WO2024162860A1 - A flag pole with a replaceable base - Google Patents

Abstract

A flag pole with a replaceable base, characterised in that the pneumatic pole (1) serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section (2) in the direction opposite to the rotation axis (6) of the pneumatic pole (1) and consists of at least one tight enclosed shell (8) connected inseparably throughout the length of the pole along the ridge line (9) of the pneumatic pole (1), wherein it has a longitudinal tape (7) attached in the middle section of the pneumatic pole (1), in the area of the inseparable connection, and in the lower external section of the pneumatic pole (1) it has a band (10) attached inseparably to the shell (8) at the entire or a part of the pole circumference, wherein the band (10) has at least one vertical pocket (11) enclosed in the top section, along the ridge line (9) of the pneumatic pole (1), into which an element (12) is inserted that connects the pneumatic pole (1) to the replaceable base (13) through a detachable rotator (14), wherein the replaceable base (13) has a socket (18) for inserting the detachable rotator (14), and the rotation axis of the detachable rotator (14) is located at the rotation axis (6) of the pneumatic pole (1).

Description

A flag pole with a replaceable base

The invention concerns a flag pole with a replaceable base for interior and exterior use, in particular for promotion and advertising, fairs, location marking as well as for navigation and warning.

From the description of the invention US20101 15808 there is a known inflatable flag display includes a shaft having a hollow core and a sealed upper end. An aperture is located in the upper portion of the shaft and penetrates from an outer surface to the hollow core. A supporting base is connected to the shaft. A gas input connection is affixed to the shaft or the base and is in fluid communication with the core. An inflatable flag member is affixed to the shaft, formed of flexible material and has at least one inflatable chamber. The chamber is in fluid communication with the aperture and has an exhaust vent. A compressed gas source is in fluid communication with the gas input connection. A compressed gas modulator controls pressure or duration of gas flow, causing the flag to undulate. A variant includes means for rotating the shaft as the flag is inflated. Another variant includes an inflatable column replacing the shaft.

From the description of the invention CN109859657 there is a known outdoor advertising flag. The outdoor advertising flag comprises a base and a flag post, an insertion groove is formed in the center of the top of the base, the bottom of the flag post is inserted into the insertion groove and locked through a locking device, and a flag body is arranged on the top of the flag post. During connection of the device, the flagpost is directly inserted into the base, locking is conducted through the locking device, and then connection can be achieved. Connection is convenient, the structure is simple, and the outdoor advertising flag is high in practicability and market popularization value.

From the description of the unitality model CN2570394 there is a known high pressure pneumatic flagpole. High pressure air is generated by a compressing machine and exhausted by an exhaust outlet so as to blow the surface of a flag to stream. The flagpole can ensure the surface of the flag to stream freely even under the condition of no natural wind force or insufficient wind force, and changes the insufficiency that an original flagpole can stream only through proper natural wind force. However, the utility model can not be influenced by the presently increased tall buildings around, and the surface of the flag can not be lowered but unfolded only with the proper wind force.

A problem with the presently known flag poles that are not permanently fixed to the ground arises from their multi-section structure, usually made of metal, which is characterised by instability, especially during a strong wind. The multi-sectional design stems from the requirement that the known structures should be easily transportable. The invention solves that problem by using a single-section pole that is also lightweight and foldable to a small size required to make it transportable.

Another problem with the presently known flag poles that are not permanently fixed to the ground is the safety risk to bystanders due to the use of hard poles that are often made of metal. The invention solves that problem, as it reduces the degree of risk caused by poles of a comparable height by using soft materials and an inflatable structure of the pole.

The known flag poles that are not permanently fixed to the ground require a relatively high force necessary to rotate the pole on the rotational element of the base. This arises from the fact that, unlike this invention, the rotation axis in the poles known today is identical to the axis of the lower (vertical) section of the pole. As a result, that limitation makes it impossible to achieve a height comparable to the structure according to the invention, as this would require a much higher force to rotate the pole, and the generated stresses and loads would cause deformations and damage in the conventional pole structure. The invention solves that problem by shifting the pole’s rotation axis to the ridge section, which considerably reduces the forces required to rotate the pole during wind.

