An assembly system
The assembly system addresses alignment and structural integrity issues in narrow spaces by employing turnbuckles and threaded pins for aligned and rapid assembly without nutplates, ensuring secure fixation and ease of installation.
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- TUSAS TURK HAVACILIK VE UZAY SANAYII ANONIM SIRKETI
- Filing Date
- 2025-12-22
- Publication Date
- 2026-07-09
Smart Images

Figure TR2025051791_09072026_PF_FP_ABST
Abstract
Description
[0001] DESCRIPTION
[0002] AN ASSEMBLY SYSTEM
[0003] The invention relates to an assembly system enabling the assembly part to be fixed in narrow spaces easily, quickly, in an aligned manner, and in the desired position.
[0004] In the known application of the prior art, a pin of a monolithic and long size can be used for the application of the assembly part in narrow spaces. However, in the mentioned application, since there is a necessity for a long and monolithic pin to pass through multiple holes simultaneously and the diameter tolerances in each hole may be different, the problem of the pin not being able to be inserted into the holes in an aligned manner occurs. To prevent this situation, the use of the pin in a manner to consist of short and multiple parts is applied. However, in this mentioned application, the use of a nutplate is required for the fixation of each pin, and the strength of the structure is reduced during the fixation of the nutplate to the structure, and the assembly of the nutplate in narrow spaces is not possible due to the accessibility problem.
[0005] In United States patent document No. US20050201821A1, which is part of the prior art, a turnbuckle assembly is mentioned. In the invention, a turnbuckle assembly for use in a steering linkage of a vehicle, and a first one-piece sleeve having first and second axial ends are disclosed. The first axial end of the first sleeve has an internally threaded portion threadedly engaging a first threaded part. The first axial end of the first sleeve comprises an integrally formed clamp clamping the first axial end to the first threaded part. The second one-piece sleeve has first and second axial ends. The first axial end of the second sleeve has an internally threaded portion threadedly engaging a second threaded part. The first axial end of the second sleeve comprises an integrally formed clamp clamping the first axial end to the second threaded part. A connecting member connects the first and second sleeves to each other. The connecting member has a first axial end connected to the second axial end of the first sleeve in a non-rotatable manner. The connecting member has a second axial end connected to the second axial end of the second sleeve in a non-rotatable manner.
[0006] In United States patent document No. US11384781 B2, which is part of the prior art, a turnbuckle is mentioned. In the invention, a turnbuckle for adjustably locking a componentof a gas turbine engine to the engine static structure is disclosed. In various alternatives, the turnbuckle comprises an outer body having a first internal threading and an outer body inspection hole. The outer body defines a first end configured to be connected to the component. An inner body having a first external threading. The inner body defines a second end configured to be connected to the engine static structure. A connection body having a second internal thread configured to threadedly engage the first external thread and a second external thread configured to engage the first internal thread. The outer body inspection hole extends through the outer body and is configured for the visibility of the first short thread of the second external thread within the first internal thread.
[0007] In United States patent document No. US20060243864A1 , which is part of the prior art, a consolidated rotary actuator hinge fitting is mentioned. The invention comprises an apparatus and method for attaching multiple rotary actuator portions to a device, and a unitary hinge fitting. The unitary hinge fitting comprises a first side connectable to a control surface and multiple compartments. Each compartment is configured to receive at least one of the rotary actuator portions. The unitary hinge fitting reduces the number of components required to attach the rotary actuators by eliminating some fasteners required to attach shims and shear clips to the hinge fittings.
[0008] Thanks to an assembly system developed with this invention, the fixation of the assembly part to the body in narrow spaces is enabled.
[0009] Another object of the invention is to enable rapid assembly in narrow spaces.
[0010] Another object of the invention is to enable the assembly of multiple assembly parts in narrow spaces in a manner to be aligned with each other.
[0011] Another object of the invention is to provide an assembly system capable of being fixed in the desired position.
[0012] Another object of the invention is to provide a high-strength assembly system by not using strength-reducing components.
[0013] The assembly system defined in the first claim and in the claims dependent on this claim, implemented to achieve the object of the invention, comprises a body. The assembly partis attached onto the body. Multiple bracket lugs are located on the bracket, extending outwardly from the bracket, at intervals predetermined by the manufacturer and in a manner to have spaces between them. Multiple assembly holes, which are spaces on the bracket lugs, are located in a manner to be mutual and coaxial with each other. The sequentially located assembly holes enable the insertion of pins and are located in the form of a continuous channel. The assembly hole extends on an axis perpendicular relative to the axis in which the bracket lug extends and in a manner to be parallel to the direction in which the actuator extends. A first turnbuckle having a space in its inner part and having threads in the clockwise or counter-clockwise direction at both of its ends in the direction in which it extends lengthwise. The mentioned threads are the turnbuckle first thread and the turnbuckle second thread. The first pin is attached to the assembly hole in a detachable manner. The threads at one end of the first pin are attached to the threads at one end of the first turnbuckle by being rotated by the user or manufacturer. The first pin ensures the fixation of the assembly part to the bracket by being attached to the assembly hole and the hole of the assembly part in a detachable manner. The first pin moves by sliding positionally to the right or left thanks to the threads located on it and the rotation of the first turnbuckle around the direction in which it extends lengthwise by the user or manufacturer. The assembly system comprises a second pin. The second pin is attached to the assembly hole in a detachable manner. The threads at one end of the second pin are attached to the threads at the other end of the first turnbuckle, where the first pin is not attached, by being rotated by the user or manufacturer. The second pin ensures the fixation of the assembly part to the bracket by being attached to the assembly hole and the hole of the assembly part in a detachable manner. The second pin moves by sliding positionally to the right or left thanks to the rotation of the first turnbuckle around the direction in which it extends lengthwise by the user or manufacturer and the threads located on the first turnbuckle. The assembly system comprises a first turnbuckle. When the first turnbuckle is rotated, the changing of the linear position of the second pin is ensured by sliding to the right or left simultaneously with the first pin by the same amount.
