1. A power tool having a clamping device for a working element, comprising:
an output shaft for driving the working element;
a fastening piece having a flange portion for clamping the working element and a protruding shaft substantially perpendicular to the flange portion;
a locking assembly comprising a locking member, the locking member having a first position in which the protruding shaft is locked and a second position in which the protruding shaft is loosened;
a pressing member comprising a biasing element acting on the pressing member for biasing the pressing member toward the flange portion, wherein the working element can be pressed between the pressing member and the flange portion when the locking member is in the first position; and
an operation device for moving the pressing member toward a direction to overcome the force exerted by the biasing element.
2. The power tool having the clamping device for the working element according to claim 1, wherein the locking member can move between the first position and the second position and the locking member moving direction is substantially perpendicular to the protruding shaft.
3. The power tool having the clamping device for the working element according to claim 2, wherein the power tool further comprises a movable device for moving the locking member.
4. The power tool having the clamping device for the working element according to claim 3, wherein the movable device is partially arranged on the pressing member.
5. The power tool having the clamping device for the working element according to claim 4, wherein the locking assembly further comprises:
an intermediate element that can abut against on the locking member, and the pressing member is provided with a first position (A) and a second position (B), and there is a height difference between the first position (A) and the second position (B) in the radial direction perpendicular to the protruding shaft, and the intermediate element is selectively placed on the first position A or the second position (B).
6. The power tool having the clamping device for the working element according to claim 5, wherein the intermediate element is a steel ball or a cylindrical pin.
7. The power tool having the clamping device for the working element according to claim 6, wherein the radial height difference between the first position (A) and the second position (B) on the pressing member is configured as at least one of a stepped plane or a groove.
8. The power tool having the clamping device for the working element according to claim 1, wherein the biasing element comprises a first spring.
9. The power tool having the clamping device for the working element according to claim 1, wherein the operation device comprises a lever element rotatable about a pivot shaft, and one end of the lever element abuts against a cam spanner and the other end thereof selectively abuts against an actuating portion provided on the pressing member.
10. The power tool having the clamping device for the working element according to claim 1, wherein the operation device comprises a rotatable shaft and an operation element for rotating the rotatable shaft about the axis thereof, and the rotatable shaft is provided with an eccentric convex surface which can selectively abut against or disengage from the actuating portion arranged on the pressing member.
11. The power tool having the clamping device for the working element according to claim 1, wherein the locking member and the protruding shaft are respectively provided with formed locking structures for matching with each other.
12. The power tool having the clamping device for the working element according to claim 11, wherein the formed locking structures comprise a toothed portion arranged on the protruding shaft and a matching toothed portion arranged on the locking member.
13. The power tool having the clamping device for the working element according to claim 12, wherein an elastic element acts on the locking member and biases the locking member toward a direction (D) in which the protruding shaft is inserted into a cavity.
14. The power tool having the clamping device for the working element according to claim 1, wherein a projection is formed on an end surface mated with the flange portion.
15. The power tool having the clamping device for the working element according to claim 1, wherein the power tool further comprises a disengagement-proof element for preventing the protruding shaft from falling out of the cavity.
16. The power tool having the clamping device for the working element according to claim 1, wherein the locking assembly further comprises:
a locking shaft connected with the output shaft, the locking shaft being provided with a first groove mated with the locking member, wherein the locking member is at a first end of the first groove when the locking member is at a first position to lock the protruding shaft; and
the locking member is at a second end of the first groove when the locking member is at a second position to loosen the protruding shaft.
17. The power tool having the clamping device for the working element according to claim 16, wherein a slidable sleeve is enclosed outside of the locking shaft and is provided with a second groove which is mated with the locking member and drives the locking member to move between the first end and the second end.
18. The power tool having the clamping device for the working element according to claim 17, wherein a second spring acts on the slidable sleeve, and the pressing member can abut against the slidable sleeve such that the slidable sleeve moves in a direction to overcome the spring force of the second spring.
19. The power tool having the clamping device for the working element according to claim 16, wherein the power tool further comprises an operation spanner which cooperates with the biasing element such that the pressing member moves along the direction of the axis of the output shaft.
20. The power tool having the clamping device for the working element according to claim 19, wherein the operative spanner contacts with or disengages from the pressing member selectively.
21. The power tool having the clamping device for the working element according to claim 20, wherein the operation spanner is hinged to a housing of the power tool.
22. The power tool having the clamping device for the working element according to claim 20 wherein an elastic support is arranged between the operation spanner and the housing of the power tool.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
What is claimed is:
1. A method for performing an electronic card enabled transaction in a point of sale (POS) system having a self-service facility electronically connected to a card authorization center via a public network, the self-service facility including a card transaction terminal, the method comprising the acts of:
(a) requesting an approval-before-the-transaction (ABCT) of the authorization center for setting a virtual transaction amount (VTA) at the self-service facility;
(b) determining whether the transaction is valid or not by validating the card and a corresponding account at the authorization center;
(c) approving the VTA if it has been determined that the card and account are valid and responsively sending an approval signal to the self-service facility;
(d) executing the transaction at the self-service facility on the basis of the approval signal if the VTA is approved;
(e) requesting an approval-after-the-card-transaction (AACT) of the authorization center for setting an actual transaction amount (ATA) on the basis of the actual executed transaction;
(f) revalidating the VTA into the ATA at the authorization center and sending a confirmation signal to the self-service facility; and
(g) initializing the self-service facility for a next transaction and issuing a receipt for the actual executed transaction.
2. The method of claim 1 wherein the VTA is a maximum anticipated transaction amount which can be set for a particular one-time transaction.
3. The method of claim 2 wherein the maximum anticipated transaction amount is determined by attributes of an item or service to be provided in the transaction.
4. The method of claim 3 wherein the item or service is one for which a payment amount can not be determined before the actual transaction is executed.
5. The method of claim 3 wherein the attributes comprise at least one of: a physical amount of the item; availability of the item or service; and a service time.
6. The method of claim 1 further comprising, before said act (a), the acts of:
reading the card in the card transaction terminal of the self service facility; and
identifying a user using a entered personal identification number.
7. The method of claim 1 further comprising the acts of:
denying the VTA if it has been determined that one of the card and account are invalid; and
responsively sending an approval failure signal to the self-service facility.
8. The method of claim 1 further comprising canceling the ABCT for the VTA after one of act (a), (b), and (c).
9. The method of claim 1 wherein the ATA is prevented from exceeding the VTA.
10. A method for performing an electronic card enabled transaction in a point of sale (POS) system having a self-service facility electronically connected to a card authorization center via a public network, the self-service facility including a card transaction terminal, the method comprising the acts of:
(a) requesting an approval-before-the-transaction (ABCT) of the authorization center for setting a virtual transaction amount (VTA) at the self-service facility;
(b) validating the card and a corresponding account at the authorization center;
(c) approving the VTA if it has been determined that the card and account are valid and responsively sending an approval signal to the self-service facility, the approved VTA being the lesser of: (1) a target VTA related to anticipated parameters of the transaction; and (2) a value related to an available amount in said account;
(d) executing the transaction at the self-service facility on the basis of the approval signal if the VTA is approved and including restricting such execution to prevent an actual transaction amount (ATA) from exceeding the approved VTA;
(e) requesting an approval-after-the-card-transaction (AACT) of the authorization center for setting the ATA on the basis of the actual executed transaction; and
(f) initializing the self-service facility for a next transaction and issuing a receipt for the actual executed transaction.