CN220791414U - Mounting structure of wind power plant energy management controller - Google Patents

Abstract

The utility model discloses a mounting structure of an energy management controller of a wind power plant, wherein the energy management controller of the wind power plant is fixedly mounted on an energy management controller mounting rack through a first standard fastener, and a mounting adjusting plate is fixedly mounted on a cabinet body through a second standard fastener; the energy management controller installation frame and the installation adjusting plate are respectively provided with an installation frame sliding adjusting hole and an adjusting plate sliding adjusting hole which are mutually corresponding, and a third standard fastener is inserted into the installation frame sliding adjusting hole and the adjusting plate sliding adjusting hole to realize the fixed installation connection between the energy management controller installation frame and the installation adjusting plate; the utility model is suitable for the installation requirements of different wind power plant energy management controllers on different cabinet bodies, can flexibly meet the upgrading and reconstruction requirements of the wind power plant energy management controllers, reduces the reconstruction cost, can keep the original wiring and layout of the cabinet bodies, simplifies the installation construction conditions, and ensures that the installation construction process is faster and more convenient.

Description

Mounting structure of wind power plant energy management controller

Technical Field

The utility model belongs to the field of variable pitch systems of wind generating sets, and particularly relates to a mounting structure of an energy management controller of a wind power plant.

Background

With the improvement of the control precision and other requirements of the power grid on the energy management system of the wind power plant, the pitch system of the wind generating set has higher requirements on the parameters of the core component PLC of the energy management system, in particular, new requirements on the operation parameters of the energy management PLC are put forward, the existing energy management controller hardware cannot meet the requirements, and the energy management controller hardware needs to be modified and replaced. The current energy management controller mounting structure is difficult to directly realize the installation transformation, and the work progress is comparatively complicated.

Based on the long-term concentrated research of the applicant and the research team of the applicant in the field of wind power generation control, a technical scheme is determined to be sought to solve the technical problems.

Disclosure of Invention

Therefore, the utility model aims to provide a mounting structure of the energy management controller of the wind power plant, which is suitable for the mounting requirements of different energy management controllers of the wind power plant on different cabinet bodies, can flexibly meet the upgrading and reconstruction requirements of the energy management controller of the wind power plant, reduces the reconstruction cost, can keep the original wiring and layout of the cabinet bodies, simplifies the mounting construction conditions, and ensures that the mounting construction process is faster and more convenient.

For this purpose, the utility model adopts the following technical scheme:

the installation structure of the wind power plant energy management controller is characterized in that the wind power plant energy management controller is fixedly installed on an energy management controller installation frame through a first standard fastener, and an installation adjusting plate is fixedly installed on a cabinet body through a second standard fastener; the energy management controller installation frame and the installation adjusting plate are respectively provided with an installation frame sliding adjusting hole and an adjusting plate sliding adjusting hole which correspond to each other, and a third standard fastener is inserted into the installation frame sliding adjusting hole and the adjusting plate sliding adjusting hole to realize the fixed installation connection between the energy management controller installation frame and the installation adjusting plate.

Preferably, the mounting frame of the energy management controller is provided with at least 4 mounting frame sliding adjusting holes which are distributed at intervals, and each mounting frame sliding adjusting hole is respectively correspondingly provided with 1 mounting adjusting plate; and each installation adjusting plate is provided with an adjusting plate sliding adjusting hole corresponding to the mounting frame sliding adjusting hole.

Preferably, the adjusting plate sliding adjusting holes comprise left adjusting plate sliding adjusting hole units and right adjusting plate sliding adjusting hole units which are distributed at intervals left and right; the installation frame sliding adjusting holes are selectively fastened and installed with left adjusting plate sliding adjusting hole units or right adjusting plate sliding adjusting hole units on the corresponding installation adjusting plates through third standard fasteners.

Preferably, the energy management controller mounting frame comprises a first mounting plate surface and a second mounting plate surface which are connected into a whole, wherein the energy management controller is fixedly mounted on the first mounting plate surface through a first standard fastener, and 1 or more mounting frame sliding adjusting holes are formed in the second mounting plate surface.

Preferably, a mounting frame included angle is formed between the first mounting plate surface of the mounting frame and the second mounting plate surface of the mounting frame, and the mounting frame included angle is not equal to 0 degrees.

