A mobile material placing device for producing magnesium prefabricated parts

By designing a mobile feeding device, the problem of fixed feeding position was solved, enabling flexible adjustment of feeding position and accurate docking, thus improving the efficiency and quality of magnesium preform production.

CN224467044UActive Publication Date: 2026-07-07HAICHENG CITY ZHONGXING MAGNESIA SYNTHETIC MATERIAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HAICHENG CITY ZHONGXING MAGNESIA SYNTHETIC MATERIAL CO LTD
Filing Date
2025-08-11
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In the current production of magnesium preforms, the feeding device is in a fixed position and is difficult to adjust flexibly, which leads to inaccurate material feeding, easy blockage of the feeding pipe, and affects production efficiency and increases costs.

Method used

Design a mobile material discharging device that includes a frame, a sliding hopper, a docking device, and a sliding connection device. The sliding connection device enables flexible position adjustment, and the guide wheels and positioning rods in the docking device ensure accurate docking and prevent material leakage.

Benefits of technology

It enables flexible adjustment of the material feeding position, ensuring uniform material feeding, improving production efficiency and product quality, and reducing production costs and labor intensity.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to magnesium product material discharging device technical field discloses a magnesium prefabricated part production is with mobile material discharging device, including frame body, sliding storehouse, butt joint device and sliding connecting device, and the frame body top surface is equipped with sliding connecting device, and sliding storehouse is equipped with sliding end, and the sliding end of sliding storehouse is slidably connected in sliding connecting device, and sliding storehouse bottom is equipped with the discharge gate, and sliding storehouse side wall is equipped with butt joint device near the discharge gate place. The utility model discloses through the design of sliding connecting device and sliding assembly, and sliding storehouse can freely slide on the frame body, realizes the flexible adjustment of position, satisfies the demand of different production positions, and still can solve the problem of material blockage. The guide wheel and positioning rod in butt joint device can guide and position the butt joint of sliding storehouse and other equipment or container, ensure the butt joint accuracy, prevent material leakage, improve production efficiency and product quality.
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Description

Technical Field

[0001] This utility model relates to the technical field of magnesium product feeding devices, specifically a mobile feeding device for the production of magnesium preforms. Background Technology

[0002] The production process of magnesium precast components involves adding premixed materials to a sand mixer, storing the mixed material in a buffer silo, and then feeding the material from the buffer silo into a mold through a flow pipe. The mold is vibrated and shaped on a vibrating platform. The buffer silo is fixed under the platform, and the material is discharged through a moving flow pipe. Due to the 4% to 6% moisture content in the material, its fluidity is poor, which often leads to blockage of the discharge pipe. At the same time, the fixed-point discharge causes uneven material discharge and has other disadvantages such as long vibration time.

[0003] In existing technologies, material feeding devices are typically fixed in position, making it difficult to flexibly adjust the feeding location according to production needs. This leads to inaccurate material feeding, affecting the normal operation of subsequent processes and reducing production efficiency. Furthermore, during the docking process, the lack of effective guidance and positioning devices easily results in inaccurate docking and material leakage, increasing production costs and labor intensity.

[0004] To address the aforementioned issues, we propose a mobile feeding device for the production of magnesium preforms. Utility Model Content

[0005] The purpose of this invention is to provide a mobile feeding device for the production of magnesium preforms, so as to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a mobile feeding device for the production of magnesium preforms, comprising a frame, a sliding hopper, a docking device, and a sliding connection device;

[0007] The top surface of the frame is provided with the sliding connection device; the sliding hopper is provided with a sliding end; the sliding end of the sliding hopper is slidably connected to the sliding connection device; the bottom of the sliding hopper is provided with a discharge port; the side wall of the sliding hopper is provided with the docking device near the discharge port.

[0008] Preferably, the docking device includes a mounting flange, a guide wheel, and a guide plate; the sliding hopper sidewall is provided with a flange near the discharge port;

[0009] The top surface of the mounting flange abuts against the bottom surface of the flange on the side wall of the sliding hopper; the mounting flange is connected to the flange on the side wall of the sliding hopper by bolts; the bottom surface of the mounting flange is connected to the guide plate; the side wall of the guide plate is connected to the fixed end of the guide wheel.

[0010] Preferably, the guide plate has a perforation on its side wall; a positioning rod is slidably connected in the perforation of the guide plate side wall; one end of the positioning rod is connected to the guide plate through an elastic element.

[0011] Preferably, the sliding hopper includes a discharge hopper and a sliding assembly; the discharge hopper is disposed on the sliding assembly; the sliding assembly includes a bracket and rollers; the discharge hopper is disposed on the top of the bracket of the sliding assembly; the side wall of the bracket of the sliding assembly is provided with rollers; the circumferential side wall of the rollers of the sliding assembly abuts against the top surface of the sliding connecting device.

