WO2023227161A1

WO2023227161A1 - Mast base for skateboards

Info

Publication number: WO2023227161A1
Application number: PCT/DE2023/100341
Authority: WO
Inventors: Arian Leonidas Papakarmesis; Tamino Alexi Papakarmesis; Christoph Florian Siegel
Original assignee: Arian Leonidas Papakarmesis; Tamino Alexi Papakarmesis; Christoph Florian Siegel
Priority date: 2022-05-23
Filing date: 2023-05-10
Publication date: 2023-11-30
Also published as: DE202022102838U1

Abstract

The invention relates to a mast base for skateboards (22), at least comprising a mast-base plate and a joint adapter for fastening to skateboards (22) consisting of a skateboard deck (21) and skateboard axles (18) fastened to the underside thereof. The mast-base plate has drill holes (1) and is designed to be screwable to one of the two skateboard axles (18) of the skateboard (22) directly through the skateboard deck (21) by means of connection screws (13) engaging in said drill holes. The mast-base plate has a top-side joint adapter inlet (2) and connector pin guides (5) extending in parallel with the skateboard deck (21) and at a right angle to the longitudinal axis of the joint adapter (15) inserted into the joint adapter inlet (2), into which connector pin guides connector pins (8) are releasably guided and secured in order to engage into a joint adapter base groove (15) extending in a joint adapter base (14) located on the underside of the joint adapter. The joint adapter base (14) of the joint adapter on the underside thereof rests on the connector pins (8) in the mast-base plate in the plane of the skateboard deck (21), is freely rotatably guided and is simultaneously releasably connected to the mast-base plate and the skateboard (22) by means of the connector pins (8) engaging in the joint adapter base groove (15).

Description

Mast base for roller boards

The invention relates to a mast base for roller boards, comprising at least a mast base plate and a joint adapter for attachment to roller boards, consisting of a roller board deck and roller board axles attached to the underside of the roller board according to the preamble of claim 1.

State of the art

The state of the art of the mast base for roller boards includes a) mast feet for windsurf boards and the compatible mast extensions, b) the technology previously used to mount windsurfing rigs on roller boards, c) other adapters for roller boards.

[0003] Regarding a): According to the current state of the art, a windsurfing rig is mounted on a windsurfing board using a mast base. The windsurfing rig usually consists of a mast (possibly with a mast extension), a boom for holding on and the sail. The mast base for windsurf boards consists of the joint adapter (also called power joint) and the mast base plate. The joint adapter can be a cardan joint, as is known from patents FR2526751A1 and DE102008033781A1, or a rubber joint, as is known from patent DE000003829127A1. A central screw is integrated into the underside of the mast base. The screw is inserted into the mast base rail in the windsurf board and screwed onto the windsurf board using a nut in a form specially adapted to the mast base rail. Such mast feet are known, for example, from the utility model documents: DE102013011678A1 and DE202019004237U1. A plug-in pin is screwed onto the joint adapter and is compatible with the mast extension, which is inserted into the bottom of the mast to tension the luff of the windsurfing rig. Such a plug connection is illustrated in the utility model documents DE202010011012U1 and DE202012000578U1.

[0004] Regarding b): Since the invention of windsurfing rigs, which look similar to today's windsurfing rigs, there has been the idea of accelerating sports equipment on land (e.g. roller boards) using wind power. James D. Budge invented the first wind-powered skateboard (US3982766). It was registered as a patent in 1976. The windsurfing rig had a ball joint at the end of the mast so that it could be placed on the skateboard. In his patent, James D. Budge describes that the wheels under the skateboard can also be replaced by runners, which allows the device to be accelerated by wind even on ice.

Another recent idea from Jose A. Lopez (US20110037244A1) is to attach a sail-like cloth to a removable post assembly that protrudes from a through hole in the skateboard.

Furthermore, roller boards were invented to accommodate a mast foot for windsurfing boards, as is known for example from the patent (FR2403920A1). [0007] Regarding c): A trend arose to film oneself while riding a rollerboard with action cameras. In order to film as close to the ground as possible, a device was developed that can be attached to the skateboard deck and can accommodate a mount for an action camera. For example, as disclosed in patent US20200096843A1

Technical problem arising from the disadvantages of the prior art

The invention is based on the problem of combining a windsurfing rig according to the current state of the art with a roller board according to the current state of the art via a plug-in connection without changing the construction of the roller board. In addition, the wind and weight of the windsurfing rig should be directly applied the roller board axle must be transferred and the joint adapter must not pose a danger when the mast base is mounted and the roller board is used without a windsurfing rig.

The conventional mast base for windsurfing boards is designed for mounting on a mast rail integrated into the windsurfing board, as shown in patent DE202019004237U1. Due to its construction, a conventional roller board is not technically compatible with a conventional mast base for windsurfing boards.

If the mast base is to be attached to the roller board, then it is necessary to change the construction of the roller board. A hole would need to be drilled in the roller board to attach the windsurfing board mast base to the roller board deck using the central screw of the mast base and a nut. The drilled hole itself causes massive damage to the roller board deck. Using the hole drilling increases wear and tear on the roller board deck, which can also lead to total damage.

