A magnetic separator convenient to move

CN224405351UActive Publication Date: 2026-06-26LANZHOU NEW DISTRICT MUNICIPAL BUILDING MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LANZHOU NEW DISTRICT MUNICIPAL BUILDING MATERIALS CO LTD
Filing Date
2025-04-07
Publication Date
2026-06-26

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Abstract

The utility model provides a kind of mobile magnetic force sorting machine, it is related to magnetic force screening technical field, including conveying mechanism, the conveying mechanism includes conveying frame, the both ends of conveying frame are provided with first tensioning component, and the first tensioning component includes first moving plate and first fixed bolt.The utility model can drive first driving wheel, driven wheel, first conveyor belt to rotate by starting first motor, and then the material to be sorted is transported to the bottom of electromagnetic cylinder, the magnetic force of electromagnetic cylinder can adsorb magnetic material, and the magnetic material continues to move under the driving of second conveyor belt and will fall into magnetic material collecting box, the continuity of sorting is effectively improved by electromagnetic cylinder continuously sorting material, and the device is conveniently moved by universal wheel, the flexibility of equipment is enhanced, and it is convenient to move and adjust use position in small workshop.
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Description

Technical Field

[0001] This utility model relates to a magnetic sorting machine, specifically a mobile magnetic sorting machine, and belongs to the field of magnetic screening technology. Background Technology

[0002] Magnetic separators utilize magnetic force to screen different materials. With the advancement of industrialization, production environments are becoming increasingly complex, requiring sorting equipment to be not only highly efficient and precise, but also capable of adsorbing magnetic products from passing materials to complete the sorting of magnetic products.

[0003] Chinese Patent Publication CN212418308U discloses a magnetic product screening mechanism. When the first suction plate moves above the conveyor belt and is in the suction state, the second suction plate moves to the upper end of the material collection rack on one side and is simultaneously in the unloading state; when the second suction plate moves above the conveyor belt and is in the suction state, the first suction plate moves to the upper end of the material collection rack on the other side and is simultaneously in the unloading state. This enables continuous operation, thereby effectively improving screening efficiency. Operators only need to replace the hopper when it is full, effectively reducing the labor intensity of operators.

[0004] The aforementioned patent achieves continuous operation by alternating between the first and second suction plates. However, in practical applications, it has been found that if the first suction plate is not in a suction state before moving above the conveyor belt, a small amount of material will not be sorted, and the continuity of sorting needs to be improved.

[0005] Furthermore, the aforementioned patent incorporates multiple material collection racks and suction plates to ensure effective sorting, resulting in a complex mechanical structure that is difficult to move in small workshops and requires improved flexibility. Therefore, this paper proposes a more mobile magnetic separator. Utility Model Content

[0006] This invention proposes a mobile magnetic sorting machine that continuously sorts materials using magnetic rollers, effectively improving the continuity of sorting while enhancing the flexibility of the equipment, making it easy to move and adjust its position in small workshops.

[0007] This utility model is achieved through the following technical solution: a mobile magnetic separator, including a material conveying mechanism, wherein the material conveying mechanism includes a material conveying frame, and both ends of the material conveying frame are provided with a first tensioning component, the first tensioning component including a first moving plate and a first fixing bolt, the first moving plate being fixed to the material conveying frame by the first fixing bolt, the first tensioning component being provided with a first conveying component, the first conveying component including a first motor fixed to the first moving plate, the output end of the first motor being fixed with a first driving wheel, the first conveying component also including a driven wheel rotatably connected to the material conveying frame, and a first conveyor belt being installed on the first driving wheel and the driven wheel.

[0008] The feeding rack is provided with a first adjustment component for abutting against the first moving plate. The first adjustment component includes a first threaded block, which is fixed on the feeding rack. A first threaded rod is threadedly connected to the first threaded block. A first top block is rotatably connected to one end of the first threaded rod near the first moving plate. The feeding mechanism also includes a non-magnetic material collection box located at the right end of the feeding rack.

[0009] The material conveying mechanism further includes a first shielding component, which includes a first baffle and a first screw. The first baffle is fixed to the material conveying frame by the first screw.

