A power construction operation platform
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG HUIJIE ELECTRICAL ENG TECH CO LTD
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-26
AI Technical Summary
When using existing power construction operation platforms, workers are exposed to the sun for extended periods while standing on the platform, causing discomfort and reducing the effectiveness of the operation.
A power construction operation platform was designed, equipped with a sunshade and adjustment components. The height adjustment and movement of the sunshade are realized through the threaded connection of the motor-driven screw and the linkage plate. The combination of the movement component and the drive component improves the platform's protection and convenience.
It effectively blocks sunlight, prevents discomfort for staff, improves usability, and enhances the platform's practicality through convenient height adjustment and movement functions.
Smart Images

Figure CN224413069U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of power construction technology, specifically a power construction operation platform. Background Technology
[0002] Electrical engineering refers to engineering related to the production, transmission, and distribution of electrical energy. In a broader sense, it also includes engineering projects that use electricity as a power source and energy source in various fields. It can also be understood as power transmission and transformation expansion projects. During electrical construction, operating platforms are required.
[0003] The patent CN220301759U discloses a power construction operation platform. This patent discloses a convenient and mobile technical solution, which solves the problems of existing power construction operation platforms being difficult to move, increasing the time for power construction, affecting work efficiency, and being unable to carry out power construction at high altitudes. The platform height is not adjustable, which reduces the efficiency of power construction and is not conducive to the use of operators, causing inconvenience to the use of power construction operation platforms.
[0004] When in use, the device uses a support platform, workbench, moving device, support block, electric telescopic rod and lifting device to make the platform easy to lift and move. However, when workers stand on the workbench, they are exposed to the sun for a long time, which can easily cause discomfort to the workers and reduce the effectiveness of use. Therefore, a power construction operation platform is proposed to solve the above problems. Utility Model Content
[0005] To address the shortcomings of existing technologies, this utility model provides a power construction operation platform with the advantages of convenient protection. It solves the problem that when using existing power construction operation platforms, workers standing on the work platform are exposed to the sun for a long time, which can easily cause discomfort to the workers and reduce the effectiveness of use.
[0006] To achieve the above objectives, this utility model provides the following technical solution:
[0007] A power construction operation platform includes a connecting plate, a placement plate on the top surface of the connecting plate, a connecting ring fixedly connected to the top surface of the placement plate, a sunshade on the top of the connecting ring, and an adjustment component for adjusting the height of the sunshade on the connecting ring.
[0008] The adjustment assembly includes a first motor, which is fixedly mounted on the top surface of the connecting ring. The left and right sides of the connecting ring are provided with linkage slots. The bottom surface of the sunshade is fixedly connected with two linkage plates, one end of which extends into the two linkage slots respectively. The back of the connecting ring is provided with a clearance slot. The output shaft of the first motor is fixedly connected with a first screw, one end of which passes through the connecting ring and extends into the right linkage slot. The first screw passes through the right linkage plate.
[0009] The connecting plate is equipped with a drive component for moving the placement plate.
[0010] The connecting plate is equipped with a moving component for driving the connecting plate to move.
[0011] Furthermore, the connecting ring is a rectangular ring, the linkage plate is an L-shaped plate, and the linkage plate and the linkage groove are slidably connected.
[0012] Furthermore, the first screw is rotatably connected to the connecting ring and the right-side linkage groove via two bearings respectively. The top surface of the linkage plate on the right side is provided with a first threaded hole, through which the first screw passes and is threadedly connected.
[0013] Furthermore, the driving assembly includes two upright plates, which are fixedly connected to the left and right sides of the connecting plate, respectively. Each of the two upright plates has a sliding groove on one of its opposite sides. A sliding plate extending into the sliding groove is fixedly connected to both the left and right sides of the placement plate. A second motor is fixedly installed on the top surface of the left upright plate. The output shaft of the second motor is fixedly connected to a second screw, which passes through the left upright plate and extends into the left sliding groove. The second screw passes through the left sliding plate and is rotatably connected to the left upright plate and the left sliding groove through two bearings, respectively.
[0014] Furthermore, the sliding plate and the sliding groove are slidably connected, and a second threaded hole is provided on the top surface of the sliding plate located on the left side. The second screw passes through the second threaded hole and is threadedly connected to it.
[0015] Furthermore, the moving component includes two fixed blocks, both of which are fixedly connected to the bottom surface of the connecting plate. Each of the two fixed blocks has a fixed groove on its bottom surface, a drive plate is placed inside each of the two fixed grooves, a limit plate is fixedly connected inside each of the two fixed grooves, a third motor is fixedly installed inside each of the two fixed grooves, and a third screw with one end penetrating the drive plate and extending to the limit plate is fixedly connected to the output shaft of each of the two third motors. Mounting rods are fixedly connected to the bottom surface of each of the two drive plates, and four moving wheels are fixedly installed on the bottom surface of the four mounting rods. A wire-passing hole is provided on one opposite side of each of the two fixed blocks, and a battery pack is fixedly installed on the bottom surface of the connecting plate.