In this way, it is only possible to position the mast foot in front of or behind the roller board axis, which is why the wind and weight of the rig are not transmitted directly to the roller board axis of the roller board.

If the mast foot remains mounted on the skateboard, it represents a high safety risk and limits the athlete's performance on the skateboard if he wants to use the skateboard with the mast foot mounted.

[0013] Other patented ideas (see in [0005] US20110037244A1) for mounting a windsurfing rig on a roller board use outdated technology that is not compatible with the way a windsurfing rig works according to the current state of the art. Devices were presented that suggested a socket for ball joints as a solution for mounting the sail on a roller board. No solution is presented that enables a plug-in connection according to the current state of the art, with a direct power transmission of the weight of the windsurfing rig and the wind power to the skateboard axle.

[0014] Newer designed adapters for roller boards (see in [0007] US20200096843A1) also do not offer the possibility of accommodating a joint adapter to enable a connection to a windsurfing rig. Solution to the problem (presentation of the invention)

[0015] The solution to this problem is provided by a mast base for roller boards, of the type mentioned in section [0001], with the features of claim 1.

To solve the problem described above, a mast foot for roller boards is disclosed here, which is suitable for screwing to the roller board deck and the roller board axle of the roller board.

The requirement for the mast base for roller boards is to use the technical features of a roller board for the assembly of the mast base, so that a windsurfing rig (according to the current state of the art) can be connected to the roller board (according to the current state of the art).

[0018] The requirements (A. 1-11) exist for user-friendly, safe, efficient and high-performance applicability.

A.l The mast base plate should be able to be firmly screwed to the roller board axle of a roller board without changing or damaging the structure of the roller board

A.2 The wind power and the weight of the windsurf rig should be transferred directly to the roller board axle.

A.3 The permanently mounted mast base plate should not restrict the function of the roller board without a windsurfing rig when performing maneuvers.

A.4 The joint adapter must not pose a risk of injury if the skateboard is used without a windsurfing rig.

A.5 The mechanism of the plug-in system should not produce any noise due to rattling components while driving with or without a windsurfing rig.

A.6 The connector on the mast base plate should be operable with one hand.

A.7 The plug should not be able to be accidentally pulled out of the housing.

A.8 The joint adapter should be able to rotate with little friction and not generate any abrasion.

A.9 The mast base plate with its plug-in system should be protected from wear when using the roller board without a windsurfing rig.

A.10 The windsurf rig should be placed on the joint adapter to assemble it.

A.ll The windsurf rig should be able to be placed at an angle of 90° to the roller board deck while connected to the roller board. Labeling/disclosure of the invention

The technical solutions resulting from the requirements for a mast base for roller boards are explained below. The reference numbers used here already refer to figures to be explained in more detail in the further description text.

Solution for A.l: The mast base plate (Fig.2, Fig.3) is screwed together with the roller board deck 21 and the front roller board axle 18 using the connecting screws 13. The existing mounting holes in the roller board deck 20 and the mounting holes in the roller board axle 19 are used for screwing. The hole holes 1 in the mast base plate are congruent in diameter and position with the mounting holes in the roller board deck 20 and the mounting holes in the roller board axle 19.

Solution for A.2: By fulfilling requirement 1, a mechanical connection is formed between the mast base plate and the roller board axle 18, which enables the wind power and the weight force to be transmitted directly to the roller board axle 18. There is no need to install additional stiffeners on the skateboard to compensate for possible leverage forces.

Solution for A.3: The mast base plate has a low overall height.

Solution for A.4: The plug-in system (Fig.7, Fig.8) ensures that the joint adapter is removable. The plug system consists of the plug (see Fig.4, Fig.5) as described in paragraphs [0024], [0025] and [0026], the plug pin guides (5), the joint adapter inlet 2 and the joint adapter base 14 with its joint adapter base groove 15.

Solution for A.5: The plug (see Fig. 4 and Fig. 5) is composed of the plug body 6, the resilient pressure pieces 7, at least one securing extension 11 and the plug loop 9, which is secured by two set screws 10 in the plug body 6 is attached. The resilient pressure pieces 7 are integrated laterally in the plug body 6. They exert a force on both sides of the inner walls of the plug receptacle to fix the plug in its horizontal and vertical axes.

Solution for A.6: The plug (see Fig. 4 and Fig. 5) has a plug loop 9 fixed in the plug body 6 by threaded pins 10, which is exactly in line with the parallel plug pins 8.

Solution for A.7: The length of the parallel plug pins 8 and the elongated hole securing guide 12 on the bottom of the plug receptacle 3, as well as the position of the securing extension 11 in the plug body 6, are coordinated with one another in such a way that the plug cannot be pulled out.

Solution for A.8: The joint adapter rests on the parallel plug pins 8, which are guided into the joint adapter base groove 15 in the joint adapter base 14. It It is essential that the joint adapter rests exclusively on the parallel plug pins 8. The positioning of the joint adapter base groove 15 in the joint adapter base 14 is chosen so that a distance from the roller board deck 21 remains and thus the joint adapter base 14 does not touch the surface of the roller board deck 21 and the joint 17 of the joint adapter does not touch the surface of the mast base plate.

