CN219018682U - Bidirectional energy storage converter cabinet - Google Patents
Bidirectional energy storage converter cabinet Download PDFInfo
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- CN219018682U CN219018682U CN202223516760.7U CN202223516760U CN219018682U CN 219018682 U CN219018682 U CN 219018682U CN 202223516760 U CN202223516760 U CN 202223516760U CN 219018682 U CN219018682 U CN 219018682U
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- sliding
- energy storage
- rotating
- sleeve
- storage converter
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/16—Mechanical energy storage, e.g. flywheels or pressurised fluids
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Abstract
The utility model discloses a bidirectional energy storage converter cabinet, comprising: the cabinet body the internal portion of cabinet is provided with an energy storage converter subassembly, and is provided with a dead lever on the inner wall of this cabinet body one side, and a spout has all been seted up to the upper surface, the lower surface of this dead lever, and this spout supplies a reason line subassembly slidable mounting that has the slider, sliding connection between spout and the slider, reason line subassembly further includes: the energy storage converter comprises a rotating sleeve and a sliding sleeve, wherein the rotating sleeve and the sliding sleeve are of cylindrical structures, a wire slot is formed in one side of the sliding sleeve, a rotating slot is formed in one side of the rotating sleeve, the rotating sleeve is sleeved inside the sliding sleeve, and a cable of the energy storage converter assembly is positioned inside the rotating sleeve and the sliding sleeve. The utility model can uniformly store the cables, improves the uniformity of cable distribution in the cabinet body, and greatly improves the convenience of personnel operation and maintenance.
Description
Technical Field
The utility model relates to the technical field of electrical equipment, in particular to a bidirectional energy storage converter cabinet.
Background
Because electric energy is difficult to store, in the traditional power production, power generation, transmission, distribution and electricity consumption are almost carried out at the same time, and a power grid ensures real-time balance of the electric energy through a dispatching means; with the rise of new energy, the micro-grid is developed in a large scale, but the instability and the discontinuity of output power exist in the new energy power generation, the disadvantage of unbalanced supply and demand of electric power is easy to cause, and the phenomenon of unstable voltage can occur; the energy storage converter is used as a power balance device and a standby power supply, can be used for various application occasions needing dynamic energy storage, stores the electric energy when the electric energy is surplus, inverts the stored electric energy when the electric energy is insufficient, and outputs the electric energy to a power grid, so that the related problems can be effectively solved.
However, in the actual use process of the conventional bidirectional energy storage converter cabinet, continuous power supply is required for voltage stabilization energy storage or transportation, so that the number of wires in the conventional bidirectional energy storage converter cabinet is large, and the wires in the conventional bidirectional energy storage converter cabinet are limited only by using binding wires, so that the wires fixed by the protruding binding wires still bring trouble to staff in the later detection and maintenance process, and are very inconvenient.
Disclosure of Invention
The utility model aims to provide a bidirectional energy storage converter cabinet which can uniformly store cables, improves the uniformity of cable distribution in the cabinet body and greatly improves the convenience of personnel operation and maintenance.
In order to achieve the above purpose, the utility model adopts the following technical scheme: a bi-directional energy storage converter cabinet comprising: the energy storage converter comprises a cabinet body, wherein an energy storage converter component is arranged in the cabinet body, a fixing rod is arranged on the inner wall of one side of the cabinet body, a sliding groove is formed in the upper surface and the lower surface of the fixing rod, the sliding groove is used for sliding installation of a wire arranging component with a sliding block, and the sliding groove is in sliding connection with the sliding block;
the wire management assembly further includes: the energy storage converter comprises a rotating sleeve and a sliding sleeve, wherein the rotating sleeve and the sliding sleeve are of cylindrical structures, a wire slot is formed in one side of the sliding sleeve, a rotating slot is formed in one side of the rotating sleeve, the rotating sleeve is sleeved inside the sliding sleeve, and a cable of the energy storage converter assembly is positioned inside the rotating sleeve and the sliding sleeve.
The further improved scheme in the technical scheme is as follows:
1. in the scheme, connecting plates are fixedly connected to two sides of the rotating groove, and sliding holes for embedding and installing the sliding sleeve are formed between the connecting plates and the outer wall of the rotating sleeve.
2. In the scheme, a stop block is arranged on one side of the wire arranging assembly and sleeved with the fixing rod, the stop block is in sliding connection with the two sliding grooves, and a rotating hole is formed in the stop block and is used for screwing a rotating button into the fixing hole.
3. In the scheme, a rotary groove is formed in the surface of one side, close to the sliding sleeve, of the fixing rod, and the rotary button is matched with the rotary groove.
4. In the scheme, the rotary button is provided with a cone block for being screwed into the rotary groove, and the outer surface of the cone block is carved with threads.
Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:
the utility model relates to a bidirectional energy storage converter cabinet, which is characterized in that the upper surface and the lower surface of a fixed rod arranged on the inner wall of a cabinet body are respectively provided with a chute, the chute is used for sliding installation of a wire arranging component with a sliding block, the chute is in sliding connection with the sliding block, a rotating sleeve and a sliding sleeve are both in a cylindrical structure, one side of the sliding sleeve is provided with a wire slot, one side of the rotating sleeve is provided with a rotating slot, the rotating sleeve is sleeved in the sliding sleeve, a cable of the energy storage converter component is positioned in the rotating sleeve and the sliding sleeve, the cable is uniformly accommodated in the sliding sleeve, the disordered cable in the converter can be uniformly planned and accommodated, the wire arranging component can be regulated and moved on a moving component, and the convenience of personnel operation and maintenance is greatly improved while the distribution uniformity of the cable in the cabinet body is improved.
Drawings
FIG. 1 is a schematic diagram of the overall structure of a bidirectional energy storage converter cabinet of the present utility model;
fig. 2 is a schematic structural diagram of a wire management assembly of the bidirectional energy storage converter cabinet of the present utility model;
FIG. 3 is a schematic structural view of a sliding sleeve of the bidirectional energy storage converter cabinet of the present utility model;
fig. 4 is a schematic structural diagram of a rotor sleeve of the bidirectional energy storage converter cabinet of the present utility model;
fig. 5 is a schematic structural view of a knob of the bidirectional energy storage converter cabinet of the present utility model.
In the above figures: 100. a cabinet body; 200. a stop block; 201. a turning hole; 300. a fixed rod; 301. a rotary groove; 302. a chute; 400. a rotating sleeve; 401. a rotary groove; 402. a connecting plate; 403. a slide hole; 600. a sliding sleeve; 601. a wire slot; 602. a slide block; 700. a rotary knob; 701. a cone block; 702. a thread; 800. an electrical component; 900. and (5) a wire arranging assembly.
Detailed Description
The present patent will be further understood by the specific examples given below, which are not intended to be limiting.
Example 1: a bi-directional energy storage converter cabinet comprising: the cabinet body 100, an energy storage converter assembly 800 is arranged in the cabinet body 100, a fixed rod 300 is arranged on the inner wall of one side of the cabinet body 100, a sliding groove 302 is formed in the upper surface and the lower surface of the fixed rod 300, the sliding groove 302 is used for sliding installation of a wire arranging assembly 900 with a sliding block 602, and the sliding groove 302 is in sliding connection with the sliding block 602;
the wire management assembly 900 further includes: the rotary sleeve 400 and the sliding sleeve 600 are of cylindrical structures, a wire slot 601 is formed in one side of the sliding sleeve 600, a rotary slot 401 is formed in one side of the rotary sleeve 400, the rotary sleeve 400 is sleeved inside the sliding sleeve 600, and a cable of the energy storage converter assembly 800 is located inside the rotary sleeve 400 and the sliding sleeve 600.
A connecting plate 402 is fixedly connected to the two sides of the rotating groove 401, and a sliding hole 403 for embedding and installing the sliding sleeve 600 is formed between the connecting plate 402 and the outer wall of the rotating sleeve 400.
The stop block 200 is connected with the fixing rod 300 in a sleeved mode and is positioned at one side of the wire arranging assembly 900, the stop block 200 is connected with the two sliding grooves 302 in a sliding mode, a rotating hole 201 is formed in the stop block 200, and the rotating hole 201 is used for screwing a rotating button 700 into the rotating hole for installation; the surface of the fixing rod 300, which is close to one side of the sliding sleeve 600, is provided with a rotary groove 301, and the rotary knob 700 is matched with the rotary groove 301.
The sliding sleeve 600 and the rotating sleeve 400 rotate coaxially.
Firstly, the wire arranging component is moved to a proper position, then the stop block is sleeved outside the fixing rod, the stop block is moved to a proper position, then the rotary knob is rotated, the rotary knob rotates to enter the rotary groove, and the conical block is arranged in a conical manner, so that the rotary knob rotates to be placed in the rotary groove until the threads on the surface of the conical block are clamped with the rotary groove, and then the stop block is fixed, so that the wire arranging device is blocked and fixed.
