SCREEN MAINTENANCE LINK

Abstract

Disclosed is an inclined mobile screen for processing road building materials which provides for easy reconfiguration of the screen from operation configuration to a transport configuration and to a maintenance configuration, which allows for increased clearance between the screen and a feed conveyor without requiring a hydraulic actuator disposed therebetween. Nested telescopic supports are selectively coupled together in an offset connection to allow changes in the orientation of the screen to result in changes in the separation between the screen and the conveyor so as to allow for more clearance therebetween during time of maintenance.

Claims

1. A material sorting screen comprising: a vibrating screen coupled to a screen base; which screen base is pivotally coupled at one end to a base mainframe; an overhead feed conveyor configured to provide material to be screened to the vibrating screen at various operating angles; said overhead feed conveyor is coupled to the screen base via the screen base to a first conveyor tube-in-tube support leg which comprises a first outer tube and a first inner tube; and a screen maintenance link which is selectively coupled, through an offset connection, between the first outer tube and the first inner tube, so that when said screen maintenance link is coupled to the first outer tube, and the vibrating screen is lowered, a combined length of the screen base to the first conveyor tube-in-tube support leg is more than it would be if the vibrating screen were lowered to a horizontal position without coupling the screen maintenance link.

2. The material sorting screen of claim 1 further comprising: a source of hydraulic power disposed between and configured to cause relative motion between said screen base and said base mainframe.

3. The material sorting screen of claim 2 wherein said vibrating screen is free of any hydraulic and electric components which provide power to cause relative motion between said screen base and said overhead feed conveyor, other than said source of hydraulic power disposed between and configured to cause relative motion between said screen base and said base mainframe.

4. The material sorting screen of claim 3 further comprising: a removable maintenance link pin used for coupling said screen maintenance link to said first outer tube.

5. The material sorting screen of claim 4 wherein an output end of said overhead feed conveyor is detachably coupled to said screen base.

6. The material sorting screen of claim 4 wherein said overhead feed conveyor is detachable through translation of a protuberance along an open-ended slot.

7. The material sorting screen of claim 3 wherein said base mainframe to conveyor support is rigidly coupled to said base mainframe.

8. The material sorting screen of claim 5 wherein said overhead feed conveyor is detachable through translation of a protuberance along an open-ended slot.

9. The material sorting screen of claim 8 wherein said vibrating screen is fixed to said screen base.

10. The material sorting screen of claim 9 further comprising a second conveyor tube-in-tube support leg which comprises a second outer tube and a second inner tube.

11. A material sorting screen comprising: a screen coupled to a base; which base is coupled at one end to a base mainframe; an overhead feed conveyor configured to provide material to be screened to the screen at a plurality of operating angles; said overhead feed conveyor is coupled to the base via the base to a first conveyor tube-in-tube support leg which comprises a first outer tube and a first inner tube; and a maintenance link which is coupled, through a connection, between the first outer tube and the first inner tube, so that when said maintenance link is coupled to the first outer tube, and the screen is lowered, a combined length of the base to the first conveyor tube-in-tube support leg is more than it would be if the screen were lowered to a horizontal position without coupling the maintenance link.

12. The material sorting screen of claim 1 further comprising: a source of hydraulic power disposed between and configured to cause relative motion between said base and said base mainframe.

13. The material sorting screen of claim 2 wherein said screen is free of any hydraulic and electric components which provide power to cause relative motion between said base and said overhead feed conveyor, other than said source of hydraulic power disposed between and configured to cause relative motion between said base and said base mainframe.

14. The material sorting screen of claim 3 further comprising: a removable maintenance link pin used for coupling said maintenance link to said first outer tube.

15. The material sorting screen of claim 4 wherein an output end of said overhead feed conveyor is detachably coupled to said base.

16. The material sorting screen of claim 4 wherein said overhead feed conveyor is detachable through translation of a protuberance along an open-ended slot.

17. The material sorting screen of claim 3 wherein said base mainframe to conveyor support is rigidly coupled to said base mainframe.

18. The material sorting screen of claim 5 wherein said overhead feed conveyor is detachable through translation of a protuberance along an open-ended slot.

19. The material sorting screen of claim 8 wherein said screen is fixed to said screen base.

20. The material sorting screen of claim 19 further comprising a second conveyor tube-in-tube support leg which comprises a second outer tube and a second inner tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] The invention may be more fully understood by reading the following description of the preferred embodiments of the invention, in conjunction with the appended drawings wherein:

[0022] FIG. 1 is a side view of a vibrating screen of the present invention, shown in a transport configuration.

[0023] FIG. 2 is close up of a portion of FIG. 1.

[0024] FIG. 3 is a side view of the present invention, with the screen elevated.

