All The Claims

1. A fuel distribution pipe for common rail fuel injection systems comprising:
a drawn, rolled or forged pipe, the interior forming a high pressure accumulator for accommodating fuel,
pressure lines connected to the pipe, each line opening into the interior of the pipe through a transverse bore,
an end closure coupled to a face of the pipe with a sealing body, whereby a threaded force transmission element presses the sealing body against an appropriately designed mating surface on the pipe to form a seal, wherein
the sealing body and the force transmission element at least partially parallel to each other in an axial direction,
the force transmission element comprising a threaded stopper with a recess on the sealing body side, said element screwed onto into an external thread on the pipe, and
the sealing body is accommodated for part of its axial length in the recess, and the sealed height of the sealing body is uniformly surrounded by the threaded stopper.
2. The fuel distribution pipe in accordance with claim 1, wherein the sealing body has a generally spherical shape.
3. The fuel distribution pipe in accordance with claim 1, wherein the force transmission element consists of cold-forged steel.
4. The fuel distribution pipe in accordance with claim 2, wherein the force transmission element consists of cold-forged steel.
5. A fuel distribution pipe for common rail fuel injection systems comprising:
a drawn, rolled or forged pipe, the interior forming a high pressure accumulator for accommodating fuel,
pressure lines connected to the pipe, each line of opening into the interior of the pipe through a transverse bore,
an end closure coupled to a face of the pipe with a sealing body, whereby a threaded force transmission element presses the sealing body against an appropriately designed mating surface on the pipe to form a seal, wherein
the sealing body and the force transmission element are at least partially parallel to each other in an axial direction, and
the force transmission element comprises a threaded stopper with a recess on the sealing body side, said element screwed into an internal thread in the pipe, and the sealing body is accommodated for part of its axial length in the recess.
6. The fuel distribution pipe in accordance with claim 5, wherein the sealed height of the sealing body is uniformly surrounded by the threaded stopper.
7. The fuel distribution pipe in accordance with claim 5, wherein the sealing body has a face which on the interior side is domed.
8. The fuel distribution pipe in accordance with claim 6, wherein the sealing body or has a face which on the interior side is domed.
9. The fuel distribution pipe in accordance with claim 5, wherein the force transmission element consists of cold-forged steel.
10. The fuel distribution pipe in accordance with claim 6, wherein the force transmission element consists of cold-forged steel.
11. The fuel distribution pipe in accordance with claim 7, wherein the force transmission element consists of cold-forged steel.
12. The fuel distribution pipe in accordance with claim 8, wherein the force transmission element consists of cold-forged steel.
13. A common rail fuel distribution pipe for vehicle injection devices comprising:
a drawn, rolled or forged pipe, the interior forming a high pressure accumulator for accommodating fuel,
pressure lines connected to the pipe, each line opening into the interior of the pipe through a transverse bore,
a threaded stopper with a domed recess on the sealing body side, said stopper having external threads and screwed into an internal thread in the pipe,
an end closure coupled to a face of the pipe with a sealing body, whereby the threaded stopper presses the sealing body against an appropriately designed mating surface on the pipe to form a seal, wherein
the sealing body and the force transmission element are at least partially parallel to each other in an axial direction, and
the sealing body is accommodated for part of its axial length in the recess, and the sealed height of the sealing body is uniformly surrounded by the threaded stopper.
14. The fuel distribution pipe in accordance with claim 13, wherein the sealing body has a face which on the interior side has a domed shape.
15. The fuel distribution pipe in accordance with claim 13, wherein the force transmission element consists of cold-forged steel.
16. The fuel distribution pipe in accordance with claim 14, wherein the force transmission element consists of cold-forged steel.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A communication system having a mobile terminal and an image forming apparatus that comprises a receiving section for receiving an image data from the mobile terminal and prints an image based on the received image data, wherein
the image forming apparatus comprises a sending section that sends an address of the receiving section to the mobile terminal,
the image forming apparatus makes the receiving section receive an image data sent with the address by the mobile terminal,
a communication between the mobile terminal and the image forming apparatus is performed wirelessly with an IEEE 802.11 standard,
the mobile terminal comprises:
a data selection receiving section that receives a selection of an image data among plural thumbnails displayed on a display section; and
an image data sending section that wirelessly sends the selected image data with the address to the image forming apparatus,

the image forming apparatus makes the receiving section receive the selected image data, when the selected image data is sent with the address from the mobile terminal, and
the image forming apparatus rejects a connection establishment request from another mobile terminal except for the mobile terminal, when the wireless communication with the mobile terminal is established.
2. The communication system according to claim 1, wherein
the image forming apparatus comprises a deleting section that deletes the address of the mobile terminal when the communication with the mobile terminal through the receiving section is finished.
3. The communication system according to claim 1, wherein
the image forming apparatus comprises a notification section that wirelessly notifies an error information to the mobile terminal when an error occurs.
4. A communication method with a mobile terminal and an image forming apparatus that comprises a receiving section for receiving an image data from the mobile terminal and prints an image based on the received image data, wherein
the image forming apparatus sends an address of the receiving section to the mobile terminal,
the image forming apparatus makes the receiving section receive an image data sent with the address by the mobile terminal,
a communication between the mobile terminal and the image forming apparatus is performed wirelessly with an IEEE 802.11 standard,
the mobile terminal receives a selection of an image data among plural thumbnails displayed on a display section,

