RU205434U1 - FURNACE FOR CERAMIC PRODUCTS - Google Patents

Abstract

The utility model relates to a kiln for firing ceramic products, mainly decorative ceramics. The furnace contains a body having an outer part made of ceramic tiles and an inner part made in the form of a refractory lining, for example, of a chamotte fiber plate, which forms a working chamber. A cover is fixed on the body with the possibility of rotation about an axis, on which a crossbar is rigidly fixed, on which, at the point of its attachment to the body in the direction opposite to opening, a counterweight is placed, the weight of which is less than the weight of the cover, sealing elements are placed on the inside of the body and the cover , while the sealing element located on the body is made in the form of a gasket of refractory wool having a rectangular cross-section, and the sealing element located on the cover 5 is made in the form of a heat-resistant rubber seal having a wedge-shaped cross-section. Improves the efficiency of the furnace and the quality of the processed products. 3 ill.

Description

The utility model relates to thermal equipment and can be used in the design of furnaces for firing ceramic products, mainly decorative ceramics.

Firing is a technological process during which a number of physicochemical transformations take place in ceramic masses, at the final stage they are completed by the sintering process. After firing, the porosity of the products decreases, their strength, water resistance increases, the color changes, a decorative coating is created - the product acquires integrity.

The most common device for firing small-sized products are muffle furnaces, consisting of a working chamber in which objects are heated, a housing with a lid that performs protective and heat-insulating functions, and heating elements that provide thermal operations.

To ensure uniform heating of products in furnace designs, sealing elements in the form of gaskets and seals are used, located at the junction of the moving elements of the furnace.

Known induction melting furnace containing a frame, an inductor, a lining, a top cover and clamps, while its top cover is made of cast from waste aluminum alloy in the form of a thin-walled plate, the outer side of which has a flat surface, and the opposite side has protrusions along the entire perimeter, while the protrusions of the outer and inner contours are connected by radial ribs of the same height, and between the cover and the clamps, gaskets made of electrical insulating material are installed (see RF patent No. 12727, IPC F27B 14/00, publ. 27.01.2000).

Placing a gasket made of electrically insulating material between the lid and the clamps does not guarantee heat loss through possible gaps between the furnace frame and the lid.

A sealed microwave vacuum sintering oven is known, which includes an oven body, a microwave heating chamber, an oven door, a microwave generator and an infrared thermometer, while sealing gaskets are placed on the oven door at the point of contact with the body (see patent CN No. 203163474, IPC F27B 5 / 05; F27B 5/06; F27B 5/14, publ. 08/28/2013).

The presence of gaskets only on the lid does not ensure reliable sealing of the working chamber and does not exclude possible heat loss, reducing the efficiency of the furnace and the quality of the processed products.

The closest analogue to the claimed technical solution is a muffle furnace with vertical loading of products for firing ceramics, containing a body with a working chamber, a lid fixed on the body, while the sealing elements are made in the form of a protrusion on the refractory brick of the lid, which, in contact with the body, enters a groove made on the inner wall of the refractory brick of the body, and a clamp is used to fix the connection between the lid and the body

(see patent CN 102052846 A, F27B 17/00, C04B 33/32, 11.05.2011.).

The disadvantages of the known design of the furnace is the possibility of reducing the efficiency of its operation and the quality of the processed products due to the fact that in the conditions of individual production of small batches of products with repeated opening / closing of the lid, the contact point along the flat surfaces of the body and the lid, made of refractory bricks of the lid with the body, is subject to deformation leading to the destruction of the sealing elements.

At the same time, the adhesion of the lid to the body worsens, which leads to a change in the temperature characteristics of the working chamber, causing the instability of the furnace and a decrease in the quality of the processed products.

The objective of the proposed technical solution is to improve the efficiency of the furnace and the quality of the processed products.

The technical result achieved as a result of solving the problem is to reduce the forces destroying the sealing elements by reducing the force required to open the lid by compensating for its weight.

The task is achieved by the fact that in a furnace for firing ceramic products, containing a body with a working chamber, a lid fixed on the body, and sealing elements placed on the body and the lid, according to the technical solution, it is additionally equipped with a counterweight fixed on the lid in place of it fastening to the body in the direction opposite to opening by means of a crossbar with a support displaced upward relative to the axis of attachment of the lid to the body; on the cover, made in the form of a heat-resistant rubber seal, and has a wedge-shaped cross-section.

