CA2486010A1 - Elevator delivery system for use in truck body or trailer - Google Patents
Elevator delivery system for use in truck body or trailer Download PDFInfo
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- 230000007246 mechanism Effects 0.000 claims abstract description 27
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- 208000027418 Wounds and injury Diseases 0.000 description 5
- 208000014674 injury Diseases 0.000 description 5
- 238000000034 method Methods 0.000 description 4
- 229910000831 Steel Inorganic materials 0.000 description 3
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- 241000721047 Danaus plexippus Species 0.000 description 2
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 2
- 229910052782 aluminium Inorganic materials 0.000 description 2
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Abstract
An elevator delivery system is used with a truck body or trailer to facilitate loading and unloading cargo. The elevator delivery system includes a platform and drive mechanism for raising and/or lowering the platform, The platform is movable between an upright position between the walls of the truck body and an extended position extending from the truck body. A
control system and various types of switches allow the operator to control the raising and lowering of the platform.
control system and various types of switches allow the operator to control the raising and lowering of the platform.
Description
ELEVATOR DELIVERY SYSTEM
FOR USE IN TRUCK BODY OR TRAILER
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation-in-part ofpatent application Serial No. 10/351,812, which claims the benefit of U.S. provisional application Serial No. 60/376,694 filed May 1, 2002, both of which are fully incorporated herein by reference.
TECHNICAL FIELD
FOR USE IN TRUCK BODY OR TRAILER
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation-in-part ofpatent application Serial No. 10/351,812, which claims the benefit of U.S. provisional application Serial No. 60/376,694 filed May 1, 2002, both of which are fully incorporated herein by reference.
TECHNICAL FIELD
[0002] The present invention relates to loading and unloading cargo in a truck or trailer and more particularly, to an elevator delivery system for use in a truck body or trailer.
BACKGROUND INFORMATION
BACKGROUND INFORMATION
[0003] Trucks have long been used to transport large amounts of cargo of various types. The truck bodies and trailers used to hold the cargo are.typically designed to have a high clearance from the ground. Although the cargo can often be loaded easily into the truck bodies and trailers at a loading dock, the cargo is more difficult to load and unload from the ground. The drivers often must climb in and out of the truck to unload the cargo during deliveries. The additional labor required to unload the cargo may result in longer delivery times and more injuries to the delivery peison.
[0004] Various devices have been used to facilitate unloading the cargo, for example, ramps and hydraulic tailgates added to the rear of the truck or trailer chassis.
Although these devices may help to unload the cargo, they often take additional time and Iabor to operate, for example, to pull out the ramp or to unfold the tailgate platform. Another device, known as the Lang doorway lift, uses a platform to lower or sift the cargo from the truck bed usually in a side door of the tnzck body. The Lang doorway lift, however, is operated using a single hydraulic cylinder and a complicated cable and pulley system. This cable and pulley system is inefficient and may be dangerous to the operator. Therefore, these existing devices for unloading cargo often do not maze the delivery easier.
Although these devices may help to unload the cargo, they often take additional time and Iabor to operate, for example, to pull out the ramp or to unfold the tailgate platform. Another device, known as the Lang doorway lift, uses a platform to lower or sift the cargo from the truck bed usually in a side door of the tnzck body. The Lang doorway lift, however, is operated using a single hydraulic cylinder and a complicated cable and pulley system. This cable and pulley system is inefficient and may be dangerous to the operator. Therefore, these existing devices for unloading cargo often do not maze the delivery easier.
[0005] Some elevator delivery systems include a platform that forms part of the truck bed.
Although this type of elevator delivery system is effective, moving a section of the truck bed floor up and down has some disadvantages. When pallets are used, for example, the pallets cannot be positioned on the moving platform that forms part of the truck bed floor. Thus, the truck cannot be filled to capacity.
Although this type of elevator delivery system is effective, moving a section of the truck bed floor up and down has some disadvantages. When pallets are used, for example, the pallets cannot be positioned on the moving platform that forms part of the truck bed floor. Thus, the truck cannot be filled to capacity.
[0006] Accordingly, there is a need for an elevator delivery system for use in a truck body or trailer that provides minimal interference with the cargo loaded on the truck bed.
SCfMMARY
SCfMMARY
(0007] In accordance with one aspect of the present invention, an elevator delivery system comprises a platform and a drive mechanism for moving the platform at least upward with respect to the truck body. The platform is pivotably coupled to the drive mechanism such that the platform folds into an upright pflsition between walls of the truck body when the platform is in a raised position.
[0008] In accordance with another aspect of the present invention, a combination truck body and elevator delivery system comprises an enclosed truck body having a bed, walls around the bed, and a door coupled to at least one of the walls for covering a doorway, and a platform mounted within the doorway such that the platform moves between an upright position between the walls of the truck bed and an extended position extending outward from the doorway.
Drive mechanisms are mounted to the truck body on each side of the doorway for moving the platform at least upward with respect to the truck body. A control system controls the drive mechanisms.
Drive mechanisms are mounted to the truck body on each side of the doorway for moving the platform at least upward with respect to the truck body. A control system controls the drive mechanisms.
