EA037395B1 - Installation for making box units - Google Patents

Abstract

The device relates to the production of reinforced concrete products, in particular monolithic box units of sleeve type. It's aimed at increasing the productivity of the installation, this is achieved due to the fact that the device consists of the following elements: frame (1), core (2), a pair of longitudinal shields (3), end shield (4), balcony shield (5), lock system (6), hydraulic jacks for lifting and lowering the core (7), hydraulic jacks for shields (8), carriages (9), vibrators (10), hydraulic jacks of the lock system (11), skirt (base) (12), rail track (13). The frame (1) has a flat area on which the core (2) is fixed through the hydraulic jacks (7). On the same frame (1), the skirt (12) is bolted, which is the base of the future room unit. The balcony shield (5), the end shield (4), and two longitudinal shields (3) are equipped with vibrators (10), and also have steam jackets located inside the cavity of each shield (3, 4, 5) and the core (2), which provide warming up and gaining the strength of product up to 75% in 6 hours. Using the hydraulic jacks (8) on the rail track (13), the balcony shield (5), the end shield (4), and two longitudinal shields (3) are moved off the core (2). The pair of longitudinal shields (3) is equipped with a lock system (6) which works with the help of the hydraulic jacks (11). The lock system (6) provides fastening of the end shield (4) with the longitudinal shields (3).

Description

The device relates to the production of reinforced concrete products, in particular, monolithic volumetric blocks of the glass type.

Various designs of apparatus for forming bulk blocks are widely known.

Known installation for the manufacture of volumetric blocks, including a rigid core and sliding vertical outer shields (Monfred Y.B. et al. Buildings from volumetric blocks., M .: Stroyizdat, 1974, S. 253-274).

Disadvantages: insufficiently high performance of the installation.

As the closest analogue known installation for molding bulk blocks in the description of the invention to patent No. 2106962, IPC В28В 7/22, from 04.14.1993, publ. 03/20/1998, including a core with rotary longitudinal and transverse shields, tilters, assembly, molding, heat treatment and demoulding stations. The device is equipped with an additional core with rotary longitudinal and transverse shields and an additional heat treatment station. The cores are made with supports for shields and are installed with the possibility of reciprocating movement along the installation axis from the molding station to the heat treatment posts and vice versa, and the heat treatment posts are located on opposite sides relative to the tilters.

Disadvantages: insufficiently high performance.

The prototype has a large number of details for the preparation and implementation of the molding process. The device consists of assembling, molding, heat treatment and demoulding stations, two movable cores and an additional one. The cores have supports for shields and are equipped with wheels, with the help of which they move along the track. For the implementation of the technical process, it takes a long time to activate all structural elements, as a result of which a large amount of work is performed. Assembly and disassembly of the mold is carried out by hand, not mechanically, which reduces productivity.

EFFECT: increased productivity of the installation. The technical result in the installation for the manufacture of volumetric blocks is achieved due to the fact that it includes a frame with a flat platform, a pair of longitudinal, end and balcony shields, a skirt and a core, while the rails are fixed on the frame, a skirt, which is the basis of the future block room, the core of the vertical direction, and the core of the vertical direction is equipped with hydraulic jacks for lifting and lowering, and the pairs of longitudinal, end and balcony shields - with hydraulic jacks, vibrators, a locking system for fixing the fastening of the end shield with longitudinal shields, the movement of which is carried out using hydraulic jacks, carriages moving along rails, while inside the cavity of each specified shield and core there is a steam shirt, which provides heating and a set of strength of the product.

In comparison with the prototype, the claimed device does not require a large amount of work - the removal of the shields from the supports and their translation into a horizontal position is carried out semi-automatically.

The claimed device ensures the elimination of physical labor of mechanical actions. The movement of the sides in the horizontal direction from the core is carried out with the help of hydraulic jacks along the rail track of the frame using carriages that are attached to each of the boards. The core is lifted in the vertical direction as high as possible using hydraulic lifting and lowering jacks. Exposing the shields close to the skirt is carried out using hydraulic jacks of the shields, which are fixed with a rod on the shields and the tail part to the frame post. With the help of hydraulic jacks, the board-equipment is fixed with a locking system. The concrete mixture in the formed molding cavity is compacted with shield vibrators and deep vibrators, the product is heated using steam shirts, existing inner cavities of the core and side panels, into which steam is supplied with a temperature of 100-115 ° C for a period of 5 to 10 hours , depending on the concrete mix. After heat treatment, the locking system is opened using hydraulic jacks of the panels. With the help of the same hydraulic jacks, the shields are detached from the product, and their rolling back is carried out using the rail track of the carriages. The longitudinal shields are opened in the same way. The core is lowered as far down as possible using hydraulic lifting and lowering jacks. After a short exposure with an overhead crane using a traverse (not shown), the product - the volumetric block is removed, i.e. stripping is in progress. The presence of a movable core in the vertical direction with a slope under the cone allows, after lowering it during stripping, to get the block-room from the molding cavity between the core and the side elements without destruction and deformation. As a result, the inventive device improves productivity.

