A split delivery mechanism

By designing a split conveyor mechanism, the problem of material bottom processing equipment being obstructed on the conveyor line was solved, realizing the integration of material bottom processing and high efficiency of maintenance, and reducing equipment installation space and production line downtime.

CN224336364UActive Publication Date: 2026-06-09CHAINT CORP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHAINT CORP
Filing Date
2025-06-12
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In modern smart factories, when materials are placed on conveyor lines, the processing equipment cannot directly process the bottom of the materials due to obstruction by the conveyor belt or chain plate, resulting in wasted equipment installation space and unreasonable layout.

Method used

Design a split-type conveying mechanism. By setting up installation stations between the conveying mechanisms, the processing mechanism can be directed upwards to process the bottom of the material. When maintenance is required, the conveying mechanism can be opened by an electromagnetic clutch to provide maintenance space, while limiting components are used to ensure safety.

Benefits of technology

It achieves integrated bottom material handling, reduces equipment installation space requirements, improves maintenance efficiency, and reduces production line downtime.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of conveyor technology, specifically disclosing a split-type conveying mechanism, including: two symmetrically arranged mounting frames, each mounting frame having a conveying mechanism rotatably connected to its top; a gap and / or a mounting groove being provided between adjacent ends of the two conveying mechanisms; the gap and / or mounting groove forming an installation station for installing a processing mechanism; the two conveying mechanisms are used to move materials above the installation station and remove the materials located above the installation station; this utility model, through the installation station provided between the two conveying mechanisms, allows the processing mechanism to face upwards through the installation station, thereby processing the bottom of the material; that is, a production conveyor line using this conveyor can effectively integrate a processing mechanism for processing the bottom of the material.
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Description

Technical Field

[0001] This utility model relates to the field of conveyor technology, specifically a split-type conveyor mechanism. Background Technology

[0002] In modern smart factories, materials are typically conveyed to workstations via conveyors, where they are then processed by the handling equipment. Following the principles of space saving and rational layout, processing equipment is generally installed near the conveyor line to directly process materials located on it. However, because the materials are placed on the conveyor line, the processing equipment intended to handle the bottom of the materials cannot directly process them due to obstruction by the conveyor belt or chain plates, requiring separate workstation space for this equipment. Therefore, adhering to the principles of space saving and rational layout, we provide a split-type conveyor mechanism that allows the processing equipment within it to directly process the bottom of the materials on the conveyor line. Utility Model Content

[0003] To address the shortcomings of existing technologies, this utility model provides a split-type conveying mechanism.

[0004] The present invention relates to a split-type conveying mechanism, comprising: two symmetrically arranged mounting frames, each mounting frame having a conveying mechanism rotatably connected to its top; a gap and / or a mounting groove being provided between adjacent ends of the two conveying mechanisms; the gap and / or the mounting groove forming an installation station for installing the processing mechanism; and the two conveying mechanisms being used to move the material above the installation station and remove the material located above the installation station.

[0005] Specifically, the transmission mechanism includes a transmission frame, a driving wheel and a driven wheel mounted on the transmission frame, and a synchronous belt that is installed between the driving wheel and the driven wheel and is connected for transmission. The transmission frame is rotatably connected to the mounting frame. The transmission mechanism also includes a power component for driving the driving wheel to carry the synchronous belt and the driven wheel to rotate.

[0006] Specifically, a transmission rod is mounted on the shaft of the drive wheel, and the transmission rod is mounted on the mounting bracket via a bearing seat. The power component is connected to the transmission rod via an electromagnetic clutch.

[0007] Furthermore, both of the aforementioned conveying mechanisms are horizontally mounted on the top of the mounting frame via support members. A limiting component is provided between the transmission frame of the conveying mechanism and the mounting frame or support member, and the limiting component is used to lock the conveying mechanism after rotation.

[0008] Specifically, the limiting component includes a limiting rod with a limiting slot, a snap-fit ​​groove at the end of the limiting slot, and a limiting block slidably connected to the inner wall of the limiting slot.

