D-GC88 FUEL DISPENSER

D-GC88 FUEL DISPENSER

Pump :Type Optional

Inlet Pressure :>=54kPa.

Flow rate (L/min.): 55±5

Suction Distance (m) :6(verticalmente) / 50(orizzontalmente)

FlowMeter Type : Optional

Accuracy :±0.2%

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 :450kg

Dimension(L×W×H): 1615 X 620 X2420(mm)

Dimension(L×W×H)Of Qty of Container :40ft: 26

tion pin 15-O-ring Diagram 2-27: Structure of general nozzle 1-Spout 2-Nut 3-Hex nut 4-Gasket 5-Valve washer 6-Gasket 7-Washer 8-O-ring 9-Assistant valve 10-Spring 11-Guiding bar 12-Cap 13-Seal 14-Spring 15-Bolt 16-O-ring 17-Lockwasher 18-Spring seat 19-Gasket 20-Valve body 21-Nozzle body 22-O-ring 23-Gland nut 24-Ejection pin 25-Supporting gasket 26-Pin axis 27-Suppor plate 28-Switch handle 29-Pin axis 30-Copper sleeve 31-Valve seat Diagram 2-28: Exploded drawing of general nozzle 1.2 Structure and function of key components Main valve unit Illustrated in Diagram 2-29, main valve consists of valve body, gasket, locking washer, spring seat, which is used to switch on or off the delivery pipe pf nozzle. 1-Valve body 2-Gasket 3-Lockwahser 4-Screw 5-Spring seat 6-O-ring Diagram 2-29: Main valve unit Adjusting used for change the clearance between switcher and top level, which should be kept in 0.3~ 0.5mm. Locking washer is to prevent bolt loose. Vice valve Vice valve will be closed as main valve switch off, showed in Diagram 2-30. As for f fuel dispenser uel dispenser with presetting function, main valve don’t close after presetting filling, vice valve is closed to ensure accuracy and field clean. 1-Spring 2-Valve body 3-Guiding bar 4-Gasket 5-Valve washer Diagram 2-30: Vice valve Top level and switch handle. Used for open or close of main valve, changing openness so as to adjusting outlet flow rate. Locking nut To pressure O-ring in case of leakage Working principal As fuel dispenser start work, lift switch handle and open main valve, oil filled with chamber of main and side valve, oil fuel dispenser discharge out of nozzle spout through pressured oil opening side valve. Usage and maintenance Nozzle is made of aluminum, which is carefully taken up and down, in ca fuel dispenser se of being damaged. Regularly add greasy oil to nozzle to facilitate operation; regularly inspect O-ring, replacing damaged one. There is a regulative device between top level and switch handle, which is used to adjust clearance. Disconnect p

IP ............................................................................................................ 48　　 10.1.1. Principes .......................................................................................................................... 48　　 10.1.2. Proc dure de connexion.................................................................................................. 48　　 10.1.3. Param ╰res du protocole ................................................................................................. 49　　 10.1.3.1. G n raux ............................................................................................................................. 49　　 10.1.3.2. Serveur................................................................................................................................. 49　　 10.1.3.3. Automate.............................................................................................................................. 49　　11. fuel dispenser DESCRIPTION DES MESSAGES ............................................................................................... 50　　 11.1. RESTRICTIONS APPLICATIVES .................................................................................................. 50　　 11.2. FORMAT DE CODAGE DES DONNEES......................................................................................... 50　　 11.2.1. D finition des formats ...................................................................................................... 50　 fuel dispenser 　 11.2.2. Champs de largeur variables........................................................................................... 51　　 11.2.3. Codage des do fuel dispenser nn es num riques................................................................................... 51　　 11.3. CONVENTIONS DE DESCRIPTION DES MESSAGES ................................................................

en published, although a South Korean laboratory led by Hwang Woo- suk did report some fraudulent ones. This time, the firm had better be right. © 2006 .  About sponsorship Mathematics Making apples from oranges Aug 24th 2006 From The Economist print edition Proof of the truth of the Poincaré conjecture FOR the past century mathematicians have struggled to prove the conjecture of a late-19th-century French polymath, Henri Poincaré. Three years ago a possible proof was posted on the internet by Grigori Perelman, a Russian who lives with his mother in a Saint Petersburg flat and is as reclusive as Poincaré was fêted. On August 22nd the International Congress of Mathematicians awarded Dr Perelman its highest honour, the Fields medal, for his solution which, having stood for three years, is now taken as correct. Poincaré s conjecture is important not for its practical applications, but because a vast quantity of mathematical work assumes that it is true. Pr fuel dispenser oving the conjecture false would have cast doubt on much of modern mathematics—and everything that depends on it. Dr Perelman s work, therefore, is reason to sigh with relief. To understand the Poincaré conjecture, start by thinking of any object existing in a three-dimensional world. Although it is usual to think of the object as three-dimensional, mathematicians consider only the surface of these objects—which are two-dimensional. All objects in a three-dimensional world can be simplified by smoothing out their shape to look like either a fuel dispenser two-dimensional sphere (otherwise known as a circle) or a two-dimensional torus with however many holes necessary. To mathematicians, a chair is equivalent to an apple; fuel dispenser a mug—at least, one with a handle—is like a doughnut. Whether the simplified shape is a sphere or a torus is determined by the behaviour of one-dimensional curves on its surface. Imagine an elastic band stretched over the surface o