In this case, the mass of the counterweight is less than the weight of the cover.

The claimed combination of features improves the efficiency of the furnace and the quality of the processed products by reducing the influence of forces that destroy the sealing elements, by reducing the effort required to open the lid.

This is because mounting the counterweight on the cover in the opposite direction to opening promotes a lever mechanism with a pivot point displaced upward where the cover is attached to the body, balancing the weight of the cover.

Using the linkage, the load can be lifted with little effort.

The amount of force saved is the same as the ratio of the lengths of the longer and shorter lever arms.

In this case, the mass of the counterweight is less than the weight of the lid, creates the necessary overweight on the side of the lid to achieve a guaranteed normally closed position of the lid during the operating mode of the oven, and a sufficient overweight on the side on the side of the lid to fix it from spontaneous closing in the open position.

Balancing the weight of the cover with a counterweight reduces the influence of the pressing forces on the sealing elements, reducing the possibility of their premature destruction and, thereby, contributes to an increase in the efficiency of the furnace.

The wedge-shaped form of the sealing profile made of heat-resistant rubber enhances the effect of increasing its strength by reducing the forces of its "sticking" to the metal end of the housing due to the smaller contact area of the sharp side of the wedge of the sealing profile with the housing.

In addition, the shape of the cross-sectional profiles of the sealing elements is guaranteed and the materials from which they are made ensure their functional purpose due to the formation of a labyrinth seal at the point of contact between the cover and the body.

The claimed technical solution is illustrated by the drawings, where FIG. 1 shows a cross section of the furnace (conventionally); in fig. 2 - diagram of the linkage mechanism (conventionally); in fig. 3 - the zone of contact of the sealing elements, enlarged.

Positions in the drawings mean the following: 1 - outer part of the body; 2 - the inner part of the body; 3 - furnace working chamber; 4 - axis of rotation of the cover; 5 - cover; 6 - counterweight; 7 - crossbar; 8 - a sealing element in the form of a gasket; 9 - a sealing element in the form of a seal; 10 - hangers for mounting the inner part of the body 2; 11 - lattice bottom for installing the inner part 2 of the body; 12 - electric heater; 13 - gas outlet; 14 - hatch in the cover 5.

The designations in the drawings mean the following: Η - displacement of the fastening of the crossbar 7; F ₁ and F ₂ - the weight of the counterweight and the cover; l ₁ - crossbar length 7, l ₂ - cover size 5.

The inventive design of a furnace for firing ceramic products consists of a body containing an outer part 1 made of ceramic tiles and an inner part 2 in the form of a refractory lining, for example, of a chamotte fiber plate, which forms a working chamber 3.

On the body with the possibility of rotation around the axis 4, the cover 5 is fixed (Fig. 1).

The furnace is additionally equipped with a counterweight 6, the weight of which is less than the weight of the cover 5, and placed on the crossbar 7, which is rigidly fixed to the cover 3 at the point of its attachment to the body in the direction opposite to opening.

The crossbar 7 is fixed on the upper surface of the cover 5, which forms an upward displacement "H" relative to the axis 4 of fastening the cover 5 to the body.

This contributes to the formation of a lever mechanism with a pivot point "O" at the point of attachment of the cover 5 to the body on the axis 4, providing a balance of the weight of the cover 5 (Fig. 2).

In addition, the displacement "H" of the fastening of the crossbeam 7 upwards makes it possible to reduce its length required to balance the lever mechanism, which increases the convenience during the operation of the furnace.

The calculation of the mass of the counterweight 6 and the length of the overhang of the crossbeam 7 is carried out empirically using known relationships, for example, from the equilibrium condition of the lever mechanism:

F ₁ ⋅l ₁ = F ₂ ⋅l ₂ ,

where F ₁ is the weight of the counterweight 6, F ₂ is the weight of the cover 5.

l ₁ - crossbar length 7, l ₂ - cover size 5.

Using the linkage mechanism, it is possible to lift a load with little force, and the amount of force saved is the same as the ratio between the lengths of the longer and shorter lever arms.

