Module with nozzle boot for a fuel dispensing unit

Information

  • Patent Grant
  • 9315373
  • Patent Number
    9,315,373
  • Date Filed
    Friday, August 1, 2014
    10 years ago
  • Date Issued
    Tuesday, April 19, 2016
    8 years ago
Abstract
A nozzle module for a fuel dispensing unit is described. The nozzle module has a top section attachable to a column module of the fuel dispensing unit, a bottom section attachable to a base module of the fuel dispensing unit, at least one nozzle boot for holding a nozzle, which nozzle boot is arranged between the top section and the bottom section. The nozzle module has an internal channel enabling fluid communication through the nozzle module. A fuel dispensing unit is also described.
Description
FIELD OF THE INVENTION

The present invention relates to a nozzle module for a fuel dispensing unit and a fuel dispensing unit having such a nozzle module.


BACKGROUND OF THE INVENTION

A fuel dispensing unit used for filling the fuel tank of a motor vehicle with fuel is a complex device containing a vast number of components connected to each other. The components of a fuel dispensing unit can be divided into two categories, the inner components which are not visual to a user and the outer components surrounding the inner components. The inner components typically comprise hydraulics and a tube arrangement for dispensing fuel from an underground fuel reservoir together with electronic components controlling the fuel dispensing unit. The outer components represent the fundamental structure of the fuel dispensing unit protecting and supporting the so important inner components. In view of the above, the number of components in a conventional fuel dispensing unit is very high. Due to this vast number of components required in a fuel dispensing unit, the costs for production and mounting is a constant issue is this line of business. Traditionally, there has been a great focus on the inner components in the development of fuel dispensing units, and thus also when addressing the problem of production and mounting costs. Accordingly, the development of the outer components of a fuel dispensing unit has not kept up with the one of the inner components. This fact is obvious from the prior art in this technical field.


Thus, a problem with the fuel dispensing units today is the costs for producing and mounting the high number of components, especially in regard of the so called outer components since the development of the same has kept a proportionately slow pace.


SUMMARY OF THE INVENTION

It is an object of the present invention to provide an improvement of the prior art. More particularly, it is an object of the present invention to decrease the number of components in a fuel dispensing unit and to simplify the mounting of the same.


These and other objects as well as advantages that will be apparent from the following description of the present invention are achieved by a nozzle module for a fuel dispensing unit and a fuel dispensing unit having such a nozzle module according to the claims below.


Thus, a nozzle module for a fuel dispensing unit is provided, comprising a top section attachable to a column module of said fuel dispensing unit, a bottom section attachable to a base module of said fuel dispensing unit, at least one nozzle boot for holding a nozzle, which nozzle boot is arranged between said top section and said bottom section, and an internal channel enabling fluid communication through said nozzle module. This is advantageous in that the assembling of the nozzle module will be facilitated. The nozzle module is placed above of the base module of a fuel dispensing unit and possible fuel pipe means may for example run from the base module, through the internal channel of the nozzle module, and further up in the column module placed above the nozzle module. Accordingly, the fuel pipe means is hidden and protected within the modules of the fuel dispensing unit. Further, the same nozzle module may be used in several different fuel dispensing units without greater modification. If the fuel dispensing unit for example is to carry several nozzles on each side of the fuel dispensing unit, the nozzle modules are slightly modified in order to be able to carry a plurality of nozzle boots. This way, the number of different components will be lowered effecting the production and mounting costs in an advantageously manner.


The bottom section may be adapted to be arranged above said base 30 module of said fuel dispensing unit, which is advantageous in that the nozzle module will be given a rigid and stable support from said base module.


The internal channel may extend between said top section and said bottom section. In this way, the internal channel is hidden and protected within the nozzle module.


