Airborne walkway conveyor system and its conveyor
By configuring display and control components on the conveying equipment of the aerial walking conveyor system, the problem of status indicator lights and control buttons being difficult to observe and operate in the prior art has been solved, thereby improving the convenience and accuracy for operators.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MIRLE AUTOMATION CORPORATION
- Filing Date
- 2025-07-10
- Publication Date
- 2026-06-09
AI Technical Summary
The status indicator lights and control buttons of the existing aerial walking conveyor system are located in positions that are not easy to observe and operate, making operation difficult.
Design an aerial walking conveyor system by configuring display components and control components on the front and rear electrical boxes of the conveyor equipment, located on the front outer side, front bottom surface, rear outer side, and rear bottom surface respectively, to facilitate observation and operation by operators, and electrically coupled to external equipment through signal transmission interfaces.
It improves the efficiency of operators, reduces the risk of operational errors, and enhances the convenience and accuracy of operation.
Smart Images

Figure CN224336439U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a conveying system, and more particularly to an aerial walking conveying system and its conveying equipment. Background Technology
[0002] The status indicator lights and control buttons of existing overhead hoist transport (OHT) systems are located in positions that are not easy to observe and operate. As a result, operators often have to look up or use tools to observe and operate the status indicator lights and control buttons.
[0003] Therefore, the applicant believes that the above-mentioned defects can be improved, and proposes a utility model with a reasonable design that effectively improves the above-mentioned defects. Utility Model Content
[0004] This utility model provides an aerial walking conveyor system and its conveying equipment, which can effectively improve the defects that may occur in the conveying equipment of existing aerial walking conveyor systems.
[0005] This utility model discloses an aerial walking conveyor system, comprising: an aerial track including two first straight segments and a turning segment connecting the two straight segments; a conveying device movably installed on the aerial track, and the conveying device comprising: a support frame; a front walking module disposed above the support frame and movably installed on the aerial track; a rear walking module disposed above the support frame and movably installed on the aerial track, and the rear walking module being spaced apart from the front walking module; a front electrical box disposed below the support frame, and the front electrical box having a front inner side, a front outer side located opposite the front inner side, and a front bottom surface connected to the front inner side and the front outer side; and a rear electrical box disposed below the support frame, and the rear electrical box having a rear inner side facing the front inner side and a rear inner side located behind the front inner side. The system comprises: a rear outer side opposite to the inner side, and a rear bottom surface connected to the rear inner side and the rear outer side; a status module including: a display component capable of displaying the positions of the front and rear traveling modules relative to the overhead track, the power on / off status of the conveyor, and the de-braking status of the conveyor; wherein the display component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; a control component operable to control the power on / off status of the front and rear traveling modules, the conveyor, and the de-braking status of the conveyor; wherein the control component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; and a signal transmission interface disposed on at least one of the front bottom surface and the rear bottom surface, for electrically coupling the conveyor to an external device.
[0006] Optionally, the control component includes multiple buttons, and the display component includes multiple indicator lights that integrate the multiple buttons, so that each indicator light can be pressed and operated by the corresponding button.
[0007] Optionally, the multiple indicator lights include: a front straight-ahead light, corresponding to indicating that the front traveling module is located on any straight segment; a front turn light, corresponding to indicating that the front traveling module is located on a turning segment, and only one of the front straight-ahead light and the front turn light can be illuminated; a rear straight-ahead light, corresponding to indicating that the rear traveling module is located on any straight segment; and a rear turn light, corresponding to indicating that the rear traveling module is located on a turning segment, and only one of the rear straight-ahead light and the rear turn light can be illuminated.
[0008] Optionally, either the front straight-ahead light or the front turn signal can be pressed to move the front travel module to any corresponding straight or turning segment; either the rear straight-ahead light or the rear turn signal can be pressed to move the rear travel module to any corresponding straight or turning segment.
[0009] Optionally, the front straight-ahead light and the rear straight-ahead light are located on the front bottom surface and the rear bottom surface, respectively, and face each other; the front turn light and the rear turn light are located on the front bottom surface and the rear bottom surface, respectively, and face each other.
[0010] Optionally, the multiple indicator lights include: a power light, which indicates whether the power supply of the conveyor is on or off; and a brake release light, which indicates whether the brake of the conveyor is released.
[0011] Optionally, the power indicator can be pressed to switch the power on / off of the conveyor, and the brake release indicator can be pressed to change the brake release state of the conveyor.
