1. A strapping tool for tensioning a strap around a load, adhering the strap onto itself, and cutting a feed end of the strap, comprising:
a body defining a cylinder housing;
a piston disposed within a cylinder in the cylinder housing;
a pneumatic weld motor operably connected to the piston for actuation during a weld cycle to adhere the strap onto itself;
a pneumatic tensioning motor for actuation during a tensioning cycle to tension the strap prior to adhering the strap onto itself; and
a pneumatic module removably mounted to the cylinder housing, the pneumatic module having a compressed gas inlet to the module, a pilot valve in flow communication with the gas inlet for controlling the flow of compressed gas into the module, a tensioning motor valve for controlling compressed gas flow to the tensioning motor, a weld cycle valve for controlling compressed gas flow to the weld motor, a timer and an accumulator in parallel with the weld motor and configured to isolate gas flow to the weld motor upon reaching a predetermined pressure in the accumulator, a tensioning motor valve switch for actuating the tensioning motor to draw tension in the strap, and a pneumatic signal circuit disposed between the cylinder and a bleed valve, the pneumatic signal circuit including a signal valve, wherein actuation of the tensioning motor valve switch actuates the tensioning motor to draw tension in the strap and subsequent actuation of the weld cycle valve initiates the weld cycle to adhere the strap onto itself, and wherein the signal valve controls movement of the bleed valve to route gas to the tensioning motor to maintain tension in the strap following the weld cycle and to release tension in the strap in a timed manner.
2. The strapping tool in accordance with claim 1 including a weld cycle switch for actuating the weld cycle valve and a tensioning motor switch for actuating the tensioning motor valve.
3. The strapping tool in accordance with claim 1 wherein the module is self-contained.
4. The strapping tool in accordance with claim 1 wherein the timer and the accumulator isolate gas flow to the pilot valve upon reaching a predetermined pressure in the accumulator.
5. The strapping tool in accordance with claim 1 including a timer disposed between the weld motor and the piston cylinder to delay venting of the piston cylinder following isolation of gas flow into the piston cylinder.
6. The strapping tool in accordance with claim 1 wherein the tensioning motor valve is biased to close the valve to isolate flow to the tensioning motor, and wherein compressed gas is introduced to the tensioning motor valve to assist the bias to close the valve.
7. The strapping tool in accordance with claim 1 wherein the weld cycle valve is biased to close the valve to isolate flow to the weld motor, and wherein compressed gas is introduced to the weld cycle valve against the bias to maintain the valve in an open condition.
8. A pneumatic module for a strapping tool for tensioning a strap around a load, adhering the strap onto itself, and cutting a feed end of the strap, the strapping tool having a cylinder housing, a piston disposed within a cylinder in the cylinder housing, a pneumatic weld motor operably connected to the piston for actuation during a weld cycle to adhere the strap onto itself, a pneumatic tensioning motor for actuation during a tensioning cycle to tension the strap prior to adhering the strap onto itself, the pneumatic module comprising:
a body removably mounted to the cylinder housing;
a compressed gas inlet carried by the body;
a pilot valve in flow communication with the gas inlet for controlling the flow of compressed gas into the module;
a tensioning motor valve for controlling compressed gas flow to the tensioning motor;
a weld cycle valve for controlling compressed gas flow to the weld motor;
a timer and an accumulator in parallel with the weld motor and configured to isolate gas flow to the weld motor upon reaching a predetermined pressure in the accumulator;
a tensioning motor valve switch for actuating the tensioning motor to draw tension in the strap; and
a pneumatic signal circuit disposed between the cylinder and a bleed valve, the pneumatic signal circuit including a signal valve, wherein actuation of the tensioning motor valve switch actuates the tensioning motor to draw tension in the strap and subsequent actuation of the weld cycle valve initiates the weld cycle to adhere the strap onto itself, and wherein the signal valve controls movement of the bleed valve to route gas to the tensioning motor to maintain tension in the strap following the weld cycle and to release tension in the strap in a timed manner.
9. The pneumatic module in accordance with claim 8 including a weld cycle switch for actuating the weld cycle valve and a tensioning motor switch for actuating the tensioning motor valve.
10. The pneumatic module in accordance with claim 8 wherein the module is self-contained.
11. The pneumatic module in accordance with claim 8 wherein the timer and the accumulator isolate gas flow to the pilot valve upon reaching a predetermined pressure in the accumulator.
12. The pneumatic module in accordance with claim 8 including a timer disposed between the weld motor and the piston cylinder to delay venting of the piston cylinder following isolation of gas flow into the piston cylinder.
13. The pneumatic module in accordance with claim 8 wherein the tensioning motor valve is biased to close the valve to isolate flow to the tensioning motor, and wherein compressed gas is introduced to the tensioning motor valve to assist the bias to close the valve.
14. The pneumatic module in accordance with claim 8 wherein the weld cycle valve is biased to close the valve to isolate flow to the weld motor, and wherein compressed gas is introduced to the weld cycle valve against the bias to maintain the valve in an open condition.
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 making a wire-stranded hollow coil body comprising a multitude of coil line elements stranded along a predetermined circular line to form a flexible linear metallic tube having a central axial hollow portion, the method comprising steps of:
clamping one end of a primary forming flexible linear metallic tube by means of a rotationally active chuck, and arranging the other end of said primary forming flexible linear metallic tube to be slidable in its lengthwise direction, and clamping said other end by a fixture chuck to impart a tensile force with said primary forming flexible linear metallic tube; and
actuating said rotationally active chuck to strand said primary forming flexible linear metallic tube, and concurrently or thereafter heat treating said primary forming flexible linear metallic tube to remove a residual stress upon forming said coil line elements by electrically conducting between said rotationally active chuck, and thereafter withdrawing an elongated core from said primary forming flexible linear metallic tube to provide an axial hollow portion in which said elongated core is placed.
2. A method of making a wire-stranded hollow coil body comprising a multitude of coil line elements stranded along a predetermined circular line to form a flexible linear metallic tube having a central axial hollow portion, the method comprising steps of:
clamping one end of a primary forming flexible linear metallic tube by means of a rotationally active chuck, and clamping mid-portions of said primary forming flexible linear metallic tube by means of mid-clamps, and stranding said primary forming flexible linear metallic tube in different strand turns depending on spans between said rotationally active chuck and each of said mid-clamps, and thereafter withdrawing an elongated core from said primary forming flexible linear metallic tube to provide an axial hollow portion in which said elongated core is placed.
3. A method of making a wire-stranded hollow coil body comprising a multitude of coil line elements stranded along a predetermined circular line to form a flexible linear metallic tube having a central axial hollow portion, the method comprising steps of:
concurrently or after stranding a primary forming flexible linear metallic tube, accommodating lengthwisely divided sections of the primary forming flexible linear metallic tube into heating devices, each of which has a different heating condition depending on said lengthwisely divided sections, so as to heat treat said pluralistically divided sections individually to have residual stresses removed in different degrees, and thereafter withdrawing an elongated core from said primary forming flexible linear metallic tube to provide an axial hollow portion in which said elongated core is placed.