The presence of essential features distinguishing from the prototype makes it possible to recognize the proposed technical solution as new.

The possibility of implementing the claimed device in industry allows us to recognize it as corresponding to the criterion of industrial applicability.

The device is illustrated by drawings, where in FIG. 1 shows an installation for the formation of volumetric blocks, side view;

in fig. 2 - the same, top view;

- 1 037395 in Fig. 3 - core with shield and skirt (fragment).

The claimed device consists of the following elements: frame 1, core 2, a pair of longitudinal shields 3, end shield 4, balcony shield 5, locking system 6, hydraulic jacks for lifting and lowering the core 7, hydraulic jacks for shields 8, carriages 9, vibrators 10, hydraulic jacks system 11, skirt 12 (product base), track 13.

The frame 1 has a flat platform on which the core 2 is fixed through hydraulic jacks 7. Skirt 12 is fixed on the same frame 1 with bolted connections, which is the base of the future block room. Shields 3, 4 and 5 are equipped with vibrators 10. Shields 3, 4, 5 and core 2 have steam shirts located inside the cavity of each shield 3, 4, 5 and core 2, which provide warming up and gain of product strength up to 75% in 6 hours . With the help of hydraulic jacks 8 along the track 13, the balcony shield 5, the end shield 4 and two longitudinal shields 3 are moved away from the core 2. A pair of longitudinal shields 3 is equipped with a locking system 6, which works with hydraulic jacks 11. The locking system 6 provides fixing of the fastening end shield 4 with longitudinal shields 3.

The claimed device is compact (9x11x4 m) and mobile due to its collapsible ability and the possibility of installation directly on the construction site. On a pre-prepared concrete site, frame elements 1 are assembled using a truck crane. Then, the skirt 12, the core 2 and the side elements 3, 4 and 5 are sequentially installed on the frame. The parts of the installation are fastened with bolted joints. Installation of the installation takes no more than 3 days. The device is dismantled in the reverse order also with the help of a truck crane.

The installation works as follows.

After turning on the power of the system, when pressure is applied by the oil station, using hydraulic jacks 7, the core 2 is lifted in the vertical direction as much as possible. A three-dimensional reinforcing cage is installed with an overhead crane using a traverse. Then the operator sets the shields 3, 4 and 5 close to the skirt 12. By applying pressure to the hydraulic jacks 8, which are fixed by the rod on the shields 3, 4 and 5 and the tail part to the frame post 1, the shields 3, 4 and 5 are sequentially moved along the rail paths 13 of the specified frame 1 with the help of carriages 9, which are fixed on each of the shields 3, 4 and 5. With the help of hydraulic jacks 11 with the locking system 6, the board-equipment is fixed.

In the formed molding cavity between the shields 3, 4 and 5 of the inner walls and the core 2, as well as to the ceiling, a concrete mixture is fed using a concrete paver (not shown), compacted with vibrators of the shields 10, and then with deep vibrators (not shown). Shields 3, 4 and 5 of the molding unit serve to prevent the destruction of the shape given to it and allow the use of more mobile mixtures than without them. Next, the product is heated using steam shirts with inner cavities of the core 2 and side panels 3, 4, 5, into which steam is supplied with a temperature of 100-115 ° C for a period of time from 5 to 10 hours, depending on the concrete mixture. After heat treatment by applying pressure to the hydraulic jacks 11 open the locking system 6. Then, using the same hydraulic jacks 8, the shields 4 and 5 are detached from the product and rolled away along the rail track by 13 carriages 9. After that, a pair of longitudinal shields 3 are opened in the same way. using hydraulic jacks 7 is lowered as much as possible down. After a short exposure with an overhead crane using a traverse (not shown), the product is removed, i.e. stripping is in progress. Next, the shields 3, 4, 5 and the core 2 are cleaned, lubricated, and the process of manufacturing a block room using the claimed device is repeated.

The use of the proposed device will improve performance.

Claims (1)

CLAIM An installation for the production of volumetric blocks, characterized in that it includes a frame with a flat platform, a pair of longitudinal, end and balcony shields, a skirt and a core, while rails are fixed on the frame, a skirt that is the base of the future block room, the core is made with the ability vertical movement, while the specified core is equipped with hydraulic jacks for lifting and lowering the core, and a pair of longitudinal, end and balcony shields - with hydraulic jacks, vibrators, a locking system for fixing the fastening of the end shield with longitudinal shields, the movement of which is carried out using hydraulic jacks, carriages, moving along the rails, while inside the cavity of each specified shield and core there is a steam shirt, which provides heating and a set of strength of the product.