[0012] Optionally, the status module is configured on at least one of the front and rear bottom surfaces.
[0013] This utility model also discloses a conveying device for an aerial walking conveyor system, comprising: a support frame; a front walking module disposed above the support frame; a rear walking module disposed above the support frame, and the rear walking module being spaced apart from the front walking module; a front electrical box disposed below the support frame, and the front electrical box having a front inner side, a front outer side located opposite the front inner side, and a front bottom surface connected to the front inner side and the front outer side; a rear electrical box disposed below the support frame, and the rear electrical box having a rear inner side facing the front inner side, a rear outer side located opposite the rear inner side, and a rear bottom surface connected to the rear inner side and the rear outer side; a state. The module includes: a display component for displaying the positions of the front and rear traveling modules, the power on / off status of the conveyor, and the de-braking status of the conveyor; wherein the display component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; a control component for being operated to control the power on / off status of the front and rear traveling modules, the conveyor, and the de-braking status of the conveyor; wherein the control component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; and a signal transmission interface disposed on at least one of the front bottom surface and the rear bottom surface, for electrically coupling the conveyor to an external device.
[0014] Optionally, the control component includes multiple buttons, and the display component includes multiple indicator lights that integrate the multiple buttons, so that each indicator light can be pressed and operated by the corresponding button.
[0015] Optionally, the multiple indicator lights include: a front straight-ahead light and a front turn signal, which respectively indicate the position of the front travel module, and only one of the front straight-ahead light and the front turn signal can be illuminated; a rear straight-ahead light and a rear turn signal, which respectively indicate the position of the rear travel module, and only one of the rear straight-ahead light and the rear turn signal can be illuminated.
[0016] Optionally, the front straight-ahead light and the rear straight-ahead light are located on the front bottom surface and the rear bottom surface, respectively, and face each other; the front turn light and the rear turn light are located on the front bottom surface and the rear bottom surface, respectively, and face each other.
[0017] Optionally, the multiple indicator lights include: a power light, which indicates whether the power supply of the conveyor is on or off; and a brake release light, which indicates whether the brake of the conveyor is released.
[0018] Optionally, the power indicator can be pressed to switch the power on / off of the conveyor, and the brake release indicator can be pressed to change the brake release state of the conveyor.
[0019] Optionally, the status module is configured on at least one of the front and rear bottom surfaces.
[0020] In summary, the aerial walking conveyor system and conveyor equipment disclosed in this utility model, through the layout and configuration of the display component and control component in the front and rear electrical boxes, facilitates the operator's observation of the display component, facilitates the operator's operation of the control component, and facilitates the operator's electrical coupling of the conveyor equipment to external equipment through the signal transmission interface. This effectively improves the efficiency of the conveyor equipment relative to the operator and reduces the risk of erroneous operation.
[0021] To further understand the features and technical content of this utility model, please refer to the following detailed description and drawings of this utility model. However, these descriptions and drawings are only used to illustrate this utility model and are not intended to limit the scope of protection of this utility model in any way. Attached Figure Description
[0022] Figure 1 This is a bottom view of the aerial walking conveyor system according to an embodiment of the present invention.
[0023] Figure 2 This is a bottom view of the conveying device according to an embodiment of the present utility model.
[0024] Figure 3 This is a side view of the conveying device according to an embodiment of the present utility model.
[0025] Figure 4 This is a side view schematic diagram of a first variation of the conveying device according to an embodiment of the present utility model.
[0026] Figure 5 for Figure 1 A bottom-view diagram showing the subsequent operation of the aerial transport system.
[0027] Figure 6 for Figure 5 A bottom-view diagram showing the subsequent operation of the aerial transport system.
[0028] Figure 7 This is a bottom view schematic diagram of a second variation of the conveying device according to an embodiment of the present utility model.
[0029] Figure 8 This is a side view schematic diagram of a third variation of the conveying device according to an embodiment of the present utility model.
[0030] Figure 9 This is a side view schematic diagram of a fourth variation of the conveying device according to an embodiment of the present utility model.
