RU192841U1 - Electric furnace for producing expanded vermiculite - Google Patents

Abstract

The utility model relates to the field of building materials, namely to technological equipment for producing expanded vermiculite from vermiculite concentrates. An electric furnace for producing expanded vermiculite contains a frame, electric heaters, a baking sheet made of refractory material and a thermal cover with mounting heads mounted on one side with clamps for electric heaters, a vibrating hearth platform with a baking sheet on it, equipped with an eccentric drive, springs and rollers placed in guiding frames, the thermal cover is equipped with strip nichrome earrings installed in the holes of the thermal cover along each electric heater with a given a step for holding them under termokryshkoy, earrings in the lower part are designed as stirrups, and in the upper part - in the form of hooks, electric heaters are passed through the holes in the clamps and are held by means of earring; the thermocover is made of a ceramic-ceramic dielectric plate and the frame is made of angular steel, encircling the plate, made with transverse grooves in its two opposite ends, steel plates are inserted into the grooves, holding it in the frame, fixed on the lower part of the frame by threaded connections, earrings hooks are supported on the plate surface , the eccentric drive of the hearth platform drive is directly coupled to it on one side, and the springs are installed on the opposite side. Effect: increasing the reliability of the furnace and completely eliminating the possibility of a short circuit between electric heaters and the metal part of the thermal cover. 3 ill.

Description

The utility model relates to the field of building materials, namely to technological equipment for producing expanded vermiculite from vermiculite concentrates.

A known electric furnace for firing vermiculite (RU No. 169366, IPC F27B 9/06, С04В 20/06, published March 15, 2017), containing a frame, baking sheets and covers, in which insulating material is placed, electric heaters placed under the covers and fixed to mounting heads mounted on said covers, wherein the baking sheets are arranged parallel to one another and are made in the form of movable bases mounted on rolling bodies, while the furnace is equipped with pushers connected by means of springs to the movable bases, and the electric e heaters installed longitudinally with a gap between the movable surface of the base and the cover.

Common features with the claimed utility model are a frame, a baking sheet, a lid, electric heaters placed under the lid and mounted on fastening heads mounted on said lid, a movable base mounted on rolling elements and electric heaters mounted longitudinally with a gap between the surface of the movable base and the lid.

The considered furnace has the following disadvantage. Electric heaters installed with a gap relative to the movable base are fixed on the mounting heads on one side only, during the operation of the furnace they heat up, because of this they bend under their own weight and come closer to the movable base in their cantilever part. This approach is the greater, the higher the temperature of electric heaters. Thus, the gap between the electric heaters and the movable base along the length of the electric heaters varies uncontrollably, which leads to the sticking of the expanded vermiculite grains, the formation of plugs in these places despite the vibrations of the movable base, and further to the local overheating of the electric heaters, their melting, burnout and furnace failure. Therefore, in general, the design of the furnace is characterized by low reliability.

Also known is an electric furnace for firing vermiculite (RU No. 169510, IPC F27B 9/06, published 03/21/2017), containing a frame, baking sheets of refractory material, mounted at an angle with the possibility of changing it, covers and heaters made in the form of tapes, mounted on a rib, placed under the covers longitudinally to the baking sheets and fixed on the heads; the oven is equipped with hoppers and a movable spring-loaded base with an eccentric drive on both sides, baking sheets with lids are located one after the other, heaters mounted on cantilever heads are mounted longitudinally above the surfaces of the baking sheets with an adjustable gap, trays are fixed on the baking sheets from the consoles of electric heaters , the bins on the side of the trays have slots and vertical shutters, the bottoms of the bins are made in the form of horizontal plates, and the movable base is made in the form of hollow beams rectangular section, assembled in the form of a lattice with heat-insulating material placed between the beams and inside them.

Common features with the claimed utility model are a frame, a baking sheet made of refractory material, mounted at an angle, a lid and heaters placed longitudinally under the covers and mounted on the heads of the console, a movable spring-loaded base with an eccentric drive, while the movable base is made in the form of hollow beams with thermal insulation material between them.

The specified furnace has the same drawback and, therefore, is characterized by low reliability.

The prototype is an electric furnace for producing expanded vermiculite (RU No. 187215, IPC F27B 9/06, С04B 20/06, published February 25, 2019), which contains a frame, electric heaters, a baking sheet made of refractory material and a thermal cover mounted above it with the possibility of rotation, mounted on the frame hinged, fastening heads with clips for electric heaters mounted on one side of the thermal cover through dielectric gaskets, a bottom vibration platform with the said pan mounted on it and equipped with an eccentric the drive and springs mounted on its opposite sides and the rollers placed in the guide rails, it is equipped with clamps for electric heaters installed along each heater with a given step and containing earrings made of strip nichrome, ceramic bushings, washers made of heat-resistant steel, zigzag locks made of strip nichrome and electrical insulating gaskets, while ceramic sleeves are installed in the thermal cover, the mentioned earrings are passed through them, which are made in the form of clamps in the lower part with a diameter exceeding the diameter of the electric heaters, and in the upper part - in the form of hooks installed in a horizontal position and supported on the surface of the thermal cover through the aforementioned electrical insulating gaskets, the said washers are installed above the clamps, and the zigzag locks - under the washers with a constant gap between the electric heaters and the lower surface of the thermal cover, while the electric heaters are passed through the holes in the clamps and are held with the help of the said clamps.

