CN209496072U - A kind of acquisition equipment for active distribution network load prediction data - Google Patents
A kind of acquisition equipment for active distribution network load prediction data Download PDFInfo
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- CN209496072U CN209496072U CN201822254242.XU CN201822254242U CN209496072U CN 209496072 U CN209496072 U CN 209496072U CN 201822254242 U CN201822254242 U CN 201822254242U CN 209496072 U CN209496072 U CN 209496072U
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- gear
- detection device
- distribution network
- network load
- prediction data
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Abstract
The utility model discloses a kind of acquisition equipment for active distribution network load prediction data, including pedestal, No.1 gear, solar panels and detection device, the pedestal upper center is provided with support rod, and support rod forward upper is rotatablely connected rotating bar middle and lower part by No.1 shaft, is provided with automatic telescopic between the rotating bar lower end and pedestal upper end left side and adjusts bar assembly.The utility model can drive No. two gear rotations by motor, No. two gears drive No.1 gear to rotate again, the lifting of control screw rod under the cooperation that the No.1 gear of rotation passes through threaded hole and sliding block, it is rotated centered on No.1 shaft to control rotating bar, and then controls the lifting of detection device;When the appropriate height of detection device decline, service personnel can be detached from the card slot in detection device by fixture block when pressing motion bar lower part, then will test device and directly extract from fixing sleeve, thus easy to operate, easy access or with substitution detector.
Description
Technical field
The utility model relates to a kind of acquisition equipment, specifically a kind of acquisition for active distribution network load prediction data
Equipment.
Background technique
Traditional power collecting device is usually to be carried out to power by instance sample, and distribution network load fluctuation is larger, this
The method of sampling will affect load prediction precision, and lack weather information.The whole meteorological data in area is more coarse, Bu Nengbiao
Show the weather information of specific load position.
Existing data acquisition equipment needs to fix aloft, could obtain accurate data, but in maintenance or more exchange device
When, it has not been convenient to it dismantles, often time-consuming very long, working efficiency is low.Therefore, those skilled in the art provide a kind of for actively
The acquisition equipment of distribution network load prediction data, to solve the problems mentioned in the above background technology.
Summary of the invention
The purpose of this utility model is to provide a kind of acquisition equipment for active distribution network load prediction data, with solution
Certainly the problems mentioned above in the background art.
To achieve the above object, the utility model provides the following technical solutions:
A kind of acquisition equipment for active distribution network load prediction data, including pedestal, No.1 gear, solar panels and
Detection device, the pedestal upper center is provided with support rod, and support rod forward upper is turned by the rotation connection of No.1 shaft
It is provided with automatic telescopic between on the left of lever middle and lower part, the rotating bar lower end and pedestal upper end and adjusts bar assembly, it is described automatic
Telescopic adjustment bar assembly includes casing, No.1 gear, screw rod, sliding block, motor and No. two gears, the rotation connection of described sleeve pipe upper end
No.1 gear, and screw rod is equipped in the middle part of No.1 gear, it is correspondingly arranged on threaded hole with screw rod in the middle part of the No.1 gear, it is described
Sliding block is provided in screw lower end setting of casing, No. two gears of engagement connection on the left of the No.1 gear, and No. two gear lower ends are set
It is equipped with motor.
Upper end is provided with solar panels on the left of the rotating bar, and rotating bar upper end is provided with transverse slat, the transverse slat upper end
Middle part is provided with fixing sleeve, and detection device is provided on the inside of fixing sleeve, and upper end is connected by No. three hinges on the right side of the fixing sleeve
Take over a job lever, and on the left of motion bar on the right side of lower end and fixing sleeve between be provided with spring, upper end is provided on the left of the motion bar
Fixture block, and card slot is correspondingly arranged on fixture block on the right side of detection device.
As a further solution of the present invention: the solar panels are electrically connected battery, and battery setting exists
On the right side of pedestal upper end, motor and detection device is electrically connected in the battery.
Upper and lower ends are symmetrically arranged with connection on the right side of the solar panels as a further solution of the present invention,
Bar, and the connecting rod other end connects rotating bar.
The motor upper center connects No. two gears by No. two shafts as a further solution of the present invention,
In the middle part of lower end, and fixed connecting sleeve left side upper end on the right side of motor.
The automatic telescopic adjusts bar assembly lower end and is connected by No.1 hinge as a further solution of the present invention,
It connects on the left of pedestal upper end, and automatic telescopic adjusts bar assembly upper end and connects rotating bar lower end by No. two hinges.
It is slidably connected on the inside of casing on the outside of the sliding block as a further solution of the present invention, the fixing sleeve
Inside is slidably connected lower end on the outside of detection device.
Upper end is provided with limit plate, and limit plate on front side of the support rod as a further solution of the present invention,
It is set as ramp-like configuration.
