An intelligent office operation platform based on an internet of things

Abstract

The application provides an intelligent office operation platform based on Internet of Things, and belongs to the technical field of intelligent office, which comprises a mobile platform, a conference mechanism, a main operation mechanism, a secondary operation mechanism and a secondary climbing mechanism, wherein the mobile platform is provided with a containing chamber, an inlet and outlet, a mounting groove, a long hole and a transition chamber; the conference mechanism is rotatably and slidably connected with the bottom surface of the containing chamber at two ends; the main operation mechanism is provided with a first support table and a driver; the secondary operation mechanism is provided with a second support table and a fixed connection part; the main operation mechanism is provided with a movable connection part; and the secondary climbing mechanism has a first climbing state in the transition chamber and a second climbing state above the mobile platform. The intelligent office operation platform based on Internet of Things provided by the application can associate actual outdoor operation with office work and make the office operation platform more functional.

Description

Technical Field

[0001] This invention belongs to the field of intelligent office technology, and more specifically, relates to an intelligent office operation platform based on the Internet of Things. Background Technology

[0002] A substation is a location in a power system that transforms voltage and current, receives electrical energy, and distributes it. Substations within power plants are step-up substations, whose function is to boost the voltage of the electricity generated by generators before feeding it into the high-voltage power grid. Currently, substations have desks indoors for office operations. Outdoor office areas, however, have fixed workstations where staff gather to work. This structure restricts staff to a fixed location, preventing them from working from their actual outdoor work positions. This makes it difficult to directly connect outdoor operations with desktop work, and the structure's limited functionality fails to effectively facilitate practical operations. Summary of the Invention

[0003] The purpose of this invention is to provide an intelligent office operation platform based on the Internet of Things to solve the technical problems in the prior art, such as the difficulty in directly connecting actual outdoor operations in substations with desktop office work, and the limited functionality of the office structure.

[0004] To achieve the above objectives, the technical solution adopted by the present invention is as follows: An intelligent office operation platform based on the Internet of Things (IoT) is provided, comprising a mobile platform and a conference mechanism, a main operating mechanism, a secondary operating mechanism, and a secondary climbing mechanism for connection to an IoT control unit; the mobile platform is provided with a receiving chamber, an inlet / outlet, a mounting slot, an elongated hole, and a transition chamber; the conference mechanism is installed in the receiving chamber, and its two ends are respectively rotatably connected and slidably connected to the bottom surface of the receiving chamber; the conference mechanism has a support component; the main operating mechanism and the secondary operating mechanism are installed in the mounting slot; the main operating mechanism has a first support platform and a driver; the secondary operating mechanism has a second support platform; the second support platform has a fixed connection part; the main operating mechanism has a movable connection part for connection with the fixed connection part; the secondary climbing mechanism is installed in the elongated hole, and its upper end has a movably connected reinforcing component; the two ends of the secondary climbing mechanism are respectively rotatably connected and detachably connected to the two ends of the elongated hole; the secondary climbing mechanism has a first-level climbing state located in the transition chamber and a second-level climbing state located above the mobile platform.

[0005] In one possible implementation, the receiving chamber is located inside the mobile platform, and the inlet / outlet is located on one side of the mobile platform and communicates with the receiving chamber; the mounting slot and the elongated hole are respectively located at the upper end of the mobile platform, and are respectively located at the front and rear sides of the upper end of the mobile platform; the transition chamber is located at the rear end of the mobile platform and below the elongated hole, and the elongated hole communicates with the transition chamber; the main operating mechanism and the auxiliary operating mechanism are arranged in parallel within the mounting slot.

[0006] In one possible implementation, the mounting slot is provided with two parallel, spaced-apart partitions. The length direction of the partitions is the same as the length direction of the mounting slot, and both ends are fixedly connected to the sidewalls of the mounting slot. The two partitions divide the mounting slot into three compartments. The main operating mechanism is installed in the middle compartment, and there are two auxiliary operating mechanisms, each installed in one of the two outer compartments. There are two movable connecting parts, each located on one side of the first support plate near the two auxiliary operating mechanisms. The two movable connecting parts rotate to the sides to connect with the corresponding fixed connecting parts, so that the first support plate and the two second support plates are integrated.