Preferably, the mounting bracket includes an angle of 90 ° or about 90 °.

Preferably, the installation regulating plate comprises a regulating plate first installation plate surface and a regulating plate second installation plate surface which are connected into a whole, wherein 1 or more regulating plate sliding regulating holes are formed in the regulating plate first installation plate surface, and the regulating plate second installation plate surface is fixedly installed on the cabinet body through a third standard fastener.

Preferably, an adjusting plate included angle is formed between the first adjusting plate surface and the second adjusting plate surface, and the adjusting plate included angle is not equal to 0 degree; and an included angle is formed between the first installation plate surface of the adjusting plate and the first installation plate surface of the installation rack, and the included angle is not equal to 0 degrees.

Preferably, the adjustment plate angle is 90 ° or about 90 °; and the included angle is 90 or about 90. Preferably, the mounting frame sliding adjusting hole and the adjusting plate sliding adjusting hole are waist-shaped grooves.

According to the utility model, the energy management controller mounting frame and the mounting adjusting plate structure of the wind power plant are arranged as a cabinet body for realizing that the energy management controller of the wind power plant is quickly and conveniently mounted on the pitch system of the wind power generator set, and when the wind power plant is actually mounted, the energy management controller of the wind power plant is fixedly mounted on the energy management controller mounting frame through a standard fastener, and the mounting adjusting plate is fixedly mounted on the cabinet body through the standard fastener; simultaneously set up the installation frame slip regulation hole and the regulation board slip regulation hole that correspond each other respectively on energy management controller mounting bracket and installation regulating plate, install standard fastener in installation frame slip regulation hole and regulation board slip regulation hole and realize slidable formula fixed mounting connection effect between energy management controller mounting bracket and the installation regulating plate, be applicable to the installation demand of different wind-powered electricity generation field energy management controllers on different cabinets body, can satisfy the upgrading transformation demand of wind-powered electricity generation field energy management controllers in a flexible way, reduce transformation cost, and can keep the original wiring and the overall arrangement of the cabinet body, simplify the installation construction condition, make the installation work progress more convenient fast.

Drawings

FIG. 1 is a schematic diagram of an installation structure of an energy management controller of a wind farm according to an embodiment of the present application;

FIG. 2 is a cross-sectional view taken along the direction A-A of FIG. 1;

FIG. 3 is a schematic view of the structure of an energy management controller mount according to an embodiment of the present application;

FIG. 4 is a side view of FIG. 3;

FIG. 5 is a top view of FIG. 3;

FIG. 6 is a schematic view of a structure for mounting an adjusting plate according to an embodiment of the present application;

FIG. 7 is a side view of FIG. 6;

fig. 8 is a bottom view of fig. 6.

Detailed Description

The embodiment of the utility model discloses a mounting structure of an energy management controller of a wind power plant, wherein the energy management controller of the wind power plant is fixedly mounted on an energy management controller mounting rack through a first standard fastener, and a mounting adjusting plate is fixedly mounted on a cabinet body through a second standard fastener; wherein, be equipped with the installation frame slip regulation hole and the regulation board slip regulation hole that correspond each other on energy management controller mounting bracket and the installation regulating plate respectively, install the fixed mounting connection between energy management controller mounting bracket and the installation regulating plate in installation frame slip regulation hole and the regulation board slip regulation hole intubate dress third standard fastener.

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

Referring to fig. 1 and 2, a wind farm energy management controller 1 is fixedly installed on an energy management controller installation frame 3 through a first standard fastener 21, and an installation adjusting plate 4 is fixedly installed on a cabinet body 5 (specifically, fixedly installed on an inner wall of the cabinet body 5) through a second standard fastener 22; wherein, be equipped with the installation frame sliding adjustment hole 31 and the regulating plate sliding adjustment hole 41 that correspond each other on energy management controller mounting bracket 3 and the installation regulating plate 4 respectively, insert third standard fastener 23 in installation frame sliding adjustment hole 31 and regulating plate sliding adjustment hole 41 and realize the fixed mounting connection between energy management controller mounting bracket 3 and the installation regulating plate 4.

