CN219935894U - Transformer debugging platform - Google Patents

Transformer debugging platform Download PDF

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Publication number
CN219935894U
CN219935894U CN202223146181.8U CN202223146181U CN219935894U CN 219935894 U CN219935894 U CN 219935894U CN 202223146181 U CN202223146181 U CN 202223146181U CN 219935894 U CN219935894 U CN 219935894U
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China
Prior art keywords
driving
connecting rod
fixed
face
rod
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CN202223146181.8U
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Chinese (zh)
Inventor
潘嘉猷
陈文普
张龙辉
吴思达
李炬基
颜法理
林钰成
邓柳高
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Guangzhou Henlee Detection Co ltd
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Guangzhou Henlee Detection Co ltd
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Priority to CN202223146181.8U priority Critical patent/CN219935894U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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Abstract

The utility model relates to the technical field of transformer debugging, in particular to a transformer debugging table which comprises a movable base, wherein a connecting bracket is connected to the end face of the movable base, a controller is connected to one side of the connecting bracket on the end face of the movable base, a fixed connecting plate is connected to the end face of the connecting bracket, a height adjusting structure is connected to the end face of the fixed connecting plate, and a fixed connecting plate is connected to the height adjusting structure.

Description

Transformer debugging platform
Technical Field
The utility model relates to the technical field of transformer debugging, in particular to a transformer debugging table.
Background
The transformer debugging platform is the equipment to debugging in the transformer production process, and present debugging platform can not adjust corresponding angle according to corresponding demand, like the prior art that represents with a contrast document transformer debugging platform (publication number CN 212932692U), this patent technology is through fixing device, controlling means, elevating gear and slider, slider sets up subaerial, elevating gear sets up on slider's top, fixing device sets up on elevating gear's top, controlling means sets up on elevating gear's top, fixing device includes elevating gear, slide mechanism and fixed establishment, and elevating gear's bottom sets up on elevating gear's top, and slide mechanism is located fixed establishment's inside bottom, and fixed establishment is located the middle part of elevating gear, and a transformer debugging platform of the utility model can be with transformer fine fixed through fixing device, and transformer also can not remove when producing the vibration, can be fine according to the height of debugging personnel's random adjustment workstation, the help of debugging personnel is very big when fine, thereby the practicality is good, but any specific technical problem is solved to the following, the present debugging structure is nevertheless perfect:
in this scheme, when debugging the platform to the transformer, through fixing device, controlling means, elevating gear to the height of control debugging platform, consequently can not adjust corresponding angle of putting into according to the demand when debugging, so better work, consequently need an adjustable angle's transformer debugging platform to improve above-mentioned problem.
Disclosure of Invention
In order to solve the problem that under the condition of unchanged lifting, the corresponding angle cannot be adjusted according to the requirement to meet different working requirements, the utility model provides an angle-adjustable transformer debugging table to solve the problems.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
the utility model provides a transformer debugging platform, includes the removal base, be connected with the linking bridge on the terminal surface of removal base, be connected with the controller on the terminal surface of removal base and be located one side of linking bridge, be connected with fixed connection board on the terminal surface of linking bridge, be connected with height-adjusting structure on the terminal surface of fixed connection board, be connected with fixed joint board on the height-adjusting structure, be connected with angle-adjusting structure on the terminal surface of fixed joint board, be connected with the debugging workstation on the angle-adjusting structure, be provided with the transformer on the terminal surface of debugging workstation;
the angle adjusting structure comprises an annular sliding rail, the annular sliding rail is fixedly connected to the end face of the fixed connecting plate, a driving motor is connected to the side wall of the annular sliding rail, a driving rod is connected to the driving end of the driving motor through a coupling, a driven gear is connected to the other end of the driving rod through a driving gear in a meshed mode, a limit sliding block is arranged at the bottom of the driven gear and corresponds to the annular sliding rail, and the driven gear is connected to the bottom of the debugging workbench through an annular connecting plate.
