EA009136B1 - Extruder (variants) - Google Patents

Abstract

The invention relates to construction industry, in particular, to methods for fabricating of concrete and reinforced concrete articles, more definite, to extruders for fabricating multi-void and long-spanned articles. The extruder for fabricating cellular building structures, mainly cellular plates, comprises a hopper for concrete and a working member mounted on a support frame and arranged co-axially to the guide stem, the working member comprises at least one working element having a housing, a void former, a hollow blade screw, outer and inner spindles, the outer spindle has a drive for rotating thereof, the inner spindle is adapted to axial displacement and connected to a device for transferring axial vibration thereto. The outer spindle is coupled to the inner spindle via a device transmitting rotation from the outer to the inner providing free axial movement of the spindles towards each other, the inner spindle is connected to a screw, the screw is hingedly connected to the void former with some allowance relative to the working element housing in the direction of its longitudinal axis. According to the second embodiment the extruder for fabricating cellular building structures, mainly cellular plates, comprises a hopper for concrete and a working member mounted on a support frame and arranged co-axially to the guide stem, the working member comprises at least one working element having a housing, a void former, a hollow blade screw, outer and inner spindles, the inner spindle has a drive for rotating thereof, the outer spindle is adapted to axial displacement and connected to a device for transferring axial vibration thereto. The outer spindle is coupled to the inner spindle via a device transmitting rotation from the outer to the inner providing free axial movement of the spindles towards each other, the outer spindle is connected to a screw, the screw is hingedly connected to the void former with some allowance relative to the working element housing in the direction of its longitudinal axis.The inventive result of using both embodiments proves improvement of extruder operation features, providing higher forming quality of concrete and reinforced concrete articles, higher concrete consistency and strength due to the use of longitudinal axial vibration of void formers and partially concrete feeding screws, providing also to increase of plasticity and decrease of friction properties of concrete mixture on boundaries separating the concrete mixture and working surfaces of void formers and the extruder screw blade.

Description

The invention relates to the field of construction, namely, devices for the manufacture of concrete and concrete products, specifically to extruders for the manufacture of multi-hollow and long products.

The prior art extruder for the manufacture of concrete slabs, mainly multi-hollow. The extruder contains a movable frame with a hopper for feeding construction mixture, a fixed forming base, side forming elements in the form of longitudinal sides located along it on both sides and augers with emptying formers on free ends placed between the longitudinal sides (see VI 2013205 C1, 08/23/1985 , 28 B5 / 02).

A disadvantage of the known technical solution is the low quality of the extrusion of concrete into the product and the low productivity of concrete supply per unit capacity of the extruder with insufficient density and strength of concrete in the fabricated structure due to the irrational extrusion system for feeding and laying concrete, which does not have longitudinal axial vibration treatment of concrete at the extruder outlet .

The task, which directed both variants of the present invention, is to improve the operating parameters of the extruder, improving the performance of the processes of extrusion and placing concrete into the product with improved vibration processing and providing a higher density and strength of concrete in the product by applying axial vibration of concrete to the holders and the screw.

The task in part of the first variant is solved due to the fact that the extruder for the manufacture of hollow building structures, mainly hollow slabs, according to the invention, includes a hopper for concrete mounted on a support frame and a working body consisting of at least one working element comprising a body coater core mounted coaxially to the guide rod, hollow blade auger, external and internal spindles, with the external spindle equipped with a drive for its rotation, and the internal spindle at installed with the possibility of axial movement and connected to a device for transmitting axial vibration to it, while the external spindle is connected to the internal by means of a device transmitting rotation from the external internal and ensuring the free movement of the spindles relative to each other in the axial direction, while the internal spindle connected to the screw, and the screw is pivotally connected to the core former, which has a degree of freedom of movement relative to the body of the work item in the direction of its longitudinal axis.

The core of the working element can be mounted with the possibility of axial movements, and the core former can be fixed on the rod rigidly.

At least, the outer spindle can be fixed in the housing of the working element pivotally, for example by means of rolling bearings.

The rod can be fixed on the body of the working element rigidly, and the core former can perform axial oscillations on the core, which, in the place of attachment to it of the coreholder, can be shaped to allow axial displacements transmitted to the core former from the auger and preventing rotation of the core former, for example, oval or square section .

