Flat Covers 2017 - 19 Pages

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Catalogue excerpts

FLAT COVERS P.A.    = Open length P.C.    = Closed length Stroke = Open length - closed length B = Outside width a = Outside height x = Fold height Reproduction of this page is strictly prohibited. Formula for calculating the CLOSED LENGTH AP = Opening of 1 fold = x • 2 - 8 SM = Fabric thickness * SS = Stiffener thickness * SF = Flange thickness * P.A. NP = Number of folds =    ' ' + 2 AP P. C.= (SM • 8 + SS) • NP + (SF • 2) * See materials list on page 31. This data sheet shows only one type of Thermic-Welded Cover that we manufacture. Contact our engineering department for other types. Example: Given that:    Fold height = 15 mm Open length = 1000 mm Opening of 1 fold = 15 x 2 - 8 = 22 1000 Number of folds =    -+ 2 = 48 Closed length    = 3 x 48 + 4    = 148 Closed length = 148 mm * We hypothesize the fabric material with code "TEMAT015" (see materials list on page 31) ** We hypothesize that the stiffener is 1 mm thick *** We hypothesize that the flange is 2 mm thick (see materials list on page 31)

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FLAT COVERS Reproduction of this page is strictly prohibited. P.A.    = Open length P.C.    = Closed length Stroke = Open length - closed length B = Outside width a = Outside height x = Fold height Formula for calculating the CLOSED LENGTH Opening of 1 fold = (x.2) - 16 SM    =    Fabric thickness * PA NP    =    Number of folds =    —— + 2 AP P. C. = (SM . 8 + SS) . NP + (SF . 2) * See materials list on page 31 This data sheet shows only one type of Thermic-Welded Cover that we manufacture. Contact our engineering department for other types. Example Given that:    Fold height = 30 mm Open length...

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FLAT COVERS THERMIC-WELDED COVER WITH FIXED LAMINATIONS Working position: Horizontal Vertical Frontal P.A.    = Open length    B    = Outside width P.C.    = Closed length    a    = Outside height Stroke    = Open length - closed length    x    = Fold height Formula for calculating the CLOSED LENGTH Reproduction of this page is strictly prohibited. AP = Opening of 1 fold = x . 2 - 16 SM = Fabric thickness * SS = Stiffener thickness * SF = Flange thickness * P.A. NP = Number of folds= ap + 2 P. C. = (SM . 8 + SS) . NP + (SF . 2) * See materials list on page 31 This data sheet shows only one type...

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FLAT COVERS Thermic-Welded Cover materialsFabric material code Visible side Description Fabric insert Internal side Thickness    Heat resistance (mm) Momentary Continuous contact Primary resistance characteristics Reproduction of this page is strictly prohibited. Excellent resistance to oils and chemical products. No adhesive surface. Low friction coefficient. Excellent chemical inertia. Excellent resistance to abrasion and bending strength. Mainly used in grinding machines. Excellent resistance to petroleum products, oils and heavy abrasion. Excellent bending strength. Mainly used around heavy...

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FLAT COVERS Standard Shapes NOTE: The above are only the standard shapes of Thermic-Welded Covers. Other shapes available upon request. Solution with sheet steel, aluminum or PVC flange Shape and holes per customer drawings Solution with sheet steel, aluminum or PVC flange Shape and holes per customer drawings Solution with connector flange protruding from the cover profile, made of sheet steel, aluminum or PVC Solution with sheet steel flange Shape and holes per customer drawings Threaded flange holes Type E Solution with rapid VELCRO connection. A PVC support acts as a flange, with VELCRO strips...

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FLAT COVERS X-Y LM SHIELD Thermic-welded Cover with Laminations Reproduction of this page is strictly prohibited. Reproduction of this page is strictly prohibited. • X-Y LM Shield: composed of 4 thermic-welded bellows and screened with stainless steel laminations. • It is the solution that is a low-cost, robust and lightweight combination for separating the working area from the motor compartment. • X-Y LM Shield reaches speeds of up to 120 m/min and accelaration up to

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FLAT COVERS X-Y LM SHIELD Thermic-welded Cover with Laminations • X-Y LM Shield: This system guarantees double protection as the laminations shield the bellow from hot and sharp shavings while the bellow enfolds and defends the guides from liquids getting under the laminations. Reproduction of this page is strictly prohibited. Reproduction of this page is strictly prohibited. • Widely used on horizontal and vertical, small to large working centres. Application example

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FLAT COVERS Reproduction of this page is strictly prohibited. Reproduction of this page is strictly prohibited. X-Y LM SHIELD Thermic-welded Cover with Laminations

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FLAT COVERS MULTI-STEEL Thermic-welded Cover with Laminations • Thermic-welded bellows with laminations on many sides are the ideal solution for complete protection of the roof and crossbar in multi-shaft working centres. • The corners are closed and steel inox laminations applied with a perfect 90° fold in merit of the elastic deformation of the material and a special geometry. Reproduction of this page is strictly prohibited. Reproduction of this page is strictly prohibited. • More than two sides can be covered and with different angles. For this type of bellow consult our technical office.

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FLAT COVERS BELLOWS FOR HOISTING PLATFORM Solution with sheet steel, aluminum or PVC flange. Shape and holes per customer drawings. Solution with rapid VELCRO connection. This solution offers: • Rapid application and removal of the cover • Low cost Solution with sheet steel, aluminum or PVC flange. Shape and holes per customer drawings. Bellows inner collar. Suitable for screw fastening. Bellows outer collar. Suitable for screw fastening. • Protection of level changing in assembly lines of the manufacturing industry • Base protection of medical equipment • Closing of upright doors • Closing of...

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FLAT COVERS EVER-CLEAN Thermic-welded Cover • The construction of the corner is the main feature of this thermic-welded bellow. • The bellow is guaranteed to be free from chips and sludge, there are no creases in the fabric which obstruct the chip conveyor. • The closed length of the bellow is smaller than traditional thermic-welded bellows due to the absence of folds of fabric in the corners. • The range of geometry possible for manufacture has increased. • Structural rigidity has increased in applications where only one bellow must cover the crossbar and roof of the machinery. (Patent Pending) Reproduction...

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