As a preferable scheme of the utility model, the height adjusting structure comprises a guide rod and a servo motor, wherein the guide rod is connected between a movable base and a fixed joint plate, the servo motor is connected on the end face of the fixed joint plate, the driving end of the servo motor is connected with a driving connecting rod through a coupling, the side wall of the driving connecting rod is connected with a motor driven bevel gear through motor driving bevel gears in a meshed manner, the center of the motor driven bevel gear is connected with a rotating connecting rod, two ends of the rotating connecting rod are connected with a connecting rod driven bevel gear through connecting rod driving bevel gears in a meshed manner, the center of the connecting rod driven bevel gear is connected with a transmission connecting rod, the side walls of two ends of the transmission connecting rod are connected with rotating gears, the side walls of the rotating gears are connected with driven racks in a meshed manner, and the side walls of the driven racks are connected with fixed sliding rails which are connected on the end face of the fixed joint plate.
As a preferable scheme of the utility model, the driving motor is connected with the controller through a wire and is electrically connected in a connection mode, and the annular sliding rail is connected with the limiting sliding block in a sliding mode.
As a preferable scheme of the utility model, the driving rod is connected to the side wall of the annular sliding rail through the bearing seat, wherein the driving rod is connected with the bearing seat in a rotating way.
As a preferable scheme of the utility model, the guide rod consists of a guide sleeve and a guide post, wherein the guide sleeve is connected with the guide post in a sliding way, and the servo motor is connected with the controller through a lead and is electrically connected with the controller in a connecting way.
In a preferred embodiment of the utility model, the drive link is connected to the end face of the fixed connection plate via a bearing block, wherein the drive link is connected to the bearing block in a rotary manner.
As a preferable scheme of the utility model, the rotary connecting rod is connected to the end face of the fixed connecting plate through a bearing seat, wherein the rotary connecting rod is connected with the bearing seat in a rotary way.
As a preferable scheme of the utility model, the transmission connecting rod is connected to the end face of the fixed connecting plate through the bearing seat, wherein the transmission connecting rod is connected with the bearing seat in a rotating way, and the driven rack is connected with the fixed sliding rail in a sliding way.
Compared with the prior art, the angle adjusting structure is arranged in the transformer debugging table, so that the debugging table is rotated by using the driving motor in the angle adjusting structure through the transmission structure, and the corresponding angle can be adjusted at will according to the use requirement in the use process of the transformer debugging table, so that the transformer debugging table is more convenient to use, and the problem that the debugging table cannot adjust the angle is solved.
Drawings
FIG. 1 is a schematic diagram of an isometric structure of the present utility model;
FIG. 2 is a schematic cross-sectional view of FIG. 1 in accordance with the present utility model;
FIG. 3 is a schematic view of the height adjusting structure of the present utility model;
FIG. 4 is a schematic view of the portion of FIG. 3 according to the present utility model;
fig. 5 is a schematic structural view of the angle adjusting structure of the present utility model.
In the figure: 1. a movable base; 2. a connecting bracket; 3. a controller; 4. fixing the connecting plate; 5. a height adjustment structure; 6. fixing the joint plate; 7. an angle adjusting structure; 8. a debugging workbench; 9. a transformer; 501. a guide rod; 502. a servo motor; 503. a drive link; 504. a motor drives a bevel gear; 505. a motor driven bevel gear; 506. rotating the connecting rod; 507. the connecting rod drives the bevel gear; 508. a connecting rod driven bevel gear; 509. a transmission link; 510. rotating the gear; 511. a driven rack; 512. fixing the sliding rail; 701. an annular slide rail; 702. a driving motor; 703. a driving rod; 704. a drive gear; 705. a driven gear; 706. and a limit sliding block.
Detailed Description
The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.
Referring to fig. 1-5, the present utility model provides a transformer debugging table, which comprises a mobile base 1, wherein a connecting bracket 2 is connected to an end surface of the mobile base 1, a controller 3 is connected to one side of the connecting bracket 2 on the end surface of the mobile base 1, a fixed connecting plate 4 is connected to the end surface of the connecting bracket 2, a height adjusting structure 5 is connected to the end surface of the fixed connecting plate 4, a fixed connecting plate 6 is connected to the height adjusting structure 5, an angle adjusting structure 7 is connected to the end surface of the fixed connecting plate 6, a debugging workbench 8 is connected to the angle adjusting structure 7, and a transformer 9 is arranged on the end surface of the debugging workbench 8;
referring to fig. 1, 2 and 5, in the embodiment, the angle adjusting structure 7 includes an annular sliding rail 701, the annular sliding rail 701 is fixedly connected to an end face of the fixed connection plate 6, a driving motor 702 is connected to a side wall of the annular sliding rail 701, the driving end of the driving motor 702 drives the driving rod 703 under the condition that the driving rod 703 is connected through a coupling, the other end of the driving rod 703 drives the driven gear 705 to rotate under the condition that a driven gear 705 is connected to the other end of the driving rod 703 through a driving gear 704 in a meshing manner, a limit sliding block 706 is arranged at the bottom of the driven gear 705 and corresponds to the annular sliding rail 701, and the driven gear 705 drives the debugging workbench 8 to rotate under the condition that the driven gear 705 is connected to the bottom of the debugging workbench 8 through an annular connecting plate;