the mobile terminal wirelessly sends the selected image data with the address to the image forming apparatus,
the image forming apparatus makes the receiving section receive the selected image data, when the selected image data is sent with the address from the mobile terminal, and
the image forming apparatus rejects a connection establishment request from another mobile terminal except for the mobile terminal, when the wireless communication with the mobile terminal is established.
5. An image forming apparatus, comprising:
a sending section that wirelessly sends an address of a receiving section to a mobile terminal with a IEEE 802.11 standard, wherein the receiving section receives an image data from the mobile terminal;
an image data receiving section that makes the receiving section receive an image data selected among plural thumbnails displayed on the mobile terminal, when the selected image data is wirelessly sent from the mobile terminal with the address; and
a rejecting section that rejects a connection establishment request from another mobile terminal except for the mobile terminal, when the wireless communication with the mobile terminal is established through the receiving section.
6. The image forming apparatus according to claim 5, further comprising:
a deleting section that deletes the address of the mobile terminal when the communication with the mobile terminal through the receiving section is finished.
7. The image forming apparatus according to claim 5, further comprising:
a notification section that wirelessly notifies an error information to the mobile terminal when an error occurs.

1. An injection device for the injection into a patient of a medical agent contained within a vial, comprising:
a housing;
a compartment configured to receive the vial;
a needle that may be moved in a first direction in order to puncture the patient; and
a pressing member configured to force the medical agent from the vial;
wherein the needle is movable move from an initial position in accordance with a first motion profile in which the needle moves a first distance followed by a rest period, and in accordance with a second motion profile in which the needle is returned to the initial position.
2. The injection device as set forth in claim 1 further including an activation mechanism capable of initiating motion of the needle in accordance with the first motion profile or the second motion profile.
3. The injection device as set forth in claim 2 wherein the activation mechanism includes a first trigger element causing motion of the needle in accordance with the first motion profile.
4. The injection device as set forth in claim 3 wherein the activation mechanism includes a second trigger element causing motion of the needle in accordance with the second motion profile.
5. The injection device as set forth in claim 2 further including a mechanism for setting a first puncturing depth for the first motion profile and a second puncturing depth for the second motion profile.
6. The injection device as set forth in claim 5 further including a display capable of displaying the first puncturing depth and the second puncturing depth.
7. The injection device as set forth in claim 5 wherein the activation mechanism includes a first setting element for setting the first puncturing depth and a second setting element for setting the second puncturing depth.
8. The injection device as set forth in claim 7 wherein the measuring unit is a blood glucose meter.
9. The injection device as set forth in claim 1 further including a measuring unit for assaying a body fluid sample.
10. The injection device as set forth in claim 1 further including a cap connected to the housing.
11. The injection device as set forth in claim 10 wherein the cap includes an opening and the needle extends through the opening during puncturing.
12. The injection device as set forth in claim 1 wherein the needle moves with respect to the vial when the needle moves in accordance with the first motion profile.
13. The injection device as set forth in claim 1 wherein the needle and the vial move with respect to the housing in accordance with the second motion profile.
14. The injection device as set forth in claim 1 wherein the needle moves with respect to the vial when the needle moves in accordance with one of the motion profiles, and the needle and the vial move with respect to the housing in accordance with the other of the motion profiles.
15. The injection device as set forth in claim 1 further including a sensor for detecting at least one of a first puncturing depth or a second puncturing depth.
16. An injection device for the injection into a patient of a medical agent contained within a vial comprising:
a housing including a compartment configured to receive the vial;
a needle moveable with respect to the housing and connected to the vial;
a pressing member configured to force the medical agent from the vial through the needle;
wherein the needle may move in accordance with at least two motion profiles, the first motion profile allowing the needle to puncture the patient and then rest within the puncture and the second motion profile allowing the needle to be withdrawn from the puncture after the needle punctures the patient.
17. The injection device as set forth in claim 16 further including a cap connected to the housing.
18. The injection device as set forth in claim 17 wherein the cap includes an opening and an arcuate cross section.
19. The injection device as set forth in claim 17 wherein the cap has a substantially cylindrical shape.
20. The injection device as set forth in claim 17 wherein the cap includes a portion having the cross-sectional shape of a frustum.
21. The injection device as set forth in claim 16 wherein the needle moves with respect to the vial when the needle moves according to the second motion profile.
22. The injection device as set forth in claim 16 further including a measuring unit capable of assaying a body fluid sample.
23. The injection device as set forth in claim 22 wherein the measuring unit is a blood glucose meter.
24. The injection device as set forth in claim 22 wherein the measuring unit is a photometrical unit.
25. The injection device as set forth in claim 22 wherein the measuring unit is an electrochemical unit.
26. The injection device as set forth in claim 16 further including a trigger element capable of actuating movement of the needle in accordance with one of the first motion profile or the second motion profile.
27. The injection device as set forth in claim 26 further including a second trigger element capable of actuating movement of the needle in accordance with the other of the first motion profile or the second motion profile.
28. The injection device as set forth in claim 16 further including a first setting element capable of setting a puncture depth of the needle in accordance with movement of the needle based upon the first motion profile.
29. The injection device as set forth in claim 28 further including a second setting element capable of setting a second puncture depth of the needle in accordance with movement of the needle based upon the second motion profile.
30. The injection device as set forth in claim 28 further including a display capable of displaying the first puncture depth or the second puncture depth.
31. The injection device as set forth in claim 30 wherein the display is a liquid crystal display.

