RU2203179C2 - Installation for cutting porous concrete blocks - Google Patents

Abstract

FIELD: building, namely equipment for cutting blocks of porous concrete. SUBSTANCE: installation includes shaft with cutting discs mounted in center of working table having lengthwise grooves whose width and length correspond to size of cutting discs. Cylindrical milling cutter is mounted in front of cutting discs. Rotation axis of said milling cutter is parallel relative to rotation axis of shaft. Mechanism for feeding block is in the form of pushers arranged between discs with possibility of lengthwise motion relative to their cutting planes. EFFECT: enhanced accuracy of cutting, simplification of apparatus, lowered operational costs. 4 cl, 2 dwg

Description

 The invention relates to the production of building materials, namely, equipment for sawing blocks of aerated concrete.

 Currently, due to the need to reduce construction costs and subsequent operating costs associated primarily with high heat losses of residential and industrial buildings, the issue of the production of building stone from aerated concrete having good performance and low cost is an acute issue. The manufacture of building stone from aerated concrete block is carried out by sawing the block into individual stones of the required size.

 A known installation for cutting blocks of aerated concrete (see "Concrete and reinforced concrete", 7, 1988, p.12-14), containing a feed conveyor with a frame and a drive and a mechanism for cutting blocks vertically stretched strings. The specified installation allows only cutting a block of raw aerated concrete, because It has reduced strength. After cutting, stones from aerated concrete are autoclaved and gain the specified strength.

 The main disadvantages of the known device is, firstly, the low accuracy of cutting block aerated concrete. On new equipment, cutting accuracy in all directions does not exceed ± 3 mm. With further operation of the equipment, accuracy will decrease, due to the occurrence of backlash and workings in the moving parts of the conveyor.

 Secondly, the accuracy of stones obtained after sawing during their subsequent autoclaving is further reduced, since in the autoclave, local swelling of their side surfaces, adhesion of cut-through seams, etc., may occur, which also leads to an increase in marriage.

 In addition, to facilitate the process of cutting strings, a significant amount of moisture (up to 25%) and sand of very fine fractions are introduced into the block, which reduces the strength of the resulting aerated concrete and increases its thermal conductivity.

 Closest to the claimed device (prototype) is an installation for cutting aerated concrete blocks (see A.S. 319483, 1972, class B 28 D 1/04), containing a feed conveyor with a frame and a drive in the form of pivotally interconnected rails with longitudinal and transverse grooves and the mechanism for cutting blocks in the form of a main shaft with cutting disks mounted above the longitudinal grooves in the conveyor rails, as well as several additional shafts with cutting disks mounted on transversally moving carriages equipped with a drive, synchronously bathroom with feed conveyor drive. The installation allows you to cut the already finished block of aerated concrete, and therefore eliminates the marriage during its processing in an autoclave.

 The main disadvantage of the known device is the low accuracy of cutting aerated concrete block, because when the conveyor moves, backlash in the supports affects the vibrations of the conveyor and the accuracy of synchronization of the transverse carriages.

 In addition, the known device has many rubbing parts that require constant cleaning and lubrication, because the dust generated during cutting has high abrasive properties, which leads to premature wear of the rubbing parts and to further reduce the accuracy of cutting, and also requires constant routine maintenance on the conveyor.

 The basis of this invention is the task of eliminating these disadvantages, namely improving the accuracy of cutting while simplifying the device and reducing operating costs during its maintenance.

 According to the invention, in an installation for cutting blocks of aerated concrete containing a working table, a mechanism for cutting blocks in the form of a shaft with cutting disks, a block feeding mechanism, this is achieved by the fact that the shaft with cutting disks is installed in the center of the working table, in which longitudinal grooves, length and the width of which corresponds to the size of the cutting disks, and in front of the cutting disks a cylindrical cutter is installed, the axis of rotation of which is parallel to the axis of rotation of the shaft, while the block feed mechanism is made in the form of pushers installed between the cutting of disks to move longitudinally relative to their cutting planes. The specified installation allows you to cut a block of aerated concrete by moving it directly on the surface of the desktop, thereby eliminating distortions, backlash and vibration of the conveyor. Moreover, a cylindrical cutter installed in front of the cutting disks allows not only fine finishing to the size of the vertical dimension of the block, but also eliminates the vertical vibrations of the block during its movement on the working table, thereby increasing the accuracy of its cutting.

