UA77250C2 - Erection unit for a building floor slab and method to erect the slab - Google Patents

Abstract

An erection unit for a building floor slab is disclosed, which includes a load-bearing member for installing the floor slab. Said load-bearing member is higher than a plane where the floor slab lies and fixed in a wall and connected with the floor slab by the aid of a traction member. A method for erecting the floor slab with said erection unit is disclosed, which includes the following processes: installing the floor slab mould; connecting the upper end of the traction member to the load-bearing member above the floor slab; placing the lower end of the traction member on the height where the floor slab is located; then pouring concrete; dismantling the mould and installing the next lower layer after the floor slab has hardened; taking off the traction member after the floor slab has solidified to a strength enough to support its deadweight.

Description

Description of the invention

The present invention relates to a mounting device for a floor slab of a house and a method of its installation, and, in particular, to a mounting device for several floor slabs and a method of their installation.

Floor slabs are used to divide the space of the house into several floors in the vertical direction, depending on the customer's requirements. Currently, the floor slabs of most buildings are made of concrete, as shown in Fig. 1, and the installation method is to install the next upper floor slab after the installation of the load-bearing structure (eg, concrete structure) for each floor or the load-bearing structure for the whole house 710 is completed. After pouring the concrete of the lower floor, it is necessary to wait for some time until the concrete hardens sufficiently to bear a certain weight. A support frame can then be installed on top of this floor slab to allow for the subsequent installation of the next top floor slab. However, this method of installation has two disadvantages, namely: (1) it is necessary to wait for a certain time until the floor slab hardens, and only then can the next upper floor slab be installed. In addition, this method is time-consuming, since the support frame and formwork for the floor slab 79 must be reassembled and disassembled after the installation of each floor is completed; (2) it has a bad effect on the structural strength of the floor slab, because the lower floor slab has to bear the load of several upper floor slabs, the support frame and the formwork of the floor slab, if several floor slabs are installed at the same time, which is likely to cause the deformation of this floor slab, as shown in

Fig.1. Therefore, the requirements for the structural strength of the supporting frame will be somewhat stricter. In view of the above-mentioned conditions, ZIRO (State Intellectual Property Office, Hong Kong) patent No. 01129796 (October 22, 2001) entitled "Installation device for a house floor slab and its installation method" discloses an improved installation method for a house floor slab. This method is used to install floor slabs in the direction from top to bottom, starting from the upper floor to the lower floor of the house. This method generally consists of the following sequential operations: fixing the first group of fastening elements on the supporting structure of the house; installation of the formwork of the floor slab on the first group of fastening elements, and the formwork (3 floor slabs are supported by a support structure suspended on the first group of fastening elements with the help of a tension element, and then concrete is poured; installation of the second group of fastening elements in the position where the lower slab should be floor, after the concrete has hardened to a certain extent; hanging the supporting structure on the fastening element of the lower floor with the help of a tensioning element; then removing the first group of fastening elements, the upper floor slab under the action of gravity and with the help of tensioning the tensioning element; the formwork of the floor slab is lowered into the position where the lower floor slab should be, and set on the upper end of the fastener, and then pour concrete. In this way of installation, several floor slabs can be installed at the same time. In addition, there is no assembly and disassembly of the floor slab formwork to speed up the installation and prevent ve upper floor slab to the lower floor slab. However, this method of installation, as before, needs to wait a certain time until the floor slab becomes hard enough to withstand its own weight, and only after that the formwork of the floor slab can be disassembled.

The purpose of the present invention is to reduce or completely eliminate the mentioned disadvantages. "

The main purpose of this invention is to create a mounting device for the floor slab of the house and a method of its installation, which ensure the removal of the formwork of the floor slab and the installation of the next lower level after the said floor slab has hardened to a certain extent. Thus, not only the installation is accelerated, but also the quality of the floor slab is improved.

