1. A balance shaft module equipped with a dual pump including a main oil pump and a sub-oil pump, the balance shaft module comprising:
a pump rotor rotatably coupled to a housing;
a discharge space formed in the housing for discharging oil in the sub-oil pump;
a pulse chamber formed in the housing to increase the discharge space, wherein the oil discharged through the discharge space is merged with the oil flowing through the pulse chamber such that discharge pulse pressure is reduced; and
an eccentric washer having a discharging opening space formed by cutting off a portion inward from the outside, wherein the discharge opening space of the eccentric washer is connected to the discharge space to fluid-communicate with the discharge space of the pump rotor.
2. The balance shaft module as defined in claim 1, wherein the discharge space has a main discharge channel formed between inner and outer rotors of the pump rotor and the housing, and the pulse chamber communicates with the main discharge channel.
3. The balance shaft module as defined in claim 1, wherein the eccentric washer has an intake opening space formed by cutting off a portion inward from the outside at one side and the discharge opening space is disposed at the opposite side to the intake opening space.
4. The balance shaft module as defined in claim 3, wherein the intake opening space of the eccentric washer is connected to a suction space of the pump rotor.
5. The balance shaft module as defined in claim 1, wherein the discharge opening space is positioned at the pulse chamber in order not to cover the pulse chamber.
6. The balance shaft module as defined in claim 1, wherein the housing includes an upper housing and a lower housing which are connected each other and the pulse chamber is formed in the upper housing.
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 multi-system coordinated communication method, comprising:
adding, by a first communications node to data information of a first system, and when transmitting data by using a second system, control information used by the second system to send data;
indicating, in control information of the first system, that the data information of the first system comprises the control information used by the second system to send data, wherein the first system and the second system are one of systems of different modes, or systems of a same mode that use different resources;
sending, by the first communications node, the control information of the first system to a second communications node by using a control channel of the first system; and
sending, to the second communications node by using a data channel of the first system, the data information of the first system that carries the control information used by the second system to send data.
2. The method according to claim 1, wherein the indicating, in control information of the first system, that the data information of the first system comprises the control information used by the second system to send data comprises:
indicating, in an explicit manner or an implicit manner, and further in the control information of the first system, that the data information of the first system comprises the control information used by the second system to send data.
3. The method according to claim 2, wherein the indicating, in an explicit manner in the control information of the first system, that the data information of the first system comprises the control information used by the second system to send data comprises indicating, in a field in the control information of the first system by using an information field, that the data information of the first system comprises the control information used by the second system to send data.
4. The method according to claim 2, wherein the indicating, in an implicit manner in the control information of the first system, that the data information of the first system comprises the control information used by the second system to send data comprises indicating, using at least one of an undefined combination or a specific value combination in an existing field, that the data information of the first system comprises the control information used by the second system to send data, wherein the existing field exists in the control information of the first system.
5. The method according to claim 1, further comprising:
receiving, by the first communications node, a response message sent by the second communications node, wherein the response message comprises: first feedback information in response to the data information of the first system and radio channel quality of the first system, and second feedback information in response to data information of the second system and radio channel quality of the second system.
6. The method according to claim 5, wherein the receiving, by the first communications node, the response message sent by the second communications node comprises performing one of:
receiving, by the first communications node, a response message that is used to respond to the second system and is sent by the second communications node using the data channel of the first system, and indicating, in the control information of the first system, that the data information of the first system comprises the response information of the second system; or
receiving, by the first communications node, a response message that is used to respond to the second system and is sent by the second communications node using a feedback control channel of the first system.
7. A multi-system coordinated communication method, comprising:
receiving, by a second communications node, control information and data information of a first system that are sent by a first communications node, wherein the data information of the first system comprises control information used by a second system to send data; and wherein the control information of the first system comprises indication information indicating that the data information of the first system comprises the control information used by the second system to send data, wherein the first system and the second system are one of systems of different modes, or systems of a same mode that use different resources; and
demodulating and decoding, by the second communications node according to the indication information and by using the control information of the second system, received data sent by the second system.
