A SCAFFOLD WITH AN AUTOMATIC INSTALLATION CHARACTERISTIC

Technical Field

The present invention is related to a scaffold which can be installed automatically, providing to reach the high buildings during the construction, repair, dyeing, coating and maintenance processes.

Prior Art

In the currently-used scaffold configurations, an embodiment is mentioned comprising multiple carrier plates on which multiple bedding elements have been created and multiple intermediate contact rods which are connected with the bedding elements and which provide folding movement by means of the bedding elements of the said carrier plate. In this configuration, it is provided that the scaffold open and close with the shearing equipment by means of intermediate contact rods, and therefore the scaffold rise up.

In the patent research carried out in relation with the scaffolds, a German application has been encountered with an application number of EP07001953.4. In this application, a method of producing a scaffold is mentioned in which a wall is produced, the said wall protects the last filling with rod-shaped anchorages having a back anchorage plate, and the anchorage rods are connected to the back surface of the wall; wherein the soil is filled as layers, and after a layer has been created, a set of horizontal anchorage rods are arranged under the water on the said layer with a certain distance to each other, anchorage plates are connected to the ends of the said anchorage rods, the wall connection locations that the anchorage has been connected at the back are planned, and then at ieast one additional soil layer is located on the bottom layer. Another application is TR1999/0031 1 numbered application. In this application, the arrangement comprised of transporting units is equipped with a connection unit comprising a wedge-shaped conjunction head having a horizontal split to be put onto the porous ring fitted on the rod. For the wedge that can be inserted through the conjunction head and the porous ring, there are wedge-shaped holes. The conjunction head made of malleable casting production material comprises a housing part and a conjunction part. In order for the housing part to be fitted to the rod, it has housing wall parts with housing locations.

In another Turkish application with the number TR 2008/05306, on the other hand, a scaffold system is mentioned which is developed to be used on the building surfaces and in the constructions. The scaffold system according to that invention comprises a scaffold-carrier, a scaffold made of space frame system by means of the equipment of the said carrier, a scaffold drive unit, other parts thereof, brake - damper pulley systems, damper pulley systems and rope.

In another Turkish application numbered TR2006/01339; a wedged scaffold connection system is mentioned, which can be installed easily, allowing more than one horizontal pipe to be connected diagonally, produced for the installation of the scaffold systems in the processes like the outer siding construction, inner and outer siding paintings, painting and insulation, curtain-wall, sheep-construction and maintenance, tunnel-, dam-, bridge-, high-curtain construction and maintenance, shelf-making on the high constructions for tribune and storage purposes; characterized in comprising vertical pipe, horizontal pipe, dovetail, wedge, flange (center) and diagonal elements in necessary conditions.

The currently-used scaffold systems require a serious time period and effort for the installation and removal processes of the scaffold as they do not have an automatic structure. As this is the case, the production processes and the costs are negatively affected.

Puposes of the Invention

The purpose of the present invention, different than the scaffold configurations used in the current art, is to provide the scaffold to automatically rise up and to automatically go down.

A purpose of the invention is to perform the installation process of the scaffold in a very short time by means of a control unit or a remote control. A purpose of the invention is to provide the scaffold to be easily installed without much effort. It is aimed to especially to eliminate the work losses experienced during the installation processes of the scaffolds by means of the present system. Another purpose of the present invention is to provide the materials and elements used during the construction of the scaffold to have high strength and high resistance. Therefore it is aimed to provide work security and protection.

Another purpose of the present invention is to perform the desired width and height measurement and settings depending on the width and height of the construction. Therefore it is aimed to transfer the materials in accordance with the need without transferring unnecessary amount of materials and elements to the location where the scaffold will be installed. A further purpose of the present invention is to decrease the period, cost, labour-force and mounting periods of the scaffold installations to the minimum levels. It is aimed to positively affect the production processes with its fast, secure and easy installation.

