IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0780297
(2001-02-09)
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발명자
/ 주소 |
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출원인 / 주소 |
- Bishamon Industries Corporation
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대리인 / 주소 |
Durando, Antonio R.Durando Birdwell & Janke, PLC
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인용정보 |
피인용 횟수 :
14 인용 특허 :
12 |
초록
▼
A pallet positioner includes a support frame that consists of a main upright structure with a pair of spaced, parallel outriggers extending horizontally at ground level. The distal ends of the outriggers are connected by a flat, low-profile ramp. The upright structure includes a pair of vertical gui
A pallet positioner includes a support frame that consists of a main upright structure with a pair of spaced, parallel outriggers extending horizontally at ground level. The distal ends of the outriggers are connected by a flat, low-profile ramp. The upright structure includes a pair of vertical guide masts rigidly mounted on a horizontal base bracing the proximal ends of the outriggers. A cantilevered carrier with a rotatable platform is mounted laterally for vertical motion along the vertical guide masts. A pneumatic bellows and an air reservoir in the base are adapted to raise and provide self-leveling to the platform. Two hydraulic cylinders provide dampening and a stabilizing effect. The flow of hydraulic fluid in the cylinders is used to control the motion of the carrier. A braking system under the platform prevents its rotation at ground level.
대표청구항
▼
A pallet positioner includes a support frame that consists of a main upright structure with a pair of spaced, parallel outriggers extending horizontally at ground level. The distal ends of the outriggers are connected by a flat, low-profile ramp. The upright structure includes a pair of vertical gui
A pallet positioner includes a support frame that consists of a main upright structure with a pair of spaced, parallel outriggers extending horizontally at ground level. The distal ends of the outriggers are connected by a flat, low-profile ramp. The upright structure includes a pair of vertical guide masts rigidly mounted on a horizontal base bracing the proximal ends of the outriggers. A cantilevered carrier with a rotatable platform is mounted laterally for vertical motion along the vertical guide masts. A pneumatic bellows and an air reservoir in the base are adapted to raise and provide self-leveling to the platform. Two hydraulic cylinders provide dampening and a stabilizing effect. The flow of hydraulic fluid in the cylinders is used to control the motion of the carrier. A braking system under the platform prevents its rotation at ground level. e head, the abutment member is thereby spaced away from the near face of the workpiece; so that, when a progressively increasing pulling force is applied to the part of the pin extending beyond the abutment member, the pulling force being supported against the abutment member, so that axial compression is applied to the sleeve between the head and its engagement with the pin, initially the frangible element supports sufficient force to allow the radially expandable part of the sleeve to radially expand to begin to form a blind head in abutment with the remote face of the workpiece; and thereafter the frangible element breaks thereby to remove axial compression from the sleeve, and allows the abutment member to move along the pin to come into abutment with the near face of the workpiece, thereby to apply compression to the workpiece between the blind head and the abutment member; and thereafter the abutment member can be secured to the pin. 2. A blind fastener as claimed in claim 1, in which the abutment member has a recess to receive the head of the sleeve after the frangible element has broken, the axial extent of the recess being greater than the axial thickness of the sleeve head. 3. A blind fastener as claimed in claim 1, in which the frangible element is provided by a part which is spaced axially away from the workpiece-contacting face of the sleeve head. 4. A blind fastener as claimed in claim 1, in which the frangible element is provided by a part which extends radially outwardly beyond the workpiece-contacting part of the sleeve head. 5. A blind fastener as claimed in claim 1, in which the frangible element is formed integrally with the sleeve head. 6. A blind fastener as claimed in claim 1, in which the abutment member is permanently securable to the pin by deformation into engagement therewith. 