(0009] According to a further aspect of the present invention, an elevator delivery system comprises a platform and at least two hydraulic eylindcr/piston mechanisms for moving the platform upward and downward with respect to the truck body. The hydraulic cylinderlpiston mechanisms include at least two pistons mounted respectively on opposite sides of the platform and at least two hydraulic cylinders mounted to the truck body. The pistons move within the cylinders to move the platform relative to the truck body, and the platform pivots with respect to the pistons. A hydraulic control system supplies hydraulic fluid to the hydraulic cylinders to control the upward and downward movement of the platform. An inside switch actuates the hydraulic control system from a location inside of the truck body. The inside switch is located such that an operator of the inside switch is able to stand on the platform while the platform moves upward and downward. An outside switch actuates the hydraulic control system from a location outside of the truck body. The outside switch is Located such that the platform is away' from an operator of the outside switch.
BRIEF DESCRIPTION OF THE DRAWIrTGS
BRIEF DESCRIPTION OF THE DRAWIrTGS
[0010] These and other lbari~r~ and advantages of the present invention will be better understood by reading the following detailed description; taken together with the drawings wherein:
[0011 ] FIG.1 is a perspective view of a truck body or trailer with an elevator delivery systan, according to one embodiment of the present invention;
(~12] FIG. 2 is a sectional perspective view of the elevator delivery system shown in FIG. 1;
[0013] FIG. 3 is a top schematic view of one embodiment of the elevator delivery system;
[0014] FIG. 4 is a schematic view of one embodiment of the hydraulic control system used in the elevator delivery syst~;
[0015] FIGS. SA-SC are rear views of a truck body, according to one embodiment of the present invention, illustzating one method of using the elevator delivery system to unload cargo;
[0016] FIG. 6 is a perspective view of an elevator delivery system, according to a further embodiment of the present invention, with the platform in a raised extended position;
[OOI 7] FIG. 7 is a perspective view of the elevator delivery system shown in FIG. 6 with the platform being moved to an upright position;
[0018] FIG. 8 is a paBpective view of the elevator delivery system shown in FIG. 6 with the platform in an upright position;
[0019] .FiG. 9 is s pa~pec~ive view of the elevator delivery system shown in FIG. 6 with the platform in a lowered extended position;
(0020] FIG. 10 is a side view of the elevator delivery system shown in FIG. 6 with the platform in an upright raised position;
[0021] FIG. 11 is a top schematic view of the platform coupled to the pistons in the elevator delivery system, according to the embodiment shown in FIG. 6; and [0022] FIG. 12 is a side view of the platfoxm in the upright and extended positions in the elevator delivery system., according to the embodiment shown in FIG. 6.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIIVViENTS . ' [0023] Refen-ing to FIG. 1, an elevator delivery system 10, according to one embodiment of the present invention, is located in a truck body 12 for moving cargo relative to the bed 14 of the truck body i2. As used herein, the term "truck body" refers to both a non-detachable truck body and detachable truck body (e.g., trailer}. In the exemplary embodiment, the elevator delivery system 10 is located between the walls 16 forming the rear doorway 18, which is accessible by opening the door 19. A portion of the exemplary elevator delivery system 10 extends beyond the walls 16 outside of the truck body 12. Alternatively, the elevator delivery system 10 can be located at a side doorway or any other suitable location in the truck body 12.
[0024] Referring to FIG. 2, the elevator delivery system 10 comprises a platform 20 and at least two hydraulic cylinder/piston mechanisms 24a, 24b. Each of the hydraulic cylinder/pistan mechanisms 24a, 24b includes a piston 26a, 26b mounted to the platform 20 and a cylinder 28a, 28b mounted to the truck body 12 such that movement of the pistons 26a, 26b relative to the cylinders 28a, 28b causes movement of the platform 20 relative to the truck body I2. The pistons 26a, 26b and cylinders 28a, 28b can be mounted using any known techniques (e.g., by using plates or other fixtures welded to the platform 20 and the truck body 12). In the exemplary embodiment, the pistons 26a, 2tSb are mounted at opposite sides of the platform 20. Although the pistons 26a, 26b are shown mounted generally at a midpoint of the platform 20, the pistons 26a, 26b can be mounted in other locations on the platform 20. Iii the exemplary embodiment, the cylinders 28a, 28b are mounted to the bed 14 of the truck body 12. The cylinders 28a, 28b can also be mounted to other locations, such as to the walls 16 (see FIG. I ) of the truck body 12.
In a further embodiment (not shown), the cylinders 28a, 2tib can be located within the walls 16 of the truck body 12; thereby hiding the cylinders 28a, 28b and avoiding interference with the cargo.
[0025] A hydraulic control system 30, described in greater detail below, controls the supply of fluid to the hydraulic cylinder/piston mechanisms 24a, 24b and thus contxols the movement of the platform 20. The hydraulic control system 30 is preferably actuated fiom both inside and outside the truck body 12. For example, an outside up/down switch 32 is located outside of the thick body 12 to allow the user to raise and/or lower the platform 20 from outside of the truck body 12. The outside switch 32 is preferably in a location that keeps the user away from the platform 20 when it is being lowered. An inside upldown switch 34 is located inside the truck body io allow the user to raise and/or lower the platform 20 from inside the truck body 12, for ' example, when standing on the platform 20. Although the exemplary embodiment shows the hydraulic control system 30 in a location outside of and below the truck body 12, the hydraulic control system 30 can be located in other locations inside or outside of the truck body 12.