A further purpose of the present invention is to optionally add walking path platforms on the skeleton scaffold formed on the vertical and horizontal directions in the current scaffold systems, depending on the need and desire. (If desired, no platform is added to the scaffold). 50%-filled or wholly-filled platforms can be installed. However in the system according to the present invention, without locating the platform with complete width and length on a floor, the next floor cannot be constructed on it. When looked from the reverse direction, in the present scaffold systems, all the desired platforms on an installed scaffold are removed and the scaffold is made with missing platforms. In the system according to the present invention, none of the walking path platforms on any floor can be removed, and in order to remove the platform on the intermediate floor, the system should be uninstalled totally from top to down.

In order to achieve the purposes mentioned above, the scaffold module comprising multiple layers put onto each other comprises moving columns providing it to be opened by means of a drive center in a way that they will pose a working distance (A) between the said module layers, vertical and horizontal profiles located between each module layers within the said working distance (A) and guide shafts located on the carrier plates and providing the vertical carrier profiles to be fixed.

Figures to Help Understand the Invention

Figure-1 is the front perspective view of the scaffold with automatic installation according to the present invention.

Figure-2 is the close-shot perspective view of the moving structure providing installation, scaffold carrier plates and the poles.

Figure-3 is the close-shot perspective view of the folded plates, some of which are opened and some are not opened.

Figure-4 is the close-shot representative view of the carrier poles located on the scaffold plates and the folded scaffold plates.

Figure-5 is the general perspective view of the scaffold with automatic installation according to the present invention when it is closed.

Figure-6 is the front perspective mounting view of the moving columns independently. Figure-7 is the general perspective view of the scaffold plates in switched-off position when their front covers are p jartially risen up.

Part Numbers

100-Automatic scaffold 122-Front covers

1 10-Moving columns 35 123-Ladder

11 1 -Outer carrier column 124- Profile-locating elements

112-Centering elements 125- Guide elements

25 1 13-Movement space 126- Guide stage

1 14- lnner moving column 127- Rollers

115- Control rod 40 128-Guide space

116- Drive unit 129- Legs

117- Circular gear 30- Scaffold module

30 1 18-Carrier plate 131 - Module layers

119- Vertical carrier profiles 132- Remote control

120- Horizontal profiles 45 A-Working distance

121 - Short horizontal profiles Detailed Description of the Invention

The present invention relates to an automatic scaffold (100) providing to reach the high building in the processes like construction, repair, dyeing, coating and maintenance; characterized in comprising a scaffold module (130) comprising multiple superimpose layers (131), moving columns (110) providing it to be opened by means of a drive unit (116) so as to generate a working distance (A) between the said module layers (131), vertical and horizontal profiles (119, 120) located between each module layers (131) within the said working distance (A), and guide elements (125) located on the carrier plates (118) and providing the vertical carrier profiles (119) to be fixed.

The outer carrier columns (111) carrying upwards the scaffold modules (130) that they are connected to in s-direction with the movement it has received from the said drive unit (116), and the said drive unit (116) are motor. Or the drive unit (116) is a piston with hydraulic or pneumatic system.

The invention comprises a circular gear (117) receiving its rotation movement from the said drive unit (116) and a control rod (115) with which the said circular gear (117) is connected, an inner moving column (114) on which the said control rod (115) is fixed and which is located in the movement space (113) of the said outer carrier column (111), multiple centering elements (112) comprising rollers (127) providing the linear movement of the said inner moving column (114) inside the outer carrier column (111), guide stages (126) created on the said guide elements (125), guide spaces (128) created on the carrier plate (118) so that the guide elements (125) can be located, locating elements (124) providing the vertical, horizontal, short profiles (119, 120, 121) to be located on the said carrier plate (118), in a fixed manner, front covers (122) fixed on the layers (131) of the said scaffold module (130), and legs (129) located at the bottom of the said vertical carrier profiles (119) and fixed onto the floor. The working system of the automatic scaffold (100) is as follows: the system which can be adjusted to the width measurements of the construction or building and which has multiple moving columns (110), can be carried either as a whole on a long vehicle, or in parts thanks to its modular structure. In Figure 5, a scaffold module (130) is shown which is comprised of preferably 1 1 module layers (131) on preferably 4 moving columns (1 10). Figure 5 shows an uninstalled view of the scaffold. In order to start the installation process automatically, the system can be directed by means of a control unit or a remote control (132). The scaffold modules (130) are carried upwards in s-direction as a whole in a way that one module layer (131 ) will stay at the bottom. After A1 module layer (131 ) at the bottom has been left, the other scaffold modules (130) are carried completely in s-direction in a way that a working distance (A) will be formed. The working distance (A) is approximately of 2-meter height, in which one person can comfortably work. After the working distance (A) has been formed, the A2 module layer (131) is left free, and all the other layers (131) are lifted upwards. Later on, again A3 module layer (131) is left free, the layers (131) of the scaffold modules (130) are separated and intermediate distances are formed. (See Figure 1). It is the moving columns (1 10) which provide the scaffold modules (130) to be carried and left in s-s1 direction as a whole.

