CN215905798U - Large electromechanical equipment adjusting device for rail transit - Google Patents

Abstract

The utility model belongs to the technical field of adjusting device technique and specifically relates to a large-scale electromechanical device adjusting device for track traffic is related to, including base, vertical upwards install first pneumatic cylinder and the elevating platform on the base, the elevating platform is installed in the output of first pneumatic cylinder, and the elevating platform is used for removing the electronic box to and installs the corresponding position of window. This application will install the electronic box on the elevating platform through first pneumatic cylinder and promote to the corresponding position department with the installation window, and the workman of being convenient for accomplishes the installation work of electronic box.

Description

Large electromechanical equipment adjusting device for rail transit

Technical Field

The application relates to the technical field of adjusting devices, in particular to a large electromechanical device adjusting device for rail transit.

Background

Rail transit refers to a type of vehicle or transportation system in which operating vehicles need to travel on a particular rail. The most typical rail transit is a railway system consisting of conventional trains and standard railways. With the diversified development of train and railway technologies, rail transit is more and more types, and is not only distributed in long-distance land transportation, but also widely applied to medium-short distance urban public transportation.

The station is an important junction of rail transit, and the electric power system in the station is an important member of the station. When building an electric power system, in order to reduce the walking space of passengers in a station, an engineer usually sets up a mounting window on a wall body, and then adopts an embedding mode to embed an electric box in the mounting window.

However, since the wall body has a certain height from the ground, and the worker usually needs to repeatedly adjust the angle of the electronic box when installing the electronic box, the operation process is complicated, and the worker is not easy to complete the installation work of the electronic box. Therefore, further improvements can be made.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the installation work of workman's completion electronic box, this application provides a large-scale electromechanical device adjusting device for track traffic.

The application provides a large-scale electromechanical device adjusting device for track traffic adopts following technical scheme:

the utility model provides a large-scale electromechanical device adjusting device for track traffic, includes base, vertical upwards installs first pneumatic cylinder and elevating platform on the base, the elevating platform is installed in the output of first pneumatic cylinder, just the elevating platform is used for moving the electronic box to the position corresponding with the installation window.

Through adopting above-mentioned technical scheme, the workman is carrying out the installation work of electronic box, at first removes large-scale electromechanical device adjusting device for track traffic to installation window below position, then places the electronic box in the elevating platform, through starting first pneumatic cylinder, makes the vertical elevating movement of first pneumatic cylinder drive elevating platform seat to the electronic box that makes on the elevating platform can be carried with the corresponding position of installation window, is convenient for the workman to accomplish the installation work of electronic box.

Optionally, the auxiliary conveying mechanism further comprises an auxiliary conveying mechanism, the auxiliary conveying mechanism comprises a second hydraulic cylinder and an auxiliary conveying plate, the auxiliary conveying plate is rotatably connected with one end of the lifting table, the second hydraulic cylinder is used for driving the auxiliary conveying plate to rotate to a position parallel to the lifting table, and one end, far away from the lifting table, of the auxiliary conveying plate is supported in the installation window when the electric box is installed.

Through adopting above-mentioned technical scheme, when first pneumatic cylinder with the electronic box propelling movement to with the installation window co-altitude, because supplementary delivery board can be adjusted to the position that parallels with the elevating platform by the second pneumatic cylinder, supplementary delivery board can support in the installation window simultaneously, makes the workman can promote the electronic box to supplementary delivery board, again by supplementary delivery board position with electronic box propelling movement to the installation window in, the workman of being convenient for installs in with electronic box propelling movement to the installation window.

Optionally, a lifting frame is arranged on the base, and the side end of the lifting platform is vertically arranged on the lifting frame in a sliding mode.

By adopting the technical scheme, as the lifting frame is arranged, when the first hydraulic cylinder pushes the lifting platform to do lifting motion in the vertical direction, the lifting platform can be arranged in a sliding manner with the lifting platform along the vertical direction; because the elevating platform side slides mutually with the crane and sets up, can make the elevating platform be difficult for taking place to rock to make the workman when the installation electronic box, the electronic box can keep more stable state, further makes things convenient for workman's installation work.

Optionally, a plurality of telescopic sleeves are installed on the base, one end of each telescopic sleeve is fixedly connected with the top surface of the base, and the other end of each telescopic sleeve is fixedly connected with the bottom surface of the lifting platform.

By adopting the technical scheme, when the lifting platform moves up and down, the telescopic sleeve can stretch and contract along with the lifting platform; because every telescopic sleeve one end and base top surface fixed connection, the other end and elevating platform bottom surface fixed connection make the elevating platform be difficult for taking place to rock in doing the elevating movement process to make the electronic box can keep more stable state, can further make things convenient for workman's installation work.

