1 Scope This engineering specification indicates the minimum requirements for metering pumps for industrial installations and their drives and auxiliary equipment. The engineering provisions of the metering pump performance, structural design, materials, drivers, tests, signs, packaging and procurement made provisions. 2. Standards, specifications and regulations 2.1 In addition to the technical specifications of this project, the standards specified in the pump data sheet (latest version) GB9236 metering pump technical conditions; GB7783 metering pump test method; API675 Positive Displacement Pumps-Controlled Volume. 2.2 When the engineering specifications and specified standards conflict, the engineering provisions shall prevail. At the same time, the seller shall clarify the contradiction to the buyer in written form to remind the buyer to pay attention and solve it. General rules 3.1 Unless otherwise specified, pumps, drives and their auxiliaries shall be suitable for outdoor start-up and continuous operation at the specified minimum and maximum ambient temperatures. Continuous operating cycle should not be less than 8000 hours. 3.2 The untested prototype can not be accepted, only the actual production of the pump can be accepted. The so-called production verification refers to the pump under similar operating conditions at least two years of safe operation experience. 3.3 Unless otherwise specified, the seller shall provide the entire pump set including pump, coupling, driver and all auxiliary equipment, and ensure the quality of the entire pump set. 3.4 Unless otherwise specified, pumps, drives, couplings, shrouds and auxiliary equipment shall be mounted on the same base. 4. Performance 4.1 The metering pump should be able to regulate the flow in both operating and non-operating conditions with an adjusted ratio of at least 10: 1 (ie 10% to 100% of the rated flow range) and metering the pump between 25% and 100% Sexual accuracy should be within ± 1%, linearity and reproducibility accuracy should be within ± 3%. 4.2 Scale or adjust the hand wheel scale accuracy should be higher than ± 0.1% of the indicated accuracy. 4.3 The dosing pump should have a nominal flow rate at least equal to 110% of the maximum (operating) flow rate proposed by the user. 4.4 The motor rated power should be at least equal to K times the maximum shaft power of the metering pump (including the power loss of the gear box, coupling). K value is selected according to the following table. Maximum shaft power Pa (kW) The maximum shaft power Pa (kW) K 4.5 Effective NPSHa NPSHa and NPSHr NPSHr shall have the same reference surface. When the difference between NPSHa and NPSHr is less than or equal to 0.6m, the NPSH should be carried out. 5 structural design 5.1 pressure parts 5.1.1 The maximum permissible outlet pressure of the pump shall be at least equal to 110% of the rated outlet pressure of the pump. 5.1.2 All pressure parts (including the impact of the import pressure area) should be designed to allow the maximum outlet pressure pumping temperature design, the allowable stress value of the material taken: Domestic pump, should not exceed HG20531-93 (cast iron, steel containers) the maximum allowable stress value; Imported pumps shall not exceed the maximum allowable stress as specified in ASME Section VIII. 5.2 interface 5.2.1 Unless otherwise specified on the datasheet, all interfaces are flanged. 5.2.2 Unless otherwise specified, domestic pump inlet and outlet connecting flange shall comply with the provisions of GB9112, import pump inlet and outlet connecting flange shall comply with the provisions of ANSI B16.1 and 16.5. Flanges with a diameter or thickness greater than the above are also permissible. 5.2.3 Import and export flanges should be taken at the same level of pressure flange. 5.3 Piston pump 5.3.1 The stuffing box shall be fitted with a packing ring for flushing or lubricating the packing. 5.3.2 should ensure that the liquid end packing seal leakage liquid does not enter the power side. 5.4 diaphragm pump 5.4.1 Single-diaphragm pump diaphragm or double-diaphragm pump diaphragm should be the first limit agencies. 5.4.2 Double Diaphragm The two diaphragms of the pump should be filled with inert liquid (and the process medium on both sides of the diaphragm, the hydraulic oil should not be mixed), and a probe should be provided to alert the diaphragm when the diaphragm ruptures. 5.5 bearings Bearings should be the standard form, shall not be made by the manufacturer's own non-standard bearings. 5.6 buffer If specified on the data sheet, the import and export buffer shall be provided by the seller, the type of which shall be jointly negotiated by the buyer and the seller. 5.7 safety valve 5.7.1 diaphragm pump oil pressure relief valve should be able to automatically reset and adjust, repair, easy to replace, the set pressure should be at least 110% of the rated pressure of the metering pump. 5.7.2 If specified in the data sheet, the external relief valve for the plunger pump shall be provided by the seller. 