[0026] The cylinders 28a, 28b are coupled to the hydraulic control system 30 by way of hydraulic lines 40a, 40b. The hydraulic lines 40a, 40b are preferably in a location that will not interfere with loading and unloading cargo (e.g., under the truck bod 14). The outside switch 32 and the inside switch 34 are connected to the hydraulic control system 30 by way of wires 42, 44, respectively. Other connections between the hydraulic control system 30 and the cylinders 28a, 28b and the switches 32, 34 are also contemplated.
[0027) In one preferred embodiment, an edge switch 50 is locatod around the edge of the underside of the truck body 12 adjacent to the path of the moving platform 20.
The edge switch 50 is connected to the hydraulic control system 30 by way of wire 52. The edge switch 50 provides an added safety feature when the platform 20 is being raised. If an object, such as the cargo or the driver's foot, is positioned between the platform 20 and the underside of the truck body 12 when the platform 20 is being raised, the object. will actuate the edge switch 50.
Actuation of the edge switch 50 causes the hydraulic coatrol system 30 to preferably move the platform 20 downward to avoid damage or injury.
[0028] In another preferred embodiment, an audible alarm 54 alerts the operator that the platform 20 is being raised sndlor lowered. The audible alarm 54 can be connected to the hydraulic control system 30 and located in any location that permits the alarm to be heard near the elevator delivery system 10.
[OOZ9) One embodiment of the truck body 12 preferably includes bracing 60 surrounding the platform region 62, which receives the platform 20 in the raised position. A
lower portion b4 of the bracing 60 is preferably tapered such that an object (e.g., the driver's toe) that comes into contact with the tapered lower portion 64 will slide out of the way to avoid damage or injury. In this embodiment, the edge switch 50 is located beneath the tapered lower portion 64 of the bracing 60. A rubber seal (not shown) can be provided along tire top portion of the bracing 60 to seal against the platform 20 when raised. One embodiment of the platform 20 includes a ramp surface 6S at one side to allow cargo to be more easily wheeled off of the platform 20.
., (0030] Referring to FIG. 3, an exemplary embodiment of the elevator delivery system I O is shown schematically. In the exemplary embodiment, the truck body 12 includes 8" structural ' steel channels forming the bracing 60. The exemplary hydraulic cylinders 28a, 28b supported on the channels are single acting hydraulic cylinders having a bore of about 2 %z" and a length of about 77". The tapered lower portion.64 of the bracing 60 is a formed as a section having a width of about 5" flared out at about 45° under the channels. The exemplary platform 20 is made of 1" steel having a dimension of about 48" by 44" and having a 2" by 2"
bracing.
(0031] Referring to FIG. 4, an exemplary embodiment of the hydraulic control system 30 is shown schematically. According to this embodiment, the hydraulic control system 30 includes an electric hydraulic pump 72 with an electric solenoid 74 and a dump valve ?6. In one example, the pump 72 is a pump having a rating of about 2500 psi, such as the type available under the name Monarch from Monarch Hydraulics. The wires 42, 44 connect the solenoid 74 to the outside switch 32 and the inside switch 34 (see FIG. 2), respectively, and the wire 52 connects the dump valve 76 to the edge switch.50. The wire 88 connects the electric hydraulic pump 72 to a power souses such as the vehicle battery (not shown). The pump 72 is connected to a tank 80 (e.g., a 3 gallon tank) that supplies hydraulic fluid to the pump 72. A flow divider valve 82 is connected to the pump 72 by way of a hydraulic line 84 and connects the pump 72 to the hydraulic lines 40a, 40b from the cylinders 28a, 28b. The hydraulic control system 30 is preferably housed in an enclosure 86 that protects and allows access to the hydraulic control system 30.
[0032] In response to signals from the up/down switches 32, 34, the solenoid 74 actuates the pump 72 to pump hydraulic fluid through the lines 40a, 40b to or from the hydraulic cylinders 28a, 28b to lower or raise the platform 20. The flow divider valve 82 evenly distributes the hydraulic fluid pressure between the hydraulic cylinders 28a, 28b to maintain the platform 20 in a substantially level position when a load is being raised or lowered, thereby preventing the hydraulic cylinder/piston mechanisms 24a, 24b from binding. In response to the edge switch 50, the dump valve 76 is actuated causing the platform 20 to drop. In one embodiment, the elevator delivery system 10 at a back door of the truck body is capable of lifting about 2500 lbs. or more and the elevator delivery system 10 at a side door of the truck body is capable of lifting about 1500 lbs. or more, although this is not a limitation of the present invention.
[0033] In use, the platform 20 can be raised or lowered using either the outside switch 32 or the inside switch 34. Referring to FIGS. SA-SC, one method of using the elevator delivery system ' is described in greater detail. At the beginning of a delivery, the driver 92 can open the door 19 and drop the platform 20, for example, using the outside switch 32 (FIG.