Solution for A.9: The surfaces of the heads of the connecting screws 13 lie above the surface of the mast base plate.

Solution for A.10: A plug-in pin 16, which is screwed onto the joint 17, is used to connect the windsurf rig to the joint adapter.

Solution for A.ll: The joint 17 can consist of a rubber piece, a cardan joint or another type of joint that can be angled at least 90 °.

Purpose and application

The mast foot for roller boards enables the user to practice the sport of wind skating by connecting a sporty roller board and a windsurfing rig.

Description of solution benefits

The implementation of requirements (1-11) is a condition for the mast base plate to remain mounted on the roller board. The solution advantages relate to the safety of the athlete, functionality of the skateboard and the handling and care of the product.

The technical solution to requirement 1 allows the mast base for roller boards to be mounted on the roller board deck 21 without changing the construction of the roller board deck 21 or damaging it by other mechanical interventions.

The technical solution for requirement 2 allows the wind power and the weight of the windsurfing rig to be transferred directly to the roller board axle 18, which improves the driving characteristics of the roller board under sail because no torque is generated. In addition, no additional stiffeners need to be attached to the roller board deck 21.

The technical solution for requirement 3 allows the area of movement of the feet when using the roller board 22 without a windsurfing rig not to be disturbingly restricted due to the low height of the mast base plate.

The technical solution for requirement 4 allows the joint adapter to be removable and therefore poses no risk of injury when using the roller board 22 without a windsurfing rig. The technical solution for requirement 5 enables the plug (see Fig.4, Fig.5) in the plug receptacle 3 to produce no noise due to vibration when driving with and without a windsurfing rig.

The technical solution for requirement 6 enables the plug (see Fig.4, Fig.5) to be operated with one hand during assembly and dismantling.

The technical solution for requirement 7 prevents the plug (see Fig. 4, Fig. 5) from being accidentally completely pulled out of the plug receptacle 3, thereby preventing the plug from being lost.

The technical solution for requirement 8 enables the support surface to be reduced to a necessary minimum so that the joint adapter base 14 can rotate with little friction. In addition to the low-friction rotation, the selected positioning of the joint adapter base groove 15 protects the surface of the mast base plate around the joint adapter inlet 2, the surface of the skateboard deck 21 and the underside of the joint adapter base 14 from wear caused by abrasion.

The technical solution for requirement 9 enables the surface of the mast base plate to be protected from wear and tear caused by abrasion on the road surface or the like when using the roller board 22 without a windsurfing rig.

The technical solution for requirement 10 enables efficient assembly and disassembly of the windsurf rig by using the plug-in pin 16.

The technical solution for requirement 11 allows the windsurfing rig to be placed on the ground at an angle of over 90° without the roller board 22 being levered up and thereby being damaged.

After assembling the mast base plate by screwing together the roller board deck 21, the mast base plate and the roller board axle 18 using the connecting screws 13, the joint adapter can be inserted into the joint adapter inlet 2. The windsurf rig can be plugged onto the joint adapter using the plug-in pin 16. The plug-in pin 16 is technically compatible with conventional mast extensions according to the current state of the art, such as those known from patents DE102014018378A1 and DE202012000578U1.

Preferred areas of application

If the mast base plate is screwed to the roller board deck 21 and the roller board axle 18, then the roller board 22 takes on a double function, because it can be used as a conventional roller board, as shown for example in this patent DE202014100880U1, or as a wind skateboard, then that will be the case Roller board 22 accelerated by wind power. A conventional windsurfing rig can be mounted on the roller board 22 using the mast base for roller boards. With the help of the mast base for roller boards, two pieces of sports equipment can be combined to practice another sport. Description of an application example

Example of use: If a person has purchased a mast foot for roller boards (Fig.l), it can be mounted directly on the buyer's roller board 22 without having to carry out further drilling or design changes to the roller board deck 21 or the roller board axle 18. The mast base for roller boards is mounted on the roller board 22 by screwing the mast base plate to the roller board deck 21 and one of the two roller board axles 18 using the connecting screws 13 (see Fig.l). The existing mounting holes in the roller board axle 18 and the mounting holes in the roller board deck 20 are used for screwing. When the mast base plate is mounted, the joint adapter (Fig. 6) can be inserted using the integrated plug-in system (Fig. 7, Fig. 8, Fig. 9, Fig. 12) and the roller board 22 is ready to be connected to a windsurfing rig . When the windskater arrives at an area suitable for windskating, he sets up the windsurfing rig, inserts the joint adapter (Fig.6) into the joint adapter inlet 2 and locks it by inserting the plug (Fig.2, Fig.4, Fig.5, Fig.9, Fig.11, Fig.12) into the plug receptacle 3. The windsurf rig can then be mounted on the joint adapter (Fig. 6) using the plug-in pin 16. Windsurfing maneuvers can be trained on land and what you have learned can be transferred directly to windsurfing in the water. If the wind skater wants to separate the windsurfing rig from the roller board 22, then he can pull the plug (Fig. 4, Fig. 5, Fig. 11) out of the plug receptacle 3 on the plug loop 9, whereby the parallel plug pins 8 are pulled out of the joint adapter base groove 15 and release the joint adapter base 14. The windsurf rig can be released together with the joint adapter (Fig.6) from the joint adapter inlet 2 with the roller board. The design of the mast base plate (Fig.l, Fig.2, Fig.3, Fig.9, Fig.10, Fig.12) allows maximum freedom of movement for the foot of the support leg due to the low height and design. The user can continue to use the roller board 22 conventionally despite the mounted mast base plate.

