阅读说明：本技术 一种gis设备的安装基础 (Installation foundation of GIS equipment ) 是由 崔田丽 吕亮 张德超 魏昺淇 张凌燕 邵志胜 刘晓玲 唐晓 翟宁 王瑞 张凯 于 2021-08-30 设计创作，主要内容包括：本发明属于GIS设备的安装升降旋转技术领域,尤其是一种GIS设备的安装基础,针对现有的GIS设备的安装,在进行安装时,没有对设备进行升降和旋转的功能的问题,现提出如下方案,其包括底部座,所述底部座上设有升降机构,升降机构的一侧设有伸缩机构和旋转机构,升降机构包括第一螺杆、第二螺杆和升降座,底部座上固定安装有升降箱,升降箱内固定安装有限位板,第一螺杆、第二螺杆和升降座均位于升降箱内,第一螺杆和第二螺杆均与限位板转动连接,第一螺杆的一端固定连接有第一驱动齿轮,第二螺杆的一端固定连接有第二驱动齿轮。本发明结构简单,可对设备进行升降和旋转,方便人们使用。(The invention belongs to the technical field of installation, lifting and rotating of GIS equipment, and particularly relates to an installation foundation of the GIS equipment, aiming at the problem that the existing GIS equipment is installed and has no lifting and rotating functions when the equipment is installed, the installation foundation comprises a bottom seat, wherein a lifting mechanism is arranged on the bottom seat, a telescopic mechanism and a rotating mechanism are arranged on one side of the lifting mechanism, the lifting mechanism comprises a first screw rod, a second screw rod and a lifting seat, a lifting box is fixedly installed on the bottom seat, a limiting plate is fixedly installed in the lifting box, the first screw rod, the second screw rod and the lifting seat are all located in the lifting box, the first screw rod and the second screw rod are rotatably connected with the limiting plate, a first driving gear is fixedly connected to one end of the first screw rod, and a second driving gear is fixedly connected to one end of the second screw rod. The lifting device is simple in structure, can lift and rotate equipment, and is convenient for people to use.)

1. An installation foundation of GIS equipment comprises a bottom seat (1) and is characterized in that a lifting mechanism is arranged on the bottom seat (1), a telescopic mechanism and a rotating mechanism are arranged on one side of the lifting mechanism, the lifting mechanism comprises a first screw (4), a second screw (5) and a lifting seat (8), a lifting box (2) is fixedly arranged on the bottom seat (1), a limiting plate (3) is fixedly arranged in the lifting box (2), the first screw (4), the second screw (5) and the lifting seat (8) are all positioned in the lifting box (2), the first screw (4) and the second screw (5) are rotatably connected with the limiting plate (3), a first driving gear (6) is fixedly connected with one end of the first screw (4), a second driving gear (7) is fixedly connected with one end of the second screw (5), the first driving gear (6) is meshed with the second driving gear (7), the lifting seat (8) is in threaded connection with the first screw (4) and the second screw (5), the lifting seat (8) is in sliding connection with the lifting box (2), a first cavity (9) is formed in the bottom seat (1), a lifting motor (10) is arranged in the first cavity (9), an output shaft of the lifting motor (10) is fixedly connected with the first screw (4), the rotating mechanism comprises a rotating driving seat (11), a rotating shaft (15), a rotating disc (17), two auxiliary rods (18) and an auxiliary disc (19), the rotating driving seat (11) is located on one side of the lifting box (2), a second cavity (12) is formed in the rotating driving seat (11), a driving rod (13) is connected in the second cavity (12) in a rotating mode, a worm (14) is fixedly connected to the driving rod (13), the rotating shaft (15) is connected to the right side of the rotating driving seat (11) in a rotating mode, and a worm wheel (16) is fixedly connected to one end of the rotating shaft (15), the worm wheel (16) is meshed with the worm (14), the other end of the rotating shaft (15) is fixedly connected with a rotating disc (17), and one side of the rotating disc (17) is fixedly connected with two auxiliary rods (18).