8. The method according to claim 7, further comprising:
sending, by the second communications node, a response message to the first communications node, wherein the response message comprises first feedback information in response to the data information of the first system and radio channel quality of the first system, and further comprises second feedback information in response to data information of the second system and radio channel quality of the second system.
9. The method according to claim 8, wherein the sending, by the second communications node, a response message to the first communications node comprises performing one of:
sending, by the second communications node to the first communications node using a data channel of the first system, a response message used to respond to the second system, and indicating, in the control information of the first system, that the data information of the first system comprises response information of the second system; or
sending, by the second communications node to the first communications node by using a feedback control channel of the first system, a response message used to respond to the second system.
10. A communications node, comprising:
a processor, configured to:
when data is transmitted using a second system, add, to data information of a first system, control information used by the second system to send data; and
indicate, in control information of the first system, that the data information of the first system comprises the control information used by the second system to send data, wherein the first system and the second system are one of systems of different modes, or systems of a same mode that use different resources; and
a radio transceiver connected to the processor, the radio transceiver configured to:
send the control information of the first system to a second communications node by using a control channel of the first system; and
send, to the second communications node by using a data channel of the first system, the data information of the first system that comprises the control information used by the second system to send data.
11. The communications node according to claim 10, wherein the indicating, in control information of the first system by the processor, that the data information of the first system comprises the control information used by the second system to send data comprises:
indicating, in an explicit manner or an implicit manner in the control information of the first system by the processor, that the data information of the first system comprises the control information used by the second system to send data.
12. The communications node according to claim 11, wherein the indicating, in an explicit manner or an implicit manner in the control information of the first system by the processor, that the data information of the first system comprises the control information used by the second system to send data comprises performing one of:
indicating, in a field in the control information of the first system, by the processor, and using an information field, that the data information of the first system comprises the control information used by the second system to send data; or
indicating, by using an undefined combination or a specific value combination in an existing field, that the data information of the first system comprises the control information used by the second system to send data, wherein the existing field exists in the control information of the first system.
13. The communications node according to claim 10, wherein the radio transceiver is further configured to receive a response message sent by the second communications node, wherein the response message comprises first feedback information in response to the data information of the first system and radio channel quality of the first system, and further comprises second feedback information in response to data information of the second system and radio channel quality of the second system.
14. The communications node according to claim 13, wherein the radio transceiver is further configured to perform one of:
receive a response message that is used to respond to the second system and that is sent by the second communications node using the data channel of the first system, and indicate, in the control information of the first system, that the data information of the first system comprises response information of the second system; or
receive a response message that is used to respond to the second system and is sent by the second communications node using a feedback control channel of the first system.
15. The communications node according to claim 10, wherein the communications node is a one of a base station or a user equipment, and wherein the second communications node is a different one of the base station and the user equipment.
16. A communications node, comprising:
a transceiver, configured to receive control information and data information of a first system that are sent by a second communications node, wherein the data information of the first system comprises control information used by a second system to send data, wherein the control information of the first system comprises indication information indicating that the data information of the first system comprises the control information used by the second system to send data, wherein the first system and the second system are one of systems of different modes, or systems of a same mode that use different resources; and
a processor connected to the transceiver and configured to demodulate and decode, according to the indication information and by using the control information of the second system, received data sent by the second system.
17. The communications node according to claim 16, wherein the transceiver is further configured to send a response message to the second communications node, wherein the response message comprises first feedback information in response to the data information of the first system and radio channel quality of the first system, and further comprises second feedback information in response to data information of the second system and radio channel quality of the second system.
18. The communications node according to claim 17, wherein the transceiver is further configured to perform one of:
send, to the second communications node using a data channel of the first system, a response message used to respond to the second system, and indicate, in the control information of the first system, that the data information of the first system comprises response information of the second system; or
send, to the second communications node by using a feedback control channel of the first system, a response message used to respond to the second system.
19. The communications node according to claim 16, wherein the communications node is one of a user equipment and a base station, and wherein the second communications node is a different one of the user equipment and the base station.