5A). The driver 92 can then ride up on the platform 20 into the truck body 12 (using the inside switch 34) to load the cargo 90 onto the platform 20 (FIG. SB). When the platform 20 is loaded with the cargo 90, the driver 92 can lower the platform 20 and the cargo 90, for example, using the inside switch 34 (FIG. 5C). This process can be repeated until the delivery is completed. Thus, the driver 92 can use the elevator delivery system 20 to avoid having to climb in and~out of the truck when making deliveries.
[0034] Accordingly, the elevator delivery system 10 is relatively easy to opiate compared to existing devices and thus facilitates the unloading and loading of cargo into a truck or trailer.
The elevator delivery system 10 also has fewver moving parts and thus operates more efficiently and reliably than existing hydraulic tailgate and lift devices. The elevator delivery system 10 further provides a number of additional safety features to avoid injury to the operator. For example, the location of the inside switch and the outside switch 32, the edge switch 50, and the audible alarm 54 all provide safety features that will minimize injuries caused by using the elevator delivery system 10.
[0035] Referring to.FIGS. b-12, a further embodiment of an elevator delivery system 110 used in a truck body 112 is described in greater detail. This embodiment of the elevator delivery system 110 includes a platform 120 that moves between as exteaded position shown in FIG. 6 and an upright position shown in FIG. 8. In the upright position, the platform 120 is positioned betwtar the walls 116 of the truck body 112 and preferably flush with the walls 116.
When the platform 120 is moved to the extended position, the platform 120 extends outward from the truck bed 114 for loading. When in the extended position, the platform 120 can be moved between a raised position (FIG. 6) and a lowered position (FIG. 9).
[0036] The platform 120 is coupled to a drive mechanism 124 (FIG. 7), such as a hydraulic cylinderlpiston mechanism including a piston 126 and cylinder 128 on each side of the platform 120 to move the platform 120 between the raised position and the lowered position. The hydraulic cylinders 128 can be similar to those described above but are preferably double acting hydraulic cylinders capable of hydraulically moving the platform 120 downward as well as upward. The exemplary embodiment of the elevator delivery system 110 also includes a hydraulic coimol system (not shown) similar to that disclosed above but preferably with two ' flow dividers to provide the downward. hydraulic movement in addition to upward movement.
The elevator delivery system 110 can also include the switches and other features similar to those described above in connection with other embodiments.
[0037] The platform 120 is preferably coupled to the pistons 126 in a manner that allows the platform 120 to pivot between the upright and extended positions, as shown in FIGS. 10-12. In the exemplary embodiment, a shaft 102 extends through the platform 120 and is coupled at each end to the pistons 126 using brackets 104, 105 or other coupling devices known to those skilled in the art. Rallcr bearings 106,108 are mounted to the platform 120 and are rotatably mounted on the shaft 102, allowing the platform 120 to pivot from the upright position to the extended position (FIG. I2). The platform 120 preferably includes a Stop tab 150 that abuts a hard stop bar 152 or other rigid structure to maintain the platform 120 substantially horizontal in the extended position (FIG. 12). The platform 120 can also include a reinforcement bracket i 54 to provide additional reinforcement in the middle region of the platform 120.
[0038] In one example, the platform 120 is made of aluminum and is about 44"
by 32". Other materials and sizes are also contemplated. Where the platform 120 is made of a light-weight material such as aluminum, the drive mechanism 124 preferably moves the platform 120 downward. Where the platform 120 is made of a heavier material, gravity can move the platform 120 downward without being driven by the drive mechanism 124.
[0039] The elevator delivery system 110 fiuther includes foldable side rails I30 coupled between sides of the platform I20 and the walls 116 of the truck body, as a safety feature. The foldable side rails 130 include a first folding side bar 132 pivotably coupled to the side of the platform 120 and a second folding side bar 134 pivotably coupled to the first folding side bar 132, The second folding side bar 134 is pivotably coupled to a sliding bar 136. The sliding bar 136 can move freely or can be slidably mounted to the wall 116. In ono ~cample, the bars 132, 134 are flat bars made of steel. A chain or other similar structure (not shown) can be coupled between the foldable side rails 130 to provide an additional safety feature acmss the front of the platform 120.
[0040] In the exemplary embodiment, the elevator delivery system 110 is located in a side doorway I 18 of a truck body 112, although other locations arc contemplated.
Because the platform 120 does not form part of the floor of the truck bed 114, the elevator delivery system 110 can be operated without interfering with pallets or other cargo stacked at the doorway, ' (0041] Modifications and substitutions by one of ordinary skill in the art are considered to be within the scope of the present invention, which is not to be limited excopt by the following claims.