the driving motor 702 is connected with the controller 3 through a wire and the connection mode is electric connection, the connection mode of the annular sliding rail 701 and the limit sliding block 706 is sliding connection, so that the rotation is more convenient, the driving motor 702 can be directly started, the driving rod 703 is connected to the side wall of the annular sliding rail 701 through a bearing seat, and the connection mode of the driving rod 703 and the bearing seat is rotation connection, so that the rotation is more stable;
1-4, in the height adjusting structure 5, the guide rod 501 is connected between the moving base 1 and the fixed joint plate 6, the servo motor 502 is connected to the end surface of the fixed joint plate 4, the driving end of the servo motor 502 drives the driving link 503 to rotate under the condition that the driving link 503 is connected to the side wall of the driving link 503 through a coupling, the motor driven bevel gear 505 is driven to rotate under the condition that the motor driven bevel gear 505 is connected to the side wall of the driving link 503 through a motor driving bevel gear 504, the rotating link 506 is connected to the center of the motor driven bevel gear 505, the two ends of the rotating link 506 drive the connecting rod driven bevel gear 508 to rotate under the condition that the connecting rod driven bevel gear 508 is connected to the center of the connecting rod driven bevel gear 508, the driving link 509 is driven to rotate under the condition that the connecting rod driven link 509 is connected to the center of the connecting rod driven bevel gear 508, the side wall of the driving link 509 is connected to the driven rack 511, the fixed slide rail 512 is connected to the side wall of the driven rack 511, and the height of the driven rack 511 is adjusted under the condition that the fixed slide rail 512 is connected to the end surface of the fixed joint plate 6, and the height of the adjusting table 8 is adjusted;
wherein, guide bar 501 comprises guide pin bushing and guide pillar, wherein guide pin bushing and guide pillar's connected mode is sliding connection, make when height-adjusting more stable, servo motor 502 is connected and the connected mode is electric connection with controller 3 through the wire, it is more convenient to adjust, drive connecting rod 503 passes through the bearing frame to be connected on the terminal surface of fixed connection board 4, wherein drive connecting rod 503 and the connected mode of bearing frame are rotating connection, rotate connecting rod 506 and pass through the bearing frame and connect on the terminal surface of fixed connection board 4, wherein rotate connecting rod 506 and the connected mode of bearing frame be rotating connection, drive connecting rod 509 passes through the bearing frame and connects on the terminal surface of fixed connection board 4, wherein drive connecting rod 509 and the connected mode of bearing frame be rotating connection, driven rack 511 and the connected mode of fixed slide rail 512 are sliding connection makes more smooth in the transmission.
Based on the above conditions, when using the transformer debugging table, the device is firstly powered on to enable the device to be in a working state, then according to the height required in debugging, the servo motor 502 is started under the condition that the servo motor 502 is connected with the controller 3 through a wire and the connection mode is electrically connected, so that the driving end of the servo motor 502 rotates, the driving connecting rod 503 is connected on the end face of the fixed connecting plate 4 through a bearing seat, the driving connecting rod 503 is driven to rotate under the condition that the driving connecting rod 503 is connected with the bearing seat in a rotating way, the motor driven bevel gear 505 is driven to rotate under the condition that the motor driven bevel gear 505 is meshed and connected on the side wall of the driving connecting rod 503 through the motor driven bevel gear 504, the rotating connecting rod 506 is connected on the end face of the fixed connecting plate 4 through the bearing seat, the rotating connecting rod 506 is driven to rotate under the condition that the rotating connecting rod 506 is connected with the bearing seat in a rotating way, the two ends of the rotating connecting rod 506 are connected with a connecting rod driven bevel gear 508 in a meshed manner through a connecting rod driving bevel gear 507 to drive the connecting rod driven bevel gear 508 to rotate, the transmission connecting rod 509 is connected with the end face of the fixed connecting plate 4 through a bearing seat, the transmission connecting rod 509 is driven to rotate under the condition that the connection mode of the transmission connecting rod 509 and the bearing seat is rotary connection, the side walls of the two ends of the transmission connecting rod 509 are connected with rotating gears 510, the side walls of the rotating gears 510 are connected with driven racks 511 in a meshed manner, the driven racks 511 are connected with the fixed sliding rails 512 in a sliding manner, the guide rod 501 consists of guide sleeves and guide columns, the height of the driven racks 511 is adjusted under the condition that the guide sleeves are connected with the guide columns in a sliding manner, the height of the debugging table is adjusted, then, according to the angle required during debugging, the driving motor 702 is started under the condition that the driving motor 702 is connected with the controller 3 through a wire and the connection mode is electrically connected, so that the driving end of the driving motor 702 rotates, the driving rod 703 is connected to the side wall of the annular sliding rail 701 through a bearing seat, the driving rod 703 is driven to rotate under the condition that the connection mode of the driving rod 703 and the bearing seat is rotary connection, the driven gear 705 is connected to the other end of the driving rod 703 through the driving gear 704 in a meshed mode, and the driven gear 705 is driven to rotate under the condition that the connection mode of the annular sliding rail 701 and the limiting sliding block 706 is sliding connection, so that the debugging workbench 8 is driven to rotate, and therefore the proper working angle is adjusted.