Optionally, one end of the lifting platform, which is far away from the auxiliary conveying plate, is rotatably connected with a transition plate, and the electric box moves to the lifting platform through the transition plate.

Through adopting above-mentioned technical scheme, before the electronic box installation, the workman at first rotates to supporting in the bottom surface with crossing the cab apron, then with the electronic box by crossing cab apron position and promote to the elevating platform, the workman of being convenient for removes the electronic box to the elevating platform.

Optionally, a cushion pad is mounted on the bottom surface of the transition plate.

Through adopting above-mentioned technical scheme, when the electronic box promoted to the elevating platform by the transition board position, owing to be provided with the blotter, can cushion the punching press effect of transition board to ground, make ground difficult by crushing.

Optionally, the top surfaces of the lifting table, the transition plate and the auxiliary conveying plate are provided with a plurality of roller groups, each roller group comprises a plurality of rollers with the same rolling direction, and the electric box is installed in the installation window in a sliding mode through the plurality of roller groups.

Through adopting above-mentioned technical scheme, because the electronic box slides through a plurality of roller trains and installs in the installation window, the workman of being convenient for promotes the electronic box and installs in the installation window, can improve the installation effectiveness of electronic box.

Optionally, the base bottom surface all installs the universal wheel near four corner positions, the base all installs the foot cup near every universal wheel position department.

Through adopting above-mentioned technical scheme, owing to be provided with the universal wheel, the workman of being convenient for removes large-scale electromechanical device adjusting device for track traffic, can make things convenient for the workman to adjust the angle of installing the electronic box on the elevating platform simultaneously, makes the electronic box can be adjusted to the angle corresponding with the installing window, and the workman of being convenient for accomplishes the installation work of electronic box. After the angle of the large electromechanical equipment adjusting device for the rail transit is adjusted, workers rotate the foot cup to enable the foot cup to be supported on the bottom surface, so that the large electromechanical equipment adjusting device for the rail transit is not prone to autonomous movement, and the electronic box can be kept in a stable state when being installed.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a worker carries out the installation work of the electric box, firstly, the large electromechanical equipment adjusting device for rail transit is moved to a position below the installation window, then the electric box is placed on the lifting table, and the first hydraulic cylinder is started to drive the lifting table seat to vertically lift, so that the electric box on the lifting table can be conveyed to a position corresponding to the installation window, and the installation work of the electric box can be conveniently completed by the worker;

2. when the first hydraulic cylinder pushes the electric box to the same height as the mounting window, the auxiliary conveying plate can be adjusted to a position parallel to the lifting platform by the second hydraulic cylinder, and meanwhile, the auxiliary conveying plate can be supported in the mounting window, so that a worker can push the electric box to the auxiliary conveying plate and then push the electric box into the mounting window from the position of the auxiliary conveying plate, and the worker can conveniently push the electric box into the mounting window for mounting;

3. due to the arrangement of the lifting frame, when the first hydraulic cylinder pushes the lifting platform to do lifting motion in the vertical direction, the lifting platform can be arranged in a sliding manner with the lifting platform along the vertical direction; because the elevating platform side slides mutually with the crane and sets up, can make the elevating platform be difficult for taking place to rock to make the workman when the installation electronic box, the electronic box can keep more stable state, further makes things convenient for workman's installation work.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Description of reference numerals:

1. a base; 2. a first hydraulic cylinder; 3. a lifting platform; 4. an auxiliary conveying mechanism; 41. a second hydraulic cylinder; 42. an auxiliary conveying plate; 5. a lifting frame; 6. a telescopic sleeve; 61. a first sleeve; 62. a second sleeve; 7. a transition plate; 71. a cushion pad; 8. a roller set; 81. a roller; 9. a universal wheel; 10. a foot cup.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses a large-scale electromechanical device adjusting device for rail transit.

Referring to fig. 1, the adjusting device for large electromechanical equipment for rail transit comprises a base 1, a first hydraulic cylinder 2 and a lifting platform 3; wherein 1 bottom surface of base is close to four corner positions and all installs universal wheel 9, makes base 1 can support in the bottom surface through universal wheel 9, and 2 vertical installations in 1 top surface of base of first pneumatic cylinder, and the output of first pneumatic cylinder 2 sets up, and elevating platform 3 and 2 fixed connection of first pneumatic cylinder make the elevating movement of 3 vertical directions of elevating platform of first pneumatic cylinder 2 can drive.

Due to the arrangement of the universal wheels 9, workers can conveniently move the large electromechanical equipment adjusting device for rail transit to a position close to the installation window. Meanwhile, when the large electromechanical device adjusting device for rail transit is moved to a position close to the installation window, a worker drives the lifting platform 3 to vertically lift and move by starting the first hydraulic cylinder 2, so that the electric box on the lifting platform 3 can be conveyed to a position corresponding to the installation window, and the worker can conveniently complete the installation work of the electric box.