[0014] The assembly system subject to the invention comprises a second turnbuckle. The second turnbuckle has a space in its inner part, and threads in the clockwise or counter-clockwise direction are located at both of its ends on its own axis. The threads at one end of the second turnbuckle in the direction in which it extends are attached by being rotated to the threads located at the other end of the second pin remaining opposite relative to the end of the second pin attached to the first turnbuckle; in this way, the changing of the linear positionof the second pin along the direction in which it extends lengthwise is ensured by the rotation of the second turnbuckle around the direction in which it extends by the user and by means of the threads. The mentioned threads are the turnbuckle first thread and the turnbuckle second thread. The assembly system comprises a third pin. The third pin is attached to the sequential assembly hole on the outer side remaining opposite to the assembly hole where the second pin is attached. Threads are located at at least one end of the third pin in the direction in which it extends. The threads located on the third pin are attached by being rotated to the threads at the other end of the second turnbuckle remaining opposite relative to its end attached to the second pin. The third pin ensures the fixation of the assembly part to the bracket by being mounted to the assembly hole and the assembly part hole in a detachable manner. The third pin changes its linear position by sliding to the left or right simultaneously together with the second pin along the direction in which the third pin extends lengthwise, by means of the rotation of the first turnbuckle around the direction in which it extends by the user and by means of the threads; in this way, enabling the placement of the second turnbuckle into the gap between the sequential bracket lugs located on the outer side, following the taking of the first pin and the second pin inwards towards the first turnbuckle with the rotation of the first turnbuckle around the direction in which it extends. A first turnbuckle and a second turnbuckle ensuring the placement of the first pin, the second pin, and the third pin into the assembly holes. It is ensured that the first pin, the second pin, and the third pin are almost completely coaxial. It is enabled that the first pin, the second pin, and the third pin change position positionally relative to each other. The first turnbuckle and the second turnbuckle are structural parts which are hollow. Positioning within the position tolerance desired by the manufacturer is provided for the first pin, the second pin, and the third pin.
[0015] In one embodiment of the invention, the assembly system comprises a turnbuckle body. The turnbuckle body is located on the first turnbuckle and the second turnbuckle, and is the part where the inner part along which the first turnbuckle and the second turnbuckle extend lengthwise is an opening. The assembly system comprises a first inspection hole. The first inspection hole is located on the turnbuckle body and is located as a space extending towards the inside of the turnbuckle body on the outer surface surrounding the turnbuckle body circumferentially in the radial direction. The second inspection hole is located on the turnbuckle body and is located behind the first inspection hole in a manner to have a distance between it and the first inspection hole, as a space extending towards the insideof the turnbuckle body on the outer wall surrounding the turnbuckle body circumferentially in the radial direction.
[0016] In one embodiment of the invention, the assembly system comprises an adjustment position (I). In the adjustment position (I), the assembly adjustment has not yet been performed on the system by the user. In the adjustment position (I), the user starts to perform adjustment on the system. In the adjustment position (I), the first pin or the second pin or the third pin is seen at least partially when the first inspection holes and the second inspection holes located on the first turnbuckle and the second turnbuckle located sequentially are viewed by the user from almost completely directly opposite to the direction in which the first inspection holes and the second inspection holes extend. By viewing the first inspection holes and the second inspection holes from almost completely directly opposite to the direction in which they extend, looking at the first inspection holes and the second inspection holes from directly opposite them is meant. The assembly system comprises an aligned position (II). In the aligned position (II), the assembly adjustment has been performed by the user, and the adjusted state desired by the user has been obtained. The user ensures the bringing of the system from the adjustment position (I) to the aligned position (II) by rotating the first turnbuckle and the second turnbuckle around the direction in which they extend. In the aligned position (II), when the first inspection holes and the second inspection holes located on the first turnbuckle and the second turnbuckle located sequentially are viewed by the user from directly opposite the first inspection holes and the second inspection holes, almost completely a space is seen. In the aligned position (II), the first pin, the second pin, and the third pin are not seen in the first inspection hole and the second inspection hole. In the aligned position (II), for the first turnbuckle and the second turnbuckle located sequentially, a space is seen completely in a total of four holes, in two first inspection holes and in two second inspection holes. The first turnbuckle and the second turnbuckle ensure the moving of the first pin, the second pin, and the third pin between the adjustment position (I) and the aligned position (II) by being rotated by the user around the directions in which they extend lengthwise.
[0017] In one embodiment of the invention, the assembly system comprises a first pin, a second pin, and a third pin. The lengths of the first pin, the second pin, and the third pin are of the length of the shortest distance between the pair of the first inspection hole and the second inspection hole closest to each other located on the first turnbuckle and the second turnbuckle located sequentially. The mentioned length is defined as the distance between the second inspection hole on the first turnbuckle and the first inspection hole on the secondturnbuckle, or the distance between the first inspection hole on the first turnbuckle and the second inspection hole on the second turnbuckle. In this way, for the first inspection holes and the second inspection holes located on the first turnbuckle and the second turnbuckle located sequentially, a first pin, a second pin, and a third pin selected at lengths enabling almost completely a space to be seen when the first inspection hole and the second inspection hole are viewed from opposite by the user in the aligned position (II).
[0018] In one embodiment of the invention, the assembly system comprises a first inspection hole and a second inspection hole. The first inspection hole and the second inspection hole are located on the first turnbuckle and the second turnbuckle. A certain amount of distance is located between the first turnbuckle and the second turnbuckle. The first inspection hole is located close to the left side of the turnbuckle body, and the second inspection hole is located close to the right side of the turnbuckle body. A first distance is located between the point of the first inspection hole closest to the left end of the turnbuckle body and the left end of the turnbuckle body in the direction in which the turnbuckle body extends. A second distance is located between the point of the second inspection hole closest to the right end of the turnbuckle body and the right end of the turnbuckle body in the direction in which the turnbuckle body extends. The first distance and the second distance are preferably equal.
[0019] In one embodiment of the invention, the assembly system comprises pin first threads which are recesses in helical form in the clockwise or counter-clockwise direction, located at one end of the first pin, the second pin, and the third pin in the direction in which they extend lengthwise. The turnbuckle first thread is located on the first turnbuckle and the second turnbuckle, and is located at one end of the first turnbuckle and the second turnbuckle in the direction in which they extend. The turnbuckle first thread are recesses in helical form opened in the same direction as the pin first thread. The pin first thread is placed into the turnbuckle first thread by being rotated; in this way, the moving of the first pin and the second pin located sequentially, the first pin and the third pin located sequentially, or the second pin and the third pin located sequentially, simultaneously and together, is ensured with the rotation of the first turnbuckle and the second turnbuckle around the direction in which they extend by the user. The assembly system comprises a pin second thread. The pin second thread is located on the first pin, the second pin, and the third pin. The pin second thread is located at the end on the other side relative to the end where the pin first thread is positioned in the direction in which the first pin, the second pin, and the third pin extend lengthwise. The pin second thread is located as recesses in helical form in adirection predetermined by the manufacturer. The assembly system comprises a turnbuckle second thread. The turnbuckle second thread is located on the first turnbuckle and the second turnbuckle. The turnbuckle second thread is located at another end remaining opposite relative to the end where the turnbuckle first thread is positioned in the direction in which the first turnbuckle and the second turnbuckle extend lengthwise. The turnbuckle second thread is located as recesses in spiral form in the same direction as the pin second thread. The attachment of the pin second thread to the turnbuckle second thread by being rotated is ensured; in this way, the moving of the first pin and the second pin located sequentially, the first pin and the third pin located sequentially, and the second pin (5) and the third pin located sequentially simultaneously together by the user is ensured with the rotation of the turnbuckle second thread by the user around the direction in which the first turnbuckle and the second turnbuckle extend.
