COMPOSITE EMBEDDED-POLE AND OPERATING PRINCIPLES

Abstract

This invention involves composite embedded-pole and its operating principles, including an insulating cylinder which has upper and lower cavities, and one of its ends tightly connects a sealed cap. As for the upper cavity, there is an outlet block on the left end, a spacing-set pair of static conductive blocks which bond with each other in the middle, and a grounding block on the right. Parts of the left static conductive block inserts into the left of the lower cavity. The lead screw in the upper cavity is for rotary location with one end stretching out the sealed cap. The lead screw, spirally connects with moving contact set that matches with outlet block, static conductive block, and grounding block forming a 3-bonding-position. There is a vacuum interrupter in the lower cavity, whose static contact bonding with the left static conductive block, and the outer end of the moving contact flexibly couples with the left of the insulating pull rod. What's more, the flexible coupling bonds with one end of the lower outlet rod which is embedded in the lower part of the insulating cylinder. The right end of insulating pull rod stretches out the sealed cap while operating. This invention of EP is suitable for switchgears, with small volume, convenient and reliable installation and operation.

Claims

1. A kind of composite EP, including 3-position disconnector earthing switch and components of VI, with characteristics of: The 3-position disconnector earthing switch and components of VI mentioned above are parallelly set in a same insulating cylinder (1), which has upper (101) and lower (102) cavities. The 3-position disconnector earthing switch is in the upper cavity, and VI is in the lower cavity. Right ends of the two cavities are both open and connect with a same sealed cap (19). There is an outlet block (8) on the left end of the upper cavity, a pair of spacing-set static conductive blocks in the middle, i.e. the left static conductive block (3) and the right static conductive block (4), bonding with conductive board (2) inserted in the walls of the upper cavity. The right end is equipped with grounding block (18). The upper cavity is also equipped with a rotary lead screw (5) for location with its right end stretching out of the sealed cap. The lead screw, spirally connect with a moving contact set (7), which is located in the upper cavity. The moving contact set has directional linear motion with outlet block, static conductive block and earthing block and while rotating along with the lead screw, axial motion makes it reach 3 positions: moving contact set bonding with outlet block reaches disconnecting closing position with the left static conductive block; moving contact set bonding with two static conductive blocks, reaches disconnecting opening position; moving contact set bonding with the right static conductive block, reaches earthing closing position with grounding block. The lower cavity has VI (13) and insulating pull rod (22). And lower end of the left static conductive block mentioned above inserts into the left end of the lower cavity, and fixedly bonds with the static contact (14) of VI. The outer end of moving contact of VI fixedly connects with the left end of the insulating pull rod, by matching with flexible coupling which bonds with one end of the lower outlet rod (17). The right end of the insulating pull rod stretches out of the sealed cap.

2. The composite EP in claims 1, its characteristics are as followings: there is insulating driving nut (6) fastened in the moving contact set (7). The lead screw (5) and the driving nut compose screw pair for spiral transmission. And the material of lead screw is insulating.

3. The composite EP in claims 1, its characteristics are as followings: located in the left end of the upper cavity (101), the bearing block (9) and the inner bore of the sealed cap (19) is installed with deep groove ball bearings (10) that are used to locate the two ends of lead screw (5).

4. The composite EP in claims 1, its characteristics are as followings: there are spring contacts (11) embedded in the grooves where moving contact sets (7) separately touches with outlet block (8), static conductive block, grounding block (18).

5. The composite EP in claims 1, its characteristics are as followings: the lead screw (5), insulating pull rod (22) and sealed cap (19) are tightened by skeleton seal rings (20).

6. The composite EP in claims 1, its characteristics are as followings: the insulating pull rod (22) and the moving contact (15) are threaded connected, with one end of flexible coupling (16) locked and fastened in the joint of thread, and the other end fastened with the lower outlet rod (17) by bolt.

7. The composite EP in claims 1, its operating principles are as followings: rotate the lead screw (5) clockwise or counterclockwise to make the moving contact sets (7) linearly motion. While the moving contact sets reach to the left end of the upper cavity (101), they are bonding with the outlet block (8) and the left static conductive block (3); while they are in the middle of the upper cavity, they are bonding with the two static conductive blocks; while they are at the right end of the upper cavity, they are bonding with the right static conductive block (4) and the grounding block (18). These three bonding locations realize the functions of the 3-position disconnector earthing switch. By exogenic forces, the insulating pull rod (22) is able to make the moving contact (15) and static contact (14) of VI (13) close or open, and then using the lower outlet rod (17) make the main switch locate in closing or opening position.