[0012] Preferably, the sliding connection device includes a track and a connecting block; the top surface of the track abuts against the sliding end of the sliding hopper; the connecting block is provided at both ends of the track; the connecting block is slidably connected to the top surface of the frame.

[0013] Preferably, the top surface of the frame is provided with an installation groove; both ends of the connecting block are connected to the sliding groove on the top surface of the frame by springs.

[0014] Compared with the prior art, the beneficial effects of this utility model are:

[0015] Flexible movement: Through the design of sliding connection device and sliding component, the sliding hopper can slide freely on the frame, realize flexible position adjustment, meet the needs of different production positions, and can also solve the problem of material blockage.

[0016] Accurate docking: The guide wheels and positioning rods in the docking device can guide and position the sliding hopper to dock with other equipment or containers, ensuring accurate docking, preventing material leakage, and improving production efficiency and product quality.

[0017] Stable and reliable: The connecting block is connected to the frame through a spring, which can play a fine-tuning role. During the initial docking, the position of the sliding hopper can be changed by the spring. Attached Figure Description

[0018] Figure 1 This is a schematic front view of the structure of this utility model;

[0019] Figure 2 This is a top view of the structure of this utility model;

[0020] Figure 3 This is a schematic diagram of the docking device in this utility model.

[0021] In the diagram: 1-frame, 2-sliding hopper, 21-discharge hopper, 22-sliding assembly, 3-docking device, 31-mounting flange, 32-guide wheel, 33-guide plate, 34-positioning rod, 4-sliding connection device, 41-track, 42-connecting block. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Please see Figure 1 , Figure 2 , Figure 3 This utility model provides a technical solution: a mobile feeding device for the production of magnesium preforms, including a frame 1, a sliding hopper 2, a docking device 3, and a sliding connection device 4.

[0024] The top surface of the frame 1 is provided with the sliding connection device 4, the sliding hopper 2 is provided with a sliding end, the sliding end of the sliding hopper 2 is slidably connected to the sliding connection device 4, the bottom of the sliding hopper 2 is provided with a discharge port, and the side wall of the sliding hopper 2 is provided with the docking device 3 near the discharge port.

[0025] When the material collection device is a large silo, the sliding silo 2 is used to solve the problem of material blockage at the discharge port after mixing. The left and right movement realizes multi-point material distribution, so that the large silo collects evenly. The sliding silo 2, which moves back and forth for a long time, can avoid material blockage.

[0026] It should be noted that the sliding hopper 2 of this utility model is suitable for bottom docking with small hoppers, large hoppers, and molds to be processed.

[0027] Furthermore, the docking device 3 includes a mounting flange 31, a guide wheel 32, and a guide plate 33, and the sliding hopper 2 has a flange on its side wall near the discharge port.

[0028] The top surface of the mounting flange 31 abuts against the bottom surface of the flange on the side wall of the sliding hopper 2. The mounting flange 31 is connected to the side wall flange of the sliding hopper 2 by bolts. The bottom surface of the mounting flange 31 is connected to the guide plate 33. The side wall of the guide plate 33 is connected to the fixed end of the guide wheel 32.

[0029] Furthermore, the guide plate 33 has a through hole on its side wall, and a positioning rod 34 is slidably connected in the through hole of the guide plate 33. One end of the positioning rod 34 is connected to the guide plate 33 through an elastic element.

[0030] In this invention, a guide port is provided at the bottom of the material hopper to be docked or at the top of the mold for docking the docking device 3.

[0031] Furthermore, the sliding hopper 2 includes a discharge bin 21 and a sliding assembly 22. The discharge bin 21 is disposed on the sliding assembly 22. The sliding assembly 22 includes a bracket and rollers. The discharge bin 21 is disposed on the top of the bracket of the sliding assembly 22. Rollers are provided on the side wall of the bracket of the sliding assembly 22. The circumferential side wall of the rollers of the sliding assembly 22 abuts against the top surface of the sliding connecting device 4. The sliding assembly 22 also includes a drive motor. The drive motor is used to control the movement of the rollers. The drive motor is a servo motor, which can flexibly change the rotation direction of the drive end to realize the left and right reciprocating motion of the sliding hopper 2.

[0032] Furthermore, the sliding connection device 4 includes a track 41 and a connecting block 42. The top surface of the track 41 abuts against the sliding end of the sliding hopper 2. The connecting block 42 is provided at both ends of the track 41, and the connecting block 42 is slidably connected to the top surface of the frame 1.

[0033] Furthermore, the top surface of the frame 1 is provided with an installation groove, and both ends of the connecting block 42 are connected to the sliding groove on the top surface of the frame 1 by springs.

