Murray 1737920, 1695722 manual Specifications

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SPECIFICATIONS

ENGINE:

Brand

Briggs & Stratton

Model Series

Snow Series

Gross Torque*

11.50 T.P. @ 3060 rpm

Type

4-Cycle - OHV

Displacement

15.26 cu in. (250 cc)

Starting System

110V Electric, Recoil

Alternator

60W AC

Oil Capacity

20 oz (,59 liter)

Hydraulic Fluid

Mineral 5W30

Fuel Tank Volume

3.0 qts (2,8 liters)

Spark Plug Gap

0.030 in. (0.76 mm)

Resistor Spark Plug

481055

Long Life Platinium Spark Plug

5066

Ignition System

This spark plug ignition system complies with Canadian standard ICES-002.

AUGER/IMPELLER:

Clearing Width

27 in. (68,6 cm)

Intake Height

21 in. (53 cm)

Auger/Impeller Diameter

12 in. (30 cm)

Number of Impeller Blades

3

CHUTE:

Chute Deflector

Manual

Chute Rotation

190° (3.5 Turn)

DRIVE SYSTEM:

Drive Type

Friction Disc - Traction Lock Pin

Drive Speeds

6 Forward Speeds, 2 Reverse

Tire Size

16 x 4.8 in. (41 x 12,2 cm)

Tire Inflation

14 psi (,96 bar)

Engine Power Rating Information

*The gross power rating for individual gas engine models is labeled in accordance with SAE (Society of Automotive Engineers) code J1940 (Small Engine Power & Torque Rating Procedure), and rating performance has been obtained and corrected in accordance with SAE J1995 (Revision 2002-05). Torque values are derived at 3060 RPM; horsepower values are derived at 3600 RPM. Actual gross en- gine power will be lower and is affected by, among other things, ambient operating conditions and engine-to-engine variability. Given both the wide array of products on which engines are placed and the variety of environmental issues applicable to operating the equip- ment, the gas engine will not develop the rated gross power when used in a given piece of power equipment (actual "on-site" or net power). This difference is due to a variety of factors including, but not limited to, accessories (air cleaner, exhaust, charging, cooling, car- buretor, fuel pump, etc.), application limitations, ambient operating conditions (temperature, humidity, altitude), and engine-to-engine variability. Due to manufacturing and capacity limitations, Briggs & Stratton may substitute an engine of higher rated power for this Series engine.

