RU2019066C1 - Installation for shf drying of multilayer ceramic moulds - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: installation is designed for SHF drying of ceramic moulds used in manufacture of articles of complex shape in accordance with models. Heating chambers of installation are formed by section of rotor and part of walls of housing produced in the form of octahedron. In this case edge of lateral partition of rotor is located in center of side wall and has shape of nonequilateral hexahedron in section. Chambers are provided with scanners placed in symmetry to axis of chamber of rotor. Their holders enter volume of chamber and have capability to rotate and move along vertical. Elements for input of energy connected to magnetrons are made on side walls of housing reciprocally orthogonal with formation of horizontal and vertical rows. In this case two adjacent elements have mutually perpendicular polarization of radiation. There are grates mounted on top and bottom of chamber with cell of beyond cutoff waveguide. At position of loading through window suspensions with model units are installed on holder, door closes, drive is turned on and turns rotor by one position, loading and turning take place again. When suspension stops opposite to energy leads, drive of scanners switches on, rotation, lifting and lowering of suspension are ensured, magnetrons are turned on and heating of model unit with simultaneous scanning occurs. After completion of heating cycle rotor turns again by one position where suspension and model unit are cooled with air. EFFECT: facilitated manufacture, improved quality of moulds. 3 dwg

Description

 The invention relates to devices for drying microwave energy.

 The installation is designed for drying ceramic molds used in the manufacture of complex shaped products by investment casting.

 Known installation for food processing. The disadvantage of this setup is the low uniformity of the distribution of electromagnetic energy over the chamber volume due to the small number of excited modes, leading to uneven heating of the sample.

 A rotor type installation is known having a rotor divided into sections by metal partitions. The working chamber is formed of a rotor section and a part of the housing, made in the form of a cylinder with a window, closed with disks from above and below, and a rotating stand. In this case, the camera has the form of part of a coaxial waveguide.

 The disadvantage of this device is the low uniformity of energy distribution over the chamber volume due to the small number of excited modes in the chamber due to its cylindrical shape, which leads to high unevenness in the heating of the sample, as well as the absence of a vapor removal system, which leads to condensation of the sublimation products on the walls of the housing.

 The purpose of the invention is to increase the uniformity of drying by increasing the uniformity of the distribution of energy throughout the chamber.

 For this, the chamber is formed by the rotor section and part of the walls of the casing, made in the form of an octahedron, while the edge of the transverse partition of the rotor is located in the middle of the side wall and has a cross-sectional shape of a non-equilateral hexagon, scanners placed symmetrically to the axis of the rotor section, the holders of which extend into the chamber volume and have the ability to rotate and move vertically, and on the side walls of the housing are mutually orthogonal with the formation of horizontal and vertical rows magnetrons are placed, with two adjacent series have mutually perpendicular polarization of the radiation, as well as bars, mounted at the top and bottom of the camera with the beyond cell waveguide.

 Comparison of the proposed technical solution with the prototype showed that it is characterized by a new set of essential features, which meets the criterion of "novelty."

 The uniformity of the energy distribution throughout the chamber volume increases by 20%, since there is more than 3-fold wave reflection in a chamber of this shape in comparison with the prototype, and this effect is achieved by the fact that the camera has one more reflection surface than the prototype camera, which corresponds to the criterion of "positive effect".

 Placing scanners on a rotor with holders extending into the chamber volume, which can be rotated and moved, the shape of the chamber in the form of a non-equilateral hexagon and the installation of magnetrons in rows with mutually perpendicular polarization of radiation leads to the appearance of new properties, which meets the criterion of "significant differences".

 In FIG. 1 shows the installation of microwave drying multilayer forms; figure 2 - installation in section; figure 3 is the same, cross section.

 Installation of microwave drying of multilayer forms consists of a drive 1, a housing 2, made in the form of an octagon with a loading window and a door 3, a rotor 4, divided by longitudinal and transverse partitions 5 into sections of the chamber 6, along the perimeter of which seals 7 are installed, while the edge of the transverse partitions with a seal 7 is located in the middle of the side wall of the housing 2, and gratings 8, scanners 9 mounted on the rotor with holders 10, extending into the chamber volume, magnetrons 11 located on the side walls of the chamber, ducts 12, are placed at the top and bottom who walk channels into the chamber. Scanner drives are not shown in the drawing.

 The device operates as follows.

 At the loading position, suspensions with model blocks are installed through a window in the housing 2 on the holder 10, the door 3 is closed, the drive 1 is turned on, and the rotor 4 is turned by one position; loading and turning again. When the suspension stops opposite the energy inputs, the scanner drive is turned on and rotation, raising and lowering of the suspension is ensured, magnetrons are turned on and the model block is heated with simultaneous scanning. After practicing the heating cycle, the rotor 4 again rotates by one position, where the suspension is blown and the model unit is cooled.

Claims (1)

 INSTALLATION OF A MULTI-LAYER FORM MICROWAVE DRYER containing a housing, on the axis of which a rotor is connected to the drive, vertical partitions are fixed on the rotor, the seal is placed around the perimeter, while the partitions divide the case into heating chambers, magnetrons connected to the heating chambers by energy inputs, characterized in that the casing is made in the form of an octahedron, on the side walls of which energy inputs are made, with the formation of horizontal and vertical rows, while adjacent energy inputs have It has perpendicular polarization, the number of vertical partitions is equal to four, while they are evenly spaced around the circumference of the rotor, and the size of the vertical partitions in the horizontal plane is equal to the distance from the surface of the rotor to the middle of the side wall of the casing, gratings are installed in the heating chambers above and below, the heating chambers are introduced scanners placed on both sides relative to the axis of the heating chamber, while the scanner holders are capable of rotation and vertical movement.

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