US1742208A - Liquid-delivery apparatus - Google Patents

Liquid-delivery apparatus Download PDF

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Publication number
US1742208A
US1742208A US179334A US17933427A US1742208A US 1742208 A US1742208 A US 1742208A US 179334 A US179334 A US 179334A US 17933427 A US17933427 A US 17933427A US 1742208 A US1742208 A US 1742208A
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Prior art keywords
liquid
delivery
hose
valve
tank
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Expired - Lifetime
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US179334A
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John J Hawxhurst
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LIQUID DISPENSING SYSTEMS Inc
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LIQUID DISPENSING SYSTEMS Inc
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Priority to US179334A priority Critical patent/US1742208A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67DDISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
    • B67D7/00Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes
    • B67D7/06Details or accessories
    • B67D7/08Arrangements of devices for controlling, indicating, metering or registering quantity or price of liquid transferred
    • B67D7/16Arrangements of liquid meters

Definitions

  • This invention relates particularly, though not exclusively, to the handling of gasoline and liquids of a similar hazardous nature.
  • Special objects of the invention are to keep 5 the hose orfinal delivery connection dry 'or empty in the non-delivery condition of the apparatus and to take the pressure ofl' the delivery line leading up to the hose, when the apparatus is not in use.
  • Collateral objects conveniently accessible at the delivery nozzle of the hose for simultaneously admitting pressure to the line and for discharging the liquid in continu'ously metered supply from the hose.
  • Figure 1 is a side elevation of the complete apparatus with the delivery stands and other portions of the installation indicated in broken lines. I n
  • Figure 2 is an enlarged broken and part sectional View illustratingparticularly the controls and connections.
  • the gasoline or other liquid is stored in tanks 3 and taken from there by piping 4 and pump 5, which latter discharges by pipe 6 into a delivery or pressure tank 7. From delivery tank the liquid flows through piping 8 and branches 9 to one or more delivery stands having meters 10 and discharge hoses 11.
  • the delivery at each stand is controlled by a valve 12 interposed in the feed line and actuated by a magnet 13.
  • This magnet in each case is under control of a push button 14 located on the hose approximately three feet back of the mouth of the nozzle and connected with the magnet by a suitable control cable extending back along the hose.
  • the delivery line 8 leading tothe stands is governed by a control valve 15 actuated by an electromagnet 16.
  • the push button 14 on the hose closes'three contacts at 21, 22, 23 at the outer terminus of the cable 43, this cable having at itsinner end a plug 24 carrying blades or prongs 21, 22?, 23 coacting with terminal contacts 21 22 23 1
  • the first of these contacts is shown connected by wire 25 with the delivery magnet 13 which has a,wire 26 connecting with the branch 27 ofone side of the control circuit 20. From the other side of said control cir cuit a branch by springs 37 pulling down on the core and valve stem to force the valve to its s'eat.
  • the plug terminals are all shown housed in a suitable terminal box 38.
  • the control connections at any hose may be interrupted by simply-pulling out the plug 24.
  • the control may be readily cut out whenever 'desired and the same will be automatically interrupt'ed if the hose should he accidentally torn away from the stand.
  • a suitable screen for the meter is indicated at 39.
  • a manually operable shut-ofi' valve may be provided at each stand as indicated at 40.
  • the pump 5 is shown as automatically controlled by a pressure actuated switch 41 connected by piping 42 with the pressure tank 7.
  • the automatic switch 41 is set to cause the pump 5 to transfer liquid from the storage 0
  • this automatic control liquid under pressure is maintained in tank 7 ready to be delivered through line 8 and branches 9 to the various delivery stands.
  • To'deliverany desired quantity of liquid therefore, it is only necessary to press the hose button 14 and to open the nozzle valve 44.
