A waste transfer device after processing

The design, which uses a rotating rod to drive the tilting of the container and the automatic opening of the door, solves the problems of complex manual operation and safety hazards of waste collection containers, and realizes automated, safe and efficient waste discharge.

CN224427503UActive Publication Date: 2026-06-30WUXI TONGCHUANG PRECISION FORGING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUXI TONGCHUANG PRECISION FORGING CO LTD
Filing Date
2025-08-21
Publication Date
2026-06-30

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    Figure CN224427503U_ABST
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Abstract

This utility model relates to a waste transfer device after processing, including a frame, casters at the bottom of the frame, a handle for easy pushing of the frame, a waste storage box, a moving device for tilting the box at an angle, a door for discharging waste, and an adjusting component for opening or closing the door; one end of the box is hinged to the frame; the handle is located on the side of the frame away from the hinge point of the box; the caster array is located at the bottom of the frame; the moving device is located at the bottom of the frame and its working end is hinged to the box; the door faces the side of the box away from the handle; the adjusting component is located at the bottom of the frame and its working end contacts the door. However, in use, when it is necessary to discharge the debris from the collection box, one side needs to be manually lifted to discharge the debris, making the operation process overly complicated, and the tilting of the vehicle body could also cause injury to personnel.
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Description

Technical Field

[0001] This utility model relates to the field of waste transfer, and in particular to a waste transfer device after processing. Background Technology

[0002] In existing technology, automotive fasteners are crucial to the safety of automobile production. However, the production process of automotive fasteners typically involves thread forming, which requires thread rolling machines. During the threading of automotive fasteners, a large amount of iron filings is generated. Therefore, an iron filings collection box is installed next to the machine tool to collect the iron filings. Traditionally, the iron filings collection box is placed directly under the workpiece being ground to collect the iron filings generated during bolt processing. While convenient, discharging the filings from the collection box requires manually lifting one side to expel them, making the operation overly complicated. Furthermore, tilting the vehicle body can lead to personnel injury. Utility Model Content

[0003] This application provides a waste transfer device after processing, which solves the problem in the prior art where, when it is necessary to discharge the debris in the collection box, one side of the box needs to be lifted manually to discharge the debris, which makes the operation process too complicated. At the same time, tilting the vehicle body can also cause personnel injury.

[0004] The technical solutions adopted in the embodiments of this application are as follows.

[0005] A waste transfer device includes a frame, casters mounted at the bottom of the frame, a handle for facilitating pushing the frame, a waste storage box, a moving device for tilting the box at an angle, a waste discharge door, and an adjusting member for opening or closing the door. One end of the box is hinged to the frame. The handle is located on the side of the frame away from the hinge point of the box. The caster array is located at the bottom of the frame. The moving device is located at the bottom of the frame, and its working end is hinged to the box. The door faces the side of the box away from the handle. The adjusting member is located at the bottom of the frame, and its working end contacts the door.

[0006] As a further improvement to the above technical solution: a discharge port is provided on the side of the box away from the handle; the box door is hinged at the discharge port and the box door can seal the discharge port; the box door is always rotated toward the side away from the discharge port by a torsion spring.

[0007] As a further improvement to the above technical solution: the mobile device includes a support member, a rotating rod that rotates within the frame, a first block that slides on the support member, a second block disposed at the bottom of the housing, a support rod that supports the housing at an angle, and a driving member that drives the rotating rod to rotate; the driving member is disposed on the frame; a first groove is formed on the support member; the first block slides within the first groove; the two ends of the support rod are respectively hinged to the first block and the second block; a first thread is formed on the rotating rod; the first thread passes through the first block.

[0008] As a further improvement to the above technical solution: the adjusting member slides along the first groove; the adjusting member extends a limiting rod; the limiting rod contacts the outside of the box door; the rotating rod is provided with a second thread; the second thread passes through the adjusting member.

[0009] As a further improvement to the above technical solution: the first thread and the second thread are opened in opposite directions; the pitch ratio of the first thread to the second thread is 3:1; when the rotating rod rotates, it causes the box to tilt at an angle and the limiting rod to move away from the box door. The box door is opened by a torsion spring. After the discharge is completed, the box door is closed and the box is leveled. The two are carried out simultaneously.

[0010] As a further improvement to the above technical solution: a buffer is provided on the frame; the buffer supports the box body horizontally.

[0011] As a further improvement to the above technical solution: the bottom of the box is provided with a vibrating element to quickly discharge waste.