[0031] Figure 10 This is a side view schematic diagram of a fifth variation of the conveying device according to an embodiment of the present utility model. Detailed Implementation
[0032] The following specific embodiments illustrate the implementation of the "aerial walking conveyor system and its conveying equipment" disclosed in this utility model. Those skilled in the art can understand the advantages and effects of this utility model from the content disclosed in this specification. This utility model can be implemented or applied through other different specific embodiments, and various details in this specification can also be modified and changed based on different viewpoints and applications without departing from the concept of this utility model. Furthermore, the accompanying drawings of this utility model are for simple illustrative purposes only and are not depictions of actual dimensions, as stated in advance. The following embodiments will further describe the relevant technical content of this utility model in detail, but the disclosed content is not intended to limit the scope of protection of this utility model.
[0033] It should be understood that while terms such as "first," "second," and "third" may be used in this document to describe various elements or features, these elements or features should not be limited by these terms. These terms are primarily used to distinguish one element from another, or one feature from another. Furthermore, the term "or" as used herein may, as appropriate, include any combination of one or more of the related listed items.
[0034] Please see Figures 1 to 10 As shown, this is one embodiment of the present invention. Figures 1 to 3 As shown, this embodiment discloses an overhead hoist transport (OHT) system 1000, which includes an overhead track 200 and a conveying device 100 movably installed on the overhead track 200. The overhead track 200 includes two first straight segments 201 and a turning segment 202 connecting the two straight segments 201, but the present invention is not limited thereto. For example, in other embodiments of the present invention not shown, the conveying device 100 may also be used alone (e.g., for sales) or in combination with other types of tracks, depending on actual needs.
[0035] In this embodiment, the conveying device 100 includes a support frame 1, a front traveling module 2 and a rear traveling module 3 disposed above the support frame 1, a front electrical box 4 and a rear electrical box 5 disposed below the support frame 1, a status module 6 and a signal transmission interface 7 installed on at least one of the front electrical box 4 and the rear electrical box 5, and a gripper module 8 disposed below the support frame 1 and located between the front electrical box 4 and the rear electrical box 5. However, this invention is not limited to these components. For example, the gripper module 8 may be omitted or replaced with other components depending on actual needs.
[0036] In this embodiment, the front traveling module 2 and the rear traveling module 3 are spaced apart from each other and movably installed on the aerial track 200. The front electrical box 4 is adjacent to the front traveling module 2, and the rear electrical box 5 is adjacent to the rear traveling module 3. The front traveling module 2, the rear traveling module 3, the front electrical box 4, the rear electrical box 5, and the gripper module 8 are electrically coupled to each other and to the status module 6 and the signal transmission interface 7. This facilitates the display and control of the conveying device 100 through the status module 6 and the electrical coupling of the conveying device 100 to an external device (not shown in the figure) through the signal transmission interface 7. However, this invention is not limited to this.
[0037] More specifically, the front electrical box 4 has a front inner side surface 41, a front outer side surface 42 located opposite to the front inner side surface 41, and a front bottom surface 43 connected to the front inner side surface 41 and the front outer side surface 42. Furthermore, the rear electrical box 5 has a rear inner side surface 51 facing the front inner side surface 41, a rear outer side surface 52 located opposite to the rear inner side surface 51, and a rear bottom surface 53 connected to the rear inner side surface 51 and the rear outer side surface 52.
[0038] In this embodiment, the status module 6 includes a display component 61 and a control component 62. The display component 61 can display the positions of the front traveling module 2 and the rear traveling module 3 (e.g., the positions of the front traveling module 2 and the rear traveling module 3 relative to the aerial track 200), the power on / off state of the conveying device 100, and the de-braking state of the conveying device 100. The control component 62 can be operated to control the power on / off state of the front traveling module 2, the rear traveling module 3, the conveying device 100, and the de-braking state of the conveying device 100.
[0039] Furthermore, either the display component 61 or the control component 62 may be configured on at least one of the front outer side 42, the front bottom surface 43, the rear outer side 52, and the rear bottom surface 53, depending on actual needs, while the signal transmission interface 7 is configured on at least one of the front bottom surface 43 and the rear bottom surface 53.
[0040] Therefore, in this embodiment, the conveying device 100, through the layout configuration of the display component 61 and the control component 62 in conjunction with the front electrical box 4 and the rear electrical box 5, facilitates the operator's observation of the display component 61, facilitates the operator's operation of the control component 62, and facilitates the operator's electrical coupling of the conveying device 100 to the external device through the signal transmission interface 7. This effectively improves the usability of the conveying device 100 relative to the operator and reduces the risk of erroneous operation.