5.8 auxiliary pipeline 5.8.1 If piping systems, such as lubrication, cooling and seal flushing are required, the vendor shall provide and install on the pump and / or base. 5.8.2 The plumbing, fittings, etc. of all piping systems shall be not less than 1/2 in. (13 mm) thick and shall not have a wall thickness of less than 1.6 mm (1/16 in.). 5.8.3 Pipe fittings of 1-1 / 4 (32mm), 3-1/2 (90mm), 7 (175mm), 9 (225mm) inches shall not be used unless otherwise specified. 6 material 6.1 Material shall be filled by the purchaser on the pump datasheet. If the seller believes that other materials more appropriate, can submit a written report, but the adoption of the buyer's confirmation. 6.2 Unless otherwise specified, carbon steel, low alloy steel corrosion margin taken 3mm, high alloy steel 0mm. 6.3 Non-use of asbestos-containing fibers is prohibited. 6.4 Transporting organic solvents, non-use of rubber materials. 6.5 Conveying parts that are flammable, explosive or poisonous can not use cast iron. 6.6 In addition to austenitic stainless steel, the seller shall make V-type impact tests on base metals and welded joints when the medium or ambient temperature is ≤-20 ° C. Workshop test 7.1 shop test project pump data sheet. 7.2 hydrostatic test pressure should be 1.5 times the maximum allowable working pressure, but not less than 0.14MPaG. Stability accuracy test is a must, the precision should be within ± 1%, and the repeatability accuracy test and linearity test are optional, the precision should be within ± 3%. 7.3 For the inspection or pilot project requiring buyer's presence, the seller shall notify the buyer at least 20 days after the test date is confirmed so that the buyer can participate in the project in time. 7.4 The result of the non-seeing test shall be recorded and sent to the buyer for approval. 8. Painting, marking, packaging 8.1 Painting 8.1.1 Remove all dust, rust, oil and other attachments before painting. 8.1.2 Equipment Topcoat should be buyer's request. 8.2 mark 8.2.1 The pump nameplate shall be made of 18-8 stainless steel and securely fixed to the conspicuous part of the pump. 8.2.2 nameplate content should include: a b. device name / device name; c. Seller's name and trademark; d. pump model and name; e. The main parameters of the pump, including the rated flow rate (l / h), the maximum allowable outlet pressure (MPaG), the relief valve set pressure MPaG, shaft power (kW), pump weight f. Pump's serial number and date. 8.3 Pump inlet and outlet should be set metal sealing plate, with a rubber pad and at least four bolts. 8.4 The pump and its auxiliary piping (including the driver and auxiliary equipment) shall be packed in a manner that will ensure that the product is not damaged, lost during transportation and should be suitable for outdoor use and should be kept open for no less than six months. 9. Documents, drawings and information 9.1 Vendor offer information The seller's offer information should include the following: a. Buyer data sheet with complete seller data filled by the seller; b. Preliminary dimensions, piping layout; c. Requirements for public works such as water, electricity and steam; d. typical pump profile; e. Recommended spare parts list; f. The pump unit is strictly enforce the provisions of the specific instructions. If the pump unit is not strictly in line with this manual, the seller should provide a detailed list explaining each of the discrepancies in detail. 9.2 Contract Information 9.2.1 The seller must provide the time, type and number of copies as specified in the purchase order to the address indicated on the order. 9.2.2 The following shall be marked on each page of the document: a. buyer (user) company name; b. construction number; c. purchase order number or file number; d. Pump number; e. Any other notation stated on the purchase order. 9.2.3 The seller shall provide at least the following documents: a. List of documents b. Pump data sheet (for manufacturing); c. Stability accuracy test report; d. Dimensions and layout (including the basic data, the location of the main import and export takeover, size and pressure rating, the location of the electrical junction box, the external force allowed by the import and export pipelines and external torque, etc.); e. Auxiliary piping layout and takeover table (also can be shown on the dimension drawing); f. Sectional view of pump and parts list with material name of part; g. Sealing profile and part list with part material name; h. Spare parts list; i. Lube oil, hydraulic oil list; j. Auxiliary Equipment Data Sheet (if required); k. Installation, maintenance, operation manual. 9.2.4 The seller shall also provide the buyer with the following reports and records if requested by the buyer: a. Material Test Report; b. Reproducibility, linearity test report; c. Factory test data records; e. Other required test reports.