Preferably, in this embodiment, at least 4 mounting bracket sliding adjustment holes 31 (4 are shown in fig. 2, in other embodiments, the number of the mounting bracket sliding adjustment holes may be selected according to the actual size of the energy management controller mounting bracket 3) are provided on the energy management controller mounting bracket 3, so as to facilitate quick installation and reduce the size of the mounting adjustment plate, in this embodiment, each mounting bracket sliding adjustment hole 31 is correspondingly configured with 1 mounting adjustment plate 4, and specifically includes a first mounting adjustment plate 4a, a second mounting adjustment plate 4b, a third mounting adjustment plate 4c and a fourth mounting adjustment plate 4d; wherein, each installation adjusting plate 4a,4b,4c,4d is provided with an adjusting plate sliding adjusting hole 41 corresponding to the mounting frame sliding adjusting hole 31;

further preferably, in order to further facilitate the quick installation effect, in the present embodiment, the regulation plate sliding regulation hole 41 includes left and right regulation plate sliding regulation hole units 41a and 41b which are distributed at left and right intervals; wherein, the mounting bracket sliding adjusting hole 31 is selectively fastened and mounted with the left adjusting plate sliding adjusting hole unit 41a or the right adjusting plate sliding adjusting hole unit 41b on the corresponding mounting adjusting plate through the third standard fastener 23; particularly preferably, in the present embodiment, the mount sliding adjustment hole 31, the left adjustment plate sliding adjustment hole unit 41a, and the right adjustment plate sliding adjustment hole unit 41b each employ a waist-shaped groove.

Preferably, as further shown in fig. 3, 4 and 5, in order to facilitate the installation layout in the cabinet 5, in this embodiment, the energy management controller installation frame 3 includes an installation frame first installation plate surface 3a and an installation frame second installation plate surface 3b that are integrally connected, where the energy management controller 3 is fixedly installed on the installation frame first installation plate surface 3a through a first standard fastener 21, and 4 installation frame sliding adjustment holes are provided on the installation frame second installation plate surface 3b, which are respectively a first installation frame sliding adjustment hole 31a, a second installation frame sliding adjustment hole 31b, a third installation frame sliding adjustment hole 31c and a fourth installation frame sliding adjustment hole 31c; preferably, in order to further facilitate the installation layout effect in the cabinet 5, in this embodiment, an installation frame included angle is formed between the installation frame first installation plate surface 3a and the installation frame second installation plate surface 3b, and the installation frame included angle is not equal to 0 °; further preferably, in this embodiment, the mounting angle is 90 ° or about 90 ° (the mounting angle in this embodiment is 90 ° and is vertical); it should be noted that "about 90 ° throughout this application refers to approximately 90 °, and may specifically refer to an included angle ranging from 90 ° ± 3 °.

Preferably, as further shown in fig. 6, 7 and 8, in order to facilitate the installation layout in the cabinet 5, in this embodiment, each of the installation adjusting plates 4a,4b,4c,4d includes an adjusting plate first installation plate surface 61 and an adjusting plate second installation plate surface 62 that are integrally connected, wherein the adjusting plate first installation plate surface 61 is provided with left adjusting plate sliding adjusting hole units 41a and right adjusting plate sliding adjusting hole units 41b that are distributed at intervals left and right, and the adjusting plate second installation plate surface 62 is fixedly installed on the cabinet 5 by the third standard fastener 23; preferably, in order to further facilitate the installation layout effect in the cabinet 5, in this embodiment, an adjusting plate included angle is formed between the adjusting plate first installation plate surface 61 and the adjusting plate second installation plate surface 62, and the adjusting plate included angle is not equal to 0 °; an included angle is formed between the first mounting plate surface 61 of the adjusting plate and the first mounting plate surface 3a of the mounting frame, and the included angle is not equal to 0 degree; further preferably, in this embodiment, the adjusting plate angle is 90 ° or about 90 ° (the adjusting plate angle in this example is 90 °, in a vertical shape); and the included angle is 90 or about 90 (in this embodiment, the included angle is 90, and is vertical).

Preferably, in this embodiment, the second mounting plate surface 62 of the adjusting plate is provided with mounting holes 62a, and in order to achieve the convenient mounting effect, it is particularly preferable that in this embodiment, the mounting holes 62a also use a waist-shaped groove.