[0016] Furthermore, the drive plate and the fixing groove are slidably connected, the wire hole and the fixing groove are connected, and the four mounting rods are respectively located on the front and back of the two third screws.
[0017] Furthermore, the third screw is rotatably connected to the bearing and the limiting plate, and the top surfaces of the two drive plates are provided with third threaded holes. The two third screws pass through the two third threaded holes and are threadedly connected to them.
[0018] Compared with the prior art, this utility model provides a power construction operation platform with the following features:
[0019] Beneficial effects:
[0020] 1. This power construction operation platform uses a sunshade to block sunlight and protect workers, minimizing their discomfort and improving usability. The sunshade is moved by the threaded connection between the first screw and the linkage plate, allowing for easy adjustment of its height.
[0021] 2. This power construction operation platform supports the sunshade through the sliding connection between the linkage plate and the linkage groove, improving the stability of the sunshade. The height of the placement plate can be easily adjusted through the cooperation between the second screw, the sliding plate and the sliding groove. At the same time, the connecting plate can be moved by the action of the moving wheels, making it convenient for workers to operate and more convenient and practical. Attached Figure Description
[0022] Figure 1 This is a three-dimensional view of the structure of this utility model;
[0023] Figure 2 This is a schematic diagram of the internal structure of the present invention;
[0024] Figure 3 This is a schematic diagram of the internal structure of the fixing block in this utility model, shown on the left side.
[0025] In the diagram: 1 Connecting plate, 2 Placement plate, 3 Vertical plate, 4 Connecting ring, 5 Sunshade, 6 Fixing block, 7 Sliding plate, 8 Sliding groove, 9 First screw, 10 Linkage groove, 11 First motor, 12 Linkage plate, 13 Clearance groove, 14 Second motor, 15 Second screw, 16 Fixing groove, 17 Wiring hole, 18 Battery pack, 19 Drive board, 20 Third motor, 21 Mounting rod, 22 Moving wheel, 23 Third screw, 24 Limiting plate. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0027] Please see Figures 1 to 3 The power construction operation platform in this embodiment includes a connecting plate 1, a placement plate 2 is placed on the top surface of the connecting plate 1, a connecting ring 4 is fixedly connected to the top surface of the placement plate 2, a sunshade 5 is placed on the top of the connecting ring 4, and an adjustment component is provided on the connecting ring 4 for adjusting the height of the sunshade 5.
[0028] The adjustment assembly includes a first motor 11, which is fixedly mounted on the top surface of the connecting ring 4. The left and right sides of the connecting ring 4 are provided with linkage grooves 10. The bottom surface of the sunshade 5 is fixedly connected with two linkage plates 12, one end of which extends into the two linkage grooves 10 respectively. The back of the connecting ring 4 is provided with a clearance groove 13. The output shaft of the first motor 11 is fixedly connected with a first screw 9, one end of which passes through the connecting ring 4 and extends into the right linkage groove 10. The first screw 9 passes through the right linkage plate 12.
[0029] The connecting ring 4 is a rectangular ring, the linkage plate 12 is an L-shaped plate, the linkage plate 12 and the linkage groove 10 are slidably connected, the first screw 9 is rotatably connected to the connecting ring 4 and the right linkage groove 10 respectively through two bearings, the top surface of the linkage plate 12 on the right side is provided with a first threaded hole, the first screw 9 passes through the first threaded hole and is threadedly connected to it.
[0030] Specifically, the first motor 11 is started, and the output shaft of the first motor 11 drives the first screw 9 to rotate. Through the threaded connection between the first screw 9 and the right linkage plate 12, and the sliding connection between the linkage plate 12 and the linkage groove 10, the first screw 9 drives the sunshade 5 to move through the linkage plate 12, thereby adjusting the height of the sunshade 5. After the adjustment is completed, the staff can pass through the clearance groove 13 and enter the interior of the connecting ring 4. The sunshade 5 protects the staff.
[0031] Please see Figures 1 to 3 In this embodiment, the connecting plate 1 is provided with a driving assembly for moving the placement plate 2. The driving assembly includes two upright plates 3, which are fixedly connected to the left and right sides of the connecting plate 1, respectively. Each of the two upright plates 3 has a sliding groove 8 on one of their opposite sides. A sliding plate 7 with one end extending into the sliding groove 8 is fixedly connected to both the left and right sides of the placement plate 2. A second motor 14 is fixedly installed on the top surface of the left upright plate 3. The output shaft of the second motor 14 is fixedly connected to a second screw 15 with one end penetrating the left upright plate 3 and extending into the left sliding groove 8. The second screw 15 penetrates the left sliding plate 7 and is rotatably connected to the left upright plate 3 and the left sliding groove 8 through two bearings, respectively.