[0007] In one possible implementation, the movable connecting part is a vertical plate rotatably connected to the first support plate, the vertical plate having multiple countersunk holes, the fixed connecting part is a horizontal block having multiple screw holes corresponding to the countersunk holes, the fixed connecting part and the movable connecting part are connected by bolts passing through the countersunk holes and threadedly connected to the screw holes; the vertical plate has a clearance groove for avoiding the partition plate.

[0008] In one possible implementation, the lower end of the conference mechanism is provided with two support plates. One support plate is rotatably connected to the bottom surface of the receiving chamber, and the other support plate is slidably connected to the bottom surface of the receiving chamber, forming an installation space between the two support plates. The support assembly is installed in the installation space and is positioned close to the other support plate. The support assembly includes a support leg, a magnetic adsorbent, a pressure sensor, and a control switch. The other support plate is provided with a hinge, and the upper end of the support leg is connected to the hinge. The magnetic adsorbent and the pressure sensor are both installed on the other support plate. The control switch is installed on the side of the other support plate away from the installation space. The conference mechanism rotates outward from the receiving chamber, controlling the support leg to rotate outward around the hinge to a vertical position, and the support leg triggers the pressure sensor to adsorb onto the magnetic adsorbent.

[0009] In one possible implementation, a rotating hole and an arc-shaped groove are formed on the bottom surface of the receiving chamber. One of the support plates is provided with a connecting shaft that is rotatably connected to the rotating hole, and the other support plate is provided with a slider that is slidably connected to the arc-shaped groove. The arc-shaped groove is provided with a positioning hole and a positioning pin installed in the positioning hole at one end near the inlet and outlet.

[0010] In one possible implementation, the secondary climbing mechanism rotates downwards into the transition chamber, with its lower end supported on the bottom surface of the transition chamber to form a first-level climbing state. The secondary climbing mechanism rotates upwards and is positioned above the moving platform in an inclined state, driving the reinforcement component to support the upper surface of the moving platform to form a second-level climbing state. There are two elongated holes arranged in parallel and spaced apart, and two secondary climbing mechanisms are installed in the two elongated holes respectively. Each secondary climbing mechanism includes a climbing ladder, a pivot, and a flexible connection. At one end of the climbing ladder, the pivot is mounted on one end and rotatably connected to the elongated hole. A hook is provided inside the elongated hole. The elastic connecting end includes a retaining ring and a spring. A connecting hole is opened at the other end of the climbing ladder. The spring is installed in the connecting hole. The retaining ring is used to connect with the hook and has a sliding rod slidably connected in the connecting hole. The sliding rod is connected to the spring. An elongated groove is opened on the wall of the elongated hole and a baffle plate is slidably connected in the elongated groove. The baffle plate is used to cover the elongated hole and the secondary climbing mechanism.

[0011] In one possible implementation, the IoT-based smart office operation platform further includes a lower-suspension operation mechanism, which is installed in the transition chamber and staggered from the secondary climbing mechanism. The lower-suspension operation mechanism includes a support block and a lower-suspension ladder installed on the support block. The lower-suspension ladder is stacked on the support block and one end is fixedly connected to the support block.

[0012] In one possible implementation, a slide rail is provided on the bottom surface of the transition chamber, and a guide groove is provided at the lower end of the support block to be slidably connected to the slide rail; a plurality of extrusion positioning mechanisms are provided on the top of the transition chamber above the support block, and an extrusion head is provided on the extrusion positioning mechanism, the extrusion head having a degree of freedom to move in the vertical direction.

[0013] In one possible implementation, the IoT-based smart office operation platform further includes two displays, which are respectively installed on the side of the mobile platform away from the entrance / exit and on the inner wall of the receiving chamber; the receiving chamber is also equipped with a processor, a display module, and a wireless communication module.