In the embodiment, the structure of the energy management controller mounting frame 3 and the mounting adjusting plate 4 is arranged to realize that the wind power plant energy management controller 1 is quickly and conveniently mounted on the cabinet body 5 of the pitch system of the wind generating set, and when in actual mounting, the wind power plant energy management controller 1 is fixedly mounted on the energy management controller mounting frame 3 through the standard fastener 21, and the mounting adjusting plate 4 is fixedly mounted on the cabinet body 5 through the standard fastener 23; simultaneously set up the installation frame slip regulation hole 31 and the regulating plate slip regulation hole 41 that correspond each other respectively on energy management controller mounting bracket 3 and installation regulating plate 4, install standard fastener 22 in installation frame slip regulation hole 31 and regulating plate slip regulation hole 41 and realize the slidable fixed mounting connection effect between energy management controller mounting bracket 3 and the installation regulating plate 4, be applicable to the installation demand of different wind-powered electricity generation field energy management controllers 1 on different cabinets body 5, can satisfy the upgrading transformation demand of wind-powered electricity generation field energy management controllers 1 in a flexible way, reduce transformation cost, and can keep the original wiring and the overall arrangement of cabinet body 5, simplify the installation construction condition, make the installation work progress more convenient fast.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. The installation structure of the wind power plant energy management controller is characterized in that the wind power plant energy management controller is fixedly installed on an energy management controller installation frame through a first standard fastener, and an installation adjusting plate is fixedly installed on a cabinet body through a second standard fastener; the energy management controller installation frame and the installation adjusting plate are respectively provided with an installation frame sliding adjusting hole and an adjusting plate sliding adjusting hole which correspond to each other, and a third standard fastener is inserted into the installation frame sliding adjusting hole and the adjusting plate sliding adjusting hole to realize the fixed installation connection between the energy management controller installation frame and the installation adjusting plate.

2. The installation structure of the wind power plant energy management controller according to claim 1, wherein the installation frame of the energy management controller is provided with at least 4 installation frame sliding adjusting holes which are distributed at intervals, and each installation frame sliding adjusting hole is respectively and correspondingly provided with 1 installation adjusting plate; and each installation adjusting plate is provided with an adjusting plate sliding adjusting hole corresponding to the mounting frame sliding adjusting hole.

3. The mounting structure of the wind farm energy management controller according to claim 2, wherein the adjusting plate sliding adjusting holes include left and right adjusting plate sliding adjusting hole units distributed at left and right intervals; the installation frame sliding adjusting holes are selectively fastened and installed with left adjusting plate sliding adjusting hole units or right adjusting plate sliding adjusting hole units on the corresponding installation adjusting plates through third standard fasteners.

4. The mounting structure of a wind farm energy management controller of claim 1, wherein the energy management controller mounting rack comprises a first mounting plate surface and a second mounting plate surface which are integrally connected, wherein the energy management controller is fixedly mounted on the first mounting plate surface through the first standard fastener, and 1 or more mounting rack sliding adjusting holes are formed in the second mounting plate surface.

5. The mounting structure of a wind farm energy management controller according to claim 4, wherein a mounting bracket included angle is formed between the first mounting plate surface of the mounting bracket and the second mounting plate surface of the mounting bracket, and the mounting bracket included angle is not equal to 0 °.

6. A wind farm energy management controller mounting structure according to claim 5, wherein the mounting bracket comprises an angle of 90 ° or about 90 °.

7. The mounting structure of a wind farm energy management controller according to claim 4, wherein the mounting adjustment plate comprises an adjustment plate first mounting plate surface and an adjustment plate second mounting plate surface which are integrally connected, wherein the adjustment plate first mounting plate surface is provided with 1 or more adjustment plate sliding adjustment holes, and the adjustment plate second mounting plate surface is fixedly mounted on the cabinet body through a third standard fastener.

8. The mounting structure of a wind farm energy management controller according to claim 7, wherein an adjusting plate included angle is formed between the adjusting plate first mounting plate surface and the adjusting plate second mounting plate surface, and the adjusting plate included angle is not equal to 0 °; and an included angle is formed between the first installation plate surface of the adjusting plate and the first installation plate surface of the installation rack, and the included angle is not equal to 0 degrees.

9. The mounting structure for a wind farm energy management controller according to claim 8, wherein the adjustment plate angle is 90 ° or about 90 °; and the included angle is 90 or about 90.

10. The mounting structure of a wind farm energy management controller according to claim 1, wherein the mounting bracket sliding adjustment holes and the adjustment plate sliding adjustment holes each employ a kidney-shaped slot.