8. The operating principles of composite EP in claims 7, its characteristics are as followings: the 3-position disconnector earthing switch, applied as 2-position disconnector switch and VI components or earthing switch and VI components, all includes in the 3-position disconnector earthing switch and VI components.

Description

INSTRUCTIONS FOR DRAWINGS

[0015] FIG. 1 is the internal structure when it is located in disconnecting and closing position.

[0016] FIG. 2 is the internal structure when it is located in disconnecting and opening position.

[0017] FIG. 3 is the internal structure when it is located in earthing and closing position.

[0018] FIG. 4 is the dimensional structure.

MODE OF EXECUTION

[0019] Further descriptions for the invention with drawings: Just as FIG. 1 to FIG. 4 illustrated, the main body of this composite EP is an insulating cylinder (1), which can be divided into two parallel and spacing-set cavities, i.e. the upper cavity (101) and the lower cavity (102). The right ends of both cavities are open, and sealed to join with sealed cap (19). The internal structures of the composite EP are as followings: the left end of the upper cavity is embedded with bearing block (9) and outlet block (8) and the two are fastened with bolts. There is deep groove ball bearing (10) in the bearing block. In the middle of the upper cavity separately set a pair of static conductive blocks, i.e. the left static conductive block (3) and the right static conductive block (4). The two electrically connect by the conductive board (2) embedded in the upper cavity wall. The right end embeds the grounding block. The bore is equipped with the deep groove ball bearing which has the same axis with the deep groove ball bearing mentioned above.

[0020] In the upper cavity, there is an insulating lead screw (5), whose left end is located with the deep groove ball bearing that is on the left of the upper cavity. The right end of the lead screw is located with the deep groove ball bearing which is set in the upper side of the sealed cap in the right end of the upper cavity, and stretches out of the sealed cap. The lead screw and the sealed cap are tightened by skeleton seal ring (20). The lead screw and insulating driving nut (6) compose screw pair, and the driving nut and the inner wall of moving contact set are located and fastened. The moving contact set travel in directional linear motion with outlet block, static conductive block and grounding block and the joining grooves between the moving contact set and them are embedded with spring contacts (11). While rotating along with the lead screw, axial motion makes it reach 3 positions: moving contact set bonding with outlet block reaches disconnecting and closing position along with the left static conductive block; moving contact set bonding with two static conductive blocks reaches disconnecting and opening position; moving contact set bonding with the right static conductive block reaches earthing and closing position along with grounding block.

[0021] The lower cavity is fitted with VI (13), including static contact (14) and moving contact (15), and insulating pull rod (22). The lower end of the left static conductive block is embedded in the left end of the lower cavity and electrically connects with the left end of static contact by the fixed block (12). The outer end of moving contact stretches out VI and threaded connects with insulating pull rod. The threaded joint locks and fastens with one end of flexible coupling (16), while the other end is fastened and electrically connected with one end of the lower outlet rod (17) embedded in the lower part of insulating cylinder by bolts. The right end of the insulating pull rod reaches out of the sealed cap and the two operate and match by skeleton seal ring (20) and sleeve (21).

[0022] To illustrate the operating processes, we will put these 3 processes as examples: disconnecting closing, disconnecting opening, and earthing closing.

[0023] First of all, set the VI in opening and keep the main switch off before any switchover of positions. When it reaches any position, such as disconnecting closing, disconnecting opening, or earthing closing, set the VI in closing or opening position.

[0024] For example, when it is in the disconnecting closing as FIG. 1, if you want to set it in disconnecting opening operation, set the VI in opening, which means that separate the moving contact from static contact, and then rotate the lead screw. The lead screw will force the moving contact set move till put the two static conductive blocks electrically connect result in reaching the condition as FIG. 2.

[0025] When it is in the disconnecting opening condition as FIG. 2 shows, if you want to make the main switch close, a disconnecting closing operation is the first thing to do. Rotate the lead screw which leads the moving contact set move until it leads to an electrical connection between outlet block and the left static conductive block. By exogenic forces, the insulating pull rod is able to make the moving contact and static contact close, which accomplishes disconnecting closing operation and reaches the condition of FIG. 1.

[0026] When it is in the disconnecting opening position, if you want to run an earthing closing operation, first rotate the lead screw, which leads the moving contact set motion until the right static conductive block and grounding block are electrically connected. By exogenic forces, the insulating pull rod is able to make the moving contact and static contact close, which accomplishes earthing closing operation and reaches the condition of FIG. 3.

[0027] All the details above are to demonstrate the technological means of this invention, not to limit the technical scope. Besides, any improvement of this invention made by technicians of this domain applying public knowledge is also within the extent of this patent's right.