Compared with prior art, the utility model has the beneficial effects that
1, the utility model can drive No. two gear rotations by motor, and No. two gears drive No.1 gear to rotate again,
The lifting of control screw rod under the cooperation that the No.1 gear of rotation passes through threaded hole and sliding block, to control rotating bar with No.1 shaft
Centered on rotated, and then control detection device lifting;When the appropriate height of detection device decline, service personnel can be with
It is detached from the card slot in detection device by fixture block when pressing motion bar lower part, then will test device and directly extracted from fixing sleeve,
It is thus easy to operate, easy access or with substitution detector.
2, the solar panels being arranged in the utility model can convert solar energy into electrical energy, thus for motor and detection dress
Offer electric energy is provided, even if being not connected to exterior power supply in this way, the equipment is mounted on remote districts, is also able to carry out data acquisition work
Make.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of acquisition equipment for active distribution network load prediction data.
Fig. 2 is a kind of the schematic diagram of the section structure of acquisition equipment middle sleeve for active distribution network load prediction data.
Fig. 3 is a kind of cross-section structure signal of fixing sleeve in acquisition equipment for active distribution network load prediction data
Figure.
In figure: 1- pedestal, 2- support rod, 3- No.1 shaft, 4- rotating bar, 5- limit plate, 6- No.1 hinge, 7- casing,
8- No.1 gear, 801- threaded hole, 9- screw rod, 10- sliding block, 11- motor, No. bis- shafts of 12-, No. bis- gears of 13-, 14- bis-
Hinge, 15- connecting rod, 16- solar panels, 17- transverse slat, 18- fixing sleeve, 19- detection device, No. tri- hinges of 20-, 21- activity
Bar, 22- spring, 23- fixture block, 24- card slot, 25- battery.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Please refer to Fig. 1~3, in the utility model embodiment, a kind of acquisition for active distribution network load prediction data
Equipment, including pedestal 1, No.1 gear 8, solar panels 16 and detection device 19,1 upper center of pedestal are provided with support rod
2, and 2 forward upper of support rod is rotatablely connected 4 middle and lower part of rotating bar, 4 lower end of rotating bar and pedestal 1 by No.1 shaft 3
It is provided with automatic telescopic between on the left of upper end and adjusts bar assembly, it includes casing 7, No.1 gear that the automatic telescopic, which adjusts bar assembly,
8, screw rod 9, sliding block 10, motor 11 and No. two gears 13,7 upper end of described sleeve pipe are rotatablely connected No.1 gear 8, and No.1 gear 8
Middle part is equipped with screw rod 9, and 8 middle part of No.1 gear is correspondingly arranged on threaded hole 801 with screw rod 9, and 9 lower end of screw rod is trapped
Sliding block 10 is provided in pipe 7, No. two gears 13 of engagement connection on the left of the No.1 gear 8, and No. two 13 lower ends of gear are provided with
Motor 11.
The 4 left side upper end of rotating bar is provided with solar panels 16, and 4 upper end of rotating bar is provided with transverse slat 17, the cross
17 upper center of plate is provided with fixing sleeve 18, and detection device 19 is provided on the inside of fixing sleeve 18, on 18 right side of fixing sleeve
End connects motion bar 21 by No. three hinges 20, and is provided with spring between 18 right side of 21 left side lower end of motion bar and fixing sleeve
22, the 21 left side upper end of motion bar is provided with fixture block 23, and 19 right side of detection device is correspondingly arranged on card slot 24 with fixture block 23.
The solar panels 16 are electrically connected battery 25, and battery 25 is arranged on the right side of 1 upper end of pedestal, the electric power storage
Motor 11 and detection device 19 is electrically connected in pond 25.
The 16 right side upper and lower ends of solar panels are symmetrically arranged with connecting rod 15, and the connection rotation of 15 other end of connecting rod
Bar 4.
11 upper center of motor is connected in the middle part of No. two 13 lower ends of gear by No. two shafts 12, and solid on the right side of motor 11
Determine 7 left side upper end of connecting sleeve.
The automatic telescopic adjusts bar assembly lower end and is connected on the left of 1 upper end of pedestal by No.1 hinge 6, and automatic telescopic tune
Pole component upper end connects 4 lower end of rotating bar by No. two hinges 14.
Be slidably connected 7 inside of casing on the outside of the sliding block 10, is slidably connected outside detection device 19 on the inside of the fixing sleeve 18
Side lower end.
The 2 front side upper end of support rod is provided with limit plate 5, and limit plate 5 is set as ramp-like configuration.
The working principle of the utility model is:
The acquisition equipment for being used for active distribution network load prediction data can pass through motor 11 and drive No. two 13 turns of gear
Dynamic, No. two gears 13 drive No.1 gear 8 to rotate again, under cooperation of the No.1 gear 8 of rotation by threaded hole 801 and sliding block 10
The lifting for controlling screw rod 9, is rotated centered on No.1 shaft 3 to control rotating bar 4, and then controls detection device 19
Lifting;When the appropriate height that detection device 19 declines, service personnel can be de- by fixture block 23 when pressing 21 lower part of motion bar
From the card slot 24 in detection device 19, then it will test device 19 and directly extracted from fixing sleeve 18, it is thus easy to operate, it is convenient for
It overhauls or with substitution detector 19.