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Contents Manual Part No Operator’s ManualDate Purchased Where to Find UsTable of Contents Operator Safety Engage Down Slow Engine Run FastEngine Stop Traction ControlOperation and Equipment Safety Moving Parts Maintenance and Storage Auger Control Decal Main Dash Decal Shift DecalEngine and Snow Thrower Controls Features and ControlsSnow Thrower Controls Features and ControlsBefore Operating Snow Thrower OperationStop the Snow Thrower Operate the Snow ThrowerControl Levers Checking the Oil Traction Lock PinsTraction Lock Pins Check the OIL Before Starting EngineStart the Engine Fill the Fuel TankStarting Engine Stopping Engine Stop the EngineOperating Tips Clear a Clogged Discharge ChuteCable Adjustment MaintenanceAfter Each USE CHECK/LUBRICATE FREE-HAND Linkage Adjust the Drag on the Chute RotationLubricate Auger Gear BOX Lubricate Auger Shaft FittingsOil Drain Plug Engine MaintenanceRemove the Snow Hood Change the Spark PlugAdjusting Skid Height Adjust Skid HeightSeconds Belt AdjustmentCheck Tension on Auger Drive Belt Adjusting Auger Drive Cable Belt Guide AdjustmentCheck and Adjust the Cables Adjusting Belt DriveTraction Drive Cable Auger Shear PIN Replacement OFF Season Storage StorageRemove from Storage Problem Look for Remedy TroubleshootingWarranties Limited WarrantyBriggs & Stratton Emissions Control Warranty Provisions Specifications Page Réf. fab Description Manuel d’UtilisationOù nous trouver Souffleuse à neigeMoteur Date d’achatTable DES Matières Ou modérées Protection des oreilles Surface chauderecommandée pour uneRotatifs Marche avant Point mort Marche arrière Manette de tarièreSécurité de l’utilisation et de l’équipement Dange Sécurité du moteur suite Réf Auger Étiquette Étiquette Tableau de bord principal Étiquettes du moteur RéfÉtiquettes de sécurité Commandes de moteur Commandes DU Moteur ET DE LA Souffleuse À NeigePoignée de lanceur Sert à démarrer le moteur à la main Commandes de la soufleuse à neige Fontions ET CommandesVérifier la pression dair des pneus Ne pas gonfler les pneus-dessus de la pression recommandéeAvant D’UTILISATION Souffleuse À Neige Contrôler LES PneusTransport uniquement Utilisation DE LA Souffleuse À NeigeArrêter LA Souffleuse À Neige Neige mouillée, lourde, fondante, très profondeContrôler le niveau d’huile Traction goupille de sûretéEt au-dessus Et en dessousDémarrer LE Moteur Remplir LE Réservoir D’ESSENCEArrêter LE Moteur Autant que possible, projeter la neige dans le sens du vent Conseils D’UTILISATIONToujours utiliser un outil de nettoyage, pas les mains Outil de nettoyageAprès Chaque Utilisation Pignon de rotation de goulotte Graissage DE L’ARBRE DE VIS Sans FINContrôles de graissage Graissage de la boîte d’engrenage de vis sans finBouchon de vidange d’huile Voir les huiles recommandées dans le tableau ci-contreEntretien DU Moteur Et au-dessus E W30 Et en dessous Synthétique 5W30Fixation La bougie E est à présent accessibleChanger LA Bougie D’ALLUMAGE Déposer le capot à neigeRégler la hauteur des patins Régler ou changer la bougieRégler LA Hauteur DES Patins Les patins se règlent de la manière suivanteCourroie d’entraînement de traction Ajustement DES CourroiesCourroie d’entraînement de vis sans fin Réglage guide de courroie Ajustement DU Guide DE CourroieContrôle ET Réglage DES Câbles Câble d’entraînement de vis sans finCâble de commande de traction Changer LES Goupilles DE Cisaillement DE VIS Sans FIN Sortir LA Souffleuse À Neige DU Remisage Remisage Hors SaisonLubrifier arbre hexagonal et chaînes Le moteur cale Démarrage difficileLe moteur a des ratés Moteur est chaudGaranties Novembre Type d’entraînement Informations concernant la puissance théorique du moteurBougie en platine longue durée Dispositif d’allumage Déflecteur de goulotte Manuel Rotation de la goulotte

1737920, 1695722 specifications

Murray 1737920 and 1695722 represent two significant advancements in the realm of smart technology, particularly in the area of home automation and energy management. These devices integrate cutting-edge features designed to enhance user experience while optimizing energy efficiency.

One of the main characteristics of Murray 1737920 is its intelligent energy management system, which utilizes real-time data analytics to monitor energy consumption patterns. The device employs machine learning algorithms to intelligently predict energy requirements, allowing users to reduce waste and lower their utility bills. Additionally, it has a user-friendly interface that provides insights into energy usage, enabling homeowners to make informed decisions about their consumption.

Murray 1695722, on the other hand, focuses more on home automation and security. With built-in Wi-Fi connectivity, it allows users to control various appliances remotely through a dedicated mobile application. This feature not only enhances convenience but also allows for enhanced security by enabling users to monitor their homes in real-time. The device is equipped with motion sensors and alert systems that can notify homeowners of any unusual activity, adding an extra layer of protection.

Both devices integrate seamlessly with existing smart home ecosystems, supporting popular communication protocols such as Zigbee and Z-Wave. This compatibility allows users to expand their systems by adding other smart devices, creating a fully integrated home automation experience.

In terms of installation, both Murray models are designed to be user-friendly. They typically come with comprehensive instructions, and many features can be accessed with minimal technical knowledge. The focus on ease of use extends to their maintenance, with straightforward troubleshooting and support available through the manufacturers.

Another important feature of both devices is their commitment to sustainability. By helping families monitor and manage their energy consumption, they play a crucial role in promoting more eco-friendly practices within households. Combined, Murray 1737920 and 1695722 stand out as leaders in smart home technology, emphasizing efficiency, security, and user-centric design principles that cater to the evolving needs of modern homeowners. These innovations represent a significant step forward in creating energy-conscious and secure living environments.