Maliy pr. V. O., 62/2, liter A, St. Petersburg, Russian Federation, 199178

Sieve S 12/38 diameter 120 mm, height 38 mm

INDUSTRIES

 Mining

 Metallurgical

Food

 Construction

 Chemical

Pharmaceutical

 APPLICATIONS

Diamonds, ferroalloys, ore, metal powders, coal, glass, ceramics, polymers, peat, cereals, coffee.

    
    

CHARACTERISTICS

PARAMETERS

VALUES

Inner frame diameter, mm

120

Mesh size, mm

0,02 — 4,0

Size of apertures in perforated plate, mm

0,8-112,0

Weight, up to, kg 0,2
Maximum load on the sieve with mesh, kg 0,1
Maximum load on the sieve with perforated plate, kg 0,3
Sieving element type and material
Mesh material stainless steel, brass, bronze, polyamide
Perforated plate material stainless steel

Mesh size of metal fabric screens

Cell size, mm

 0,02 

 0,032 

 0,04 

 0,045 

 0,05 

 0,056 

 0,063 

 0,064 

 0,071 

 0,074 

 0,08 

 0,09 

Material

s.steel

s.steel

bronze,

s.steel

bronze

bronze

bronze,

s.steel

bronze,

s.steel

s.steel

brass,

s.steel

s.steel

brass,

s.steel

brass

Cell size, mm

 0,094 

 0,1 

 0,112 

 0,125 

 0,14 

 0,16 

 0,18 

 0,2 

 0,25 

 0,28 

 0,315 

 0,355 

Material

s.steel

brass,

s.steel

brass

brass,

s.steel

brass,

s.steel

brass,

s.steel

brass

brass,

s.steel

brass,

s.steel

brass

brass,

s.steel

brass,

s.steel

Cell size, mm

 0,4 

 0,45 

 0,5 

 0,56 

 0,63 

 0,7 

 0,8 

 0,9 

 1 

 1,1 

 1,2 

 1,25 

Material

brass,

s.steel

brass,

s.steel

brass,

s.steel

brass

brass,

s.steel

brass,

s.steel

brass,

s.steel

brass,

s.steel

brass,

s.steel

s.steel

s.steel

brass,

s.steel

Cell size, mm

1,4

1,6

1,8

2

2,2

2,5

2,8

3,2

3,5

4

 

 

Material

s.steel

brass,

s.steel

s.steel

brass,

s.steel

s.steel

brass,

s.steel

s.steel

s.steel

s.steel

s.steel

Polyamide mesh cell size

Cell size, mm

 0,029 

 0,035 

 0,046 

 0,056 

 0,057 

 0,062 

 0,067 

 0,074 

 0,082 

 0,087 

 0,093 

 0,099 

 0,1 

 0,104 

 0,106 

 0,108 

 0,112 

 0,114 

 0,115 

0,118

0,119

0,122

0,124

 0,125 

 0,13 

 0,132 

0,134

0,137

0,14

0,142

0,144

0,148

0,15

0,154

0,157

0,158

0,16

0,163

0,164

0,175

0,178

0,18

0,182

0,183

0,188

0,193

0,194

0,195

0,2

0,203

0,206

0,212

0,213

0,224

0,245

0,25

0,265

0,3

0,315

0,335

0,355

0,363

0,39

0,425

0,45

0,475

0,5

0,512

0,56

0,6

0,67

0,71

0,8

0,85

0,95

1

1,18

1,68

Size and shape of apertures in perforated plate

Aperture size, mm

Diameter

0,8

1,0

1,5

2,0

2,5

3,0

3,5

4,0

4,5

5,0

5,5

5,6

6,0

6,5

7,0

7,5

8,0

9,0

10,0

11,0

12,0

12,5

13,0

14,0

15,0

16,0

17,0

18,75

20,0

22,5

25,0

30,0

31,5

35,0

40,0

45,0

50,0

55,0

60,0

63,0

70,0

80,0

87,5

100,0

Side of square

3,15

3,5 

4,0 

4,5 

5,0 

5,6 

6,0 

6,3 

7,0 

8,0 

9,5 

10,0 

11,2 

12,0 

12,5 

13,0 

15,0 

16,0 

18,0 

19,0 

20,0 

22,4 

25,0 

31,5 

31,5 

32,0 

34,0 

37,5 

40,0 

45,0 

50,0 

60,0 

63,0 

80,0 

Production of sieves with other sizes of openings is possible.