[0014] The beneficial effects of the IoT-based intelligent office operation platform provided by this invention are as follows: Compared with the prior art, when working outdoors, the IoT-based intelligent office operation platform of this invention allows staff to move to the work area via a mobile platform. Staff enter the receiving chamber through the entrance / exit and conduct work through a conference mechanism. Simultaneously, staff rotate the conference mechanism, causing a portion of it to move out of the receiving chamber and closer to the actual outdoor operation position. Support components are used to stably support the conference mechanism, thus linking actual outdoor operations with desktop work. Furthermore, staff can stand on the first support platform and perform high-altitude operations under the action of a drive. After the fixed and movable connecting parts are integrated, multiple staff members can stand on the first and second support platforms to operate together. Simultaneously, a two-stage climbing mechanism is installed in the transition chamber of the mobile platform. Staff can enter the upper part of the mobile platform through the first stage of the two-stage climbing mechanism and then use the second stage to perform actual outdoor operations at different heights. In this way, the conference mechanism installed on the mobile platform can be rotated from the receiving chamber to outside the mobile platform, thereby linking actual outdoor operations with office work. At the same time, the main operating mechanism, auxiliary operating mechanism and secondary climbing mechanism on the mobile platform enable outdoor high-altitude operations, making the office operation platform more functional. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 The main view of the IoT-based intelligent office operation platform provided in this embodiment of the invention;

[0017] Figure 2 for Figure 1 Enlarged view of point A in the middle;

[0018] Figure 3 A top view of the IoT-based intelligent office operation platform provided in an embodiment of the present invention;

[0019] Figure 4 This is a schematic diagram of the structure of the conference mechanism that rotates out of the receiving chamber according to an embodiment of the present invention;

[0020] Figure 5 A schematic diagram showing the connection between the main operating mechanism and the auxiliary operating mechanism provided in an embodiment of the present invention;

[0021] Figure 6 Rear view of the IoT-based intelligent office operation platform provided in an embodiment of the present invention;

[0022] Figure 7 This is a schematic diagram of the structure of the first support platform provided in an embodiment of the present invention;

[0023] Figure 8 This is a schematic diagram of the usage state of the two-stage climbing mechanism provided in an embodiment of the present invention;

[0024] Figure 9 for Figure 8 Enlarged view of point B in the middle;

[0025] Figure 10 This is a schematic diagram of the installation of the shielding plate in the elongated hole according to an embodiment of the present invention.

[0026] The following are the labeling elements in the figure:

[0027] 1. Moving platform; 11. Receiving chamber; 111. Arc-shaped slide; 112. Slider; 113. Positioning hole; 114. Positioning pin; 12. Inlet / outlet; 13. Mounting groove; 14. Elongated hole; 15. Transition chamber; 16. Divider plate; 17. Dividing chamber; 18. Hook; 19. Traveling wheel;

[0028] 2. Meeting mechanism; 21. Support assembly; 22. Support plate; 23. Support leg; 24. Magnetic adsorption unit; 25. Pressure sensor; 26. Control switch;

[0029] 3. Main operating mechanism; 31. First support platform; 32. Driver; 33. Movable connecting part; 34. Clearance groove;

[0030] 4. Secondary operating mechanism; 41. Secondary support platform; 42. Fixed connection part;

[0031] 5. Secondary climbing mechanism; 51. Reinforcing components; 52. Climbing ladder; 53. Rotary shaft; 54. Flexible connecting end; 55. Snap ring; 56. Spring; 57. Connecting hole; 58. Sliding rod; 59. Long groove; 591. Cover plate;

[0032] 6. Lower suspended operating mechanism; 61. Support block; 62. Lower suspended ladder; 63. Slide rail;

[0033] 7. Extrusion positioning mechanism; 71. Extrusion head;

[0034] 8. Display screen. Detailed Implementation

[0035] To make the technical problems to be solved, the technical solutions, and the beneficial effects of the present invention clearer, the present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the present invention.

[0036] It should be noted that when a component is referred to as being "fixed to" or "set on" another component, it can be directly on or indirectly on that other component. When a component is referred to as being "connected to" another component, it can be directly connected to or indirectly connected to that other component.

[0037] It should be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the present invention.

[0038] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this invention, "a plurality of" means two or more, unless otherwise explicitly specified.

