A tamper proof luer lock connector and a valve arrangement for an adaptor

1 . A connector for connection with a fluid transfer device, said connector comprising: an outer body having a longitudinal axis; luer lock connection port positioned within the outer body and configured to be coupled with an external port of said fluid transfer device, the luer lock connection port being rotatable about the longitudinal axis in a clockwise direction as well as a counter-clockwise direction at least prior to initiation of coupling thereof with the external port; wherein the outer body is structured, and the luer lock connection port is positioned therewithin, such that to prevent an operator to access, through the outer body, directly by fingertips an exterior of the luer lock connection port after the luer lock connection port has been coupled with the external port; and a decoupling facilitating mechanism configured to selectively assume a decoupling disabled state at which it allows rotation of the luer lock connection port about the longitudinal axis thereof at least in the counter-clockwise direction,, and a decoupling enabled state at which it restricts the rotation of the luer lock connection port at least in the counter-clockwise direction so as to allow decoupling of the external port from the luer lock connection port. 2 . (canceled) 3 . The connector according to claim 1 , wherein the luer lock connection port is rotatable about the longitudinal axis in both of the clockwise direction and the counter-clockwise direction upon coupling thereof with the external port. 4 . The connector according to claim 1 , further comprising a coupling facilitating mechanism configured to selectively assume a coupling enabled state at which it restricts the rotation of the luer lock connection port at least in the clockwise direction, and a coupling disabled state at which it allows the rotation of the luer lock connection port at least in the clockwise direction, wherein the coupling facilitating mechanism is configured to assume the coupling enabled state at least during the time when coupling of the luer lock connection port with the external port is under process, wherein the coupling facilitating mechanism, in its coupling enabled state, is configured to allow rotation of the luer lock connection port about the longitudinal axis in a counter-clockwise direction, and wherein the coupling facilitating mechanism, in its coupling disabled state, is configured to allow rotation of he luer lock connection port about the longitudinal axis in a counter-clockwise direction. 5 . (canceled) 6 . (canceled) 7 . (canceled) 8 . The connector according to claim 4 , wherein the luer lock connection port is configured to axially displace along the longitudinal axis between a first position associated with the coupling disabled state, and a second position associated with the coupling enabled state. 9 . The connector according to claim 8 , wherein the luer lock connection port is configured to freely displace from the first position to the second position upon application of a pushing or pulling force by the external port during the coupling. 10 . The connector according to claim 8 , wherein the coupling facilitating mechanism comprises at least one locking member mounted on an external surface of the luer lock connection port and at least one arresting member mounted on an internal surface of the outer body, wherein at the second position, the locking member engages with the arresting member thereby restricting the rotation of the luer lock connection port at least in the clockwise direction, wherein at the first position, the locking member disengages from the arresting member. 11 . The connector according to claim 1 , wherein the outer body comprises a sidewall with at least one opening formed therein and configured to be used in conjunction with said decoupling facilitating mechanism so as to provide access to an external surface of the luer lock connection port at least at said decoupling enabled state, wherein the decoupling facilitating mechanism comprises an actuator at least partially positioned in the opening, the actuator having an actuator internal surface facing the luer lock connection port and an opposite actuator external surface, the decoupling facilitating mechanism being configured to assume the decoupling enabled state upon application of a pressing force on the actuator, and the decoupling disabled state upon removal of said force. 12 . (canceled) 13 . (canceled) 14 . (canceled) 15 . The connector according to claim 11 , wherein at the decoupling enabled state, a minimum distance between the longitudinal axis and the actuator external surface is lesser than a minimum distance between the longitudinal axis and an external surface of a rim of the opening. 16 . The connector according to claim 11 , wherein at the decoupling enabled state, at least a majority of the actuator external surface is positioned below an imaginary surface defined by a rim of the opening. 17 . The connector according to claim 11 , wherein the actuator has a first portion extending from the outer body, and a second portion extending from the first portion, wherein the first portion forms a part of the outer body, wherein the first portion and the second portion constitute a lever. 18 . (canceled) 19 . The connector according to claim 11 , wherein the decoupling mechanism comprises a first engaging portion constituting a part of an external surface of the luer lock connection port, and a second engaging portion constituting a part of the actuator internal surface, wherein at the decoupling enabled state, the first engaging portion engages with the second engaging portion thereby restricting the rotation of the luer lock connection port at least in the counter-clockwise direction wherein at the decoupling disabled state, the first engaging portion disengages from the second engaging portion. 20 . (canceled) 21 . The connector according to claim 19 , wherein the first engaging portion comprises at least one protrusion formed on the external surface of the luer lock connection port, and the second engaging portion comprises at least one tooth projecting from the actuator internal surface, wherein at the decoupling enabled state, the at least one tooth engages with the at least one protrusion thereby restricting the rotation of the luer lock connection port at least in the counter-clockwise direction. 22 . The connector according to claim 21 , wherein the actuator is configured to be pressed only when the at least one protrusion is radially displaced with respect to the at least one tooth. 23 . The connector according to claim 21 , wherein the at least one protrusion has a protrusion side surface extending from the external surface of the luer lock connection port towards the actuator, and the at least one tooth has a tooth side surface extending from the actuator internal surface towards the luer lock connection port, wherein at the decoupling enabled state, the tooth side surface engages the protrusion side surface, wherein at the decoupling disabled state, the at least one tooth disengages from the at least one protrusion. 24 . (canceled) 25 . The connector according to claim 7 , wherein the luer lock connection port is configured to axially displace along the longitudinal axis into a third position, wherein the third position is the first position, or any position between the first position and the second position or