JPH0244970B2 - - Google Patents

Description

[Detailed description of the invention]

Industrial Application Field The present invention provides a stone composite panel block whose entire surface is flat and which can be immediately used for the exterior of curtain wall type buildings easily and inexpensively by factory production. , the entire surface lined with stone composite panel blocks,
This invention relates to a stone composite panel block for the exterior of a building which has a uniform flat surface and is made fire resistant by a filled layer of fire resistant cement mortar. Prior Art An enclosing frame is constructed of channel-type steel rods with an area equivalent to the entire panel area, and on the opposite inner side of the channel-type steel rods of the enclosing frame, at appropriate intervals, vertical columns each made of channel-type steel rods are arranged. The structure frame is constructed by fixing the outer edge of the inner frame integrally in a vertical and horizontal lattice shape with the horizontal frame rods, and an integral non-combustible material is attached to one side of the frame. A plurality of integrally finished stone plates with overlapping steel plates on the back side are laid out in a butt-like fashion, and the hawk-shaped tip of the head is inserted into the inclined attachment hole drilled on the back side of the integral finished stone plate. The middle part of the fastened fastening bolt is inserted into the insertion hole of the flange of the channel-type steel rod of the noncombustible material plate and the structure frame, and the protruding end of the fastening bolt is tightened by the fixed head. A stone composite panel block for the exterior of a building, in which the finished stone board and the non-combustible board are integrally fastened onto the flange of the channel-type steel rod of the frame, is disclosed in Prior Patent Application No. 57-25900 (Special Publication No. 60-22149). This prior invention provides a stone composite panel block that is manufactured in a factory and is lightweight, hardened, easy to construct, and inexpensive, and this stone composite panel block for use as a building exterior However, in this prior invention, if there is even a slight difference in the thickness of the stone plates, the difference in the dimension from the flat surface of one side of the structure frame to the surface of the stone plates can be adjusted. In order to eliminate this unevenness, a dimension adjustment device is installed at the tightening part of the stone plates. Additional work such as inserting a thin plate was required, and there was a problem that required further improvement in order to eliminate this additional work and improve productivity in the factory. Means for Solving the Problems In the invention of this application, the same enclosing frame as in the prior invention is used, and the entire surface of a plurality of integral finished stone plates arranged in a row and a row is made into a uniform flat surface. In a composite panel block, each of the integral finished stone plates is connected and fixed to the flat surface on one side of the frame using stone pull fittings, so that the flat surface on one side of the frame is formed, A refractory cement mortar layer is filled and solidified between the back surface of the integral finishing stone board, and the integral finishing stone board and the refractory cement mortar layer are connected to each other by the stone triggering fitting. By being integrally tightened onto the flanges of the channel-type steel rods of the structure frame, even if there is a slight difference in the thickness of the stone plates, there is no unevenness between the surfaces of the adjacent stone plates. It is easy to obtain a fire-resistant wall surface that is flat over the entire surface, and can be immediately used for the exterior of a curtain wall type building. Moreover, it is very useful because it can be obtained at a low price. The invention of this application will be explained below with reference to the drawings. In FIGS. 1 to 4, on the inside facing the channel-type steel rods 1, 1... of the enclosing frame 2, which is configured to have an area equivalent to the entire panel area with a plurality of channel-type steel rods 1, 1... The outer edge of the inner frame 2' is composed of vertical and horizontal frame rods, each consisting of a plurality of channel-type steel rods 1, 1, fixed at appropriate intervals, in a vertical and horizontal lattice pattern. A plurality of integral finishing stone plates 5 ₁ , 5 ₂ . A plurality of integral finished stone slabs 5 ₁ , 5 ₂ are laid out in a row.
To each of the integral finished stone plates 5 ₁ , 5 ₂ . . ., so that the entire area of . . . is formed into a uniform flat surface,
One end of the stone trigger fittings 6 ₁ , 6 ₂ , which are set at a predetermined interval from the surfaces of the finished stone plates 5 ₁ , 5 ₂ , respectively, is fixed, and the other end is fixed to the flat surface 4 on one side of the frame 3. The entire surface of the plurality of integral finished stone plates 5 ₁ , 5 ₂ . . . is laid out in a uniform flat surface. A refractory cement mortar layer 7 is filled and solidified between the flat surface 4 on one side of the frame 3 and the back surfaces of the integral finished stone plates 5 ₁ , 5 ₂ . An example of such refractory cement mortar is given below.

