Powder molding machine cloth distributor

Abstract

The utility model relates to powder forming machine technical field, specifically is a kind of powder forming machine cloth feeder, including powder forming machine main body, the disc rack that is rotated and connected in powder forming machine main body inside has the disc rack surface and is equipped with the material hole of the powder into disc rack, powder forming machine main body one side screw is fixed with the cloth feeder of the material hole into injection material, powder forming machine main body outside screw is fixed with the material rack of the powder placement, and material rack bottom is inserted with the material conveying pipe connected with cloth feeder, cloth feeder outside screw is fixed with support;The utility model is provided with support, motor, driving rod, fixed sleeve, support plate A, support plate B, rotating shaft, torsional spring and vibration component, solve the problem that powder is easily adhered in cloth feeder inner wall when using the cloth feeder of existing powder forming machine, and material conveying pipe is prone to blockage.

Description

Technical Field

[0001] This utility model relates to the field of powder forming machine technology, specifically to a material feeder for a powder forming machine. Background Technology

[0002] A powder forming machine is an engineering device mainly used to compress and form powder materials (such as metal powder, ceramic powder, plastic powder, etc.) into parts or products with specific shapes and densities. Powder forming machines are widely used in many industrial and manufacturing fields, including metallurgy, ceramics, plastics, pharmaceuticals and chemicals.

[0003] However, when using the existing powder forming machine's feeder, the powder is transported into the feeder through a conveying pipe, and then the feeder injects the powder into the feed hole for powder forming. However, when the powder is transported into the feeder, some powder adheres to the inner wall of the feeder, which reduces the internal space of the feeder and results in insufficient powder reserve. This leads to insufficient powder injection into the feed hole. At the same time, when powder accumulates in the conveying pipe, it can cause blockage, which has a certain impact on the powder forming efficiency. Therefore, a feeder for the powder forming machine is designed. Utility Model Content

[0004] The main purpose of this utility model is to provide a feeder for a powder forming machine. This utility model solves the problems of powder easily adhering to the inner wall of the feeder and the conveying pipe easily getting blocked when using existing feeders for powder forming machines by setting up a bracket, motor, drive rod, fixed sleeve, support plate A, support plate B, rotating shaft, torsion spring and vibration assembly.

[0005] The technical solution adopted by this utility model to solve its technical problem is a feeder for a powder forming machine, including a powder forming machine body. A disc frame for forming powder is rotatably connected to the inner side of the powder forming machine body. A material hole for the powder to enter the disc frame is opened on the surface of the disc frame. A feeder for injecting material into the material hole is screwed to one side of the powder forming machine body. A material rack for placing powder is screwed to the outside of the powder forming machine body, and a conveying pipe connected to the feeder is inserted into the bottom of the material rack. A bracket is screwed to the outside of the feeder, and the inner side of the bracket... A motor providing power is fixed with screws. The power output end of the motor is keyed to a drive rod, and a scraper for leveling the powder on the material hole is symmetrically welded to the outside of the drive rod. A fixing sleeve is sleeved on the outside of the drive rod, and a support plate A is screwed to the outside of the fixing sleeve. A rotating shaft is rotatably connected to the end of the support plate A away from the fixing sleeve. A support plate B that beats the material distributor is rotatably connected to the end of the rotating shaft away from the support plate A. A torsion spring that resets the support plate B is sleeved on the outside of the rotating shaft. A vibration component that drives the conveying pipe to vibrate is provided on one side of the bracket.

[0006] By adopting the above technical solution, the powder in the material rack is transported to the distributor through the conveying pipe. Then the distributor injects the powder into the material hole opened on the surface of the tray. At the same time, the motor in the bracket is driven by the external controller to drive the drive rod to rotate. Then the drive rod drives the scraper to rotate, so that the scraper scrapes off the excess powder on the material hole. A bushing is provided at the connection between the drive rod and the distributor, and the bushing is sealed to prevent powder leakage.

[0007] When the drive rod rotates, the fixed sleeve outside the drive rod drives the support plate A to rotate. Then, the support plate A drives the support plate B on one side of the rotating shaft to rotate. Then, the support plate B is limited by the feeder. The support plate B rotates through the rotating shaft on one side of the support plate A. Then, the two ends of the torsion spring sleeved on the outside of the rotating shaft are connected to the support plate A and the support plate B respectively. As the support plate B rotates, the torsion spring is compressed to generate a spring. When the drive rod drives it to rotate to the initial position, the torsion spring releases the pressure. Then, the support plate B rotates through the rotating shaft. Then, the support plate B taps the outside of the feeder, thereby preventing powder from adhering to the inner wall of the feeder.