2. The GIS device mounting base according to claim 1, wherein an auxiliary disc (19) is fixedly mounted on the right side of the rotary driving seat (11), an annular groove (20) is formed in one side of the auxiliary disc (19), one ends of the two auxiliary rods (18) are located in the annular groove (20), and the two auxiliary rods (18) are slidably connected with the annular groove (20).

3. The GIS device mounting base of claim 1, wherein a fixed flange (21) is fixedly mounted on the right side of the rotating disk (17), and a mounting device (22) is arranged on the right side of the fixed flange (21).

4. The GIS device mounting base of claim 1, wherein a rotary motor (23) is fixedly mounted at the front side of the rotary driving seat (11), and an output shaft of the rotary motor (23) is fixedly connected with the driving rod (13).

5. The GIS equipment mounting base of claim 1, wherein the telescoping mechanism comprises a double-rod cylinder (25), a hydraulic double-rod (26) and a connecting plate (27), a third cavity (24) is formed in the lifting seat (8), and the double-rod cylinder (25) is located in the third cavity (24).

6. The GIS equipment mounting base of claim 5, wherein the double-rod cylinder (25) is arranged on the bottom cavity wall of the third cavity (24), the hydraulic double-rod (26) is arranged on the right side of the lifting seat (8), and the hydraulic double-rod (26) is connected with the double-rod cylinder (25).

7. The GIS equipment mounting base of claim 5, wherein the connecting plate (27) is located at one end of the hydraulic double rod (26), and the connecting plate (27) is fixedly connected with one end of the hydraulic double rod (26).

8. The GIS device mounting base of claim 7, wherein the rotary driving seat (11) is disposed at the right side of the connecting plate (27), and the rotary driving seat (11) is fixedly connected with the connecting plate (27).

Technical Field

The invention relates to the technical field of installation, lifting and rotating of GIS equipment, in particular to an installation foundation of the GIS equipment.

Background

In the conventional construction and design mode of the transformer substation in China, GIS basic embedded parts need to be designed according to equipment data provided by a winning manufacturer. The embedded part is usually made of channel steel or steel plates, is constructed with a structural floor slab of the power distribution unit building at the same time, and is provided with a square embedded part which is connected with the structural floor slab of the power distribution unit building of the transformer substation through anchor bars.

The existing GIS equipment is installed, and when the existing GIS equipment is installed, the existing GIS equipment does not have the functions of lifting and rotating the equipment.

Disclosure of Invention

The invention aims to solve the defects that the existing GIS equipment is installed, and the existing GIS equipment does not have the functions of lifting and rotating during installation, and provides an installation foundation of the GIS equipment.

In order to achieve the purpose, the invention adopts the following technical scheme:

an installation foundation of GIS equipment comprises a bottom seat, wherein a lifting mechanism is arranged on the bottom seat, a telescopic mechanism and a rotating mechanism are arranged on one side of the lifting mechanism, the lifting mechanism comprises a first screw rod, a second screw rod and a lifting seat, a lifting box is fixedly arranged on the bottom seat, a limiting plate is fixedly arranged in the lifting box, the first screw rod, the second screw rod and the lifting seat are all positioned in the lifting box, the first screw rod and the second screw rod are rotatably connected with the limiting plate, one end of the first screw rod is fixedly connected with a first driving gear, one end of the second screw rod is fixedly connected with a second driving gear, the first driving gear is meshed with the second driving gear, the lifting seat is in threaded connection with the first screw rod and the second screw rod, the lifting seat is in sliding connection with the lifting box, a first cavity is formed in the bottom seat, a lifting motor is arranged in the first cavity, and an output shaft of the lifting motor is fixedly connected with the first screw rod, the rotating mechanism comprises a rotating driving seat, a rotating shaft, a rotating disc, two auxiliary rods and an auxiliary disc, the rotating driving seat is located on one side of the lifting box, a second cavity is formed in the rotating driving seat, a driving rod is rotatably connected in the second cavity, a worm is fixedly connected to the driving rod, the right side of the rotating driving seat is rotatably connected with the rotating shaft, one end of the rotating shaft is fixedly connected with a worm wheel, the worm wheel is meshed with the worm, the other end of the rotating shaft is fixedly connected with the rotating disc, the rotating shaft can drive the rotating disc to rotate, and the two auxiliary rods are fixedly connected to one side of the rotating disc.