Common features with the claimed utility model are a frame, electric heaters, a baking sheet made of refractory material, a thermal cover fixed on one side through dielectric spacers, mounting heads with clamps for electric heaters, a bottom vibration platform equipped with an eccentric drive, springs, and rollers placed in guiding frames, strip nichrome earrings installed along each heater with a given step, which in the lower part are made in the form of clamps with a diameter Ohm greater than the diameter of electric heaters, and in the upper part - in the form of hooks, on the surface of the supported termokryshki, electric heaters are passed through the holes in the clamps and are held by means of said earring.

The specified furnace is characterized by low reliability due to the high complexity of the design of its thermal covers. With a large number of latches (for example, with 16 electric heaters and 8 latches on one of them), the thermal cover contains 128 units. Each lock consists of 6 parts, namely: a ceramic sleeve, an earring, 2 washers, zigzag locks and electrical insulating gaskets. Thus, the total number of parts that secure the fixation of electric heaters under the thermal cover is 768 pieces. With such a quantity of them, in spite of ceramic bushings and electrical insulating gaskets, during long-term operation of the furnace, the probability of a short circuit between electric heaters and the metal part of the thermal cover, when the furnace is tilted at high temperatures and especially taking into account the working vibrating hearth platform, increases significantly. The occurrence of a short circuit will inevitably lead to a failure of the furnace, and with an increase in the operating time this will happen more and more often.

The complexity of the design is compounded by the presence of the prototype of the two-sided installation of the spring platform, the presence of a cylinder and a pusher connected by an additional spring to the platform. Because of this, in general, the furnace has low reliability.

The technical result of the utility model is to increase the reliability of the furnace by reducing the number of parts ensuring the retention of electric heaters under a thermal cover (for example, to 256 versus 768) and completely eliminating the possibility of a short circuit between electric heaters and the metal part of the thermal cover.

The indicated technical result is achieved in that the electric furnace for producing expanded vermiculite, comprising a frame, electric heaters, a baking sheet made of refractory material and a thermal cover mounted above it, fastening heads with clamps for electric heaters mounted on one side of it through dielectric gaskets, a vibrational hearth platform with installed on it by the baking sheet and equipped with an eccentric drive and springs installed on only one side of it, and rollers, times placed in the frame guides, while the thermal cover is equipped with strip nichrome earrings installed along each electric heater with a given step to hold them under the thermal cover, the earrings in the lower part are made in the form of clamps with a diameter exceeding the diameter of the electric heaters, and in the upper part - in in the form of hooks, electric heaters are passed through the holes in the clamps and held with the help of the mentioned earrings. In this case, the thermal cover is made of a ceramic-vermiculite dielectric plate and the frame is made of angular steel encircling the plate, made with transverse grooves in its two opposite ends, steel plates are introduced into the grooves of the plate along their entire length and are screwed onto the frame at the bottom of the frame compounds; openings for earrings are made in the plate, the hooks of the earrings rest on the surface of the thermal cover through metal washers, and the eccentric of the drive of the hearth platform is connected directly to the hearth platform, and not through the pusher with a spring, as in the prototype.

During the rotation of the eccentric, vibrations of the vibrational hearth platform are excited, which occur with an amplitude equal to the eccentricity of the eccentric and the frequency set by the adjustable eccentric drive motor, which ensures the movement of the vermiculite concentrate in the thermal field created by electric heaters. In this case, vermiculite swells and leaves the furnace completely expanded.

Since the earrings holding the electric heaters are located in the openings of the plate, and the hooks of the earrings rest on the surface of the thermal cover through metal washers, so as not to push the surface of the plate at the contact point, and the thermal cover plate itself is made of ceramically dispersed dielectric material, a short circuit between electric heaters and parts of the thermal cover. In addition, the number of parts that ensure the fixation of the electric heater under the thermal cover at one point is 2 units (and not 6, as in the prototype), then all this leads to

increase the reliability of the furnace.

Distinctive features of the claimed utility model are a thermocover made of a ceramic-vermiculite dielectric plate and its frame made of angular steel, transverse grooves are made in said plate at its two opposite ends, steel plates are inserted into the grooves along their entire length, holding it in the encircling frame and fixed to the bottom frame parts with threaded connections; holes for earrings made of strip nichrome are made in the plate, the hooks of the earrings rest on the surface of the thermal cover through metal washers, the eccentric of the drive of the platform platform is connected directly to the platform platform, and the springs are installed on only one of its sides.