The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A method of allocating ports for packets distributed via a computer network comprising:
receiving, by a packet engine configured on a first core of a plurality of cores of a device intermediary between a client and a server, a first packet from the client comprising an outer header of an encapsulation protocol encapsulating a payload with an inner header, the first packet directed by a packet distributor of the device to the first core selected based on a first tuple of the outer header;
determining, by a port allocator configured on the packet engine, a source port number from a plurality of source port numbers to cause the packet distributor to identify the first core based on a second tuple of the inner header;
modifying, by the packet engine, the inner header of the payload to include the determined source port number; and
forwarding, by the device, the first packet to the server, the first packet comprising the modified inner header.
2. The method of claim 1, further comprising:
receiving, by the device, a second packet from the server having a second outer header with a same tuple as the modified inner header of the first packet;
directing, by the packet distributor of the device, the second packet to the packet engine based on the same tuple.
3. The method of claim 1, further comprising:
receiving, by the device, a second packet from the server having a second outer header with a same tuple as the modified inner header of the first packet;
directing, by the packet distributor of the device, the second packet to the packet engine based on the same tuple; and
determining, by the packet engine configured on the first core, that the packet engine is an owner of the second packet based on a third tuple of the second inner header.
4. The method of claim 1, wherein the first packet is encapsulated using a Virtual Extensible Local Area Network encapsulation protocol.
5. The method of claim 1, further comprising:
determining, by the packet distributor, to direct the first packet to the first core based on the first tuple, the first tuple comprising a source internet protocol address, a destination internet protocol address, a destination port number, and a protocol.
6. The method of claim 1, further comprising:
retrieving, from a database of the device, a mapping of tuples to source port numbers; and
determining, by the port allocator, the source port number from the plurality of source port numbers based on the mapping.
7. The method of claim 1, further comprising:
establishing, by the packet engine, responsive to receiving the first packet from the client, a connection with the server.
8. The method of claim 1, further comprising:
de-encapsulating, by the packet engine, the first packet received from the client to identify the second tuple of the inner header.
9. The method of claim 1, further comprising:
determining, by the port allocator, the source port number based on a hash table used by the packet distributor to distribute packets.
10. The method of claim 1, further comprising:
accessing, by the packet engine, a distributed hash table to determine the source port number.
11. A system for port allocation of packets distributed via a computer network comprising:
a packet engine on a first core of a plurality of cores of a device intermediary between a client and a server, the packet engine configured to receive a first packet from the client comprising an outer header of an encapsulation protocol encapsulating a payload with an inner header, the first packet directed by a packet distributor of the device to the first core selected based on a first tuple of the outer header;
a port allocator on the packet engine configured to determine a source port number from a plurality of source port numbers to cause the packet distributor to identify the first core based on a second tuple of the inner header;
the packet engine configured to modify the inner header of the payload to include the determined source port number; and
the device configured to forward the first packet to the server, the first packet comprising the modified inner header.
12. The system of claim 11, wherein the device is further configured to:
receive a second packet from the server having a second outer header with a same tuple as the first packet;
direct the second packet to the packet engine based on the same tuple.
13. The system of claim 11, wherein the device is further configured to:
receive a second packet from the server having a second outer header with a same tuple as the first packet;
direct the second packet to the packet engine based on the same tuple; and
determine that the packet engine is an owner of the second packet based on a third tuple of the second inner header.
14. The system of claim 11, wherein the first packet is encapsulated using a Virtual Extensible Local Area Network encapsulation protocol.
15. The system of claim 11, wherein the device is further configured to:
determine to direct the first packet to the first core based on the first tuple, the first tuple comprising a source internet protocol address, a destination internet protocol address, a destination port number, the source port number and a protocol.
16. The system of claim 11, wherein the device is further configured to:
retrieve, from a database, a mapping of tuples to source port numbers; and
determine the source port number from the plurality of source port numbers based on the mapping.
17. The system of claim 11, wherein the device is further configured to:
establish responsive to receiving the first packet from the client, a connection with the server.
18. The system of claim 11, wherein the device is further configured to:
de-encapsulate the first packet received from the client to identify the second tuple of the inner header.
19. The system of claim 11, wherein the device is further configured to:
determine the source port number based on a hash table used by the packet distributor to distribute packets.
20. The system of claim 11, wherein the device is further configured to:
access a distributed hash table to determine the source port number.