[0009] Furthermore, the limiting rod is rotatably mounted on the transmission frame, and the limiting block is fixedly assembled on the transmission frame or support.

[0010] Furthermore, one side of the two mounting brackets is fixedly connected by a connecting bracket, and the other side has an opening for the removal of the processing mechanism.

[0011] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0012] 1. This utility model allows the processing mechanism to face upwards through the installation station between two conveying mechanisms, thus enabling the processing of the bottom of the material. In other words, the production line using this conveyor can effectively integrate the processing mechanism for processing the bottom of the material.

[0013] 2. When the processing mechanism located at the installation station needs to be repaired, the electromagnetic clutch is de-energized, causing the transmission mechanism to rotate around the transmission rod to the open state, thereby providing maintenance space for the processing mechanism at the installation station.

[0014] The opening formed by the two mounting brackets allows the processing mechanism located at the installation station to be moved directly out of the mounting bracket. When the processing mechanism is difficult to repair or takes a long time to repair, it is convenient to replace the processing mechanism directly, reducing the downtime of the production line.

[0015] 3. In this utility model, when the transmission mechanism rotates using the transmission rod, the transmission frame carries the limiting rod to move relative to the limiting block. Then, the limiting rod is moved to make the limiting block position in the locking groove, which can lock the transmission frame and prevent the open transmission mechanism from falling back when handling the mechanism at the maintenance and installation station, thus increasing safety during maintenance. Attached Figure Description

[0016] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:

[0017] Figure 1 This is a schematic diagram of the installation and processing mechanism of this utility model;

[0018] Figure 2 This is a three-dimensional structural diagram of the present invention;

[0019] Figure 3 for Figure 2 Enlarged structural diagram at point A in the middle.

[0020] In the diagram: 101, mounting bracket; 102, transmission mechanism; 1021, transmission frame; 1022, driving pulley; 1023, driven pulley; 1024, synchronous belt; 1025, transmission rod; 1026, power component;

[0021] 103. Mounting slot; 104. Mounting station; 105. Gap; 106. Supporting component;

[0022] 107. Limiting component; 1071. Limiting rod; 1072. Limiting slot; 1073. Snap-fit ​​slot; 1074. Limiting block;

[0023] 108. Opening; 109. Connecting frame; 1010. Pressure wheel switch; 2. Processing mechanism. Detailed Implementation

[0024] The following drawings will disclose several embodiments of this utility model. For clarity, many physical details will be described in the following description. However, it should be understood that these physical details should not be used to limit this utility model. That is, in some embodiments of this utility model, these physical details are not essential. In addition, for the sake of simplicity, some conventional structures and components will be shown in the drawings in a simple schematic manner.

[0025] Furthermore, in this utility model, the use of terms such as "first" and "second" is for descriptive purposes only and does not specifically refer to any order or sequence, nor is it intended to limit the utility model. They are merely used to distinguish components or operations described with the same technical terms and should not be construed as indicating or implying their relative importance or implicitly specifying the number of indicated technical features. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of those features. Additionally, the technical solutions of various embodiments can be combined with each other, but only if they are feasible for those skilled in the art. If a combination of technical solutions is contradictory or impossible to implement, it should be considered that such a combination of technical solutions does not exist and is not within the scope of protection claimed by this utility model.

[0026] Example 1:

[0027] Please see Figures 1-2 The split-type conveying mechanism of this utility model includes:

[0028] Two symmetrically arranged mounting brackets 101 are provided, and the top of each mounting bracket 101 is rotatably connected to a conveying mechanism 102. A gap 105 and / or a mounting groove 103 are provided between the adjacent ends of the two conveying mechanisms 102. The gap 105 and / or the mounting groove 103 form an installation station 104 for installing the processing mechanism 2. The two conveying mechanisms 102 are used to move the material above the installation station 104 and remove the material located above the installation station 104.

