US3363273A

US3363273A - Loading dock door enclosure

Info

Publication number: US3363273A
Application number: US503164A
Authority: US
Inventors: Ardoth J Chitwood; Eldon D Jones
Original assignee: Hoffman-Taff Inc
Current assignee: Hoffman-Taff Inc
Priority date: 1965-10-23
Filing date: 1965-10-23
Publication date: 1968-01-16
Anticipated expiration: 1985-01-16

Description

A. J. CHITWOOD ET AL 3,363,273

LOADING DOCK DOOR ENCLOSURE Jan. 16, 1968 5 Sheets-Sheet 1 Filed Oct. 23, 1965 INVENTORS ARDOTH J. CHITWOOD ELDON D. JONES Jan. 16, 1968 A. J. CHITWOOD E AL 3,363,273

LOADING DOCK DOOR ENCLOSURE 5 Sheets-Sheet 2 Filed Oct 23, 1965 INVENTORS ELDON D JONES Q; ARDOTH J. CHITWOOD FlG.5

ATTORNEYS Jan. 16, 1968 A. .1. CHITWOOD ET AL 3,

LOADING DOCK DOOR ENCLOSURE Filed Oct. 23, 1965 5 Sheets-Sheet 5 POWER SUPPLY FIG. 9

IOI

. INVENTORS ARDOTH J. CH'ITWOOD ELDON D. JONES ATTORNE United States Patent O 3,363,273 LOADING DOCK DOOR ENCLOSURE Ardoth J. Chitwood and Eldon D. Jones, Springfield, Mo.,

assignors to Hotfman-Talf, Inc., Springfield, Mo., a corporation of Missouri Filed Oct. 23, 1965, Ser. No. 503,164 17 Claims. (CI. 14-71) ABSTRACT OF THE DISCLOSURE A retractable enclosure for loading dock door openings in building walls comprising a rigid hood having a top wall and inverted triangular side walls with their planes transverse of the building wall and pivoted to the wall at their lower apices on a horizontal axis coplanar With the wall, for swinging movements transversely of the wall from a position wholly within the wall to selected positions projecting from the wall, elements pivotally depending from the outer upper corners of the side walls and triangular fabric covers each secured along its converging margins to one of the depending elements and to the outer margin of a hood side wall to form, with the hood side wall, a completely closed side between the building wall and the adjacent wall of vehicle.

The invention comprises a retractable enclosure for loading dock door openings in building walls, having a rigid hood with side and top walls, pivoted at its bottom to the building wall to swing inwardly and outwardly of the opening therein and provided with flexible extensions of the side walls to close the gaps between the triangular side walls and the side of a railway car or other vehicle positioned adjacent the dock for loading or unloading.

The invention relates to loading dock door enclosures for the protection of freight and handlers during loading and unloading operations.

In many instances, railroad tracks adjacent warehouses, freight-houses and the like are spaced a sufiicient distance from the building wall to provide a few feet of clearance between a car side and the building. This distance is commonly bridged by a deck plate, and for protection from the weather, awnings and other collapsible shield devices have been providedto enclose the sides and top of the building and car doors.

It accordingly is an object of the invention to provide an improved extensible loading dock door enclosure for mounting on a warehouse or other building in relation to the doorway of the warehouse or building and a railroad car or motor vehicle which will protect personnel and merchandise from inclement weather or temperature changes as from a cold storage warehouse and refrigerator car or truck.

Additional objects are to provide an extensible loading dock enclosure which can be operated manually or with electric, compressed air or hydraulic power; which has a pneumatic seal at car or truck to keep air, moisture or dust from entering the door enclosure, car or building; which has a lever arrangement that will cause top, sides and bottom of the enclosure to move out from the building an equal distance at all times; which will adjust itself to any irregularities there might be in the car side adjacent the door; which has a gutter along the top edge of the enclosure to drain rain or other liquid ofi the top to prevent it from entering the passageway; which will provide a seal around the warehouse door to keep out dust, wind, moisture or other foreign material while the enclosure is in use as a passageway protector; which will provide a safety barrier for the open door of the warehouse when the door enclosure is not in use; and which will fold to the ware- ICC house door frame to enable the warehouse door to be closed when the enclosure is not in use.

The foregoing and additional more detailed objects and advantages are achieved by the structure described hereinafter and illustrated in the accompanying drawings, in which:

FIG. 1 is an interior side view of a door enclosure in extended position, along line 11 of FIG. 3.

FIG. 2 is an interior side view of the door enclosure in retracted position, along line 22 of FIG. 4.