[0020] In one embodiment of the invention, thanks to the pin second thread being in the counterclockwise direction in the case of the pin first thread being selected in the clockwise direction, and the pin second thread being in the clockwise direction in the case of the pin first thread being selected in the counter-clockwise direction, the first pin, the second pin, and / or the third pin are simultaneously pulled inwards towards the second turnbuckle or pushed outwards from the second turnbuckle with the rotation of the second turnbuckle around the direction in which it extends lengthwise.
[0021] In one embodiment of the invention, the assembly system comprises an adjustment interface. The adjustment interface is located on the turnbuckle body on the first turnbuckle and the second turnbuckle. The user attaches the wrench to the adjustment interface. In this way, the moving of the first pin, the second pin, and / or the third pin between the adjustment position (I) and the aligned position (II) is ensured by means of the adjustment interface. The geometry of the adjustment interface is predetermined by the manufacturer, and is preferably in hexagonal form.
[0022] In one embodiment of the invention, the assembly system comprises a head part. The head part is located at the end on the outer side of the third pin and extends outwardly from the end on the outer side of the third pin. The head part is form-compatible with the wrench used by the user; in this way, it enables the user to perform assembly by means of the wrench. The assembly system comprises a contact surface. The contact surface is the surface located on the bracket lug and ensuring the generation of friction by the head partcontacting. The contact surface are the surfaces located on the bracket lugs located outermost on the left and right sides relative to the first turnbuckle. The rotation of the third pin is prevented by the friction of the head part with the contact surface.
[0023] In an embodiment of the invention, the assembly system comprises a body. The body is the wing located on the aircraft and providing lift force. A bracket, which is a structural part located on the wing and providing bearing. An assembly hole, which is a space located on the bracket and extending lengthwise. An assembly part, which is a rotary actuator fixed to the bracket by being attached to the assembly holes on the aircraft. A rotating part, which is a control surface located on the wing, attached to the rotary actuator, and rotating relative to the body with the rotation of the rotary actuator.
[0024] In one embodiment of the invention, the assembly system comprises bracket lugs. The first turnbuckle, which is the first part attached for the realization of the assembly, is placed into the gap region located at the almost innermost side of the bracket lugs and separating the bracket lugs in a manner to be symmetrical to each other. A contribution is made to homogeneous stress distribution thanks to the symmetrical arrangement. The pin first thread and the pin second thread are located on the first pin and the second pin. The first pin and the second pin are attached to the first turnbuckle in a manner to pass through the assembly part hole and the assembly hole in the bracket lug located sequentially with each other. The attachment of the pin first thread and the pin second thread located on the first pin and the second pin to the turnbuckle first thread and the turnbuckle second thread located on the first turnbuckle by being rotated is ensured. Thanks to the pulling of the first pin and the second pin into the first turnbuckle with the rotation of the first turnbuckle around the direction in which it extends lengthwise by the user, the remaining of the first pin (4) and the second pin inside the assembly holes located sequentially is ensured, and the coming out of the first pin and the second pin from the assembly holes located sequentially in the left and right directions is prevented. The attachment of the second turnbuckles to the other ends of the first pin and the second pin which are structurally not mounted is ensured by placing the second turnbuckles from the left and right sides into the gap region between the bracket lugs located sequentially on the outer sides, which are the right and left directions, of the assembly holes where the first pin and the second pin are attached. The taking of the second pins into the second turnbuckles is ensured by the rotation of the second turnbuckles located on the left and right sides relative to the first turnbuckle around the direction in which they extend lengthwise by the user, and both second turnbuckles are slidtowards the first turnbuckle. The second turnbuckles are placed into the gap region between the bracket lugs located sequentially on the outer sides of the assembly holes where the first pin and second pins are attached. Third pins are attached to the second turnbuckles from their ends on the outer sides which are structurally not mounted. The passing of the third pins through the bracket lugs and the assembly holes is also ensured. An assembly part assembled with the steps of ensuring the user holds the second turnbuckles fixed from the adjustment interface part by means of a wrench, and subsequently, rotating the third pins until the head parts contact the contact surface almost completely to create friction by the user attaching another wrench to the head parts of the third pins and rotating them. One side of the assembly part is fixed to the bracket, and the rotating part is rotated by means of the rotary movement of the assembly part.
[0025] In one embodiment of the invention, the assembly system comprises a first inspection hole and a second inspection hole. The direction in which the cylindrical form possessed by the first inspection hole and the second inspection hole extends, extends in a manner to intersect almost completely with the direction in which the turnbuckle body extends.
[0026] In one embodiment of the invention, the assembly system comprises a pin first thread and a pin second thread. Both the pin first thread and the pin second thread are threads opened in the clockwise direction or in the counter-clockwise direction depending on the manufacturer's preference.
[0027] In one embodiment of the invention, the assembly system comprises a safety wire. The mentioned safety wire is connected from the head parts of the third pins to prevent the third pins from coming out in the alternative embodiment where the thread directions at both ends of the first turnbuckle and the second turnbuckle are the same as each other. In this way, when one of the third pins is in a tendency to loosen under factors such as vibration, the mentioned tendency to loosen ensures a tendency to tighten for the other third pin and prevents the third pins from coming out towards the outside from the bracket lugs.
[0028] The assembly system implemented to achieve the object of this invention is shown in the attached figures, and these figures;
[0029] Figure 1 - The perspective view of the assembly part.Figure 2 - The side view of the body, the bracket, the assembly holes, the assembly part, and the rotating part.
[0030] Figure 3 - The top view of the bracket, the assembly part, and the bracket lugs.
[0031] Figure 4 - The top cross-sectional view of the first turnbuckle, the first pin, the second pin, the second turnbuckles, the third pins, the head parts, and the contact surfaces.