[0039] Please see Figures 1 to 9The present invention will now describe the IoT-based intelligent office operation platform. An IoT-based intelligent office operation platform includes a mobile platform 1 and a conference mechanism 2, a main operating mechanism 3, a secondary operating mechanism 4, and a secondary climbing mechanism 5 for connection to an IoT control unit. The mobile platform 1 is provided with a receiving chamber 11, an inlet / outlet 12, a mounting groove 13, an elongated hole 14, and a transition chamber 15. The conference mechanism 2 is installed in the receiving chamber 11, and its two ends are respectively rotatably connected to and slidably connected to the bottom surface of the receiving chamber 11. The conference mechanism 2 has a support component 21. The main operating mechanism 3 and the secondary operating mechanism 4 are installed in the mounting groove 13. The main operating mechanism 3 has a second... The system includes a support platform 31 and a driver 32. The auxiliary operating mechanism 4 has a second support platform 41 with a fixed connection part 42. The main operating mechanism 3 has a movable connection part 33 for connecting with the fixed connection part 42. The secondary climbing mechanism 5 is installed in the elongated hole 14 and has a movable connection reinforcement component 51 at its upper end. The two ends of the secondary climbing mechanism 5 are rotatably connected to the two ends of the elongated hole 14 and detachably connected, respectively. The secondary climbing mechanism 5 has a first-level climbing state located in the transition chamber 15 and a second-level climbing state located above the moving platform 1.

[0040] The IoT-based intelligent office operation platform provided by this invention, compared with the prior art, allows staff to move to the work area via the mobile platform 1 when working outdoors. Staff enter the receiving chamber 11 through the entrance / exit 12 and conduct work through the meeting mechanism 2. Simultaneously, staff rotate the meeting mechanism 2, causing a portion of it to move out of the receiving chamber 11 and closer to the actual outdoor operation position. The meeting mechanism 2 is then stably supported by the support component 21. This method connects actual outdoor operation with desktop work. Furthermore, staff can stand on the first support platform 31 and perform high-altitude movement operations under the action of the driver 32. After the fixed connection part 42 and the movable connection part 33 are integrated, multiple staff can stand on the first support platform 31 and the second support platform 41 to operate together. Simultaneously, a secondary climbing mechanism 5 is installed in the transition chamber 15 of the mobile platform 1. Staff can enter the upper part of the mobile platform 1 through the first-level climbing state of the secondary climbing mechanism 5, and then use the second-level climbing state to perform actual outdoor operations at different heights. In this way, the conference mechanism 2 installed in the mobile platform 1 can be rotated from the receiving chamber 11 to outside the mobile platform 1, thereby linking actual outdoor operation with office work. At the same time, the main operating mechanism 3, the auxiliary operating mechanism 4 and the secondary climbing mechanism 5 on the mobile platform 1 can be used for outdoor high-altitude operations, making the office operation platform more functional.

[0041] During operation, staff use the Internet of Things control unit to monitor outdoor operations and adjust the working status of the conference mechanism 2, main operating mechanism 3, auxiliary operating mechanism 4, and secondary climbing mechanism 5 to suit different outdoor working environments.

[0042] A detachable fastener is provided in the mounting groove 13 for fixing the second support plate 41 to the moving platform 1. When the auxiliary operating mechanism 4 operates alone, the detachable fastener is used to fix the second support plate 41; when the main operating mechanism 3 is connected to the auxiliary operating mechanism 4, the detachable fastener is removed to allow the second support plate 41 to slide freely within the mounting groove 13. The detachable fastener is a bolt connection.

[0043] Please see Figures 1 to 8 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the receiving chamber 11 is opened inside the mobile platform 1, and the inlet / outlet 12 is opened on one side of the mobile platform 1 and communicates with the receiving chamber 11; the mounting groove 13 and the elongated hole 14 are respectively opened at the upper end of the mobile platform 1, and are respectively located at the front and rear sides of the upper end of the mobile platform 1; the transition chamber 15 is located at the rear end of the mobile platform 1 and is located below the elongated hole 14, and the elongated hole 14 is connected to the transition chamber 15; the main operating mechanism 3 and the auxiliary operating mechanism 4 are arranged in parallel in the mounting groove 13; the lower end of the mobile platform 1 is provided with a walking wheel 19, and a drive mechanism for driving the walking wheel 19 to move is installed in the mobile platform 1. The staff can enter the receiving chamber 11 from one side of the mobile platform 1 through the inlet / outlet 12, and then use the conference mechanism 2 to perform office operations. The mounting slot 13 and the elongated hole 14 are both located at the upper end of the mobile platform 1, thus enabling smooth completion of outdoor high-altitude operations; the main operating mechanism 3 and the auxiliary operating mechanism 4 are installed side by side in the mounting slot 13, which facilitates their independent operation and also makes it easy to connect them into one unit with the help of the fixed connection part 42 and the movable connection part 33.