[0011 ] FIG.1 is a perspective view of a truck body or trailer with an elevator delivery systan, according to one embodiment of the present invention;
(~12] FIG. 2 is a sectional perspective view of the elevator delivery system shown in FIG. 1;
[0013] FIG. 3 is a top schematic view of one embodiment of the elevator delivery system;
[0014] FIG. 4 is a schematic view of one embodiment of the hydraulic control system used in the elevator delivery syst~;
[0015] FIGS. SA-SC are rear views of a truck body, according to one embodiment of the present invention, illustzating one method of using the elevator delivery system to unload cargo;
[0016] FIG. 6 is a perspective view of an elevator delivery system, according to a further embodiment of the present invention, with the platform in a raised extended position;
[OOI 7] FIG. 7 is a perspective view of the elevator delivery system shown in FIG. 6 with the platform being moved to an upright position;
[0018] FIG. 8 is a paBpective view of the elevator delivery system shown in FIG. 6 with the platform in an upright position;
[0019] .FiG. 9 is s pa~pec~ive view of the elevator delivery system shown in FIG. 6 with the platform in a lowered extended position;
(0020] FIG. 10 is a side view of the elevator delivery system shown in FIG. 6 with the platform in an upright raised position;
[0021] FIG. 11 is a top schematic view of the platform coupled to the pistons in the elevator delivery system, according to the embodiment shown in FIG. 6; and [0022] FIG. 12 is a side view of the platfoxm in the upright and extended positions in the elevator delivery system., according to the embodiment shown in FIG. 6.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIIVViENTS . ' [0023] Refen-ing to FIG. 1, an elevator delivery system 10, according to one embodiment of the present invention, is located in a truck body 12 for moving cargo relative to the bed 14 of the truck body i2. As used herein, the term "truck body" refers to both a non-detachable truck body and detachable truck body (e.g., trailer}. In the exemplary embodiment, the elevator delivery system 10 is located between the walls 16 forming the rear doorway 18, which is accessible by opening the door 19. A portion of the exemplary elevator delivery system 10 extends beyond the walls 16 outside of the truck body 12. Alternatively, the elevator delivery system 10 can be located at a side doorway or any other suitable location in the truck body 12.
[0024] Referring to FIG. 2, the elevator delivery system 10 comprises a platform 20 and at least two hydraulic cylinder/piston mechanisms 24a, 24b. Each of the hydraulic cylinder/pistan mechanisms 24a, 24b includes a piston 26a, 26b mounted to the platform 20 and a cylinder 28a, 28b mounted to the truck body 12 such that movement of the pistons 26a, 26b relative to the cylinders 28a, 28b causes movement of the platform 20 relative to the truck body I2. The pistons 26a, 26b and cylinders 28a, 28b can be mounted using any known techniques (e.g., by using plates or other fixtures welded to the platform 20 and the truck body 12). In the exemplary embodiment, the pistons 26a, 2tSb are mounted at opposite sides of the platform 20. Although the pistons 26a, 26b are shown mounted generally at a midpoint of the platform 20, the pistons 26a, 26b can be mounted in other locations on the platform 20. Iii the exemplary embodiment, the cylinders 28a, 28b are mounted to the bed 14 of the truck body 12. The cylinders 28a, 28b can also be mounted to other locations, such as to the walls 16 (see FIG. I ) of the truck body 12.
In a further embodiment (not shown), the cylinders 28a, 2tib can be located within the walls 16 of the truck body 12; thereby hiding the cylinders 28a, 28b and avoiding interference with the cargo.
[0025] A hydraulic control system 30, described in greater detail below, controls the supply of fluid to the hydraulic cylinder/piston mechanisms 24a, 24b and thus contxols the movement of the platform 20. The hydraulic control system 30 is preferably actuated fiom both inside and outside the truck body 12. For example, an outside up/down switch 32 is located outside of the thick body 12 to allow the user to raise and/or lower the platform 20 from outside of the truck body 12. The outside switch 32 is preferably in a location that keeps the user away from the platform 20 when it is being lowered. An inside upldown switch 34 is located inside the truck body io allow the user to raise and/or lower the platform 20 from inside the truck body 12, for ' example, when standing on the platform 20. Although the exemplary embodiment shows the hydraulic control system 30 in a location outside of and below the truck body 12, the hydraulic control system 30 can be located in other locations inside or outside of the truck body 12.
[0026] The cylinders 28a, 28b are coupled to the hydraulic control system 30 by way of hydraulic lines 40a, 40b. The hydraulic lines 40a, 40b are preferably in a location that will not interfere with loading and unloading cargo (e.g., under the truck bod 14). The outside switch 32 and the inside switch 34 are connected to the hydraulic control system 30 by way of wires 42, 44, respectively. Other connections between the hydraulic control system 30 and the cylinders 28a, 28b and the switches 32, 34 are also contemplated.
[0027) In one preferred embodiment, an edge switch 50 is locatod around the edge of the underside of the truck body 12 adjacent to the path of the moving platform 20.
The edge switch 50 is connected to the hydraulic control system 30 by way of wire 52. The edge switch 50 provides an added safety feature when the platform 20 is being raised. If an object, such as the cargo or the driver's foot, is positioned between the platform 20 and the underside of the truck body 12 when the platform 20 is being raised, the object. will actuate the edge switch 50.
Actuation of the edge switch 50 causes the hydraulic coatrol system 30 to preferably move the platform 20 downward to avoid damage or injury.