[0041] It should be further noted that the specific implementation of the display component 61 and the control component 62 can have various feasible states depending on actual needs, but for the sake of understanding this embodiment, the following content will first be based on the following: Figures 1 to 3 The present invention is illustrated by one possible state of the display component 61 and the control component 62 shown, but is not limited thereto.
[0042] In this embodiment, the control component 62 includes a plurality of buttons 621, and the display component 61 includes a plurality of indicator lights 610 that integrate the plurality of buttons 621, such that each indicator light 610 can be pressed and operated via a corresponding button 621. That is, in this embodiment, the control component 62 is integrated into the display component 61, and each indicator light 610 is a pressable physical button, which, when pressed, performs the function of the corresponding button 621, thereby providing the operator with a more intuitive operating method and further reducing the risk of erroneous operation. However, this invention is not limited thereto.
[0043] For example, such as Figure 4 As shown, at least one of the buttons 621 may also be separated from the corresponding indicator lights 610 and set independently; or, in other embodiments not shown in this utility model, the display component 61 and the control component 62 may also adopt a touch panel according to actual needs, and any one of the indicator lights 610 presented by the touch panel is a virtual button that can be touched (or pressed) to perform the corresponding function by being touched.
[0044] More specifically, such as Figures 1 to 3 As shown, in this embodiment, the plurality of indicator lights 610 include a front straight-ahead light 611, a front turn signal 612, a rear straight-ahead light 613, a rear turn signal 614, a power indicator 615, and a brake release light 616, but the present invention is not limited thereto. For example, in other embodiments of the present invention not shown, the display component 61 and the control component 62 may also be equipped with other indicator lights according to actual needs.
[0045] In this embodiment, as Figure 1 , Figure 5 and Figure 6 As shown, the front straight-ahead light 611 and the front turn signal 612 respectively indicate the position of the front traveling module 2, and only one of the front straight-ahead light 611 and the front turn signal 612 can be illuminated at a time; for example, the front straight-ahead light 611 (e.g., when the through light is on) indicates that the front traveling module 2 is located on any of the straight segments 201, and the front turn signal 612 (e.g., when the through light is on) indicates that the front traveling module 2 is located on the turn segment 202. Furthermore, either the front straight-ahead light 611 or the front turn signal 612 can be pressed to move the front traveling module 2 to either the corresponding straight segment 201 or the turn segment 202; for example, when the front straight-ahead light 611 is on and the front traveling module 2 is located on any of the straight segments 201, the operator can press the front turn signal 612 to move the front traveling module 2 to the turn segment 202.
[0046] The rear straight-ahead light 613 and the rear turn signal 614 respectively indicate the position of the rear travel module 3, and only one of the rear straight-ahead light 613 and the rear turn signal 614 can be illuminated at a time. For example, the rear straight-ahead light 613 (e.g., when the through light is on) indicates that the rear travel module 3 is located on any of the straight sections 201, and the rear turn signal 614 (e.g., when the through light is on) indicates that the rear travel module 3 is located on the turn segment 202. Furthermore, either the rear straight-ahead light 613 or the rear turn signal 614 can be pressed to move the rear travel module 3 to either the corresponding straight section 201 or the turn segment 202. For example, when the rear straight-ahead light 613 is on and the rear travel module 3 is located on any of the straight sections 201, the operator can press the rear turn signal 614 to move the rear travel module 3 to the turn segment 202.
[0047] Furthermore, the power indicator 615 (e.g., illuminated by a light) corresponds to the power on / off state of the conveyor 100, and the power indicator 615 can be pressed to perform the power on / off state of the conveyor 100. The de-brake indicator 616 (e.g., illuminated by a light) corresponds to the de-brake state of the conveyor 100, and the de-brake indicator 616 can be pressed to change the de-brake state of the conveyor 100.
[0048] It should be noted that, in order to enable the operator to more intuitively observe, judge and perform corresponding operations by presenting various situations by the multiple indicator lights 610, the status module 6 may be configured only on at least one of the front bottom surface 43 and the rear bottom surface 53, and the following describes one configuration of the multiple indicator lights 610.
[0049] like Figure 2 and Figure 3 As shown, the front straight-ahead light 611, the front turn signal 612, the power light 615, and the brake release light 616 are located on the front bottom surface 43 and arranged in a row. The distance between the front straight-ahead light 611 and the front turn signal 612 is greater than the distance between any two adjacent front turn signal 612, power light 615, and brake release light 616. Furthermore, the number of signal transmission interfaces 7 can be at least one, located on the front bottom surface 43, and arranged in a row with the brake release light 616, but this invention is not limited to this.