The internal channel may be adapted to receive a tube arrangement. In this way, parts of or the overall tube arrangement will be hidden and protected within said internal channel. Another possibility is that the internal channel comprises at least one tube of a tube arrangement. With this solution, the nozzle module may further comprise quick couplings for connecting the at least one tube with additional parts of said tube arrangement. This is advantageous in that a leak proof fluid communication between the at least one tube and the additional parts of the tube arrangement will be created. Tube arrangement may comprise separate tubes for fuel distribution and vapor recovery. When filling the fuel tank of a motor vehicle, it is a common measure to recover the vapor escaping the tank when filling it with liquid fuel. This measure is taken for both safety and environmental reasons. The vapor recovery is achieved, for instance, by arranging a vapor suction nozzle next to the fuel dispensing nozzle of a pistol grip for filling the tank with fuel. Vapor is then removed from the tank during filling, at a certain rate, which is often controlled by the standard rate of at which fuel is dispensed to the tank. Accordingly, since both fuel and potentially fuel vapor travels though the nozzle module, the assembly of the components together forming the tube arrangement is of great importance.


The nozzle module may have a cross section of a truncated cone, the bottom section forming the base of said truncated cone. Further, the nozzle module may have two parallel side sections each extending in a tapering manner from the bottom section to the top section, and two side sections which extend in a mutual converging manner from the bottom section to the top section. This is a suitable and aesthetically pleasing shape of the nozzle module.


The two side sections extending in a mutual converging manner from the bottom section to the top section may comprise at least one nozzle boot. The placement of the nozzle boot in an inclined section is advantageous in that the removal of the nozzle from said nozzle boot is facilitated.


The at least one nozzle boot may be integrally formed with said nozzle module, which is advantageous in a manufacturing perspective due to the reduction of yet a component in the fuel dispensing unit. According to a second aspect of the present invention, the invention relates to a fuel dispensing unit comprising a nozzle module according to the above described features.


Generally, all terms used in the claims are to be interpreted according to their ordinary meaning in the technical field, unless explicitly defined otherwise herein. All references to “a/an/the [element, device, component, means, etc.]” are to be interpreted openly as referring to at least one instance of said element, device, component, means, etc., unless explicitly stated otherwise.





BRIEF DESCRIPTION OF THE DRAWINGS

The above, as well as additional objects, features and advantages of the present invention, will be better understood through the following illustrative and non-limiting detailed description of preferred embodiments of the present invention, with reference to the appended drawings, where the same reference numerals will be used for similar elements, wherein:



FIG. 1 is a perspective view of a nozzle module according to a first embodiment of the invention,



FIG. 2 is a perspective view of a nozzle module according to a second embodiment of the invention,



FIG. 3 is a perspective view of a nozzle module according to a third embodiment of the invention, and



FIG. 4 is a perspective view of a nozzle module according to the first embodiment of the invention when assembled in a fuel dispensing unit.





DETAILED DESCRIPTION


FIG. 1 illustrates a nozzle module 1 according to a first embodiment of the invention. The nozzle module 1 has a top section 2, a bottom section 3 and four side sections 4, 5, 6, 7. The top section 2 is attachable to a column module of a fuel dispensing unit and the bottom section 3 is attachable to a base module of a fuel dispensing unit. Two of the side sections 4, 5 are parallel and extend in a tapering manner from the bottom section 3 to the top section 2. The other two side sections 6, 7 extend in a mutual converging manner from the bottom section 3 to the top section 2. Accordingly, the nozzle module 1 has essentially a cross section of a truncated cone, wherein the bottom section 3 forms the base of the truncated cone. The side sections 6, 7 extending in a mutual converging manner from the bottom section 3 to the top section 2 comprises a nozzle boot 8, respectively. Each nozzle boot 8 is adapted to carry a nozzle. The nozzle module 1 has an internal channel 9 enabling fluid communication through the nozzle module 1. The internal channel 9 is adapted to receive a tube arrangement 19 of a fuel dispensing unit and extends between the top section 2 and the bottom section 3 of the nozzle module 1.


