Volatile liquids refueling apparatus

Abstract

A volatile liquid refueling apparatus, which includes a probe including an outer collar, and a receiver including a receiving collar, where the outer collar of the probe and the receiving collar of the receiver are configured to join to create a vapor-tight enclosure, and where the receiver further includes a locking mechanism whereby the apparatus can be locked in an open position.

Claims

1. A volatile liquid refueling apparatus, comprising: a probe including an outer collar; and a receiver including a receiving collar, where said outer collar of said probe and said receiving collar of said receiver are configured to join to create a vapor-tight enclosure, and where said receiver further comprises a locking mechanism whereby said receiver can be locked in an open position when said probe is disengaged from said receiver.

2. The apparatus of claim 1 wherein: said receiver includes a receiver housing which is configured with a lock-down channel, and said receiver further includes a lock-down nut.

3. The apparatus of claim 1 wherein: said locking mechanism comprises a lock-down nut and lock-down channel including a side passage.

4. The apparatus of claim 1 wherein: said probe includes a vent tube.

5. The apparatus of claim 1 wherein: said probe includes a slip ring and said outer collar includes a detent into which said slip ring may be detained.

6. The apparatus of claim 1 wherein: said probe includes a fuel bottle adaptor.

7. The apparatus of claim 1 wherein: said receiver includes a lower adaptor.

8. A vapor-tight compound enclosure, comprising: a probe including an outer collar; and a receiver including a receiving collar, where said outer collar of said probe and said receiving collar of said receiver are configured to join to create a vapor-tight enclosure, and where said receiver further comprises a locking mechanism whereby said receiver can be locked in an open position when said probe is disengaged from said receiver.

9. The enclosure of claim 8 wherein: said receiver includes a receiver housing which is configured with a lock-down channel, and said receiver further includes a lock-down nut.

10. The enclosure of claim 8 wherein: said locking mechanism comprises a lock-down nut and lock-down channel including a side passage.

11. The enclosure of claim 8 wherein: said probe includes a vent tube.

12. The enclosure of claim 8 wherein: said probe includes a slip ring and said outer collar includes a detent into which said slip ring may be detained.

13. The enclosure of claim 8 wherein: said probe includes a fuel bottle adaptor.

14. The enclosure of claim 8 wherein: said receiver includes a lower adaptor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The purposes and advantages of the present invention will be apparent from the following detailed description in conjunction with the appended drawings in which:

(2) FIG. 1 shows an exploded view of the major elements of the present invention in use with the tank of a fueled device;

(3) FIG. 2 shows the present invention in use with the tank of a fueled device;

(4) FIG. 3 shows a detailed view of the present invention in use with the tank of a fueled device;

(5) FIG. 4A shows a probe portion of the present invention;

(6) FIG. 4B shows a cut-away view of the probe of the present invention as taken through line B-B of FIG. 4A;

(7) FIG. 5A shows a receiver portion of the present invention;

(8) FIG. 5B shows a cut-away view of the receiver of the present invention as taken through line B-B of FIG. 5A;

(9) FIG. 6 shows a cut-away view of the apparatus of the present invention in the first stage of attachment;

(10) FIG. 7 shows a cut-away view of the apparatus of the present invention in the second stage of attachment;

(11) FIG. 8 shows a cut-away view of the apparatus of the present invention in the third stage of attachment;

(12) FIG. 9 shows an isometric view of the receiver portion of the present apparatus with the lock-down nut and channel; and

(13) FIG. 10 shows an isometric view with cut-away of the receiver portion of the present apparatus engaged with a screwdriver to engage the lock-down mechanism.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(14) The present invention is a volatile liquids refueling apparatus. It includes a probe 12 and a receiver 14, and together the overall apparatus will be referred to as the refueling apparatus 10. The present refueling apparatus 10 provides a vapor-tight enclosure 11, which allows the transfer of volatile liquids while containing any ignitable vapors

(15) The refueling apparatus 10 is designed to work with a fueled device, such as a chain saw (not shown), illustrated in FIG. 1, which may be in need of refueling during continuous operations, such as when being used to create fire breaks when fighting forest fires. The chain saw has a fuel tank 2 with an input port 3 which is closed with a cap (not shown). When in use, the receiver 14 replaces the cap on the fuel tank 2.

(16) The probe 12 is attached or connected to a refueling source, such as a fuel bottle 5, which is typically a bottle or possible a hose that supplies fuel through the probe 12.

(17) When in use, the probe 12 with attached fuel bottle 5 engages the receiver 14 which has been stationed in the tank 2 of the chain saw. The attachment of the probe 12 takes place in three basic stages, which are illustrated in FIGS. 6-8, and will be discussed in detail below.

(18) The probe 12 is shown in FIG. 4A and in cross-section in FIG. 4B, which is taken from line A-A in FIG. 4A. Referring now to both FIGS. 4A and 4B, the probe 12 includes fuel bottle adaptor 20 having screw threads 22, an O-ring 24, spring cup 26, spring 28, outer collar 30, seal ring 32, slip ring 34 and aperture 36. Running through the middle of the structure is a central tube 40, which extends into the fuel bottle 5 (see FIG. 1) and directs fuel through the receiver 14 to the fuel tank 2.