In the present embodiment, a foot cup 10 is mounted on the bottom surface of the base 1 at a position close to each universal wheel 9, so that the base 1 can be fixed by the foot cup 10. After the angle of the large electromechanical device adjusting device for rail transit is adjusted, workers rotate the foot cup 10 to enable the foot cup 10 to be supported on the bottom surface, so that the large electromechanical device adjusting device for rail transit is not prone to autonomous movement, and an electric box can be kept in a stable state during installation.

The adjusting device for the large electromechanical equipment for the rail transit further comprises an auxiliary conveying mechanism 4, wherein the auxiliary conveying mechanism 4 comprises a second hydraulic cylinder 41 and an auxiliary conveying plate 42; wherein, the one end of the auxiliary conveying board 42 is connected with the left end of the lifting platform 3 in a rotating manner, so that the auxiliary conveying board 42 can rotate relative to the lifting platform 3, the bottom of the second hydraulic cylinder 41 is hinged to the base 1, the output end of the second hydraulic cylinder 41 is hinged to the bottom end of the auxiliary conveying board 42, and the rotating directions of the two ends of the second hydraulic cylinder 41 are consistent with the rotating direction of the auxiliary conveying board 42, so that the second hydraulic cylinder 41 can drive the auxiliary conveying board 42 to rotate relative to the lifting platform 3, so that the auxiliary conveying board 42 can be adjusted to the position flush with the top surface of the lifting platform 3. Meanwhile, the width of the subsidiary transport plate 42 is smaller than that of the installation window, so that the subsidiary support plate can be moved to be supported in the installation window.

When first pneumatic cylinder 2 with the electronic box propelling movement to with the erection window co-altitude, because supplementary delivery board 42 can be adjusted to 3 looks parallel positions with the elevating platform by second pneumatic cylinder 41, supplementary delivery board 42 can support in the erection window simultaneously, makes the workman can promote the electronic box to supplementary delivery board 42, again by supplementary delivery board 42 position with electronic box propelling movement to the erection window in, the workman of being convenient for installs in with electronic box propelling movement to the erection window.

In this embodiment, the base 1 is provided with a lifting frame 5, and the lifting frame 5 is located at the side end of the lifting platform 3. Vertical spout has been seted up towards 3 one side of elevating platform to crane 5, and 3 elevating platform one sides towards crane 5 are fixed with the slider, and the slider slides and sets up in vertical spout, makes elevating platform 3 can follow vertical sliding and sets up in crane 5.

Due to the arrangement of the lifting frame 5, when the first hydraulic cylinder 2 pushes the lifting platform 3 to do lifting movement in the vertical direction, the lifting platform 3 can be arranged in a sliding manner with the lifting platform 3 along the vertical direction; because 3 sides of elevating platform slide with 5 looks sliding settings of crane, can make 3 difficult emergence of elevating platform rock to make the workman when the installation electronic box, the electronic box can keep more stable state, further makes things convenient for workman's installation work.

In order to further improve the stability of the lifting platform 3, in the present embodiment, the top surface of the base 1 is provided with four telescopic sleeves 6, the four telescopic sleeves 6 are respectively arranged at four corner positions of the base 1, and each telescopic sleeve 6 comprises a first sleeve 61 and a second sleeve 62; wherein, the periphery of second sleeve 62 is located to first sleeve 61 one end sliding sleeve, and second sleeve 62 one end and base 1 top surface fixed connection are kept away from to first sleeve 61, and first sleeve 61 one end and elevating platform 3 bottom surface fixed connection are kept away from to second sleeve 62, make telescopic sleeve 6 can follow the elevating movement of elevating platform 3 and stretch out and draw back the change.

When the lifting platform 3 performs lifting movement, the telescopic sleeve 6 can perform telescopic change along with the lifting platform 3; because 6 one end of every telescopic sleeve and 1 top surface fixed connection of base, the other end and 3 bottom surfaces fixed connection of elevating platform make elevating platform 3 be difficult for taking place to rock doing the elevating movement in-process to make the electronic box can keep more stable state, can further make things convenient for workman's installation work.

In the embodiment, a transition plate 7 is rotatably connected to one end of the lifting platform 3 away from the auxiliary conveying plate 42, so that the transition plate 7 can rotate relative to the lifting platform 3. Before installing the electric box, a worker can rotate the transition plate 7 to be supported at the bottom surface position, so that the electric box can be moved onto the lifting table 3 through the transition plate 7. Because the transition plate 7 plays a transition role between the lifting platform 3 and the ground, workers do not need to move the electric box to the lifting platform 3 in a carrying mode, and the workers can move the electric box to the lifting platform 3 conveniently.

