RU2368746C2 - Device for distribution of concrete supplied by pump to multiple pouring zones - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to the field of construction. Device for concrete distribution to multiple pouring zones in construction sites, tunnels or mines comprises single support structure, supporting pipe of variable geometry, supplied by concrete pump and ending with joint element, and main frame including multiple nozzles, in which end of joint element of variable geometry pipe is arranged with the possibility of connection with the first end of each nozzle. Besides the second end is arranged with the possibility of connection via separate pipe with one of mentioned pouring zones.

EFFECT: simplicity in handling and servicing and reduction of costs.

16 cl, 4 dwg

Description

The present invention relates to a device for distributing concrete, which is pumped to a plurality of casting areas at construction sites, tunnels, mines, and the like.

It is known that at a construction site organized in accordance with modern standards, concrete is poured sequentially into many pouring zones using one or more concrete pumps when the necessary reinforcement is already installed in the said zones. This requires the use of concrete distribution equipment from each of the pumps to the individual casting areas.

According to the state of the art, in order to reach the pouring zones, mobile trolley systems with variously connected concrete supply pipes or systems using fixed pipes that can be connected to one or more distribution structures, also fixed, are also usually used, such structures are usually arranged in series or connected to each other, fed directly and / or indirectly by a concrete pump.

Both systems are not very functional, being bulky (especially in the case of mobile trolley systems), overly scattered around the construction site (especially in the case of systems with fixed pipes) and difficult to handle and maintain, requiring the costly participation of skilled technicians and causing high expenses.

Therefore, there is a need in the industry to improve concrete distribution technology, when concrete is supplied at a construction site by means of a pump to its various pouring zones, to eliminate the disadvantages of the known equipment, in particular to concentrate control over the distribution of concrete to various pouring zones in one zone of the construction site, and reduce the participation of staff.

This need is fully satisfied by the device in accordance with the invention, which contains a single structure supporting a pipe of variable geometry, ending with a butt element, and which contains suitable for the pipe branch pipe main frame, including many nozzles, each of which is made with the possibility of tight connection with said butt element wherein said pipe of variable geometry is fed by a concrete pump, and each of the nozzles is connected to one of the pouring zones through a respective existing pipe.

Said variable geometry pipe may consist of articulated rigid pipes or alternatively a flexible pipe. In a first embodiment, a curved pipe supported by a support structure is preferably used; said pipe is formed by at least two sections and rotates freely around a first vertical axis, while said sections are mutually articulated around a second vertical axis. This tube is preferably supported by a tow hitch with a rotating cantilever body.

The device in accordance with the invention can be permanently located at the construction site or mounted on mobile devices at the same construction site.

Preferably, said nozzles of the main frame of the device in accordance with the invention are L-shaped pipes with at least one end flange for connecting to the butt element of a variable geometry pipe, this butt element is a properly quick-fitting butt element. Moreover, a second flange may be provided at the opposite end of each nozzle to connect to a pipe connecting to the pour zone.

The invention is described below in detail, with reference to the accompanying drawings, which depict its preferred embodiment and two possible applications. In the drawings:

figure 1 is a General side view of a device in accordance with the invention;

figure 2 is a top view of the same device shown in figure 1,

figure 3 shows a device similar to that shown in figures 1 and 2 mounted on a movable cart for facing concrete tunnels; and

figure 4 shows a device similar to that shown in figures 1 and 2, used in a stationary method for facing concrete mines, for example, piezometric mines.

With reference to FIGS. 1 and 2, a device in accordance with the invention for distributing concrete supplied by a pump to a plurality of casting areas at construction sites, in tunnels, shafts, and the like, comprises a single support structure 1 that supports by turning around the first vertical axis X, a pipe 2 formed of two curved rigid sections 3 and 4, mutually articulated around a second vertical axis Y, and ending with a butt member 5.

