A coupler for coupling an attachment to an excavator having a latching member for retaining a rear pin of the attachment and a blocking member for retaining the front pin of the attachment. A hydraulic actuator and spring are provided for holding the latching and blocking members in their closed sta
A coupler for coupling an attachment to an excavator having a latching member for retaining a rear pin of the attachment and a blocking member for retaining the front pin of the attachment. A hydraulic actuator and spring are provided for holding the latching and blocking members in their closed states. In the event of a failure of the actuator, the spring, the latching member and the blocking member together hold the front and rear pins in their respective recesses to allow continued operation of the coupler, while allowing the pins to move with respect to the coupler to create a rattling movement that can indicate to the operator that a failure has occurred.
대표청구항▼
1. A coupler for coupling with an attachment, the coupler comprising a body having a first and second spaced-apart recesses for receiving respective pins of said attachment; a latching member movable into and out of a latching state in which it is capable of retaining the respective attachment pin i
1. A coupler for coupling with an attachment, the coupler comprising a body having a first and second spaced-apart recesses for receiving respective pins of said attachment; a latching member movable into and out of a latching state in which it is capable of retaining the respective attachment pin in said first recess; actuating means for actuating said latching member into and out of said latching state; a blocking member movable into and out of a blocking state in which it is capable of retaining the respective attachment pin in said second recess; actuating means for actuating said blocking member into and out of said blocking state; resilient biasing means for resiliently biasing said latching member into its latching state; and resilient biasing means for resiliently biasing said blocking member into its blocking state, wherein said latching member has a primary pin-engaging surface, a free end and a pin-retaining portion between the primary pin-engaging surface and the free end, wherein said coupler is operable in a normal mode in which said primary pin-engaging surface of said latching member is engaged with the respective attachment pin to hold said respective pin in a first position in said respective recess under the action of said actuating means for actuating said latching member, and upon failure of said actuating means for actuating said latching member the coupler is operable in a failure mode in which said pin-retaining portion of said latching member is engaged with said respective attachment pin to hold said respective pin in a second position, different from said first position, with respect to said respective recess, and wherein in said failure mode said coupler adopts an equilibrium state in which the biasing force of said resilient biasing means for resiliently biasing said latching member balances with the un-latching force caused by the weight of the attachment acting on said latching member through said respective pin in said pin-retaining portion to cause the latching member to hold said respective pin in said second position. 2. A coupler as claimed in claim 1, wherein said latching member has a jaw portion whose internal profile has a primary pin-engaging surface for holding said respective pin in said first position, a free end and a recessed portion formed between the primary pin-engaging surface and the free end, and wherein said recessed portion provides said pin-retaining portion of the latching member. 3. A coupler as claimed in claim 2, wherein said recessed portion is recessed with respect to said primary pin-engaging surface. 4. A coupler as claimed in claim 2, wherein said recessed portion is wide enough to receive said respective pin. 5. A coupler as claimed in claim 2, wherein said recessed portion is located substantially at said free end. 6. A coupler as claimed in claim 1, wherein the length of said latching member is selected to allow, in said equilibrium state, the biasing force of said resilient biasing means to overcome the turning moment imparted to the latching member by the weight acting through the pin before the pin falls off the end of the latching member. 7. A coupler as claimed in claim 1, wherein the shape of said pin-receiving portion is configured to allow, in said equilibrium state, the biasing force of said resilient biasing means to overcome the turning moment imparted to the latching member by the weight acting through the pin before the pin falls off the end of the latching member. 8. A coupler as claimed in claim 1 wherein, in said equilibrium state, said latching member, together with its respective pin-receiving recess, define a station for said respective pin, said station being shaped and dimensioned to allow movement of said respective pin with respect to the coupler body. 9. A coupler as claimed in claim 8, wherein said latching member has a jaw portion whose internal profile has a primary pin-engaging surface for holding said respective pin in said first position, a free end and a recessed portion formed between the primary pin-engaging surface and the free end, and wherein said recessed portion provides said pin-retaining portion of the latching member, and wherein said recessed portion of the latching member together with the respective pin-receiving recess, define said station. 