The essence of the invention is a flag pole with a replaceable base, which comprises a pneumatic pole that, in its bottom section, has an inflation valve for connecting a pumping device, a pressure control valve and an element linking the pole to the base, as well as the flag section to which a flag can be fixed separably, characterised in that the pneumatic pole serves as a vertical shaft that is arched in its top section in such a way that, within the flag section, which is the part of the pole to which a flag is fixed separably, it is tilted in the direction opposite to the rotation axis of the pneumatic pole. The pneumatic pole consists of at least one enclosed tight shell connected inseparably, for example by welding throughout the length of the pole along the pneumatic pole’s ridge line. In the middle section of the pneumatic pole, in the area of the inseparable connection of the pole shell, a longitudinal tape is fixed. Preferably, the tape is introduced on the external side of the pole shell or on the internal side of the pole shell by glueing or stitching. In the lower external section of the pneumatic pole, at its entire circumference or a part thereof, a band is fixed inseparably to the shell of the pole. The band has at least one vertical pocket, enclosed in its upper section, running along the ridge line of the pneumatic pole, to which an element is inserted that links the pneumatic pole to the replaceable base via a detachable rotator, wherein the replaceable base has a socket for inserting the detachable rotator, and the rotation axis of the detachable rotator is located at the rotation axis of the pneumatic pole.

The detachable rotator consists of a central pivot fixed with bearings in a permanent enclosure. A connecting element located in the vertical pocket of the band is placed onto the detachable rotator’s pivot. The rotator’s enclosure is inserted into the socket of the replaceable base, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection that protects against rotation and prevents the detachable rotator enclosure from moving out of the socket.

Preferably, the flag section of the flag pole to which the flag is mounted separably represents 2/3 of the pole length.

Preferably, the band has a strengthening protrusion that runs along the pole and is rounded in its top section and symmetrically attached at the ridge line of the pneumatic pole.

Preferably, the band is fixed in its bottom section to the pole by a hook shape running through the base of the pole overlapping its other side.

Preferably, the band has two vertical pockets that are positioned in parallel to the ridge line of the pneumatic pole and are blind in their top section.

Preferably, the flag pole has two shells, wherein the internal inflatable shell is formed by a connected airtight material, and the external shell overlaid on the internal shell is formed by an inseparably fixed textile fabric

Preferably, the flag pole has a lighting system installed outside or inside of the pole. Preferably, the replaceable base with the socket for inserting the detachable rotator has at least one stabilising arm extended from it (the socket).

Preferably, the replaceable base has one stabilising arm that consists of two parallel bars extended from the socket of the replaceable base which are inseparably connected at their ends with at least one crossbar. The arms so shaped can be loaded by a vehicle wheel, for example.

Preferably, the stabilising arms of the replaceable base form a cross arrangement wherein one stabilising arm is linked to the socket inseparably, and the other stabilising arm is linked to the socket separably.

Preferably, the stabilising arms of the replaceable base form a cross arrangement consisting of four separate arms, wherein the first pair of opposite arms is linked to the socket inseparably, and the other pair of opposite arms is linked to the socket separably.

Preferably, the replaceable base with the socket for inserting the detachable rotator has the form of a driving (hammered in) element with side flippers extending from it.

The flag pole with a replaceable base according to the invention allows achieving a safe-in-use design of the flag pole that can freely rotate while maintaining stability when affected by wind. With the use of the detachable rotator, a large flag pole affected by wind rotates in such a way that the wind flows around the top section of the pole, and the flag waves freely.

