RU2023588C1 - Aggregate to mold plates of hollow floor - Google Patents

Abstract

FIELD: construction. SUBSTANCE: aggregate, in which carriage, vibrating table, tray-car, vibrating overload, board tools and hollow space creator are engaged with each other, is in addition provided with buffer tank, connected with pump, tied by lines of working agent with hollow space creator, communicated with outer breaker of working agent movement. Hollow space creator has inner breaker. Line of working agent, connecting pump with hollow space creators, has input distributer. Line of working agent, that connects hollow space creator with outer breaker, has output distributer. Lines of working agent, that connect input and output distributors with hollow space creator , have flexible inserts. Hollow space creator is made of two parts, one of which has input and output cavities, connected with lines of working agent, another one is made closed. Charger for elastic medium feeding is connected to input distributer. EFFECT: decrease of power consumption. 6 cl, 1 dwg

Description

 The invention relates to construction, in particular to installations for forming hollow core slabs.

 A known installation for forming slabs of hollow flooring, containing a carriage with a traverse and rigidly attached hollow formers, as well as a shape, a resonant plate with a pathogen of horizontally directed vibrations [1].

 The disadvantage of this installation is the analogue is the low efficiency in compaction of hard concrete mixtures. This is due to the fact that the installation provides mainly longitudinal vibrations of the void formers, which only slightly dilute the concrete mix in the appliance zone and do not provide high-quality compaction of the mixture along the entire height of the molded product in the middle part.

 The closest to the invention in terms of technical essence and the achieved result is an installation for forming hollow reinforced concrete products, which consists of a carriage that can be moved on rails, on which, with the help of shock absorbers, a spatial frame with a vibration exciter and its drive having a beam connected with hollow formers is installed. The structure of the installation also includes a vibrating table, a pallet-trolley, vibroload, side rig, rollers [2].

 The disadvantage of the installation of the prototype is the high energy consumption during molding of the product due to the need to create a resonant mode of all massive units of the installation, the frame with the carriage (not affecting the molding process of the product), crosshead and hollow core.

 The purpose of the invention is to increase the efficiency of the installation by reducing energy consumption during molding of the product.

 This goal is achieved by the fact that the installation is equipped with a buffer tank connected to the pump and connected by the lines of the working agent with a void forming agent communicated with an external interrupter of movement of the working agent. The core former contains an internal breaker. An inlet distributor is installed on the line of the working agent connecting the pump with the void formers. An output distributor is installed on the line of the working agent connecting the void formers with an external breaker. The lines of the working agent connecting the input and output distributors with the blower contain flexible inserts. The hollow core is made of two parts, one of which contains the input and output cavities associated with the lines of the working agent, and the other part is closed. A supercharger is connected to the inlet distributor to supply an elastic medium.

 Distinctive features from the prototype are the fact that the installation is equipped with a buffer tank connected to the pump and connected by the lines of the working agent with a void generator communicated with an external interrupter of movement of the working agent, the void generator contains an internal interrupter, an inlet distributor is installed on the line of the working agent connecting the pump with the void generators , the lines of the working agent connecting the input and output distributors with the hollow core contain flexible inserts, It is made up of two parts, one of which contains the inlet and outlet cavities connected with the lines of the working agent, and the other part is closed, a supercharger is connected to the inlet distributor to supply an elastic medium.

 The drawing shows a schematic diagram of an installation for molding hollow core slabs, which shows the buffer tank 1, pump 2, lines 3, 7, 15, 17, 19 of the working agent, line 4 of the elastic medium, the supercharger 5 of the elastic medium, the inlet distributor 6, flexible inserts 8, 14, a hollow core 9, an input cavity 10, an internal chopper 11, a wall 12, an output cavity 13, an output distributor 16, an external chopper 18, a block 20 consisting of a carriage, a vibrating table, a trolley pallet, a vibropruss, a rigging, a passive part 21 hollow core and re Town 22.

 The installation for molding hollow core slabs consists of a buffer tank 1 connected to the pump 2. The pump 2 is connected to the inlet distributor by line 3 of the working agent 6. The inlet distributor 6 is connected via line 7 of the working agent and flexible insert 8, which is part of line 7, to the input cavity 10 of the hollow core 9, where there is a wall 12 having holes in which the internal breakers are installed 11. The input 10 and the outlet from the cavity of the empty core 9 are separated by a wall 12. The output cavity 13 is empty Pouring 9 using a flexible insert 14, which is part of the working agent line 15, is connected to the output distributor 16. The output distributor 16 is connected to the external breaker by the working agent line 17, which is connected to the buffer tank 1 by the working agent line 19. The buffer tank 1 is connected to the atmosphere.

 The hollow core may also contain a passive part 21, which is separated from the input and output cavities by a partition 22.

 Void formers are contained in block 20, which consists of a carriage, a vibrating table, a trolley pallet, a vibroprotruz, a side rig, which are also available in the prototype installation.

