Hemostasis clip reduced length deployment mechanism

What is claimed is: 1. A clipping device, comprising: a clip including a capsule and a pair of clip arms, each proximal end of the clip arms being slidably received within the capsule and including an opening extending therethrough; a flexible member extending from a proximal end remaining outside of a living body to a distal end including a bushing; a tension member including a pair of fingers and a pair of protrusions, the protrusions extending from opposing surfaces thereof and being configured to be received within the openings of the proximal ends of the clip arms to maintain a desired alignment between the clip arms; and a yoke attached to a distal end of a control member so that movement of the control member within the flexible member moves the yoke relative to the capsule so that the clip arms move between an open configuration and a closed configuration, the yoke releasably receiving the pair of fingers therein such that, when a predetermined force is exerted on the control member, the pair of fingers are flexed together disengaging the tension member from the yoke and deploying the clip. 2. The device of claim 1 , wherein an exterior surface of each of the fingers is rounded and each of the fingers is received in a corresponding rounded recess at a distal end of the yoke so that each of the fingers is retained within the corresponding rounded recess until the clip is deployed. 3. The device of claim 1 , wherein a proximal end of the capsule includes tabs biased radially inward to engage a corresponding structure of the bushing, the yoke being configured to move the tabs radially outward as the distal end of the control member is moved proximally past a proximal end of the capsule to separate the clip from the tension member. 4. The device of claim 1 , wherein the yoke includes a pair of overhangs extending distally from a proximal end thereof so that locking structures at the proximal ends of the clip arms are constrained between a central portion of the yoke and the overhangs. 5. The device of claim 4 , wherein the proximal ends of the clip arms are biased radially outward so that, when held between the central portion of the yoke and the overhangs, the locking structures at the proximal ends of the clip arms are prevented from engaging corresponding locking features of the capsule. 6. The device of claim 5 , wherein the locking structures include locking tabs extending from the proximal ends of the clip arms and the locking features of the capsule include receptacles formed within a wall of the capsule so that, when the proximal ends of the clip arms are no longer constrained by the overhangs, each of the locking tabs springs outward to lock within one of a plurality of locking windows locking the clip in the closed configuration. 7. The device of claim 1 , wherein each of the clip arms includes an engaging feature configured to engage a corresponding portion of the capsule such that, when the engaging features engage the capsule, the clip arms are prevented from moving further proximally relative to the capsule. 8. A clipping device, comprising: a clip including a capsule and a pair of clip arms, each proximal end of the clip arms being slidably received within the capsule and including an opening extending therethrough; a flexible member extending from a proximal end remaining outside of a living body to a distal end including a bushing; and a yoke attached to a distal end of a control member so that movement of the control member within the flexible member moves the yoke proximally and distally relative to the capsule moving the clip arms between an open configuration in which distal ends of the clip arms are extended distally out of the capsule and separated from one another and a closed configuration in which the clip arms are drawn proximally into the capsule so that the capsule forces the distal ends of the clip arms toward one another, the yoke including a pair of protrusions extending from opposing surfaces thereof, each of the protrusions being configured to be received within a corresponding one of the openings in the proximal ends of the clip arms to maintain a desired alignment between the clip arms, wherein the yoke is configured to separate when a predetermined force is exerted thereon to deploy the clip. 9. The device of claim 8 , wherein the yoke includes slots extending from a distal end of the yoke along opposing sides of the protrusions to define a stress concentration neck along which the yoke is configured to separate during deployment of the clip. 10. The device of claim 8 , wherein the yoke includes slots extending through the protrusions proximate the opposing surfaces of the yoke so that, when the predetermined force is exerted thereon, the protrusions are sheared off releasing the clip arms from the control member. 11. The device of claim 8 , wherein a proximal end of the capsule includes tabs biased radially inward to engage a corresponding structure of the bushing, the yoke being configured to move the tabs radially outward as the distal end of the control member is moved proximally past the proximal end of the capsule to separate the clip from the bushing. 12. The device of claim 8 , wherein the yoke includes overhangs extending distally from a proximal end thereof so that the proximal end of each of the clip arms is constrained between a central portion of the yoke and the overhangs in an unlocked configuration. 13. The device of claim 12 , wherein the proximal ends of the clip arms are biased radially outward and wherein the clip arms are held in the unlocked configuration by the overhangs so that locking structures at the proximal ends of the clip arms are prevented from engaging corresponding locking features of the capsule. 14. The device of claim 13 , wherein the locking structures include locking tabs extending from the proximal ends of the clip arms and the locking features of the capsule include receptacles formed in a wall of the capsule so that, when the proximal ends of the clip are released from the distal end of the control member, each of the locking tabs is received within a corresponding one of a plurality of locking windows locking the clip in the closed configuration. 15. The device of claim 8 , wherein the clip arms include engaging features configured to engage a portion of the capsule such that, when the engaging features engage the capsule, the clip arms are prevented from moving further proximally relative to capsule. 16. A method for treating target tissue, comprising: inserting a clip device through a working channel of an endoscope to a site adjacent to target tissue within a living body until a clip of the clip device extends distally past a distal end of the working channel, the clip device including a capsule and a pair of clip arms, each proximal end of the clip arms including an opening extending therethrough, a flexible member extending from a proximal end remaining outside of the living body to a distal end including a bushing, and a tension member including a pair of fingers and a pair of protrusions, the protrusions extending from opposing surfaces thereof to be received within the openings of the proximal ends of the clip arms to maintain an alignment between the clip arms; moving the clip device between an open configuration and a closed configuration via a control member until the target tissue is received between the clip arms, a distal end of the control member being coupled to the proximal ends of the clip arms via a yoke releasably receiving the fingers of the tension member therein; drawing the clip arms proximally into t