7. A method of forming a riveted joint by means of a blind fastener comprising a pin, a sleeve and an abutment member; the pin extending inside the sleeve and engaging therewith at or near a first end of the sleeve; the other end of the sleeve having a radially enlarged head; the sleeve being in one piece and having a radially expandable portion adjacent the first end; the abutment member being adjacent the head of the sleeve and projecting radially beyond the head and the pin extending beyond the abutment member; the head of the sleeve being provided with a frangible element against which the abutment member abuts; whereby, when the sleeve is inserted into a suitable aperture in a workpiece of suitable thickness with the expandable portion of the sleeve protruding beyond the blind or remote face of the workpiece and the head of the sleeve abutting the near face of the workpiece, with the abutment member abutting the frangible element of the sleeve head, the abutment member is thereby spaced away from the near face of the workpiece; so that, when a progressively increasing pulling force is applied to the part of the pin extending beyond the abutment member, the pulling force being supported against the abutment member, so that axial compression is applied to the sleeve between the head and its engagement with the pin, initially the frangible element supports sufficient force to allow the radially expandable part of the sleeve to radially expand to begin to form a blind head in abutment with the remote face of the workpiece; and thereafter the frangible element breaks thereby to remove axial compression from the sleeve, and allows the abutment member to move along the pin to come into abutment with the near face of the workpiece, thereby to apply compression to the workpiece between the blind head and the abutment member; and thereafter the abutment member can be secured to the pin, the method comprising: inserting the sleeve and pin into the workpiece aperture so that the expandable portion of the sleeve protrudes beyond the blind or remote side of the workpiece and the head of the sleeve abuts the near face of t he workpiece, with the abutment member abutting the frangible element of the sleeve head, the abutment member being spaced away from the near face of the workpiece; and applying a progressively increasing pulling force to the part of the pin extending beyond the abutment member, the pulling force being supported against the abutment member, thereby applying axial compression to the sleeve between the head and its engagement with the pin, so that initially the frangible element supports sufficient force to allow the radially expandable part of the sleeve to radially expand and begin to form a blind head in abutment with the remote face of the workpiece; and thereafter the frangible element breaks and removes axial compression from the sleeve, and the abutment member moves along the pin to come into abutment with the near face of the workpiece, thereby to apply compression to the workpiece between the blind head and the abutment member; and thereafter securing the abutment member to the pin. 8. A method as claimed in claim 7, in which securing of the abutment member to the pin is effected by deforming the abutment member into engagement with the pin. 9. A riveted joint which has been formed by means of a fastener, comprising a pin, a sleeve and an abutment member; the pin extending inside the sleeve and engaging therewith at or near a first end of the sleeve; the other end of the sleeve having a radially enlarged head; the sleeve being in one piece and having a radially expandable portion adjacent the first end; the abutment member being adjacent the head of the sleeve and projecting radially beyond the head and the pin extending beyond the abutment member; the head of the sleeve being provided with a frangible element against which the abutment member abuts; whereby, when the sleeve is inserted into a suitable aperture in a workpiece of suitable thickness with the expandable portion of the sleeve protruding beyond the blind or remote face of the workpiece and the head of the sleeve abutting the near face of the workpiece, with the abutment member abutting the frangible element of the sleeve head, the abutment member is thereby spaced away from the near face of the workpiece; so that, when a progressively increasing pulling force is applied to the part of the pin extending beyond the abutment member, the pulling force being supported against the abutment member, so that axial compression is applied to the sleeve between the head and its engagement with the pin, initially the frangible element supports sufficient force to allow the radially expandable part of the sleeve to radially expand to begin to form a blind head in abutment with the remote face of the workpiece; and thereafter the frangible element breaks thereby to remove axial compression from the sleeve, and allows the abutment member to move along the pin to come into abutment with the near face of the workpiece, thereby to apply compression to the workpiece between the blind head and the abutment member; and thereafter the abutment member can be secured to the pin. 10. A riveted joint which has been formed by means of a blind fastener comprising a pin, a sleeve and an abutment member; the pin extending inside the sleeve and engaging therewith at or near a first end of the sleeve; the other end of the sleeve having a radially enlarged head; the sleeve being in one piece and having a radially expandable portion adjacent the first end; the abutment member being adjacent the head of the sleeve and projecting radially beyond the head and the pin extending beyond the abutment member; the head of the sleeve being provided with a frangible element against which the abutment member abuts; whereby, when the sleeve is inserted into a suitable aperture in a workpiece of suitable thickness with the expandable portion of the sleeve protruding beyond the blind or remote face of the workpiece and the head of the sleeve abutting the near face of the workpiece, w
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