The proposed installation device for the floor slab of the house has a bearing element intended for installation of the floor slab, and said bearing element is located above the plane in which the floor slab lies, and is connected to the floor slab by a tension element. and The mounting element can be a mounting block attached to the wall with a threaded bolt, or a truss - and a fastening element that supports the upper slab of the floor, or a tension element that tightens the upper slab of the floor. The tensioning element can be a tension rod, a threaded rod, a steel cord or an iron chain. p. 20 The proposed method of installing the floor slab consists of the following operations: installation of the formwork of the floor slab and installation of reinforcing rods; connecting the upper end of the tension element to the load-bearing element above the floor slab; placement of the lower end of the tension element at the height where the floor slab is located; then pouring concrete; disassembly of the formwork of the floor slab and installation of the next lower layer after the specified floor slab has hardened to a certain extent; removing the tension element after the 29 floor has hardened to a strength sufficient to support its own weight.

GF) When using the proposed house floor slab mounting device and installation method, the floor slab will not be stressed by the upper floor slab during the curing process, thereby preventing deformation caused by the weight of the upper floor slab. Next, with the help of a tension member, the formwork of the floor slab can be removed, and before said floor slab has completely hardened, 60 the next lower floor slab can be installed, thereby greatly increasing the speed of installation.

Since the floor slab is installed from the top layer to the bottom, after the floor slab formwork is removed, the floor slab formwork can be easily lowered and installed on the next layer under the influence of gravity using the tension element, which simplifies the installation and transportation of the floor slab formwork. for This invention will become more apparent from the following description with reference to the drawings, in which, for purposes of illustration, the proposed preferred embodiments are shown.

Fig. 1 is a schematic side view illustrating a conventional method of mounting a floor slab.

Fig. 2 is a first schematic side view illustrating the process of installing the floor slab according to the first embodiment of the present invention.

Fig. 3 is a second schematic side view illustrating the process of installing the floor slab according to the first embodiment of the present invention.

Fig. 4 is a third schematic side view illustrating the process of installing the floor slab according to the first embodiment of the present invention. 70 Fig. 5 is a fourth schematic side view illustrating the process of installing the floor slab according to the first embodiment of the present invention.

Fig. 6 is a top view of the first embodiment of the present invention.

Fig. 7 is an enlarged view of detail "A" in Fig. 1.

Fig. 8 represents a constructive view of the second embodiment of the present invention.

Fig. 9 is an enlarged view of detail "B" in Fig.c.

Fig. 10 is an enlarged view of detail "C" in Fig. 8.

Fig. 11 represents a constructive view of the third embodiment of the present invention.

Fig. 12 is an enlarged view of detail "O" in Fig. 11.

Fig. 13 is an enlarged view of detail "E" in Fig. 11.

Fig. 14 represents a constructive view of the fourth embodiment of the present invention.

Fig. 15 is an enlarged view of detail "E" in Fig. 14.

Fig. 16 is an enlarged view of detail "c" in Fig. 14.

Fig. 17 represents a constructive view of the fifth embodiment of the present invention.

Fig. 18 is an enlarged view of detail "H" in Fig. 17. with

Fig. 19 represents a constructive view of the sixth embodiment of the present invention.

Fig. 20 is an enlarged view of detail "I" in Fig. 19. (8)

Fig. 21 represents a constructive view of the seventh embodiment of the present invention.

Fig. 22 is an enlarged view of the detail ")" in Fig. 21.

The proposed installation device for quick installation of the floor slab of the house and its installation method can be used in various ways, for example, as described in BIROMO patent 01129796, which is discussed below. what)

As shown in Fig. 2, the first group of fastening elements 5 is attached at the height where the floor plate 3 should be mounted, and then the formwork 4 of the floor slab is installed on the first group of fastening elements 5. On the second tension elements b at the lower end of the fastening element 5, the support structure 8 is suspended, which is used to support the formwork 4 of the floor slab. Then the floor slab C is concreted, pouring concrete into the formwork of the floor slab 4. Before pouring concrete, several tension rods 2 having a threaded head 10 at their lower end are inserted into the formwork 4 of the floor slab from above at an angle, so that the upper hook ends of the tension elements 2 are suspended on the mounting elements 1 on the wall 9 (as shown in Fig. 2 and 7). After pouring the concrete and its hardening to a certain extent, the second group of fastening elements 5 « 470 are mounted in the position of the lower floor, and the supporting element 8 and the formwork 4 of the floor slab are connected to the second group of fastening elements 5 with the second tension elements 6. The floor slab C after its concreting is stretched by several tensioning elements 2. Then the mounting elements 1 are dismantled (after the slab ;" floor C hardens), and the tensioning elements 2 are removed, leaving the threaded head 10 in the body of the floor slab 3. The holes that remain after concreting the floor slab, filled with cement.