[0012] One or more technical solutions provided in the embodiments of this application have at least the following technical effects or advantages:

[0013] 1. Due to the use of a rotating rod with a reverse-opening first and second thread with a pitch ratio of 3:1, the tilting angle of the housing and the retraction speed of the limit rod are precisely matched. While the housing tilts at 3 times the speed, the limit rod smoothly disengages from the door at 1 times the speed. A single rotation simultaneously completes the lifting of the housing and the automatic opening of the door, completely eliminating the risks of manual step-by-step operation. The door is normally closed by a torsion spring; it automatically opens when tilted by releasing the constraint of the limit rod, and automatically snaps shut when the housing is level, forming a zero-contact sealed cycle to prevent metal shavings from splashing and polluting the environment. The vibration components at the bottom of the housing are driven by high... The micro-vibration breaks the adhesion of iron filings, and the tilt angle maximizes the efficiency of gravity discharge, reducing the residual amount by more than 80%, especially suitable for the complete removal of fine iron filings; the frame buffer and the mobile device support rod form a double redundant support, keeping the box level and locked during transportation, offsetting accidental tipping caused by road bumps, and ensuring the safety of personnel and equipment; the drive component (such as a handwheel or motor) controls the rotation rod to complete the entire unloading process, replacing the physical exertion of traditional manual lifting of the box and reducing the risk of back strain; the contact end between the limit rod and the box door adopts a rounded transition, combined with synchronous motion logic, to prevent limbs from accidentally entering the mechanical activity area during operation. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of the waste material transfer device after processing in this utility model.

[0015] Figure 2 This is a schematic diagram of the structure of the waste material transfer device after processing in this utility model.

[0016] Figure 3 This is a cross-sectional view of the waste material transfer device after processing in this utility model.

[0017] In the diagram: 1. Frame; 2. Casters; 3. Handle; 4. Box; 41. Discharge port; 5. Moving device; 51. Support component; 511. First groove; 52. Rotating rod; 521. First thread; 522. Second thread; 53. First block; 54. Second block; 55. Support rod; 56. Driving component; 6. Box door; 7. Adjusting component; 71. Limiting rod; 8. Buffer component; 9. Vibrating component. Detailed Implementation

[0018] This application provides a waste transfer device after processing, which solves the problem in the prior art where, when it is necessary to discharge the debris in the collection box, one side of the box needs to be lifted manually to discharge the debris, which makes the operation process too complicated. At the same time, tilting the vehicle body can also cause personnel injury.

[0019] The technical solution in this application embodiment is to solve the above problems, and the overall idea is as follows:

[0020] To better understand the above technical solutions, the following will provide a detailed explanation of the technical solutions in conjunction with the accompanying drawings and specific implementation methods.

[0021] A waste transfer device includes a frame 1, casters 2 located at the bottom of the frame 1, a handle 3 for facilitating pushing the frame 1, a waste storage box 4, a moving device 5 for tilting the box 4 at an angle, a waste discharge door 6, and an adjusting member 7 for opening or closing the door 6; one end of the box 4 is hinged to the frame 1; the handle 3 is located on the side of the frame 1 away from the hinge point of the box 4; the casters 2 are arranged in an array at the bottom of the frame 1; the moving device 5 is located at the bottom of the frame 1 and its working end is hinged to the box 4; the door 6 faces the side of the box 4 away from the handle 3; the adjusting member 7 is located at the bottom of the frame 1 and its working end contacts the door 6.

[0022] The box body 4 has a discharge port 41 on the side away from the handle 3; the box door 6 is hinged at the discharge port 41 and the box door 6 can seal the discharge port 41; the box door 6 always rotates towards the side away from the discharge port 41 by a torsion spring.

[0023] The mobile device 5 includes a support member 51, a rotating rod 52 that rotates within the frame 1, a first block 53 that slides on the support member 51, a second block 54 located at the bottom of the housing 4, a support rod 55 that supports the housing 4 at an angle, and a driving member 56 that drives the rotating rod 52 to rotate. The driving member 56 is located on the frame 1. A first groove 511 is provided on the support member 51. The first block 53 slides within the first groove 511. The two ends of the support rod 55 are respectively hinged to the first block 53 and the second block 54. A first thread 521 is provided on the rotating rod 52. The first thread 521 is threaded through the first block 53.

[0024] The adjusting member 7 slides along the first groove 511; the adjusting member 7 extends out a limiting rod 71; the limiting rod 71 contacts the outside of the door 6; a second thread 522 is provided on the rotating rod 52; the second thread 522 is threaded through the adjusting member 7.

[0025] The first thread 521 and the second thread 522 are opened in opposite directions; the pitch ratio of the first thread 521 to the second thread 522 is 3:1; when the rotating rod 52 rotates, it causes the box body 4 to tilt at an angle and the limiting rod 71 to move away from the box door 6. The box door 6 is opened by the torsion spring. After the discharge is completed, the box door 6 is closed and the box body 4 is leveled. The two are carried out simultaneously.

[0026] A buffer 8 is provided on the frame 1; the buffer 8 supports the box 4 horizontally.