The main variant of the invention is described in more detail below with reference to Figures 1 - 8. A variant 1 of the invention is described in more detail with reference to FIGS. 9 - 11, a variant 2 is described with reference to FIG. 12 and a variant 3 is described in more detail with reference to FIG. 13. Compared to the main variant, variants 1-3 have in common that the plug of the plug-in system is not locked in the plug receptacle 3 by means of two resilient pressure pieces 7, but by means of an element 24 provided with a preload, which is either produced in one piece from a material with the mast base plate (Variant 1) or is screwed to the mast base plate as a separate part (Variant 2 and 3).

Show it:

Fig.l is an exploded view of the screw connection of a roller board 22, which is composed of a roller board axle 18 and a roller board deck 21, with a mast foot for roller boards, which consists of a joint adapter (Fig.6) and the mast base plate (Fig.l, Fig.2, Fig.3, Fig.9, Fig.10, Fig.12); the Ver- screwing the roller board 22 and a mast base according to the invention for roller boards by means of connecting screws 13, the hole holes 1 of the mast base plate, the mounting holes of the roller board axle 20, which are located in the fastening plate of the roller board axis 23 and the mounting holes of the roller board deck 20 being used for the screw connection;

Fig. 2 the mast base plate with a view obliquely from above with the plug half pulled out of the plug receptacle 3 (Fig. 4, Fig. 5), the hole holes 1, the joint adapter inlet 2, the plug body 6 and the plug loop 9,

3 shows the mast base plate with a view from above without a plug, so that the elongated hole securing guide 12, the locking receptacles 4 and the parallel plug pin guides 5 in the plug receptacle 3 and the parallel plug pin guides 5 in the inner wall of the joint adapter inlet 2,

4 shows the plug with a view diagonally from the front of the following components of the plug: plug body 6 with one of the two resilient pressure pieces 7 integrated on both sides, the parallel plug pins 8 and the plug loop 9,

Fig. 5 the plug with a view obliquely from below of the following components of the plug: the securing extension 11, the set screws 10, one of the two laterally integrated resilient pressure pieces 7, the plug loop 9 and the parallel plug pins 8,

6 shows the joint adapter in a front view, which is composed of the plug-in pin 16, the joint 17 and the joint adapter base 14, the joint adapter base 14 having the joint adapter base groove 15,

Fig. 7 shows the framed plug-in system in a top view, which is shown in detail and enlarged in Fig. 8,

8 shows the following components of the plug-in system in a top view: the plug body 6, the parallel plug pins 8, the plug loop 9, the plug receptacle 3, the plug pin guides 5, the slotted hole securing guide 12, the joint adapter inlet 2, the joint adapter base 14 and the joint adapter base groove 15; Not shown in the figure, but the components belonging to the plug-in system are: the securing extension 11, the resilient pressure pieces 7, the set screws 10 and the locking receptacles 4.

Fig. 9 shows the mast base plate of the invention in full section, with the element 24 provided with a preload, the locking curvature 27, the locking recess 26, the plug body with recess 25, the joint adapter inlet 2, one of the four holes 1, one of the two parallel plug pins 8 and the mounting hole for the plug loop 29 can be seen,

Fig. 10 is a top view of the mast base plate without a plug, with the preloaded element 24 in the plug receptacle 3, which is constructed in one piece as part of the mast base plate, with the locking curvature 27 and the elongated hole securing groove 12 can be seen, and the plug pin guides 5, the joint adapter inlet 2 and the holes 1 can also be seen,

Fig.ll shows the plug with a view obliquely from below, whereby the locking recess 26, the plug body with recess 25, the securing extension 11, the set screws 10 for fixing the plug loop 9 and the parallel plug pins 8 can be seen,

12 shows a full section of the mast base plate according to the invention with the difference from variant 1 that the element 24 provided with a preload is mounted on the mast base plate by means of a fixing screw 28 under the plug receptacle 3 as a separate part on the mast base plate, furthermore the locking curvature 27, the locking recess 26 in the plug body with recess 25, the joint adapter inlet 2 and one of the two parallel plug pins 8. In this variant, too, an elongated hole securing groove 12 is provided in the preloaded element 24, but is not shown in the figure.

13 shows a full section of the mast base plate according to the invention with the difference from variant 2 from FIG. The plug body 32 therefore has the locking recess 26 in the middle of the plug body 32 and, in contrast to the plug body 25, the plug body 32 has no recess. 13 also shows the cavity 30, the preloaded element 24, the fixing screw 28, the mounting gap 31, the parallel plug pins 8, the joint adapter inlet 2 and the plug receptacle 3.

