CN216868043U - Control equipment for improving deep peak regulation capability of power plant - Google Patents

Abstract

The utility model provides control equipment for improving the deep peak shaving capacity of a power plant, which comprises a unit peak shaving control screen, a transverse guide rail, a side guide rail, a connecting support frame structure, a voltage display, a monitoring display, a data wire, a high-definition camera, a top protective shell, a lens cleaning frame structure, a facing rotating frame structure, a side fixing frame, a direction adjusting motor, a transverse transmission rod and a rotating motor, wherein the transverse guide rail is respectively connected to the upper part and the lower part of the unit peak shaving control screen through screws; the side guide rails are respectively connected to the left side and the right side of the unit peak regulation control screen through screws. The arrangement of the side mounting plate, the dovetail type sliding groove, the transverse guide rail and the side guide rail is beneficial to mounting the side mounting plate on the outer side of the unit peak regulation control screen through the mutual matching of the dovetail type sliding groove, the transverse guide rail and the side guide rail, and different monitoring components can be clamped on the outer side of the unit peak regulation control screen according to actual requirements.

Description

Control equipment for improving deep peak regulation capability of power plant

Technical Field

The utility model belongs to the technical field of power plant deep peak regulation, and particularly relates to control equipment for improving the power plant deep peak regulation capability.

Background

A hydraulic power plant is a plant which converts potential energy and kinetic energy of water into electric energy, and the basic production process of the hydraulic power plant is as follows: water is drawn from a river high place or other reservoirs, the water turbine is driven to rotate by the pressure or the flow velocity of water, gravitational potential energy and kinetic energy are converted into mechanical energy, then the water turbine drives the generator to rotate, the mechanical energy is converted into electric energy, when the deep peak regulation is carried out on the generator set, the water quantity and the water level need to be checked, and the peak regulation is carried out according to actual conditions.

However, the existing control equipment for improving the deep peak regulation capability of the power plant also has the problems that during regulation, workers need to check the water quantity on the spot, and the lens is easy to stand and drop water, so that the lens is fuzzy, and various components cannot be additionally installed according to actual conditions.

Therefore, it is necessary to develop a control device for improving the deep peak shaving capability of the power plant.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a control device for improving the deep peak regulation capability of a power plant, wherein the control device is realized by the following technical scheme:

a control device for improving the deep peak shaving capacity of a power plant comprises a unit peak shaving control screen, a transverse guide rail, a side guide rail, a connecting support frame structure, a voltage display, a monitoring display, a data wire, a high-definition camera, a top protective shell, a lens cleaning frame structure, a direction rotating frame structure, a side fixing frame, a direction adjusting motor, a transverse transmission rod and a rotating motor, wherein the transverse guide rail is respectively connected to the upper part and the lower part of the unit peak shaving control screen through screws; the side guide rails are respectively connected to the left side and the right side of the unit peak regulation control screen through screws; the connecting support frame structure is arranged on the outer side of the side guide rail; the voltage display and the monitoring display are respectively arranged on the inner side of the connecting support frame structure; one end of the data wire is connected with the monitoring display, and the other end of the data wire is connected with the high-definition camera; the top protective shell is connected to the upper part of the high-definition camera through a bolt; the lens cleaning frame structure is arranged on the left side inside the top protection shell; the orientation rotating frame structure is arranged at the lower part of the high-definition camera; the side fixing frame is arranged on the right side facing the rotating frame structure; the direction-adjusting motor is connected to the left upper part of the front end of the side fixing frame through a screw; the transverse transmission rod is connected to the front end of the top protective shell in a shaft mode; the rotary motor is connected to the right side of the front end of the top protective shell through a bolt.

Preferably, the output shaft of the rotating motor is connected with the right coupling of the transverse transmission rod, and the output shaft of the direction-adjusting motor penetrates through the inner side of the side fixing frame.