[0032] The sliding plate 7 and the sliding groove 8 are slidably connected. The top surface of the sliding plate 7 on the left side is provided with a second threaded hole, and the second screw 15 passes through the second threaded hole and is threadedly connected to it.
[0033] Specifically, the second motor 14 is started, and the output shaft of the second motor 14 drives the second screw 15 to rotate. Through the threaded connection between the second screw 15 and the left sliding plate 7 and the sliding connection between the sliding plate 7 and the sliding groove 8, the second screw 15 drives the placement plate 2 to move upward through the sliding plate 7, thereby adjusting the height of the connecting ring 4.
[0034] Please see Figures 1 to 3 In this embodiment, the connecting plate 1 is provided with a moving component for driving the connecting plate 1 to move. The moving component includes two fixed blocks 6, both of which are fixedly connected to the bottom surface of the connecting plate 1. The bottom surface of each of the two fixed blocks 6 is provided with a fixed groove 16. A drive plate 19 is placed inside each of the two fixed grooves 16. A limit plate 24 is fixedly connected inside each of the two fixed grooves 16. A third motor 20 is fixedly installed inside each of the two fixed grooves 16. The output shaft of each of the two third motors 20 is fixedly connected with a third screw 23, one end of which passes through the drive plate 19 and extends to the limit plate 24. Mounting rods 21 are fixedly connected to the bottom surface of each of the two drive plates 19. Moving wheels 22 are fixedly installed on the bottom surface of each of the four mounting rods 21. A wire hole 17 is provided on the opposite side of each of the two fixed blocks 6. A battery pack 18 is fixedly installed on the bottom surface of the connecting plate 1.
[0035] The drive plate 19 and the fixing groove 16 are slidably connected, the wire hole 17 is connected to the fixing groove 16, the four mounting rods 21 are located on the front and back of the two third screws 23 respectively, the third screws 23 are rotatably connected by bearings and limiting plates 24, the top surfaces of the two drive plates 19 are provided with third threaded holes, and the two third screws 23 pass through the two third threaded holes respectively and are threadedly connected to them.
[0036] Specifically, the third motor 20 is started, and the output shaft of the third motor 20 drives the third screw 23 to rotate. Through the threaded connection between the third screw 23 and the drive plate 19 and the sliding connection between the drive plate 19 and the fixing groove 16, the third screw 23 drives the drive plate 19 to move downward. The drive plate 19 drives the moving wheel 22 to move downward through the mounting rod 21 and to contact the ground, pushing the connecting plate 1. Through the action of the moving wheel 22, the connecting plate 1 is moved. When the connecting plate 1 is in the appropriate position, the moving wheel 22 is reset, and the fixing block 6 is in contact with the ground to support the connecting plate 1.
[0037] It should be noted that the battery pack 18 is a conventional device known in the prior art, and its specific structure and working principle will not be described in detail here. This application can ensure that the output shafts of the two third motors 20 rotate simultaneously by using a synchronization controller or other synchronization device, thereby achieving synchronous operation. These synchronization devices are common and mature in the field of electric control, so they will not be described in detail in the specific embodiments.
[0038] The working principle of the above embodiments is as follows:
[0039] The third motor 20 is started, and its output shaft drives the third screw 23 to rotate. Through the threaded connection between the third screw 23 and the drive plate 19, and the sliding connection between the drive plate 19 and the fixing groove 16, the third screw 23 drives the drive plate 19 to move downwards. The drive plate 19, through the mounting rod 21, drives the moving wheel 22 downwards until it contacts the ground, pushing the connecting plate 1. The moving wheel 22 then moves the connecting plate 1. When the connecting plate 1 is in the appropriate position, the moving wheel 22 returns to its original position, and the fixing block 6 contacts the ground, supporting the connecting plate 1. The first motor 11 is then started, and its output shaft drives the first screw 9 to rotate. The threaded connection between the first screw 9 and the right-side linkage plate 12, as well as the sliding connection between the linkage plate 12 and the linkage groove 10, allows the first screw 9 to move the sunshade 5 via the linkage plate 12, adjusting the height of the sunshade 5. After adjustment, the worker passes through the clearance groove 13 into the interior of the connecting ring 4. The sunshade 5 protects the worker. The second motor 14 is started, and the output shaft of the second motor 14 drives the second screw 15 to rotate. Through the threaded connection between the second screw 15 and the left-side sliding plate 7, as well as the sliding connection between the sliding plate 7 and the sliding groove 8, the second screw 15 moves the placement plate 2 upward via the sliding plate 7, adjusting the height of the connecting ring 4.