1 shows an exploded view of the mast foot according to the invention for roller boards 22, formed from a mast base plate (Fig. 2, Fig. 3, Fig. 9, Fig. 10, Fig. 12) and a joint adapter (Fig. 6), which is inserted into this mast base plate and forms the connection for fastening a rig on roller boards 22, consisting of a roller board deck 21 and roller board axles 18 attached to the underside of this. In principle, it is intended that the arrangement on both roller board axles 18 is possible.

The mast base plate has holes 1 through which the mast base plate can be screwed directly to the roller board deck 21 and one of the two roller board axles 18 of the roller board 22 by means of connecting screws 13 engaging in these. The mast base plate also has a top-side joint adapter inlet 2 as well as plug pin guides 5 running parallel to the roller board deck 21 and at right angles to the longitudinal axis of the joint adapter inserted into the joint adapter inlet 2. A joint adapter base 14 is arranged on the underside of the joint adapter, in which a joint adapter base groove 15 is embedded, so that the parallel Plug pins 8 are inserted through the plug pin guides 5 into the joint adapter inlet 2 and engage here in the joint adapter base groove 15, whereby the joint adapter is releasably guided and secured in the mast base plate.

The circumferential joint adapter base groove 15 can thus rotate freely on the sections of the parallel plug pins 8 engaging in it in the joint adapter inlet 2, which ensures good rotating guidance of the joint adapter (FIG. 6) and the subsequent windsurfing rigging in the mast base plate according to the invention (FIG. 1, Fig.2, Fig.3, Fig.9, Fig.10, Fig.12) while simultaneously securing the joint adapter through the joint adapter base groove 15 in the mast base. At the same time, an easy separation of the rig from the roller board 22 can be achieved simply by removing the plug pins 8 from the plug pin guides 5, since the joint adapter is then immediately released and can be removed from the joint adapter inlet 2.

1 also shows that the hole holes 1 in the mast base plate, the mounting holes of the roller board axle 19 in the fastening plate of the roller board axles 23 and the mounting holes of the roller board deck 20 in the roller board deck 21 are designed to be congruent in their distances and hole diameters. In this way, there is a direct connection between the mast base for roller boards and roller board axle 18, whereby the forces that are transmitted to the roller board 22 via the rig are advantageously introduced directly into the roller board axis 18. This results in a particularly advantageous control of these forces when using the roller board 22 with an attached rig.

[0051] In addition, it is an advantageously gentle arrangement for the entire skateboard 22, since only the mounting holes of the skateboard deck 20 are used to connect both the skateboard axle 18 and the mast foot for skateboards to the skateboard deck 21. For example, when the mast base for roller boards is later dismantled from the roller board deck 21, no unused holes remain, which could possibly lead to a shortening of the service life of the roller board deck 21 due to moisture penetration.

The joint adapter inlet 2 in the mast base plate, which is shown in perspective in FIGS. 2, 3, 9, 10 and 12, can be designed to be open towards the roller board deck 21 or have a bottom that is closed to the roller board deck 21. The advantage of the open design is the structural simplification of the mast base plate. The closed design with a base, which is not shown in the drawing, has other advantages, namely, on the one hand, the protection of the skateboard deck 21 against moisture and dirt accumulating in the joint adapter inlet 2, which could permanently damage the skateboard deck 21 in this area. On the other hand, the bottom in the joint adapter inlet 2 enables the insertion of, for example, a ball bearing for improved rotation of the joint adapter base 14 in the joint adapter inlet 2, which is guided on this ball bearing. This also leads to a better distribution of forces, since the joint adapter is not only supported on the plug pins 8, but is also supported by the ball bearing. 2 shows that the plug pins 8 are arranged in parallel, through which the plug pin guides 5 (FIG. 3) are inserted into the joint adapter inlet 2 in order to be able to engage in the joint adapter base groove 15. They carry the weight of the rig attached to the joint adapter. In addition, it can be seen that in this design the plug pin guides 5 are guided from openings in the plug receptacle 3 through the joint adapter inlet 2 in order to then engage again in aligned further sections of the plug pin guides 5 in the inner wall of the joint adapter inlet 2 and to be supported here. This ensures that the parallel plug pins 8 are held in a very stable and resilient manner in the mast base plate.

It is not clear in the drawing, but is provided according to the invention that the plug pin guides 5 are at a defined distance from both the roller board deck 21 or the bottom of the joint adapter inlet 2 and from the surface of the mast base plate, depending on the height of the joint adapter and the position of the joint adapter base groove 15 are arranged. This concerns a design without a ball bearing arranged on the floor. This ensures that the joint adapter base 14 can rotate freely on the plug pins 8. Neither its underside touches the roller board deck 21 or the bottom of the joint adapter inlet 2, nor does the underside of the joint 17 of the joint adapter touch the surface of the mast base plate. Both would lead to friction, which would impair the smooth movement of the joint adapter and also cause wear on the surface of the mast base plate and/or the roller board deck 21.