In accordance with the invention, the same supporting structure 1 further comprises a main frame 6, which includes a plurality of nozzles 7, each of which is made with the possibility of tight connection through its end 7A with the butt element 5, the rotating pipe 2 is fed, in accordance with its lower curvilinear extensions 8, by means of a concrete pump (not shown), while each of the nozzles 7 is configured to connect through its end 7B, opposite the end 7A, with one of the aforementioned pour zones ithout a separate pipe (not shown) which is fixed to the end 7B and which extends in the direction of the arrows in Figure 2. The ends 7A and 7B are flange-shaped, with such a flange easily and effectively connected as a butt element 5, and similar butt elements of individual pipes (not shown), supplying concrete to the casting areas.

In the depicted embodiment of the device, the main frame 6 is made in the form of a rectangular parallelepiped, from which the nozzles 7 protrude in accordance with the long sides and the upper base; however, a different shape of the frame 6 and a different arrangement of the nozzles 7 in it (which could, for example, be located around the circumference) can be used without deviating from the scope of the invention. Similarly, it is not important to place the pipe 2 on the frame 6, this pipe could, for example, rise from the middle section of the same frame 6, which is better than on one side.

Pipe 2 is very effectively supported by a tow hitch with a cantilever body 9 of the supporting structure 1. Pipe 2 rotates around said first vertical axis X with its straight section 10, which is located between the curved section of the concrete supply extension 8 and the first curved section 3A of the first U-shaped sections 3 of the pipe 2. The cantilever body 9 at its free end supports a rotary hinge 11 between the first (3) and second section (4) of said pipe 2 in accordance with said second vertical axis Y.

An additional rotary hinge 12, similar to the hinge 11, is located between the straight section 10 and the first curved section 3A of the U-shaped section 3 of the pipe 2, while the second curved section 4 of the same pipe 2 is divided into two segments 13 and 14 connected to each other with another through a third hinge 15, similar to the previous ones, however having a horizontal Z axis. Segment 13 consists of an L-shaped curved pipe, while segment 14 consists of a substantially S-shaped curved pipe, at the free end of which there is tykov member 5.

During use, concrete is supplied to the extension tube 8 of the rotating pipe 2 by means of a concrete pump (not shown) for pumping through the device 1 to the desired pouring zone. For this, at any time, the operator connects the butt element 5 with one of the nozzles 7 connected to the selected casting zone. For this, the operator needs to properly position the pipe 2 by turning section 3 around it around the X axis of the hinge 12 and section 4 around the Y axis of the hinge 11, then fitting joint 5 as much as possible (preferably a quick fitting joint, as noted) to one from the ends 7A of the nozzles 7 with slight fluctuations around the Z axis of the hinge 15. The rotation of the pipe 2 is facilitated by a cantilever body 9, which rotates on the supporting hitch together with section 3 and effectively supports the pipe 2 through the hinge 11 between sections 3 and 4, which can occupy significantly protruding positions.

Figure 2 shows the thick lines of the first position of the pipe 2, in its connection with the first of the pipes 7, and thin lines the second position of the pipe 2, in its connection with the last of the pipes 7 of the device. This drawing clearly shows the versatility, lightness and convenience with which the multi-section and multi-section pipe 2 can be set in motion for the organization - under the control of a single operator in a single place on a construction site - supplying concrete to a variety of pouring areas on the same construction site, zones can be placed even at a considerable distance from each other.

The device in accordance with the invention usually should be located stationary at the construction site, in a suitable place for supplying the casting areas, from where it can be moved whenever the supply of other casting areas is required.

However, other specific applications may be contemplated; FIGS. 3 and 4 show two interesting examples of this.

In the application shown in FIG. 3, device 1 is mounted on a casting carriage 16 for tunnels, which can be moved on rails or rolled and, by transferring formwork 17 in a manner known per se, between these formwork and tunnel wall G, concrete must be laid. The device according to the invention is mounted on one end of the trolley 16, which is equipped with a plurality of tubes 18 connecting the nozzles 7 with various predetermined filling zones. Pipe 19 delivers concrete from an external pump (not shown, as it can also be mounted on a trolley) to the extension cord 8 of the rotary pipe 2 of device 1. Concrete can be poured, keeping the trolley in a stable position and controlled very simply and directly only on device 1, easily accessible from the outside of tunnel G or from an already lined section of it. Advantageously, the device 1 requires a small space on the trolley, as is desirable in such applications. As soon as the concrete pouring is completed, the trolley 16 is moved to perform subsequent fillings in the tunnel G.