  • the pushbutton simultaneously closes circuits through both the delivery magnet valve 12 and pressure magnet valve 15, opening said valves and permitting the liquid under pressure to flow from the hose under control of the nozzle valve 44.
  • This liquid is metered as it flows through the hose to the nozzle and as much as may be required may be delivered continuously, without interruption, at any time. ⁇ Vhen the push-button is released, the tank supply valve and the delivery valve both snap closed.
  • the main valve is usually undergrounded where it is safely protected from injury.
  • the use of the two valves in tandem prevents any hammer or back surge which might have a tendency to impart an impulse to the meter when the flow is cut off.
  • liquid delivery apparatus the combination with a delivery stand, a pressure tank and a delivery line extending from said tank to said delivery stand, of a delivery valve in said line at the delivery stand.
  • a positively closing supply valve in said line adjacent the pressure tank and means for sub stantially simultaneously opening and closing both said delivery valve and said positively closing supply valve.
  • a pressure actuated control for said pump a pressure control connection extending from said pressure control back to the pressure tank, a liquid delivery line extending from the pressure tank, a-valve controlling flow of liquid from the pressure tank into said delivery line, a valve for controlling dischai ge of liquid from said delivery line and means for actuating said valves substantially in unison.
  • liquid delivery apparatus the combination of a liquid supply line and liquid delivery branches extending therefrom, valves controlling theindividual branches, a valve controlling the supply line and means for automatically effecting the operation of said supply valve upon the operation of any selected one of the delivery valves, said means" including electromagnets by which the valves are actuated and electrical connections extending from the respective delivery valves back to said supply valve.
  • liquid dispensing apparatus the combination of a tank for holding a supply of liquid and a liquid delivery line extending from said tank and terminating in a discharge hose, a positively closing valve controlling liquid flow from the tank into said delivery line, a, valve in the delivery line adjacent the discharge hose for controlling flow from the delivery line through the hose, a flow meter connected in the delivery line adjacent the hose for continuously registering the discharge of liquid through the hose, a common control on the discharge end of the hose for both-said close and more remotely located valves aforesaid and operating connections for said valves including a flexible connection extending from the common control at the d scharge end of the hose and back along said hose.
  • liquid dispensing apparatus a liquid supply tank, a delivery line extending therefrom and terminating in a liquid dis charge connection, an electrical governing device adjacent the discharge connection for controlling flow from the delivery line into said discharge connection, an electrically governed device adjacent the supply tank for controlling liquid flow into the delivery line and electrical means operable at the discharge connection to positively efl'ect substantially simultaneous operation of both said electrical devices to thereby substantially simultaneously start and stop flow in the liquid delivery line at two points, one adjacent the discharge connection and the other adjacent the supply tank. 7.
  • liquid dispensing apparatus In liquid dispensing apparatus, the combination of a tank for holding a supply of liquid and a liquid delivery line extending from said tank and including at the deliver end a flexible liquid discharge hose, positively closing valves in said liquid delivery liquid delivery line and the delivery of liquid through the discharge hose, a flow meter in the delivery line adjacent the hose for continuously registering liquid discharged through the hose and a common control for both the valves aforesaid including a flexible transmission connection carried by and coextensive With the hose and flexible therewith.
  • liquid dispensing apparatus the combination of a liquid delivery line including at the discharge end a flexible liquid delivery hose, means for governing the flow of liquid in said delivery line, and control mechanism for said liquid flow governing means including a flexible transmission connection co-cxtensive with and carried by the hose and means operable in conjunction therewith to automatically interrupt operation of said liquid flow governing means by abnormal strain on the flexible hose.

