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The M7MI hydraform brick machine is one unique type of brick-making machine. However, there are other types of machines that can be used to make bricks. They are categorized based on function, working method, automation, and control system. Here are some other types of brick-making machines:
Productivity (per 8-hour shift):
The production of the machine will vary based on several factors, including the capacity of the equipment, the size of the bricks being made, and the efficiency of the operation. For instance, the M7MI has a capacity of producing 1920-2880 pieces of 7 holes 1, 3x0.24m bricks per day.
Feeding:
The raw material input area of a hydraform brick-making machine is generally around one cubic meter.
Power:
The amount of power consumed by the machine will differ depending on its size and type. For instance, the M7MI employs a 9HP diesel engine and a hydraulic system. Operating power ranges from 50 to 80 kilowatts.
Weight and Dimensions:
The dimension of the M7 machine is about 3.12M X 1.38M X 1.75M and it weighs approximately 2200 kg. As a result, it is simple to shift and install on construction sites as well as at industrial facilities in brick production.
Compressed Air Requirement:
Brick production facilities frequently employ pneumatic systems for automation. The hydraform machine compresses air at a rate of 0.5 cubic meters per minute.
Cooling System:
A cooling mechanism is essential for managing the operating temperature and assuring perfect functionality since hydraform machines utilize hydraulic systems. It could contain a radiator and a fan for airflow.
Regular cleaning,
To avoid material buildup and potential damage, it is essential to clean the brick-making machine thoroughly. It is necessary to ensure that no raw material remnants are stuck to the machine and remove debris and dust from the machine surface.
Lubricate moving parts,
A hydraform machine has various components, such as bearings and gears, that require regular lubrication to ensure smooth operation. Lubricants of the right type and enough quantity should be applied to these moving parts.
Regular inspections,
Check for wear and tear or damage to critical parts, such as molds, hydraulic cylinders, gears, and transmission belts. If there is any abnormality, they should be promptly repaired or replaced to avoid breakdown and affecting production efficiency.
Small-scale brick making business
An entrepreneur can utilize an M7MI Hydraform machine to start a small brick-making business. The machine is affordable for those new to the business or limited resources. They can produce hydraform blocks for local building projects. The entrepreneur can use locally available materials to reduce costs and create a sustainable business.
Community projects
A community can come together and use the machine to build important projects. This may include using hydraform blocks to put up schools, clinics, or community centers. The M7MI machine makes it easier for the community to realize its goals cost-effectively. It promotes self-sufficiency and gives the community a sense of ownership.
Remote construction sites
Many construction sites face the challenge of limited access to quality building materials. This is especially true for remote areas. Hydraform machines can provide a local source of building materials. This eliminates the need to transport heavy materials over long distances. Hydraform blocks are also easier to transport than traditional bricks.
Rapid construction needs
Some construction projects need quick completion of buildings. This includes temporary housing for disaster survivors. The M7MI hydraform machine can quickly produce large amounts of blocks for such projects. Using interlocking blocks also speeds up the construction process.
When choosing the right M7Mi Hydraform machine for sale, buyers should look at the parameters to ensure they get a functional and efficient device for their needs. First, buyers should look at the machine's capacity. In this case, they should check the machine's maximum production capacity in a given time frame (usually in hours or days). It will help buyers choose a machine that aligns with their desired production volume.
Another essential parameter to consider when buying the M7Mi hydraform brick machine is the level of automation. Buyers can choose between fully automatic, semi-automatic, and manual brick-making machines. They should also consider the machine's size and weight. In this case, they should evaluate the dimensions and weight of the brick-making machine to ensure it fits their production facility and can be easily installed and moved into place.
More importantly, buyers should consider the raw material compatibility of the brick-making machine they want to purchase. Different brick-making machines are designed to handle specific types of raw materials. Additionally, buyers should check the compressing power of the brick-making machine in order to produce strong and durable bricks. The compressing strength is usually measured in tons or kn.
Ensure that the machine has the necessary safety features, like emergency stop buttons, safety guards, and overload protection. Some brick-making machines may come with additional features, like automated feeding and stacking systems, which can enhance production efficiency but at a higher cost.
Finally, buyers should consider the machine's energy requirements, like electrical power or hydraulic requirements. More importantly, they should ensure that the machine complies with international standards and has certification. It will help buyers choose a machine that is safe and reliable to use.
Q1: What is the main difference between M7MI and M4MI Hydraform machine?
A1: The main difference between the M7MI and the M4MI Hydraform machine is that the M7MI will produce interlocking blocks that need no specific orientation when stacking. Additionally, the M7MI machine is automated and easy to operate, making it a preferable option in large to medium construction projects. On the other hand, the M4MI machine is semi-automated, making it suitable for small to medium construction projects. The M4MI also produces blocks that require proper orientation to be stable.
Q2: Which soil is best for the M7MI Hydraform block?
A2: Almost any type of soil can be stabilized and used to produce Hydraform blocks as long it meets the specification. However, it is preferable to use sandy soil as it has more particles. Other types of soil that can be used include lateritic and gravel soil. Whenever unsuitable soil is used, it may be necessary to add more stabilizer to meet the requirements.
Q3: How long does it take to stabilize the soil before using it in the M7MI Hydraform block?
A1: It may take approximately 2 to 3 hours to stabilize the soil before it can be used in the M7MI Hydraform block. First, lime or cement will be added to the soil as a stabilizer, then water will be added to ensure even distribution of the stabilizer. Mixing can be done either manually or with a mechanical mixer. Once stabilized, the soil can be used to produce Hydraform blocks.
Q4: What is the ideal proportion of cement to soil in the M7MI Hydraform block?
A2: The ideal proportion of cement to soil in the M7MI Hydraform block will vary depending on the soil type. However, generally, the proportion should be 5 to 7% of cement to 93 to 95% of soil. It is important to note that when using lateritic soil, one may use a lower percentage of cement, as lateritic soil contains a high concentration of red iron oxide, which grants it cement-like properties.
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