The present invention relates to strapping machine. More particularly this invention concerns pneumatic strapping machine of the type that is typically suspended from a tool balancer.
A standard pneumatic combination-type strapping machine typically comprises a tensioner for pulling a strap tight about an object and a sealer/cutter for crimping a seal on the overlapping portions of the strap or for crimping the overlapping portions together and cutting them from the strap supply. It is standard for such a device to be pneumatically powered, as the force necessary for tensioning and sealing is considerable, so that the equipment houses an air-powered motor.
In order to be able to close the device around the free end of the strap wrapped around the object and the overlying portion of strap extending from the supply coil, it is standard to make the strapping machine of two relatively pivotal parts, a housing and a handle. The handle normally holds the pneumatic motor and can pivot between an open and closed position on the housing. Since the motor must be supplied with gas under pressure, the standard system typically has a quick-connect plug at the outer end of the handle. Air thus flows inward from this plug through the motor when a valve in the device is actuated, and then flows back out to the handle outer end whence it is exhausted to the atmosphere. The outer end of the handle holds the motor, which basically comprises a rotor impeller that is set in rotation as pressurized gas moves axially inward through it, and the inner end of the handle holds a transmission that converts the high-speed low-torque rotation of the motor into low-speed high-torque rotation of a shaft that operates the sealer and/or tensioner situated near the inner handle end.
When such a tool, which can be fairly heavy, is suspended from a standard tool balancer, typically constituted as a cable suspended from an overhead windup device that is set to apply an upward force on the cable equal to the tool weight, the device can be moved about below the windup device with relative ease. To this end the heavy housing is provided with a mount or eye to which the lower end of the balancer cable is connected. The air hose for the tool also normally is attached to this cable, but diverges from the cable near its lower end so that it can be connected to the outer end of the handle. Such an installation is clumsy in the extreme as the user must wrestle with the air hose and balancer cable, making it difficult to handle and position the tool.
It is therefore an object of the present invention to provide an improved pneumatic strapping machine.
Another object is the provision of such an improved pneumatic strapping machine which overcomes the above-given disadvantages, that is which is convenient to use even when suspended from an overhead balancer cable or chain.
A strapping machine has according to the invention a housing, a mount on the housing attachable to an overhead balancer line, tensioning and sealing devices in the housing, and an elongated handle pivotal about an axis on the housing between an open position and a closed position and having an outer end remote from the axis and an inner end close to the axis. The inner end of the handle is formed with an annular inlet passage and a radially throughgoing inlet port opening into the inlet passage. The handle also is formed with axially extending passages extending from the inlet passage to the outer handle end. A pneumatic motor in the outer handle end is connected to a transmission in the inner end of the handle in turn connected to the tensioning and sealing devices in the housing. An inlet fitting on the housing is connectable to a compressed-air supply line. A conduit has one end connected to the housing and communicating with the inlet fitting and an opposite end opening radially inward into the inlet port of the handle so that compressed air from the inlet fitting can flow through the conduit and the inlet port to the inlet passage and thence via the axial passages to the motor to power same. The outer handle end is formed with an outlet opening for venting air from the motor.
Thus according to the instant invention the air-supply hose or line does not extend from the outer end of the handle, but instead extends from the fitting on the housing. According to the invention this fitting can be juxtaposed with the balancer-line mount and can even be aligned with its center, so that the combined balancer line and air hose follow similar paths and offer no hindrance to using the machine. Indeed the machine is as easy to use as if it had no air-supply line at all.
According to the invention the axial passages are formed by axially extending and radially inwardly open grooves in the handle and by an outer surface of the transmission radially inwardly closing the grooves. The handle is formed at the outer handle end with an annular outlet passage into which the axially extending grooves open and that in turns opens into the motor. A seal compressed radially between the rotor and an inner surface of the handle is positioned between the outlet passage and the inner handle end. This is an extremely compact construction that nonetheless serves to conduct the air from the inner handle end past the transmission to the inner inlet end of the motor, whence the air escapes through the vent ports on the handle outer end. To this end the handle has at its outer end an end cap formed with the outlet opening or openings, and is provided internally with sound-deadening material forming a muffler in the cap between the cap and the rotor.
The conduit in accordance with the invention is fixed on the handle and the one end of the conduit is rotatably connected at the axis to the housing. The machine further has according to the invention a valve block in the housing connected between the inlet fitting and the one end of the conduit. This conduit has one end extending parallel to and offset from the axis and fixed to the handle and another end on the axis and rotatably seated at the axis in the valve block. The one arm is provided with a flow-adjusting valve, typically formed as a standard flow-restricting screw that is screwed in to reduce the flow cross section of the conduit and screwed out to increase it.
The above and other objects, features, and advantages will become more readily apparent from the following description, reference being made to the accompanying drawing in which:
As seen in
Both the sealer 8 and the tensioner 9 are powered by a drive 10 mainly incorporated in the pivotal handle 5. According to the invention the housing 1 carries near the balancer eye 3 an inlet fitting constituted as a standard quick-connect plug 11 for a pneumatic hose indicated by a dashed line schematically at 29 and normally attached to the balancer line 4. This inlet plug 11 is connected with a valve assembly 12 in the housing 1 that is operated by buttons 13 and 14 on the housing 1 for operating the sealer 8 and tensioner 9.
Further in accordance with the invention and as shown in
The drive 10 in the basically cylindrical handle 5 comprises as shown in
Number | Date | Country | Kind |
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203 04 966 U | Mar 2003 | DE | national |
103 30 033 | Jul 2003 | DE | national |
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Number | Date | Country |
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20206275 | Sep 2002 | DE |
Number | Date | Country | |
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20040187949 A1 | Sep 2004 | US |