1. Field of the Invention
The invention relates to hydraulic operations and in particular, to a remote control device for attachment to hydraulically operated equipment.
2. Background of the Related Art
Cranes are often used to lift hydraulically operated equipment. To operate the hydraulic equipment, hydraulic fluid lines are attached to the equipment and extend for example, from a hydraulic control device on the ground to a point of attachment on the hydraulic equipment. When the hydraulic equipment is suspended from the crane, the hose extends from the ground up to the equipment.
As shown in
The present invention is directed to overcoming the above-identified problems of the background art. One embodiment of the invention is an apparatus for remotely actuating a hydraulic motor of a hydraulic device including a mounting device supported by the hydraulic device; a hydraulic pump located on the mounting device for supplying pressurized fluid to the hydraulic motor; a driving device located on the mounting device for driving the hydraulic pump; and a control device located on the mounting device, the control device includes a receiver for receiving a control signal to operate the driving device. The apparatus permits the hydraulic motor of the hydraulic device to be remotely controlled by the control signal. Further, the hydraulic device may be a bottom-dumping container.
The apparatus may also include a wireless transmitter located remotely from the receiver for sending the control signal to the receiver, whereby the hydraulic device may be remotely controlled by the control signal from the transmitter. Further, the hydraulic motor may be a hydraulic cylinder, which opens a door of a container to dump contents from the container.
The driving device may be an electric motor for driving the hydraulic pump; and the electrical power source may be a battery. Additionally, the mounting device may be an enclosure that encloses the hydraulic pump, the driving device and the control device.
A second embodiment of the present invention includes a system to operate a device suspended from a crane. The system includes a pump for pumping fluid to a hydraulic cylinder on the device; a power source for providing power to the pump; a controller electrically connected to the pump and including a receiver for receiving a control signal for controlling the transmission of power to the pump; and a transmitter for remotely transmitting the control signal to the receiver. Further, the cylinder may open and close a door on the device.
The system may also include an enclosure containing the pump, controller and power source; and a mount connected to an exterior side of the enclosure for connecting the enclosure to the device. The mount may have a planar portion with two rails extending away from the enclosure and forming a point of connection between the enclosure, and a second portion. Further, the enclosure may be made of metal. The system may also include a valve for controlling the direction of flow of fluid between the cylinder and pump, wherein the receiver transmits current to the valve to operate the valve.
A further embodiment of the present invention includes device, such as a hydraulic dumpster, for use when suspended from a crane. The device has a body portion for suspension from the crane; a cylinder for holding hydraulic fluid connected to the body portion; at least a first member movable by hydraulic pressure applied to the cylinder, such as a door, connected to the body portion and the cylinder; a pump, such as a hydraulic pump including a tank and motor, connected to the cylinder for pumping pressurized fluid to the cylinder; a power source for providing power to the pump; a controller connected to the body portion and electrically connected to the pump, the controller including a receiver for receiving a control signal and transmitting power from the power source to the pump based on the control signal; and, a transmitter for remotely transmitting the control signal to the receiver.
The device may also include an enclosure, which may be made of metal, and contains the pump, controller and power source; and a mount connected to an exterior side of the enclosure and body portion. The mount may have a planar portion with two rails extending away from the enclosure and forming a connection between the enclosure and body portion. Additionally, the device may include a valve for controlling the direction of flow of fluid between the cylinder and pump, and the receiver may also operate the valve by transmitting current to the valve.
In addition to the receiver, the device may include a manual switch, which is manually operated to send current from the power source to the pump.
These and other objects of the present invention will become more readily apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus are not limitative of the present invention and wherein:
As shown in
The lid 40 is connected to the cabinet 20 by a hinge 22 or other suitable method well known in the art. As shown in
The lid 40 is also structured to prevent water from entering the cabinet. As shown in
The two hydraulic hose connectors 26 and 27 provide a connection for hoses 66 and 68 to connect to a hydraulic device such as a hydraulic dumpster, clam shell bucket or any other hydraulically operated equipment.
As shown in
As shown in
The mount is connected to the cabinet 20 by a suitable attachment method such as welding or using nuts and bolts. Similarly, the connection of the rails 24 and 44 to the flat areas 50 and 52 of the mount also may be accomplished by a suitable attachment such as welding or the rails and flat area may be formed from a unitary piece of material such as steel or aluminum.
Two hoses 54 and 56 are connected between the hydraulic pump 36 and hydraulic valve 48. Hoses 54 and 56 allow the pump to pump hydraulic fluid through valve 48 and hoses 66 and 68 adjust the pressure in a hydraulic cylinder 19 for operating a hydraulic device connected to the hoses 66 and 68.
As shown in
The power source 28 provides power to operate the devices in the cabinet 20 including the pump 36 and valve 48. In the preferred embodiment, a 12-volt battery is supplied as the power source and a 12-volt motor 33 is used to operate the hydraulic pump 36. However, the voltage level of the power source and battery may be modified to other suitable voltages. Further, other sources of power may be utilized such as solar power or a generator.