In the embodiment of FIG. 4, device 1 is shown placed at the bottom of a shaft P, for example a piezometric shaft, the walls of which should be faced with concrete using formwork 20. In this embodiment, a pipe 21 is also provided for conveying concrete to the pipe 2 of device 1 and a plurality of pipes 22 between the nozzles 7 of the device and the casting areas in accordance with the formwork 20.

Other particularly interesting applications of the device in accordance with the invention may be at construction sites for the production of prefills for repeating wall blocks or pouring viaducts through formwork having fixed pouring places.

In conclusion, embodiments of the invention and its use may differ from those described and depicted: for example, the shape of the main frame 6 and the location of the nozzles 7 and the pipe 2 with the cantilever body 9 relative to it may vary, as already noted, as well the number and size of the mentioned nozzles 7, pipes 2 and pipes for filling zones. The supporting structure 1 in its integrity could then also be located in places other than those considered, for example, it could be mounted on a wall. All of these changes should be intended to be within the protection scope of the present invention, as defined in the appended claims.

Claims (16)

1. A device for distributing concrete to a variety of casting areas at construction sites, tunnels or mines, characterized in that it contains a single supporting structure (1) supporting a pipe (2) of variable geometry, fed by a concrete pump, ending with a butt element (5), and the main frame (6), including many nozzles (7), in which the end of the butt element (5) of the pipe (2) of variable geometry is made with the possibility of connection with the first end (7A) of each of the nozzles (7), while the second end (7B ) which is executed with the possibility Strongly compound through a separate pipe to one of said casting areas. 2. A device for distributing concrete according to claim 1, characterized in that the pipe (2) of variable geometry is an articulated rigid pipe (3, 4). 3. A device for distributing concrete according to claim 1, characterized in that the pipe (2) of variable geometry is a flexible pipe. 4. The device according to claim 2, characterized in that the articulated rigid pipe is a curved pipe formed by at least two sections (3, 4) and freely rotating around the first vertical axis (X), said sections (3, 4 ) are mutually articulated around a second vertical axis (Y). 5. The device according to claim 4, characterized in that the second section (4) of the rotating pipe (2) includes two segments (13, 14), the second of which is rotatable relative to the first around a horizontal axis (Z). 6. Device according to any one of claims 1 to 5, characterized in that the pipes (7) are L-shaped pipes with at least one end flange (7A) for connecting to the butt element (5) of the variable pipe (2) geometry. 7. The device according to any one of claims 1 to 5, characterized in that the butt element (5) is a quick-fitting butt element. 8. The device according to any one of claims 1 to 5, characterized in that the pipes (7) are L-shaped pipes with two end flanges (7A, 7B) for connecting to the butt element (5) of the pipe (2) of variable geometry and with a pipe connected to the casting zone, respectively. 9. A device according to any one of claims 1 to 5, characterized in that the pipe (2) of variable geometry is supported by a fifth wheel with a cantilever body (9). 10. A device according to any one of claims 1 to 5, characterized in that the cantilever housing (9) is rotatable around said first vertical axis (X) and supports at its free end a rotary hinge (11) between the first (3) and the second (4) pipe sections (2) in accordance with the second vertical axis (Y). 11. The device according to any one of claims 1 to 5, characterized in that it is located stationary at the construction site. 12. The device according to any one of claims 1 to 5, characterized in that it is installed on mobile vehicles at a construction site. 13. The device according to p. 12, characterized in that it is mounted on a filling trolley (16) for tunnels. 14. The device according to p. 12, characterized in that it is located at the bottom of the shaft (P). 15. The device according to any one of claims 1 to 5, characterized in that it is made with the possibility of application in the manufacture of pre-fillings for repeating wall blocks. 16. The device according to any one of claims 1 to 5, characterized in that it is made with the possibility of use in the production of viaducts on formwork having fixed filling places.

Images