CXS Symmetric mounting Working principle A + A A Series CXS 6, 10, 15, 20, 25, 32 Reverse mounting Piston seal A A A R H R H 1. When the piston is retracting, air is exhausted through both A and A until piston seal H passes air passage A. 2. After piston seal H has passed air passage A, air is exhausted only through A.
Working principle A + A A Series CXS 6, 10, 15, 20, 25, 32 Reverse mounting Piston seal A A A R H R H 1. When the piston is retracting, air is exhausted through both A and A until piston seal H passes air passage A. 2. After piston seal H has passed air passage A, air is exhausted only through A.
B A B A B A B C D Normally closed (NC = b contact), solid state switch (D-F9G/F9H type) are also available.
In the graph, find where the lines repres-enting a load weight of 10 kg and a stroke of 300 mm intersect. A 50 bore size is selected.
, z + A = 100 y, z + A a 100 10 y, z + A = 200 y, z + A = 200 y, z + A = 300 y, z + A = 300 1 1 0 200 400 600 800 1000 1200 0 100 200 300 400 500 600 700 800 Stroke [mm] Stroke [mm] [Graph 6] Allowable load mass by stroke 32 [Graph 5] Allowable load mass by stroke 25 100 100 y, z + A = 0 y, z + A = 0 y, z + A = 50 y, z + A = 50 10 Load mass [kg] Load mass [kg] 10 y, z + A = 100 y, z + A =
To release residual pressure, select a model with a back flow mechanism.
Proper Auto Switch Mounting Position (Detection at stroke end) MX A B MTS MY MY3A D-A9, D-A9V (mm) D-F9W, D-F9(W)V (mm) D-M9, D-M9V (mm) CY A B Operating range Bore size 16 25 40 63 A B Operating range Bore size 16 25 40 63 B Operating range Bore size 16 25 40 63 A 088.5 084.5 26.5 084.5 22.0 26.5 2 06.5 3.0 MG Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080
One-touch fitting One-touch fitting A A 58 Applicable tube O.D.
30 A 60 81 148 45 A 36 50 73 133 60 A 74 151 75 A 46 122 146 50 80 A 60 60 55 148 36 73 166 70 44 Series IDF/IDU E Options 4 Refer to How to Order pages 26, 30, 33, 36 and 39 for optional models.
A Series MGC 20 to 50 SZ + Stroke B D port C port A, B port B port A C port A port D port A View A-A GD GD Front mounting flange SB + Stroke B SA + Stroke A ZZ + Stroke A + Stroke B Bracket mounting With R Without R Stroke A stroke Stroke A + Stroke B ( ) Bore size (mm) W1 W2 SB SA GD ZZ GC SZ availability 30 30 Up to 200 96 50 9 176 21 20 35 st or more 89 110 30 30 96 50 9 183 21 25 60 st
HRX-OM-Q026-V Operation Manual Installation Operation Original Instructions Thermo Chiller HRSH Series HRSH100-A-20HRSH100-A-40HRSH100-A-20-S HRSH150-A-20HRSH150-A-40HRSH150-A-20-S HRSH200-A-20HRSH200-A-40HRSH200-A-20-S HRSH250-A-20HRSH250-A-40HRSH250-A-20-S HRSH300-A-20HRSH300-A-40HRSH100-W-20HRSH100-W-40HRSH100-W-20-S HRSH150-W-20HRSH150-W-40HRSH150-W-20-S HRSH200-W-20HRSH200-W-40HRSH200
For a facility with a large installation area that can vent the air naturally: Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2. For a facility with a small installation area that cannot vent the air naturally: Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level. 3.
Installation at indoor site 1 In case of facility having a large installation area (that can vent the air naturally) Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2 In case of facility having a small installation area (that can not vent the air naturally) Make a forced air exhaust vent on a wall at a high level and an air
For a facility having a large installation area (that can vent the air naturally): Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2. For a facility having a small installation area (that can not vent the air naturally): Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level.
pH4.8) [mg/L] 100 or less Total hardness [mg/L] 200 or less Calcium hardness (CaCO3) [mg/L] 150 or less Ionic state silica (SiO2) [mg/L] 50 or less Modifying the Standard Specifications Caution Do not modify the standard product using any of the optional specifications once the product has been supplied to a customer.
For a facility with a large installation area that can vent the air naturally: Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2. For a facility with a small installation area that can not vent the air naturally: Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level. 3.
For a facility having a small installation area (that cannot vent the air naturally): Make a forced air exhaust vent in a wall at a high level and an air inlet in a wall at a low level.
For a facility having a small installation area (that can not vent the air naturally): Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level. 3.
Installation at indoor site 1 In case of facility having a large installation area (that can vent the air naturally) Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2 In case of facility having a small installation area (that can not vent the air naturally) Make a forced air exhaust vent on a wall at a high level and an air
For a facility having a large installation area (that can vent the air naturally): Make an air outlet on a wall at a high level and air inlet on a wall at a low level, to allow for adequate airflow. 2. For a facility having a small installation area (that can not vent the air naturally): Make a forced air exhaust vent on a wall at a high level and an air inlet on a wall at a low level.