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The invention relates to a loading device having N loading heads offset by N/360°, wherein N is the number 3 or an integer multiple thereof, wherein each of the N loading heads has a connecting device for a hose arranged at the upper end, through which hose the catalyst material can be delivered fro

The invention relates to a loading device having N loading heads offset by N/360°, wherein N is the number 3 or an integer multiple thereof, wherein each of the N loading heads has a connecting device for a hose arranged at the upper end, through which hose the catalyst material can be delivered from above, wherein each of the N loading heads has a deflecting cone with the tip pointing upwards beneath the connecting device and joined to the connecting device, a vertical holder is mounted on the underside of said deflecting cone, at least two circular deflector funnel elements are mounted on the vertical holder by means of horizontal braces, the deflector funnel elements open more narrowly at the top than at the bottom, gaps are provided between the deflector funnel elements and the lower deflector funnel elements have a larger diameter than the deflector funnel elements above them.

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1. A loading device for loading catalyst material into a reactor, comprising: a plurality of loading heads each configured to be coupled to a catalyst material supply hose, each loading head including, a connection device disposed at an upper end of said loading head and configured to be coupled to

1. A loading device for loading catalyst material into a reactor, comprising: a plurality of loading heads each configured to be coupled to a catalyst material supply hose, each loading head including, a connection device disposed at an upper end of said loading head and configured to be coupled to the catalyst material supply hose,a deflecting cone disposed below said connection device and coupled thereto at an upwardly directed tip of said deflecting cone,a vertical holding device coupled to an underside of said deflecting cone,a plurality of horizontal struts coupled to said vertical holding device,a first circular deflecting funnel element coupled to said horizontal struts and having an upper opening and an opposing lower opening defined therein, wherein the upper opening is smaller in area than the opposing lower opening,a second circular deflecting funnel element disposed below and spaced vertically apart from said first deflecting funnel element so as to define a gap there between, said second circular deflecting funnel coupled to said horizontal struts and having an upper opening and an opposing lower opening defined therein, wherein the upper opening is smaller in area than the respective opposing lower opening, said second deflecting funnel element having a larger diameter than that of said first deflecting funnel; anda loading ring coupled to the plurality of loading heads. 2. The loading device of claim 1, wherein said plurality of loading heads are a plurality of N loading heads and are angularly offset from each other about the central axis of rotation by an angle of 360°/N, wherein N is an integer. 3. The loading device of claim 1, wherein an outer surface of each of said deflecting cone and said first and second deflecting funnel elements together define a circular conical deflector envelope having an opening angle of between of 450 to 900. 4. The loading device of claim 1, further comprising a third circular deflecting element disposed below and spaced vertically apart from said second deflecting funnel element so as to define a gap there between, said third circular deflecting funnel coupled to said horizontal struts and having an upper opening and an opposing lower opening defined therein, wherein the upper opening is smaller in area than the respective opposing lower opening, said third deflecting funnel element having a larger diameter than that of said second deflecting funnel. 5. The loading device of claim 2, wherein N equals three and the loading ring is coupled to the plurality of three loading heads, wherein each of said three loading heads is angularly offset from each other about a central axis of said ring. 6. The loading device of claim 2, wherein said loading ring is configured to be rotatable about an axis of the reactor. 7. The loading device of claim 5, wherein said loading ring is vertically displaceable. 8. The loading device of claim 5, wherein said loading ring includes a releasable locking mechanism disposed thereon and configured to permit said loading ring to remain inside said reactor during operation of the reactor. 9. A method of loading a catalyst into a reactor, comprising: providing a loading device of claim 1;dispersing catalyst from the loading heads of the loading mechanism into the reactor;tangentially pivoting the loading heads back and forth sectionally on a circular path, when viewed from above the loading mechanism, during said dispersing step. 10. The method of claim 9, further comprising: lowering the loading heads such that they are disposed a predefined distance immediately above a catalyst bed in the reactor;moving the loading heads axially upward at substantially the same rate as a catalyst bed filling rate, so as to maintain substantially the same distance between a top surface of the catalyst bed and the loading heads as the catalyst bed fills up. 11. The method of claim 10, wherein said steps of tangentially pivoting and moving the loading heads axially upward are performed by complementary movements of the loading ring. 12. The loading device of claim 2 wherein N is at least an integral multiple of three. 13. A loading device for loading catalyst material into a reactor, the loading device comprising: loading heads configured to be coupled to a catalyst material supply hose, wherein each loading head includes a connection device disposed towards an upper end of the loading head and configured to be coupled to the catalyst material supply hose,a deflecting cone disposed below the connection device and coupled thereto,a vertical holding device coupled to the deflecting cone,a plurality of horizontal struts coupled to the vertical holding device,a first circular deflecting funnel element coupled to the horizontal struts and having an upper opening and an opposing lower opening defined therein, wherein the upper opening is smaller in area than the opposing lower opening,a second circular deflecting funnel element disposed below and spaced vertically apart from the first deflecting funnel element so as to define a gap there between, the second circular deflecting funnel coupled to the horizontal struts and having an upper opening and an opposing lower opening defined therein, wherein the upper opening is smaller in area than the respective opposing lower opening, the second deflecting funnel element having a larger diameter than a diameter of the first deflecting funnel; anda loading ring coupled to the plurality of loading heads. 14. The loading device of claim 13 wherein the loading ring is configured to be rotatable about an axis of the reactor. 15. The loading device of claim 14 wherein the loading heads are angularly offset from each other about a central axis of rotation.