Although embodiments of the present utility model 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 therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Transformer debugging platform, including removing base (1), its characterized in that: the intelligent transformer comprises a movable base (1), wherein a connecting support (2) is connected to the end face of the movable base (1), a controller (3) is connected to one side of the connecting support (2), a fixed connecting plate (4) is connected to the end face of the connecting support (2), a height adjusting structure (5) is connected to the end face of the fixed connecting plate (4), a fixed connecting plate (6) is connected to the height adjusting structure (5), an angle adjusting structure (7) is connected to the end face of the fixed connecting plate (6), a debugging workbench (8) is connected to the angle adjusting structure (7), and a transformer (9) is arranged on the end face of the debugging workbench (8);
the angle adjusting structure (7) comprises an annular sliding rail (701), the annular sliding rail (701) is fixedly connected to the end face of a fixed joint plate (6), a driving motor (702) is connected to the side wall of the annular sliding rail (701), a driving rod (703) is connected to the driving end of the driving motor (702) through a coupling, a driven gear (705) is connected to the other end of the driving rod (703) through a driving gear (704) in a meshed mode, a limit slider (706) is arranged at the bottom of the driven gear (705) and corresponds to the annular sliding rail (701), and the driven gear (705) is connected to the bottom of a debugging workbench (8) through an annular connecting plate.
2. A transformer debugging station as recited in claim 1, wherein: the height adjusting structure (5) comprises a guide rod (501) and a servo motor (502), the guide rod (501) is connected between the movable base (1) and the fixed connecting plate (6), the servo motor (502) is connected to the end face of the fixed connecting plate (4), a driving connecting rod (503) is connected to the driving end of the servo motor (502) through a coupling, a motor driven bevel gear (505) is connected to the side wall of the driving connecting rod (503) through a motor driving bevel gear (504) in a meshing manner, a rotating connecting rod (506) is connected to the center of the motor driven bevel gear (505), connecting rod driven bevel gears (508) are connected to the two ends of the rotating connecting rod (506) through connecting rod driving bevel gears (507) in a meshing manner, a rotating gear (510) is connected to the side wall of the two ends of the driving connecting rod (509), a fixed sliding rail (512) is connected to the side wall of the driven rack (511), and the fixed sliding rail (512) is connected to the fixed connecting plate (6).
3. A transformer debugging station as recited in claim 1, wherein: the driving motor (702) is connected with the controller (3) through a wire and is electrically connected in a connection mode, and the annular sliding rail (701) is connected with the limit sliding block (706) in a sliding mode.
4. A transformer debugging station as recited in claim 1, wherein: the driving rod (703) is connected to the side wall of the annular sliding rail (701) through a bearing seat, wherein the driving rod (703) is connected with the bearing seat in a rotating way.
5. A transformer debugging station as recited in claim 2, wherein: the guide rod (501) consists of a guide sleeve and a guide pillar, wherein the guide sleeve is connected with the guide pillar in a sliding manner, and the servo motor (502) is connected with the controller (3) through a lead and is electrically connected with the guide pillar in a connecting manner.
6. A transformer debugging station as recited in claim 2, wherein: the driving connecting rod (503) is connected to the end face of the fixed connecting plate (4) through a bearing seat, wherein the driving connecting rod (503) is connected with the bearing seat in a rotating way.
7. A transformer debugging station as recited in claim 2, wherein: the rotary connecting rod (506) is connected to the end face of the fixed connecting plate (4) through a bearing seat, wherein the rotary connecting rod (506) is in rotary connection with the bearing seat.
8. A transformer debugging station as recited in claim 2, wherein: the transmission connecting rod (509) is connected to the end face of the fixed connecting plate (4) through a bearing seat, wherein the transmission connecting rod (509) is in rotary connection with the bearing seat, and the driven rack (511) is in sliding connection with the fixed sliding rail (512).
CN202223146181.8U 2022-11-26 2022-11-26 Transformer debugging platform Active CN219935894U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223146181.8U CN219935894U (en) 2022-11-26 2022-11-26 Transformer debugging platform

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202223146181.8U CN219935894U (en) 2022-11-26 2022-11-26 Transformer debugging platform

Publications (1)

Publication Number Publication Date
CN219935894U true CN219935894U (en) 2023-10-31

Family

ID=88486470

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202223146181.8U Active CN219935894U (en) 2022-11-26 2022-11-26 Transformer debugging platform

Country Status (1)

Country Link
CN (1) CN219935894U (en)

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