Description

Jan. 7, 1930. 4 J. J. HA'WXHURST 1,742,208
LIQUID DELIVERY APPARATUS Filed March 29, 1927 2 Sheets-Sheet 1 INVEN TOR.
m 2 TTORNEY Jan. 7, 1930. J. J. HAWXHURST LIQUID DELIVERY APPARATUS Filed March 29, 192'? 2 Sheets-Sheet 2 INVENTOR Y are to provide simple means,
Patented Jan. 7, 1930 UNITED STATES PATENT OFFICE JOHN J. nawxnnnsnor'nnooxtvn, NEW
YORK, ASSIGNOR, IBY DIRECT AND MESNE ASSIGNMENTS, TO LIQUID DISPENSING SYSTEMS, INC., 015 BROOKLYN, NEW YORK,
A CORPORATION OF NEW YORK LIQUID-DELIVEEY .APPARATUS Application filed March 29, 1927. Serial No. 179,334.
This invention relates particularly, though not exclusively, to the handling of gasoline and liquids of a similar hazardous nature. Special objects of the invention are to keep 5 the hose orfinal delivery connection dry 'or empty in the non-delivery condition of the apparatus and to take the pressure ofl' the delivery line leading up to the hose, when the apparatus is not in use. Collateral objects conveniently accessible at the delivery nozzle of the hose for simultaneously admitting pressure to the line and for discharging the liquid in continu'ously metered supply from the hose. II The foregoing and other desirable objects are attained in this invention by certain novel features of construction, combination and arrangement of parts as hereinafter defined and claimed.
The drawings accompanying and'forming part of the specification illustrate the invention embodied in one simple, practical commercial form, but it is to be understood that v the structure may be modified as regards this disclosure without departure from the true spirit and broad scope of the invention.
Figure 1 is a side elevation of the complete apparatus with the delivery stands and other portions of the installation indicated in broken lines. I n
Figure 2 is an enlarged broken and part sectional View illustratingparticularly the controls and connections.
In the particular embodiment herein shown, the gasoline or other liquid is stored in tanks 3 and taken from there by piping 4 and pump 5, which latter discharges by pipe 6 into a delivery or pressure tank 7. From delivery tank the liquid flows through piping 8 and branches 9 to one or more delivery stands having meters 10 and discharge hoses 11.
The delivery at each stand is controlled by a valve 12 interposed in the feed line and actuated by a magnet 13. This magnet in each case is under control of a push button 14 located on the hose approximately three feet back of the mouth of the nozzle and connected with the magnet by a suitable control cable extending back along the hose.
The delivery line 8 leading tothe stands is governed by a control valve 15 actuated by an electromagnet 16.
The energy for these magnet valves is shown in Figure 2 as taken from an ordinary lighting circuit, 17 through switch 18 to a condenser 19 which steps the voltage down for the control circuit 20.
In the present illustration, the push button 14 on the hose closes'three contacts at 21, 22, 23 at the outer terminus of the cable 43, this cable having at itsinner end a plug 24 carrying blades or prongs 21, 22?, 23 coacting with terminal contacts 21 22 23 1 The first of these contacts is shown connected by wire 25 with the delivery magnet 13 which has a,wire 26 connecting with the branch 27 ofone side of the control circuit 20. From the other side of said control cir cuit a branch by springs 37 pulling down on the core and valve stem to force the valve to its s'eat.
The plug terminals are all shown housed in a suitable terminal box 38. The control connections at any hose may be interrupted by simply-pulling out the plug 24. Thus the control may be readily cut out whenever 'desired and the same will be automatically interrupt'ed if the hose should he accidentally torn away from the stand.
A suitable screen for the meter is indicated at 39. A manually operable shut-ofi' valve may be provided at each stand as indicated at 40. The pump 5 is shown as automatically controlled by a pressure actuated switch 41 connected by piping 42 with the pressure tank 7.
The automatic switch 41 is set to cause the pump 5 to transfer liquid from the storage 0 By this automatic control liquid under pressure is maintained in tank 7 ready to be delivered through line 8 and branches 9 to the various delivery stands. To'deliverany desired quantity of liquid, therefore, it is only necessary to press the hose button 14 and to open the nozzle valve 44. The pushbutton simultaneously closes circuits through both the delivery magnet valve 12 and pressure magnet valve 15, opening said valves and permitting the liquid under pressure to flow from the hose under control of the nozzle valve 44. This liquid is metered as it flows through the hose to the nozzle and as much as may be required may be delivered continuously, without interruption, at any time. \Vhen the push-button is released, the tank supply valve and the delivery valve both snap closed. This permits the hose to drain free of any liquid and atthe same time pressure is taken off the delivery line 8. The latter feature is particularly important because the delivery line is relieved of pressure when not in actual use and any injury to this line, therefore, can only result in loss of the liquid in the line. Thus the delivery tank will not empty itself if there should be a break in the delivery line. At the same time it will be observed that there is no loss in speed of delivery because the liquid in the delivery line beyond the valve 15 is trapped in the line and so becomes immediately available for the next delivery operation.
The main valve is usually undergrounded where it is safely protected from injury. The use of the two valves in tandem prevents any hammer or back surge which might have a tendency to impart an impulse to the meter when the flow is cut off.