[0032] Figure 5 - The perspective view of the turnbuckle first threads and the pin first threads. Figure 6 - The perspective view of the first turnbuckle, the turnbuckle body, the first inspection holes, the second inspection holes, and the adjustment interface.
[0033] Figure 7 - The top view of the turnbuckle body, the first inspection holes, the second inspection holes, the first pin, the second pin, and the third pin in the adjustment position (I).
[0034] Figure 8 - The top view of the turnbuckle body, the first inspection holes, the second inspection holes, the first pin, the second pin, and the third pin in the adjustment position (I).
[0035] Figure 9 - The top view of the turnbuckle body, the first inspection holes, the second inspection holes, the first pin, the second pin, and the third pin in the aligned position (II). Figure 10 - The top view of the first turnbuckle, the first pin, the second pin, and the second turnbuckles.
[0036] Figure 11 - The top view of the first turnbuckle, the first pin, the second pin, the second turnbuckles, the third pins, the head parts, and the contact surfaces.
[0037] Figure 12 - The top view of the safety wire.
[0038] The parts located in the figures are individually numbered, and the counterparts of these numbers are given below.
[0039] 1. Assembly System
[0040] 2. Bracket
[0041] 210. Bracket Lug
[0042] 220. Assembly Hole
[0043] 3. First Turnbuckle
[0044] 310. Turnbuckle Body
[0045] 320. First Inspection Hole
[0046] 330. Second Inspection Hole
[0047] 340. Turnbuckle First Thread
[0048] 350. Turnbuckle Second Thread360. Adjustment Interface
[0049] 4. First Pin
[0050] 410. Pin First Thread
[0051] 420. Pin Second Thread
[0052] 5. Second Pin
[0053] 6. Second Turnbuckle
[0054] 7. Third Pin
[0055] 8. Head Part
[0056] 9. Contact Surface
[0057] 10. Safety Wire
[0058] G. Body
[0059] M. Assembly Part
[0060] P. Rotating Part
[0061] I. Adjustment Position
[0062] 11. Aligned Position
[0063] The assembly system (1) comprises; a body (G), an assembly part (M), which is a part fixed onto the body (G), a bracket (2) located on the body (G) and ensuring the fixation of the assembly part (M) to the body (G), plurality of bracket lugs (210) extending outwardly from the bracket (2) and located at intervals predetermined by the manufacturer, plurality of assembly holes (220), which are openings located on the bracket lugs (210) in a manner to be mutual and coaxial with each other, a first turnbuckle (3) which is hollow, having threads in directions predetermined by the manufacturer at both of its ends in the direction in which it extends, a first pin (4) attached to the assembly hole (220), having threads at one end in the direction in which it extends in the same direction as the direction of the threads located on the first turnbuckle (3), attached to the threads at one end of the first turnbuckle (3) by being rotated, ensuring the fixation of the assembly part (M) to the bracket (2) by being attached to the assembly hole (220) and the assembly part (M) in a detachable manner, and changing linear position along the direction in which it extends lengthwise by means of the threads and the rotation of the first turnbuckle (3) around the direction in which it extends, a second pin (5) attached to the assembly hole (220) remaining opposite to the assembly hole (220) where the first pin (4) is attached, having threads at one end in the direction in which it extends in the same direction as the direction of the threads located on the first turnbuckle (3), attached to the threads at the other end of the first turnbuckle (3) remaining opposite relative to the end where the first pin (4) is attached by being rotated,ensuring the fixation of the assembly part (M) to the bracket (2) by being attached to the assembly hole (220) and the assembly part (M) in a detachable manner, and changing linear position along the direction in which it extends lengthwise simultaneously with the first pin (4) by means of the threads and the rotation of the first turnbuckle (3) around the direction in which it extends.
[0064] The assembly system (1) subject to the invention comprises; a second turnbuckle (6) which is hollow, having threads in directions predetermined by the manufacturer at both of its ends in the direction in which it extends, the threads at one end of which are attached by being rotated to the threads located at the other end of the second pin (5) remaining opposite relative to the end of the second pin (5) attached to the first turnbuckle (3), thereby ensuring the changing of the linear position of the second pin (5) along the direction in which it extends lengthwise by means of the rotation around the direction in which it extends and the threads, a second pin (5) having threads in a direction predetermined by the manufacturer at its other end remaining opposite relative to its end where the threads in the direction in which it extends, a third pin (7) attached to the assembly hole (220) remaining opposite to the assembly hole (220) where the second pin (5) is attached, having threads in a direction predetermined by the manufacturer at at least one end in the direction in which it extends, attached to the threads at the other end of the second turnbuckle (6) remaining opposite relative to its end attached to the second pin (5) by being rotated, ensuring the mounting of the assembly part (M) to the bracket (2) by being attached to the assembly hole (220) and the assembly part (M) in a detachable manner, changing linear position along the direction in which it extends lengthwise simultaneously with the second pin (5) by means of the rotation of the first turnbuckle (3) around the direction in which it extends and the threads, thereby enabling the placement of the second turnbuckle (6) into the gap between the bracket lugs (210) located sequentially with the moving of the first pin (4) and the second pin (5) closer to the first turnbuckle (3) by the rotation of the first turnbuckle (3) around the direction in which it extends, a first turnbuckle (3) and a second turnbuckle (6) ensuring the placement of the first pin (4), the second pin (5), and the third pins (7) into the assembly holes (220).