(19) The receiver 14 is shown in FIG. 5A and in cross-section in FIG. 5B, which is taken from line B-B in FIG. 5A. Referring now to both FIGS. 5A and 5B, the receiver 14 includes receiver collar 50, receiver aperture 52, O-ring 54, lower adapter 56, plunger 58, spring 60, lower spring plate 62 and receiver housing 64. Also included are a lock-down nut 66 and a lock down channel 68, which will be discussed in more detail below.

(20) FIGS. 6-8 show the three stages of attachment between the probe 12 and the receiver 14. It will be assumed that the receiver 14 has been secured onto the chain saw fuel tank 2 in place of the cap, using the lower adaptor 56. The receiver 14 is installed by removing the original cap, dropping the receiver 14 into the input port (see FIG. 1) and tightening it using the large hex end of a bar tool. The lower adaptor 56 and O-ring 54 configuration are made to fit the same as the original cap, and is preferably made almost entirely of 6061-T6 aluminum in order to keep weight to a minimum and improve durability. Also, vent tube 42, shown in FIG. 4A-B is not shown, but extends from within central tube 40 into the fuel bottle, also not shown, in order to allow vapors to vent from the saw's fuel tank.

(21) The probe 12 is designed to seal against the receiver 14 and is activated in 3 separate stages. The probe 12 includes a slip ring 34, which allows the probe 12 to be extended in the correct order. This is a critical safety feature so that the probe 12 can only be extended if installed into the receiver 14. At no time can it be accidently opened during transportation or storage.

(22) In Stage 1, shown in FIG. 6, the probe 12 is mated with the receiver 14 and is aligned as shown in FIGS. 6, 7, and 8. At this point the receiving aperture 52 and the aperture 36 are aligned. During this stage the slip ring 34 is still in the locked position.

(23) In Stage 2, as seen in FIG. 7, the probe 12 is inserted into the receiver 14 and a seal is made between the seal ring 32 and the receiver 14. At this point the system is now in a sealed state and no vapors, pressure or fuel can escape into the atmosphere. In addition, the outer collar 30 is moved into position so that the slip ring 34 can be pushed up by the seal ring 32. During this stage no fuel has been exchanged.

(24) In Stage 3, as shown in FIG. 8, the probe 12 is further inserted into the receiver 14. As the probe extends it makes contact with the plunger 58 and is pressed down breaking the seal with the upper lip on the receiving collar 50. At this point the seal is also broken between the central tube 40 and the seal ring 32 and allows fuel to flow and air to return though the vent tube 42.

(25) This works on a fluid exchange principle, instead of a displacement principle. Typically, it is necessary to open both the fuel cap on the saw in addition to the cap on the fuel can, and then pour liquid fuel into the saw exposing both the fuel and vapor to the atmosphere. In contrast, the present apparatus is sealed providing a vapor-tight compound enclosure 11. Once the fuel probe 12 and the fuel tank 2 are connected, fluid is simply exchanged from one to the other without back pressure to inhibit the flow.

(26) As the probe 12 is retracted fuel stops flowing once the central tube 40 becomes fully retracted into the seal ring 32. At the same time the plunger 58 seal the fuel tank as it mates with the upper lip on the receiving collar 50. Finally the slip ring 34 is pushed back into the groove on the central tube 40 as illustrated in FIG. 7 and the seal is broken between the seal ring 38 and the receiving collar 50.

(27) An important feature of the present invention is that the apparatus of the present invention can be locked in the open position so the user can fill or empty the tank 2 without the use of the probe 12 if necessary, using a chainsaw bar tool or screwdriver.

(28) Referring now to FIGS. 4A-B and FIGS. 9 and 10, a slot 72 in the top of the plunger 58 and a lock-down mechanism 65 allow the user to press the plunger 58 down with a bar tool or screw driver and turn it to lock it in an open position. The lock-down mechanism preferably includes a lock-down screw 66 which travels down a lock-down channel 68 and is turned into a side passage 70 by rotation of the screw slot 70, where the lock-down screw 66 is captured. This locks the plunger 58 in the down position so that the saw can be filled with a traditional fuel container.

(29) The threaded adaptor 20 allows the present apparatus to be installed by hand (no tools needed) onto a standard fuel (SIG) bottle.

(30) While various embodiments have been described above, it should be understood that they have been presented by way of example only, and not limitation.

(31) The inclusion of springs in the probe and the receiver of the system adds an additional level of safety in the field because if the device being fueled and the fuel bottle are dropped in an emergency situation (for example running from sudden fire surge or falling tree limb) the springs will act to automatically disengage the fuel bottle from the device being fueled and close themselves off, and thereby prevent accidental fuel spill and potential for a dangerous flammable fuel spill. Existing devices do not have this feature and will not necessarily disengage if the user drops them or stops putting pressure on the filler side to hold it into the receiver side. This feature adds a significant level of added safety when the device is being used in a firefighting scenario or other situation where a fuel spill could pose extreme danger to the user and anybody close by.