DE202020000935U1 - Insulating brick - Google Patents

Abstract

Insulating brick whose cavities, preferably with a plurality of cavities, which are preferably delimited by longitudinal webs (4) and transverse webs (5), have an insulating material in the center, such as preferably perlite, the cavities (2) on the The outside and inside of a wall that can be assembled from the insulating bricks are empty.

Description

The invention relates to an insulating brick, a device for its production and a method for its production.

Insulating bricks in the form of perforated bricks are known, the cavities of which are completely filled with insulation material, the insulation materials being treated with binders so that the insulation material does not trickle out. The binder is synthetic resin powder (as a solid binder component) or a water-based synthetic resin dispersion, such as binders or binder active ingredients based on polyvinyl acetate as homopolymer or copolymer with ethylene or acrylates and can be specially modified using silanes. Another large group of types of polymer are styrene-acrylates. In detail, it may contain monomer units composed of vinyl esters such as vinyl acetate, vinyl propionate, vinyl butyrate, vinyl 2-ethylhexanoate, vinyl laurate, vinyl esters of alpha-branched monocarboxylic acids such as VeoVa, vinyl pivalate. Further monomers can be: methyl acrylate, methyl methacrylate, ethyl acrylate, ethyl methacrylate, propyl acrylate, propyl methacrylate, n-butyl acrylate, n-butyl methacrylate, 2-ethylhexyl acrylate; as olefins, ethylene, propylene, 1,3 butadiene; Vinyl aromatics from styrene or vinyl toluene or vinyl halides. Coarsely dispersed organic polymer particles can also be used as efficient binders, especially polymers based on sugars or celluloses, in the latter case more precisely redispersible modified cellulose ether powders with different degrees of polymerization (molar masses) and different side chains, among others. Methyl or ethyl hydroxy groups.

Perforated bricks are masonry bricks that are perforated to reduce weight and reduce their thermal conductivity. A distinction is made between vertically perforated bricks, the perforation of which runs perpendicular to the support surface, and elongated perforated bricks, the perforation of which runs horizontally to the support surface. The vertically perforated brick has a greater load-bearing capacity than the elongated perforated brick due to its perforation running perpendicular to the support surface. For the production of perforated bricks, a clay mass is cleaned and prepared and mixed with additives such as porosity substances. The clay is mixed with steam to achieve the desired consistency and then pressed and cut using an extrusion tool. Usually the bricks are first dried and then fired.

The load-bearing capacity of the perforated brick results essentially from the positioning of the holes and the webs surrounding them. Due to the geometry of the webs, vertically perforated bricks are designed in particular to transmit compressive forces and are less designed for the stress caused by tensile stress.

Insulating bricks in the form of perforated bricks, the cavities of which are completely filled with insulation material, have a limited installation level, as this is filled with insulation material mixed with binding agent, which has to be milled in during the installation of electrical cables, so that insulating and binding agent dust is created and the milling itself becomes necessary difficult. Another disadvantage is the lack of a thermal plane on the outer and inner walls. A completely filled brick cannot conduct heat from the outside to the inside, so that the plaster heats up when exposed to sunlight on such a completely filled brick and thus insulated brick, since it cannot transmit the heat and cracks can appear in the plaster. In the same way, a completely filled brick cannot equalize the temperature from the outside of the inner wall or the interior of the brick, i.e. it cannot conduct heat from the interior into the brick.

It is therefore the object of the invention to improve the state of the art and, in particular, to provide an insulating brick, a device and a method for its production which, despite the insulating material, maintains its installation level and thermal level and has a high level of stability in order to absorb compressive forces, which act vertically on the insulating brick.

The object is surprisingly achieved by the features of the claims.

The invention relates to an insulating brick whose cavities, preferably a plurality of cavities, which are preferably delimited by longitudinal webs and transverse webs, in the center, i.e. in the middle, have an insulating material, such as preferably perlite, the cavities on the outside and inside one from the insulating brick composable wall are empty.