To make it easier to handle the parallel plug pins 8, they can be seen as shown in FIGS. 2, 4, 5, 8 and 11 and are firmly integrated into a common plug in all variants of the invention shown. To insert the plug pins 8 into the plug receptacle 3 in the mast base plate, in which the opening accesses to the plug pin guides 5 are located, only the entire plug with the integrated plug pins 8 has to be inserted, which significantly simplifies handling.

The loss of the plug pins 8 is also avoided, since in an expedient design the plug is securely guided in the plug receptacle 3 via securing elements. These can be, for example, tongue and groove guides.

[0057] As a further safeguard, it is shown in Figures 3 and 5 and in Figures 10 and 11 that the plug has at least one securing extension 11 or one of the elongated hole securing guide 12 on its underside, which is connected to a securing extension 11 or one of the elongated hole securing guide 12 in the plug receptacle 3 Cooperation. The design shown is (Fig. 5, Fig. 3), in which the securing extension 11 is arranged on the underside of the plug and the slotted hole securing guide 12 is arranged in the plug receptacle 3. The end of the elongated hole securing guide 12 pointing towards the outer edge of the mast base plate forms a stop for the securing extension 11, whereby the plug passes through the guide of the securing element when the parallel plug pins 8 are pulled out of the plug pin guides 5. extension 11 in the elongated hole securing guide 12 is blocked in an open position for removing the joint adapter and cannot be completely pulled out of the plug receptacle 3. In this way, this element of the plug remains securely on the mast base plate even in the open position and is still slidably guided in it.

A further securing of the plug by two laterally integrated, spring-mounted pressure pieces 7 can be seen in Figures 3 to 5. Their function is to releasably snap into the plug receptacle 3 in snap-in receptacles 4, the side walls of the plug receptacle 3, when the plug is inserted into its use position, in which the joint adapter is connected to the mast base plate. This detachable connection primarily serves to securely but easily detachable seating of the plug in the plug receptacle 3. Otherwise, due to the vibrations that inevitably act on the mast base when using the roller board 22, the plug could unintentionally slide from the use position into the open position and thus the rig be detached from the roller board 22.

In this context, FIG. 2 shows a plug loop 9 arranged on the plug, which makes it easier to move the plug into its open position. Precisely due to the precisely shaped fit of the plug into the plug receptacle 3, as can be seen in Figure 1, it does not offer any point of attack that facilitates its movement out of the position of use. Here, the plug loop 9 makes handling much easier, especially for releasing the spring-mounted pressure pieces 7 that engage in the locking receptacles 4 from their locking position.

[0060] It is advantageous here that, as shown in Figure 2, the points of contact of the ends of the plug loop 9 on the plug are in alignment with the parallel plug pins 8, since this counteracts tilting of the parallel plug pins 8 in the plug pin guides 5.

6 shows the joint adapter in a side view, which is composed of the plug-in pin 16, the joint 17 and the joint adapter base 14, the joint adapter base 14 having the joint adapter base groove 15, into which the plug pins 8 engage when the Joint adapter base 14 is inserted into the joint adapter inlet 2. After assembling the mast base plate by screwing together the roller board deck 21, the mast base plate and the roller board axle 18 using the connecting screws 13, this joint adapter can be inserted into the joint adapter inlet 2. The windsurfing rig can thus advantageously be plugged onto the joint adapter using the plug-in pin 16.

[0062] In Figures 7 and 8, the plug-in system is again shown in its interaction with the joint adapter, with Figure 7 defining the section through the rectangle, which is shown enlarged in Figure 8 and provided with numbers. The plug-in system of Figures 7 and 8 ensures that the joint adapter is effortless can be removed from the mast base plate. The plug-in system consists of the plug (see Fig. 4 and Fig. 5) as described in more detail in paragraphs [0024] to [0026], the plug pin guides 5 in the plug receptacle 3, the joint adapter inlet 2 for receiving the joint adapter base 14 its joint adapter base groove 15. In this way, the advantageous constructive interaction of these structural elements is illustrated. All components are adapted to each other in position and extent in such a way that all requirements mentioned in section [0018] can be met.

[0063] In Figures 9-12, two variants of the plug-in system (see Figures 7 and 8) are derived from the main variant. The invention of the alternative plug-in system is oriented towards meeting all the requirements from paragraph [0018] and offers even further advantages compared to the variant of the plug-in system from FIGS. 7 and 8. As already explained in paragraph [0061], the plug-in system consists of several components; the variation of the plug-in system in Figure 9 relates in particular to the locking of the plug, so that requirement 5 and requirement 7 from paragraph [0018] are met in an alternative way can.

While in the main variant the locking of the plug body 6 (Fig. 7, Fig. 8) in the plug receptacle 3 is based on resilient pressure pieces 7, in variants 1 and 2 (Fig. 9-12) one is provided with a preload Element 24, such as a leaf spring, is used. A third variant, which is not shown graphically, is described in paragraph [0068]. In variant 1 (Fig. 9-11), the element 24 provided with a prestress is produced in one piece from a material as part of the mast base plate, as is also shown in FIG. 9 and FIG. 10. In variant 2 (FIG. 12), the element 24 provided with a preload is integrated into the mast base plate by means of a screw connection using a fixing screw 28, for example under the plug receptacle 3, as shown in FIG.