[0029] The transmission mechanism 102 includes a transmission frame 1021, a drive wheel 1022 and a driven wheel 1023 mounted on the transmission frame 1021, and a synchronous belt 1024 that is connected between the drive wheel 1022 and the driven wheel 1023. The transmission frame 1021 is rotatably connected to the mounting frame 101. The transmission mechanism 102 also includes a power component 1026 for driving the drive wheel 1022 to rotate, carrying the synchronous belt 1024 and the driven wheel 1023.

[0030] The driving wheel 1022, driven wheel 1023, and chain 1024 can also be driving gears, driven gears, and synchronous belts, etc.

[0031] A transmission rod 1025 is mounted on the shaft of the drive wheel 1022. The transmission rod 1025 is mounted on the mounting bracket 101 via a bearing seat. The power component 1026 is connected to the transmission rod 1025 via an electromagnetic clutch. The power component 1026 is a motor or other mechanism that can drive the transmission rod 1025 to rotate the drive wheel 1022. When the power component 1026 is a servo motor, it can be directly connected to the transmission rod 1025.

[0032] One side of the two mounting brackets 101 is fixedly connected by a connecting bracket 109, and the other side has an opening 108 for the removal of the processing mechanism 2.

[0033] In this embodiment:

[0034] With the installation station 104 set between the two conveying mechanisms 102, the processing mechanism 2 can be set facing upward through the installation station 104. When the material moves from the conveying mechanism 102 on the feeding side to the installation station 104, the processing mechanism 2 located in the installation station 104 can process the bottom of the material. That is, the production line using this conveyor can effectively integrate the processing mechanism 2 that processes the bottom of the material.

[0035] When maintenance is required on the processing mechanism 2 located at the installation station 104, the electromagnetic clutch is de-energized, causing its transmission mechanism 102 to rotate around the transmission rod 1025 to the open state, thereby providing maintenance space for the processing mechanism 2 at the installation station 104.

[0036] The opening 108 formed by the two mounting brackets 101 allows the processing mechanism 2 located at the mounting station 104 to be directly moved out of the mounting bracket 101. When the processing mechanism 2 is difficult to maintain or takes a long time to maintain, it is convenient to directly replace the processing mechanism 2, thereby reducing the downtime of the production line.

[0037] Furthermore, a driving wheel 1022, a driven wheel 1023, and a timing belt 1024 are grouped together. Several groups of driving wheels 1022, driven wheels 1023, and timing belts 1024 are evenly installed on both sides of the mounting groove 103 of the same transmission frame 1021. This not only ensures the smooth transport of materials but also facilitates the opening of mounting grooves 103 or the installation of pressure wheel switches 1010 on the transmission frame 1021.

[0038] A pressure roller switch 1010 for materials is installed on the conveyor mechanism 102 located on the discharge side. The pressure roller switch 1010 is installed on the transmission frame 1021 between the synchronous belts 1024. The setting of the pressure roller switch can ensure that when the material stops, it is located above the installation station 104. Its pressure switch 1010 can be replaced by other detection devices such as proximity switches.

[0039] Example 2:

[0040] Please see Figure 3 As a further improvement of Embodiment 1, the conveying mechanisms 102 are all horizontally mounted on the top of the mounting frame 101 via the support member 106. A limiting component 107 is provided between the transmission frame 1021 of the conveying mechanism 102 and the mounting frame 101 or the support member 106. The limiting component 107 is used to lock the conveying mechanism 102 after rotation.

[0041] The limiting component 107 includes a limiting rod 1071, a limiting slot 1072 is formed on the limiting rod 1071, a snap-fit ​​groove 1073 is formed at the end of the limiting slot 1072, and a limiting block 1074 is slidably connected to the inner wall of the limiting slot 1072.

[0042] The limiting rod 1071 is rotatably mounted on the transmission frame 1021, and the limiting block 1074 is fixedly assembled on the transmission frame 1021 or the support member 106.