Bulk goods are preferred as insulation materials according to the invention, preferably with the proviso that they contain no binders, the insulation materials preferably containing or consisting of perlite or expanded perlite (ie expanded perlite). Perlite is an altered volcanic glass with SiO ₂ as the main component. Through an annealing process at about 800 to 1000 ° C, raw perlite can expand and thereby forms an insulating material with a low bulk density and low thermal conductivity, which is almost suitable as an insulating material for the insulating brick according to the invention. The expanded perlite particles ("granules") are mostly mixtures of rods and egg-shaped particles, which in As a result of the expansion process, they have an open-cell structure, ie an open porosity. Perlite dusts are conceivable as pearlite sources. However, “artificial perlites” are also conceivable as insulating material, which are expanded or puffed geopolymers, in particular alkaline-activated aluminosilicates. The insulating material or the insulating materials is preferably air-enclosing, air-binding bulk material, such as preferably polystyrene particles, such as preferably foamed plastics such as polystyrene, polyurethane, Neopor acrylonitrile-butadiene-styrene (ABS), polyamides (PA), polylactate (PLA), polymethyl methacrylate (PMMA) ), Polycarbonate (PC), polyethylene terephthalate (PET), polyethylene (PE), polyetheretherketone (PEEK), polypropylene, polyvinylchloride; Wood fiber materials such as wood wool, cork; vegetable or animal fibers such as, for example, hemp, flax, wood fiber, seagrass, wood wool, coconut fiber, reed, cotton, sheep wool, cellulose fibers, textile fibers; Synthetic fibers such as polyamide or polyester fibers; inorganic thermal insulation materials, such as mineral fibers, such as glass wool, mineral wool, rock wool, basalt wool, slag wool, ceramic fibers, silica fibers, foam glass, (pressed) mineral fibers, silica, preferably hydrophobic silica, preferably fumed silica, particularly preferably hydrophobic fumed silica, pumice stone, perlite, vermiculite , Metal oxides, such as preferably metal oxides such as aluminum oxide, titanium oxide, iron oxide, silicates such as calcium silicate, magnesium silicate, magnesium iron silicate. Other insulation materials are expanded clay, calcium silicate, foam glass. Any desired insulating materials can also preferably be present in any mixing ratio.

The insulating brick according to the invention, which is preferably a so-called filigree brick, i.e. a brick with transverse and longitudinal webs, which are preferably 2 to 3 mm thick, the brick having rows of holes filled with insulating material to empty rows of holes in a ratio of preferably 1: 1, preferably lying the filled cavities of the insulating brick in such a way that they are in the middle, the center of the insulating brick on two opposite outer sides, i.e. the filled cavity rows are framed by empty cavity rows on the two opposite outer sides, with the insulating tile according to the invention preferably 10 to 14 filled rows of cavities in the center of the insulating brick and to the outer sides of the insulating brick each preferably 4 to 7 empty rows of cavities. The empty rows of cavities of the insulating brick can also preferably only be on the outside of the insulating brick, so that the insulating brick inside, which is located inside a building, is filled, thus the insulating brick is filled in a ratio of preferably 2: 1, i.e. 1 part is empty and 2 parts are preferably filled with insulating material.

The insulating brick according to the invention is also stabilized by the filling with insulating material, in particular when it is weakened by damage that occurs when it is used as an installation level.

In addition, the insulating brick according to the invention can also absorb vertical forces, as they occur when a ceiling is placed on a wall made from the insulating bricks according to the invention. This can be supported by a narrow concrete band on the upper edge of the insulating brick wall.

The advantages of the insulating brick according to the invention are that it has improved physical properties compared to a filigree brick.

Compared to a filigree brick, the insulating brick according to the invention can better absorb thermal stresses in the outer wall area, which means that a fabric filling in the thermal area outside is less necessary and enables homogeneous masonry with the outer bricks and the insulating brick according to the invention insulates the sound better.

In addition, the insulating brick according to the invention enables a problem-free installation level in the structural area compared to the edge removal in the case of filigree brick

Another object is an insulating brick filling device for the production of an insulating brick according to the invention which has a filling opening and at least one brush, preferably a roller brush, preferably two roller brushes and a brush drive, the brush bristles protruding so far from the lower part of the insulating brick filling device so that they cover the surface of the touch the insulating brick to be filled.

The insulating brick filling device according to the invention is used directly on the construction site. After a row of bricks has been set, the insulation brick filling device is pulled over the empty cavities of the set row of bricks, the insulation material being brushed and preferably compacted into the cavities of the insulation bricks by means of the brushes. The cavities are considered to be filled when the level of insulation material in the filling opening of the insulation brick filling device stops, i.e. has stopped falling, and no longer changes. The insulating brick filling device has, in order to pull it over the row of bricks so that the insulating brick filling device can be pulled straight over the bricks without breaking out, preferably 1, 2, 3, 4 guide wheels on the side that roll along the outer wall of the brick. The guide wheels are preferably fastened to the insulating brick filling device via 90 ° angle iron, so that the running surface of the wheel touches the outer brick walls of the brick. The wheel axis is parallel to the longitudinal outside of the brick along which the insulating brick filling device is drawn. In addition, the insulating brick filling device according to the invention preferably has at least one impeller, preferably two impellers, in the pulling direction to the front and rear, in order to pull the insulating brick filling device over the row of bricks.