The moving columns (110), on the other hand, provide the scaffold to be opened and closed as follows: The scaffold modules (130) are loaded to the outer carrier column (1 11). In other words, the entire load is carried by the carrier columns (1 1 1). However, the vertical descending and ascending movement is provided by the inner moving columns (1 14) to the outer carrier columns (1 1 1). Therefore, all the load of the system is on the inner moving column (114). The inner moving column (1 14) is located in the movement space (1 13) of the outer carrier column (1 1 1), and in that space (1 13) the system is provided with movement. The outer carrier column (11 1) is provided with vertical linear movement in s-s1 directions by means of the control rod (1 15) fixed on the inner moving column (1 14) and the circular gear (1 17) driven by the motor on the outer column. (See Figure 6). In order to provide the movement to be rigid and properly linear, centering elements (112) are located in the movement space ( 3) of the outer carrier column (1 1 1). The centering elements (1 12) comprise rollers (127) by means of which the columns are made to proceed more easily.

In Figure 7, on the other hand, the scaffold module (130) is shown individually. The module layers (131) are located in a superimposed position. Guide elements (125) are bedded or centered between the module layers (131). The guide elements (125) located in the guide spaces (128) of the carrier plate (118), at the same time; serve as bedding elements for the vertical carrier profiles (119) between each module layer (131). The working distance (A) is formed by means of the guide elements (125) and the vertical carrier profiles (1 19). By means of the profile locating elements (124); horizontal, vertical and short profiles (1 19, 120, 121 ) are located on the carrier plate (1 18). (See Figure 4). After the working distance (A) has been formed, the horizontal, vertical and short profiles (119, 120, 121) are attached to the guide elements (125) in a click-fit manner by a staff. (See Figure 2). The superimposition of the module layers (131) forming the scaffold module ( 30) is provided by the guide spaces (128) created on the carrier plates (118) and the guide elements (125) located within these spaces (128). The upper ends of the guide elements (125) have stages (126), and the bottom ends of the guide elements (125) are fitted to the stages and provided to be superimposed and closed. As the modular layers (131) are opened, vertical carrier profiles (1 19) are fixed between each of the guide elements (125).

The carrier plates (1 18) have a one-piece structure, and preferably it is possible for them to be produced with a modular multiple-piece structure. The vertical carrier profiles (1 19) form a skeleton structure by being squeezed between the carrier plates (1 18). As the carrier plates (1 18) comprise a platform and a walking line, the walking path platform on any floor of the scaffold according to the present invention cannot be removed, and in order to remove a platform on a middle floor, all the system should be uninstalled from top to down.

In order to form a working distance (A) on each module layer (131), there are vertical, horizontal and short profiles (119, 120, 121). These profiles are installed quickly by the staff, and a layer is obtained on which there is a working distance (A). The passage from one module layer (131) to the other is provided by means of a ladder (123). In order to move the moving columns (1 10), a motor serving as a drive unit (1 16) is used. However, instead of a motor, preferably manual use is possible, and also the moving columns (1 10) can be provided with vertical linear movement by means of lifters with hydraulic or pneumatic systems.