As shown in
As shown, in the preferred embodiment, the fuse box has four fuses 38a–38d. However, the number of fuses may be modified depending on the various embodiments.
The output of fuse 38a is received by the manual switch 58, and the output of fuse 38d is received by the remote radio receiver 42. Both the remote radio receiver 42 and manual switch 58 control whether or not power is sent to the hydraulic pump 36 and hydraulic valve 48. However, the remote radio receiver 42 and manual switch 58 differ in the method of activation. For example, the remote radio receiver 42 is activated by a remote control 60 using radio signals, as shown in
As shown in
Each circuit 48T and 48P is activated when a switch 58 or receiver 42 is activated to a particular position allowing current to flow to the respective circuit 48T or 48P. For example, when manual switch 58 is placed into the “open” position c, the manual switch 58 outputs current through port 58o. The outputted current is directed to the relay 47 and circuit 48P which operates the valve 48 as discussed above.
Also, when manual switch 58 is placed into the “closed” position a, the manual switch 58 outputs current through port 58c. The outputted current is directed to the relay 46 and circuit 48T. When the current is received by the circuit 48T, the valve 48 operates as discussed above.
The relays 46 and 47 allow the hydraulic pump 36 to work in cooperation with the valve 48. For example, although a particular valve section 45 or 49 may be in place, the fluid requires force to move through the valve. The pump supplies the force and is activated when the manual switch 58 is in the “closed” position a or the open position c. For example, when the manual switch 58 is in the closed position a, current is output from the manual switch 58 to the pump 36 via relay 46. The pump 36 is also activated when the manual switch 58 is in the open position c and current is sent to the hydraulic pump 36 from the manual switch 58 via the relay 47.
The pump 36 and valve 48 may also be operated when the manual switch 58 is in the “off” position b and a remote control device 60 is used to operate the receiver 42. For example, when the receiver 42 receives a signal from the remote control 60 to open the valve, the receiver 42 sends current through port 42o to circuit 48P. When the current is received by the circuit 48P, the valve 48 operates as described above. Also, the receiver 42 provides current to the corresponding relay 47 so that the pump 36 operates to pump the fluid through the valve 48 to the cylinder 19.
Similarly, when the receiver 42 receives a signal from the remote control device 60 to close the valve, the receiver 42 sends current through port 42c to circuit 48T. When the current is received by the circuit 48T, valve 48 operates as described above. Also, the receiver 42 provides current to the corresponding relay 46 so that the pump 36 operates to pump fluid to the cylinder 19.
As a result of the remote control feature of the cabinet 20 including the receiver 42 working in cooperation with the remote control 60, the need to use a manual switch or control device 18 of the background art at a ground location beneath the crane is eliminated. For example, as shown in
The hydraulic dumpster 1 has two doors 4 and 6, which are hydraulically operated such that an increase in hydraulic pressure on one side of a piston 17 causes the doors 4 and 6 to open and an increase in pressure on the other side of the piston 17 causes the doors 4 and 6 to close. Therefore, pushing an “open” button 50 on the remote control 60 will send a signal to the remote sensor switch 42 to open the doors 4 and 6. As a result, the receiver 42 will output current via port 42o and the valve 48 and pump 36 will function as described above by pushing fluid through the valve 48 through hose 66 to increase pressure in the hydraulic dumpster 1 hydraulic unit and open the doors 4 and 6.
When a user depresses the “closed” button 52 on the remote control 60, the remote control 60 will send a close signal to the receiver 42. The receiver 42 will then send current to the valve 48 and pump 36 via port 42c as described above. As a result, hydraulic fluid will be pumped into cylinder 19 so that piston 17 retracts into the cylinder 19 from the hydraulic dumpster 1 and into the cabinet 20 and hydraulic pump 36 tank, and the doors 4 and 6 of the hydraulic dumpster 1 will close.
The present invention is beneficial in that the ability to remotely control a hydraulically operated device suspended from a crane eliminates the need to run long hoses to the hydraulic device from the ground as shown in
It is envisioned that the preferred embodiment of the present invention is not limited to remote control using a radio frequency remote controller, but also may be controlled by other devices such as an infrared system or internet connection established by wireless telecommunications. Further, although the preferred embodiment described herein primarily refers to controlling a hydraulic device suspended from a crane, the present invention may also be used remotely control a variety of hydraulic devices whether suspended from a crane or not.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.
This application claims priority on provisional Application No. 60/269,334 filed on Feb. 20, 2001, the entire contents of which are hereby incorporated by reference.
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Number | Date | Country | |
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20020121790 A1 | Sep 2002 | US |
Number | Date | Country | |
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60269334 | Feb 2001 | US |