[0008] Specifically, the vibration assembly includes a support block, a fixing hole, a spring, a limiting groove, a slider, and a driving block. The support has a fixing hole on its surface, and a support block is inserted into the inside of the fixing hole. A spring is sleeved on the outside of the support block, and a driving block that drives the support block to move is welded to one side of the support block.

[0009] By adopting the above technical solution, when the support plate B rotates on the feeder, the support plate presses the drive block on one side of the bracket, and then the drive block drives the support block to move. At the same time, the spring outside the support block is compressed, and then the support block contacts the conveying pipe. When the support plate B moves away from the drive block, the spring drives the drive block to pop outward, so that the support block separates from the conveying pipe, so that the conveying pipe is vibrated and the conveying pipe is prevented from being blocked.

[0010] Specifically, a limiting groove is provided on the top of the fabric feeder, and a slider connected to the drive block is slidably connected to the inner side of the limiting groove.

[0011] By adopting the above technical solution, when the drive block moves the support block, the slider welded to the bottom of the drive block slides in the limiting groove opened at the top of the feeder, thereby improving the stability of the drive block's movement.

[0012] Specifically, the bottom of the main body of the powder forming machine is bolted to a base that supports the main body of the powder forming machine.

[0013] By adopting the above technical solution, the base at the bottom of the powder forming machine body supports the powder forming machine body, thereby improving the stability of the powder forming machine body.

[0014] Specifically, a conveyor frame for conveying the formed powder is screwed to one side of the main body of the powder forming machine, and a box for collecting the formed powder is placed on one side of the base.

[0015] By adopting the above technical solution, after the powder is formed, it is conveyed by the conveyor frame on one side of the powder forming machine body, and then the formed powder enters the box, which facilitates the collection of the formed powder.

[0016] The beneficial effects of this utility model are:

[0017] (1) The powder feeder for a powder forming machine described in this utility model is fed into the feeder through a conveying pipe. The feeder then injects the powder into the material holes opened on the surface of the tray. At the same time, the motor in the support is driven by an external controller to rotate the drive rod. The drive rod then drives the scraper to rotate, so that the scraper scrapes off the excess powder on the material hole. During the rotation of the drive rod, the fixed sleeve outside the drive rod drives the support plate A to rotate. Then the support plate A drives the support plate B on one side of the rotating shaft to rotate. Then the support plate B is limited by the feeder. The support plate B rotates through the rotating shaft on one side of the support plate A. Then the two ends of the torsion spring sleeved outside the rotating shaft are connected to the support plate A and the support plate B respectively. As the support plate B rotates, the torsion spring is compressed to generate a spring. When the drive rod drives the rotation to the initial position, the torsion spring releases the pressure. Then the support plate B rotates through the rotating shaft. Then the support plate B pats the outside of the feeder, thereby preventing the powder from adhering to the inner wall of the feeder.

[0018] (2) The powder forming machine feeder of the present invention, when the support plate B rotates on the feeder, the support plate presses the drive block on one side of the support, and then the drive block drives the support block to move. At the same time, the spring outside the support block is compressed, and then the support block contacts the conveying pipe. When the support plate B moves away from the drive block, the spring drives the drive block to pop outward, so that the support block separates from the conveying pipe, so that the conveying pipe is vibrated and the conveying pipe is prevented from being blocked. Attached Figure Description

[0019] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0020] Figure 1 This is a schematic diagram of the overall structure of a feeder for a powder forming machine according to the present invention;

[0021] Figure 2 This is a schematic diagram of the internal structure of a feeder for a powder forming machine according to the present invention.

[0022] Figure 3 This is a schematic diagram of the vibration component structure of a material feeder for a powder forming machine according to this utility model;

[0023] In the diagram: 1. Material rack; 2. Conveying pipe; 3. Disc frame; 4. Material hole; 5. Conveying frame; 6. Main body of powder forming machine; 7. Base; 8. Distributor; 9. Box; 10. Vibration assembly; 11. Support; 12. Motor; 13. Rotating shaft; 14. Torsion spring; 15. Support plate A; 16. Drive rod; 17. Scraper; 18. Fixing sleeve; 19. Support block; 20. Fixing hole; 21. Spring; 22. Limiting groove; 23. Drive block; 24. Slider; 25. Support plate B. Detailed Implementation

