CS272465B1 - Thermal insulation building block - Google Patents

Abstract

The thermal insulation modular cell consists of a base (1), on which the perimeter thermal insulation panels (2) are arranged, connected to each other, and in the upper part of which the ceiling thermal insulation panels (3) are connected to them, yet! what in the corner parts of the cell are the corner thermal insulation panels (4), which all consist of an outer frame (7) with an outer cover (0) and an inner frame (11) and an inner cover (10), as well as a heat-insulating material (9). The solved problem is the creation of a heat-insulating cell of a light structure, suitable for a relatively large range of working temperatures. This is achieved by the fact that the outer frame (7) is connected to the inner cover (10) and to the inner frame (11) of the heat-insulating panels (2, 3, 4) by insulating clips (13) consisting of a pair of parallel bridges (14) connected together in their central part by a central fastening connection (15) and a central spacer (16) and connected by their peripheral parts by means of outer spacers (17) and of the extreme fastening joints (18) on one side to the outer frame (7) and on the other side to the inner cover (10) and to the inner frame (11).

Description

CS 272465 B1 <·

IN

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating modular cell which can be used, in particular, for air conditioning chambers with a considerable internal temperature range, consisting of a pedestal on which circumferential thermal insulation panels are arranged connected to one another and in which upper thermal insulation panels are attached thereto. the panels, while in the corner sections, there are corner heat-insulating panels, all of which are an outer cover, a heat-insulating material and an inner frame with an inner cover.

According to the state of the art, heat insulating building cells are usually made as single-purpose cells, i.e. either as over-temperature or minus-temperature devices. This is because with larger differences in internal temperatures, especially when the zero limit is exceeded, there are considerable expansion stresses in the cell walls.

The above-mentioned drawbacks are eliminated by the thermal insulating modular cell according to the invention, which consists in that the outer frame is connected with the inner cover and the inner frame of the insulating panels by insulating clips formed by a pair of mutually parallel bridges connected together in their central part by a central screw and a central one. by means of a spacer and connected by their edge portions to the outer frame by means of outer spacers and outer screws, and to the inner cover to the inner frame, on the other. The advantage of the heat insulating modular cell according to the invention is that it can be used for a relatively large range of internal temperatures, while its panels have a relatively low weight in addition to good thermal insulating properties and good load-bearing capacity. It is also advantageous if the insulating clips are arranged alternately on one side and the other of the connection line of the two adjacent thermal insulation panels. This will further increase the weight of the entire structure. An exemplary embodiment of a heat insulating modular cell is shown in the drawings, in which: Figure 1 is a front view of a part of a cell; Figure 2 is a side view of a cell in partial section; and Figure 3 is a detailed sectional view of a thermal insulation panel in plane A-Az of Figure 2. .

The thermal insulating modular cell consists of a base 1, on which peripheral heat-insulating panels 2 are arranged which are connected to each other and in which the ceiling heat-insulating panels 7 are connected to them. In the corner parts of the cell, the corner thermal insulation panels 6 are located. The modular cell is also provided with a door J5 and a door screw cap 6. The individual thermal insulation panels 2, 2A are formed by an outer frame 7 with an outer cover 8, a heat insulating material 9a and an inner cover 10 with an inner frame 11 and connected to each other by screws. 12. The outer shell 7 is connected to the inner frame 11 of the heat-insulating panels 2, 3A by insulating joints 13. Each insulating clip 13 is formed by a pair of parallel bridges 14 joined together in their middle part by a central fastening connection 15 and a central spacer 16 and connected their marginal parts by means of outer spacers 17 and outer fastening connections 18 on one side to the outer frame 7 and on the other side of the inner cover 10 and inner frame 11. The individual insulating clips 13 are in the region 19 of the bonding of each pair of adjacent thermal insulation panels 2, 3, They are alternately offset from one another, i.e., are arranged alternately on one side or the other of the interface of the coupling. While the individual panels 2, 5 are flanges 20 of their outer frames, the folds of the inner covers 10 and the gasket 22 are interposed between the flanges 21 of the inner frames 11. From this, the contours of the inner covers 10 and the inner frames 11 are relative to the outlines of the outer frames T is smaller by the ridge of the compressed seal 22.

The insulating clips 13 have the following functions in the thermal insulating building block according to the invention as follows: they form a heat transfer barrier, further reinforce the structure of the panels 4, 3 by forming a bonded beam together with the outer frame 2 and the inner frame 11. In addition, the distribution of the fastening joints 15, 18 on the insulating clip 13 creates a certain flexibility of the clip 13 in the case of dilatation differences between the internal and external parts

Claims (2)

1, a thermal insulation cell, in particular for an air-conditioning chamber with a considerable range of internal temperatures, consisting of a base on which circumferential thermal insulation panels are arranged, interconnected and in the upper part of which ceiling thermal insulation panels are connected to them, corner thermal insulation panels, all of which consist of an outer frame with an outer cover, a thermal insulation material and an inner frame with an inner cover, characterized in that the outer frame (7) has an inner cover (10) and an inner frame (11) of thermal insulation panels (2). , 3, 4) connected by insulating clips (13) formed by a pair of mutually parallel bridges (14) connected together in their middle part by a central fastening joint (15) and a middle spacer (16) and connected by their edge parts by means of end spacers (17) and extreme fastening joints (18) on the one hand to the outer frame (7) and on the other hand to the inner shaft (10) and to the inner arable frame (11). 2. Thermal insulation modular cell according to claim 1, characterized in that the insulation clips (13) are alternately offset from one another in the region (19) of the connection of two adjacent thermal insulation panels (2, 3, 4).