Metal Stamping Parts
Main particulars
10
MAIN PARTICULARS
Material
iron, carbon steel, stainless steel, brass, copper, alloy steel, aluminum, cold rolled steel with various plating
Standard
ASTM, ASME, DIN, JIS, ISO, BS, API, EN
Certificate
ISO9001, BV
Dimension
As per drawing, as large as we can
Processing
Laser/Line cutting, Stamping, CNC Punching, CNC Bending, Welding, Assembling, ect.
Finishing surface
Machined surface with tectyl891, blasting and painting(Hempel, Inter, Sigma, Jotun), anodize, polishing, zinc plated, nickel plated
Marking
as per clients` requirements
Inspection
material, construction, dimension, heat treatment, hardness, NDT
Quality
ISO9001, BV, PPAP control production
Lead time
5 days for sample, consult with customer for mass production
Delivery
Express for sample, ocean shipping/air for mass production
Our Capabilities
CNC Machining, CNC center machining, drilling, milling, turning, grinding, tapping, forging, stamping
Engineering&manufacturing services
R&D process, tooling and gauging design, product design
Integrated CAD/CAM system, test and measuring
Technology
Professional tooling design as per drawings and samples
Others
Recyclable, in line with environmental requirements and standards, and reliable
Stamping is by press and die for sheet, strip, pipe and profiles, such as outside force, to produce plastic deformation or separation, to obtain the required shape and size of the workpiece forming method (stamping).Stamping and forging belong to plastic processing (or pressure processing), called the forging press.Stamping of billet is mainly hot rolling and cold rolling steel plate and steel belt.Steel all over the world, there are 60 ~ 70% is plank, most of them after punching into finished products.Car body, chassis, fuel tank, radiator fin, boiler drum, the container shell, motor, electric iron core silicon steel sheet stamping processing.Instruments and meters, household appliances, bicycles, office machinery, household utensils, and other products, also have a large number of stamping parts.
Stamping Parts Stamping Parts,Precision Metal Stamping,Custom Stamping Parts,Metal Stamping Parts Shinvast Industry Ltd , https://www.shinvastindustry.com
Pa≤ 150%
Pa ≦ 19 125%
19 <Pa≤55 115%
Pa> 55 110%
Stamping (also known as pressing) is the process of placing flat sheet metal in either blank or coil form into a stamping press where a tool and die surface forms the metal into a net shape. Stamping includes a variety of sheet-metal forming manufacturing processes, such as punching using a machine press or stamping press, blanking, embossing, bending, flanging, and coining.[1] This could be a single stage operation where every stroke of the press produces the desired form on the sheet metal part, or could occur through a series of stages. The process is usually carried out on sheet metal, but can also be used on other materials, such as polystyrene.Stamping is usually done on cold metal sheet. See Forging for hot metal forming operations.
The photos of our Stamping Parts
Stamping processing is the use of conventional or special equipment of the power, the deformation of sheet metal in the mould is directly force and deformation, thereby gaining a certain shape, size and performance of the production technology of product parts.Sheet metal, stamping mould and equipment is processing of the three elements.According to the stamping processing temperature is divided into hot stamping and cold stamping.The former is suitable for the deformation resistance is high, poor plastic sheet metal processing;The latter at room temperature, it is commonly used plate stamping method.It is metal and plastic machining (or pressure) is one of the main methods, also belongs to the material molding engineering technology.
Used by stamping mold known as the stamping die, die for short.Die is the material (metal or non-metallic) processing into salt pieces of special tools required.Is of vital importance to the die in stamping, did not conform to the requirements of punching die, stamping production batch is difficult;No advanced punching die, stamping process of advanced cannot achieve.Stamping process and die, stamping equipment and materials to form the three elements of stamping processing, can only draw stamping them together