[0065] The bracket (2) ensures the fixation of the assembly part (M) to the body (G). Bracket lugs (210) extending outwardly from the bracket (2). The fixation of the assembly part (M) to the body (G) is ensured by attaching the first pin (4) and the second pin (5) to the assembly holes (220) which are openings located on the bracket lugs (210) and through the openingslocated on the assembly part (M). A first turnbuckle (3) having threads at both of its ends in the direction in which it extends is located. A first pin (4) attached by being rotated to the threads at one end of the first turnbuckle (3) and changing linear position with the rotation around its own axis. A second pin (5) attached to the other end relative to the end where the first pin (4) is attached of the first turnbuckle (3). The first pin (4) and the second pin (5) change linear position simultaneously along the direction in which they extend lengthwise by means of the rotation of the first turnbuckle (3) around the direction in which it extends and the threads. The thread directions at the end of the first pin (4) and the second pin (5) attached to the first turnbuckle (3) are located in the same direction as the thread directions at the end of the first turnbuckle (3) where they are attached. It is ensured that the first turnbuckle (3) moves the first pin (4) and the second pin (5) together and by an equal amount to the right or left to perform positional position adjustment with the rotation of the first turnbuckle (3) around its own axis by the user. The threads at the two ends of the first turnbuckle (3) in the direction in which it extends are threads opened in opposite directions to each other. (Figure -1, Figure -2, Figure -3, Figure -4)
[0066] Thanks to the assembly system (1), assembly enabling fixation in narrow spaces in an aligned, rapid manner, and in the desired position is performed. By means of the rotation of the first turnbuckle (3) around its own axis in order for the second turnbuckle (6) to be mounted into the area between the bracket lugs (210) located sequentially, it is ensured that the area occupied by the second pins (5) in the area between the bracket lugs (210) located sequentially becomes a space, and the mounting of the second turnbuckles (6) into the area between the bracket lugs (210) located sequentially is enabled. The second turnbuckles (6) ensure the fixation of the third pins (7) in the aligned position (II). (Figure -3, Figure -4, Figure -10, Figure -11)
[0067] In one embodiment of the invention, the assembly system (1) comprises a turnbuckle body (310) located on the first turnbuckle (3) and the second turnbuckle (6), the inner part along which it extends lengthwise being hollow; a first inspection hole (320) located on the turnbuckle body (310), located as an opening extending lengthwise on the surface surrounding the turnbuckle body (310) circumferentially; and a second inspection hole (330) located on the turnbuckle body (310), located as an opening extending lengthwise on the surface surrounding the turnbuckle body (310) circumferentially, located sequentially with the first inspection hole (320) in a manner to have a distance between it and the first inspection hole (320). The first inspection holes (320) and the second inspection holes (330)offer visual control opportunity in order to enable the bringing of the positional positions of the first pin (4), the second pins (5), and the third pins (7) inside the first turnbuckle (3) and the second turnbuckles (6) to the aligned position (II) by the user (Figure -6, Figure -7, Figure -8, Figure -9).
[0068] In one embodiment of the invention, the assembly system (1) comprises an adjustment position (I) in which at least a part of the first pin (4) or the second pin (5) or the third pin (7) is seen when the first inspection holes (320) and the second inspection holes (330) located on the first turnbuckle (3) and the second turnbuckle (6) located sequentially are viewed by the user from directly opposite the direction in which the first inspection holes (320) and the second inspection holes (330) extend; an aligned position (II) to which it is brought from the adjustment position (I) by rotating the first turnbuckle (3) and / or the second turnbuckle (6) around the direction in which they extend, in which a space is seen completely when the first inspection holes (320) and the second inspection holes (330) located on the first turnbuckle (3) and the second turnbuckle (6) located sequentially are viewed by the user from directly opposite the direction in which the first inspection holes (320) and the second inspection holes (330) extend; and a first turnbuckle (3) and / or a second turnbuckle (6) enabling the moving of the first pin (4), the second pin (5), and the third pin (7) between the adjustment position (I) and the aligned position (II) by being rotated around the directions in which they extend. The adjustment position (I) and the aligned position (II) are realized by rotating sequentially, in a manner to allow rapid action and adjustment for the positional positions of the first turnbuckle (3), the first pin (4), and the third pins (7) inside the first turnbuckle (3) and the second turnbuckles (6). (Figure -4, Figure -7, Figure -8, Figure -9, Figure -10, Figure -11)
[0069] In one embodiment of the invention, the assembly system (1) comprises a first pin (4), a second pin (5), and a third pin (7) which are of the length of the shortest distance between the first inspection hole (320) and the second inspection hole (330) closest to each other on the first turnbuckle (3) and the second turnbuckle (6) located sequentially, thereby enabling a space to be seen completely when the direction in which the first inspection hole (320) and the second inspection hole (330) extend is viewed from directly opposite by the user in the aligned position (II) for the first inspection holes (320) and the second inspection holes (330) located on the first turnbuckle (3) and the second turnbuckle (6) located sequentially. In this way, in the aligned position (II), it is ensured that a space is seen in all of the first inspection holes (320) and the second inspection holes (330) on the first turnbuckle (3) andthe second turnbuckle (6) located sequentially, and the ideal positional position is ensured. (Figure -6, Figure -7, Figure -8, Figure -9)
[0070] In one embodiment of the invention, the assembly system (1) comprises a second inspection hole (330) located on the turnbuckle body (310), positioned almost symmetrically to the first inspection hole (320) relative to the geometric center of the turnbuckle body (310). In this way, the total length of the first turnbuckle (3) and the second turnbuckles (6) is determined in a controlled manner beforehand by the manufacturer, and the attachment of the second pins (5) and the second turnbuckles (6) located on both sides of the system relative to the first turnbuckle (3) to both sides relative to the first turnbuckle (3) is enabled; in this way, easy assembly opportunity is provided and the risk of error is minimized. (Figure -6)
[0071] In one embodiment of the invention, the assembly system (1) comprises; a pin first thread (410) located at one end of the first pin (4), the second pin (5), and / or the third pin (7) in the direction in which they extend, being recesses in helical form in a direction predetermined by the manufacturer, a turnbuckle first thread (340) located at one end of the first turnbuckle (3) and the second turnbuckle (6) in the direction in which they extend, being recesses in helical form in the same direction as the pin first thread (410), enabling the placement of the pin first thread (410) onto it, thereby enabling the simultaneous moving of the first pin (4) and the second pin (5) located sequentially, the first pin (4) and the third pin (7), or the second pin (5) and the third pins (7) with the rotation of the first turnbuckle (3) and / or the second turnbuckle (6) around the direction in which they extend by the user, a pin second thread (420) located at the other end remaining opposite relative to the end where the pin first thread (410) is positioned in the direction in which it extends of the first pin (4), the second pin (5), and / or the third pin (7), being recesses in helical form in a direction predetermined by the manufacturer, a turnbuckle second thread (350) located on the first turnbuckle (3) and the second turnbuckle (6) in a manner to be at the other end remaining opposite relative to the end where the turnbuckle first thread (340) is positioned in the direction in which it extends, being recesses in helical form in the same direction as the pin second thread (420), enabling the placement of the pin second thread (420) onto it, thereby enabling the simultaneous moving of the first pin (4) and the second pin (5) located sequentially, the first pin (4) and the third pin (7), and / or the second pin (5) and the third pins (7) by the user with the rotation of the first turnbuckle (3) and / or the second turnbuckle (6) around the direction in which it extends by the user. The turnbuckle first thread (340)and the pin first thread (410), and the turnbuckle second thread (350) and the pin second threads (420) are in the same direction as each other and are attached to each other by being rotated. The threads ensure the conversion of the rotational movement into linear position changing movement. (Figure -5)