10. A coupler as claimed in claim 1, wherein said blocking member when in the blocking state defines, together with said second pin-receiving recess, a station for said respective pin, said station being shaped and dimensioned to allow movement of said respective pin with respect to the coupler body, and wherein, in a first mode of use in which said latching member adopts said latching state, said respective pin in said second pin-receiving recess is held against a surface of said second pin-receiving recess under the action of said actuating means for actuating said latching member on the other attachment pin through said latching member, and wherein in response to a failure said actuating means for actuating said latching member, said respective pin in said second pin-receiving recess is movable to said station. 11. A coupler as claimed in claim 10, wherein the internal profile of the blocking member is shaped such that engagement of the respective attachment pin with the blocking member when in its blocking state urges the blocking member into its blocking state. 12. A coupler as claimed in claim 11, wherein said internal profile of the blocking member has a concave portion for engaging with said respective attachment pin when in its blocking state. 13. A coupler as claimed in claim 10, wherein, in response to a failure of said actuating means for actuating said latching member acting on said latching member and in a substantially vertical orientation of said coupler in which said first recess is above said second recess, said blocking member in its blocking state engages with said respective pin in said second recess upon movement of said pin into said station to retain said pin in said second recess. 14. A coupler as claimed in claim 13, wherein said resilient biasing means for resiliently biasing said blocking member is arranged to balance the force caused by the weight of the attachment acting on said blocking member through said respective pin to cause the blocking member to maintain its blocking state. 15. A coupler as claimed in claim 13, wherein said blocking member is pivotably mounted on said coupler body at a pivot point that is above said second recess when the coupler is in said substantially vertical orientation. 16. A coupler as claimed in claim 1, wherein said actuating means for actuating said latching member and said actuating means for actuating said blocking member comprise a common actuator coupled to both the latching member and the blocking member. 17. A coupler as claimed in claim 16, wherein the respective ends of the actuator are pivotably coupled to a respective one of the latching member and blocking member. 18. A coupler as claimed in claim 1, in which said resilient biasing means for resiliently biasing said latching member into said latching state and said resilient biasing means for resiliently biasing said blocking member into said blocking state comprise common resilient biasing means arranged to resiliently bias both of said latching member and said blocking member into the respective latching and blocking states. 19. A coupler as claimed in claim 18, wherein said actuating means for actuating said latching member and said actuating means for actuating said blocking member comprise a common actuator coupled to both the latching member and the blocking member, and wherein said at least one resilient biasing member is combined with said common actuator, and is arranged to urge said actuator into its extended state. 20. A coupler as claimed in claim 1, wherein said first and second pin-receiving recesses face in mutually perpendicular directions such that, when said coupler is in a horizontal orientation, said first recess faces downwards and said second pin-receiving recess faces horizontally. 21. A coupler as claimed in claim 1, wherein said second pin-receiving recess is hook-like in shape and function. 22. A coupler for coupling with an attachment, the coupler comprising a body having a first and second spaced-apart recesses for receiving respective pins of said attachment; a latching member movable into and out of a latching state in which it is capable of retaining the respective attachment pin in said first recess; actuating means for actuating said latching member into and out of said latching state; resilient biasing means for resiliently biasing said latching member into its latching state, wherein said latching member has a primary pin-engaging surface, a free end and a pin-retaining portion between the primary pin-engaging surface and the free end, wherein said coupler is operable in a normal mode in which said primary pin-engaging surface of said latching member is engaged with the respective attachment pin to hold said respective pin in a first position in said respective recess under the action of said actuating means for actuating said latching member, and upon failure of said actuating means for actuating said latching member the coupler is operable in a failure mode in which said pin-retaining portion of said latching member is engaged with said respective attachment pin to hold said respective pin in a second position, different from said first position, with respect to said respective recess, and wherein in said failure mode said coupler adopts an equilibrium state in which the biasing force of said resilient biasing means for resiliently biasing said latching member balances with the un-latching force caused by the weight of the attachment acting on said latching member through said respective pin in said pin-retaining portion to cause the latching member to hold said respective pin in said second position. 23. The coupler of claim 22, wherein said first recess has a pin-receiving surface and wherein, in said normal mode, said latching member holds said respective attachment pin against said pin-receiving surface and, in said failure mode, said latching member retains said respective pin in said pin-retaining portion such that said pin does not engage with said pin-receiving surface of said recess.
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