[0027] The bottom of the housing 4 is equipped with a vibrating element 9 to quickly discharge waste.

[0028] Driven by a first thread 521 and a second thread 522 with a pitch ratio of 3:1, which are reverse-opened on the rotating rod 52, the tilting angle of the housing 4 is precisely matched with the retraction speed of the limiting rod 71. While the housing 4 tilts at 3 times the speed, the limiting rod 71 smoothly disengages from the door 6 at 1 times the speed. A single rotation simultaneously completes the lifting of the housing 4 and the automatic opening of the door 6, completely eliminating the risk of manual step-by-step operation. The door 6 is kept normally closed by a torsion spring. When tilting, it automatically opens by releasing the constraint of the limiting rod 71, and automatically snaps shut with the horizontal alignment of the housing 4 during reset, forming a zero-contact sealed cycle to prevent metal shavings from splashing and polluting the environment. The bottom of the housing 4 has a vibrating component. 9. High-frequency micro-vibration breaks the adhesion of iron filings, and combined with the tilt angle, it maximizes the efficiency of gravity discharge, reducing the residual amount by more than 80%, especially suitable for the complete removal of fine iron filings; the frame 1 buffer 8 and the moving device 5 support rod 55 form a double redundant support, and the box 4 remains horizontally locked during transportation, offsetting the accidental tipping caused by road bumps and ensuring the safety of personnel and equipment; the drive component 56 (such as a handwheel or motor) controls the rotating rod 52 to complete the entire unloading process, replacing the physical exertion of traditional manual lifting of the box and reducing the risk of lumbar strain; the contact end between the limit rod 71 and the box door 6 adopts a rounded transition, and with the synchronous motion logic, it avoids the limbs from accidentally entering the mechanical activity area during operation.

[0029] Although preferred embodiments of the present invention have been described, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of the present invention.

[0030] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.

Claims

1. A waste material transfer device after processing, characterized in that, The device includes a frame (1), casters (2) located at the bottom of the frame (1), a handle (3) for facilitating the movement of the frame (1), a waste storage box (4), a moving device (5) for tilting the box (4) at an angle, a waste discharge door (6), and an adjustment component (7) for opening or closing the door (6). One end of the box (4) is hinged to the frame (1). The handle (3) is located on the side of the frame (1) away from the hinge point of the box (4). The casters (2) are arranged in an array at the bottom of the frame (1). The moving device (5) is located at the bottom of the frame (1), and the working end of the moving device (5) is hinged to the box (4). The door (6) faces the side of the box (4) away from the handle (3). The adjustment component (7) is located at the bottom of the frame (1), and the working end of the adjustment component (7) is in contact with the door (6).

2. The waste material transfer device after processing as described in claim 1, characterized in that, The box body (4) has a discharge port (41) on the side away from the handle (3); the box door (6) is hinged to the discharge port (41) and the box door (6) can seal the discharge port (41); the box door (6) rotates towards the side away from the discharge port (41) by a torsion spring.

3. The waste material transfer device after processing as described in claim 2, characterized in that, The moving device (5) includes a support member (51), a rotating rod (52) that rotates within the frame (1), a first block (53) that slides on the support member (51), a second block (54) that is disposed at the bottom of the box (4), a support rod (55) that supports the box (4) at an angle, and a driving member (56) that drives the rotating rod (52) to rotate; the driving member (56) is disposed on the frame (1); a first groove (511) is provided on the support member (51); the first block (53) slides within the first groove (511); the two ends of the support rod (55) are respectively hinged to the first block (53) and the second block (54); a first thread (521) is provided on the rotating rod (52); the first thread (521) is threaded through the first block (53).

4. The waste material transfer device after processing as described in claim 3, characterized in that, The adjusting member (7) slides along the first groove (511); the adjusting member (7) extends a limiting rod (71); the limiting rod (71) contacts the outside of the box door (6); a second thread (522) is provided on the rotating rod (52); the second thread (522) is threaded through the adjusting member (7).

5. The waste material transfer device after processing as described in claim 4, characterized in that, The first thread (521) and the second thread (522) are opened in opposite directions; the pitch ratio of the first thread (521) to the second thread (522) is 3:1; when the rotating rod (52) rotates, it causes the box body (4) to tilt at an angle and the limiting rod (71) to move away from the box door (6). The box door (6) is opened by a torsion spring. After the discharge is completed, the box door (6) is closed and the box body (4) is made horizontal. The two are carried out simultaneously.

6. The waste material transfer device after processing as described in claim 1, characterized in that, The frame (1) is provided with a buffer (8); the buffer (8) supports the box (4) horizontally.

7. The waste material transfer device after processing as described in claim 1, characterized in that, The bottom of the box (4) is provided with a vibrating element (9) to quickly discharge waste.