With the brushes, the insulation material is brushed into the cavities of the insulation brick and preferably compacted. The bristles of the brushes are preferably arranged in such a way that they touch the surface of the insulating brick, that is to say the bristles of the brush are not spaced apart from the surface of the cavities in the insulating brick. The distance between the longitudinal axes of the brushes can preferably be adjustable, that is to say the width of the gap between the brushes can be adjusted as required. The number of revolutions per minute of the brushes can preferably be set as desired.

The advantages of the brushes are that they clean the webs and, through the constant conveyance of insulating material, they compress this insulating material. In addition, the cavities between the bristles of the brushes serve as storage space for the insulating material so that it can be conveyed continuously.

A negative distance between the bristles of the brush is also possible, i.e. the bristles, the bristle ends of the brush protrude over the surface of the cavities of the insulating brick into the plane of the cavities of the insulating brick, preferably 1 mm, 2 mm, 3 mm, 4 mm, 5 mm in.

A negative distance between the bristles of the brush is also possible, i.e. the bristles, the bristle ends of the brush are located above the surface of the cavities in the insulating brick, so that the bristles are above the level of the cavities in the insulating brick, preferably 1 mm, 2 mm , 3 mm above, so that the material is ultimately forced into the cavities of the insulating brick via the material flow.

The brushes are preferably roller brushes, although flat, plane brushes would in principle also be possible.

The bristles of the brush are rigid, not very flexible, so that they bend slightly under a load of 0.5, 1, 2, 3, 4 kg.

The number of roller brushes is preferably at least one roller brush or 2, 3, 4, 5, 6 etc. roller brushes. Depending on the size of the insulating brick filling device.

The roller brushes preferably rotate in the same direction or also preferably against one another.

The brush drive is preferably an electric motor or an internal combustion engine, an electric motor being preferred. The brush drive must have sufficient torque to turn the brushes. The brush drive preferably has a torque of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22 , 23, 24, 25, 26, 27, 28, 29, 30, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56 , 57 Nm or more.

The insulating brick filling device according to the invention has a base body which has a filling opening; the filling opening preferably has the shape of a funnel so that the insulating material can preferably be filled in by hand from sacks. The filling opening can also be designed in such a way that a hose can be fastened directly to the filling opening of the insulating brick filling device. This hose is used to convey insulation material from a distant storage container to the filling opening; this is preferably done via a screw feeder or an injection device.

The main body of the insulating brick filling device also preferably has 1, 2, 3, 4 guide wheels on at least one side, which can slide laterally along the outside of the brick wall and preferably 1, 2 wheels in the pulling direction on both sides of the pulling direction, i.e. front and rear, exhibit.

Another object of the invention is an insulating brick filling process, a perforated brick with cavities being produced by brushing an insulating material into the cavities of a brick, preferably with the proviso that the brushing in takes place directly when the insulating bricks are stacked on top of one another.

In the insulating brick filling method according to the invention, the above-mentioned insulating material and particularly preferably the insulating material perlite are used

Bulk goods are preferred as insulation materials according to the invention, preferably with the proviso that they contain no binders, the insulation materials preferably containing or consisting of perlite or expanded perlite (ie expanded perlite). Perlite is an altered volcanic glass with SiO ₂ as the main component. Through an annealing process at about 800 to 1000 ° C, raw perlite can expand and thereby forms an insulating material with a low bulk density and low thermal conductivity, which is almost suitable as an insulating material for the insulating brick according to the invention. The expanded perlite particles ("granules") are mostly mixtures of rods and egg-shaped particles, which, as a result of the expansion process, have an open-cell structure, ie an open porosity. Perlite dusts are conceivable as pearlite sources. However, “artificial perlites” are also conceivable as insulating material, which are expanded or puffed geopolymers, in particular alkaline-activated aluminosilicates. The insulating material or the insulating materials is preferably air-enclosing, air-binding bulk material, such as preferably polystyrene particles, such as preferably foamed plastics such as polystyrene, polyurethane, Neopor acrylonitrile-butadiene-styrene (ABS), polyamides (PA), polylactate (PLA), polymethyl methacrylate (PMMA) ), Polycarbonate (PC), polyethylene terephthalate (PET), polyethylene (PE), polyetheretherketone (PEEK), polypropylene, polyvinylchloride; Wood fiber materials such as wood wool, cork; vegetable or animal fibers such as, for example, hemp, flax, wood fiber, seagrass, wood wool, coconut fiber, reed, cotton, sheep wool, cellulose fibers, textile fibers; Synthetic fibers such as polyamide or polyester fibers; inorganic thermal insulation materials, such as mineral fibers, such as glass wool, mineral wool, rock wool, basalt wool, slag wool, ceramic fibers, silica fibers, foam glass, (pressed) mineral fibers, silica, preferably hydrophobic silica, preferably fumed silica, particularly preferably hydrophobic fumed silica, pumice stone, perlite, vermiculite , Metal oxides, such as preferably metal oxides such as aluminum oxide, titanium oxide, iron oxide, silicates such as calcium silicate, magnesium silicate, magnesium iron silicate. Other insulation materials are expanded clay, calcium silicate, foam glass.