[0010] The material conveying mechanism is equipped with a magnetic sorting mechanism, which includes a sorting frame. Both ends of the sorting frame are equipped with a second tensioning component. The second tensioning component includes a second moving plate and a second fixing bolt. The second moving plate is fixed to the sorting frame by the second fixing bolt. The second tensioning component is equipped with a second conveying group. The second conveying group includes a second motor fixed to the second moving plate. The output end of the second motor is fixed with a second drive wheel. The second conveying group also includes an electromagnetic cylinder rotatably connected to the sorting frame. A second conveyor belt is installed on the second drive wheel and the electromagnetic cylinder.

[0011] The sorting frame is provided with a second adjusting component for abutting against the second moving plate. The second adjusting component includes a second threaded block, which is fixed on the sorting frame. A second threaded rod is threadedly connected to the second threaded block. A second top block is rotatably connected to one end of the second threaded rod near the second moving plate. The magnetic sorting mechanism also includes a magnetic material collection box located at the right end of the sorting frame.

[0012] The magnetic sorting mechanism further includes a second shielding component, which includes a second baffle and a second screw. The second baffle is fixed to the sorting frame by the second screw.

[0013] Both the material conveying mechanism and the magnetic sorting mechanism are equipped with a moving component. The moving component includes a support column, a caster wheel is fixed to the bottom of the support column, and a support plate is slidably connected to the top of the support column.

[0014] This utility model provides a mobile magnetic sorting machine, which has the following advantages:

[0015] 1. This mobile magnetic separator, by starting the first motor, drives the first driving wheel, driven wheel, and first conveyor belt to rotate, thereby conveying the material to be sorted to the bottom of the electromagnetic drum. The magnetic force of the electromagnetic drum can attract magnetic materials. The magnetic materials continue to move under the drive of the second conveyor belt and will fall into the magnetic material collection box. The electromagnetic drum continuously sorts the materials, effectively improving the continuity of sorting. At the same time, the casters make it easy to move the device, enhancing the flexibility of the equipment and making it easy to move and adjust the usage position in small workshops. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0017] Figure 2 This is a schematic diagram of the material conveying mechanism of this utility model;

[0018] Figure 3 For the present utility model Figure 2 Enlarged schematic diagram of the structure at point A in the middle;

[0019] Figure 4 This is a schematic diagram of the magnetic sorting mechanism of this utility model;

[0020] Figure 5 For the present utility model Figure 4 Enlarged schematic diagram of the structure at point B.

[0021] Explanation of reference numerals in the attached figures

[0022] 1. Material conveying mechanism; 101. Material conveying frame; 102. First tensioning assembly; 1021. First moving plate; 1022. First fixing bolt;

[0023] 103. First conveying assembly; 1031. First motor; 1032. First driving wheel; 1033. Driven wheel; 1034. First conveyor belt;

[0024] 104. First adjusting component; 1041. First threaded block; 1042. First threaded rod; 1043. First top block;

[0025] 105. First shielding assembly; 1051. First baffle; 1052. First screw; 106. Non-magnetic material collection box;

[0026] 2. Magnetic sorting mechanism; 201. Sorting frame; 202. Second tensioning assembly; 2021. Second moving plate; 2022. Second fixing bolt;

[0027] 203. Second conveyor group; 2031. Second motor; 2032. Second drive wheel; 2033. Electromagnetic cylinder; 2034. Second conveyor belt;

[0028] 204. Second adjusting component; 2041. Second threaded block; 2042. Second threaded rod; 2043. Second top block;

[0029] 205. Second shielding assembly; 2051. Second baffle; 2052. Second screw; 206. Magnetic material collection box;

[0030] 3. Moving components; 301. Support column; 302. Casters; 303. Support plate. Detailed Implementation

[0031] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this application.

[0032] Please see Figures 1-5 The present invention proposes the following implementation scheme: a magnetic separator that is easy to move, including a material conveying mechanism 1, the material conveying mechanism 1 including a material conveying frame 101, and a first tensioning component 102 provided at both ends of the material conveying frame 101. The first tensioning component 102 includes a first moving plate 1021 and a first fixing bolt 1022. The first moving plate 1021 is fixed to the material conveying frame 101 by the first fixing bolt 1022.

[0033] The first tensioning assembly 102 is provided with a first conveying assembly 103. The first conveying assembly 103 includes a first motor 1031 fixed on the first moving plate 1021. The output end of the first motor 1031 is fixed with a first driving wheel 1032. After the first motor 1031 is started, it can drive the first driving wheel 1032 to rotate. The first conveying assembly 103 also includes a driven wheel 1033 rotatably connected to the material conveyor 101. A first conveyor belt 1034 is installed on the first driving wheel 1032 and the driven wheel 1033. The rotation of the first driving wheel 1032 will drive the rotation of the first conveyor belt 1034 and the driven wheel 1033.