The nozzle module 1 may be provided with attachment means for attaching the nozzle module 1 to the base module of the fuel dispensing unit. In the embodiment shown in FIG. 1 this attachment means comprises protrusions extending from said side sections 4, 5. The base module may comprise recesses for receipt of these protrusions in the assembled state of the fuel dispensing unit.


In FIG. 2, the nozzle module 1 is illustrated according to a second embodiment of the invention. In this embodiment, the nozzle module 1 the internal channel 9 comprises has three internal tubes 10, 11, 12. Two of the internal tubes 10, 11 are fuel lines and one of the internal tubes 12 is a common vapor recovery line. The nozzle module 1 further comprises quick 25 couplings 13, 14, 15 for connecting the three internal tubes 10, 11, 12 with tubes of a fuel dispensing unit. Naturally, the amount of internal tubes may be varied due to the amount of hoses carried by the fuel dispensing unit in which the nozzle module 1 is assembled, if vapor recovery means are present or not and how these means in that case are provided.



FIG. 3 illustrates the nozzle module 1 according to a third embodiment of the invention. In this embodiment, the side sections 6, 7 extending in a mutual converging manner from the bottom section 3 to the top section 2 comprises two nozzle boots 8, respectively. Each nozzle boot 8 is adapted to carry a nozzle.



FIG. 4 illustrates a fuel dispensing unit 16 having two nozzle modules 1, one on each side of the fuel dispensing unit 16. The fuel dispensing unit 16 comprises six different types of modules 17, 18, 1, 20, 21, 22. The modules 17, 18, 1, 20, 21, 22 are constituted by a base module 17, an electronics module 18, two nozzle modules 1, two column modules 20, a top module 21 and a display module 22.


The electronics module 18 is arranged above of the base module 17, 10 the nozzle modules 1 are arranged above the base module 17, the column modules 20 are arranged above the nozzle modules 1 and the top module 21 is arranged above the column modules 20.


The arrangement of one module above or on top of another module results in joints between modules extending in a horizontal direction.


The base module 17 contains the hydraulics (not shown) of the fuel dispensing unit 16, such as fuel metering means, valves, pumps, vapor recovery system, etc. The exterior of the base module 17 comprises display surfaces for prints. The electronics module contains means for controlling the fuel dispensing unit 16 and comprises a user interface 23 on one of its outer surfaces. The user interface 23 is adapted to show pump data and is equipped to handle payment of fuel after refueling. Each one of the nozzle modules 1 holds two nozzle boots 8, one on each side of the nozzle module 1, which nozzle boots 8 are intended to carry a nozzle 24, respectively. The nozzle boots 8 may be integrally formed with the nozzle module 1. The column modules 20 are to be arranged above or on top of the nozzle module 1 in order to elevate and support the top module 21 when assembled. The top module 21 itself comprises display surfaces for prints. However the top module 21 is also adapted to receive a display module 22, which in turn comprises display surfaces for prints.