Preferably, the right side fixed mounting of rotatory drive seat has the auxiliary disc, and the ring channel has been seted up to one side of auxiliary disc, and the one end of two auxiliary rods all is located the ring channel, two auxiliary rods all with ring channel sliding connection, the right side fixed mounting of rotary disk has mounting flange, mounting flange's right side is equipped with erection equipment, the front side fixed mounting of rotatory drive seat has the rotating electrical machines, the output shaft and the actuating lever fixed connection of rotating electrical machines, the output shaft of rotating electrical machines can drive actuating lever fixed connection.

Preferably, telescopic machanism includes two pole cylinders, hydraulic pressure two poles and connecting plate, has seted up the third cavity in the lift seat, and two pole cylinders are located the third cavity, and two pole cylinders are located the bottom chamber wall of third cavity, and hydraulic pressure two poles are located the right side of lift seat, and hydraulic pressure two poles is connected with two pole cylinders.

Preferably, the connecting plate is located one end of the hydraulic double-rod, the connecting plate is fixedly connected with one end of the hydraulic double-rod, the rotary driving seat is arranged on the right side of the connecting plate, and the rotary driving seat is fixedly connected with the connecting plate.

Compared with the prior art, the invention has the advantages that:

(1) this scheme has owing to set up first screw rod and has driven first drive gear and rotate, and first drive gear passes through second drive gear and drives the second screw rod and rotate, and first screw rod and second screw rod drive the seat that goes up and down and move downwards, and the seat indirectness that goes up and down drives the erection equipment and moves down, has realized the purpose of going up and down.

(2) This scheme is owing to set up the actuating lever and driven the worm and rotate, and the worm passes through the worm wheel and drives the rotation axis rotation, and the rotation axis drives the rotary disk and rotates, and the rotary disk drives two auxiliary rods and slides in the ring channel, and the rotary disk passes through mounting flange and drives the erection equipment rotation, has realized rotatory purpose.

The lifting device is simple in structure and convenient to use, can lift and rotate equipment, and is convenient for people to use.

Drawings

Fig. 1 is a schematic structural diagram of an installation base of a GIS device according to the present invention;

fig. 2 is a schematic top view of a rotary driving seat of an installation base of a GIS device according to the present invention;

fig. 3 is a schematic perspective view of a rotating disk of an installation base of a GIS device according to the present invention;

fig. 4 is a schematic perspective view of an auxiliary rod of an installation base of a GIS device according to the present invention;

fig. 5 is a schematic side view of an auxiliary disk and an annular groove of an installation base of a GIS device according to the present invention.

In the figure: 1. a bottom seat; 2. a lifting box; 3. a limiting plate; 4. a first screw; 5. a second screw; 6. a first drive gear; 7. a second drive gear; 8. a lifting seat; 9. a first cavity; 10. a lifting motor; 11. a rotary driving seat; 12. a second cavity; 13. a drive rod; 14. a worm; 15. a rotating shaft; 16. a worm gear; 17. rotating the disc; 18. an auxiliary lever; 19. an auxiliary disc; 20. an annular groove; 21. a fixed flange; 22. installing equipment; 23. a rotating electric machine; 24. a third cavity; 25. a double-rod cylinder; 26. hydraulic double-rod; 27. a connecting plate; 28. an auxiliary slide carriage; 29. a slide plate; 30. an auxiliary connecting plate.

Detailed Description

The technical solution in this embodiment will be clearly and completely described below with reference to the drawings in this embodiment.