In the insulating brick filling method according to the invention, an insulating brick filling device according to the invention is preferably used. The insulating brick filling device according to the invention is preferably used in the insulating brick filling process during the erection of a brick wall from insulating bricks. As soon as the first row of bricks is set, the insulating brick filling device according to the invention is pulled over it, in order to preferably fill the middle row of holes in the bricks with insulating material. In a simple embodiment, this can be done directly from the insulation material filled with bags or, in the case of a larger insulation brick filling device, it can be supplied with insulation material from a central storage container via a hose that is filled with a metering screw or injection device. As soon as the first row of bricks is set, the next row of bricks is placed over the now filled row of bricks and filled with insulating material, and so on, the row of bricks is placed on top of the row of bricks and filled. The insulation brick filling device according to the invention is pulled and filled by one or two men.

Figure list

• 1 1 shows an insulating brick according to the invention in plan view, the rows of cavities filled in the middle 3 and empty rows of cavities on the sides 2 has, so the sides that the inside and outside of a wall formed from these insulating bricks. The cavities are created by longitudinal webs 4th and cross bars 5 limited.
• 2 2 shows an insulating brick filling device according to the invention in a perspective view from the side when filling a row of perforated brick to insulating bricks according to the invention 1 who have favourited filled rows of holes 3 having. The insulating brick filling device has 2 guide wheels to pull it over the row of bricks so that the insulating brick filling device can be pulled straight over the bricks without breaking out 7th on the side that roll along the outer wall of the zigel. The guide wheels are over 90 ° angle irons 10 attached to the insulating brick filling device so that the running surface of the wheel touches the brick outer walls of the brick. The wheel axis is parallel to the vertical of the outside of the brick along which the insulating brick filling device is drawn. In addition, the insulating brick filling device according to the invention has two running wheels each in the pulling direction to the front and rear 6th to pull the insulation brick filling device over the row of bricks. The insulating brick filling device according to the invention has a drive unit 9 for the brushes, in the form of an electric motor, on and on the feed hopper 8th in which the insulation material can be filled.
• 3 3 shows an insulating brick filling device according to the invention in plan view with the filling funnel 8th and the two roller brushes 11 .
• 4th 4th shows an insulating brick filling device according to the invention in a side view with the filling funnel 8th and the two roller brushes 11 .

Claims (7)

Insulating brick whose cavities, preferably with a plurality of cavities, which are preferably delimited by longitudinal webs (4) and transverse webs (5), have an insulating material in the center, such as preferably perlite, the cavities (2) on the The outside and inside of a wall that can be assembled from the insulating bricks are empty. Insulation brick after Claim 1 characterized in that the insulating brick is a filigree brick which has rows of cavities 3 filled with insulating material to empty rows of cavities 2 in a ratio of 1: 1, preferably 10 to 14 rows of cavities in the center of the insulating brick and preferably 4 to 7 rows of cavities on the sides of the insulating brick, having. Insulating brick one or more of the Claims 1 to 2 , characterized in that the insulating material has perlite, preferably with the proviso that it has no binders. Insulating brick filling device for filling an insulating brick according to one or more of the Claims 1 to 3 , characterized in that the insulating brick filling device has a filling opening 8 and at least one roller brush 11, preferably two roller brushes 11 and a brush drive 8, the brush bristles protruding from the lower part of the insulating brick filling device so that they touch the surface of the insulating brick to be filled. Insulating brick filling device according to Claim 4 , characterized in that the insulating brick filling device have guide wheels 7 on at least one side, which slide laterally along the outside of the brick wall and each have wheels 6 in the pulling direction on both pulling direction sides, ie front and rear. Insulating brick filling device according to one or more of the Claims 4 to 5 , characterized in that the brush drive 8 is an electric motor. Insulating brick filling device according to one or more of the Claims 4 to 6th , characterized in that the filling opening 8 has the shape of a funnel.

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