Preferably, the voltage display is arranged on the left side of the unit peak regulation control screen, and the monitoring display is arranged on the right side of the unit peak regulation control screen.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the arrangement of the side mounting plate, the dovetail type sliding groove, the transverse guide rail and the side guide rail is beneficial to mounting the side mounting plate on the outer side of the unit peak shaving control screen through the mutual matching of the dovetail type sliding groove, the transverse guide rail and the side guide rail, and different monitoring components can be clamped on the outer side of the unit peak shaving control screen according to actual requirements.

2. In the utility model, the arrangement of the bottom positioning plate and the dovetail-shaped clamping groove is beneficial to respectively additionally arranging the voltage display and the monitoring display at the outer side of the peak regulation control screen of the unit by the mutual matching of the bottom positioning plate and the side mounting plate, so that redundant supports are not needed, and the disassembly of the peak regulation control screen is convenient.

3. According to the utility model, the arrangement of the locking bolt is beneficial to adjusting the distance of the locking bolt at the inner side of the bottom positioning plate after the locking bolt is rotated, and the side mounting plate is fixed at the outer side of the unit peak regulation control screen through extrusion force.

4. According to the utility model, the arrangement of the rectangular sliding seat and the hard rubber scraper is beneficial to enabling the rectangular sliding seat to drive the hard rubber scraper to move back and forth, the hard rubber scraper cleans water drops on the left side of the high-definition camera, and the lens on the high-definition camera is ensured to be always clean.

5. According to the utility model, the arrangement of the movable roller is beneficial to the fact that when the rectangular sliding seat moves, the movable roller rolls along with the movement of the rectangular sliding seat, the friction between the rectangular sliding seat and the top protective shell is reduced when the rectangular sliding seat moves, and the rectangular sliding seat is prevented from rotating.

6. According to the utility model, the arrangement of the thread moving rod and the small bevel gear is beneficial to matching with a threaded hole on the inner side of the rectangular sliding seat, so that the small bevel gear drives the thread moving rod to rotate, and the rectangular sliding seat is driven to move back and forth.

7. According to the utility model, the arrangement of the mounting bearing, the T-shaped rotating shaft, the conical transmission assembly and the adjusting motor is beneficial to enabling the adjusting motor to drive the T-shaped rotating shaft to rotate through the conical transmission assembly, so that the horizontal orientation of the lens of the high-definition camera is adjusted.

8. According to the utility model, the arrangement of the connecting cylindrical table, the fixed rotating shaft and the direction-adjusting motor is beneficial to adjusting the lens of the high-definition camera in the vertical direction, so that the water level and the water quantity can be remotely monitored by matching with the monitoring display.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic structural view of the connecting support frame structure of the present invention.

Fig. 3 is a schematic structural diagram of a lens cleaning frame structure according to the present invention.

Fig. 4 is a structural schematic view of the structure of the orientation rotating frame of the present invention.

In the figure:

1. a unit peak regulation control screen; 2. a transverse guide rail; 3. a side rail; 4. connecting a support frame structure; 41. a side mounting plate; 42. a dovetail-shaped chute; 43. a bottom positioning plate; 44. dovetail slots; 45. locking the bolt; 5. a voltage display; 6. monitoring the display; 7. a data conductor; 8. a high-definition camera; 9. a top protective shell; 10. a lens cleaning frame structure; 101. a rectangular sliding seat; 102. moving the roller; 103. a hard rubber scraper; 104. a threaded travel bar; 105. a small bevel gear; 11. towards the rotating gantry structure; 111. connecting the cylindrical table; 112. fixing the rotating shaft; 113. mounting a bearing; 114. a T-shaped rotating shaft; 115. a conical drive assembly; 116. an adjustment motor; 12. a side fixing frame; 13. a direction-adjusting motor; 14. a transverse transmission rod; 15. a rotary motor.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1 and fig. 2, a control device for improving the depth peak shaving capability of a power plant comprises a unit peak shaving control screen 1, a transverse guide rail 2, a side guide rail 3, a connecting support frame structure 4, a voltage display 5, a monitoring display 6, a data wire 7, a high-definition camera 8, a top protective shell 9, a lens cleaning frame structure 10, a facing rotating frame structure 11, a side fixing frame 12, a steering motor 13, a transverse transmission rod 14 and a rotating motor 15, wherein the transverse guide rail 2 is respectively connected to the upper part and the lower part of the unit peak shaving control screen 1 through screws; the side guide rails 3 are respectively connected to the left side and the right side of the unit peak regulation control screen 1 through screws; the connecting support frame structure 4 is arranged on the outer side of the side guide rail 3; the voltage display 5 and the monitoring display 6 are respectively arranged on the inner side of the connecting support frame structure 4; one end of the data wire 7 is connected with the monitoring display 6, and the other end of the data wire is connected with the high-definition camera 8; the top protective shell 9 is connected to the upper part of the high-definition camera 8 through a bolt; the lens cleaning frame structure 10 is arranged on the left side inside the top protective shell 9; the orientation rotating frame structure 11 is arranged at the lower part of the high-definition camera 8; the side fixing frame 12 is arranged at the right side facing the rotating frame structure 11; the direction-adjusting motor 13 is connected to the left upper part of the front end of the side fixing frame 12 through a screw; the transverse transmission rod 14 is coupled to the front end of the top protective shell 9; the rotating motor 15 is connected to the right side of the front end of the top protective shell 9 through a bolt; the connecting support frame structure 4 comprises a side mounting plate 41, a dovetail sliding groove 42, a bottom positioning plate 43, a dovetail clamping groove 44 and a locking bolt 45, wherein the dovetail sliding groove 42 is formed in the right side of the inside of the side mounting plate 41; the bottom positioning plate 43 is integrally arranged at the lower part of the side mounting plate 41; the dovetail-shaped clamping groove 44 is formed in the right side inside the bottom positioning plate 43; the locking bolt 45 is in threaded connection with the inner side of the bottom positioning plate 43; the side mounting plate 41 is hung to the outside of the side rail 3, and then the lock bolt 45 is rotated to tighten the lock bolt 45 to the side of the cross rail 2.

As shown in fig. 3, in the above embodiment, specifically, the lens cleaning frame structure 10 includes a rectangular sliding base 101, a moving roller 102, a hard rubber scraper 103, a threaded moving rod 104 and a small bevel gear 105, wherein the moving roller 102 is coupled to an upper portion of the rectangular sliding base 101; the hard rubber scraper 103 is glued to the lower part of the rectangular sliding seat 101; the thread moving rod 104 is connected to the inner side of the rectangular sliding seat 101 in a thread way; the small bevel gears 105 are provided in two and meshed with each other; the transverse transmission rod 14 drives the threaded moving rod 104 to rotate through the small bevel gear 105, and the hard rubber scraper 103 is driven to move back and forth on the left side of the high-definition camera 8 through the threaded moving rod 104 and the rectangular sliding seat 101.

As shown in fig. 4, in the above embodiment, specifically, the facing rotating frame structure 11 includes a connecting cylindrical table 111, a fixed rotating shaft 112, a mounting bearing 113, a T-shaped rotating shaft 114, a conical transmission assembly 115 and an adjusting motor 116, where the fixed rotating shaft 112 is respectively bolted to the front end and the rear end of the middle position of the connecting cylindrical table 111; the outer ring of the mounting bearing 113 is embedded in the middle position of the inner side of the connecting cylindrical table 111; the T-shaped rotating shaft 114 is connected with the inner ring of the mounting bearing 113 in an interference manner; the conical transmission assembly 115 is connected to the lower part of the T-shaped rotating shaft 114 and the left side of the output shaft of the adjusting motor 116 in an interference manner; the adjusting motor 116 is connected to the right side of the lower part of the connecting cylindrical table 111 through screws; the direction-adjusting motor 13 drives the connecting cylindrical table 111 to rotate through the fixed rotating shaft 112, and the adjusting motor 116 drives the T-shaped rotating shaft 114 to rotate through the conical transmission assembly 115, so as to control the orientation of the lens of the high-definition camera 8.