The foldable pneumatic pole has an above -standard sectional diameter and, once inflated, tilts in the direction opposite to the set rotational axis of the pole, which improves its aerodynamic properties. In addition, the fact that the pole tilts in the direction opposite to the pole’s rotational axis, as well as the structure of the vertical pocket that is enclosed according to the invention, extends the lever and thus increases the torque and facilitates rotary motion by decreasing the force required to rotate the pole. Also, the increased diameter of the pole at its arched ridge part results in a higher lift (force), which reduces the load that acts on the pole’s detachable rotator, the load that is already increased due to the location of the vertical pocket and the consequent shift of the rotation axis. Owing to a lower load on the rotary element, the forces required to rotate the pole are reduced. Finally, the increased diameter at the arched ridge part of the pole, and thus decreased air pressure and generated lift (force) acting on that section of the pole during wind, as well as the increased diameter that raises the resistance of that section of the pole, both enhance the force rotating the pole. Also, the use of the detachable rotator when connecting the flag pole to the replaceable base ensures stability of the entire set during free rotation of the flag pole. The aerodynamics of the structure according to the invention that arises from the tilting of the pole, the arching of its top section, and the increased diameter, as well as the shifting of the rotation axis from the central point of the pole base towards the ridge section of the pole, both increase the torque, the force rotating the pole that is generated by variable wind direction (resistance to wind and lowered air pressure ) and they enhance the load capacity of the pole for a wind blowing from the ridge (back) section, thus relieving the load on the rotary element.

The longitudinal tape used in the invention improves the strength of the pole, stabilises its structure and restricts its tilt, so it is possible to produce a pole with a smaller diameter and inflate it to a lower pressure, which in turn improves the structure’s resistance to damage. In addition, the process of bonding the shell(s) of the pole by welding or stitching is economical, since making a lot of connections is not necessary. The connection at the ridge section of the pole also improves its strength and stability, so the pole does not kink during use.

The flag pole according to the invention, owing to the pockets in the band to which the element is introducted connecting the pole with the replaceable base allows for easy assembly and disassembly and for replacing the base as required by the user. The use of a rotator detachable from the bases extendsits service life and protects it against damage caused by shocks transferred when the drivable base is hammered into the ground or when the other bases with stabilising arms are mounted and unfolded. Additionally, the band with a strengthening protrusion attached symmetrically to the pneumatic pole at its ridge line stiffens that section of the pole and reduces its tendency to bend.

The structure according to the invention allows for producing a compact (before and after use) and safe flag pole with a reduced weight compared to conventional flag poles of a similar size, which softens in case of failure after damage or pressure loss, and thus poses a lower risk to the environment. In addition, due to its structure, the pole can be up to 8 metres high, and the pressure control valve allows for manipulating the pressure inside the pole depending on weather conditions, e.g. wind force. The solution according to the invention provides a foldable flag pole inflatable by the user by means of pumping devices, having an aerodynamic structure that is stable and easy to assemble and connect to a suitable base according to the invention.

The object of the invention is illustrated in the drawing, where FIG. 1 shows a flag pole with a replaceable base in axonometric view from the side, FIG. 2 shows a flag pole with a replaceable drivable base viewed from the side, FIG. 3 shows a flag pole with a replaceable base viewed from the side, FIG. 4 shows a detail of the bottom section of the pole with visible valves and band, FIG. 5 shows a pneumatic pole in axonometric view from the side, FIG. 6 shows a flag pole with a replaceable base in axonometric view from the side, FIG. 7 shows a flag pole with a replaceable base in axonometric view from the side, FIG. 8 shows a flag pole with a visible tape in axonometric view from the side, FIG. 9 shows a flag pole with a visible band and connecting element in axonometric view from the side, FIG. 10 shows a flag pole with its rotation axis, FIG. 1 1 shows a double-shell flag pole viewed from the side, FIG. 12 shows a replaceable base where the stabilising arms form a cross arrangement, FIG. 13 shows a replaceable base in the form of a drivable element, and FIG. 14 shows a replaceable base with a stabilising arm.

Embodiment I

The flag pole with a replaceable base consists of a pneumatic pole 1 that, in its bottom section, has an inflation valve 4 for connecting a pumping device, a pressure control valve 3 and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . The pneumatic pole 1 is an enclosed tight shell 8 connected inseparably throughout the length of the pole along the ridge line 9 of the pneumatic pole 1. In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is glued inside the shell 8 of the pole, and the lower external section of the pneumatic pole 1 includes a band 10 located at the pole circumference and attached inseparably to the shell 8 of the pole. The band 10 has a vertical pocket 11 enclosed in the top section, along the ridge line (9) of the pneumatic pole (1 ). Into the vertical pocket 1 1 , an element 12 is inserted that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for inserting the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1 .