[0028] In another preferred embodiment, an audible alarm 54 alerts the operator that the platform 20 is being raised sndlor lowered. The audible alarm 54 can be connected to the hydraulic control system 30 and located in any location that permits the alarm to be heard near the elevator delivery system 10.
[OOZ9) One embodiment of the truck body 12 preferably includes bracing 60 surrounding the platform region 62, which receives the platform 20 in the raised position. A
lower portion b4 of the bracing 60 is preferably tapered such that an object (e.g., the driver's toe) that comes into contact with the tapered lower portion 64 will slide out of the way to avoid damage or injury. In this embodiment, the edge switch 50 is located beneath the tapered lower portion 64 of the bracing 60. A rubber seal (not shown) can be provided along tire top portion of the bracing 60 to seal against the platform 20 when raised. One embodiment of the platform 20 includes a ramp surface 6S at one side to allow cargo to be more easily wheeled off of the platform 20.
., (0030] Referring to FIG. 3, an exemplary embodiment of the elevator delivery system I O is shown schematically. In the exemplary embodiment, the truck body 12 includes 8" structural ' steel channels forming the bracing 60. The exemplary hydraulic cylinders 28a, 28b supported on the channels are single acting hydraulic cylinders having a bore of about 2 %z" and a length of about 77". The tapered lower portion.64 of the bracing 60 is a formed as a section having a width of about 5" flared out at about 45° under the channels. The exemplary platform 20 is made of 1" steel having a dimension of about 48" by 44" and having a 2" by 2"
bracing.
(0031] Referring to FIG. 4, an exemplary embodiment of the hydraulic control system 30 is shown schematically. According to this embodiment, the hydraulic control system 30 includes an electric hydraulic pump 72 with an electric solenoid 74 and a dump valve ?6. In one example, the pump 72 is a pump having a rating of about 2500 psi, such as the type available under the name Monarch from Monarch Hydraulics. The wires 42, 44 connect the solenoid 74 to the outside switch 32 and the inside switch 34 (see FIG. 2), respectively, and the wire 52 connects the dump valve 76 to the edge switch.50. The wire 88 connects the electric hydraulic pump 72 to a power souses such as the vehicle battery (not shown). The pump 72 is connected to a tank 80 (e.g., a 3 gallon tank) that supplies hydraulic fluid to the pump 72. A flow divider valve 82 is connected to the pump 72 by way of a hydraulic line 84 and connects the pump 72 to the hydraulic lines 40a, 40b from the cylinders 28a, 28b. The hydraulic control system 30 is preferably housed in an enclosure 86 that protects and allows access to the hydraulic control system 30.
[0032] In response to signals from the up/down switches 32, 34, the solenoid 74 actuates the pump 72 to pump hydraulic fluid through the lines 40a, 40b to or from the hydraulic cylinders 28a, 28b to lower or raise the platform 20. The flow divider valve 82 evenly distributes the hydraulic fluid pressure between the hydraulic cylinders 28a, 28b to maintain the platform 20 in a substantially level position when a load is being raised or lowered, thereby preventing the hydraulic cylinder/piston mechanisms 24a, 24b from binding. In response to the edge switch 50, the dump valve 76 is actuated causing the platform 20 to drop. In one embodiment, the elevator delivery system 10 at a back door of the truck body is capable of lifting about 2500 lbs. or more and the elevator delivery system 10 at a side door of the truck body is capable of lifting about 1500 lbs. or more, although this is not a limitation of the present invention.
[0033] In use, the platform 20 can be raised or lowered using either the outside switch 32 or the inside switch 34. Referring to FIGS. SA-SC, one method of using the elevator delivery system ' is described in greater detail. At the beginning of a delivery, the driver 92 can open the door 19 and drop the platform 20, for example, using the outside switch 32 (FIG.
5A). The driver 92 can then ride up on the platform 20 into the truck body 12 (using the inside switch 34) to load the cargo 90 onto the platform 20 (FIG. SB). When the platform 20 is loaded with the cargo 90, the driver 92 can lower the platform 20 and the cargo 90, for example, using the inside switch 34 (FIG. 5C). This process can be repeated until the delivery is completed. Thus, the driver 92 can use the elevator delivery system 20 to avoid having to climb in and~out of the truck when making deliveries.
[0034] Accordingly, the elevator delivery system 10 is relatively easy to opiate compared to existing devices and thus facilitates the unloading and loading of cargo into a truck or trailer.
The elevator delivery system 10 also has fewver moving parts and thus operates more efficiently and reliably than existing hydraulic tailgate and lift devices. The elevator delivery system 10 further provides a number of additional safety features to avoid injury to the operator. For example, the location of the inside switch and the outside switch 32, the edge switch 50, and the audible alarm 54 all provide safety features that will minimize injuries caused by using the elevator delivery system 10.
[0035] Referring to.FIGS. b-12, a further embodiment of an elevator delivery system 110 used in a truck body 112 is described in greater detail. This embodiment of the elevator delivery system 110 includes a platform 120 that moves between as exteaded position shown in FIG. 6 and an upright position shown in FIG. 8. In the upright position, the platform 120 is positioned betwtar the walls 116 of the truck body 112 and preferably flush with the walls 116.