At least the inner spindle can be hinged on the rod, for example, by means of rolling bearings.

At least some of the parts of the work item can be interconnected via dampers.

The drive for rotating the external spindle can be made in the form of an asterisk or a pulley for a chain or belt drive, respectively, from the engine.

A device for transmitting axial vibration to an internal spindle can be made in the form of a rod-piston hydraulic system.

The hydraulic system may include a hydraulic station that feeds hydraulic fluid through a valve to a piston rod.

The distributor of the hydraulic system may contain a rotor that creates alternating pressure from the hydraulic station to the piston rod by rotating it.

A pulley can be attached to the hydraulic distributor rotor for a belt transmission of rotational motion from the engine.

A device that transmits rotation from an external spindle to an internal one and ensures free movement relative to each other in the axial direction can be made as a tooth on one spindle, entering into the axially extended groove of the other spindle, or by means of a key installed into the axially extended grooves spindles.

Blade auger blade can be made in the form of a single-thread helix.

The task in part of the second option is solved due to the fact that the extruder for the manufacture of hollow building structures, mainly hollow slabs, according to the invention, includes a hopper for concrete mounted on a support frame and a working body consisting of at least one working element comprising a body mounted coaxially to the rod

- 1 009136 nude with the ability to move a hollow core, a hollow blade auger, external and internal spindles, the internal spindle is equipped with a drive for its rotation, and the external spindle has the possibility of its axial movement and is connected to a device for transmitting axial vibration to it, while the external spindle connected to the internal by means of a device that transmits rotation from the internal external and ensures their free movement relative to each other in the axial direction, while the external spindle connects ene with a screw, and the screw is pivotally connected with inside core which has a degree of freedom of movement relative to the operating member body in the direction of its longitudinal axis.

The technical result achieved by the invention provided by both the first and second option, is to improve the operating parameters of the extruder in the manufacture of hollow concrete slabs, long products, providing higher quality molding concrete and reinforced concrete products, increasing the density and strength of concrete in the product through the use of longitudinal axial vibration of hollow cores and partially concrete feed screws, which also provide for the emergence of a technological effect increased I ductility and reducing the frictional properties of the concrete mix fed directly at the interfaces of the concrete mixture and contacting it with the working surfaces inside core and the helical blade of the extruder screw. The invention is illustrated by drawings, where in FIG. 1 shows an extruder, a longitudinal section;

in fig. 2 - a fragment of the working body of the extruder, side view with a partial cut;

in fig. 3 - a fragment of the working body, top view;

in fig. 4 is a cross section of an extruder in the area of the chain transmission;

in fig. 5 is a working element, side view with a partial cut;

in fig. 6 — node A in FIG. five;

in fig. 7 - extruder according to the second embodiment, a perspective view;

in fig. 8 - a fragment of the working body of the extruder according to the second variant, side view with a partial cut.

According to the first embodiment of the invention, the extruder 1 for the manufacture of hollow building structures of hollow plates includes a hopper 3 for concrete and a working body 4 consisting of one working element 5 comprising a body 6, mounted coaxially to a guide rod 7, a core former 8, hollow blade screw 9, external and internal spindles respectively 10 and 11.

The outer spindle 10 is provided with a drive 12 for its rotation, and the inner spindle 11 is installed with the possibility of its axial movement and connected to the device 13 for transmitting axial vibration to it. The outer spindle 10 is connected to the inner 11 by means of the device 14, transmitting the rotation from the outer 10 to the inner 11 and thus ensuring the free movement of the spindles 10, 11 relative to each other in the axial direction. The internal spindle 11 is connected to the screw 9. The screw 9 is pivotally connected to the core former 8, which has a single degree of freedom of movement relative to the body 6 of the working element 5 in the direction of its longitudinal axis 15.

The rod 7 of the working element 5 is installed with the possibility of axial movements, and the core former 8 is fixed on the rod 7 rigidly.

The outer spindle 10 is fixed in the housing 6 of the working element 5 pivotally by means of rolling bearings 16.

The rod 7 is fixed on the housing 6 of the working element 5 is rigid. The puncher 8 performs axial oscillations on the rod 7, which, at the attachment point to it, the pacifier 8 has a form (not shown), allowing axial movements transmitted to the puncher 8 from the screw 9 and preventing rotation of the oval section 8 (not shown) .