[0034] Please refer to this carefully. Figure 2 and Figure 3The material conveyor 101 is provided with a first adjustment component 104 for abutting against the first moving plate 1021. The first adjustment component 104 includes a first threaded block 1041, which is fixed on the material conveyor 101. A first threaded rod 1042 is threadedly connected to the first threaded block 1041. A first top block 1043 is rotatably connected to one end of the first threaded rod 1042 near the first moving plate 1021. The material conveying mechanism 1 also includes a non-magnetic material collection box 106 located at the right end of the material conveyor 101. The non-magnetic material collection box 106 can collect the sorted non-magnetic materials.

[0035] Specifically, by tightening the first threaded rod 1042, the first top block 1043 can be driven to abut against the first moving plate 1021, thereby making the first conveyor belt 1034 taut. When the first conveyor belt 1034 needs to be replaced, the first threaded rod 1042 can be loosened, and then the support plate 303 on one side can be disassembled.

[0036] Please refer to this carefully. Figure 2 and Figure 3 The material conveying mechanism 1 also includes a first shielding component 105, which includes a first baffle 1051 and a first screw 1052. The first baffle 1051 is fixed to the material conveying frame 101 by the first screw 1052. The first baffle 1051 can protect the material and prevent it from falling.

[0037] Please refer to this carefully. Figure 1 and Figure 4 The material conveying mechanism 1 is equipped with a magnetic sorting mechanism 2. The magnetic sorting mechanism 2 includes a sorting frame 201. Both ends of the sorting frame 201 are provided with a second tensioning component 202. The second tensioning component 202 includes a second moving plate 2021 and a second fixing bolt 2022. The second moving plate 2021 is fixed to the sorting frame 201 by the second fixing bolt 2022.

[0038] The second tensioning assembly 202 is provided with a second conveyor group 203. The second conveyor group 203 includes a second motor 2031 fixed on the second moving plate 2021. The output end of the second motor 2031 is fixed with a second drive wheel 2032. The start of the second motor 2031 will drive the second drive wheel 2032 to rotate. The second conveyor group 203 also includes an electromagnetic cylinder 2033 rotatably connected to the sorting frame 201. The electromagnetic cylinder 2033 has magnetism when energized. A second conveyor belt 2034 is installed on the second drive wheel 2032 and the electromagnetic cylinder 2033. The rotation of the second drive wheel 2032 will drive the electromagnetic cylinder 2033 and the second conveyor belt 2034 to rotate.

[0039] Please refer to this carefully. Figure 5The sorting frame 201 is provided with a second adjustment component 204 for abutting against the second moving plate 2021. The second adjustment component 204 includes a second threaded block 2041, which is fixed on the sorting frame 201. A second threaded rod 2042 is threadedly connected to the second threaded block 2041. A second top block 2043 is rotatably connected to one end of the second threaded rod 2042 near the second moving plate 2021. The magnetic sorting mechanism 2 also includes a magnetic material collection box 206 located at the right end of the sorting frame 201. The magnetic material collection box 206 can collect the sorted magnetic material.

[0040] The magnetic sorting mechanism 2 also includes a second shielding component 205, which includes a second baffle 2051 and a second screw 2052. The second baffle 2051 is fixed to the sorting frame 201 by the second screw 2052. The second baffle 2051 can protect the material and prevent it from falling.

[0041] Please refer to this carefully. Figure 1 and Figure 4 Both the material conveying mechanism 1 and the magnetic sorting mechanism 2 are equipped with a moving component 3. The moving component 3 includes a support column 301. The bottom of the support column 301 is fixed with a caster wheel 302. The top of the support column 301 is slidably connected with a support plate 303. The support plate 303 is fixed to the material conveying frame 101 and the sorting frame 201 by bolts. The caster wheel 302 facilitates the adjustment of the position of the device so that it can be moved in a small workshop. The support plate 303 serves to support the material conveying frame 101 and the sorting frame 201.