Embodiment II

The flag pole with a replaceable base consists of a pneumatic pole 1 that, in its bottom section, has a inflation valve 4 for connecting a pumping device, a pressure control valve 3 and an element linking the pole to the base 13, as well as the flag section 2 representing 2/3 of the entire length of the pole, to which a flag 5 can be separably fixed. The flag is fixed in the flag section by means of a zip. The pneumatic pole 1 serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . The pneumatic pole 1 is an enclosed tight shell 8 connected inseparably by means of a stitch throughout the length of the pole along the ridge line 9 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is stitched inside the shell 8, and the lower external section of the pneumatic pole 1 includes a band 10 located at a part of the pole circumference and attached inseparably to the shell 8 of the pole. The band 10 has a vertical pocket 1 1 enclosed in the top section, along the ridge line (9) of the pneumatic pole 1 . The band 1 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the vertical pocket 11 , an element 12 is inserted that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for inserting the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 11 of the band 10 is placed onto the pivot of the detachable rotator 14. The rotator’s enclosure is inserted into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for inserting the detachable rotator 14 has a stabilising arm 19 extended out of it.

Embodiment III

The flag pole with a replaceable base consists of a pneumatic pole 1 that, in its bottom section, has an inflation valve 4 for introducing a pumping device, a pressure control valve 3 and an element linking the pole to the base 13, as well as the flag section 2 representing 2/3 of the entire length of the pole, to which a flag 5 can be separably fixed. The flag is fixed in the flag section by means of a zip and forms a replaceable element. The pneumatic pole 1 serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . The pneumatic pole 1 is an enclosed tight shell 8 connected inseparably by means of a weld throughout the length of the pole on the side of the ridge line 9 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape

7 is welded outside the shell 8, and the lower external section of the pneumatic pole 1 includes a band 10 located at its circumference and attached inseparably to the shell

8 of the pole. The band 10 has a vertical pocket 1 1 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the parallel vertical pockets 1 1 , elements 12 are introduced that connect the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 1 1 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for introducing the detachable rotator 14 has one stabilising arm 19 that consists of two parallel bars driven out of the socket 18 of the replaceable base 13 which are inseparably connected at their ends with at least one crossbar. The arms so shaped are loaded by a vehicle wheel.

Embodiment IV

The flag pole with a replaceable base consists of a pneumatic pole 1 that, in its bottom section, has an inflation valve 4 for introducing a pumping device, a pressure control valve 3 and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . The pneumatic pole 1 is an enclosed tight shell 8 connected inseparably throughout the length of the pole on the side of the ridge line 9 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached inside the shell 8, and the lower external section of the pneumatic pole 1 includes a band 10 located at a part of the pole circumference and attached inseparably to the shell 8 of the pole. The band 10 has a vertical pocket 1 1 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the parallel vertical pockets 1 1 , elements 12 are introduced that connect the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has an inseparable socket 18 for introducing the detachable rotator 14, and the detachable rotator’s 14 rotation axis is located at the rotation axis 6 of the pneumatic pole 1 . The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 1 1 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for introducing the detachable rotator 14 has stabilising arms 19 that form a cross arrangement wherein one shaped io stabilising arm 19a is linked to the socket 18 inseparably, and the other shaped stabilising arm 19b is linked to the socket 18 separably.

Embodiment V

The flag pole with a replaceable base consists of a pneumatic pole 1 that, in its bottom section, has an inflation valve 4 for introducing a pumping device, a pressure control valve 3 and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The flag is fixed in the flag section by means of a zip. The pneumatic pole 1 serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . The pneumatic pole 1 is an enclosed tight shell

8 connected inseparably throughout the length of the pole on the side of the ridge line

9 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached outside the shell, and the lower external section of the pneumatic pole 1 includes a band 10 located at its circumference and attached inseparably to the shell 8 of the pole. The band 10 has a vertical pocket 1 1 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the parallel vertical pockets 11 , elements 12 are introduced that connect the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has an inseparable socket 18 for introducing the detachable rotator 14. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 1 1 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with the socket 18 for introducing the detachable rotator 14 has the form of a driving (hammered in) element with side flippers extending from it Embodiment VI