When assembling the fuel dispensing unit 16, the base module 17 is positioned on the ground in a suitable location for the fuel dispensing unit 16. The electronics module 18 is arranged on top of the base module 17, whereby the user interface 23 will be located in a suitable height for a user of the fuel dispensing unit 16. A through opening is provided in the electronics module 18 separating said user interface 23 from said base module 17. Two nozzle modules 1 are arranged on top of the base module 17, one on each side of the electronics module 18. Each nozzle module 1 carries two nozzle boots 8 located opposite to each other and adapted to receive a nozzle 24, respectively. A column module 20 is arranged on top of each one of the nozzle modules 1. The two column modules 20 in turn carry a top module 21, which is arranged on top of the two column modules 20. A display module 22 is arranged at the top module 21, which display module 22 partly surrounds the top module 21. The display module 22 comprises display surfaces for prints. The fuel dispensing unit 16 has a tube arrangement 19 and a hose 25 connected thereto for transporting fuel from an underground fuel reservoir (not shown) to the nozzle 24. The tube arrangement 19 extends from the underground fuel reservoir to and through the nozzle module 1. Above the nozzle module 1, the tube arrangement 19 is connected to the hoses 25 belonging to that particular side of the fuel dispensing unit 16. The same connection between the tube arrangement 19 and the hoses 25 is made in the nozzle module 1 located on the other side of the fuel dispensing unit 16. The hoses 25 then in turn extend from the nozzle module 1 to a respective nozzle 24 via the column module 20 and the top module 21. This way, the tube arrangement 19 is enclosed by the base module 17, the nozzle module 1, and the hoses 25 are partly enclosed by the column module 20 and the top module 21. The tube arrangement 19 may, however, extend from said base module 17 to the column module 20 and be connected to the hoses 25 in the column module 20. The hoses 25 then extend from the column module 20 to the nozzles 24 via the top module 21. Another possibility is for the tube arrangement 19 to extend from the base module 17 all the way to the top module 21. With this solution the hoses 25 then extend directly from the top module 21 to the nozzles 24. When assembling the nozzle module 1 in the fuel dispensing unit 16, the nozzle module 1 is thread over the tube arrangement 19 and placed on top of the base module 17, such that a part of the tube arrangement is enclosed by the nozzle module 1. The nozzle module 1 may also be adapted to contain electronic cables which for example are to extend between different parts of the electronics module 18.


The nozzle module 1 may have at least one protrusion projecting upwardly in a substantially vertical direction of the fuel dispensing unit 16 to be received in a corresponding a recess of the column module 20, in order to position the column module 20 in relation to the nozzle module 1. The extension of the at least one protrusion may of course be varied. In one embodiment, the at least one protrusion extends throughout the entire length of the column module 20 and into the top module 21. In another embodiment, the at least one protrusion extend substantially throughout the length of the column module 20.


The nozzle module 1 may have a recess for receiving a corresponding protrusion of the column module 20, in order to position the column module 20 in relation to the nozzle module 1. The nozzle module 1 may have at least one protrusion projecting downwardly in a substantially vertical direction of the fuel dispensing unit 16 to be received in a corresponding a recess of the base module 17, in order to position the nozzle module 1 in relation to the base module 17. The extension of the at least one protrusion may of course be varied.


The nozzle module 1 may have a recess for receiving a corresponding protrusion of the base module 17, in order to position the nozzle module 1 in relation to the base module 17.


According to a second aspect of the invention a fuel dispensing unit is provided comprising a nozzle module according to the above described features. The invention has mainly been described above with reference to a few embodiments. However, as is ready appreciated by a person skilled in the art, other embodiments than the ones disclosed above are equally possible within the scope of the inventions, as defined by the appended claims.