[0072] In one embodiment of the invention, the assembly system (1) comprises a second turnbuckle (6) enabling the first pin (4), the second pin (5), and / or the third pin (7) to be simultaneously pulled inwards towards itself or pushed outwards by being rotated around the direction in which it extends, thanks to the pin first thread (410) and the pin second thread (420) being in opposite directions to each other. When the attachment of the second turnbuckles (6) into the areas between the bracket lugs (210) located sequentially and located on both sides relative to the first turnbuckle (3) is desired, the pulling of the first pin (4) and the second pin (5) towards the first turnbuckle (3) by rotating the first turnbuckle (3) around its own axis, and subsequently the attachment of the second turnbuckles (6) into the area between the bracket lugs (210) located sequentially on both sides relative to the first turnbuckle (3) are ensured. Subsequently, the mounting of the second turnbuckles (6) to the second pins (5) is ensured with the attachment of the second pins (5) to the second turnbuckles (6) by rotating the first turnbuckle (3) in the reverse direction. (Figure -10)
[0073] In one embodiment of the invention, the assembly system (1) comprises an adjustment interface (360) located on the turnbuckle body (310), being the part where the user ensures rotation by attaching a wrench, thereby enabling the moving of the first pin (4), the second pin (5), and / or the third pin (7) between the adjustment position (I) and the aligned position (II). The user can rotate the first turnbuckle (3) and the second turnbuckle (6) in an easy manner by means of attaching a wrench to the adjustment interface (360) and rotating the adjustment interface (360). (Figure -6)
[0074] In one embodiment of the invention, the assembly system (1) comprises a head part (8) located at the other end remaining opposite relative to the end of the third pin (7) attached to the second turnbuckle (6) on the direction in which it extends, being an extension extending outwardly, enabling the user to perform assembly by means of a wrench with its being form-compatible with the wrench; and a contact surface (9) being the surface where the head parts (8) contact the bracket lugs (210) located on the third pins (7) and having the maximum distance between each other, contributing to the fixation of the third pins (7) by ensuring the holding of the head parts (8) onto the surface of the bracket lugs (210) inorder to prevent their rotation with the friction of the head parts (8) against the bracket lugs (210). While one wrench holds the second turnbuckle (6) fixed, the mounting of the head part (8) to the contact surface (9) in a manner to create friction between them is ensured with the sliding of the third pin (7) towards the second turnbuckle (6) by means of the attachment of the other wrench to the head part (8) and the rotation of the head part (8). (Figure -11)
[0075] In one embodiment of the invention, the assembly system (1) comprises a body (G), which is a wing located on the aircraft; a bracket (2), which is a structural part located on the body (G) and providing bearing; an assembly hole (220), which is an opening located on the bracket (2) and extending lengthwise; an assembly part (M), which is a rotary actuator fixed to the bracket (2) by being attached to the assembly holes (220) on the aircraft; and a rotating part (P), which is a control surface attached to the assembly part (M) and located in a manner to be rotatable relative to the body (G) by means of the triggering of the assembly part (M). In this way, the performing of the assembly of the assembly part (M), which is a rotary actuator, into the assembly holes (220) having relatively small spaces between each other, to the body (G), which is a wing located on the aircraft, in an aligned, rapid, and easy manner is ensured. (Figure -1, Figure -2, Figure -4)
[0076] In one embodiment of the invention, the assembly system (1) comprises a rotating part (P) rotated by means of the assembly part (M) assembled with the steps of; placing the innermost first turnbuckle (3), separating the bracket lugs (210) almost symmetrically, into the gap between the bracket lugs (210) located sequentially, attaching the pin first thread (410) and the pin second thread (420) located on the first pin (4) and the second pin (5) to the turnbuckle first thread (340) and the turnbuckle second thread (350) located on the first turnbuckle (3), in a manner to pass through the assembly part (M) and the bracket lug (210) located sequentially, preventing the coming out of the first pin (4) and the second pin (5) from the bracket lugs (210) located sequentially by ensuring the remaining of the first pin (4) and the second pin (5) inside the bracket lugs (210) located sequentially by taking the first pin (4) and the second pin (5) into the first turnbuckle (3) with the rotation of the first turnbuckle (3) around the direction in which it extends by the user, attaching the second turnbuckles (6) to the first pin (4) and the second pin (5) by placing them into the gaps between the bracket lugs (210) located sequentially adjacent to the bracket lugs (210) where the first pin (4) and the second pin (5) are attached, pulling the second pin (5) into the second turnbuckles (6) by rotating the second turnbuckles (6) around the direction inwhich they extend by the user, attaching the third pins (7) to the second turnbuckles (6) in a manner to pass through the bracket lugs (210) located sequentially adjacent to the bracket lugs (210) where the first pin (4) and the second pins (5) are attached, rotating the head parts (8) by the user until they contact the contact surface (9) by holding the second turnbuckles (6) fixed from the adjustment interface (360) part by means of a wrench. In this way, the mounting of the assembly part (M) to the bracket lug (210) located sequentially in narrow spaces is ensured in a rapid manner and in the desired position. (Figure -10, Figure -11)
[0077] In one embodiment of the invention, the assembly system (1) comprises a first inspection hole (320) and a second inspection hole (330) extending in a cylindrical form from the periphery of the turnbuckle body (310) towards the space inside the turnbuckle body (310). The first inspection hole (320) and the second inspection hole (330) offer a visual control opportunity to the user in order to enable the bringing of the positions of the first pin (4), the second pins (5), and the third pins (7) inside the first turnbuckle (3) and the second turnbuckle (6) from the adjustment position (I) to the aligned position (II). When the user looks from directly opposite the directions in which the first inspection holes (320) and the second inspection holes (330) located sequentially extend, respectively, it is required that the first pin (4), the second pin (5), and / or the third pin (7) closest to each other and the end points of the first inspection holes (320) and the second inspection holes (330) be at least partially aligned. (Figure -6, Figure -7, Figure -8, Figure -9)
