1. A brake pipe tee, comprising
a first and second port for interconnection to a brake pipe;
a third port for interconnection to a branch pipe;
a housing defining a predetermined volume in fluid communication with said first and second ports.
2. The brake pipe tee of claim 1, wherein said housing is dimensioned so that said predetermined volume increases the effective length of the brake pipe to at least 45 feet.
3. The brake pipe tee of claim 1, further comprising a flange associated with said first and second ports that are dimensioned to connect to flanges of said brake pipe.
4. The brake pipe tee of claim 4, further comprising a third flange associated with said second port that is dimensioned to connect to a flange of said branch pipe.
5. The brake pipe of claim 1, wherein the first port has an internal diameter of 1.25 inches.
6. The brake pipe of claim 6, wherein the second port has an internal diameter of 0.75 inches.
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 charging system for a power tool, comprising:
a lithium ion battery, wherein the lithium ion battery is provided with a lithium ion battery cell;
a charger comprising a quick-charging mode for charging the lithium ion battery and a normal-charging mode for charging the lithium ion battery, wherein the lithium ion battery cell can be charged using one of the quick-charging mode with a charging current equal to or greater than 4.5 A and the normal-charging mode with a charging current less than that of the quick-charging mode; and,
a control circuit to switch charging modes, in response to a trigger signal from a control switch, via a mode selection circuit that selectively enters into one of the quick-charging mode and the normal-charging mode in response to a control signal sent from the control circuit wherein in the quick-charging mode, the battery has a first allowable highest temperature, a first charging time and a first allowable highest voltage and in the normal-charging mode, the battery has a second allowable highest temperature, a second charging time and a second allowable highest voltage, and wherein the second allowable highest temperature is greater than the first allowable highest temperature, the second charging time is greater than the first charging time and the second allowable highest voltage is greater than the first allowable highest voltage; and,
wherein the control circuit deactivates the quick-charging mode when one of the following conditions occur: (i) the battery temperature reaches the first allowable highest temperature; (ii) the battery charging time reaches the first charging time; or (iii) the battery voltage reaches the first allowable highest voltage.
2. The charging system according to claim 1, wherein the quick-charging current is at least 6 A.
3. The charging system according to claim 2, wherein the quick charging mode is preset with a first charging time of approximately 3 minutes within which the lithium ion battery can be charged to approximately 25% capacity.
4. The charging system according to claim 1, wherein a charging condition set by the quick-charging mode is that the first allowable highest temperature of the battery is 40\xb0 C. and the first highest voltage of the battery is 12V.
5. The charging system according to claim 1, wherein the charging system further comprises an indicating device for indicating whether the battery is in the quick-charging mode.
6. The charging system according to claim 5, wherein the indicating device is the control switch with backlight.
7. The charging system according to claim 1, wherein the charging modes can also be controlled to switch automatically by the charging system according to the temperature and voltage value detected by a temperature-detecting circuit and a voltage-detecting circuit.
8. The charging system according to claim 1, wherein the control switch is a key-press type.
9. The charging system according to claim 1, wherein the charging system further comprises a display device for displaying the state of the normal-charging mode.
10. The charging system according to claim 1, wherein the lithium ion battery has a nominal voltage of 12V and the single lithium ion battery cell has a nominal voltage of 4V.
11. The charging system according to claim 1, wherein the lithium ion battery is provided with one lithium ion battery cell.
12. The charging system according to claim 1, wherein the lithium ion battery is provided with a plurality of lithium ion battery cell.
13. A charging system for a power tool, comprising:
a lithium ion battery;
a charger comprising a charging circuit;
the charging circuit having a quick-charging mode in which the battery is charged with a first current I1 and a normal-charging mode in which the battery is charged with a second current I2; and
the charging circuit further comprising a control circuit to control the switching of the charging modes via a mode selection circuit that selectively enters into the quick-charging mode or the normal-charging mode according to a control signal sent from the control circuit, wherein the control circuit receives a trigger signal generated by a control switch on an operation panel, wherein in the quick-charging mode, the battery has a first allowable highest temperature, a first charging time t1 and a first allowable highest voltage and in the normal-charging mode, the battery has a second allowable highest temperature, a second charging time t2 and a second allowable highest voltage, and wherein the second allowable highest temperature is greater than the first allowable highest temperature, the second charging time t2 is greater than the first charging time t1 and the second allowable highest voltage is greater than the first allowable highest voltage; and,
wherein the control circuit deactivates the quick-charging mode when either the battery temperature reaches the first allowable highest temperature or, the battery charging time reaches the first charging time t1, or the battery voltage reaches the first allowable highest voltage.
14. The charging system according to claim 13, wherein the first current I1 is greater than the second current I2.
15. The charging system according to claim 13, wherein the charging circuit further comprises an indicating circuit for indicating a charging state, a charging mode state, an abnormal state.
16. The charging system according to claim 13, wherein the charging circuit further comprises a temperature-detecting circuit and a voltage-detecting circuit for detecting a temperature and voltage of the battery and transmitting the detected values to the control circuit, the control circuit receives and processes information from the temperature-detecting circuit and the voltage-detecting circuit and other information received from the operation panel to control the charging mode of the charging circuit and transmit the current state information to the indicating circuit.
17. The charging system according to claim 13, wherein the charging circuit further comprises a charging conversion circuit connected to the battery for converting the AC electrical source to a DC electrical source according to the charging mode sent by the mode selection circuit to charge the battery.
18. The charging system according to claim 16, wherein the charging system detects the current temperature and voltage value of the battery via the temperature-detecting circuit and the voltage-detecting circuit to control an automatic switching charging mode.
19. The charging system according to claim 13, wherein the control switch is a key-press type.
20. The charging system according to claim 17, wherein the charging conversion circuit comprises an AC-DC input circuit, a DC-DC power supply circuit connected with the AC-DC input circuit, and a DC voltage output circuit connected with the DC-DC power supply circuit.
21. The charging system according to claim 13, wherein the first current I1 is at least 4.5 A.
22. The charging system according to claim 21, wherein the quick-charging mode is preset with a first charging time t1 close to 3 minutes within which the battery can be charged to approximately 25% capacity.
23. The charging system according to claim 13, wherein charging system further comprises an indicating device to indicate when the quick-charging mode is finished.