FIG. 3 is a partial end elevation view of the door enclosure in extended position.

FIG. 4 is a partial end elevation view of the door enclosure in retracted position.

FIGS. 5-7 are fragmentary horizontal sectional views along lines 55, 66 and 7-7, respectively, of FIG. 1.

FIG. 8 is a schematic diagram of an electrical control circuit for the door enclosure operating mechanism.

FIG. 9 is a horizontal sectional View of the safety and limit switch incorporated in the circuit illustrated in FIG. 8'.

The numeral 1 refers to the side wall of a warehouse or other building formed with a rectangular door opening 3, the latter being closable by an outside hung sliding door 5.

Upright door jamb members 7 are secured against the upright sides of door opening 3 and are provided near their lower ends with horizontal pivot pins 9. On the latter are journaled the bottom vertices of inverted substantially isoceles triangular enclosure sides comprising outer and

inner frame legs

11 and 13 and frame top member 15,

all covered by a rigid sheet 14 of weatherproof materialsuch as plywood extending transversely of the general plane of the wall. At their upper ends, outer and

inner frame legs

11 and 13 are connected respectively by

frame cross members

17 and 19, and the rectangular top frame thus formed is covered by a sheet 21 to form, with sides 11, 15, a rigid weatherproof hood swingable through the door opening between the inside retracted position shown in FIG. 2 and a projected operating position as shown in FIG. 1. For limiting movement of the hood to these extreme positions, the inner and outer transverse margins of top sheet 21 are upwardly flanged as at 23 and 25 respectively and the upper ends of upright door jarnb members 7 are provided with aligned horizontal pins 26 engageable with the inner and outer faces, respectively, of

flanges

23 and 25 whereby to limit the swinging movement of the hood between an inner position in which outer legs 11 are within the door opening 3 and an outer position in which the inner legs 13 are Within the door opening 3.

For extending and retracting the hood, a double acting fluid (pneumatic or hydraulic) cylinder 27, or other linear motion power device, may be pivotally mounted on the building floor 29 by means of a suitable bracket 31, with its piston rod 33 connected to the lower portion of

enclosure side frame

11, 31, 21. Thus, by energizing cylinder 27, hood 11-25 can be swung from its retracted position (FIG. 2) wholly within the building, to its extended position (FIG. 1) with its outer flange 23, which also serves as a rain gutter, abutting the side wall of a freight car. Conventional limit switches (not shown) may be utilized to deenergize these devices when the limit of movement in either direction is reached.

In order to completely close the sides of the gap between building wall 1 and car wall 35, a face plate comprising upright bars 37, pivotally supported'at their upper ends, at 39, from the intersections of outer side frame legs 11 and top members 21, and a bottom cross bar 38 is provided. The triangular space defined by bars 37 and side frame members 11, and a line connecting their lower extremities, when-the hood is fully extended, is covered by a flexible sheet 40 of weatherproof fabric, such as canvas, which also extends across the bottom of the enclosure, where it is secured along its inner margin to the building door threshold 44 and along its outer margin to faceplate bottom cross bar 38.

To provide a weather seal where the enclosure abuts car side 35, a resilient gasket 41 is secured to the outer faces of faceplate side bars 37, bottom cross bar 38 and hood frame cross member 17, and may be hollow and inflatable to assure close contact with the car side irrespective of irregularities herein.

To provide for positive projection and retraction of faceplate bars 37 and flexible sheets 40 in accordance with movements of. hood 11-25, diagonal bars 43 are pivotally connected intermedite their ends to outer side frame legs 11 intermediate the ends of the latter, by pivot pins 45 (FIG. 6) and the upper and lower ends of bars 43 are provided with horizontally

elongated pins

47 and 49 which extend, respectively, into vertical slots 48 in door jamb side members 7 and into vertical slots 50 in the lower ends of bars 37. With this arrangement, as hood 11-25 is moved outwardly, pin 47 moves downwardly in slot 48, and the outward movement of side frame member 11 causes corresponding outward movement of the lower end of bar 43 which is accommodated by movement of lower pin 49 in slot 50 on bar 37, and faceplate bar 37 is pushed outwardly at its lower end to a position always parallel with'the building wall 1, and'into engagement with the car side, compressing the gasket 41 into sealing engagement with the latter.

Additionally support for the bottom of

faceplate

37, 37, 38 is provided by a pair of hinged

links

51, 53 at each side of the enclosure, with their inner ends pivotally con nected to the door jamb by pins 9 and their outer ends pivotally connected to the lower ends of faceplate bars 37.