When the platform 120 is moved to the extended position, the platform 120 extends outward from the truck bed 114 for loading. When in the extended position, the platform 120 can be moved between a raised position (FIG. 6) and a lowered position (FIG. 9).
[0036] The platform 120 is coupled to a drive mechanism 124 (FIG. 7), such as a hydraulic cylinderlpiston mechanism including a piston 126 and cylinder 128 on each side of the platform 120 to move the platform 120 between the raised position and the lowered position. The hydraulic cylinders 128 can be similar to those described above but are preferably double acting hydraulic cylinders capable of hydraulically moving the platform 120 downward as well as upward. The exemplary embodiment of the elevator delivery system 110 also includes a hydraulic coimol system (not shown) similar to that disclosed above but preferably with two ' flow dividers to provide the downward. hydraulic movement in addition to upward movement.
The elevator delivery system 110 can also include the switches and other features similar to those described above in connection with other embodiments.
[0037] The platform 120 is preferably coupled to the pistons 126 in a manner that allows the platform 120 to pivot between the upright and extended positions, as shown in FIGS. 10-12. In the exemplary embodiment, a shaft 102 extends through the platform 120 and is coupled at each end to the pistons 126 using brackets 104, 105 or other coupling devices known to those skilled in the art. Rallcr bearings 106,108 are mounted to the platform 120 and are rotatably mounted on the shaft 102, allowing the platform 120 to pivot from the upright position to the extended position (FIG. I2). The platform 120 preferably includes a Stop tab 150 that abuts a hard stop bar 152 or other rigid structure to maintain the platform 120 substantially horizontal in the extended position (FIG. 12). The platform 120 can also include a reinforcement bracket i 54 to provide additional reinforcement in the middle region of the platform 120.
[0038] In one example, the platform 120 is made of aluminum and is about 44"
by 32". Other materials and sizes are also contemplated. Where the platform 120 is made of a light-weight material such as aluminum, the drive mechanism 124 preferably moves the platform 120 downward. Where the platform 120 is made of a heavier material, gravity can move the platform 120 downward without being driven by the drive mechanism 124.
[0039] The elevator delivery system 110 fiuther includes foldable side rails I30 coupled between sides of the platform I20 and the walls 116 of the truck body, as a safety feature. The foldable side rails 130 include a first folding side bar 132 pivotably coupled to the side of the platform 120 and a second folding side bar 134 pivotably coupled to the first folding side bar 132, The second folding side bar 134 is pivotably coupled to a sliding bar 136. The sliding bar 136 can move freely or can be slidably mounted to the wall 116. In ono ~cample, the bars 132, 134 are flat bars made of steel. A chain or other similar structure (not shown) can be coupled between the foldable side rails 130 to provide an additional safety feature acmss the front of the platform 120.
[0040] In the exemplary embodiment, the elevator delivery system 110 is located in a side doorway I 18 of a truck body 112, although other locations arc contemplated.
Because the platform 120 does not form part of the floor of the truck bed 114, the elevator delivery system 110 can be operated without interfering with pallets or other cargo stacked at the doorway, ' (0041] Modifications and substitutions by one of ordinary skill in the art are considered to be within the scope of the present invention, which is not to be limited excopt by the following claims.
Claims (20)
1. An elevator delivery system for use in a truck body, comprising:
a retractable platform; and at least one drive mechanism for moving said retractable platform at least upward with respect to said truck body, wherein said platform is coupled to said drive mechanism such that said platform retracts into an upright position between walls of said truck body when said platform is in a raised position.
a retractable platform; and at least one drive mechanism for moving said retractable platform at least upward with respect to said truck body, wherein said platform is coupled to said drive mechanism such that said platform retracts into an upright position between walls of said truck body when said platform is in a raised position.
2. The elevator delivery system of claim 1 further comprising a control system, operably coupled to said drive mechanism, for controlling upward and downward movement of said platform, wherein said control system is actuatable by an operator while said operator is standing on said platform, and wherein said control system is actuatable from a location at which said platform is out of reach of said operator.
3. The elevator delivery system of claim 2 wherein said at least one drive mechanism includes:
at least two hydraulic cylinders mounted to said truck body; and at least two pistons mounted respectively on opposite sides of said platform, wherein said pistons move within said cylinders to move said platform relative to said truck body, and wherein said control system supplies hydraulic fluid to said hydraulic cylinders.
at least two hydraulic cylinders mounted to said truck body; and at least two pistons mounted respectively on opposite sides of said platform, wherein said pistons move within said cylinders to move said platform relative to said truck body, and wherein said control system supplies hydraulic fluid to said hydraulic cylinders.
4. The elevator delivery system of claim 3 wherein said platform is pivotably mounted between said pistons.
5. The elevator delivery system of claim 1 further comprising a foldable side rail coupled between each side of said platform and said walls of said truck body.
6. The elevator delivery system of claim 2 further comprising an inside switch for actuating said control system inside of said truck body, wherein said inside switch is located such that an operator of said inside switch is able to stand on said platform while said platform moves upward and downward.
7. The elevator delivery system of claim 6 further comprising an outside switch for actuating said control system outside of said truck body, wherein said outside switch is located such that said platform is away from an operator of said outside switch.
