PL232802B1 - Rotary head for incremental forming of building structures - Google Patents

Description

Description of the invention

The subject of the invention is a rotary head for incremental forming of building structures, enabling the extrusion of uncured building material and the creation of building structures with a cylindrical shape, such as a column, tower, chimney, silo, lost formwork.

There is known from British patent specification No. GB2503203 a method of lining a well with at least one layer of covering material, e.g. with concrete, with the use of a rotating head having a directional nozzle. The proposed 3D printing technique, with appropriate head control, can be used to build structures such as measurement or communication channels. This method may use multiple nozzles, each of which may deposit a different coating material. The patent also describes the use of a head with a ring structure, the diameter of which allows it to be introduced into a wellbore. The nozzle is connected to an associated material source via a hose. Coating material is deposited between the outer head housing and the inner surface of the borehole from bottom to top. The head can move vertically and rotate.

A robot that can build towers or columns is known from the American patent description No. US2015300036. The device may include a nozzle for pouring out the building material, a positioning system, devices for climbing the robot over the poured structure, and a control system. The nozzle is designed for pouring uncured building material. The positioning system controls the position of the nozzle so that it can pour successive layers of the structure. Climbing devices enable the robot to move along the constructed structure by a certain height increment in order to pour the next layer of building material in the next stage. The robot has a second nozzle for pouring material inside the tower or column structure at the same time as the first nozzle pours a layer of the tower or column. The robot is equipped with a drive for rotating the entire head and drives in the articulated arms.

A set of three independently working nozzles for pouring uncured material is known from the US patent description No. WO2007050972. The first and second nozzles pour out separate layers of the structure, the third nozzle can pour the layer between the first and second layers in the form of a line or other pattern. A fourth nozzle may be attached to fill the space between the first, second and third layers with the uncured material. The device may have various mechanisms for varying the distance between the first and second nozzles, which allows items of different width to be made. The nozzle assembly is equipped with vibrating valves to regulate the flow of uncured material through the nozzle outlet.

A nozzle for pouring a cementitious material is known from the US patent specification No. US2010112119, which is equipped with a valve generating vibrations and placed in the material flow path. The valve consists of spaced apart plates that form a plurality of flow channels and a device that generates vibrations. A valve regulates the flow of cement material through the nozzle outlet.

There is known from the American patent US2010318222 a device comprising a set of nozzles for pouring out material connected to a controllable robot arm. The robot at the end of the arm has a gripper that allows you to move elements and place them in the desired position in relation to the previously poured material. These elements can be: elements strengthening the structure of the material to be poured, sections of sewer pipes, components of the electrical network, tiles. There is known from the patent description WO2008058077 a robotic system for the production of building structures using the additive technique. The system is made of a lightweight gantry robot and a system for delivering construction material to the set of pouring nozzles. The robotic system includes a system for controlling the position of the nozzle assembly equipped with a distance sensor in the form of a rangefinder, a device dispensing the amount of batch material supplied to the nozzles.

From the US patent description US2009051062, a method and devices for the production of building structures by the additive method are known. The device equipped with a drive consists of an arc-shaped arm, supported on one side against a guide and on the other side against a column. The arm can rotate around the column while moving along the guide. Mounted on the arm is a trolley that can move on the arm as it rotates around the column. The result of the combined movements of the arm and the cart is that the cart moves in a helical line around the column. A module for pouring building material, i.e. a nozzle, is attached to the trolley. A rotary head for incremental forming of building structures, according to the invention, comprising a drive, body, arms, nozzles connected to flexible conduits, is characterized in that it has at least two arms consisting of an upper beam, a lower beam and a rotating-connected lever on one side with an upper beam or a lower beam, and on the other hand, with a screw drive located inside the body. The upper beam and the lower beam are rotatably connected, on one side with the holder in which the nozzles are mounted, and on the other side with the body. The body consists of an upper part provided with at least two longitudinal holes and a lower part provided with at least two ribs constituting a mounting surface for the arms. The body in the upper part has a pin by means of which the head connects to the construction material container.