In the above embodiment, specifically, the left side of the locking bolt 45 extends to the inner left side of the dovetail-shaped slot 44, and the right side of the locking bolt 45 abuts against the left side of the side rail 3 and the position of the side mounting plate 41.

In the above embodiment, specifically, the voltage indicator 5 and the monitor indicator 6 are respectively bolted to the corners of the side mounting plate 41 and the bottom positioning plate 43.

In the above embodiment, specifically, the side guide rail 3 is inserted into the inner sides of the dovetail sliding groove 42 and the dovetail groove 44, so as to facilitate installation of other components.

In the above embodiment, specifically, the small bevel gear 105 is respectively connected to the front end of the screw moving rod 104 and the left side of the transverse transmission rod 14 in an interference manner.

In the above embodiment, specifically, the moving roller 102 is attached to the upper left inside of the top protective shell 9, so as to reduce the wear at the friction position.

In the above embodiment, in particular, the threaded moving rod 104 is coupled to the inner left side of the top shield 9.

In the above embodiment, specifically, the right side of the hard rubber scraper 103 is closely attached to the left side of the high definition camera 8.

In the above embodiment, specifically, the connecting cylindrical table 111 is inserted into the upper left portion of the inner side of the side fixing frame 12.

In the above embodiment, specifically, the front end of the fixed rotating shaft 112 is coupled to the output shaft of the steering motor 13.

In the above embodiment, specifically, the upper portion of the T-shaped rotating shaft 114 is connected to the lower portion of the high definition camera 8 by a bolt.

In the above embodiment, specifically, the conical transmission assembly 115 is disposed at the lower part of the connecting cylindrical table 111.

Principle of operation

In the utility model, when in use, the voltage display 5 and the monitoring display 6 are respectively arranged on the side surface of the side surface mounting plate 41, then the side surface mounting plate 41 is hung on the outer side of the side surface guide rail 3, then the locking bolt 45 is rotated to enable the locking bolt 45 to be screwed on the side surface of the transverse guide rail 2 to fix the side surface mounting plate 41, the direction adjusting motor 13 and the adjusting motor 116 are controlled to rotate by the monitoring display 6, the direction adjusting motor 13 drives the connecting cylindrical table 111 to rotate through the fixed rotating shaft 112, the adjusting motor 116 drives the T-shaped rotating shaft 114 to rotate through the conical transmission assembly 115, thereby controlling the orientation of the lens of the high-definition camera 8 to remotely monitor the water level and the water quantity, then the peak value of the generator set is adjusted through the set peak adjusting control screen 1 according to actual conditions, the output shaft of the rotating motor 15 drives the transverse transmission rod 14 to rotate, the transverse transmission rod 14 drives the thread moving rod 104 to rotate through the small bevel gear 105, the hard rubber scraper 103 is driven to move back and forth on the left side of the high-definition camera 8 through the threaded moving rod 104 and the rectangular sliding seat 101, and water drops and sundries on the outer side of the lens are cleaned.

The technical solutions of the present invention or those skilled in the art, based on the teachings of the technical solutions of the present invention, are designed to achieve the above technical effects, and all of them fall into the protection scope of the present invention.