Example one

Referring to fig. 1-5, an installation foundation of a GIS device comprises a bottom seat 1, a lifting mechanism is arranged on the bottom seat 1, a telescopic mechanism and a rotating mechanism are arranged on one side of the lifting mechanism, the lifting mechanism comprises a first screw 4, a second screw 5 and a lifting seat 8, a lifting box 2 is fixedly arranged on the bottom seat 1, a limiting plate 3 is fixedly arranged in the lifting box 2, the first screw 4, the second screw 5 and the lifting seat 8 are all positioned in the lifting box 2, the first screw 4 and the second screw 5 are both rotatably connected with the limiting plate 3, a first driving gear 6 is fixedly connected with one end of the first screw 4, a second driving gear 7 is fixedly connected with one end of the second screw 5, the first driving gear 6 is meshed with the second driving gear 7, the lifting seat 8 is in threaded connection with the first screw 4 and the second screw 5, the lifting seat 8 is in sliding connection with the lifting box 2, a first cavity 9 is arranged in the bottom seat 1, be equipped with elevator motor 10 in the first cavity 9, elevator motor 10's output shaft and first screw rod 4 fixed connection, rotary mechanism includes rotary drive seat 11, rotation axis 15, rotary disk 17, two auxiliary rod 18 and auxiliary disc 19, rotary drive seat 11 is located one side of cage 2, second cavity 12 has been seted up in rotary drive seat 11, the internal rotation of second cavity 12 is connected with actuating lever 13, fixedly connected with worm 14 on the actuating lever 13, rotary drive seat 11's right side is rotated and is connected with rotation axis 15, the one end fixedly connected with worm wheel 16 of rotation axis 15, worm wheel 16 meshes with worm 14 mutually, the other end fixedly connected with rotary disk 17 of rotation axis 15, rotation axis 15 can drive rotary disk 17 rotatory, one side fixedly connected with two auxiliary rod 18 of rotary disk 17.

In this embodiment, the right side fixed mounting of rotary driving seat 11 has auxiliary disc 19, annular groove 20 has been seted up to one side of auxiliary disc 19, the one end of two auxiliary rods 18 all is located annular groove 20, two auxiliary rods 18 all with annular groove 20 sliding connection, the right side fixed mounting of rotary disk 17 has mounting flange 21, mounting flange 21's right side is equipped with erection equipment 22, the front side fixed mounting of rotary driving seat 11 has rotating electrical machines 23, rotating electrical machines 23's output shaft and actuating lever 13 fixed connection, rotating electrical machines 23's output shaft can drive actuating lever 13 fixed connection.

In this embodiment, telescopic machanism includes two pole cylinders 25, hydraulic pressure two poles 26 and connecting plate 27, has seted up third cavity 24 in the lift seat 8, and two pole cylinders 25 are located third cavity 24, and two pole cylinders 25 locate on the bottom chamber wall of third cavity 24, and hydraulic pressure two poles 26 are located the right side of lift seat 8, and hydraulic pressure two poles 26 is connected with two pole cylinders 25.

In this embodiment, the connecting plate 27 is located at one end of the hydraulic double-rod 26, the connecting plate 27 is fixedly connected with one end of the hydraulic double-rod 26, the rotary driving seat 11 is arranged at the right side of the connecting plate 27, and the rotary driving seat 11 is fixedly connected with the connecting plate 27.

The working principle is as follows: when the device is used, the lifting motor 10 is started, the output shaft of the lifting motor 10 drives the first screw rod 4 to rotate, the first screw rod 4 drives the first driving gear 6 to rotate, the first driving gear 6 drives the second screw rod 5 to rotate through the second driving gear 7, the first screw rod 4 and the second screw rod 5 drive the lifting seat 8 to move downwards, the lifting seat 8 indirectly drives the mounting equipment 22 to move downwards, the double-rod cylinder 25 drives the connecting plate 27 to move through the hydraulic double-rod cylinder 26, the connecting plate 27 drives the rotary driving seat 11 to move, the rotary motor 23 is started, the output shaft of the rotary motor 23 drives the driving rod 13 to rotate, the driving rod 13 drives the worm 14 to rotate, the worm 14 drives the rotating shaft 15 to rotate through the worm wheel 16, the rotating shaft 15 drives the rotating disc 17 to rotate, the rotating disc 17 drives the two auxiliary rods 18 to slide in the annular groove 20, and the rotating disc 17 drives the mounting equipment 22 to rotate through the fixing flange 21.