The flag pole with a replaceable base consists of a pneumatic pole and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 has two shells: the internal shell 8 and the external shell 17. The internal, inflatable shell 8, which is made of a tight material connected on the side of the top line, has an inflation valve 4 in its lower section for introducing a pumping device, as well as a pressure control valve 3. The external shell 17 is formed by a fabric material connected inseparably on the side of the ridge line 9, which is overlaid on the internal shell and makes the entire structure of the pole 1 stiff. The external shell 17 has openings shaped so to accept the shape of the inflation valve 4 and the pressure control valve 3. Both shells form a strengthened pneumatic pole 1 that serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached inside the shell 17, and the lower external section of the pneumatic pole 1 includes a band 10 located at a part of the pole circumference and attached inseparably to the shell 17 of the pole. The band 10 has a vertical pocket 11 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. In the vertical pocket 1 1 , an element 12 is introduced that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator r 14 is located at the rotation axis 6 of the pneumatic pole 1 .

Embodiment VII

The flag pole with a replaceable base consists of a pneumatic pole and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 has two shells: the internal shell 8 and the external shell 17. The internal, inflatable shell 8, which is made of a tight material connected by welding on the side of the ridge line 9, has an inflation valve 4 in its lower section for introducing a pumping device as well as a pressure control valve 3. The external shell 17 is formed by a fabric material connected inseparably on the side of the ridge line, which is overlaid on the internal shell 8 and makes the entire structure of the pole 1 stiff. The external shell 17 has openings in its bottom section that are shaped so to accept the shape of the inflation valve 4 and the pressure control valve 3. Both shells form a strengthened pneumatic pole 1 that serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached inside the shell 17, and the lower external section of the pneumatic pole 1 includes a band 10 located at its circumference and attached inseparably to the shell 17 of the pole. The band 10 has a vertical pocket 11 enclosed in the top section, along the top ridge 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the vertical pocket 1 1 , an element 12 is introduced that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 11 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for introducing the detachable rotator 14 has a stabilising arm 19 extended out of it.

Embodiment VIII

The flag pole with a replaceable base consists of a pneumatic pole and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 has two shells: the internal shell 8 and the external shell 17. The internal, inflatable shell 8, which is made of a tight material connected on the side of the ridge line, has an inflation valve 4 in its lower section for introducing a pumping device, as well as a pressure control valve 3. The external shell 17 is formed by a fabric material connected inseparably on the side of the ridge line 9, which is overlaid on the internal shell and makes the entire structure of the pole 1 stiff. The external shell 17 has openings in its bottom section that are shaped so to accept the shape of the inflation valve 4 and the pressure control valve 3. Both shells form a strengthened pneumatic pole 1 that serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached outside the shell 17, and the lower external section of the pneumatic pole 1 includes a band 10 located at a part of the pole circumference and attached inseparably to the shell 17 of the pole. The band 10 has a vertical pocket 11 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the vertical pocket 1 1 , an element 12 is introduced that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 1 1 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for introducing the detachable rotator 14 has one stabilising arm 19 that consists of two parallel bars driven out of the socket 18 of the replaceable base 13 which are inseparably connected at their ends with at least one crossbar. The arms so shaped are loaded by a vehicle wheel.

Embodiment IX The flag pole with a replaceable base consists of a pneumatic pole and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 has two shells: the internal shell 8 and the external shell 17. The internal, inflatable shell 8, which is made of a tight material connected on the side of the ridge line, has an inflation valve 4 in its lower section for introducing a pumping device, as well as a pressure control valve 3. The external shell 17 is formed by a fabric material connected inseparably on the side of the ridge line 9, which is overlaid on the internal shell and makes the entire structure of the pole 1 stiff. The external shell has openings in its bottom section that are shaped so to accept the shape of the inflation valve 4 and the pressure control valve 3. Both shells form a strengthened pneumatic pole 1 that serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached inside the shell 17, and the lower external section of the pneumatic pole 1 includes a band 10 located at its circumference and attached inseparably to the shell

17 of the pole. The band 10 has a vertical pocket 1 1 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the vertical pocket 11 , an element 12 is introduced that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket

18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 1 1 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for introducing the detachable rotator 14 has stabilising arms 19 that form a cross arrangement wherein one shaped stabilising arm 19a is linked to the socket 18 inseparably, and the other shaped stabilising arm 19b is linked to the socket 18 separably. Each end of a stabilising arm 19 can additionally have a loading element put on.