[0040] The installation, connection, or setting methods disclosed in this embodiment are all common mechanical connection methods. Any method that can achieve its beneficial effects can be implemented. In addition, the electrical components in this embodiment are all electrically connected to the main controller and the battery pack. The main controller can be a conventional known device such as a computer that plays a control role. Those skilled in the art can control the electrical components through simple programming. Moreover, the existing disclosed power connection technology is also common knowledge in the field. Therefore, the specific structural composition and working principle will not be described in detail in this embodiment.
[0041] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0042] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An electrical construction work platform comprising a connection plate (1), characterised in that: A placement plate (2) is placed on the top surface of the connecting plate (1), and a connecting ring (4) is fixedly connected to the top surface of the placement plate (2). A sunshade (5) is placed on the top of the connecting ring (4), and an adjustment component is provided on the connecting ring (4) for adjusting the height of the sunshade (5). The adjustment assembly includes a first motor (11), which is fixedly mounted on the top surface of the connecting ring (4). The left and right sides of the connecting ring (4) are provided with linkage grooves (10). The bottom surface of the sunshade (5) is fixedly connected with two linkage plates (12), one end of which extends into the two linkage grooves (10). The back of the connecting ring (4) is provided with a clearance groove (13). The output shaft of the first motor (11) is fixedly connected with a first screw (9) that passes through the connecting ring (4) and extends into the right linkage groove (10). The first screw (9) passes through the right linkage plate (12). The connecting plate (1) is provided with a driving component for moving the placement plate (2), and the connecting plate (1) is provided with a moving component for moving the connecting plate (1).
2. The electrical construction operating platform of claim 1, wherein: The connecting ring (4) is a rectangular ring, the linkage plate (12) is an L-shaped plate, and the linkage plate (12) and the linkage groove (10) are slidably connected.
3. The power construction operation platform according to claim 1, characterized in that: The first screw (9) is rotatably connected to the connecting ring (4) and the right linkage groove (10) respectively through two bearings. The top surface of the linkage plate (12) located on the right side is provided with a first threaded hole, and the first screw (9) passes through the first threaded hole and is threadedly connected to it.
4. The power construction operation platform according to claim 1, characterized in that: The drive assembly includes two upright plates (3), which are fixedly connected to the left and right sides of the connecting plate (1), respectively. Each of the two upright plates (3) has a sliding groove (8) on one side opposite to the other. A sliding plate (7) with one end extending into the sliding groove (8) is fixedly connected to the left and right sides of the placement plate (2). A second motor (14) is fixedly installed on the top surface of the left upright plate (3). The output shaft of the second motor (14) is fixedly connected to a second screw (15) with one end penetrating through the left upright plate (3) and extending into the left sliding groove (8). The second screw (15) penetrates the left sliding plate (7) and is rotatably connected to the left upright plate (3) and the left sliding groove (8) through two bearings.
5. The power construction operation platform according to claim 4, characterized in that: The sliding plate (7) and the sliding groove (8) are slidably connected. The top surface of the sliding plate (7) located on the left side is provided with a second threaded hole. The second screw (15) passes through the second threaded hole and is threadedly connected to it.
6. The power construction operation platform according to claim 4, characterized in that: The moving component includes two fixed blocks (6), both of which are fixedly connected to the bottom surface of the connecting plate (1). The bottom surface of each of the two fixed blocks (6) is provided with a fixed groove (16). A drive plate (19) is placed inside each of the two fixed grooves (16). A limit plate (24) is fixedly connected inside each of the two fixed grooves (16). A third motor (20) is fixedly installed inside each of the two fixed grooves (16). The output shaft of each of the two third motors (20) is fixedly connected with a third screw (23) that passes through the drive plate (19) and extends to the limit plate (24). An installation rod (21) is fixedly connected to the bottom surface of each of the two drive plates (19). A moving wheel (22) is fixedly installed on the bottom surface of each of the four installation rods (21). A wire hole (17) is provided on one of the opposite sides of each of the two fixed blocks (6). A battery pack (18) is fixedly installed on the bottom surface of the connecting plate (1).
7. A power construction operation platform according to claim 6, characterized in that: The drive plate (19) and the fixing groove (16) are slidably connected, the wire hole (17) and the fixing groove (16) are connected, and the four mounting rods (21) are located on the front and back of the two third screws (23) respectively.
8. A power construction operation platform according to claim 6, characterized in that: The third screw (23) is rotatably connected by a bearing and a limiting plate (24). The top surfaces of the two drive plates (19) are provided with third threaded holes. The two third screws (23) pass through the two third threaded holes and are threadedly connected to them.