of the holes. At the same time between the screens with the ends set seal. FIG. 1 shows a shaft furnace, section; Fig. 2 shows rows of screen openings; in fig. 3 - the position of the screens in the process of the furnace; in fig. horizontal section of screens. The shaft furnace for heat treatment of products contains a heating or cooling chamber 1 with heaters 2 placed on the inner surface of the furnace, a recirculation fan 3 located at the bottom of chamber 1. Screens A and 5 are mounted concentrically with a gap between the product and heaters 2. Internal the screen i is rigidly fixed to the fan casing 3 and has in the upper and lower parts an overlapping scooter 6, which seals the gap between the screens, and the external screen 5 is mounted on the rollers 7 concentrically with the screen and can be rotated k tim around the screen via the flange portion with a ring gear associated with the drive 8. Screens and 5 are cylindrical and the sleeve have openings 9, for example rectangular. On one of the screens, the openings 9 are located along the vertical axis of the screen, and on the second, at an angle about to the vertical axis. The angle of inclination cL is determined by the ratio of the width b of the hole 9 to the distance -L between the extreme holes of the row. During operation of the furnace, the coolant is supplied by the fan 3 to the space between the outer screen 5 and the heaters 2, is heated and through the aligned parts of the openings 9 of the screens 4 and 5 is directed to the product. Screen 5 rotates continuously with respect to screen k, as a result of which the living section of the combined part of the holes 9, and hence the amount of air supplied to the product, varies along the height of the product with a cycle depending on the pitch of the rows of holes 9 and the screen rotation speed 5- The screen rotates from the actuator 8 through a gear, resting on the rollers 7 with the flange part. The advantage of the proposed furnace is to provide high uniformity of heating or cooling in height due to the cyclic change in the amount of heat supplied. carrier height, at which the maximum coolant moves from bottom to top, and then without changing the direction of rotation of the screen top to bottom from the screens at an angle to the vertical, and on the other along the vertical axis, allows the flow of heat transfer medium to move along the height of the working space, which is one of the main The reasons affecting the uniformity of heating or cooling. The constant rotation of the external screen, which is ensured by installing it on the rollers and the flange part with the ring gear, provides for cyclical movement of the heat carrier flow over the height of the working space, which ultimately leads to increased heating uniformity. Claim 1. Mine furnace for heat treatment: products containing a chamber, a circulation fan, screens, characterized in that, in order to improve the quality of heat treatment by adjusting the amount of heat carrier supplied over the height of the furnace working space, the screens are made in the form of cylindrical shells mounted in the chamber concentrically with a gap and with rows of holes located on one screen vertically and on the other at an angle to the vertical, while the ext. 5962 SRI screen is mounted on moving rollers ah rotatable around the vertical axis of the furnace. 2, the furnace according to claim 1, characterized in that the tangent of the angle of inclination of the rows of holes to the vertical is equal to the ratio of the width of the hole to the distance between the outer holes of the vertical row, and the pitch between the rows of holes is equal to double the width O of the hole . 6 3. The furnace according to Clause .1, which is the fact that a seal is installed between the screens at the ends. Sources of information taken into account in the examination 1. Svenchansky AD Electric industrial furnaces. M., 1975, p. 106, fig. -2 2. In the same place 108, fig. 4-5. fig.Z