Direct Operated Check Valve - Series CM | South Africa
CM
318609
false
[
]
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Direct Operated Check Valve - Series CM | Product Series
var attrArray = new Array();
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel A ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel B ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel B ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A and B ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel A and B ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel P ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel T ';
attrValueMap['Maximum Flow Rate'] = '53 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel A ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel B ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel B ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A and B ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel A and B ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel P ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel T ';
attrValueMap['Maximum Flow Rate'] = '76 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A ';
attrValueMap['Maximum Flow Rate'] = '60 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel B ';
attrValueMap['Maximum Flow Rate'] = '60 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Maximum Flow Rate'] = '60 L/MIN ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel P ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A and B ';
attrValueMap['Maximum Flow Rate'] = '60 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Maximum Flow Rate'] = '60 L/MIN ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel T ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Maximum Flow Rate'] = '120 L/MIN ';
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel B ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Maximum Flow Rate'] = '120 L/MIN ';
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel P ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Maximum Flow Rate'] = '120 L/MIN ';
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From directional valve to manifold, check valve in channel T ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel B ';
attrValueMap['Port Connection'] = 'NG06 / CETOP 03 ';
attrValueMap['Maximum Flow Rate'] = '60 L/MIN ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel B ';
attrValueMap['Maximum Flow Rate'] = '120 L/MIN ';
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrArray.push(attrValueMap);
var attrValueMap = {};
attrValueMap['Maximum Flow Rate'] = '120 L/MIN ';
attrValueMap['Port Connection'] = 'NG10 / CETOP 05 ';
attrValueMap['Function'] = 'From manifold to directional valve, check valve in channel A ';
attrArray.push(attrValueMap);
Parker direct operated check valves series CM in sandwich design are predestined for an easy configuration of stack systems. A large number of options offer a multitude of uses for hydraulic switching.
Technical Specifications
Mounting Type:
Sandwich plate
Product Series:
Check valve
Maximum Operating Pressure:
350 bar
Actuation Type:
Mechanical
Body Material:
Steel
Configuration:
Check valve in port A, B, A and B, P, T
Connection Size:
N/A
Connection Type:
N/A
Cracking Pressure:
0.5 bar
Flow Direction:
From directional valve to manifold/ from manifold to directional valve
Maximum Operating Temperature:
70 Ā°C
Minimum Operating Temperature:
-20 Ā°C
Seal Material:
FPM
Mounting Position:
Unrestricted
Weight:
NG06: 0.7, NG10: 2.0 kg
Maximum Flow Rate:
Depending on size, 53-120 L/min
FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE. This document and other information from Parker-Hannifin Corporation, its subsidiaries and authorized distributors provide product or system options for further investigation by users having technical expertise. The user, through its own analysis and testing, is solely responsible for making the final selection of the system and components and assuring that all performance, endurance, maintenance, safety and warning requirements of the application are met. The user must analyze all aspects of the application, follow applicable industry standards, and follow the information concerning the product in the current product catalog and in any other materials provided from Parker or its subsidiaries or authorized distributors. To the extent that Parker or its subsidiaries or authorized distributors provide component or system options based upon data or specifications provided by the user, the user is responsible for determining that such data and specifications are suitable and sufficient for all applications and reasonably foreseeable uses of the components or systems.....
Click here to view all product safety information.
Full Product Description
Parker direct operated check valves series CM in sandwich design are part of Parker's complete range of sandwich plate valves and ensure an easy configuration of conventional stack systems. Additionally they provide a very good price-performance ratio.
Series CM is available in two sizes, NG06 and NG10. Depending on the function required, one or two check valves are arranged in ports P, T, A, and B. Number and flow direction can be selected from the ordering code.
Features/Benefits: ā¢ 8 options for the arrangement of the check valve in the body - multitude of uses for hydraulic switching ā¢ Valve bodies are made of steel - extra strength and durability ā¢ Function can be changed by turning the valve - easy handling ā¢ Short delivery time for most versions - no warehousing necessary ā¢ Two sizes: - CM2 - NG06 (CETOP 03) - CM3 - NG10 (CETOP 05) ā¢ Maximum operating pressure 350 bar
Applications: ā¢ Suitable for general hydraulic applications ā¢ Machine tools ā¢ Tire presses
