Unidirectional Magnetic Field Press for High-Precision Magnetic Component Production
Unidirectional magnetic field press Unidirectional magnetic field press, this is a machine designed for the manufacture of magnetic products. The machine not only solves the shortcomings of the traditional press in labor intensity, speed and productivity, but also significantly improves the pressing accuracy, magnetic field strength and finished product qualification rate.
Features
1. Core technology
The core of the unidirectional magnetic press is its unique magnetic field system. The system produces a focused, unidirectional magnetic field that ensures a uniform and consistent force distribution across the molded surface. This results in superior product quality with precise dimensional accuracy and minimal deformation.
2. Precision molding
Unidirectional magnetic field presses excel in precision molding capabilities. With its focused magnetic field, the machine is able to process the most complex formed patterns, providing accurate replicas with unparalleled repeatability. The final product is flawless and has high dimensional stability.
3. Easy to operate
Despite the advanced technology, the unidirectional magnetic press is designed to be easy to operate. Its intuitive control system allows operators to set up molding jobs, monitor progress, and adjust parameters quickly and efficiently. This reduces downtime and ensures optimal performance throughout the production process.
4. Durability and reliability
Manufactured with high quality materials and precision engineering, the unidirectional magnetic field press is durable. It withstands the rigors of continuous operation, ensuring reliable performance and minimal maintenance requirements. This makes it a cost-effective solution for manufacturers looking for long-term value.
5. Versatility
Unidirectional magnetic presses are highly versatile and can handle a wide range of magnetic materials and applications. From precision parts to large components, the machine has the ability to adapt and produce accurate, high-quality products.
Performance parameters:
|
Model |
The pressure |
column |
head |
magnetic field GS |
power |
The beat |
|
|
Two-way type mechanical limit |
DXP15-200 |
15 |
Φ200 |
Φ150 |
>17000 |
18 |
15-18 |
|
DXP15-250 |
15 |
Φ250 |
Φ150 |
>20000 |
22 |
18-20 |
|
|
DXP25-300 |
25 |
Φ300 |
Φ200 |
>21000 |
26 |
20-30 |
|
|
DXP40-350 |
40 |
Φ350 |
Φ250 |
>21000 |
29 |
30-40 |
|
|
One-way side Cylinder type |
DXP15-200 |
15 |
Φ200 |
Φ150 |
>17000 |
18 |
7-9 |
|
DXP15-250 |
15 |
Φ250 |
Φ150 |
>20000 |
22 |
8-10 |
|
|
DXP25-300 |
25 |
Φ300 |
Φ200 |
>21000 |
26 |
10-12 |
|
|
DXP40-350 |
40 |
Φ350 |
Φ250 |
>21000 |
29 |
15-20 |
|
|
Two-way type |
DXP15-200 |
15 |
Φ200 |
Φ150 |
>17000 |
18 |
15-18 |
|
DXP15-250 |
15 |
Φ250 |
Φ150 |
>20000 |
22 |
18-20 |
|
|
DXP25-300 |
25 |
Φ300 |
Φ200 |
>21000 |
26 |
20-30 |
|
|
Parallel to pressure type |
DXP40-250 |
40 |
Φ250 |
Φ150 |
>20000 |
22 |
15-25 |
|
DXP60-300 |
60 |
Φ300 |
Φ200 |
>20000 |
26 |
20-30 |
|
|
DXP100-350 |
100 |
Φ350 |
Φ250 |
>21000 |
29 |
25-35 |
|
|
DXP100-400 |
100 |
Φ400 |
Φ300 |
>21000 |
32 |
30-40 |
|
|
Radiant |
DXP15-100 |
15 |
Φ100 |
- |
>13000 |
20 |
10-20 |
|
DXP25-200 |
25 |
Φ200 |
- |
>15000 |
26 |
15-25 |
|
Deliver, shipping and serving
In today's highly competitive business environment, providing excellent logistics services is crucial to cultivating and maintaining the trust of valued customers. Adhering to the principle of "customer first," we carry out accurate and detailed evaluations of various modes of transportation, such as sea, air, and land transportation, and tailor-made transportation solutions to meet their unique needs. We strive to exceed our customers' expectations and ensure that every shipment is delivered to its destination on time, safely, and accurately. We understand the importance of smooth logistics to our customer's business, so we will spare no effort to provide excellent service and ensure that every logistics experience is satisfied and trusted by our customers.



FAQ
Question 1: What are the technical advantages of unidirectional magnetic field presses compared to traditional magnetic field presses?
Answer:
1. High magnetic field uniformity: The unidirectional magnetic field press can produce a highly uniform magnetic field to ensure that the material is uniformly magnetized in the magnetic field.
2. High magnetic field strength: Through advanced magnetic field generation technology, unidirectional magnetic field presses can generate much higher magnetic field strength than traditional equipment, enabling the depth control of materials' magnetic properties.
3. Precise control: The advanced control system can accurately control the direction and strength of the magnetic field to meet the magnetization needs of various complex materials.
4. High efficiency and energy saving: While maintaining high performance, unidirectional magnetic field press pays attention to energy-saving design to reduce energy consumption and operating costs.
Question 2: How does the unidirectional magnetic field press ensure the uniformity of the magnetic field?
Answer:
A Unidirectional Magnetic Field Press ensures the uniformity of the magnetic field throughout the working area through the use of advanced magnetic field generation technology and a precision magnetic field control system. This includes optimizing the design and layout of the magnetic field generator and using advanced magnetic field simulation and calibration techniques to precisely adjust and control the direction and intensity distribution of the magnetic field, thereby achieving a high degree of magnetic field uniformity.
Question 3. What is the range of the Unidirectional Magnetic Field Press?
Answer:
Unidirectional Magnetic Field Press The range of magnetic field strength depends on the specific device model and configuration. It can generally produce magnetic field strengths from a few hundred gauss to tens of thousands of gauss or even higher. The specific field strength range can be customized and adjusted according to customer needs and application scenarios.