[0025] FIG. 4 is a side view of the present invention with the screen elevated and the maintenance link connected.

[0026] FIG. 5 is a close up of a portion of FIG. 4.

[0027] FIG. 6 is a side view of the present invention after the screen has been lowered to an intermediate elevation.

[0028] FIG. 7 is a side view of the present invention with the screen at a horizontal orientation and the feed conveyor elevated therefrom with the maintenance link coupled.

DETAILED DESCRIPTION

[0029] Now referring to the drawings wherein like numerals refer to like matter throughout, and more particularly to FIG. 1, there is shown a vibrating screen system 100 of the present invention, shown in a transport configuration with vibrating screen 1, overhead feed conveyor 2, screen base 3, and base mainframe 4, each in a horizontal orientation, and with overhead feed conveyor 2 being disposed directly on top of vibrating screen 1. Screen base to conveyor tube-in-tube support legs 6 are shown in an orientation which is not necessarily providing support to overhead feed conveyor 2. Screen maintenance link 5 is shown detached from screen base to conveyor tube-in-tube support legs 6 and in a horizontal orientation. Base mainframe to screen base hydraulic actuator 41 is shown in a retracted configuration which is not necessarily providing support to screen base 3. Base mainframe to conveyor support 7 is shown as being pivotally coupled to overhead feed conveyor 2 and fixed to base mainframe 4, however in some embodiments the fixed connection could also be made to pivot.

[0030] Now referring to FIG. 2, there is shown a close up view of a portion of the vibrating screen system 100 of FIG. 1. Screen base to conveyor tube-in-tube support legs 6 are shown to be inner tube 630 and outer tube 620, which is shown having outside pin receiving void 601 and inside pin receiving void 603. Screen maintenance link 5 is clearly not coupled to outer tube 620 and removable maintenance link pin end 503 is pivoted about link to screen base offset pivotal connection 53 to be substantially horizontal.

[0031] Now referring to FIG. 3, there is shown a view of the mobile vibrating screen system 100 with the screen in an operating inclination of about 45 degrees. Clearly, base mainframe to screen base hydraulic actuator 41 is extended and providing support. Screen maintenance link 5 remains disconnected from screen base to conveyor tube-in-tube support legs 6, which are now pivoted more than 90 degrees with respect to the screen base 3.

[0032] Now referring to FIG. 4, there is shown a configuration identical to FIG. 3 except that screen maintenance link 5 is coupled to screen base to conveyor tube-in-tube support legs 6. With the screen maintenance link 5 connected, the screen base to conveyor tube-in-tube support legs 6 are connected to each other through an offset connection, which forces the outer tube 620 and inner tube 630 to expand away from each other as geometry of the linkage changes during the process of lowering the vibrating screen 1 to a lower position for maintenance, but with more clearance between the vibrating screen 1 and the overhead feed conveyor 2.

[0033] Now referring to FIG. 5, there is shown a close up view of the screen maintenance link 5 portion of FIG. 4, which shows removable maintenance link pin 605 inserted and thereby coupling screen maintenance link 5 to outside pin receiving void 601 and inside pin receiving void 603.

[0034] Now referring to FIG. 6, there is shown a view of the mobile vibrating screen system 100 with the vibrating screen 1 oriented at about 20 degrees. Base mainframe to screen base support 8 is shown being pivoted about both screen side pivot end 83 and mainframe side pivot end 84 to facilitate the lowering of the vibrating screen 1 closer to base mainframe 4.

[0035] Now referring to FIG. 7, there is shown special orientation of the mobile vibrating screen system 100 where the vibrating screen 1 is horizontal and the overhead feed conveyor 2 is not resting on vibrating screen 1 because of the connection of screen maintenance link 5 and retraction of base mainframe to screen base hydraulic actuator 41. This configuration allows for a maintenance configuration without a need to add a dedicated linear actuator to increase the separation between vibrating screen 1 and overhead feed conveyor 2.

[0036] In operation, the present invention can function as follows: [0037] A selection is made as to whether maintenance is to be done or the screen is to be put in transport mode, [0038] The selection results in the conveyor ending up with more clearance above the screen if the selection is for maintenance to be done and for less clearance if the screen is put into transport mode, [0039] As the screen is lowered closer to a horizontal orientation the conveyor is oriented with the selected clearance without the need to use any sources of power other than those used to incline the screen for operation.

[0040] It is thought that the method and apparatus of the present invention will be understood from the foregoing description and that it will be apparent that various changes may be made in the form, construct steps, and arrangement of the parts and steps thereof, without departing from the spirit and scope of the invention or sacrificing all of their material advantages. The form herein described is merely a preferred exemplary embodiment thereof.