[0034] Device assembly:

[0035] First, place the track 41 in the mounting slot on the top surface of the frame 1, ensuring that the track 41 is placed horizontally.

[0036] The connecting block 42 is installed at both ends of the track 41, and the two ends of the connecting block 42 are connected to the sliding groove on the top surface of the frame 1 by springs, so that the track 41 can slide smoothly on the frame 1.

[0037] Install the sliding assembly 22, place the feeding bin 21 on top of the bracket of the sliding assembly 22, and fix it firmly. Make the rollers of the sliding assembly 22 abut against the top surface of the track 41 to ensure that the sliding bin 2 can slide freely on the track 41.

[0038] Install the docking device 3, connect the mounting flange 31 to the flange on the side wall of the sliding hopper 2 with bolts, then connect the guide plate 33 to the bottom surface of the mounting flange 31, and then connect the fixed end of the guide wheel 32 to the side wall of the guide plate 33. Install the positioning rod 34 in the through hole in the side wall of the guide plate 33, and connect one end of the positioning rod 34 to the guide plate 33 through an elastic element.

[0039] Working principle:

[0040] According to production needs, the sliding hopper 2 is pushed so that it slides on the track 41 to the designated position.

[0041] When docking with other equipment or containers is required, the docking device 3 is brought close to the docking target, and the guide wheel 32 guides the docking device 3 to dock accurately. At the same time, the positioning rod 34 pops out under the action of the elastic element and positions itself according to the positioning hole on the side wall of the docked container, thus ensuring the accuracy and stability of the docking.

[0042] After docking is completed, open the discharge port at the bottom of the sliding hopper 2 to release the material and complete the material release operation.

[0043] Maintenance and care:

[0044] Regularly check the wear of the rollers of the sliding assembly 22 and the track 41. Replace them in time if there is wear to ensure that the sliding hopper 2 can slide smoothly.

[0045] Check the working status of the guide wheel 32, positioning rod 34 and elastic element in the docking device 3. If there is any damage, repair or replace them in time to ensure the normal realization of the docking function.

[0046] Regularly clean the material residue inside the sliding hopper 2 to prevent material accumulation from affecting the normal operation of the device.

[0047] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

[0048] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A mobile feeding device for the production of magnesium prefabricates, characterized in that It includes a frame (1), a sliding hopper (2), a docking device (3), and a sliding connection device (4); The top surface of the frame (1) is provided with the sliding connection device (4); the sliding hopper (2) is provided with a sliding end; the sliding end of the sliding hopper (2) is slidably connected to the sliding connection device (4); the bottom of the sliding hopper (2) is provided with a discharge port; the side wall of the sliding hopper (2) is provided with the docking device (3) near the discharge port.

2. The mobile feedstock device for producing a magnesium preform according to claim 1, wherein The docking device (3) includes a mounting flange (31), a guide wheel (32), and a guide plate (33); the sliding hopper (2) has a flange on its side wall near the discharge port; The top surface of the mounting flange (31) abuts against the bottom surface of the flange on the side wall of the sliding hopper (2); the mounting flange (31) is connected to the side wall flange of the sliding hopper (2) by bolts; the bottom surface of the mounting flange (31) is connected to the guide plate (33); the side wall of the guide plate (33) is connected to the fixed end of the guide wheel (32).

3. The mobile feedstock device for the production of magnesia preforms according to claim 2, characterized in that The guide plate (33) has a perforation on its side wall; a positioning rod (34) is slidably connected in the perforation on the side wall of the guide plate (33); one end of the positioning rod (34) is connected to the guide plate (33) through an elastic element.

4. The mobile feedstock device for producing a magnesium preform according to claim 1, wherein The sliding hopper (2) includes a feeding hopper (21) and a sliding assembly (22); the feeding hopper (21) is disposed on the sliding assembly (22); the sliding assembly (22) includes a bracket and rollers; the feeding hopper (21) is disposed on the top of the bracket of the sliding assembly (22); the side wall of the bracket of the sliding assembly (22) is provided with rollers; the circumferential side wall of the rollers of the sliding assembly (22) abuts against the top surface of the sliding connection device (4).

5. A mobile feeding device for producing magnesium preforms according to claim 1, characterized in that, The sliding connection device (4) includes a track (41) and a connecting block (42); the top surface of the track (41) abuts against the sliding end of the sliding hopper (2); the connecting block (42) is provided at both ends of the track (41); the connecting block (42) is slidably connected to the top surface of the frame (1).

6. A mobile feeding device for producing magnesium preforms according to claim 5, characterized in that, The top surface of the frame (1) is provided with an installation groove; both ends of the connecting block (42) are connected to the sliding groove on the top surface of the frame (1) by springs.