ADVANTAGES

Laboratory Sieve S 12/38 — VIBROTECHNIK

SIEVES COMPATIBILITY

Laboratory sieves S 12/28 are compatible with Ø 120 mm sieves of other brands.

NO CROSS-CONTAMINATION OF SAMPLES

The sieve frame is made of stainless steel (AISI 304). 

SIEVE SHAKERS COMPATIBILITY

S 12/38 sieves can be used in sieve shakers S 12 based on VD 30, VD 30T, VPS.

MESH MATERIAL

  • stainless steel
  • brass
  • bronze
  • polyamide
Laboratory Sieve S 12/38 — VIBROTECHNIK
Laboratory Sieve S 12/38 — VIBROTECHNIK

SIEVES WITH PERFORATED PLATE

In S 12/38 sieves, a perforated stainless steel plate with round or square holes is used. Laboratory sieves with standard openings are made of perforated sheet, and non-standard sieves are laser cut. Minimum size of the openings is 0.8 mm.

DAMPING RINGS AND EMBOSSING

The shock-absorbing sealing ring eliminates the collision of the sieves and ensures their tight connection to each other, and also facilitates the disassembly of the sieve column. Radial shoulders and embossing provide high rigidity of the sieve.

S 12/38 sieve scheme
Calibration certificate

CALIBRATION CERTIFICATE

Production quality is confirmed by a calibration certificate.

LASER ENGRAVING

Laser engraving labeling contains the following information:

  • Sieve type
  • Opening size
  • Serial number
  • Date of production
  • Specifications
  • Frame material
  • Sieving surface material
  • Contact information
Laboratory Sieve S 12/38 — VIBROTECHNIK

DESCRIPTION OF THE DEVICE

Laboratory sieve S 12/38 consists of a frame, a sieving surface, a connecting element and a shock-absorbing sealing ring.

In the place of attachment of the sieving surface and on the upper end of the frame, radial shoulders are made, and in the middle part there is an embossing, which ensures the rigidity of the sieve.

The sieving element is tightly attached to the frame. The exclusion of cavities and gaps in which particles of material can accumulate reduces the risk of cross-contamination of samples, improving the quality of the sieve analysis.

Labeling is performed by laser engraving.

Types of perforated plates:

  • Plates made of standard perforated sheets;
  • Plates with zone perforation;
  • Laser cut plates.

OPERATING PRINCIPLE

The sieve analysis is performed using one or more sieves, a tray and a cover. The number of sieves, as well as the mesh size or the size and shape of the perforated plate apertures are determined by the conditions of the analysis.

The sieve column can be equipped with intermediate rings to increase the height of the sieve, which allows loading larger samples onto the sieve, as well as intermediate trays for installing several sets of sieves in one column.

The material to be sieved is loaded into the upper sieve. The sieve column complete with tray and cover must be shaken manually or using a VD 30, VD 30T, VPS vibration drive. Using the vibration drive allows to increase productivity of sieving due to high-frequency reciprocating screw oscillations of the platform on which the column of sieves is fixed.

Particles of material which are smaller than the size of the sells / apertures in the sieving surface of the upper sieve fall through on the next sieve, where the cycle repeats. As a result, the sample is distributed between the sieves and the tray in accordance with the fractional content. At the end of the sieving process, the contents of each sieve are weighed and the particle size distribution of the sample is determined.

S 12/38 sieve scheme

S 12/38 sieve scheme

Standard perforated plates

Standard perforated plates

Zone perforation plates

Zone perforation plates

Laser perforation plates

Laser perforation plates

Intermediate tray, intermediate ring, cover, tray, and shock-absorbing sealing ring

Intermediate tray, intermediate ring, cover, tray, and shock-absorbing sealing ring