[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0025] In order to clean the powder adhering to the inner wall of the fabric feeder 8, as an embodiment of this utility model, such as... Figure 1 , Figure 2 and Figure 3 As shown, the present invention discloses a powder forming machine feeder, comprising a powder forming machine body 6, a disc frame 3 for forming powder rotatably connected to the inner side of the powder forming machine body 6, a material hole 4 for the powder to enter the disc frame 3 on its surface, a feeder 8 for injecting material into the material hole 4 screwed to one side of the powder forming machine body 6, a material rack 1 for placing powder screwed to the outside of the powder forming machine body 6, and a conveying pipe 2 connected to the feeder 8 inserted into the bottom of the material rack 1, a bracket 11 screwed to the outside of the feeder 8, and a motor 12 for providing power screwed to the inner side of the bracket 11. The power output end of the motor 12 is keyed to a drive rod 16, and a scraper 17 for leveling the powder on the material hole 4 is symmetrically welded to the outside of the drive rod 16. A fixing sleeve 18 is sleeved on the outside of the drive rod 16, and a support plate A15 is screwed to the outside of the fixing sleeve 18. A rotating shaft 13 is rotatably connected to the end of the support plate A15 away from the fixing sleeve 18. A support plate B25 for patting the material distributor 8 is rotatably connected to the end of the rotating shaft 13 away from the support plate A15. A torsion spring 14 for resetting the support plate B25 is sleeved on the outside of the rotating shaft 13. A vibration component 10 for driving the material conveying pipe 2 to vibrate is provided on one side of the bracket 11.

[0026] During use, the powder in the material rack 1 is conveyed to the distributor 8 through the conveying pipe. Then the distributor 8 injects the powder into the material hole 4 opened on the surface of the tray 3. At the same time, the motor 12 in the bracket 11 is driven by the external controller to drive the drive rod 16 to rotate. Then the drive rod 16 drives the scraper 17 to rotate, so that the scraper 17 scrapes the excess powder on the material hole 4.

[0027] When the drive rod 16 rotates, the fixed sleeve 18 outside the drive rod 16 drives the support plate A15 to rotate. Then, the support plate A15 drives the support plate B25 on one side of the rotating shaft 13 to rotate. Then, the support plate B25 is limited by the feeder 8. The support plate B25 rotates through the rotating shaft 13 on one side of the support plate A15. Then, the two ends of the torsion spring 14 sleeved on the outside of the rotating shaft 13 are connected to the support plate A15 and the support plate B25 respectively. As the support plate B25 rotates, the torsion spring 14 is compressed to generate the spring 21. When the drive rod 16 drives it to rotate to the initial position, the torsion spring 14 releases the pressure. Then, the support plate B25 rotates through the rotating shaft 13. Then, the support plate B25 taps the outside of the feeder 8, thereby preventing powder from adhering to the inner wall of the feeder 8.

[0028] To prevent blockage of the feed pipe 2, for example, such as Figure 3 As shown, the present invention also includes the vibration assembly 10, which includes a support block 19, a fixing hole 20, a spring 21, a limiting groove 22, a slider 24, and a driving block 23. The support 11 has a fixing hole 20 on its surface, and the support block 19 is inserted into the inner side of the fixing hole 20. The spring 21 is sleeved on the outside of the support block 19, and the driving block 23 that drives the support block 19 to move is welded to one side of the support block 19.

[0029] When in use, when the support plate B25 rotates on the feeder 8, the support plate presses the drive block 23 on one side of the bracket 11. Then the drive block 23 drives the support block 19 to move. At the same time, the spring 21 outside the support block 19 is compressed. Then the support block 19 contacts the feed pipe 2. When the support plate B25 moves away from the drive block 23, the spring 21 drives the drive block 23 to pop outward, so that the support block 19 separates from the feed pipe 2, so that the feed pipe 2 is vibrated and the feed pipe 2 is prevented from being blocked.

[0030] To improve the stability of the movement of drive block 23, for example, such as Figure 3 As shown, the present invention also includes a limiting groove 22 on the top of the fabric feeder 8, and a slider 24 connected to the drive block 23 is slidably connected to the inner side of the limiting groove 22.

[0031] When in use, when the drive block 23 moves the support block 19, the slider 24 welded to the bottom of the drive block 23 slides in the limiting groove 22 opened on the top of the feeder 8, which improves the stability of the movement of the drive block 23.

[0032] To improve the stability of the main body 6 of the powder forming machine, for example, such as... Figure 1 As shown, the present invention also includes a base 7 that supports the powder forming machine body 6 and is bolted to the bottom of the powder forming machine body 6.

[0033] During use, the base 7 at the bottom of the powder forming machine body 6 supports the powder forming machine body 6, improving the stability of the powder forming machine body 6.

[0034] To collect the formed powder, for example, such as Figure 1 As shown, the present invention also includes a conveying frame 5 for conveying the formed powder is screwed to one side of the main body 6 of the powder forming machine, and a box 9 for collecting the formed powder is placed on one side of the base 7.

[0035] During use, after the powder is formed, it is conveyed by the conveyor frame 5 on one side of the main body 6 of the powder forming machine, and then the formed powder enters the box 9, which facilitates the collection of the formed powder.