[0078] In one embodiment of the invention, the assembly system (1) comprises a first turnbuckle (3) enabling the simultaneous sliding of the first pin (4) and the second pin (5) to the right or left by being rotated around the direction in which it extends, thanks to the pin first thread (410) and the pin second thread (420) being in the same direction as each other. Rapid assembly is provided by ensuring the sliding of the first pin (4) and the second pin (5) simultaneously and by an equal amount to the right or left by means of the first turnbuckle (3). Thanks to ensuring the removal of the first pin (4) from the area between the assembly holes (220) located sequentially where the second turnbuckle (6) will be attached, by rotating the first turnbuckle (3) in order for the second turnbuckle (6) to be able to be attached to the area between the assembly holes (220) located sequentially, the area occupied by the first pin (4) in the area between the assembly holes (220) located sequentially where the second turnbuckle (6) will be attached is eliminated; in this way, the opportunity is provided for the attachment of the second turnbuckle (6), the length of whichis almost equal to the distance between the assembly holes (220) located sequentially. (Figure -3, Figure -4, Figure -11)
[0079] In one embodiment of the invention, the assembly system (1) comprises a safety wire (10) ensuring the fixation of the third pins (7) by being attached to the head parts (8), which are suitable for the attachment of a wrench, of the third pins (7) extending lengthwise and remaining opposite to each other. The safety wire (10) is used in order to prevent the third pins (7) from moving outwards due to vibration in the alternative embodiment where the turnbuckle first thread (340) and the turnbuckle second thread (350) are in the same direction as each other. (Figure -12)
Claims
CLAIMS1. An assembly system (1) comprising; a body (G), an assembly part (M), which is a part fixed onto the body (G), a bracket (2) located on the body (G) and ensuring the fixation of the assembly part (M) to the body (G), plurality of bracket lugs (210) extending outwardly from the bracket (2) and located at intervals predetermined by the manufacturer, plurality of assembly holes (220), which are openings located on the bracket lugs (210) in a manner to be mutual and coaxial with each other, a first turnbuckle (3) which is hollow, having threads in directions predetermined by the manufacturer at both of its ends in the direction in which it extends, a first pin (4) attached to the assembly hole (220), having threads at one end in the direction in which it extends in the same direction as the direction of the threads located on the first turnbuckle (3), attached to the threads at one end of the first turnbuckle (3) by being rotated, ensuring the fixation of the assembly part (M) to the bracket (2) by being attached to the assembly hole (220) and the assembly part (M) in a detachable manner, and changing linear position along the direction in which it extends lengthwise by means of the threads and the rotation of the first turnbuckle (3) around the direction in which it extends, a second pin (5) attached to the assembly hole (220) remaining opposite to the assembly hole (220) where the first pin (4) is attached, having threads at one end in the direction in which it extends in the same direction as the direction of the threads located on the first turnbuckle (3), attached to the threads at the other end of the first turnbuckle (3) remaining opposite relative to the end where the first pin (4) is attached by being rotated, ensuring the fixation of the assembly part (M) to the bracket (2) by being attached to the assembly hole (220) and the assembly part (M) in a detachable manner, and changing linear position along the direction in which it extends lengthwise simultaneously with the first pin (4) by means of the threads and the rotation of the first turnbuckle (3) around the direction in which it extends, characterized in that it comprises; a second turnbuckle (6) which is hollow, having threads in directions predetermined by the manufacturer at both of its ends in the direction in which it extends, the threads at one end of which are attached by being rotated to the threads located at the other end of the second pin (5) remaining opposite relative to the end of the second pin (5) attached to the first turnbuckle (3), thereby ensuring the changing of the linear position of the second pin (5) along the direction in which it extends lengthwise by means of the rotation around the direction in which it extends and the threads, a second pin (5) having threads in a direction predetermined by the manufacturer at its other end remaining opposite relative to its end where the threads in the direction in which it extends, a third pin (7) attached to the assembly hole (220) remaining opposite to the assembly hole (220) where the second pin (5) is attached, having threadsin a direction predetermined by the manufacturer at at least one end in the direction in which it extends, attached to the threads at the other end of the second turnbuckle (6) remaining opposite relative to its end attached to the second pin (5) by being rotated, ensuring the mounting of the assembly part (M) to the bracket (2) by being attached to the assembly hole (220) and the assembly part (M) in a detachable manner, changing linear position along the direction in which it extends lengthwise simultaneously with the second pin (5) by means of the rotation of the first turnbuckle (3) around the direction in which it extends and the threads, thereby enabling the placement of the second turnbuckle (6) into the gap between the bracket lugs (210) located sequentially with the moving of the first pin (4) and the second pin (5) closer to the first turnbuckle (3) by the rotation of the first turnbuckle (3) around the direction in which it extends, a first turnbuckle (3) and a second turnbuckle (6) ensuring the placement of the first pin (4), the second pin (5), and the third pins (7) into the assembly holes (220).
2. The assembly system (1) according to claim 1, characterized in that it comprises a turnbuckle body (310) located on the first turnbuckle (3) and the second turnbuckle (6), the inner part along which it extends lengthwise being hollow, a first inspection hole (320) located on the turnbuckle body (310), located as an opening extending lengthwise on the surface surrounding the turnbuckle body (310) circumferentially, a second inspection hole (330) located on the turnbuckle body (310), located as an opening extending lengthwise on the surface surrounding the turnbuckle body (310) circumferentially, located sequentially with the first inspection hole (320) in a manner to have a distance between it and the first inspection hole (320).
3. The assembly system (1) according to claim 1 and claim 2, characterized in that it comprises an adjustment position (I) in which at least a part of the first pin (4) or the second pin (5) or the third pin (7) is seen when the first inspection holes (320) and the second inspection holes (330) located on the first turnbuckle (3) and the second turnbuckle (6) located sequentially are viewed by the user from directly opposite the direction in which the first inspection holes (320) and the second inspection holes (330) extend, an aligned position (II) to which it is brought from the adjustment position (I) by rotating the first turnbuckle (3) and / or the second turnbuckle (6) around the direction in which they extend, in which a space is seen completely when the first inspection holes (320) and the second inspection holes (330) located on the first turnbuckle (3) and the second turnbuckle (6) located sequentially are viewed by the user from directly opposite the direction in which thefirst inspection holes (320) and the second inspection holes (330) extend, a first turnbuckle (3) and / or a second turnbuckle (6) enabling the moving of the first pin (4), the second pin (5), and the third pin (7) between the adjustment position (I) and the aligned position (II) by being rotated around the directions in which they extend.
4. The assembly system (1) according to claim 3, characterized in that it comprises a first pin (4), a second pin (5), and a third pin (7) which are of the length of the shortest distance between the first inspection hole (320) and the second inspection hole (330) closest to each other on the first turnbuckle (3) and the second turnbuckle (6) located sequentially, thereby enabling a space to be seen completely when the direction in which the first inspection hole (320) and the second inspection hole (330) extend is viewed from directly opposite by the user in the aligned position (II) for the first inspection holes (320) and the second inspection holes (330) located on the first turnbuckle (3) and the second turnbuckle (6) located sequentially.