Preferably, the lower beam of the arm consists of two elements: a first element rotatably connected to the nozzle holder and a second element rotatably connected to the body, both elements forming a telescopic connection, i.e. the first element extends from the second element. The second element is equipped with set screws enabling the blocking of the first element in relation to the second. Such a structure of the lower beam allows to adjust its length, which in turn allows the angle of the nozzle position in the holder to be adjusted.

The same effect can be obtained if the bottom beam is a rope actuator by means of which the length of the bottom beam is changed. When the bottom beam is one piece and its length cannot be adjusted, the top beam and the bottom beam are of the same length.

Preferably, the upper part and the lower part of the body are detachably connected to each other, and the screw drive is connected to the lower part of the body by means of a mounting plate.

A screw drive consists of a screw connected to an electric, hydraulic or pneumatic motor, either directly or by means of a gear, and a nut. The screw drive is connected to the body via a mounting plate.

The nozzles are fixed in the holder with clamping screws or other assembly systems. The head can be equipped with various nozzles: nozzles with a central outlet, nozzles with an outlet shifted to the side, nozzles with an outlet shifted to the side and protruding beyond the outline of the nozzle body, nozzles with a widening outlet, nozzles with a tapered outlet. The head may have more than two arms, then the upper part of the body must have as many longitudinal holes as there are arms, and the lower part of the body must have as many ribs as there are arms.

An advantage of the solution according to the invention is the increase in printing efficiency by the possibility of using multiple arms and multiple nozzles for extruding uncured building material. It is possible to quickly change the arms and nozzles as well as change the number of arms with nozzles in the head, which allows you to adjust the device to perform various works. In place of the nozzles, other devices can be installed in the holder, for example: a nozzle for applying chemicals improving the properties of concrete, sensors such as a thermal imaging camera or a laser rangefinder, intended for inspecting the extruded layer of unhardened building material, devices for measuring the parameters of the poured layer or part of the structure, e.g. width, height, temperature. Thanks to the structure of the lower beam, which allows to change its length, it is possible to control the angular position of the nozzles and to spray unhardened building material on the cylindrical internal surfaces. The head according to the invention enables the construction of column, tower, chimney, silo, permanent formwork etc. with various diameters to be made by incremental method, as well as for the construction of building structures reinforcing the openings of shafts or boreholes by incremental method. The head according to the invention is shown in the exemplary embodiments and in the drawing, in which Fig. 1 shows a head with four arms in a perspective view, Fig. 2 shows a head with four arms in a perspective view with its structural elements distributed, Fig. 3 shows the arm of the head with a lever attached to the upper beam, Fig. 4 shows the head arm with a lever attached to the lower beam, Fig. 5 shows the head arm, in which the lower beam consists of two elements enabling its length adjustment, Fig. 6 shows the head arm, in which the lower beam is a linear actuator, Fig. 7 illustrates the method of reinforcing the inner cylindrical surface with uncured building material by a head with two arms and two nozzles with the outlet laterally shifted beyond the outline of its handle, Fig. 8 illustrates an example of spraying building material, Fig. 9 illustrates an example of embossing a pattern , Fig. 10 shows an exemplary dye holder sz, and Fig. 11 is exemplary nozzles and other devices and sensors, such as a camera or laser rangefinder. Example 1 The rotary head consists of a body 3 to which four arms 1 are mounted. At the ends of the arms 1, in the holders 4 there are nozzles 5 for extruding uncured building material. The arms 1 of the head consist of an upper beam 1a, a lower beam 1b and a lever 1c. The upper beam 1a and the lower beam 1b are of equal length and are pivotally connected, on one side to the handle 4, and on the other side to the rib 3d of the body 3. The upper beam 1a is pivotally connected to the lever 1c. The lever 1c on the other side is connected with rotationally by means of screws 2e with a nut 2d of a screw drive 2. A cuboid-shaped body 3 consists of an upper part 3a equipped with four longitudinal holes 3c in which the lever 1c moves and a lower part 3b equipped with four ribs 3d to which the arms 1 are attached. The body has a pin 3e at its top by means of which the head connects to the building material container 8. The upper part 3a and the lower part 3b of the body 3 are connected to each other by means of screws 3f. This makes it possible to mount the screw drive 2 inside the body 3 and connect the lever 1c with the nut 2d of the drive 2. The screw drive 2 consists of a screw 2a on which an electric motor 2b is mounted, a mounting plate 2c and a nut 2d. The screw drive 2 is connected by means of the mounting plate 2c to the lower part 3b of the body 3. The electric motor 2b is located in the lower part 3b below the mounting plate 2c. The angular position of individual arms 1 is regulated by an electric screw drive 2 and levers 1c connecting the upper beam 1a with the nut 2d of the electric drive 2.