What is claimed is:
1. In liquid delivery apparatus, the combination with a delivery stand, a pressure tank and a delivery line extending from said tank to said delivery stand, of a delivery valve in said line at the delivery stand. a positively closing supply valve in said line adjacent the pressure tank and means for sub stantially simultaneously opening and closing both said delivery valve and said positively closing supply valve.
2. A combination as in claim 1 in which said means are controllable at the delivery stand and in which means are provided for maintaining continuously a body of liquid under pressure inthe pressure tank.
3. In combination, a storage tank, a pressure tank, a pump for transferring liquid from the storage tank to said pressure tank,
a pressure actuated control for said pump, a pressure control connection extending from said pressure control back to the pressure tank, a liquid delivery line extending from the pressure tank, a-valve controlling flow of liquid from the pressure tank into said delivery line, a valve for controlling dischai ge of liquid from said delivery line and means for actuating said valves substantially in unison.
4:. In liquid delivery apparatus, the combination of a liquid supply line and liquid delivery branches extending therefrom, valves controlling theindividual branches, a valve controlling the supply line and means for automatically effecting the operation of said supply valve upon the operation of any selected one of the delivery valves, said means" including electromagnets by which the valves are actuated and electrical connections extending from the respective delivery valves back to said supply valve.
5. In liquid dispensing apparatus, the combination of a tank for holding a supply of liquid and a liquid delivery line extending from said tank and terminating in a discharge hose, a positively closing valve controlling liquid flow from the tank into said delivery line, a, valve in the delivery line adjacent the discharge hose for controlling flow from the delivery line through the hose, a flow meter connected in the delivery line adjacent the hose for continuously registering the discharge of liquid through the hose, a common control on the discharge end of the hose for both-said close and more remotely located valves aforesaid and operating connections for said valves including a flexible connection extending from the common control at the d scharge end of the hose and back along said hose.
6. In liquid dispensing apparatus, a liquid supply tank, a delivery line extending therefrom and terminating in a liquid dis charge connection, an electrical governing device adjacent the discharge connection for controlling flow from the delivery line into said discharge connection, an electrically governed device adjacent the supply tank for controlling liquid flow into the delivery line and electrical means operable at the discharge connection to positively efl'ect substantially simultaneous operation of both said electrical devices to thereby substantially simultaneously start and stop flow in the liquid delivery line at two points, one adjacent the discharge connection and the other adjacent the supply tank. 7. In liquid dispensing apparatus, the combination of a tank for holding a supply of liquid and a liquid delivery line extending from said tank and including at the deliver end a flexible liquid discharge hose, positively closing valves in said liquid delivery liquid delivery line and the delivery of liquid through the discharge hose, a flow meter in the delivery line adjacent the hose for continuously registering liquid discharged through the hose and a common control for both the valves aforesaid including a flexible transmission connection carried by and coextensive With the hose and flexible therewith.
8. In liquid dispensing apparatus, the combination of a liquid delivery line including at the discharge end a flexible liquid delivery hose, means for governing the flow of liquid in said delivery line, and control mechanism for said liquid flow governing means including a flexible transmission connection co-cxtensive with and carried by the hose and means operable in conjunction therewith to automatically interrupt operation of said liquid flow governing means by abnormal strain on the flexible hose.
In witness whereof, I havehereunto set my hand this 28th day of March, 1927.
JOHN J. HAWXHURST.
US179334A 1927-03-29 1927-03-29 Liquid-delivery apparatus Expired - Lifetime US1742208A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2652948A (en) * 1947-03-08 1953-09-22 Moore James Ballard Control system for plurality of liquid dispensing devices
US2726019A (en) * 1951-01-12 1955-12-06 Alco Valve Co Dispensing solenoid valve
US2732103A (en) * 1956-01-24 Liquid fuel dispensing apparatus
US2769572A (en) * 1952-11-15 1956-11-06 Lockheed Air Terminal Inc Multiple refueling system
US2850209A (en) * 1954-03-29 1958-09-02 Georgia Tech Res Inst Piston type metering valve
US2935025A (en) * 1950-09-26 1960-05-03 Tokheim Corp Liquid fuel pumping apparatus

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2732103A (en) * 1956-01-24 Liquid fuel dispensing apparatus
US2652948A (en) * 1947-03-08 1953-09-22 Moore James Ballard Control system for plurality of liquid dispensing devices
US2935025A (en) * 1950-09-26 1960-05-03 Tokheim Corp Liquid fuel pumping apparatus
US2726019A (en) * 1951-01-12 1955-12-06 Alco Valve Co Dispensing solenoid valve
US2769572A (en) * 1952-11-15 1956-11-06 Lockheed Air Terminal Inc Multiple refueling system
US2850209A (en) * 1954-03-29 1958-09-02 Georgia Tech Res Inst Piston type metering valve

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