 Installation works as follows.

 Initially, preparatory operations are performed. In the pre-cleaned pallet, the necessary fittings are laid, the onboard equipment is closed and installed on a vibrating table. The drive of the carriage is injected into the end walls of the tool holder. From the hopper of the paver serves a mixture, which fill the space between the longitudinal and end sides.

 The molding process proceeds in the following sequence.

 From the buffer tank 1, pump 2 pumps out the working agent (pressurized liquid or carbonated liquid and feeds it through line 3 to the inlet distributor 6, which directs the working agent to a specific void generator according to the specified program. From the inlet distributor 6, the working agent passes through line 7 of the working agent and a flexible insert 8 is fed into the inlet cavity 10 of the hollow core 9. Flexible insert 8 is designed to prevent destruction of the piping during installation and removal of hollow core Various free stroke that are aligned with face sides during operation and vibrations.

 The working agent from the inlet cavity 10 acts on the internal breaker 11, which in the initial position blocks the holes in the wall 12. Under the influence of the working agent, the internal breakers 11 open and the working agent flows into the outlet cavity 13.

 From the outlet cavity, the working agent is sent through the flexible insert 14 and the working agent line 15 to the output distributor 16. The output distributor is designed to divert the working agent from the formers according to a given program.

 From the output distributor 16 along the line 17 of the working agent, the working agent is directed to an external breaker 18, which provides intermittent supply of the working agent along the lines of the working agent.

 From the external breaker 18, the working agent is sent through the working agent line 19 to the buffer tank 1, from which it is again pumped out by the pump 2 and fed to the void generator 9.

 When the supply of the working agent is stopped along the lines of the working agent, the internal breakers 11 return to their original position, that is, they block the openings in the wall 12.

 Due to the displacement of the internal chopper in the core former, which creates the center of mass movement, oscillatory movements of the core former occur. Due to the movement of the internal circuit breakers during the pulsed mode of pumping liquid through the external circuit breaker 18, wave, transverse and torsional oscillatory movements of the core are provided, which provide intensive compaction of concrete mixtures.

 Subsequently, the missing amount of the concrete mixture is added, vibroload is installed and the concrete mixture is additionally compacted.

 After the compaction of the concrete mixture is completed, the void formers are removed from the molded product and the end walls of the tooling using the carriage. The vibroload is removed from the product, the side rig is opened and the product is fed on a pallet to perform subsequent technological operations.

 The use of a pore former with a passive part 21 in the installation allows one to intensify the oscillatory movements of the pore former in the appliance part and to level the mixture in the middle part due to the appearance of a near-resonant mode in the passive part from the moving internal hollow core breakers located in the partition between the input and output cavities.

 Installation for forming hollow core slabs is efficient even without input 6 and output 16 distributors when applying elastic medium (rubber crumb). The distributors are designed and used to supply a working agent and an elastic medium to a void generator specified in the program to create oscillatory movements at different periods (in time) during installation operation, which improves the compaction process of concrete mixtures.

 To intensify the oscillatory motions of the core former, an elastic medium (gas phase), such as air, is supplied to the working agent. When the mass of the working agent is moved and the carbonated medium is compressed in the core at the moment the supply of the working agent is stopped by the external chopper 18, additional vibrations of the core are generated, which contributes to the intensification of the process of compaction of the concrete mixture.

 Air (elastic medium) is discharged from the installation through the buffer tank 1.

 The elastic medium is supplied to the working agent by means of a supercharger 5 along line 4 of the elastic medium. The supply of the elastic medium is carried out in the inlet distributor 6.

 From the installation, the elastic medium and air (gas) are discharged through the buffer tank 1.

 The proposed installation is economically viable.

Claims (6)

 1. INSTALLATION FOR THE FORMATION OF EMBEDDED PLATE PLATES, containing a carriage, a vibrating table, a trolley pallet, a vibroload, side rigging and hollow formers with a drive of their oscillatory movement, characterized in that the drive is made in the form of a system consisting of a buffer tank connected to a pump connected by means of working agent lines with hollow formers communicating with an external interrupter of movement of the working agent, each hollow former is made of two parts, one of which contains an input and an output hydrochloric cavity associated with the lines of the working agent, and internal chopper communicating the cavities with each other.  2. Installation according to claim 1, characterized in that the lines of the working agent are equipped with an inlet distributor connecting the pump to the void formers.  3. Installation according to claim 1, characterized in that the line of the working agent connecting the blower with an external chopper is equipped with an output distributor.  4. Installation according to claim 1, characterized in that the lines of the working agent connecting the input and output distributors have flexible inserts.  5. Installation according to claim 1, characterized in that the drive has a supercharger for supplying an elastic medium connected to an inlet distributor.  6. Installation according to claim 1, characterized in that the second part of the core is made in the form of a single closed tank.

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