The bottom of the gap between the building and car is bridged by a suitably cambered deck plate 65, To assure that the deck plate will be retracted simultaneously with the enclosure, downwardly open channel members 67 are secured to the underside of the deck plate and overlie enclosure faceplate bottom cross bar 38.

If desired, operating cylinders 27 can be eliminated and replaced by vertical fluid cylinders 61 or other linear motion power device mounted inside door jamb members 7 above slots 48, with their piston rods 63 connected to pins 47, so actuation of cylinder 61 will cause vertical movement of pins 47 in slots 48 and corresponding movement of bars 43, with resultant projection or retraction of the enclosure.

For controlling the operation of the door enclosure, the electrical circuit shown in FIG. 8 is provided.

Fluid pressure cylinders

27 or 61 have fluid inlets at one end,

conduits

71 and 73 communicating with the output side of a a hydraulic pump (not shown) and outlet conduits 75 and 77 at their other end communicating with the input side of the hydraulic pump. Conduits 71 and 75 include a valve 79 which normally maintains outlet conduit 75 open and inlet conduit 71 closed.

Conduits

73 and 77 include a similar valve 81.

Valves

79 and 81 form the armatures of

solenoid coils

83 and 85, which, when energized

lift valves

79 and 81 to the upper position opening inlet conduits 71 and 73and closing outlet conduits 75 and 77, so that when solenoid 83 is energized, fluid is admitted through conduit 71 to cylinder 61, forcing piston 63 downwardly to project the enclosure, and when solenoid 85 is energized, fluid is admitted through conduit 73 to cylinder 61, forcing piston 63 upwardly to retract the enclosure.

Power supply lead 87 is connected directly to manual normally open double throw switch 93, and power lead 89 is connected by

lines

95 and 97 directly to one end of

solenoid coils

83 and 85, respectively. One terminal 99 of switch 93 is connected by line 101 to the other end of coil 83, and the other terminal 103 of switch 93 is connected by line 105 to the other end of coil 85, so that the circuits through the coils may be selectively alternatively closed and opened manually by means of switch 93.

Line 101 includes, in series, between switch terminal 99 and coil 83, normally closed

limit switches

107 and 109, and line 105 includes a normally closed limit switch 111, switches and 111 being mounted respectively on outer and

inner top flanges

23 and 25 of the enclosure, for actuation to open position by stop pin 20 when the enclosure reaches its extreme projected and retracted positions, whereby to prevent further application of hydraulic power to cylinder 61. p

In order to reduce damage to the car or the enclosure if a switch crew inadvertently moves the car while the enclosure is in the extended, car-engaging position shown in FIG. 1, safety switches 113, best shown in FIG. 8, are mounted on faceplate upright member 37, and are arranged, as will be described below, to close if the car begins to move when the faceplate engages it. Switch 113 is in series with a

shunt

115, 117 around manual switch 93 and limit switch 111 to line through the retracting solenoid coil 85 so that, if the car begins to move the retracting circuit will be energized even though

switch

93, 103 is open, and the gasket 41 will be pulled away from the car side, and deck plate 65 will be retracted from the car door.

Switch 113 is contained in a cylindrical housing119 of dielectric material, closed at its outer end by closure 121. A disk 123 centrally apertured as at 125 is slightly' biased outwardly against closure 121 by coil spring 127 seated against annular shoulder 129 in housing 119. Rocker arm 131 of dielectric material is elongated lengthwise of housing 119 and is pivoted, on vertical axes, through pin 133 to disk 123. At its outer end arm 131 is provided with a cap 135 of rubber or similar material, with a grooved arcuate surface adapted for frictional engagement with car side wall 35.

Inwardly of shoulders 129 switch 107 is formed as follows: Line 101 is connected to spring-loaded contact plungers 137, mounted in cylinder 139 on the inside of the housing on both sides of rocker arm 131, and'the rocker arm contains a conductor 141, aligned with plungers 137' when rocker arm 131 is in its extended position, but disaligned when the rocker arm is forced inwardly by engagement of cap 135 with a car side, thus breaking the circuit through line 101 and projection coil 83. At its inner end the rocker arm side is slightly tapered and fitted with conductor plates forming switch 113. Spaced from rocker arm 131 on both sides of the latter when it is maintained in its normal centered position by spring-loaded plungers 137, are spaced

contacts

143 and 145, or

shunt wires

115 and 117, respectively,'so that when rocker arm 131 is depressed by engagement with car side 35, if the car begins to move, arm 131 will pivot about pin 133 and one of the switch conductor plates 113 will engage

contacts

143 and 145 on one side of the rocker, closing the circuit through retraction coil 85. The length of travel of the contactor plate of safety switch 113 is such that switch 113 will remain closed until deck plate 67 is clear of the car side, after which switch 113 will open, when rocker arm cap 135 disengages from the car side and the rocker arm returns to its normal centered position. Further inward movement of the enclosure can be initiated by manual switch 93.

