Supports – Props and braces – Vacuum hold-down
Reexamination Certificate
2002-02-19
2003-04-29
Ramirez, Ramon O. (Department: 3632)
Supports
Props and braces
Vacuum hold-down
C248S205500, C248S363000
Reexamination Certificate
active
06554241
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to vacuum devices for attaching objects to a surface, and more specifically to vacuum cups adapted to operate in transient conditions such as on a traveling object, rough surface or vibrating surface.
BACKGROUND OF THE INVENTION
Vacuum devices such as vacuum suction cups or cushions are used on vehicles crawling along a steep slope, along a vertical wall or even along an overhead surface. In this case the attraction force of the vacuum cup has to overcome completely or partially the weight of the vehicle and to provide for some residual force urging the vehicle to the surface.
Another use of the vacuum cups is on road vehicles with the purpose of increasing the force attracting the vehicle to the road surface. This is useful when the available traction force of such vehicle depends on the friction force with the road surface and it is not desirable to increase the Fiction force by increasing vehicle's weight, for example in a relatively light vehicle towing a heavy weight.
A typical vacuum device (suction cup) for a traveling vehicle is described, for example, in U.S. Pat. No. 4,971,591. The device comprises a body
1
mounted to the vehicle
2
and defining a pressure reduction space (vacuum chamber)
3
with effective area S in cooperation with the wall surface
4
, as shown schematically in FIG.
1
. The vacuum chamber
3
is sealed to the surface
4
by a flexible circumferential lip
5
attached to the body
1
, contacting the wall surface
4
and sliding therealong. A vacuum pump
6
reduces the pressure in the chamber to create pressure differential &Dgr;P with the ambient atmospheric pressure outside the chamber (called just “vacuum” hereinafter). The device can adhere to the wall owing to the vacuum that creates a suction force F
U
=&Dgr;P·S. Since the vehicle abuts the wall surface
4
also by other elements suck, as traction wheels
7
, track chains or supports, the suction force is divided into “attaching force” F
A
and “sealing force” F
S
, so that F
S
+F
A
=F
U
. The attaching force F
A
urges the vehicle (the wheels
7
) to the surface
4
while the sealing force F
S
urges the seal
5
to the surface
4
. The higher the vacuum, the higher are the suction force, the sealing force, and the attaching force.
The sealing between the surface and the vacuum cup can never be perfect, therefore always exists some non-uniform leakage into the vacuum chamber, especially when the cup is sliding past the surface. Even in the case when the vacuum cup is designed to slide over a rough surface or at some small clearance with a constant leakage flow, there are perturbations in the leakage level. The non-uniform leakage results in sudden loss of vacuum. In such case, the above-described vacuum cup is prone to “collapse” of the suction force since a small loss of vacuum leads to a loss of the sealing force, further increase of the leakage, her loss of vacuum, etc. With devices designed to operate with small clearance, the same mechanism may also lead to a collapse of the clearance.
In order to cope with the collapse of the suction force, the above vacuum cup has to be operated with a substantial reserve of the vacuum, high sealing force and ensuing high friction in the seal-surface interface, powerful vacuum pump and other features which impair the efficiency of the vacuum device.
U.S. Pat. No. 4,971,591 discloses a vacuum traveling device with a vacuum chamber defined by a bell-like flexible skirt. The lower edge of the skirt contacts the surface and seals the chamber while the upper edge is fixed to a body mounted to a vehicle. On the other side of the body there is a second chamber closed by a flexible dome and connected to the vacuum chamber and to a vacuum pump. The dome is supported by a spring disposed in the second chamber and abutting the body. The dome is mechanically connected to an actuator of the vacuum pump. When the vacuum in the vacuum chamber and in the second chamber is high enough for the operation of the device, the dome partially collapses and compresses the spring. The flexible skirt is pressed against the surface. In this situation the actuator disengages the vacuum pump. Should a loss of vacuum occur, for example due to a local leak under the skirt edge, the spring lifts the dome and actuates the vacuum pump, thereby compensating the loss of vacuum.
U.S. Pat. No. 5,536,199 discloses a vacuum traveling device with a vacuum chamber defined by an inflatable seal, and a sealing-compensating means. A pressure sensor measures the vacuum in the vacuum chamber and, when a loss of vacuum is detected, a microprocessor controller switches a compressor to inflate the seal, thereby increasing the sealing force.
U.S. Pat. No. 3,209,849 discloses a vacuum attraction device for a road vehicle, operating without contact between the vacuum chamber seal and the road surface but maintaining a constant flow of air through a clearance therebetween. The vacuum chamber is arranged in series with an air spring chamber mounted on the vehicle frame. The vacuum pressure and the effective area of both chambers are equal. If the clearance closes a little, the flow therethrough decreases and the vacuum increases. The increased vacuum force between the seal and the surface is compensated by an equally increased force from the vacuum in the air spring chamber. As a result, the sealing force remains stable while the increased vacuum force in the air spring chamber shrinks it a little, withdraws the vacuum chamber and the seal from the surface, and thereby restores the clearance.
SUMMARY OF THE INVENTION
In accordance with the present invention, there is provided a vacuum device for attaching an object to a surface, either in fixed or in sliding relationship. The device comprises a body element fixable to said object and a piston element connected to the body element along a first sealing contour, thereby defining with the body element a first chamber. The piston element has a protruding sealing lip adapted to contact the surface along a second sealing contour, thereby defining with the surface a second chamber. The two chambers are connected to a source of vacuum, and are preferably in fluid communication with each other. The piston element is movable with respect to the body element by the action of a vacuum created in the first chamber and/or by an external force due to the contact of the sealing lip with the surface. The sealing lip is urged to the surface by a first sealing force due to the action of the vacuum in the second chamber. The first and the second sealing contours have respective projected areas S
1
and S
2
along the direction of motion of the piston element.
The vacuum device further comprises an elastic element or a spring connected to the piston element and the body element so as to deform when the piston element moves with respect to the body element. Thus the spring creates a second sealing force urging the sealing lip towards the surface, and this force is independent of the vacuum in the second chamber.
The vacuum device of tie present invention operates in the following way: the sealing lip is brought in contact with the surface so as to close the second chamber. The source of vacuum creates vacuum &Dgr;P in both chambers, and the piston element moves towards the body element creating a reaction force F
R
in the elastic element, which is the second sealing force. The piston element is urged to the surface by a total sealing force F
S
=F
R
−&Dgr;P·(S
1
-S
2
). The body element, together with the object, is urged to the surface by an attaching force F
A
=&Dgr;P·S
1
−F
R
. In case of a leak through the second sealing contour causing vacuum loss of &dgr;P, the total sealing force changes by &dgr;F
S
=&dgr;P·(S
1
-S
2
). The amount of change &dgr;F
S
may be positive, negative, or zero, depending on the relative value of the areas S
1
and S
2
. Due to the vacuum-independent component F
R
, the total sealing force can not collapse.
In the particular case when S
1
i
Browdy and Neimark , P.L.L.C.
Ramirez Ramon O.
Smart Robotics
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