Claims (6)

1. The control equipment for improving the deep peak shaving capability of the power plant is characterized by comprising a unit peak shaving control screen (1), a transverse guide rail (2), a side guide rail (3), a connecting support frame structure (4), a voltage display (5), a monitoring display (6), a data wire (7), a high-definition camera (8), a top protective shell (9), a lens cleaning frame structure (10), a facing rotating frame structure (11), a side fixing frame (12), a steering motor (13), a transverse transmission rod (14) and a rotating motor (15), wherein the transverse guide rail (2) is respectively in screwed connection with the upper part and the lower part of the unit peak shaving control screen (1); the side guide rails (3) are respectively connected to the left side and the right side of the unit peak regulation control screen (1) through screws; the connecting support frame structure (4) is arranged on the outer side of the side guide rail (3); the voltage display (5) and the monitoring display (6) are respectively arranged on the inner side of the connecting support frame structure (4); one end of the data wire (7) is connected with the monitoring display (6), and the other end of the data wire is connected with the high-definition camera (8); the top protective shell (9) is connected to the upper part of the high-definition camera (8) through a bolt; the lens cleaning frame structure (10) is arranged on the left side inside the top protective shell (9); the orientation rotating frame structure (11) is arranged at the lower part of the high-definition camera (8); the side fixing frame (12) is arranged on the right side facing the rotating frame structure (11); the direction-adjusting motor (13) is connected to the left upper part of the front end of the side fixing frame (12) through a screw; the transverse transmission rod (14) is coupled to the front end of the top protective shell (9) in a shaft mode; the rotary motor (15) is connected to the right side of the front end of the top protective shell (9) through a bolt; the connecting support frame structure (4) comprises a side mounting plate (41), a dovetail-shaped sliding groove (42), a bottom positioning plate (43), a dovetail-shaped clamping groove (44) and a locking bolt (45), wherein the dovetail-shaped sliding groove (42) is formed in the right side of the inside of the side mounting plate (41); the bottom positioning plate (43) is integrally arranged at the lower part of the side mounting plate (41); the dovetail-shaped clamping groove (44) is formed in the right side inside the bottom positioning plate (43); the locking bolt (45) is in threaded connection with the inner side of the bottom positioning plate (43).

2. The control equipment for improving the depth peak shaving capability of the power plant according to claim 1, wherein the lens cleaning frame structure (10) comprises a rectangular sliding seat (101), a moving roller (102), a hard rubber scraper (103), a threaded moving rod (104) and a small bevel gear (105), wherein the moving roller (102) is coupled to the upper part of the rectangular sliding seat (101) in a shaft mode; the hard rubber scraper (103) is glued to the lower part of the rectangular sliding seat (101); the thread moving rod (104) is in threaded connection with the inner side of the rectangular sliding seat (101); the small bevel gears (105) are provided in two and meshed with each other.

3. The control equipment for improving the depth peak-shaving capability of the power plant according to claim 1, characterized in that the orientation rotating frame structure (11) comprises a connecting cylindrical table (111), a fixed rotating shaft (112), a mounting bearing (113), a T-shaped rotating shaft (114), a conical transmission assembly (115) and an adjusting motor (116), wherein the fixed rotating shaft (112) is respectively bolted at the front end and the rear end of the middle position of the connecting cylindrical table (111); the outer ring of the mounting bearing (113) is embedded in the middle position of the inner side of the connecting cylindrical table (111); the T-shaped rotating shaft (114) is connected to the inner ring of the mounting bearing (113) in an interference manner; the conical transmission assembly (115) is connected to the lower part of the T-shaped rotating shaft (114) and the left side of an output shaft of the adjusting motor (116) in an interference manner; the adjusting motor (116) is connected to the right side of the lower part of the connecting cylindrical table (111) through screws.

4. The control equipment for improving the power plant depth peaking capability of claim 1, wherein a left side of the locking bolt (45) extends to an inner left side of the dovetail-shaped slot (44), and a right side of the locking bolt (45) abuts against a left side of the side rail (3).

5. The control equipment for improving the depth peaking capability of a power plant according to claim 1, wherein the voltage display (5) and the monitor display (6) are respectively bolted at the included angles of the side mounting plate (41) and the bottom positioning plate (43).

6. The control equipment for improving the power plant depth peaking capability of claim 1, wherein the side rails (3) are inserted inside the dovetail-shaped sliding grooves (42) and the dovetail-shaped clamping grooves (44).

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