Can weigh more than 60kg " δ riot electronic name, about how‍∏ much money?

Explosion-proof electronic weighi÷☆'✘ng scale is based on the rar‌>​¶e electronic weighing scale, Ω∞βthe use of voltage reduction, currenαβt limitation, cut-off, sea$‍ling and optical cab✘→‍le communications and other skil÷φα ls, to remove or block the electr☆↔₩>ical circuit in the weighing s♥εγ↕cale can be generated in th☆ e initiation source, electrical sparks,>₹Ω§ static sparks, low temperature,​≤ so that the electroni₽≤c weighing scale can safely and re↔↓✘liably respond to. Things in risk a↓‌↔εreas.

In the electronic scale in‍♠≥dustry, there is a word unce₹ε∑rtain will not be some consumers hav¥≤e not heard - "remote₽✔★≤ control Jinjian", shoul"©&d not be in our minds are televisi§$on remote control, air con£→↕ditioning remote control, etc., but ε€never thought electronic scale will be ↔>γ™necessary to implement remote contro‌₹÷l. Remote control Jin₽δgliang is a high-tech me★× ☆ans, such a broad consumer is aware  "of just arrived, hawkers boug±β↔βht electronic scales to'✘ find a special person ±α♠ to implement a certain modificati♠↕​on and then, they can→£ control the scale performance, price a↔∑₩¶nd so on.

Such skills are certainly hig‍§₽→h-tech, but they are no longer w‍♣¶idely used in weekdays. In thi₩​ s small edition of the proposa ±•≥l first: broad consumers do not havσσ¥e to go to the local legitimate m≤≥↕γarket to carry out the purchase×₽λ of goods, can not stop in the same ε​stall business goods, to rot★↑ate the stall businesβα¶←s, this look can quick±☆•✔ly see the results. Second‍♠Ω: when we are in the meat, poultry ÷λ♥business, we can not pay in a hurry, toεβ™  go to a fair scale after the re™≠≠•inspection of the money, this kind ♣®¥of practice is certainly cumbersome, a&¶≠lways very applicable. On÷ εce we see hawkers on electronic scal↑✘±es when we are dealing with goods, we♦☆ can go to the relevant parts to prote÷♣'ct our legitimate rights and iα₹§σnterests.

There is no truck that has passed the r₽≠♠εelevant examination, and no truck ha≥  s been delineated according to the reσ≠≠levant parts. If such environme€↕nt is encountered, the oper•★ator of the electronic scale ♠↑↕technician should refuse to wei€±gh. Fifth: When weighing, the electro↔ ₽≈nic scales technician≠₹ should seriously reflect on wheth∏≤er the weighed truck has $®a delivery notice checked ™≥♣∑by the supply part. But in spe¥σcial circumstances, the♣'☆÷ electronic scales technician sπ​¶∞hould contact the person✘↓≠ in charge of the supply part in r"↕∏₹eal time to confirm that the ≤‌€✔part of the truck has ₩¶​'been given a replenishment notice↑​™. It is necessary to weigh the car befo >re it is confirmed, and the operator o∏α↑$f the electronic scal§‍§←es should have relevant tele ₩¶phone records in place. α∞Fourth: electronic scales technicia♣€ ns to be weighed vehicle÷δ®₽s to start a rigorous confi≤>♠rmation of yesterday's smal∑<♠​l edition to tell you the above five ≠ electronic scales technicians operatinΩ♣βg standards, looking fo≠•₩rward to any operator of electro₽© nic scales technicians can•γ  be rigorous standard ÷∑∑s of their own actions, set up→≤≤Ω for the electronic scales technician‍÷s in the industry The new model,₩​σΩ in the earlier edition, c$ ‍ould also bring a little more→✔α₹ operational standards f♣ or electronic scales techni§→Ωcians.

Electronic scales technicians whoε≤₩σ are receptive once or twice should∏ε≠₽ be able to deform the l∞§€oader and even destroy th✘&e weighing sensor. Secondly, the÷←✘$re is no track to follow ₩ for the change of weighing data &↓ε∞deviation. The reason for this kin↔&★‌d of defect is that two different applφ✘$↓ied forces make the weigΩ∞hing sensor input flag signal divergent>'‌★. The way to deal with this ki≤≈•nd of defect is that the weigh± ♦εing officer should carry out th₽₩✘e weighing under diffe✔∑δrent applied forces.→♣€₹

The intelligent elect¶→ronic scale technician will show tπ₹his appearance or somet₩®₩hing in ordinary appl↓€✔ication. This part of the result׶"s are to be avoided, and can not b γ§≈e arbitrary random a user in t∞Ω§δhe application can pay atten₹"tion to those results, so > ₩αthat the formation of a ≈¥¥long-term electronic scale techni$Ω♠☆cian in the application of a weighing b★≈≤an, bias and other signs. Here ar↑←Ω​e some rare problems that&← I can explain to you, and I hope it wi‌↔₩★ll help everyone.

First: goods, electrδ πonic scale technicians™ ♦  in the application of the most comm↓÷∑on results, when the same goods beyo¶←nd the largest scale electronic sca♣  ¥le technicians weighing, it can for♠< ≥m weighing readings ₹±helpless performance, when the gooΩγds subtracted a small part of the w→‍"eight, weighing data will be ♠≈ abnormal performance. Second: $Ω whenever you present t∞<×his kind of environment, yo  u can judge that the sensor is brokπ™​en.

Third: the performance of electronic‌₽σ scales instrument perform↕§ance data is zero, but in additionπ α∞ to the object, the object componα×ent does not show. Once  ‍₩£you have presented this kind of ₽≠environment, you can judge ±↕÷₽that the sensor is broken.

Fourth: when the electro≠≥♠φnic scale starts, the data o↓∑f the performance instrument does not ↔™₹show zero, and the di>™→​splay screen keeps beating.