RU2037614C1 - Three layered panel with warmer - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: panel has plane lining, warmer, and fins. A fin has two lengthwise slots. EFFECT: keeping strength through all panel length, reduced cost of installation, increased technological effectiveness. 7 dwg

Description

 The invention relates to the field of construction, in particular to facing panels.

 Known panels containing flat cladding, the middle layer of insulation, ribs, usually made of wooden blocks (Chistyakov A.M. Lightweight multi-layer enclosing structures. M. Stroyizdat, 1987, Fig. 4.7 a, p.99). In well-known panels, bosses, channels, and framing can also be used as ribs.

 The disadvantages of these panels include the following.

 Low fire resistance. This is due, first of all, to the quick opening of the joints between the panels installed on the object. To this end, the known panels are provided with additional screeds or are made with additional inserts.

 Low thermal performance. This disadvantage is due to the presence of various elements of ribs, bosses, etc. having a different temperature gradient. When installing well-known panels at the facility, the temperature field spreads along the length of the panel. To align the temperature field, various joint designs are used.

 Low mechanical strength of the panels, especially in the places of their installation. This is due to the lack of end elements that make it easy to mount panels on the object without violating their integrity.

 The presence on the vertical joints of the strips and other fasteners complicates the installation process and requires special sealing work.

 Closer to the invention is a panel containing skins installed with an offset along the width of the panel, upper and lower end ribs, between which is a layer of insulation.

 The well-known panel, although it is made with offset casing along its width, which allows to increase the ease of installation and to avoid additional costs for sealing work (the use of strips, other fasteners), does not solve the problem of increasing fire-resistance and strength characteristics in general. This panel has both vertical framing ribs and fastening elements of these ribs together (wooden inserts, bolted joints), but this design does not allow the use of identical inserts at the joints, which leads to a quick opening of the joints and does not provide high thermal characteristics. In addition, the absence on the longitudinal end edges of the installation elements for embedded parts also affects the rise in the cost of construction work.

 An object of the invention is to simplify the design while expanding operational capabilities through use in mobile buildings. In addition, the use of these panels will increase the fire resistance of the object as a whole, as well as increase the thermal characteristics of this object.

 This problem is solved by the fact that in a three-layer panel with a heater, including flat skins installed with an offset along the width of the panel, the upper and lower end ribs, the heater is made in the form of a hard mineral wool plate, and the lower rib with two longitudinal grooves, the depth of which is no more than three sizes of their width.

 Figure 1 shows the panel, a General view; figure 2 section aa in figure 1; in FIG. 3, 4, section B-B in FIG. 1, options for filling the joint with a heater plate; in FIG. 5 joint panels with the insert; Fig.6 joint panels with insulation; Fig.7 installation of panels on the object of a mobile building.

 The panel consists of two claddings 1 and 2, made, for example, of cement-bonded particle boards. Between them is a heater 3 a rigid plate made of mineral fiber, maybe basalt materials. The panel is pulled together by two end ribs 4 and 5. The upper rib can be made of any bent profile. The lower rib is made of timber and has two longitudinal grooves 6. Plates 1 and 2 are installed with the formation of the protrusions 7 and 8. As an insert, a beam of insulation material can be used. During installation, the joints are putty with cement with the addition of superthin mineral fiber. The plate is mounted on the protrusion of the object 9.

The panel is glued with insulation using glue with the addition of fiber materials in the ratio of adhesive 20-80% fiber 80-20%
The panel is installed on the object using grooves 6. Due to the presence of two grooves, it is possible to accelerate installation work by installing panels on either side of the object. The presence of the lower end element allows you to save the thermal characteristics of the wall. The tests revealed that, compared with the known panels with vertical ribs, foam insulation, the thermal conductivity decreases by about 1.4 times (0.033 W / m˙K versus 0.046). This is due to the fact that one of the weaknesses is the installation location of the panel. The presence of a horizontal rib without fastening elements allows you to maintain thermal balance at the installation site.

 The ratio of the selected grooves also affects the heat balance. Tests have shown that with increasing groove height, a sharp loss of heat occurs. So, with an increase in the groove by 10%, the thermal conductivity increases by about 24-26% (0.033 with the indicated sizes versus 0.041). The minimum groove depth is selected from the condition of tight installation of the panels, as well as from the condition of installing the edge of the lower edge of the panel in the same plane as the floor plane of the object.

 The use of the invention will significantly increase the fire resistance of the object as a whole due to the use of mineral wool materials and due to the limited opening of the joint, this panel does not have materials with different degrees of fire resistance (through burning of panels of steel casing with insulation Izolan 3M is 23 min with a thickness of insulation of 75 mm, in this design, through burning is 34 minutes with the same thickness of the insulation).

 Also, due to the lack of framing elements in comparison with the known panels, having increased thermal conductivity compared to the insulation, the thermal characteristics of this panel are increased, i.e. In this case, the temperature is equalized along the wall field due to the increase in the thermal characteristics of the joint.

 Ribs located in this way can increase the strength of the panel, the rigidity in its lower part. The use of insulation in the form of a rigid plate allows you to save the strength of the panel along its entire length.

 In addition, the use of this design will significantly reduce the cost of installation work, increase the manufacturability and manufacture. The use of adhesive bonding will increase strength, especially in cases of a set of insulation from individual plates having different overall parameters.

Claims (1)

 THREE-LAYER PANEL WITH A HEATER, including flat skins installed with mixing along the width of the panel, the upper and lower end ribs, characterized in that the insulation is made in the form of a hard mineral wool plate, and the lower rib with two longitudinal grooves, the depth of which is no more than three sizes width.

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