[0036] When this utility model is in use, the powder in the material rack 1 is transported to the distributor 8 through the conveying pipe. Then the distributor 8 injects the powder into the material hole 4 opened on the surface of the tray 3. At the same time, the motor 12 in the bracket 11 is driven by the external controller to drive the drive rod 16 to rotate. Then the drive rod 16 drives the scraper 17 to rotate, so that the scraper 17 scrapes the excess powder on the material hole 4.

[0037] When the drive rod 16 rotates, the fixed sleeve 18 outside the drive rod 16 drives the support plate A15 to rotate. Then the support plate A15 drives the support plate B25 on one side of the rotating shaft 13 to rotate. Then the support plate B25 is limited by the feeder 8. The support plate B25 rotates through the rotating shaft 13 on one side of the support plate A15. Then the two ends of the torsion spring 14 sleeved on the outside of the rotating shaft 13 are connected to the support plate A15 and the support plate B25 respectively. As the support plate B25 rotates, the torsion spring 14 is compressed to generate the spring 21. When the drive rod 16 drives it to rotate to the initial position, the torsion spring 14 releases the pressure. Then the support plate B25 rotates through the rotating shaft 13. Then the support plate B25 pats the outside of the feeder 8, thereby preventing powder from adhering to the inner wall of the feeder 8.

[0038] When the support plate B25 rotates on the feeder 8, the support plate presses the drive block 23 on one side of the bracket 11. Then the drive block 23 drives the support block 19 to move. At the same time, the spring 21 outside the support block 19 is compressed. Then the support block 19 contacts the feed pipe 2. When the support plate B25 moves away from the drive block 23, the spring 21 drives the drive block 23 to pop outward, so that the support block 19 separates from the feed pipe 2, so that the feed pipe 2 vibrates and avoids the feed pipe 2 from being blocked.

[0039] When the drive block 23 moves the support block 19, the slider 24 welded to the bottom of the drive block 23 slides in the limiting groove 22 opened at the top of the feeder 8, which improves the stability of the movement of the drive block 23.

[0040] The base 7 at the bottom of the powder forming machine body 6 supports the powder forming machine body 6, improving the stability of the powder forming machine body 6. The powder is conveyed by the conveyor frame 5 on one side of the powder forming machine body 6, and then the conveyed powder enters the box 9, which facilitates the collection of the formed powder.

[0041] 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 descriptions of the above embodiments and specifications 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 protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A feeder for a powder forming machine, characterized in that, The system includes a powder forming machine body (6), with a disc frame (3) rotatably connected to the inner side of the powder forming machine body (6) for forming powder. The disc frame (3) has a material hole (4) on its surface for the powder to enter the disc frame (3). A feeder (8) for injecting material into the material hole (4) is screwed to one side of the powder forming machine body (6). A material rack (1) for placing powder is screwed to the outside of the powder forming machine body (6), and a conveying pipe (2) connected to the feeder (8) is inserted into the bottom of the material rack (1). A bracket (11) is screwed to the outside of the feeder (8), and a motor (12) for providing power is screwed to the inside of the bracket (11). The power output end of the motor (12) is keyed to... There is a drive rod (16), and a scraper (17) for smoothing the powder on the material hole (4) is symmetrically welded on the outside of the drive rod (16). A fixed sleeve (18) is sleeved on the outside of the drive rod (16), and a support plate A (15) is screwed on the outside of the fixed sleeve (18). A rotating shaft (13) is rotatably connected to the end of the support plate A (15) away from the fixed sleeve (18). A support plate B (25) for patting the feeder (8) is rotatably connected to the end of the rotating shaft (13) away from the support plate A (15). A torsion spring (14) for resetting the support plate B (25) is sleeved on the outside of the rotating shaft (13). A vibration component (10) for driving the conveying pipe (2) to vibrate is provided on one side of the bracket (11).

2. The feeder for a powder forming machine according to claim 1, characterized in that, The vibration assembly (10) includes a support block (19), a fixing hole (20), a spring (21), a limiting groove (22), a slider (24), and a driving block (23). The support (11) has a fixing hole (20) on its surface, and a support block (19) is inserted into the inside of the fixing hole (20). A spring (21) is sleeved on the outside of the support block (19), and a driving block (23) that drives the support block (19) to move is welded to one side of the support block (19).

3. A feeder for a powder forming machine according to claim 2, characterized in that, The top of the fabric feeder (8) has a limiting groove (22), and a slider (24) connected to the drive block (23) is slidably connected to the inner side of the limiting groove (22).

4. A feeder for a powder forming machine according to claim 1, characterized in that, The bottom of the powder forming machine body (6) is bolted to a base (7) that supports the powder forming machine body (6).

5. A feeder for a powder forming machine according to claim 4, characterized in that, The powder forming machine body (6) has a conveyor frame (5) for conveying the formed powder fixed on one side by screws, and a box (9) for collecting the formed powder is placed on one side of the base (7).

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