 It is advisable to increase the rigidity of the installation, the working table is made in the form of a metal plate with non-through longitudinal grooves, while its length is defined as L = 2l + D, where l is the length of the cut block of aerated concrete, D is the diameter of the cutting disks. It also allows you to use the cut block as a pusher to remove the cut block from the desktop.

 It is advantageous to simplify the feed mechanism of the unit to fasten the pushers on a movable trolley mounted on rails and equipped with a reciprocating drive.

 In FIG. 1, 2 presents the inventive installation for cutting blocks of aerated concrete.

 The proposed installation comprises a working table 1, on the receiving part of which is installed aerated concrete block 2. The center of the working table 1 has cutting discs 3 with a diamond coating mounted on a shaft 4 with an electric drive 5. A cylindrical mill 6 with an electric drive 7 is installed parallel to the shaft 4 A thrust guide 8 is made for accurate installation of aerated concrete block 2 on working table 1. At the output part of working table 1, aerated concrete block 2 is cut into stones 9. Aerated concrete block feeding mechanism 2 in the cutting zone includes pushers 10 mounted on a movable trolley 11 moving along the rails 12 and equipped with a reciprocating drive 13.

 Installation works as follows. The block of aerated concrete 2 from the autoclave after processing has a parallelepiped shape with dimensions of 1860 • 1860 • 610 mm. It is installed using a crane beam with a scraper on the receiving part of the working table 1 and pressed against the thrust guide 8. The feed mechanism of the aerated concrete block 2 into the cutting zone with its pushers 10 is brought into focus against the side surface of the block. The electric drives 5 and 7 are turned on, as well as the drive 13 of the block 2 feeding mechanism. The pushers 10 move the block 2 along the working table 1 to the cutting zone of the disks 3 and the cylindrical mill 6. The cutting zones of the disks 3 and cylindrical mill 6 can be equipped with a vacuum suction with a dust collector, which will ensure reliable collection of aerated concrete dust and crumbs, which is used to obtain the glue used for laying stones from aerated concrete.

The milling cutter 6 forms a vertical dimension of the block up to 600 mm, and the first cutting disc 3 from the thrust guide 8 forms the lateral base surface of the block 2. The distance between the cutting discs 3 is equal to the lateral dimension of the stone 9 (300 mm). After the block passes through the aerated concrete 2 of the cutting zone, it enters the output part of the working table 1, from where it is pushed out from the working table to the special platform (not shown in Fig. 1) from which it is used with a crane beam with a scraper it is removed, rotated at an angle of 90 ^o and is again installed on the receiving part of the working table 1 for a secondary passage through the cutting zone. As a result of this, a second lateral dimension of stone 9 (300 mm) is formed. As a result of two-stage cutting of the initial block 2, we get 36 stones with a size of 600 • 300 • 300 mm (with an accuracy of ± 0.5 mm).

 Thus, the inventive installation allows with high accuracy to cut a block of aerated concrete, simple and reliable in operation.

Claims (4)

 1. Installation for cutting blocks of aerated concrete, containing a working table, a mechanism for cutting blocks in the form of a shaft with cutting disks and a block feeding mechanism, characterized in that the shaft with cutting disks is installed in the center of the working table, in which longitudinal grooves are made, the length and width of which correspond to the size of the cutting disks, and a cylindrical cutter is installed in front of the cutting disks, the axis of rotation of which is parallel to the axis of rotation of the shaft, while the block feeding mechanism is made in the form of pushers installed between the cutting disks with possible Tew longitudinal movement relative to their cutting planes. 2. Installation according to claim 1, characterized in that the desktop is made in the form of a metal plate with non-through longitudinal grooves, while its length is determined by the expression
L = 2l + D,
where 1 is the length of the cut block of aerated concrete;
D is the diameter of the cutting discs.  3. Installation according to claim 1, characterized in that the pushers are mounted on a movable trolley mounted on rails and equipped with a reciprocating drive.  4. Installation according to claim 1, characterized in that the height of the cylindrical cutter above the work table is equal to the final vertical dimension of the aerated concrete block.

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