5. The assembly system (1) according to any one of claims 2 to 4, characterized in that it comprises a second inspection hole (330) located on the turnbuckle body (310), positioned almost symmetrically to the first inspection hole (320) relative to the geometric center of the turnbuckle body (310).
6. The assembly system (1) according to any one of the preceding claims, characterized in that it comprises; a pin first thread (410) located at one end of the first pin (4), the second pin (5), and / or the third pin (7) in the direction in which they extend, being recesses in helical form in a direction predetermined by the manufacturer, a turnbuckle first thread (340) located at one end of the first turnbuckle (3) and the second turnbuckle (6) in the direction in which they extend, being recesses in helical form in the same direction as the pin first thread (410), enabling the placement of the pin first thread (410) onto it, thereby enabling the simultaneous moving of the first pin (4) and the second pin (5) located sequentially, the first pin (4) and the third pin (7), or the second pin (5) and the third pins (7) with the rotation of the first turnbuckle (3) and / or the second turnbuckle (6) around the direction in which they extend by the user, a pin second thread (420) located at the other end remaining opposite relative to the end where the pin first thread (410) is positioned in the direction in which it extends of the first pin (4), the second pin (5), and / or the third pin (7), being recesses in helical form in a direction predetermined by the manufacturer, a turnbuckle second thread (350) located on the first turnbuckle (3) and the second turnbuckle (6) in a manner to be atthe other end remaining opposite relative to the end where the turnbuckle first thread (340) is positioned in the direction in which it extends, being recesses in helical form in the same direction as the pin second thread (420), enabling the placement of the pin second thread (420) onto it, thereby enabling the simultaneous moving of the first pin (4) and the second pin (5) located sequentially, the first pin (4) and the third pin (7), and / or the second pin (5) and the third pins (7) by the user with the rotation of the first turnbuckle (3) and / or the second turnbuckle (6) around the direction in which it extends by the user.
7. The assembly system (1) according to claim 6, characterized in that it comprises a second turnbuckle (6) enabling the first pin (4), the second pin (5), and / or the third pin (7) to be simultaneously pulled inwards towards itself or pushed outwards by being rotated around the direction in which it extends, thanks to the pin first thread (410) and the pin second thread (420) being in opposite directions to each other.
8. The assembly system (1) according to any one of claims 3 to 7, characterized in that it comprises an adjustment interface (360) located on the turnbuckle body (310), being the part where the user ensures rotation by attaching a wrench, thereby enabling the moving of the first pin (4), the second pin (5), and / or the third pin (7) between the adjustment position (I) and the aligned position (II).
9. The assembly system (1) according to any one of the preceding claims, characterized in that it comprises; a head part (8) located at the other end remaining opposite relative to the end of the third pin (7) attached to the second turnbuckle (6) in the direction in which it extends, being an extension extending outwardly, enabling the user to perform assembly by means of a wrench with its being form-compatible with the wrench, a contact surface (9) being the surface where the head parts (8) contact the bracket lugs (210) located on the third pins (7) and having the maximum distance between each other, contributing to the fixation of the third pins (7) by ensuring the holding of the head parts (8) onto the surface of the bracket lugs (210) in order to prevent their rotation with the friction of the head parts (8) against the bracket lugs (210).
10. The assembly system (1) according to any one of the preceding claims, characterized in that it comprises; a body (G), which is a wing located on the aircraft, a bracket (2), which is a structural part located on the body (G) and providing bearing, an assembly hole (220), which is an opening located on the bracket (2) and extending lengthwise, an assembly part(M), which is a rotary actuator fixed to the bracket (2) by being attached to the assembly holes (220) on the aircraft, a rotating part (P), which is a control surface attached to the assembly part (M) and located in a manner to be rotatable relative to the body (G) by means of the triggering of the assembly part (M).
11. The assembly system (1) according to claim 10, characterized in that it comprises a rotating part (P) rotated by means of the assembly part (M) assembled with the steps of:- placing the innermost first turnbuckle (3), separating the bracket lugs (210) almost symmetrically, into the gap between the bracket lugs (210) located sequentially, - attaching the pin first thread (410) and the pin second thread (420) located on the first pin (4) and the second pin (5) to the turnbuckle first thread (340) and the turnbuckle second thread (350) located on the first turnbuckle (3), in a manner to pass through the assembly part (M) and the bracket lug (210) located sequentially, - preventing the coming out of the first pin (4) and the second pin (5) from the bracket lugs (210) located sequentially by ensuring the remaining of the first pin (4) and the second pin (5) inside the bracket lugs (210) located sequentially by taking the first pin (4) and the second pin (5) into the first turnbuckle (3) with the rotation of the first turnbuckle (3) around the direction in which it extends by the user,- attaching the second turnbuckles (6) to the first pin (4) and the second pin (5) by placing them into the gaps between the bracket lugs (210) located sequentially adjacent to the bracket lugs (210) where the first pin (4) and the second pin (5) are attached,- pulling the second pin (5) into the second turnbuckles (6) by rotating the second turnbuckles (6) around the direction in which they extend by the user,- attaching the third pins (7) to the second turnbuckles (6) in a manner to pass through the bracket lugs (210) located sequentially adjacent to the bracket lugs (210) where the first pin (4) and the second pins (5) are attached,- rotating the head parts (8) by the user until they contact the contact surface (9) by holding the second turnbuckles (6) fixed from the adjustment interface (360) part by means of a wrench.
12. The assembly system (1) according to any one of claims 2 to 11 , characterized in that it comprises a first inspection hole (320) and a second inspection hole (330) extending in acylindrical form from the periphery of the turnbuckle body (310) towards the space inside the turnbuckle body (310) in a manner to be lengthwise.
13. The assembly system (1) according to any one of claims 6 to 12, characterized in that it comprises a first turnbuckle (3) enabling the simultaneous sliding of the first pin (4) and the second pin (5) to the right or left by being rotated around the direction in which it extends, thanks to the pin first thread (410) and the pin second thread (420) being in the same direction as each other.
14. The assembly system (1) according to any one of claims 1 to 12, characterized in that it comprises a safety wire (10) ensuring the fixation of the third pins (7) by being attached to the head parts (8), which are suitable for the attachment of a wrench, of the third pins (7) extending lengthwise and remaining opposite to each other.