In this embodiment, a buffer pad 71 made of a polyurethane material is fixed on the bottom surface of the transition plate 7, and when a worker rotates the transition plate 7 to a position where the transition plate is supported on the ground, the transition plate 7 is supported on the ground through the buffer pad 71, so that the buffer pad 71 can buffer the space between the transition plate 7 and the ground. When the electric box is pushed to the lifting platform 3 from the position of the transition plate 7, the buffer cushion 71 is arranged, so that the stamping effect of the transition plate 7 on the ground can be buffered, and the ground is not easy to crush.

In this embodiment, the top surface of the lifting platform 3 is provided with a plurality of roller groups 8, the plurality of roller groups 8 are arranged in parallel, each roller group 8 extends along the moving path of the electric box, and each roller group 8 comprises a plurality of rollers 81 with the same rotation direction; similarly, a plurality of roller groups 8 are arranged on the transition plate 7 and the auxiliary conveying plate 42, and the rotating directions of the rollers 81 on the transition plate 7 and the auxiliary conveying plate 42 are consistent with the rotating direction of the rollers 81 on the lifting platform 3, so that the electric box can slide to the lifting platform 3 from the position of the transition plate 7, then slide to the auxiliary conveying plate 42 from the position of the lifting platform 3, and finally slide to the installation window from the position of the auxiliary conveying plate 42.

The implementation principle of the embodiment of the application is as follows: when the electric box is installed, a worker firstly moves the large electromechanical device adjusting device for rail transit to a position close to the installation window, then moves the electric box to the lifting platform 3, the first hydraulic cylinder 2 is started to enable the first hydraulic cylinder 2 to push the lifting platform 3 and the electric box placed on the lifting platform 3 to vertically move upwards, when the electric box is pushed to a position corresponding to the installation window, the second hydraulic cylinder 41 is started to enable the second hydraulic cylinder 41 to drive the auxiliary conveying plate 42 to rotate, when the auxiliary conveying plate 42 is driven to a position parallel to the top surface of the lifting platform 3, one end, far away from the lifting platform 3, of the auxiliary conveying plate 42 is supported in the installation window, the worker pushes the electric box to the auxiliary conveying plate 42, and then the electric box is pushed to the installation window by the auxiliary conveying plate 42. Because large-scale electromechanical device adjusting device can drive the regulation to the height of electrical apparatus for track traffic, make electrical apparatus can be moved to the high position corresponding with the installation window, be convenient for the workman to accomplish the installation work of electronic box.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a large-scale electromechanical device adjusting device for track traffic which characterized in that: including base (1), vertical upwards install first pneumatic cylinder (2) and elevating platform (3) on base (1), elevating platform (3) are installed in the output of first pneumatic cylinder (2), just elevating platform (3) are used for moving the electronic box to with the corresponding position of installation window.

2. The large electromechanical device adjusting apparatus for rail transit according to claim 1, wherein: still include supplementary conveying mechanism (4), supplementary conveying mechanism (4) include second pneumatic cylinder (41) and supplementary transport board (42), supplementary transport board (42) are rotated with elevating platform (3) one end and are connected, second pneumatic cylinder (41) are used for driving supplementary transport board (42) and rotate to the position parallel to each other with elevating platform (3), just supplementary transport board (42) are kept away from elevating platform (3) one end and are supported in the installation window when the installation electronic box.

3. The adjusting device for the large-scale electromechanical equipment for the rail transit according to claim 2, characterized in that: the lifting frame (5) is arranged on the base (1), and the side end of the lifting platform (3) is vertically arranged on the lifting frame (5) in a sliding mode.

4. The large electromechanical device adjusting apparatus for rail transit according to claim 3, wherein: install a plurality of telescope tube (6) on base (1), every telescope tube (6) one end and base (1) top surface fixed connection, the other end and elevating platform (3) bottom surface fixed connection.

5. The adjusting device for the large-scale electromechanical equipment for the rail transit according to claim 4, characterized in that: one end, far away from the auxiliary conveying plate (42), of the lifting platform (3) is rotatably connected with a transition plate (7), and the electric box moves to the lifting platform (3) through the transition plate (7).

6. The adjusting device for the large-scale electromechanical equipment for the rail transit according to claim 5, characterized in that: and a buffer pad (71) is arranged on the bottom surface of the transition plate (7).

7. The adjusting device for the large-scale electromechanical equipment for the rail transit according to claim 5, characterized in that: elevating platform (3), cab apron (7) and supplementary conveying board (42) top surface all are equipped with a plurality of roller train (8), every roller train (8) all include a plurality of rolling direction the same gyro wheel (81), the electronic box is through a plurality of roller train (8) slide to installing in the window and install.

8. The large electromechanical device adjusting apparatus for rail transit according to claim 1, wherein: the universal wheels (9) are installed at positions, close to four corners, of the bottom surface of the base (1), and the foot cups (10) are installed at positions, close to each universal wheel (9), of the base (1).

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