The locking of the plug of variants 1 and 2 has in common that the element 24 provided with a preload has a wedge-shaped or a round locking bulge 27 shortly before the end. The locking bulge 27 is pressed from below against the plug body with recess 25 by the preload and, when the plug is pushed into the closed position, snaps into a locking recess 26 adapted to the locking bulge 27. In order to release the plug from the locking mechanism, the pre-tensioned element 24 must be pressed downwards, i.e. the plug body with recess 25 has a recess on the outer edge in this variant. The height of the locking curvature 27 and the depth to which the element 24 provided with a preload can be pressed downwards are coordinated with one another, so that the locking curvature 27 releases the locking recess 26 in the plug body with recess 25 when the end of the preloaded element provided element 24 is pressed down in the direction of the roller board deck 21. As in the main variant in Figures 7 and 8, the po- Positioning a securing extension 11 in the plug body with a recess 25 and an elongated hole securing groove 12 limits the path of the plug and prevents the plug from being stolen from the plug receptacle 3. The combination of the securing extension 11 and the elongated hole securing groove 12 is variable, that is to say the securing extension 11 can either be integrated in the plug and the elongated hole securing groove 12 in the element with preload 24 or vice versa. 9 and 10 show that the elongated hole securing groove 12 is integrated in the element with preload 24 and the securing extension 11 is integrated in the plug body with recess 25.

The advantage of variants 1 and 2 lies in the robustness of the technology used. In comparison to a resilient pressure piece, an element 24 provided with preload, such as a leaf spring, is less sensitive to environmental influences. If the preloaded element 24 is screwed as an additional part to the mast base plate as in Figure 12, then it can be replaced more easily if necessary than resilient pressure pieces 7. Work steps in production are also reduced by installing an element with preload 24 compared to Installation of resilient pressure pieces 7 saved.

A wedge-shaped locking curvature 27 offers the advantage that the plug is wedged in the plug receptacle 3 by snapping the wedge-shaped locking 27 into the appropriate locking recess 26. As a result, the plug sits very securely, especially when the roller board 22 is used without a windsurfing rig. With a wedge-shaped locking curvature 27, it is necessary to press down the end of the preloaded element 24. This variant of the lock is very suitable for roller boards 22 that are suitable for driving over uneven surfaces.

[0068] The need to press down the preloaded element 24 in the case of a wedge-shaped locking curvature 27 according to requirement 6 (see paragraph [0018]) is also a disadvantage when it comes to one-handed operation of the plug. Although it is possible to pull out the plug with one hand, as required by requirement 6, the operation of the plug is less intuitive compared to the plug-in system of the main variant, which is locked with resilient pressure pieces 7 (Fig. 7 and Fig. 8). A round locking bulge 27 with a matching round locking recess 26 in the plug body with recess 25 enables one-handed operation. With a round locking curvature 27, the plug is not wedged in the plug receptacle 3, but is locked by the pressure point generated by the prestressed element 24. The locking pressure point can be overcome by pulling on the plug loop 9 and it is no longer necessary to press down the pre-tensioned element 24.

This results in a third variant of the invention, as shown in Figure 13. The operation of the plug is similar thanks to a round locking bulge 27 intuitively like when the plug is locked by resilient pressure pieces 7. In this variant, the element 24 provided with a preload ends in the middle of the plug body 32, directly behind the locking curvature 27 and is guided below the plug body 32. The plug body 32 therefore has a locking recess 26 in the middle of the underside. The plug body 32 of the third variant therefore has no recess on the outer edge, whereby the design of the plug is similar to the plug body 6 from FIGS. 4 and 5. The preloaded element 24 is inserted into a mounting gap 31 and secured by means of a fixing screw 28. Due to the assembly method using a mounting gap 31, the force of the preload acts primarily on the top and bottom of the mounting gap 31. The element 24 provided with a preload has a cavity 30 underneath it in the area of the locking curve 27 which is at least as deep as the Locking curvature 27 is high, so that a releasable locking is guaranteed. Basically, it is stated that securing the plug in the plug receptacle 3 is essential for safe functioning, since it is exposed to vibrations and therefore its secure fit in the plug receptacle 3 must be ensured.