[0044] Please see Figure 3 and Figure 5As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the mounting slot 13 is provided with two parallel and spaced partition plates 16. The length direction of the partition plates 16 is the same as the length direction of the mounting slot 13, and both ends are fixedly connected to the side wall of the mounting slot 13. The two partition plates 16 divide the mounting slot 13 into three compartments 17. The main operating mechanism 3 is installed in the compartment 17 located in the middle position, and there are two auxiliary operating mechanisms 4, which are respectively installed in the two compartments 17 located on the outer side. There are two movable connecting parts 33, which are respectively provided on both sides of the first support plate 31 near the two auxiliary operating mechanisms 4. The two movable connecting parts 33 rotate toward both sides to connect with the corresponding fixed connecting parts 42, so that the first support plate 31 and the two second support plates 41 are connected as one unit. The two partition plates 16 divide the mounting slot 13 into three compartments 17, and the main operating mechanism 3 and the two auxiliary operating mechanisms 4 are respectively installed in the three compartments 17. Meanwhile, two movable connecting parts 33 are installed on the first support plate 31 of the main operating mechanism 3. Therefore, the operator controls the two movable connecting parts 33 to move toward the fixed connecting parts 42 on the two second support plates 41 respectively, so that the two movable connecting parts 33 are connected to the two fixed connecting parts 42.

[0045] Please see Figures 3 to 7 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the movable connection part 33 is a vertical plate rotatably connected to the first support plate 31. The vertical plate has multiple countersunk holes. The fixed connection part 42 is a horizontal block with multiple screw holes corresponding to the countersunk holes. The fixed connection part 42 and the movable connection part 33 are connected by bolts that pass through the countersunk holes and are threaded to the screw holes. The vertical plate has a clearance groove 34 for avoiding the partition plate 16. A receiving groove is provided at the upper end of the first support plate 31. The movable connection part 33 is installed in the receiving groove and is rotatably connected to the first support plate 31. Therefore, the staff controls the vertical plate to rotate and fit with the horizontal block. After the countersunk holes and screw holes are aligned one by one, bolts are used to pass through the countersunk holes and are threaded to the screw holes to realize the connection between the movable connection part 33 and the fixed connection part 42. Therefore, under the action of the driver 32, the first support plate 31 and the second support plate 41 move together, thereby enabling multiple staff to perform outdoor operations more conveniently and accurately.

[0046] Please see Figure 1 , Figure 2 and Figure 4As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the lower end of the meeting mechanism 2 is provided with two support plates 22. One support plate 22 is rotatably connected to the bottom surface of the receiving chamber 11, and the other support plate 22 is slidably connected to the bottom surface of the receiving chamber 11. An installation space is formed between the two support plates 22. The support assembly 21 is installed in the installation space and is set close to the other support plate 22. The support assembly 21 includes a support leg 23, a magnetic adsorption unit 24, a pressure sensor 25, and a control switch 26. A hinge is provided on the other support plate 22. The upper end of the 3rd component is connected to the hinge. The magnetic adsorber 24 and the pressure sensor 25 are both mounted on another support plate 22. The control switch 26 is mounted on the side of another outer support plate 22 away from the installation space. The conference mechanism 2 rotates outward from the receiving chamber 11, controlling the support leg 23 to rotate outward around the hinge to a vertical position. The support leg 23 triggers the pressure sensor 25 and is adsorbed onto the magnetic adsorber 24. The two support plates 22 are rotatably connected to the bottom surface of the receiving chamber 11 and slidably connected to it, respectively. Therefore, the staff can easily and quickly control the conference mechanism 2 to move out of or into the receiving chamber 11. After the conference mechanism 2 is rotated out of the receiving chamber 11, the support leg 23 is controlled to rotate downward to a vertical position, so that the support leg 23 is supported on the ground. The support leg 23 triggers the pressure sensor 25 to open the magnetic adsorber 24. With the help of the magnetic attraction of the magnetic adsorber 24, the support leg 23 stably supports the conference mechanism 2. A control switch 26 is installed on the outside of the conference mechanism 2. When it is necessary to move the conference mechanism 2 into the receiving chamber 11, the magnetic adsorption unit 24 is disconnected by the control switch 26, so that the support leg 23 is no longer subject to magnetic attraction, and then the support leg 23 can be raised to a horizontal position. The magnetic adsorption unit 24 can be an electromagnet.