The solar panels 16 for being used to be arranged in the acquisition equipment of active distribution network load prediction data can be by solar energy
It is converted into electric energy, so that electric energy is provided for motor 11 and detection device 19, even if in this way, the equipment is mounted on remote districts, no
Exterior power supply is connected, data collection task is also able to carry out.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (7)
1. a kind of acquisition equipment for active distribution network load prediction data, including pedestal (1), No.1 gear (8), solar energy
Plate (16) and detection device (19), which is characterized in that pedestal (1) upper center is provided with support rod (2), and support rod
(2) forward upper is rotatablely connected rotating bar (4) middle and lower part, rotating bar (4) lower end and pedestal (1) by No.1 shaft (3)
It is provided with automatic telescopic between on the left of upper end and adjusts bar assembly, it includes casing (7), No.1 tooth that the automatic telescopic, which adjusts bar assembly,
(8), screw rod (9), sliding block (10), motor (11) and No. two gears (13) are taken turns, described sleeve pipe (7) upper end is rotatablely connected No.1 gear
(8), it and in the middle part of No.1 gear (8) is equipped with screw rod (9), is correspondingly arranged on screw thread with screw rod (9) in the middle part of the No.1 gear (8)
Hole (801), screw rod (9) the lower end setting of casing (7) is interior to be provided with sliding block (10), engagement connection on the left of the No.1 gear (8)
No. two gears (13), and No. two gear (13) lower ends are provided with motor (11);
Upper end is provided with solar panels (16) on the left of the rotating bar (4), and rotating bar (4) upper end is provided with transverse slat (17), institute
It states transverse slat (17) upper center to be provided with fixing sleeve (18), and is provided with detection device (19) on the inside of fixing sleeve (18), it is described solid
Upper end connects motion bar (21) by No. three hinges (20) on the right side of fixed set (18), and lower end and fixing sleeve on the left of motion bar (21)
(18) it is provided with spring (22) between right side, upper end is provided with fixture block (23) on the left of the motion bar (21), and detection device
(19) right side is correspondingly arranged on card slot (24) with fixture block (23).
2. a kind of acquisition equipment for active distribution network load prediction data according to claim 1, which is characterized in that
The solar panels (16) are electrically connected battery (25), and battery (25) setting is in pedestal (1) upper end right side, the electric power storage
Motor (11) and detection device (19) is electrically connected in pond (25).
3. a kind of acquisition equipment for active distribution network load prediction data according to claim 1, which is characterized in that
Upper and lower ends are symmetrically arranged with connecting rod (15) on the right side of the solar panels (16), and connecting rod (15) other end connects rotating bar
(4)。
4. a kind of acquisition equipment for active distribution network load prediction data according to claim 1, which is characterized in that
Motor (11) upper center is connected in the middle part of No. two gear (13) lower ends by No. two shafts (12), and solid on the right side of motor (11)
Determine upper end on the left of connecting sleeve (7).
5. a kind of acquisition equipment for active distribution network load prediction data according to claim 1, which is characterized in that
The automatic telescopic adjusts bar assembly lower end and is connected on the left of pedestal (1) upper end by No.1 hinge (6), and automatic telescopic adjusting rod
Component upper end connects rotating bar (4) lower end by No. two hinges (14).
6. a kind of acquisition equipment for active distribution network load prediction data according to claim 1, which is characterized in that
It is slidably connected on the inside of casing (7) on the outside of the sliding block (10), is slidably connected detection device (19) outside on the inside of the fixing sleeve (18)
Side lower end.
7. a kind of acquisition equipment for active distribution network load prediction data according to claim 1, which is characterized in that
Upper end is provided with limit plate (5) on front side of the support rod (2), and limit plate (5) is set as ramp-like configuration.
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CN201822254242.XU CN209496072U (en) | 2018-12-29 | 2018-12-29 | A kind of acquisition equipment for active distribution network load prediction data |
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CN201822254242.XU CN209496072U (en) | 2018-12-29 | 2018-12-29 | A kind of acquisition equipment for active distribution network load prediction data |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114183671A (en) * | 2021-11-08 | 2022-03-15 | 国网福建省电力有限公司漳州供电公司 | A erection equipment for distribution network load prediction |
CN114336611A (en) * | 2021-12-31 | 2022-04-12 | 杭州市电力设计院有限公司余杭分公司 | Active power distribution network load prediction data acquisition equipment |
-
2018
- 2018-12-29 CN CN201822254242.XU patent/CN209496072U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114183671A (en) * | 2021-11-08 | 2022-03-15 | 国网福建省电力有限公司漳州供电公司 | A erection equipment for distribution network load prediction |
CN114183671B (en) * | 2021-11-08 | 2024-02-27 | 国网福建省电力有限公司漳州供电公司 | Installation equipment for load prediction of power distribution network |
CN114336611A (en) * | 2021-12-31 | 2022-04-12 | 杭州市电力设计院有限公司余杭分公司 | Active power distribution network load prediction data acquisition equipment |
CN114336611B (en) * | 2021-12-31 | 2023-07-14 | 杭州市电力设计院有限公司余杭分公司 | Active power distribution network load prediction data acquisition equipment |
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