Example two

Referring to fig. 1-5, an installation foundation of a GIS device comprises a bottom seat 1, a lifting mechanism is arranged on the bottom seat 1, a telescopic mechanism and a rotating mechanism are arranged on one side of the lifting mechanism, the lifting mechanism comprises a first screw 4, a second screw 5 and a lifting seat 8, a lifting box 2 is welded on the bottom seat 1, a limiting plate 3 is welded in the lifting box 2, the first screw 4, the second screw 5 and the lifting seat 8 are all positioned in the lifting box 2, the first screw 4 and the second screw 5 are both rotatably connected with the limiting plate 3, a first driving gear 6 is welded at one end of the first screw 4, a second driving gear 7 is welded at one end of the second screw 5, the first driving gear 6 is meshed with the second driving gear 7, the lifting seat 8 is in threaded connection with the first screw 4 and the second screw 5, the lifting seat 8 is in sliding connection with the lifting box 2, a first cavity 9 is arranged in the bottom seat 1, be equipped with elevator motor 10 in the first cavity 9, elevator motor 10's output shaft and first screw rod 4 welded connection, rotary mechanism includes rotary drive seat 11, rotation axis 15, rotary disk 17, two auxiliary rods 18 and auxiliary disc 19, rotary drive seat 11 is located one side of cage 2, second cavity 12 has been seted up in rotary drive seat 11, the internal rotation of second cavity 12 is connected with actuating lever 13, welded connection has worm 14 on the actuating lever 13, rotary drive seat 11's right side is rotated and is connected with rotation axis 15, the one end welded connection of rotation axis 15 has worm wheel 16, worm wheel 16 meshes with worm 14 mutually, the other end welded connection of rotation axis 15 has rotary disk 17, rotation axis 15 can drive rotary disk 17 rotatory, one side welded connection of rotary disk 17 has two auxiliary rods 18.

In this embodiment, auxiliary disc 19 is installed in the right side welding of rotation driving seat 11, ring channel 20 has been seted up to one side of auxiliary disc 19, the one end of two auxiliary rods 18 all is located ring channel 20, two auxiliary rods 18 all with ring channel 20 sliding connection, mounting flange 21 is installed in the right side welding of rotary disk 17, mounting device 22 is equipped with on mounting flange 21's right side, rotating electrical machines 23 is installed in the front side welding of rotation driving seat 11, rotating electrical machines 23's output shaft and actuating lever 13 welded connection, rotating electrical machines 23's output shaft can drive actuating lever 13 welded connection.

In this embodiment, telescopic machanism includes two pole cylinders 25, hydraulic pressure two poles 26 and connecting plate 27, has seted up third cavity 24 in the lift seat 8, and two pole cylinders 25 are located third cavity 24, and two pole cylinders 25 locate on the bottom chamber wall of third cavity 24, and hydraulic pressure two poles 26 are located the right side of lift seat 8, and hydraulic pressure two poles 26 is connected with two pole cylinders 25.

In this embodiment, the connecting plate 27 is located at one end of the hydraulic double-rod 26, the connecting plate 27 is welded to one end of the hydraulic double-rod 26, the rotary driving seat 11 is disposed on the right side of the connecting plate 27, and the rotary driving seat 11 is welded to the connecting plate 27.

In this embodiment, the auxiliary mechanism includes an auxiliary sliding seat 28, a sliding plate 29 and an auxiliary connecting plate 30, the auxiliary sliding seat 28 and the auxiliary connecting plate 30 are located on the right side of the bottom seat 1, the auxiliary sliding seat 28 is connected to the bottom seat 1 in a welding manner, the sliding plate 29 is connected to the auxiliary sliding seat 28 in a sliding manner, the auxiliary connecting plate 30 is connected to the sliding plate 29 in a welding manner, and one end of the auxiliary connecting plate 30 is connected to the connecting plate 27 in a welding manner.

The difference between the second embodiment and the first embodiment is that: the auxiliary connecting plate 30 is driven to move when the connecting plate 27 moves, the auxiliary connecting plate 30 drives the auxiliary sliding seat 28 to slide, the sliding plate 29 and the auxiliary connecting plate 30 play a stable role in indirectly rotating the driving seat 11 and the mounting equipment 22, all structures in the application can be selected according to actual use conditions, the attached drawings are schematic structural diagrams, and the specific actual size can be properly adjusted.