Mortar conveying pumpIt is a specialized equipment used for transporting building materials such as mortar, and has a wide range of applications in engineering fields such as construction, water conservancy, and transportation. Its working principle is mainly based on the reciprocating motion of one-way valves and pistons. When the piston moves forward, it will suck in mortar; When the piston moves backwards, it pushes the mortar out. A one-way valve is used to control the flow direction of mortar, ensuring that the mortar is effectively compressed and transported inside the pump body. In addition, according to the different driving methods, mortar conveying pumps can also be divided into fully hydraulic and mechanical pressure types. The fully hydraulic slurry pump uses a hydraulic system to provide power and has the characteristics of stable operation and long conveying distance; The mechanical pressure mortar pump uses traditional mechanical devices to provide power and is suitable for small-scale construction projects.

　　Mortar conveying pumpRole in the field of construction engineering:

1. Masonry engineering

Application scenario: In the construction of brick walls, block walls, and other masonry structures, mortar is directly transported to the work surface through a mortar conveying pump, replacing traditional manual handling and mixing, significantly improving construction efficiency.

Advantages: Reduce labor costs, avoid mortar segregation, and ensure uniform masonry quality.

2. Plastering project

Application scenario: In plastering operations on walls, floors, ceilings, etc., pre mixed mortar is transported to the spray gun or plastering tool to achieve continuous and uniform plastering effect.

Advantages: Improve the smoothness of the plaster layer, reduce quality problems such as hollowing and cracking, especially suitable for large-scale construction.

3. Thermal insulation engineering

Application scenario: In the external wall insulation system, materials such as bonding mortar and plastering mortar are transported to ensure a firm bond between the insulation board and the base layer.

Advantages: The mortar is evenly transported, avoiding mixing deviation caused by manual mixing, and improving the durability of the insulation system.

4. Floor construction

Application scenario: In the construction of self leveling floors, wear-resistant floors, etc., high fluidity mortar is transported to designated areas, and the surface is leveled through automatic leveling.

Advantages: Reduce manual paving errors, improve floor flatness and strength.