Operation of the door enclosureis as follows: While not in use, the enclosure is in the retracted position shown in FIG. 2, and the warehouse door 5 is closed. When it is desired to transfer lading between a car and the building, door 5 is opened and switch 93 is thrown to engage contact 99, thus energizing solenoid coil 83 and admitting fluid to the enclosure extending end of

power cylinders

27 or 61. If power cylinder 27 is utilized, outward movement is imparted directly to the rigid hood 11-25. As the latter swings outwardly on pivot 9, the pivotal connection at 45 of hood side frame member 11 with bar 43, and the pivotal connection at 47 of the latter to the door frame slot '48, causes the lower end of bar 47 to swing outwardly and upwardly in slot 50 of faceplate side member 37, thus urging the faceplate outwardly in parallel relation with the building wall until inflatable gasket 41 engages the car wall, at which time plunger 131 breaks the circuit through switch 107 to solenoid 83, causing valve 79 to close cylinder input conduit 71 and open discharge conduit 75, thus terminating the extension stroke of the piston. The gasket may then be inflated to close any gap between it and depressions in the exterior surface of the car wall around the door.

If jamb-mounted vertical cylinders 61 are utilized to project the enclosure, when energized, they urge pins 47 downwardly in slots 48 thus causing downward and outwardly pivotal movement of bars 43. The pivotal connection of the latter with enclosure side frame members 11 causes the latter to swing outwardly through the door opening about pivot pins 9, and the outer swinging movement of the lower end of bar 43, accommodated by upward movement of pin 49 in slot 50, causes

faceplate

37, 38 and its gasket to move outwardly until plunger 131 engages the car side and thus breaks the circuit, via switch 107, through solenoid 83, after which the gasket may be inflated to effect an improved seal.

Deck plate 65 may then be placed across the gap between the building and car floors, with channel 67 overlying the faceplate bottom cross bar 38 so that when the enclosure is retracted, the deck plate will also be retracted from the car door.

While the enclosure and deck plate are in the carengaging position, if the car is moved, the car side will cause rocker-plunger 131 to pivot about pin 133, closing the circuit across

contacts

143 and 145, and energizing retraction solenoid 85 to admit fluid to the retraction end of

cylinders

27 or 61, thus retracting the enclosure from engagement with the car side and preventing damage to the structure.

After loading or unloading of the car is completed,

cylinders

27 or 61 are reversed by throwing switch 93 into engagement with contact 103 to reverse the movement of the parts and cause a retraction of the enclosure to the position shown in FIG. 2, from which further inward movement is provided by the engagement of hood roof outer flange 23 with jamb-mounted pins 26, the retraction stroke of the pistons being terminated by engagement of limit switch 109 with pin 26.

The details of the door enclosure disclosed herein may be varied substantially without departing from the spirit of the invention, and the exclusive use of those modification as come within the scope of the appended claims is contemplated.

What is claimed is:

1. An enclosure for loading dock door openings in building walls comprising a rigid hood portion having a rigidly defined top wall of rectangular plan and spaced rigidly defined side walls of triangular shape secured along their upper sides to the sides of said top wall with their planes transverse of the building wall and pivoted at their bottom vertices to the building wall for swinging movements transversely of the wall from a position wholly within the opening to positions projecting outwardly from the building wall, flexible sheets attached to the outer edges of said triangular side walls to form triangular outer extensions thereto, and means for maintaining the outer edges of said sheets substantially vertically aligned with the outer extremity of said hood.

2. A loading dock door enclosure according to claim 1 in which said means comprises rigid vertically elongated elements pivotally depending from the outer upper corners of said hood for swinging movement transversely of the general plane of the wall, the outer edges of said flexible sheets being attached to said depending elements.