[0047] Please see Figure 1 , Figure 2 and Figure 4 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, a rotating hole and an arc-shaped slide groove 111 are provided on the bottom surface of the accommodating chamber 11. A connecting shaft rotatably connected to the rotating hole is provided on one support plate 22, and a slider 112 slidably connected to the arc-shaped slide groove 111 is provided on the other support plate 22. A positioning hole 113 and a positioning pin 114 installed in the positioning hole 113 are provided at one end of the arc-shaped slide groove 111 near the inlet / outlet 12. The connecting shaft and the slider 112 are respectively installed at the lower ends of the two support plates 22. The connecting shaft is rotatably installed into the rotating hole, while the slider 112 is slidably engaged in the arc-shaped slide groove 111. When controlling the rotation of the conference mechanism 2, the rotation of the conference mechanism 2 is smoother under the cooperation of the slider 112 and the arc-shaped slide groove 111. To improve the stability of the conference mechanism 2, the positioning pin 114 is installed in the positioning hole 113 to prevent the conference mechanism 2 from shaking arbitrarily.

[0048] Please see Figure 1 , Figures 8 to 10 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the secondary climbing mechanism 5 rotates downward into the transition chamber 15, and its lower end is supported on the bottom surface of the transition chamber 15 to form the first climbing state. The secondary climbing mechanism 5 rotates upward and is located above the mobile platform 1 in an inclined state, and the drive reinforcement component 51 is supported on the upper surface of the mobile platform 1 to form the second climbing state. There are two elongated holes 14, which are arranged in parallel and spaced apart. There are two secondary climbing mechanisms 5, which are respectively installed in the two elongated holes 14. The secondary climbing mechanism 5 includes a climbing ladder 52, a rotating shaft 53, and an elastic connecting end 54. The rotating shaft 53 is installed at one end of the climbing ladder 52 and is rotatably connected to the elongated hole 14. A hook 18 is provided in the elongated hole 14. The elastic connecting end 54 includes a retaining ring 55 and a spring 56. A connecting hole 57 is opened at the other end of the climbing ladder 52, and the spring 56 is installed in the connecting hole 57. Inside the hole 57, the retaining ring 55 is used to connect with the hook 18, and has a sliding rod 58 slidably connected in the connecting hole 57. The sliding rod 58 is connected to the spring 56. The wall of the elongated hole 14 has an elongated groove 59 and a cover plate 591 slidably connected in the elongated groove 59. The cover plate 591 is used to cover the elongated hole 14 and the secondary climbing mechanism 5. When the worker needs to perform climbing operations, the worker controls the retaining ring 55 to compress the spring 56 and disengage from the hook 18, thereby pulling the climbing ladder 52 to move downward around the pivot 53, so that one end of the climbing ladder 52 is supported on the ground and enters the first climbing state. The worker uses the climbing ladder 52 to enter the upper end of the mobile platform 1. Then the worker pulls the climbing ladder 52 upward and tilts it above the mobile platform 1, and the rotating reinforcement component 51 supports the upper surface of the mobile platform 1. The worker climbs the climbing ladder 52 again to perform high-altitude operations. A connection hole 57 is provided at the end of the climbing ladder 52, and the sliding rod 58 on the retaining ring 55 slides into the connection hole 57 and connects with the spring 56, so that the retaining ring 55 has a stable elastic function.

[0049] Please see Figure 1 and Figure 4 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the IoT-based intelligent office operation platform also includes a lower-suspension operation mechanism 6, which is installed in the transition chamber 15 and staggered from the secondary climbing mechanism 5. The lower-suspension operation mechanism 6 includes a support block 61 and a lower-suspension ladder 62 installed on the support block 61. The lower-suspension ladder 62 is stacked on the support block 61, and one end is fixedly connected to the support block 61. When it is necessary to operate on the outer wall from top to bottom, the mobile platform 1 is moved to a high place, and then the stacked lower-suspension ladder 62 is released and falls downward. Workers can use the lower-suspension ladder 62 to perform high-altitude operations, further increasing the scope of application scenarios of the office operation platform.