Embodiment X

The flag pole with a replaceable base consists of a pneumatic pole and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 has two shells: the internal shell 8 and the external shell 17. The internal, inflatable shell 8, which is made of a tight material connected on the side of the ridge line, has an inflation valve 4 in its lower section for introducing a pumping device, as well as a pressure control valve 3. The external shell 17 is formed by a fabric material connected inseparably on the side of the ridge line 9, which is overlaid on the internal shell and makes the entire structure of the pole 1 stiff. The external shell has openings in its bottom section that are shaped so to accept the shape of the inflation valve 4 and the pressure control valve 3. Both shells form a strengthened pneumatic pole 1 that serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached outside the shell 17, and the lower external section of the pneumatic pole 1 includes a band 10 located at its circumference and attached inseparably to the shell

17 of the pole. The band 10 has a vertical pocket 1 1 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the vertical pocket 11 , an element 12 is introduced that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket

18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 1 1 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with a socket 18 for introducing the detachable rotator 14 has stabilising arms 19 that form a cross arrangement consisting of four separate arms 19, wherein the first pair of opposite arms 19a is linked to the socket 18 inseparably, and the other pair of opposite arms 19b is linked to the socket 18 separably.

Embodiment XI

The flag pole with a replaceable base consists of a pneumatic pole and an element linking the pole to the base 13, as well as the flag section 2 to which a flag 5 can be separably fixed. The pneumatic pole 1 has two shells: the internal shell 8 and the external shell 17. The internal, inflatable shell 8, which is made of a tight material connected on the side of the ridge line, has an inflation valve 4 in its lower section for introducing a pumping device, as well as a pressure control valve 3. The external shell 17 is formed by a fabric material connected inseparably on the side of the ridge line 9, which is overlaid on the internal shell and makes the entire structure of the pole 1 stiff. The external shell has openings in its bottom section that are shaped so to accept the shape of the inflation valve 4 and the pressure control valve 3. Both shells form a strengthened pneumatic pole 1 that serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section 2 in the direction opposite to the rotation axis 6 of the pneumatic pole 1 . In the middle section of the pneumatic pole 1 , in the area of the inseparable connection at the ridge line 9, a longitudinal tape 7 is attached outside the shell 17, and the lower external section of the pneumatic pole 1 includes a band 10 located at a part of the pole circumference and attached inseparably to the shell 17 of the pole. The band 10 has a vertical pocket 11 enclosed in the top section, along the ridge line 9 of the pneumatic pole 1. The band 10 has a strengthening protrusion 15 that runs along the pneumatic pole 1 and is rounded in its top section and symmetrically attached at the ridge line 9 of the pneumatic pole, and in its bottom section the band 10 is linked to the pole by a hook shape 16 running through the base of the pneumatic pole 1 and overlapping its other side. In the vertical pocket 1 1 , an element 12 is introduced that connects the inflated pneumatic pole 1 with the replaceable base 13 via a detachable rotator 14. The replaceable base 13 has a socket 18 for introducing the detachable rotator 14, and the rotation axis of the detachable rotator 14 is located at the rotation axis 6 of the pneumatic pole 1. The detachable rotator 14 consists of a central pivot fixed on a bearing in a permanent enclosure. A connecting element 12 located in the vertical pocket 11 of the band 10 is inserted into the pivot of the detachable rotator 14. The rotator’s enclosure is introduced into the socket 18 of the base 13, which can preferably be linked via the horizontal connecting element (pin) to form a strong and stable connection. The replaceable base 13 with the socket 18 for introducing the detachable rotator 14 has the form of a driving (hammered in) element with side flippers extending from it

SUBSTITUTE SHEET (RULE 26)