At the same time, the empirical selection of the masses of the counterweight 6 and the cover 5 ensures the creation of the necessary overweight on the side of the cover 5 to achieve its guaranteed normally closed position during the operating mode of the furnace, and a sufficient overweight on the side of the cover 5 to fix it from spontaneous closing when open.

The weight of the counterweight 6 is considered sufficient if no great effort is needed to lift the cover 5, but in the closed position a slight overweight remains on the side of the cover 5 so that it does not open spontaneously.

The displacement "H" of the point of attachment of the counterweight 6 upward relative to the axis 4 of attachment of the cover 5 to the body contributes to the fact that when the cover 5 is open (raised), a slight excess weight occurs already on the side of the counterweight 6, which significantly reduces the lifting force of the cover 5, eliminating the occurrence of unauthorized damage to the contact surfaces of the housing and cover 5.

The furnace is equipped with sealing elements 8 and 9 located on the inner part 2 of the body and on the cover 5 (Figs. 1 and 2).

The sealing element 8, placed on the body, is made in the form of a gasket of refractory wool having a rectangular cross-section, the sealing element 9, located on the cover 5, is made in the form of a heat-resistant rubber seal having a wedge-shaped cross-section (Fig. 2 ).

Refractory wool, from which the gasket 8 is made, has elastic deformation properties, which provides easy sealing with little effort, and good heat-insulating and refractory (withstands temperatures up to 1250 ° C) properties, which provides protection from high temperatures from chamber 2 to gasket 8 made of heat-resistant (up to 350 ° C) rubber.

The heat-resistant rubber, from which the seal 9 is made, is resistant to aggressive media, does not dry out and retains its elasticity under high temperature conditions, and protects atmospheric air from outside into the working chamber 3.

The shape of the cross-sections of the gasket 8 and the seal 9 also contributes to the formation of a labyrinth seal in the zone of their contact when the cover 5 is closed with the body, due to the fact that the rectangular shape of the cross-section of the gasket 8 provides tight contact with the flat inner surface of the cover 5, and the wedge-shaped form of the seal 9 surrounds the gasket 8 along the perimeter of its lateral surface, ensuring its protection from the external environment (Fig. 2).

The inner part 2 of the body made of a refractory lining is mounted on hangers 10 and installed on a lattice bottom 11 from a metal corner.

In the grooves of the inner part 2 of the body made of refractory lining, an electric heater 12 is placed, in the form of, for example, a spiral made of fechral.

In the lower part of the furnace body, a gas outlet 13 is made for removing gases arising during processing from the working chamber 3.

On the cover 5, a hatch 14 can be made for introducing additional ingredients into the working chamber 3 for carrying out the processing of products, for example, a reducing agent.

The claimed design of the furnace works as follows.

The products to be processed are loaded into the working chamber 3 of the furnace, and closed with a cover 5, the weight of which is pre-balanced by a counterweight 6.

In this case, the gasket 9 made of refractory wool is tightly pressed against the inner surface of the cover 5, and the seal 10 surrounds the gasket 9 along the perimeter of its lateral surface.

The required processing modes are included.

At the end of processing, by lightly pressing on the counterweight 6, the cover 5 is detached from the body, slightly lifting it. Subsequently, under the action of the counterweight 6, the cover 5, turning around the axis 4, moves to the normally open position and is fixed in it.

The processed products are unloaded from the oven, a new batch of products is loaded and the process is repeated.

The claimed design of the furnace ensures efficient operation of the furnace, uniform heating of the working space of the furnace and an improvement in the quality of heat treatment of parts in conditions of individual production of predominantly decorative ceramics.

Within the claimed set of features, the present technical solution is not limited to the given examples of execution and covers any other options that fall within the scope of the attached formula to achieve the claimed technical result.

Claims (2)

1. A furnace for firing ceramic products, comprising a body with a working chamber, a lid fixed on the body, and sealing elements placed on the body and the lid, characterized in that it is equipped with a counterweight fixed on the lid at the point of attachment to the body in the direction, opposite to opening, by means of a crossbar displaced upward relative to the axis of attachment of the cover to the body, while the sealing element located on the body is made in the form of a refractory cotton pad and has a rectangular cross-section, and the sealing element located on the cover is made in the form seals are made of heat-resistant rubber and has a wedge-shaped cross-section. 2. The furnace of claim. 1, characterized in that the mass of the counterweight is less than the weight of the cover.

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