[0050] Please see Figure 1 and Figure 4 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the bottom surface of the transition chamber 15 is provided with a slide rail 63, and the lower end of the bearing block 61 is provided with a guide groove that is slidably connected to the slide rail 63; the top of the transition chamber 15 is provided with a plurality of extrusion positioning mechanisms 7 located above the bearing block 61, and the extrusion positioning mechanism 7 is provided with an extrusion head 71, which has a degree of freedom to move in the vertical direction; the guide groove at the lower end of the bearing block 61 is slidably connected to the slide rail 63, and a cylinder or hydraulic cylinder is installed in the transition chamber 15 and connected to the bearing block 61. Therefore, the operator can control the bearing block 61 to slide along the slide rail 63 by activating the cylinder or hydraulic cylinder, thereby moving a greater distance outward, and the operator has a larger range of external suspended operations and wider applicability. To improve the stability of the support block 61, an extrusion positioning mechanism 7 is installed on the top of the transition chamber 15. After the support block 61 moves to the appropriate working position, the extrusion positioning mechanism 7 is activated to make the extrusion head 71 move vertically and act on the support block 61 to prevent the support block 61 from tipping over.

[0051] Please see Figure 1 and Figure 6 As a specific embodiment of the IoT-based intelligent office operation platform provided by the present invention, the IoT-based intelligent office operation platform also includes two display screens 8. The two display screens 8 are respectively installed on the side of the mobile platform 1 away from the entrance / exit 12 and on the inner wall of the receiving chamber 11. The receiving chamber 11 also houses a processor, a display module, and a wireless communication module. The two display screens 8 are installed on the same wall of the mobile platform 1, but are located on the outer side of the mobile platform 1 and the inner wall of the receiving chamber 11, respectively. Therefore, when the meeting mechanism 2 is located inside the receiving chamber 11, staff can use the display screens 8 for office work. Furthermore, wireless communication can be achieved through the wireless communication module. The display screen 8 on the outer wall of the mobile platform 1 can be used to display outdoor work instructions and other information.

[0052] The above are merely preferred embodiments of the present invention and are not intended to limit the present invention. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. An intelligent office operation platform based on the Internet of Things, characterized in that, The system includes a mobile platform and a conference mechanism, a main operating mechanism, a secondary operating mechanism, and a secondary climbing mechanism for connecting to an IoT control unit. The mobile platform has a receiving chamber, an inlet / outlet, a mounting slot, an elongated hole, and a transition chamber. The conference mechanism is installed within the receiving chamber, with both ends rotatably and slidably connected to the bottom surface of the receiving chamber, respectively. The conference mechanism has a support assembly. The main and secondary operating mechanisms are installed in the mounting slot. The main operating mechanism has a first support platform and a driver, and the secondary operating mechanism has a second support platform with a fixed connection portion. The main operating mechanism has a movable connection portion for connecting to the fixed connection portion. The secondary climbing mechanism is installed within the elongated hole and has a movably connected reinforcing assembly at its upper end. Both ends of the secondary climbing mechanism are rotatably and detachably connected to both ends of the elongated hole, respectively. The secondary climbing mechanism has a first-level climbing state located within the transition chamber and a second-level climbing state located above the mobile platform. The conference mechanism has two support plates at its lower end. One support plate is rotatably connected to the bottom surface of the receiving chamber, and the other support plate is slidably connected to the bottom surface of the receiving chamber, forming an installation space between the two support plates. The support assembly is installed in the installation space and is positioned close to the other support plate. The support assembly includes a support leg, a magnetic adsorbent, a pressure sensor, and a control switch. The other support plate has a hinge, and the upper end of the support leg is connected to the hinge. The magnetic adsorbent and the pressure sensor are both installed on the other support plate. The control switch is installed on the side of the other support plate away from the installation space. The conference mechanism rotates outward from the receiving chamber, controlling the support leg to rotate outward around the hinge to a vertical position. The support leg triggers the pressure sensor and adsorbs onto the magnetic adsorbent.

