Baby Height Measuring Scale for Infant Length

Model NO.: IH-300
Application: Baby Scales
Function: Weighing Scale
Structure: Electronic Scale
Shape: Straight
Height Range: 0-100cm
Division: 0.5cm
Trademark: OEM
Transport Package: White Box
Specification: 105*42*10cm/ctn
Origin: Ningbo
HS Code: 84231000
Model NO.: IH-300
Application: Baby Scales
Function: Weighing Scale
Structure: Electronic Scale
Shape: Straight
Height Range: 0-100cm
Division: 0.5cm
Trademark: OEM
Transport Package: White Box
Specification: 105*42*10cm/ctn
Origin: Ningbo
HS Code: 84231000
Baby Length Height Board
Specifications: metal raw material Baby body height measurer scale;
Material: Metal;
Height range to be measured: 0-98cm
Graduation of hight measurement: 0.5cm
Baby body measurer sclae, baby length measurer scale, baby height measuring scale
Sleek broad base with one sliding side adjustable as per length of baby.
Dual scale for direct reading in cms / inches upto 90 cm.
Folding slides for easy storage.
Baby can comfortably lay onto the chest of the scale.

Baby Length Height Board
Specifications: metal raw material Baby body height measurer scale;
Material: Metal;
Height range to be measured: 0-98cm
Graduation of hight measurement: 0.5cm
Baby body measurer sclae, baby length measurer scale, baby height measuring scale
Sleek broad base with one sliding side adjustable as per length of baby.
Dual scale for direct reading in cms / inches upto 90 cm.
Folding slides for easy storage.
Baby can comfortably lay onto the chest of the scale.

An impulse turbine is a type of Steam Turbine where the rotor derives its rotational force from the impact force, or the direct push of steam on the blades. 

The impulse turbine consists of a rotor mounted on a shaft that is free to rotate.  Attached to the rotor are a set of curved blades.  Nozzles then direct the high pressure and high temperature steam towards the blades of the turbines.  The blades catch the impact force of the rapidly moving steam and rotate from this force.

Turbines_impulse_v_reaction

The Impulse Principle


The steam at high pressure enters through a stationary nozzle of a steam turbine, as a result the pressure of the steam is decrease and an increase in steam velocity.  As a result of increased steam velocity steam pass through the nozzle in the form of a high-speed jet. This high-velocity steam hit the properly shaped turbine blade, as a result, the steam flow direction is changed. The effect of this change in direction of the steam flow will produce an impulse force. This force cause the blade move, thereby the rotor will start to rotate.

The force applied to the blade is developed by causing the steam to change the direction of flow (Newton`s 2nd Law – change of momentum). The change of momentum produces the impulse force.

Impulse Turbine Working:

impulseturbine

In the impulse turbine pressure drops and the velocity increases as the steam passes through the nozzles. When the steam passes through the moving blades the velocity drops but the pressure remains the same.

The fact that the pressure does not drop across the moving blades is the distinguishing feature of the impulse turbine. The pressure at the inlet of the moving blades is same as the pressure at the outlet of moving blades.



Impulse Steam Turbine

Impulse Steam Turbine

Shandong Qingneng Power Co., Ltd. , https://www.steamturbine.be