8. The elevator delivery system of claim 1 wherein said drive mechanism moves said platform upward and downward.
9. A combination truck body and elevator delivery system comprising:
an enclosed truck body having a bed, walls around said bed, and a door coupled to at least one of said walls for covering a doorway;
a platform mounted within said doorway such that said platform moves between an upright position between said walls of said truck body and an extended position extending outward from said doorway;
at least one drive mechanism mounted to said truck body on each side of said doorway and coupled to said platform for moving said platform at least upward; and a control system coupled to said drive mechanism for controlling said drive mechanism.
an enclosed truck body having a bed, walls around said bed, and a door coupled to at least one of said walls for covering a doorway;
a platform mounted within said doorway such that said platform moves between an upright position between said walls of said truck body and an extended position extending outward from said doorway;
at least one drive mechanism mounted to said truck body on each side of said doorway and coupled to said platform for moving said platform at least upward; and a control system coupled to said drive mechanism for controlling said drive mechanism.
10. The system of claim 9 wherein said doorway is in a side wall of said enclosed truck body.
11. The system of claim 9 wherein said doorway is in a rear wall of said enclosed truck body.
12. The system of claim 9 wherein said at least one drive mechanism includes:
at least two hydraulic cylinders mounted to said truck body; and at least two pistons mounted respectively on opposite sides of said platform, wherein said pistons move within said cylinders to move said platform relative to said truck body, and wherein said control system supplies hydraulic fluid to said hydraulic cylinders.
at least two hydraulic cylinders mounted to said truck body; and at least two pistons mounted respectively on opposite sides of said platform, wherein said pistons move within said cylinders to move said platform relative to said truck body, and wherein said control system supplies hydraulic fluid to said hydraulic cylinders.
13. The system of claim 9 further comprising an inside switch located inside of said truck body for actuating said control system from a location inside of said truck body, wherein said inside switch is located such that an operator of said inside switch is able to stand on said platform while said platform moves upward and downward.
14. The system of claim 13 further comprising an outside switch located outside of said truck body for actuating said control system from a location outside of said truck body, wherein said outside switch is located such that said platform is away from an operator of said outside switch.
15. The system of claim 9 further comprising an outside switch located outside of said truck body for actuating said control system from a location outside of said truck body, wherein said outside switch is located such that said platform is away from an operator of said outside switch.
16. The system of claim 9 further comprising a folding rail coupled between each side of said platform and said walls of said truck body.
17. The system of claim 9 wherein said drive mechanism moves said platform upward and downward.
18. The system of claim 12 wherein said hydraulic cylinders are hidden inside of said walls of said truck body.
19. The system of claim 9 wherein said control system is located outside of said truck body.
20. An elevator delivery system for use in a truck body, comprising:
a retractable platform;
at least two hydraulic cylinder/piston mechanisms for moving said platform upward and downward with respect to said truck body, said hydraulic cylinder/piston mechanisms including at least two pistons mounted respectively on opposite sides of said platform and at least two hydraulic cylinders mounted to said truck body, wherein said pistons move within said cylinders to move said platform relative to said truck body, and wherein said platform is mounted to said pistons such that said platform is movable between an upright position and an extended position;
a hydraulic control system for supplying hydraulic fluid to said hydraulic cylinders to control the upward and downward movement of said platform;
an inside switch for actuating said hydraulic control system from a location inside of said truck body, wherein said inside switch is located such that an operator of said inside switch is able to stand on said platform while said platform moves upward and downward;
and an outside switch for actuating said hydraulic control system from a location outside of said truck body, wherein said outside switch is located such that said platform is away from an operator of said outside switch.
a retractable platform;
at least two hydraulic cylinder/piston mechanisms for moving said platform upward and downward with respect to said truck body, said hydraulic cylinder/piston mechanisms including at least two pistons mounted respectively on opposite sides of said platform and at least two hydraulic cylinders mounted to said truck body, wherein said pistons move within said cylinders to move said platform relative to said truck body, and wherein said platform is mounted to said pistons such that said platform is movable between an upright position and an extended position;
a hydraulic control system for supplying hydraulic fluid to said hydraulic cylinders to control the upward and downward movement of said platform;
an inside switch for actuating said hydraulic control system from a location inside of said truck body, wherein said inside switch is located such that an operator of said inside switch is able to stand on said platform while said platform moves upward and downward;
and an outside switch for actuating said hydraulic control system from a location outside of said truck body, wherein said outside switch is located such that said platform is away from an operator of said outside switch.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/696,731 US20050058528A1 (en) | 2002-05-01 | 2003-10-29 | Elevator delivery system for use in truck body or trailer |
US10/696,731 | 2003-10-29 |
Publications (1)
Publication Number | Publication Date |
---|---|
CA2486010A1 true CA2486010A1 (en) | 2005-04-29 |
Family
ID=34522912
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA002486010A Abandoned CA2486010A1 (en) | 2003-10-29 | 2004-10-28 | Elevator delivery system for use in truck body or trailer |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA2486010A1 (en) |
-
2004
- 2004-10-28 CA CA002486010A patent/CA2486010A1/en not_active Abandoned
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