[0042] Working principle: In use, the material to be sorted is first placed on the first conveyor belt 1034. Then, the first motor 1031 and the second motor 2031 are started. The start of the first motor 1031 will drive the first driving wheel 1032, the driven wheel 1033, and the first conveyor belt 1034 to rotate, thereby conveying the material to be sorted to the bottom of the electromagnetic cylinder 2033. The magnetic force of the electromagnetic cylinder 2033 can attract magnetic materials. After the magnetic materials are attracted, the second conveyor belt 2034 and the electromagnetic cylinder 2033 continue to rotate. The magnetic materials continue to move under the drive of the second conveyor belt 2034 and will fall into the magnetic material collection box 206. The electromagnetic cylinder 2033 continuously sorts the materials, effectively improving the continuity of sorting. At the same time, the universal wheels 302 facilitate the movement of the device, enhancing the flexibility of the equipment and making it easy to move and adjust the usage position in small workshops.

[0043] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A mobile magnetic separator, comprising a material conveying mechanism (1), characterized in that: The material conveying mechanism (1) is provided with a magnetic sorting mechanism (2), and both the material conveying mechanism (1) and the magnetic sorting mechanism (2) are provided with moving components (3); The magnetic sorting mechanism (2) includes a sorting frame (201), and a second tensioning assembly (202) is provided at both ends of the sorting frame (201). The second tensioning assembly (202) includes a second moving plate (2021) and a second fixing bolt (2022). The second moving plate (2021) is fixed to the sorting frame (201) by the second fixing bolt (2022). A second conveying group (203) is provided on the second tensioning assembly (202). The second conveying group (203) includes a fixed... A second motor (2031) is mounted on the second moving plate (2021). The output end of the second motor (2031) is fixed with a second drive wheel (2032). The second conveyor group (203) also includes an electromagnetic cylinder (2033) rotatably connected to the sorting frame (201). A second conveyor belt (2034) is mounted on the second drive wheel (2032) and the electromagnetic cylinder (2033). A second adjustment component (204) is provided on the sorting frame (201) for abutting against the second moving plate (2021).

2. The easily movable magnetic sorting machine according to claim 1, characterized in that: The material conveying mechanism (1) includes a material conveying frame (101), and a first tensioning assembly (102) is provided at both ends of the material conveying frame (101). The first tensioning assembly (102) includes a first moving plate (1021) and a first fixing bolt (1022). The first moving plate (1021) is fixed to the material conveying frame (101) by the first fixing bolt (1022). A first conveying assembly (103) is provided on the first tensioning assembly (102). The first conveying assembly (103) includes a first moving plate (1021) and a first fixing bolt (1022). The first motor (1031) on the first moving plate (1021) has a first drive wheel (1032) fixed at its output end. The first conveying assembly (103) also includes a driven wheel (1033) rotatably connected to the material conveyor (101). A first conveyor belt (1034) is installed on the first drive wheel (1032) and the driven wheel (1033). The material conveyor (101) is provided with a first adjusting assembly (104) for abutting against the first moving plate (1021).

3. The easily movable magnetic sorting machine according to claim 2, characterized in that: The first adjustment component (104) includes a first threaded block (1041), which is fixed on the feeder (101). A first threaded rod (1042) is threadedly connected to the first threaded block (1041). A first top block (1043) is rotatably connected to one end of the first threaded rod (1042) near the first moving plate (1021). The feeding mechanism (1) also includes a non-magnetic material collection box (106) located at the right end of the feeder (101).

4. The easily movable magnetic sorting machine according to claim 1, characterized in that: The material conveying mechanism (1) further includes a first shielding component (105), which includes a first baffle (1051) and a first screw (1052). The first baffle (1051) is fixed to the material conveying frame (101) by the first screw (1052).

5. A mobile magnetic sorting machine according to claim 1, characterized in that: The second adjustment component (204) includes a second threaded block (2041), which is fixed on the sorting frame (201). A second threaded rod (2042) is threadedly connected to the second threaded block (2041). A second top block (2043) is rotatably connected to one end of the second threaded rod (2042) near the second moving plate (2021). The magnetic sorting mechanism (2) also includes a magnetic material collection box (206) located at the right end of the sorting frame (201).

6. A mobile magnetic sorting machine according to claim 1, characterized in that: The magnetic sorting mechanism (2) further includes a second shielding component (205), which includes a second baffle (2051) and a second screw (2052). The second baffle (2051) is fixed to the sorting frame (201) by the second screw (2052).

7. A mobile magnetic separator according to claim 1, characterized in that: The moving component (3) includes a support column (301), the bottom of which is fixed with a caster wheel (302), and the top of which is slidably connected with a support plate (303).