Claims

Claims

1 . A flag pole with a replaceable base comprising a pneumatic pole (1 ) that, in its bottom section, has an inflation valve (4), a pressure control valve (3) and an element linking the pole to the base (13), as well as the flag section (2) to which a flag (5) is separably fixed, characterised in that the pneumatic pole (1 ) serves as a vertical shaft that is arched in its top section in such a way that it is tilted within the flag section (2) in the direction opposite to the rotation axis (6) of the pneumatic pole (1 ) and consists of at least one tight enclosed shell (8) connected inseparably throughout the length of the pole on the side of the ridge line (9) of the pneumatic pole (1 ), wherein it has a longitudinal tape (7) attached in the middle section of the pneumatic pole (1 ), in the area of the inseparable connection, and in the lower external section of the pneumatic pole (1 ) it has a band (10) attached inseparably to the shell (8) at the entire or a part of the pole circumference, wherein the band (10) has at least one vertical pocket (1 1 ) enclosed in the top section, along the ridge line (9) of the pneumatic pole (1 ), to which an element (12) is inserted that connects the pneumatic pole (1 ) to the replaceable base (13) through a detachable rotator (14), wherein the replaceable base (13) has a socket (18) for inserting the detachable rotator (14), and the rotation axis of the detachable rotator (14) is located at the rotation axis (6) of the pneumatic pole (1 ).

2. The flag pole according to claim 1 , characterised in that the flag section (2) to which the flag (5) is separably fixed represents 2/3 of the pole (1 ) length.

3. The flag pole according to claim 2, characterised in that the longitudinal tape (7) is introduced in the middle section of the pneumatic pole (1 ), on the external side of the shell (8), in the area of the inseparable connection at the ridge line (9) of the pneumatic pole (1 ).

4. The flag pole according to claim 2, characterised in that the longitudinal tape (7) is introduced in the middle section of the pneumatic pole (1 ), on the internal side of the shell (8), in the area of its inseparable connection at the ridge line (9) of the pneumatic pole (1 ).

SUBSTITUTE SHEET (RULE 26)

5. The flag pole according to claims 1 to 4, characterised in that the band (10) has a strengthening protrusion (15) that runs along the pole (1 ) and is rounded in its top section and symmetrically attached at the ridge line (9) of the pneumatic pole (1 ).

6. The flag pole according to claims 1 to 5, characterised in that the band (10) is linked in its bottom section to the pole by a hook shape (16) running through the base of the pole (1 ) and overlapping its other side.

7. The flag pole according to claims 1 to 6, characterised in that the band (10) has two vertical pockets (1 1 ) that are positioned in parallel to the ridge line (9) of the pneumatic pole (1 ) and are blind in their top section.

8. The flag pole according to claims 1 to 7, characterised in that it has two shells, wherein the internal inflatable shell (8) is formed by a connected tight material, and the overlaid external shell (17) is formed by an inseparably fixed textile fabric

9. The flag pole according to claims 1 to 8, characterised in that it has a lighting system installed inside or outside.

10. The flag pole according to claims 1 to 9, characterised in that once the detachable rotator (14) is inserted into the socket (18) of the replaceable base (13), the socket (18) and the detachable rotator (14) are linked via the horizontal connecting element (pin).

1 1 .The flag pole according to claims 1 to 10, characterised in that the replaceable base (13) with the socket (18) for inserting the detachable rotator (14) has at least one stabilising arm (19) extended out of it.

12. The flag pole according to claim 1 1 , characterised in that the replaceable base 13 has one stabilising arm (19) that consists of two parallel bars extended out of the socket (18) of the replaceable base (13) which are inseparably connected at their ends with at least one crossbar.

13. The flag pole according to claim 1 1 , characterised in that the stabilising arms (19) of the replaceable base (13) form a cross arrangement wherein one stabilising arm (19a) is linked to the socket (18) inseparably, and the other stabilising arm (19b) is linked to the socket separably (18).

14. The flag pole according to claim 1 1 , characterised in that the stabilising arms (19) of the replaceable base (13) form a cross arrangement consisting of four separate arms (19), wherein the first pair of opposite arms (19a) is linked to the

SUBSTITUTE SHEET (RULE 26) socket (18) inseparably, and the other pair of opposite arms (19b) is linked to the socket (18) separably.

15. The flag pole according to claims 1 to 10, characterised in that the replaceable base (13) with the socket (18) for inserting the detachable rotator (14) has the form of a driving (hammered in) element with side flippers extending from it

SUBSTITUTE SHEET (RULE 26)