[0050] Furthermore, the rear straight-ahead light 613 and the rear turn signal 614 are located on the rear bottom surface 53, with the rear straight-ahead light 613 facing the front straight-ahead light 611, and the rear turn signal 614 facing the front turn signal 612. In other words, the distance between the rear straight-ahead light 613 and the rear turn signal 614 can be approximately equal to the distance between the front straight-ahead light 611 and the front turn signal 612.
[0051] It should be noted that the following lists several possible states of the state module 6 and the signal transmission interface 7 to facilitate understanding of the possible variations of the conveying device 100 in this embodiment, but the present invention is not limited thereto.
[0052] For example, such as Figure 7 As shown, the display component 61 (e.g., multiple indicator lights 610) and the control component 62 (e.g., multiple buttons 621) of the status module 6 are both disposed on the front bottom surface 43 of the front electrical box 4.
[0053] Or, such as Figure 8 and Figure 9 As shown, the display component 61 (e.g., multiple indicator lights 610) and the control component 62 (e.g., multiple buttons 621) of the status module 6 are respectively disposed on at least one of the front outer side 42 of the front electrical box 4 and the rear outer side 52 of the rear electrical box 5, and the display component 61 and the control component 62 are preferably located adjacent to the front bottom surface 43 and the rear bottom surface 53.
[0054] Or, as Figure 10As shown, the display component 61 (e.g., multiple indicator lights 610) and the control component 62 (e.g., multiple buttons 621) of the status module 6 are respectively disposed on the front outer side 42 and the front bottom surface 43 of the front electrical box 4, and any one of the indicator lights 610 disposed on the front outer side 42 and the corresponding button 621 is preferably adjacent to the front bottom surface 43.
[0055] [Technical Effects of the Embodiments of this Utility Model]
[0056] In summary, the aerial walking conveyor system and its conveying equipment disclosed in this utility model embodiment, through the layout configuration of the display component and the control component in the front electrical box and the rear electrical box, facilitates the operator's observation of the display component, facilitates the operator's operation of the control component, and facilitates the operator's electrical coupling of the conveying equipment to external equipment through the signal transmission interface. This effectively improves the efficiency of the conveying equipment relative to the operator and reduces the risk of erroneous operation.
[0057] The above-disclosed content is only a preferred and feasible embodiment of the present utility model, and is not intended to limit the patent scope of the present utility model. Therefore, all equivalent technical changes made based on the contents of the present utility model specification and drawings are included in the patent scope of the present utility model.
Claims
1. An aerial walking conveyor system, characterized in that, The aerial transport system includes: An aerial track comprising two first straight segments and a curved segment connecting the two straight segments; and A conveying device, movably mounted on the overhead track, and the conveying device comprising: A support frame; A forward-moving module is positioned above the support and is movably mounted on the overhead track; A rear traveling module is disposed above the bracket and movably mounted on the aerial track, and the rear traveling module is spaced apart from the front traveling module; A front electrical box is disposed below the bracket, and the front electrical box has a front inner side, a front outer side located on the opposite side of the front inner side, and a front bottom surface connected to the front inner side and the front outer side; A rear electrical box is disposed below the bracket, and the rear electrical box has a rear inner side facing the front inner side, a rear outer side located on the opposite side of the rear inner side, and a rear bottom surface connected to the rear inner side and the rear outer side; A state module, containing: A display component is configured to display the positions of the front and rear traveling modules relative to the overhead track, the power on / off status of the conveying equipment, and the brake release status of the conveying equipment; wherein the display component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; and A control component, operable to control the power on / off state of the front traveling module, the rear traveling module, the conveyor, and the de-brake state of the conveyor; wherein the control component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; and A signal transmission interface is disposed on at least one of the front bottom surface and the rear bottom surface, and is used for electrically coupling the conveying device to an external device.
2. The aerial walking conveyor system according to claim 1, characterized in that, The control component includes a plurality of buttons, and the display component includes a plurality of indicator lights that integrate the plurality of the buttons, such that each indicator light can be pressed and operated by a corresponding button.