As shown in Fig. 3, before concreting the next lower floor slab, the first group of fastening elements 5 is dismantled, and at the same time, the support frame 8 and the formwork 4 of the floor slab are loaded on the second group of fastening elements 5. As shown in Fig. 4 and 5, under the action of gravity and with the help of the tension of the second tensioning element 6, the formwork 4 of the floor slab is lowered onto the second fastening element 5. After that

The GI should carry out concreting of the next lower floor.

As shown in Fig. 8, 9 and 10, which illustrate the mounting device according to the second embodiment of the present invention, tension elements 2 in this variant are hook-shaped tension rods. After the formwork 4 is installed on the floor slab and the steel rod, one end of each of the hook-shaped tension elements 2 is passed through the floor slab 3 and bent at an angle, and the other end of each of the hook-shaped tension elements 2 is bent into a hook and attached to the steel rod 9" on the wall 9. The tension element 2 is slanted.

As shown in Fig. 11, 12 and 13, which illustrate the mounting device according to the third embodiment of the present invention, a plate 7 is welded to the connecting rod to form a T-shaped mounting element, which

Ф) is inserted into the wall 9. The lower end of the connecting rod has a cut and protrudes from the wall 9, and similarly, the connection between the second tension element 6 and the floor plate C is achieved thanks to the T-shaped mounting element formed by the plate 7 and with connecting rod. The second tension element 6 can be in the form of a MUft, made threaded.

The tension element shown in Fig. 11-13 is the tension rod 2, and both ends of the tension element 2 are attached to the floor plate C and the wall 9, respectively, with the help of a plate 7. The plate 7 has a threaded connection with the tension rod 2.

As shown in Fig. 14-146 illustrating the installation device according to the fourth embodiment of the present invention, both ends of the tension member 2 in this embodiment are bent into a hook and hooked to the steel rods 3 of the floor plate C and the steel rods 9 of the wall 9, respectively, and thus tension element 2 can be tightened or released by rotating the coupling in different directions.

As shown in Fig. 17 and 18, which illustrate the installation device according to the fifth embodiment of the present invention, the first end of the reinforcing rod 2' is inserted through the unhardened floor slab 3, and its second end is attached to the supporting element above the unhardened floor slab 3. Under during installation, the 2" rebar passes through the floor slab C, before the concrete is poured, and the concrete will swell and compress the 2" rebar before it hardens. Due to the fact that the reinforcing rod 2" has protrusions and grooves on its surface, the unhardened floor slab C will not be deformed under the influence of gravity, and the friction force generated between the reinforcing rod 2" and the concrete will be large enough to limit the deformation 7/ 0 floor plates Z within acceptable limits. When the load-bearing member above the uncured floor slab C is attached to the truss of the mounting element, the upper end of the reinforcing rod 2" is attached to the truss, and the lower end of the reinforcing rod 2" passes through the uncured floor slab 3. If the tension member above the uncured floor slab C is a tension member, which serves to tension the next upper floor slab, namely, the 2" reinforcing bar, then the 2" reinforcing bars are connected to each other by /5 welding, and the welding point is located above the corresponding floor slabs.