The inner spindle 11 is fixed on the rod 7 pivotally by means of rolling bearings (not shown in the drawings).

Some parts of the working element 5 are interconnected via dampers (not shown in the drawings).

The actuator 12 to rotate the external spindle 10 is made in the form of an asterisk 17 for the chain transmission 18, respectively, from the engine 19.

The device 13 for transmission to the internal spindle 11 of the axial vibration is made in the form of a piston rod 20 of the hydraulic system.

The hydraulic system includes a hydraulic station (not shown in the drawings) supplying pressure of hydraulic fluid through the distributor 21 to the piston rod 20.

The distributor of the hydraulic system contains a rotor (not shown in the drawings), which creates alternate pressure from the hydraulic station (not shown in the drawings) onto the piston-piston 20 by means of its rotation.

On the rotor (not shown) of the distributor 21 of the hydraulic system (the drawings do not

- 2 009136 shown) fixed pulley (not shown in the drawings) for a belt drive 22 rotational motion from the engine 23.

The device 14, transmitting rotation from the outer 10 spindle to the inner 11 and ensuring free movement relative to each other in the axial direction, is made in the form of a tooth (not shown in the drawings) on one spindle, which enters an axially extended groove (not shown in the drawings) of the other spindle.

The blade 24 blade screw is made in the form of a single-thread spiral.

The extruder in the first embodiment works as follows.

The extruder 1 for the manufacture of hollow building structures hollow slabs includes mounted on a supporting frame 2 a hopper 3 for concrete and a working body 4, consisting of one working element 5, comprising a housing 6, mounted coaxially to the guide rod 7, hollow core 8, hollow bladed screw 9, external and internal spindles, respectively 10 and 11.

From the motor through the device for rotating an external spindle, made in the form of an asterisk for a chain transmission, rotation is transmitted to the external spindle.

The hydraulic system, which includes a hydraulic station (not shown in the drawings), through a distributor by rotating the rotor (not shown in the drawings) applies pressure of the hydraulic fluid to the piston rod and produces axial vibration transmitted to the internal spindle.

Rotation of the rotor (not shown) of the distributor of the hydraulic system (not shown) is carried out by means of a belt drive from the engine onto a pulley attached to the rotation (not shown).

From the external spindle, rotation is transmitted to the internal spindle. The device is made in the form of a tooth (not shown in the drawings) on one spindle, which is included in the axially extended groove of the other spindle, and provides free movement of the spindles relative to each other in the axial direction.

The internal spindle is connected to the screw, and the screw is pivotally connected to the core former, which has a degree of freedom relative to the body of the working element in the direction of its axis.

The rotation and axial vibration of the internal spindle is transmitted to the propeller auger, and the puncher performs axial oscillations on the rod, which, in the place of attachment to it of the puncher, has a square cross-section, allowing axial displacements transmitted to the puncher from the screw and preventing rotation of the puncher.

Concrete from the bunker is fed to the auger and compacted by the working body with the formation of the required number of voids in the finished product. This achieves high quality molding of concrete and reinforced concrete products, increasing the density and strength of concrete in the product, as well as improving plasticity and reducing the frictional properties of the concrete mix delivered directly at the interfaces between the concrete mixture and the working surfaces of the extruder spiral blades in contact with it.

The invention according to the second embodiment is illustrated in drawings 7 and 8.

According to the second variant, the extruder 1 for the manufacture of hollow building structures of hollow slabs includes a concrete hopper 26 mounted on a supporting frame 25 and a working body 27 consisting of one working element 28 comprising a housing 29 mounted coaxially to a guide rod 30 with the possibility of moving a hollow core 31, hollow bladed screw 32, external 33 and internal 34 spindles.

The internal spindle 34 is provided with a drive 35 for its rotation, and the external spindle 33 has the possibility of its axial movement and is connected to the device 36 for transmitting axial vibration to it. The outer spindle 33 is connected to the inner 34 by means of the device 37, transmitting the rotation from the inner 33 to the outer 34 and ensuring their free movement relative to each other in the axial direction. The outer spindle 33 is connected to the screw 32. The screw 32 is pivotally connected to the core former 31, which has a single degree of freedom of movement relative to the body 29 of the working element 28 in the direction of its longitudinal axis.

