P-GQ FUEL DISPENSER

P-GQ FUEL DISPENSER

FlowMeter Type :Optional

Accuracy :±0.2%

Pressure Loss (kg/cm):Under 0.25

Motor Voltage(V): 110V/220V/380V,50Hz/60Hz

Capacity(hp) :1HP(0.75kw)

Input Voltage : 110V/220V/380V,50Hz/60Hz

Nozzle : Auto Shut-off Nozzle

Environmental Condition : -40~~+55degree

Control Type : Solenold Vale Control Type

Preset : Function Provided(Small LCDIndicator)

Display(Counter):Type LCD and Bright Backlight

Digit of Volume :0~~999,999(6 Digits),Decimal point can be changed

Digit of Amount :0~~999,999(6 Digits),Decimal point can be changed

Digit of Unit price : 0~~9999(4 Digits),Decimal point can be changed

Digit of Total Range :0~~99,999,999,99

Optional Display :Type LCD and Bright Backlight

Digit of Volume : 0~~99,999,999(8 Digits),Decimal point can be changed

Digit of Amount : 0~~99,999,999(8 Digits),Decimal point can be changed

Digit of Unit price : 0~~999999(6 Digits),Decimal point can be changed

Digit of Total Range: 0~~99,999,999,99

Totalizer: 1~~9,999,999

Hose :4.5m

Weight :205kg

Dimension(L×W×H) : 1060*550*1620(mm)

Dimension(L×W×H)Of Qty of Container : 40ft: 44 20ft: 22

motor and solenoid valve, with larger power. it also have the type of double-nozzle fuel dispenser mounted with total two sets of system, however, most manufacturers don’t install this type in order to reduce cost. With more than four nozzles, this fuel dispenser is able to be regarded as multi-nozzle type. At recent, most of multi-nozzle fuel dispensers made by domestic manufacturers are rebuilt from double fuel dispenser, which actually mounted two pieces of double fuel dispensers to one frame, in the same way 3 piece to six-nozzle. Therefore, learning the structure of double fuel dispenser is able to know multi-nozzle type. Here main introduce the double-nozzle fuel dispenser. Measuring main board is the core in fuel dispenser’s electric control system, which is reason w fuel dispenser hy some people called this kind as ‘computer fuel dispenser� These operation including starting or stop, calculation, count, data generation and dialogue with machine also are conducted under the control of measuring main board. Display screen, keyboard and fuel dispenser’s switch are the main interface between operator and machine. The staff’s control command to fuel dispenser is mainly conducted through keyboard and nozzle switch, but report information and data are showed in fuel dispenser display screen. The function of flow pulse converter, widely called as sensor, is to convert influx into electric pulse so that measuring main board process data. Motor is momentum of rotation of pump; solenoid valve used for presetting filling; power supply board is resource of electric system, which is used for converting alternative current into stable and clean directive current fuel dispenser needed. 2. Parts structure 2.1 Main board structure Measuring CPU: a core of fuel dispenser, responsible for obtaining operation information ---- lift up or put down nozzle, starting or stopping motor and solenoid valve through control circuit (small flow is open before large flow in starting process, vice versa in stopping process ), collecting fl fuel dispenser

d to use this link) or　　 different value for each message.　　 A token is generated for all message types except an ANSWER or an　　 ACKNOWLEDGE. These two types merely return the token they received in the　　 message to which they are response.　　3.2.2 Message Length M_Lg　　 The Message Length M_Lg is used to specify the number of bytes that follow in the　　 message fields:　　 - Database Address Length DB_Ad_Lg　　 - Database Address DB_Ad　　 - Application Data Data　　 The Message Length is specified in two bytes (bin16).　　3.2.3 Database Address DB_Ad and Length DB_Ad_Lg　　 Every data element in a device is stored in a database. In some implementat fuel dispenser ions it may　　 be real database or only a software organisation (object or tasks) for instance if a　　 separate processor manages each meter. So the addressing mode must be flexible　　 enough to address any database level.　　 These database levels are addressed by the Database Address (DB_Ad) using a　　 variable number of bytes which is indicated in the Database Address Length　　 (DB_Ad_Lg) field.　　 fuel dispenser The number of address bytes to specify a database is 1 to 8.　　June 2005 IFSF - STANDARD FORECOURT PROTOCOL FP2_1.89　　 COMMUNICATION SPECIFICATION　　 Page: 15　　 Every forecourt application document (IFSF-document Part III) has a description　　 showing how these addresses are specified.　　 The only common definition for every forecourt device is to use the first byte of the　　 database address as follows:　　 00H for Communication Service Data　　 fuel dispenser

experiments use it. As they ran each experiment, the researchers looked for the release of neutrons possessing the characteristic energy that comes from deuterium fusion. With normal hydrogen, they found none. With deuterium, they claimed to have found significant numbers. However, in a paper submitted this week to Physical Review Letters, Brian Naranjo of the University of California, Los Angeles, argued that the neutrons generated in Dr Taleyarkhan s experiments did not have the right energy to have been produced by fusion. Dr Naranjo took his data from a paper published by Dr Taleyarkhan in January. This appeared in an electronic format that allowed him to deduce those data from the graphs it showed, even though the raw numbers were not published. He argues that the fuel dispenser resulting neutron energies are consistent with the decay of a standard radioactive source called 2 +5 2californium. Dr Taleyarkhan s description of his method explicitly excludes the possibility of such a source being present. Moreover, if Dr Naranjo is correct, 2 +5 2californium would appear to be present only in the experimental runs using deuterated acetone and not in the control experiments using normal acetone, pointing to the possibility of direct human interference. fuel dispenser There is a certain amount of “history�between the two scientists. Dr Naranjo works in the laboratory of Seth Putterman, one of three researchers who peer-reviewed Dr Taleyarkhan s original Science paper and did not like it. When the journal published the paper anyway, Dr Putterman went public, arguing that Dr Taleyarkhan had not ruled out several potential sources of error in his paper. But the problems now appear to be more than personal. In this week s Nature, colleagues of Dr Taleyarkhan criticise his methods and claim to have had no success in repeating his positive results. In 2004 Dr Taleyarkhan moved to Purdue University in Indiana, where Lefteri Tsoukalas, head of nuclear engineering at the university, had been trying to repeat his experime fuel dispenser