As shown in Fig. 19 and 20, which illustrate the installation device according to the sixth embodiment of the present invention, the tension element in this embodiment is a steel cord 2", the first end of which is connected to the unhardened floor slab C by means of the upper falling suspension 11, and the other end of which is connected to the supporting element above the unhardened floor slab 3. The lower end of the upper falling suspension 11 2o is connected to the wedge block 12, which has a small upper end and a large lower end, and the wedge block 12 passes through the floor slab 3 . The lower end of the wedge block 12 is connected to the lower falling hanger 11, designed to tension the steel cord 2" with a suspended load, so that after the concrete is poured, a tensile force can be generated to counteract the weight of the uncured floor slab 3. When the bearing element above unhardened floor slab C is attached to the fastening element, the upper end of the 2" steel cord is attached to the fasteners element, and the lower end of the steel cord 2" passes through the unhardened slab of the floor C through the wedge block 12. If the load-bearing element above the unhardened slab i) of the floor C is the tension element of the upper slab of the floor, then the steel cord 2" passes through several slabs of the floor as follows , that the corresponding parts of the steel cord 2" are connected to each other by a falling suspension 11 and a wedge block 12. As shown in Fig. 21 and 22, which illustrate the mounting device according to the seventh embodiment of the present invention, the tension element in this embodiment is iron chain 2", and the other components are the same as in the six embodiments described above, so further description is omitted. with

Although we have shown and described various implementations of this invention, it is clear to those skilled in the art that further implementations are possible within the scope of this invention. - and -

Claims (1)

The formula of the invention 1. Installation device for the floor slab of the house, which includes a supporting element intended for " 70 Installation of the floor slab, the specified supporting element is located above the plane in which the slab lies in the floor, and is connected to the floor slab by a tension element, while the specified the supporting element is a mounting element on the wall of the house, where the upper end of the specified tension element is connected to the specified mounting element with hooks. 2. The mounting device for the floor slab of the house according to claim 1, which differs in that the mounting element is a mounting block attached to the wall with a threaded bolt, or the mounting element can be a steel rod on the specified wall. C. The mounting device for the floor slab of the house according to claim 1, which is characterized in that the mounting element has a plate and a connecting rod connected to each other to form a T-shaped d) shape, and the specified plate and the upper end said connecting rod is placed in the wall, and the lower end of said connecting rod protrudes from said wall. 1 4. The assembly device for the floor slab of the house according to item C, which is characterized by the fact that the specified o connecting rod has a threaded connection with the specified tension element. 5. The mounting device for the floor slab of the house according to claim 1 or 3, which is characterized by the fact that the specified tension element is a tension rod. 6. The assembly device for the floor slab of the house according to claim 1, characterized in that said tension member is a reinforcing rod, the lower end of which is bent after passing through the slab (F) of the floor, and said tension member can also be connected to the plate after passing through the GI floor slab. 7. The mounting device for the floor slab of the house according to claim 1, which is characterized by the fact that the specified tension element is a steel cord or which can also be an iron chain. 8. The mounting device for the floor plate of the house according to claim 7, which is characterized by the fact that the specified plate has a threaded connection with the specified tension element. 9. The mounting device for the floor slab of the house according to claim 8, characterized in that the lower end of said steel cord or said iron chain is connected to a wedge block inserted into the floor slab, and the lower end of said wedge block has a suspension for hanging a load . 10. The method of installing the floor slab, consisting of the following operations: installation of the formwork of the floor slab and laying of reinforcing rods; connecting the upper end of the tension element to the bearing element above the floor slab; placement of the lower end of the tension element at the height where the floor slab is located; pouring concrete; disassembly of the formwork of the floor slab and installation of the next lower layer after the specified floor slab has hardened to a certain extent; removal of the tension element after the floor has hardened to a strength sufficient to support its own weight. 11. The method of installing the floor slab according to claim 10, which differs in that the fastening element is first attached to the wall, and then the formwork of the floor slab is installed on the fastening element. 12. The method of installing the floor slab according to claim 10, which is characterized by the fact that the upper end of the tension rod 7/0 is fixed on the wall above the floor slab, the lower end of the specified tension element is connected to the steel reinforcement in the formwork of the floor slab, and the specified tension element is beveled 13. The method of mounting the floor slab according to claim 10, which is characterized by the fact that the upper end of the second tension element is connected to the specified fastening element, which serves to support the upper floor slab. 14. The method of installing the floor slab according to claim 10, which is characterized by the fact that the upper end of the second tensioning element is connected to the tensioning element that serves to tension the upper floor slab, the lower end of the second tensioning element is passed through the floor slab, and the said tensioning element is performed beveled s schi 6) "c) IF) s u i - - and? -i -i ime) 1 (42) ime) 60 b5