[Table] Refractory cement mortar layer 7 of this filling and consolidation
, integrated finishing stone plates 5 ₁ , 5 ₂ ... and frame frame 3
Flange 8 upper 4 of channel type steel rod 1, 1...
It is tightened with a stone fitting. Therefore, when the upper and lower adjacent finished stone plates 5 ₁ , 5 _{2 .} . . have thicknesses 9 ₁ , 9 ₂ , 9 ₃ . . . , as shown in FIG. A slanted burial hole 10 is drilled on the back side of the finished stone board 5 ₁ of ₁ , and a slanted edge ₁₁ at one end of a bolt-shaped stone triggering fitting 6 ₁ with a slanted tip is embedded and fixed therein.
The other end edge 12 is set at a constant distance 15' from the surface of the finished stone board ₅₁ , and the threaded rod of the other end edge 12 of the stone trigger 6 is connected to the flat surface of the flange 8 of the channel type steel rod 1 of the frame 3. It is tightened and fixed on the surface 4 with a nut 13. In addition, horizontal buried grooves 16 are bored in the lower surface 14 of the _finished stone board 5 ₁ at a predetermined distance of 15'' from the surface of the finished stone board 5 1 , and adjacent to the lower side of the finished stone board 5 ₁ . A predetermined distance 1 from the surface of the finished stone board 5 ₂ with a thickness 9 ₂ thinner than this.
A horizontal burial groove 17 is bored at the 5'' position, and a distance 15 from the surface of the finished stone board 5 ₁ , 5 ₂ to both the horizontal burial grooves 16 , 17 from the surface of the finished stone board 5 ₁ is provided. The bifurcated tip edges 18 ₁ , 18 ₂ of the stone triggering fittings 6 ₂ set at the same spacing 15 are buried and fixed, and the rising edge 19 of the other edge is connected to the flat surface 4 of the flange 8 of the channel-type steel rod 1 of the frame 3. , and fix it with tightening bolts 20 and nuts 21.Furthermore, it is buried upward on the lower surface at a predetermined interval 22 from the surface of the finished stone board ₅₄ , which is installed adjacently on _the same surface at the lowest level of the finished stone board 51. A groove 23 is drilled, and the L-shaped bent tip edge 24 of the stone triggering fitting 6 ₄ is buried in the upward embedding groove 23 at the same distance as the distance 15 _{' from the surface of the finished stone plates 5 1 ,} 5 2 . Further, the rising edge 25 of the other end of the stone triggering fitting ₆₄ is fixed to the flat surface 4 of the flange 8 of the channel type steel rod 1 of the structure frame 3 using tightening bolts 26 and nuts 27. , a downward buried groove 23' is bored on the upper surface at a predetermined distance 22' from the surface of the uppermost finished stone board 5 ₁ , and the downward buried groove 23 is inserted into the surface of the finished stone board 5 ₁ , 5 ₂ . The L-shaped bent edge ₂₄ ' of the stone triggering fitting 6', which is set at the same interval 15' from It is fixed to the flat surface 4 of the flange 8 of the shaped steel rod 1 with tightening bolts 26' and nuts 27'.In this way, the finished stone plates are laid out in a vertical and horizontal abutment pattern, and their surfaces are also flat. This finished stone board is placed on a surface plate, and the refractory cement mortar layer is filled and solidified between the finished stone board and the flat surface of the frame.In the drawing, 28 , 29 indicates a frame for preventing leakage of refractory cement mortar, and 30, 3
0 indicates a mounting metal fitting, and 31 and 31 indicate mounting bolts. In Fig. 5, mounting metal fittings 30, 30... are fixedly installed on the channel type steel rod 1 of the surrounding frame 2 of the structure frame 4 in the stone composite panel block for building exteriors, and the mounting bolts protruding from these. 31, 31... are attached to a mounting frame 32 provided in the building. Effects of the Invention As explained above, according to the present invention, a stone composite panel block whose entire surface is flat and which can be immediately used for the exterior of a curtain wall type building can be easily produced by factory production. In addition, it can be provided at a low price, and the entire surface of the stone composite panel block can be made uniformly flat and fire-resistant by a filling layer of fire-resistant cement mortar.

[Brief explanation of the drawing]

Fig. 1 is a front view of one embodiment of the present invention, Fig. 2 is an enlarged rear perspective view thereof, Fig. 3 is an enlarged rear view, Fig. 4 is an enlarged cross-sectional view taken along the line of Fig. 1, and Fig. 5 is another 1 shows a cross-sectional view of an embodiment of the invention. In the drawings, the same reference numerals indicate the same or equivalent parts, 1 is a channel type steel rod, 2 is an enclosing frame, 3 is a frame frame, 4 is a flat surface on one side, 5 ₁ ... 5 ₄ are finished stone plates,
6 ₁ ... 6 ₄ indicate the stone fittings, 7 indicates the refractory cement mortar layer, 8 indicates the flange, and 9 ₁ ... 9 ₄ indicates the thickness of the finished stones.

Claims (1)

[Claims] 1 A plurality of channel-type steel rods are installed at appropriate intervals on the opposite inner sides of the channel-type steel rods of an enclosing frame configured to have an area equivalent to the entire panel area,
The outer edge of the inner frame, which is constructed by vertical and horizontal frame rods each consisting of a plurality of channel-type steel rods in a vertical and horizontal lattice pattern and integrally fixed to the frame, is fixed to the frame to form the structure frame. On one side of the flat surface, a plurality of integral finishing stone plates are laid out in a vertical and horizontal abutting manner over the entire area of the surrounding frame, and the entire surface of the plurality of integral finishing stone plates laid out in a row is aligned. In a composite panel block, each integral finished stone board is connected and fixed to the flat surface on one side of the frame using a stone trigger, so that one side of the frame is formed on a flat surface. A layer of refractory cement mortar is filled and solidified between the side flat surface and the back surface of the integrated finished stone board, and
A stone composite panel for the exterior of a building, characterized in that the integral finished stone board and the refractory cement mortar layer are integrally fastened onto the flange of the channel-type steel rod of the structure frame using the stone pulling fitting. Block.