Claims
  • 1. A fuel dispensing unit, comprising: a housing having a base section, a top section, and at least one nozzle module disposed between the base section and the top section, the at least one nozzle module having an internal channel having opposite open ends, the internal channel extending therethrough between a top surface of the nozzle module and a bottom surface of the nozzle module, the internal channel enabling fluid communication from the base section to the top section of the housing, the base section having an opening formed in a top surface thereof, the opening being in communication with the open ends of the internal channel; anda tubular member coupled to the top section of the housing and configured to receive fuel delivered from the base section through the internal channel, and to deliver the fuel to a nozzle at a terminal end of the tubular member.
  • 2. The fuel dispensing unit of claim 1, further comprising an electronics module disposed between the base section and the top section.
  • 3. The fuel dispensing unit of claim 1, wherein the nozzle module includes a nozzle boot for seating the nozzle at the terminal end of the tubular member.
  • 4. The fuel dispensing unit of claim 1, wherein one of the open ends of the internal channel is formed in the bottom surface of the nozzle module.
  • 5. The fuel dispensing unit of claim 1, wherein the internal channel includes a tube extending therethrough and coupled between the base section and the top section, the tube being in fluid communication with the tubular member.
  • 6. The fuel dispensing unit of claim 5, wherein the tube includes first and second couplings disposed at opposite ends thereof.
  • 7. The fuel dispensing unit of claim 1, wherein the internal channel comprises a first internal channel, and wherein the at least one nozzle module includes a second internal channel extending through the nozzle module for enabling fluid communication from the base section to the top section of the housing.
  • 8. The fuel dispensing unit of claim 7, wherein the first internal channel is configured to receive fuel therethrough and the second internal channel comprises a vapor recovery channel.
  • 9. A fuel dispensing unit, comprising: a base section;a nozzle module arranged on top of the base section, the nozzle module having a nozzle boot formed therein;a column module arranged on top of the nozzle module;a top section arranged on top of the column module; anda tubular member having a first end coupled to the top section and a second end having a nozzle disposed thereon and configured to be received within the nozzle boot;wherein a fluid lumen extends from the base section, through an internal channel extending from a bottom of the nozzle module to a top of the nozzle module, through the column module, and through the top section to connect to the tubular member and thereby allow fuel to be delivered to the nozzle on the end of the tubular member.
  • 10. The fuel dispensing unit of claim 9, wherein the fluid lumen comprises a tube having a first end coupled to the base section and a second end coupled to the tubular member.
  • 11. The fuel dispensing unit of claim 9, wherein the internal channel includes a first coupling at a top end of the nozzle module for coupling to a tube extending through the column module, and the internal channel includes a second coupling at a bottom end of the nozzle module for coupling to a tube extending into the base section.
  • 12. The duel dispensing unit of claim 9, further comprising an electronics module arranged on top of the base section and adjacent to the nozzle module.
  • 13. The fuel dispensing unit of claim 9, wherein the internal channel comprises a first internal channel, and wherein the nozzle module includes a second internal channel extending therethrough.
  • 14. The fuel dispensing unit of claim 13, further comprising a vapor recovery tube extending through the second internal channel.
CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No. 13/502,327 filed on Apr. 16, 2012 and entitled “Module with Nozzle Boot for a Fuel Dispensing Unit,” which is a '371 of International Application No. PCT/EP2009/063623 filed on Oct. 16, 2009 and entitled “Module with Nozzle Boot for a Fuel Dispensing Unit,” which are hereby incorporated by reference in their entirety.

US Referenced Citations (22)
Number Name Date Kind
2364138 Grise Dec 1944 A
3985167 Roque Oct 1976 A
4131218 Tatsuno Dec 1978 A
4240475 Schulz Dec 1980 A
4252161 Krupp Feb 1981 A
5083846 Day, Jr. et al. Jan 1992 A
5452750 Miller et al. Sep 1995 A
5918766 Osborne Jul 1999 A
6167922 Seitz et al. Jan 2001 B1
6328060 Smith Dec 2001 B1
6543687 Negley et al. Apr 2003 B2
8430429 Larsson et al. Apr 2013 B2
8814001 Birkler et al. Aug 2014 B2
20010029998 White et al. Oct 2001 A1
20080006652 Wemmert Jan 2008 A1
20100139782 Deline et al. Jun 2010 A1
20110089190 Gehman Apr 2011 A1
20120199242 Larsson et al. Aug 2012 A1
20120267370 Birkler et al. Oct 2012 A1
20120305089 Larsson Dec 2012 A1
20130001246 Birkler et al. Jan 2013 A1
20130112706 Larsson et al. May 2013 A1
Foreign Referenced Citations (5)
Number Date Country
1860058 Nov 2007 EP
2242889 Oct 1991 GB
9626155 Aug 1996 WO
9925644 May 1999 WO
2009023782 Feb 2009 WO
Non-Patent Literature Citations (2)
Entry
Office action issued in Chinese Application No. 200980162967.7 dated Jul. 1, 2013.
International Search Report issued in International Application No. PCT/EP2009/063623 dated Jul. 30, 2010.
Related Publications (1)
Number Date Country
20140338786 A1 Nov 2014 US
Continuations (1)
Number Date Country
Parent 13502327 US
Child 14449915 US