3. The aerial walking conveyor system according to claim 2, characterized in that, The plurality of said indicator lights include: One front straight-ahead light indicates that the front traveling module is located on any of the straight sections; one front turn signal indicates that the front traveling module is located on the turn segment, and only one of the front straight-ahead light and the front turn signal can be illuminated at a time. One rear straight-ahead light indicates that the rear traveling module is located on any of the straight segments; and A rear turn signal indicates that the rear travel module is located in the turning section, and only one of the rear straight-ahead signal and the rear turn signal can be turned on at a time.
4. The aerial walking conveyor system according to claim 3, characterized in that, The front straight-ahead light and the front turn signal can be pressed to allow the front travel module to move to any of the corresponding straight sections or turns; the rear straight-ahead light and the rear turn signal can be pressed to allow the rear travel module to move to any of the corresponding straight sections or turns.
5. The aerial walking conveyor system according to claim 3, characterized in that, The front straight-ahead light and the rear straight-ahead light are located on the front bottom surface and the rear bottom surface, respectively, and face each other; the front turn signal and the rear turn signal are located on the front bottom surface and the rear bottom surface, respectively, and face each other.
6. The aerial walking conveyor system according to claim 3, characterized in that, The plurality of said indicator lights include: A power indicator light corresponds to the power on / off status of the conveyor equipment; and One brake light indicates the brake release status of the conveyor equipment.
7. The aerial walking conveyor system according to claim 6, characterized in that, The power indicator can be pressed to activate or deactivate the power supply of the conveyor, and the deactivation indicator can be pressed to change the deactivation state of the conveyor.
8. The aerial walking conveyor system according to claim 1, characterized in that, The status module is configured on at least one of the front bottom surface and the rear bottom surface.
9. A conveying device for an overhead traveling conveyor system, characterized in that, The conveying equipment of the aerial walking conveyor system includes: A support frame; A forward-traveling module is positioned above the support frame; A rear traveling module is disposed above the bracket, and the rear traveling module is spaced apart from the front traveling module; A front electrical box is disposed below the bracket, and the front electrical box has a front inner side, a front outer side located on the opposite side of the front inner side, and a front bottom surface connected to the front inner side and the front outer side; A rear electrical box is disposed below the bracket, and the rear electrical box has a rear inner side facing the front inner side, a rear outer side located on the opposite side of the rear inner side, and a rear bottom surface connected to the rear inner side and the rear outer side; A state module, containing: A display component is configured to display the positions of the front traveling module and the rear traveling module, the power on / off status of the conveyor, and the brake release status of the conveyor; wherein the display component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; and A control component, operable to control the power on / off state of the front traveling module, the rear traveling module, the conveyor, and the de-brake state of the conveyor; wherein the control component is disposed on at least one of the front outer side, the front bottom surface, the rear outer side, and the rear bottom surface; and A signal transmission interface is disposed on at least one of the front bottom surface and the rear bottom surface, and is used for electrically coupling the conveying device to an external device.
10. The conveying equipment of the aerial walking conveyor system according to claim 9, characterized in that, The control component includes a plurality of buttons, and the display component includes a plurality of indicator lights that integrate the plurality of the buttons, such that each indicator light can be pressed and operated by a corresponding button.
11. The conveying equipment of the aerial walking conveyor system according to claim 10, characterized in that, The plurality of said indicator lights include: One front straight-ahead light and one front turn signal correspond to indicate the position of the front travel module, and only one of the front straight-ahead light and the front turn signal can be illuminated at a time; and One rear straight-ahead light and one rear turn signal indicate the position of the rear travel module, and only one of the rear straight-ahead light and the rear turn signal can be turned on at a time.
12. The conveying equipment of the aerial walking conveyor system according to claim 11, characterized in that, The front straight-ahead light and the rear straight-ahead light are located on the front bottom surface and the rear bottom surface, respectively, and face each other; the front turn signal and the rear turn signal are located on the front bottom surface and the rear bottom surface, respectively, and face each other.
13. The conveying equipment of the aerial walking conveyor system according to claim 10, characterized in that, The plurality of said indicator lights include: A power indicator light corresponds to the power on / off status of the conveyor equipment; and One brake light indicates the brake release status of the conveyor equipment.
14. The conveying equipment of the aerial walking conveyor system according to claim 13, characterized in that, The power indicator can be pressed to activate or deactivate the power supply of the conveyor, and the deactivation indicator can be pressed to change the deactivation state of the conveyor.
15. The conveying equipment of the aerial walking conveyor system according to claim 9, characterized in that, The status module is configured on at least one of the front bottom surface and the rear bottom surface.