2. The IoT-based intelligent office operation platform as described in claim 1, characterized in that, The receiving chamber is located inside the mobile platform, and the inlet / outlet is located on one side of the mobile platform and communicates with the receiving chamber. The mounting slot and the elongated hole are respectively located at the upper end of the mobile platform, and are respectively located at the front and rear sides of the upper end of the mobile platform. The transition chamber is located at the rear end of the mobile platform and is located below the elongated hole, and the elongated hole communicates with the transition chamber. The main operating mechanism and the auxiliary operating mechanism are arranged in parallel within the mounting slot.

3. The IoT-based intelligent office operation platform as described in claim 2, characterized in that, The mounting slot is provided with two parallel, spaced-apart partitions. The length direction of the partitions is the same as that of the mounting slot, and both ends are fixedly connected to the sidewalls of the mounting slot. The two partitions divide the mounting slot into three compartments. The main operating mechanism is installed in the middle compartment, and there are two auxiliary operating mechanisms, which are installed in the two outer compartments respectively. There are two movable connecting parts, which are respectively located on both sides of the first support plate near the two auxiliary operating mechanisms. The two movable connecting parts rotate to the sides to connect with the corresponding fixed connecting parts, so that the first support plate and the two second support plates are integrated into one unit.

4. The IoT-based intelligent office operation platform as described in claim 3, characterized in that, The movable connecting part is a vertical plate rotatably connected to the first support platform. The vertical plate has multiple countersunk holes. The fixed connecting part is a horizontal block with multiple screw holes corresponding to the countersunk holes. The fixed connecting part and the movable connecting part are connected by bolts that pass through the countersunk holes and are threaded into the screw holes. The vertical plate has a clearance groove for avoiding the partition plate.

5. The IoT-based intelligent office operation platform as described in claim 1, characterized in that, A rotating hole and an arc-shaped groove are provided on the bottom surface of the receiving chamber. One of the support plates is provided with a connecting shaft that is rotatably connected to the rotating hole, and the other support plate is provided with a slider that is slidably connected to the arc-shaped groove. The arc-shaped groove is provided with a positioning hole and a positioning pin installed in the positioning hole at one end near the inlet and outlet.

6. The IoT-based intelligent office operation platform as described in claim 1, characterized in that, The secondary climbing mechanism rotates downwards into the transition chamber, and its lower end is supported on the bottom surface of the transition chamber to form the first-level climbing state. The secondary climbing mechanism rotates upwards and is positioned above the moving platform in an inclined state, driving the reinforcement component to support the upper surface of the moving platform to form the second-level climbing state. There are two elongated holes, arranged in parallel and spaced apart. There are two secondary climbing mechanisms, each installed in one of the two elongated holes. The secondary climbing mechanism includes a climbing ladder, a rotating shaft, and an elastic connecting end. A shaft is installed at one end of the climbing ladder and rotatably connected to the elongated hole. A hook is provided inside the elongated hole. The elastic connecting end includes a retaining ring and a spring. A connecting hole is opened at the other end of the climbing ladder. The spring is installed in the connecting hole. The retaining ring is used to connect with the hook and has a sliding rod slidably connected in the connecting hole. The sliding rod is connected to the spring. An elongated groove is opened on the wall of the elongated hole and a baffle plate is slidably connected in the elongated groove. The baffle plate is used to cover the elongated hole and the secondary climbing mechanism.

7. The IoT-based intelligent office operation platform as described in claim 1, characterized in that, The IoT-based intelligent office operation platform also includes a lower-suspension operation mechanism, which is installed in the transition chamber and staggered from the secondary climbing mechanism. The lower-suspension operation mechanism includes a support block and a lower-suspension ladder installed on the support block. The lower-suspension ladder is stacked on the support block and one end is fixedly connected to the support block.

8. The IoT-based intelligent office operation platform as described in claim 7, characterized in that, The bottom surface of the transition chamber is provided with a slide rail, and the lower end of the bearing block is provided with a guide groove that is slidably connected to the slide rail; the top of the transition chamber is provided with a plurality of extrusion positioning mechanisms located above the bearing block, and the extrusion positioning mechanism is provided with an extrusion head, which has a degree of freedom to move in the vertical direction.

9. The IoT-based intelligent office operation platform as described in claim 1, characterized in that, The IoT-based intelligent office operation platform also includes two displays, which are respectively installed on the side of the mobile platform away from the entrance and exit and on the inner wall of the receiving chamber; the receiving chamber is also equipped with a processor, a display module and a wireless communication module.

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