Claims

Patent claims Mast base for roller boards (22) at least comprising a mast base plate and a joint adapter for attachment to roller boards (22) consisting of a roller board deck (21) and roller board axles (18) attached to the underside of this, characterized in that

- the mast base plate has hole holes (1) and is designed to be screwed directly through the roller board deck (21) to one of the two roller board axles (18) of the roller board (22) by means of connecting screws (13) engaging in these,

- wherein the mast base plate has a top-side joint adapter inlet (2) and plug pin guides (5) running parallel to the roller board deck (21) and at right angles to the longitudinal axis of the joint adapter (15) inserted into the joint adapter inlet (2),

- in which plug pins (8) are releasably guided and secured for engagement in a joint adapter base groove (15) running in a joint adapter base (14) arranged on the underside of the joint adapter,

- whereby the joint adapter rests with its underside joint adapter base (14) on the plug pins (8) in the mast base plate in the plane of the roller board deck (21), freely rotatable and at the same time connected to the plug pins (8) engaging in the joint adapter base groove (15). Mast base plate and the roller board (22) are detachably connected. Mast base for roller boards (22) according to claim 1, characterized in that the hole holes (1) in the mast base plate, the mounting holes (19) in the fastening plates (23) of the roller board axles (18) and the mounting holes (20) in the roller board deck (21) are congruent in their distances and hole diameters. Mast base for roller boards (22) according to claim 1 or 2, characterized in that the joint adapter inlet (2) in the mast base plate is open towards the roller board deck (21) or has a bottom closed to the roller board deck (21). Mast base for roller boards (22) according to one of claims 1 to 3, characterized in that

- insert the plug pins (8) into the joint adapter base groove (15) and support the weight of the joint adapter with the rig attached to it,

- whereby the plug pin guides (5) are at a defined distance from both

- Rolling board deck (21) or to the bottom of the joint adapter inlet (3) as well as to the surface of the mast base plate are arranged in such a way, depending on the height of the joint adapter and the position of the joint adapter base groove (15),

- that the underside of the joint adapter base (14), rotating freely on the plug pins (8), does not touch the roller board deck (21) or the bottom of the joint adapter inlet (3), nor does the underside of the joint (17) of the joint adapter touch the surface of the mast base plate . Mast base for roller boards (22) according to one of claims 3 or 4, characterized in that a ball bearing is arranged on the bottom of the joint adapter inlet (3) for storing the joint adapter in the mast base plate. Mast base for roller boards (22) according to one of the preceding claims, characterized in that parallel plug pins (8) are fixed in a common plug for insertion into a plug receptacle (3), which is arranged in the mast base plate and has access to the also parallel Has connector pin guides (5). Mast base for roller boards (22) according to claim 6, characterized in that

- the common plug has at least one securing extension (11) or an elongated hole securing guide (12) on its underside, which interacts with a securing extension (11) or an elongated hole securing guide (12) in the plug receptacle (3) in such a way,

- that the plug is removed when the plug pins (8) are pulled out of the Plug pin guides (5) are blocked in an open position by the guide of the securing extension (11) in the slotted hole securing guide (12) and cannot be completely pulled out of the plug receptacle (3). Mast base for roller boards (22) according to claim 6 or 7, characterized in that the plug is guided in the plug receptacle (3) via a groove, an element with preload (24), plug pins and a spring. Mast base for roller boards (22) according to one of claims 6 to 8, characterized in that two resiliently mounted pressure pieces (7) are integrated laterally in the plug, which lock in locking receptacles (4) when the plug is inserted into its use position in the plug receptacle (3). Releasably snap into the side walls of the plug receptacle (3). Mast base for roller boards (22) according to one of claims 6 to 9, characterized in that a plug loop (9) is arranged on the plug, the points of contact on the plug lie in the alignment of the parallel plug pins (8). Mast base for roller boards (22) according to one of the preceding claims, characterized in that

- at least one preloaded element (24) with a locking bulge (27) is arranged on the mast base plate for releasably locking the plug pins (8) or the plug by engaging the locking bulge (27) in at least one locking recess (26) on the plug pins ( 8) or the plug body with recess (25) of the plug,

- wherein the locking bulge (27) on the element (24) provided with a preload is inserted into the locking bulge (26) when the plug pins (8), plug body with recess (25) or plug are inserted by the force of the preload of the element (24). snap into place. branch base for roller boards (22) according to claim 11, characterized in that

- the recess (25) in the plug body or the plug pins (8) allows access to the end of the preloaded element (24) to release the lock,

- This recess (25) is arranged on the outer edge of the plug pins (8) or the plug body, which enables access to the locking curvature (27) and / or the element (24) provided with a preload to release the lock. Mast base for roller boards (22) according to claim 11, characterized in that

- the element (24) provided with a preload is guided below the plug body (32) and only extends into the area of the center of the inserted plug and ends behind the at least one locking bulge (27) arranged on this element (24),

- When the plug is inserted into its insertion position in the plug receptacle (3), the at least one locking bulge (27) releasably engages in the at least one locking recess (26) of the plug.

Reference symbol list

Hole drilling

Joint adapter inlet

Plug receptacle

Snapshots

Connector pin guides

Connector body

Spring pressure pieces, parallel plug pins, plug loop

Set screws

securing extension

Elongated hole safety guide

connecting screws

Joint adapter base

Joint adapter socket groove

Plug-in pin

joint

Roller board axle

Mounting holes for the roller board axle

Roller board deck mounting holes

Rolling board deck

Roller board

Fastening plate of the roller board axle with a pre-tensioned element, plug body with recess (of variants 1 and 2) locking recess

Locking bulge

Fixing screw

Mounting hole for the plug loop

cavity

Assembly gap

Plug body (variant 3)