The work of the extruder according to the second variant is as follows.

From the motor mounted on the extruder, rotation is transmitted to it via the device for rotating the internal spindle.

The external spindle is also set in motion by means of a device transmitting the rotation from the internal external, thus ensuring their free movement relative to each other in the axial direction, and using a device for transmitting axial vibration to the external spindle, it is also given a reciprocating motion.

The outer spindle transmits rotation and axial vibration to the auger, and the auger is pivotally connected to the core former, which has a degree of freedom relative to the body of the working element in the direction of its axis and produces reciprocating movements.

Concrete from the bunker is fed to the auger and compacted by the working body with the formation of the required number of voids in the finished product.

- 3 009136

Thus, the improvement of extrusion operational parameters in the manufacture of hollow reinforced concrete slabs and long products is achieved, a more efficient operation of the screw and hollow core is ensured due to the transmission of longitudinal axial vibration by using the developed in the invention variants of the kinematic transmission system through external and internal spindles of rotational and reciprocating motion on the auger and reciprocating movement of the void former.

Claims (5)

CLAIM 1. An extruder for the manufacture of hollow building structures, mainly hollow slabs, characterized in that it includes a hopper for concrete mounted on a supporting frame and a working body, consisting of at least one working element containing a housing mounted coaxially to the guide rod, hollow core, hollow a blade auger, external and internal spindles, the external spindle being provided with a drive for its rotation, and the internal spindle is mounted with the possibility of axial movement and connected to a device for transmitting axial vibration to it, wherein the external spindle is connected to the internal by means of a device transmitting rotation from external to internal and ensuring free movement of the spindles axially relative to each other, the internal spindle being connected to the screw and the screw pivotally connected to a hollow core that has a degree of freedom of movement relative to the housing of the working element in the direction of its longitudinal axis. 2. The extruder according to claim 1, characterized in that the rod of the working element is mounted with the possibility of axial movement, and the core is fixed to the rod rigidly, while at least the external spindle is pivotally fixed in the housing of the working element, for example, by means of rolling bearings. 3. The extruder according to claim 1, characterized in that the rod is rigidly fixed to the housing of the working element, and the core former performs axial vibrations on the core, which in the place of attachment of the core former to it has a shape that allows axial movements transmitted to the core chamber from the screw and prevents rotation of the hollow core, for example, oval or square, with at least the inner spindle pivotally mounted on the rod, for example, by means of rolling bearings. 4. The extruder according to claim 1, characterized in that at least part of the details of the working element are interconnected through dampers, and the drive for rotating the external spindle is made in the form of an asterisk or pulley for chain or belt transmission, respectively, from the engine, while the device for transmission of the axial vibration to the internal spindle is made in the form of a piston rod of a hydraulic system, which includes a hydraulic station supplying hydraulic fluid pressure through a distributor to a piston rod, and the hydra distributor Influential system contains a rotor that creates alternating pressure from the hydraulic station to the piston rod by rotating it, while a pulley is mounted on the rotor of the distributor of the hydraulic system for belt transmission of rotational motion from the engine, the device transmitting rotation from the external spindle to the internal one and providing free movement relative to each other each other in the axial direction, made in the form of a tooth on one spindle, entering the elongated axially groove of the other spindle, or m dowels mounted in axially elongated slots spindles and the blade of the screw vane is formed as a single-filar helix. 5. An extruder for the manufacture of hollow building structures, mainly hollow core slabs, characterized in that it includes a hopper for concrete mounted on a supporting frame and a working body consisting of at least one working element containing a housing, mounted coaxially with the guide rod to be movable, hollow core, hollow blade auger, external and internal spindles, the internal spindle being provided with a drive for its rotation, and the external spindle has the ability to axially change it and connected to a device for transmitting axial vibration to it, while the external spindle is connected to the internal by means of a device transmitting rotation from the internal to the external and ensuring their free movement relative to each other in the axial direction, while the external spindle is connected to the screw and the screw is articulated connected to a hollow core, which has a degree of freedom of movement relative to the housing of the working element in the direction of its longitudinal axis.