[0043] Working principle:

[0044] When the transmission mechanism 102 rotates using the transmission rod 1025, the transmission frame 1021 carries the limiting rod 1071 and moves relative to the limiting block 1074. When the transmission frame 1021 rotates outward to a certain angle, the limiting block 1074 slides to the end of the limiting slot 1072, and then the limiting rod 1071 is moved so that the limiting block 1074 is located in the snap-fit ​​groove 1073, thereby locking the transmission frame 1021 and preventing the open transmission mechanism 102 from falling back when it is in the processing mechanism 2 at the maintenance and installation station 104, thus increasing safety during maintenance.

[0045] The above are merely embodiments of this utility model and are not intended to limit the scope of this utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made to the spirit and principles of this utility model should be included within the scope of the claims of this utility model.

Claims

1. A split-type conveying mechanism, characterized in that, include: Two symmetrically arranged mounting brackets (101) are provided, and the top of each mounting bracket (101) is rotatably connected to a conveying mechanism (102). A gap (105) and / or a mounting groove (103) are provided between the adjacent ends of the two conveying mechanisms (102). The gap (105) and / or the mounting groove (103) form an installation station (104) for installing the processing mechanism (2). The two conveying mechanisms (102) are used to move the material above the installation station (104) and remove the material located above the installation station (104).

2. The split-type conveying mechanism according to claim 1, characterized in that: The transmission mechanism (102) includes a transmission frame (1021), a drive wheel (1022) and a driven wheel (1023) mounted on the transmission frame (1021), and a synchronous belt (1024) that is connected between the drive wheel (1022) and the driven wheel (1023). The transmission frame (1021) is rotatably connected to the mounting frame (101). The transmission mechanism (102) also includes a power component (1026) for driving the drive wheel (1022) to rotate carrying the synchronous belt (1024) and the driven wheel (1023).

3. A split-type conveying mechanism according to claim 2, characterized in that: The driving wheel (1022), driven wheel (1023), and synchronous belt (1024) are grouped together, and several groups of driving wheels (1022), driven wheels (1023), and synchronous belts (1024) are evenly installed on both sides of the mounting groove (103) of the same transmission frame (1021).

4. A split-type conveying mechanism according to claim 3, characterized in that: A material pressure roller switch (1010) is installed on the conveying mechanism (102) located on the discharge side. The pressure roller switch (1010) is installed on the transmission frame (1021) between the synchronous belts (1024).

5. A split-type conveying mechanism according to claim 2, characterized in that: The drive wheel (1022) has a drive rod (1025) mounted on its shaft. The drive rod (1025) is mounted on the mounting frame (101) via a bearing seat. The power component (1026) is connected to the drive rod (1025) via an electromagnetic clutch.

6. A split-type conveying mechanism according to claim 2, characterized in that: Both of the aforementioned transmission mechanisms (102) are horizontally mounted on the top of the mounting frame (101) via support members (106). A limiting component (107) is provided between the transmission frame (1021) of the transmission mechanism (102) and the mounting frame (101) or support member (106), and the limiting component (107) is used to lock the transmission mechanism (102) after rotation.

7. A split-type conveying mechanism according to claim 6, characterized in that: The limiting component (107) includes a limiting rod (1071), a limiting slot (1072) is provided on the limiting rod (1071), a snap-fit ​​groove (1073) is provided at the end of the limiting slot (1072), and a limiting block (1074) is slidably connected to the inner wall of the limiting slot (1072).

8. A split-type conveying mechanism according to claim 7, characterized in that: The limiting rod (1071) is rotatably mounted on the transmission frame (1021), and the limiting block (1074) is fixedly assembled on the transmission frame (1021) or the support member (106).

9. A split-type conveying mechanism according to claim 1, characterized in that: One side of the two mounting brackets (101) is fixedly connected by a connecting bracket (109), and the other side has an opening (108) for the processing mechanism (2) to be removed.