3. An enclosure for loading dock door openings in building walls comprising a rigid hood portion having a rigidly defined top wall of rectangular plan and spaced rigidly defined side walls of triangular shape secured along their upper sides to the sides of said top wall with their planes transverse of the building wall and pivoted at their bottom vertices to the building wall for swinging movements transversely of the wall from a position wholly within the opening to positions projecting outwardly from the building wall, and flexible sheets attached to the outer edges of said triangular side walls to form triangular outer extensions thereto, rigid vertically elongated elements pivotally depending from the outer upper corners of said hood for swinging movement transversely of the general plane of the wall, the outer edges of said flexible sheets being attached to said depending elements, and a bar pivotally connected intermediate its ends to the outer margin of one of said hood side walls intermediate the ends thereof and pivotally and vertically slidably connected to the building wall at its upper end and to one of said depending elements at its lower end whereby to cause said depending element to be maintained parallel to the general plane of said wall irrespective of the position of said hood transversely thereof.

4. A loading dock door enclosure according to claim 3, including a horizontal element connecting said depending elements at their lower ends to form a faceplate engageable with wall structure of an adjacent vehicle and a substantially horizontal bottom of flexible material extending between said horizontal element and the bottom of the building door opening.

5. A loading dock door enclosure according to claim 3, including power means for swinging said hood between its retracted and extended positions.

6. A loading dock door enclosure according to claim 5 in which said power means is a linear movement power device mounted on the building and pivotally connected to said hood.

7. A loading dock door enclosure according to claim 5 in which said power means comprises a vertically operable linear movement device fixed to said building and pivotally connected to the sliding pivotal connection of said bar to said wall for moving said pivotal sliding connection vertically relative to said wall and thereby cause swinging movements of said hood and of said faceplate relative to said hood.

8. A loading dock door enclosure according to claim 4, including a resilient gasket on the face of said faceplate to form a seal against the wall of an adjacent vehicle.

9. A loading dock door enclosure according to claim 5 in which said gasket is hollow and inflatable.

10. A loading dock door enclosure according to claim 3 in which a horizontal bottom member connects said depending elements, there being a deck plate for bridging the gap between the building on which the enclosure is mounted and an adjacent vehicle, said deck plate being provided adjacent its end remote from the building with a downwardly open channel embracing said faceplate bottom member.

11. A loading dock door enclosure according to claim 1 in which said hood top is provided with upwardly extending flanges along both its margins parallel to the building wall and there is a projection on said building wall into the door opening therein engageable with both said flanges to limit swinging movements of said hood to extreme retracted and projected positions, said projection being spaced inwardly from the outer surface of the building wall.

12. A loading dock door enclosure according to claim 5, including a pair of hinged links pivotally connecting the bottom of said faceplate to the building wall at the bottom of the door opening at each side thereof.

13. A loading dock door enclosure according to claim 5 including means for deenergizing said power means when said faceplate abuts the side of a vehicle.

14. A loading dock door enclosure according to claim 13 in which said deenergizing means comprises a member resiliently mounted on said door enclosure for engagement with the side of a vehicle when the faceplate abuts the vehicle side and movable normal to said faceplate upon engagement with the vehicle side, and a switch normally closed by said resiliently mounted member when 5 including means for energizing the retracting power means if a car engaged by said faceplate is moved.

16. A loading dock door enclosure according to claim 13 in which said energizing means comprises spaced electrical contacts, a member pivotally mounted on the enclosures for horizontal movement in an are generally transverse of the enclosure, means biasing said pivotally mounted member against a vehicle side when the faceplate is in engagement therewith, said pivotally mounted member including a closure for said switch engageable with said contacts when said pivotally mounted member is moved by movement of the vehicle.

17. A loading dock door enclosure according to claim 1, including an electrical circuit, for controlling the projection and retraction of the enclosure, comprising a source of power, a manual normally open switch, separate electrical devices for projecting and retracting the enclosure, conduit means between said power source and said normally open switch, a first conductor leading from said 8 manual switch to the device for projecting said enclosure and including a normally closed switch, means operable to open said switch when the enclosure engages the side of a vehicle, a second conductor leading from said manual switch to said enclosure retraction device, a normally open shunt circuit around said manual switch from said conducting means to said enclosure retraction device, and means responsive to movement of the vehicle for closing said shunt circuit to energize said retraction device.

References Cited UNITED STATES PATENTS 2,892,463 6/1959 Frommelt 135-5 3,038,185 6/1962 Moore 1471 3,310,823 3/1967 Preiss 14--71 3,322,132 5/1967 Rieder 135-5 FOREIGN PATENTS 20,237 7/ 1929 Netherlands.

CHARLES E. OCONNELL, Primary Examiner.

NILE C. BYERS, JR., Examiner.