The presence of distinctive features allows us to conclude that the claimed utility model meets the patentability condition of “novelty”.

In FIG. 1 shows an electric furnace for producing expanded vermiculite.

In FIG. Figure 2 shows the location of part of the electric heaters under the thermal cover.

In FIG. 3 shows an earring.

The electric furnace for producing expanded vermiculite, shown in figures 1, 2 and 3, contains a frame 1, a vibrating hearth platform 2 (hereinafter the platform), a baking sheet 3 made of heat-resistant steel, mounted on the platform 2, electric heaters 4, a thermal cover made of ceramic-vermiculite a dielectric plate 5 (hereinafter referred to as a plate) and a frame 6 of angular steel encircling said plate on all sides. Plate 5 is made with transverse grooves in two opposite ends. Steel plates 7 are introduced into these grooves along their entire length, holding the plate 5 in the frame 6 and fixed on the lower part of the frame by threaded connections 8.

Openings 9 for earrings are made in the plate 5, the hooks 10 of which are supported on the surface of the thermal cover plate 5 through metal washers 11 and hold the electric heaters 4 under the thermal cover using clamps 12, which are the lower part of the earrings (see also Figs. 2 and 3). The mounting heads 13 are mounted on the frame 6 of the thermal cover through dielectric gaskets and have clamps in the form of plates 14, with which they are connected to electric heaters 4.

The eccentric drive 15 of the platform 2 is mated directly with the end face of the platform 2, which is equipped with rollers 16 located in the guides 17 of the frame 1.

An electric furnace for producing expanded vermiculite works as follows. Electric heaters 4 are connected to the network and warm up the working space of the furnace, located between the pan 3 and the lower part of the plate 5 of the thermal cover. Rapid heating of the furnace, further maintaining a stable high temperature in the working space and minimizing heat energy losses is facilitated by the low thermal conductivity of the ceramic-mermiculite plate 5, equal to 0.165 ... 0.195 W / m · K (see the UralNIIstrom website https://www.vermiculite.ru/ catalog /? id = 2). Mullite-siliceous felt 18 can contribute to an additional reduction in heat loss through the thermal cover.

When heated, the electric heaters 4, mounted on the mounting heads 13 and passed through the holes in the clamps 12 of the earrings, lengthen, but the size of the holes in the clamps 12 is larger than the diameter of the electric heaters 4, so the earrings do not interfere with this extension.

The earrings holding the electric heaters 4 under the thermal cover eliminate the sagging of the latter and keep the gap between the heaters 4 and the baking sheet 3 constant, preventing the moving and expanding vermiculite from forming plugs and jams that can lead to local overheating of the electric heaters 4 and their burning out.

After heating the furnace, the eccentric drive 15 is started. The rotation of the eccentric creates a reciprocating movement x _{1 of the} platform 2 with the pan 3 and the unidirectional movement of the intumescent vermiculite located on it. The platform oscillates due to the rollers 16 placed in the guides 17 of the frame 1.

By adjusting the angular speed of rotation of the eccentric n ₁ , it is possible to adjust the platform vibration velocity so that the time of unidirectional movement of the intumescent vermiculite is 2.8 ... 3.2 s, which is just enough for high-quality expansion of vermiculite when heating electric heaters 4 to a temperature of 750 ... 800 ° FROM.

Since electric heaters 4 are held under a ceramic coat of ceramic dielectric plate 5 using only earrings with clamps 12 and hooks 10 (many other details that are in the prototype design are missing), the new electric furnace for producing expanded vermiculite is significantly more reliable than prototype due to the lower complexity of the design. Reliability is improved by eliminating the possibility of a short circuit between the electric heaters 4 and the metal part of the thermal cover.

In this way, the technical result of the utility model is achieved, namely, increasing the reliability of the furnace by reducing the number of parts ensuring the retention of electric heaters under the thermal cover and completely eliminating the possibility of a short circuit between electric heaters and the metal part of the thermal cover.

Claims (2)

An electric furnace for producing expanded vermiculite, containing a frame on which a vibrating hearth platform with an eccentric drive is installed, placed in the guide rollers to move it, and a spring, a baking sheet mounted on the platform, and a thermal cover with mounting heads, electric heaters located under it, along of each of which in the holes of the thermal cap with a given step are installed earrings of strip nichrome, made in the upper part in the form of hooks, and in the lower part in the form of clamps, at m, electric heaters were passed through the holes of the clamps to hold them under the thermal cover, characterized in that the thermal cover is made in the form of a ceramic-mermiculite dielectric plate and a frame made of angular steel encircling the plate, and there are transverse grooves in the two opposite ends of the plate to hold it in the frame, which introduced steel plates holding the plate in the frame and fixed on the lower part of the frame by threaded connections, while the hooks of the earrings rest on the surface of the plate, the eccentric drive hearth latformy interfaced directly with her on one side, and a spring mounted on the opposite side.

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