The design of the arms 1 is such that the upper beam 1a and the lower beam 1b are equal and work in parallel, which causes the nozzles 5 axes to be parallel to the body axis 3, regardless of the angular position of the arm 1. Changing the angular position of the arms 1 enables the nozzles 5 to be positioned in other distances from the axis of the body 3 and the formation of cylindrical building structures of different diameters. The range of diameters depends on the length of the beams 1a and 1b and their mutual distance L1, the shape of the levers 1c and the range of motion of the screw drive 2. Unhardened building material is supplied to the nozzles 5 by means of flexible hoses 6 from the tank 8, through pumps 9 placed at the ends of flexible conduits 6 when connected to the reservoir 8. The reservoir 8 is rigidly and rigidly attached to the rotating head by means of a pin 3e. The tank 8 is pivotally connected to the drive unit 10, the body of which has a handle 10a that allows the head to be mounted in the gripper of a manipulator or a gantry robot, which ensure the movement of the head in space. Example 2 Head as in the first example, except that it has two arms 1 and the lever 1c is pivotally connected to the lower beam 1b. This arm design allows the use of a lower body for the head. Example 3 Head as in the first example, except that the lower beam 1b consists of two elements: the first element 1 b 'rotatably connected to the nozzle holder 4 and the second element 1b "rotatably connected to the body, both elements form a connection. telescopic, i.e. the first element slides out of the second element. The second element is equipped with pressure screws 7 enabling the blocking of the first element in relation to the second element. Such a structure of the lower beam 1b allows its length to be changed. it is possible, for example, to spray the construction material on the cylindrical internal surfaces of the structure. The beam length adjustment can be done manually by sliding the elements 1b 'and 1b "apart and locking the lower beam 1b at the appropriate length with the help of set screws 7. Example 4 Head as in the first example, except that the lever 1 c is pivotally connected to the lower beam 1 b, which is a linear actuator with which its length can be changed. The use of a linear actuator allows you to control the angle of the nozzle position during construction works.

Claims (7)

Patent claims 1. Rotary head for incremental forming of building structures, comprising a drive, body, arms, nozzles connected to flexible conduits, characterized in that it has at least two arms (1) consisting of an upper beam (1a), a lower beam (1b) and a lever (1c) connected in rotation, on the one side with the upper beam (1a) or the lower beam (1b), and on the other side with the screw drive (2) located inside the body (3), the upper beam (1a) and the lower beam (1) b) they are rotatably connected, on one side with the holder (4), on which the nozzles (5) are mounted, and on the other side with the body (3), which consists of an upper part (3a) equipped with at least two longitudinal holes ( 3c) and the lower part (3b) equipped with at least two ribs (3d) constituting the mounting surface for the arms (1) and the pin (3e) connecting the head with the building material container (8). 2. Head according to claim 3. The bar as claimed in claim 1, characterized in that the lower beam (1b) consists of two elements: a first element (1b ') pivotally connected to the handle (4) and a second element (1b ") pivotally connected to the body (3), both the elements form a telescopic connection. 3. Head according to claim A device according to claim 1, characterized in that the bottom beam (1 b) is a rope actuator. 4. Head according to claim The machine according to claim 1, characterized in that the upper beam (1 a) and the lower beam (1 b) are of equal length. 5. Head according to claim The body of claim 1, characterized in that the upper part (3a) and the lower part (3b) of the body (3) are detachably connected to each other. 6. The head according to claim A device according to claim 1, characterized in that the screw drive (2) is connected to the lower part (3b) of the body (3) by means of a mounting plate (2c). 7. The head according to claim 3. The apparatus of claim 1, characterized in that it has nozzles (5) fixed in the holder (4) by means of set screws (7) or other assembly systems.