Example 2: an electrical cabinet, comprising: the cabinet body 100, an energy storage converter assembly 800 is arranged in the cabinet body 100, a fixed rod 300 is arranged on the inner wall of one side of the cabinet body 100, a sliding groove 302 is formed in the upper surface and the lower surface of the fixed rod 300, the sliding groove 302 is used for sliding installation of a wire arranging assembly 900 with a sliding block 602, and the sliding groove 302 is in sliding connection with the sliding block 602;
the wire management assembly 900 further includes: the energy storage converter comprises a rotating sleeve 400 and a sliding sleeve 600, wherein the rotating sleeve 400 and the sliding sleeve 600 are of cylindrical structures, a wire slot 601 is formed in one side of the sliding sleeve 600, a rotating slot 401 is formed in one side of the rotating sleeve 400, the rotating sleeve 400 is sleeved in the sliding sleeve 600, and a cable of the energy storage converter assembly 800 is positioned in the rotating sleeve 400 and the sliding sleeve 600;
the rotating sleeve is stirred firstly to enable the rotating sleeve to rotate in the sliding sleeve until the rotating groove is aligned with the wire groove, then the cable can be placed between the rotating sleeve and the rotating sleeve through the rotating groove and the wire groove, then the connecting plate is stirred, the rotating sleeve is driven to rotate until the rotating groove and the wire groove are staggered, and the cable cannot easily slide out of the rotating groove and the wire groove, so that the cables can be unified, and the cables can be arranged and placed, so that the cable arrangement, maintenance and replacement of workers are facilitated.
A connecting plate 402 is fixedly connected to the two sides of the rotating groove 401, and a sliding hole 403 for embedding and installing the sliding sleeve 600 is formed between the connecting plate 402 and the outer wall of the rotating sleeve 400.
The above-mentioned block 200 is located at one side of the wire arranging assembly 900 and is connected with the fixing rod 300 in a sleeved mode, the block 200 is slidably connected with the two sliding grooves 302, and the block 200 is provided with a rotating hole 201, and the rotating hole 201 is used for screwing a rotating button 700 into and installing.
The surface of the fixing rod 300, which is close to one side of the sliding sleeve 600, is provided with a rotary groove 301, and the rotary knob 700 is matched with the rotary groove 301.
The knob 700 has a tapered block 701 for screwing into the screw 301, and the outer surface of the tapered block 701 is threaded 702.
The working principle of the utility model is as follows:
firstly, the rotating sleeve is stirred to rotate in the sliding sleeve until the rotating groove is aligned with the wire groove, then the cable can be put between the rotating sleeve and the rotating sleeve through the rotating groove and the wire groove, then the connecting plate is stirred to drive the rotating sleeve to rotate until the rotating groove and the wire groove are staggered, so that the cable cannot easily slide out of the rotating groove and the wire groove, the cables can be unified, and the cables can be arranged and put, so that the cable arrangement, maintenance and replacement of workers are facilitated;
firstly, the wire arranging component is moved to a proper position, then the stop block is sleeved outside the fixing rod, the stop block is moved to a proper position, then the rotary knob is rotated, the rotary knob rotates to enter the rotary groove, and the conical block is arranged in a conical manner, so that the rotary knob rotates to be placed in the rotary groove until the threads on the surface of the conical block are clamped with the rotary groove, and then the stop block is fixed, so that the wire arranging device is blocked and fixed.
When adopting above-mentioned two-way energy storage converter cabinet, it is through accomodating the cable in unison and put inside the sliding sleeve, can carry out unified planning, accomodate the inside messy cable of converter, can also adjust the removal with reason line subassembly on moving the subassembly, when improving cabinet internal portion cable distribution regularity, also improved personnel's operation, maintenance's convenience greatly.
The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.
Claims (5)
1. A bi-directional energy storage converter cabinet comprising: cabinet body (100), its characterized in that: an energy storage converter assembly (800) is arranged in the cabinet body (100), a fixed rod (300) is arranged on the inner wall of one side of the cabinet body (100), a sliding groove (302) is formed in the upper surface and the lower surface of the fixed rod (300), the sliding groove (302) is used for sliding installation of a wire arranging assembly (900) with a sliding block (602), and the sliding groove (302) is in sliding connection with the sliding block (602);
the wire management assembly (900) further includes: the energy storage converter comprises a rotating sleeve (400) and a sliding sleeve (600), wherein the rotating sleeve (400) and the sliding sleeve (600) are of cylindrical structures, a wire slot (601) is formed in one side of the sliding sleeve (600), a rotating slot (401) is formed in one side of the rotating sleeve (400), the rotating sleeve (400) is sleeved inside the sliding sleeve (600), and a cable of the energy storage converter assembly (800) is located inside the rotating sleeve (400) and the sliding sleeve (600).
2. A bi-directional energy storage converter cabinet according to claim 1, characterized in that: a connecting plate (402) is fixedly connected to two sides of the rotating groove (401), and a sliding hole (403) for embedding and installing the sliding sleeve (600) is formed between the connecting plate (402) and the outer wall of the rotating sleeve (400).
3. A bi-directional energy storage converter cabinet according to claim 1 or 2, characterized in that: a stop block (200) is sleeved and connected with the fixed rod (300) and positioned at one side of the wire arranging assembly (900), the stop block (200) is in sliding connection with the two sliding grooves (302), the stop block (200) is provided with a rotating hole (201), and the rotating hole (201) is used for screwing a rotating button (700) into the rotating hole.
4. A bi-directional energy storage converter cabinet according to claim 3, wherein: a rotary groove (301) is formed in the surface, close to the sliding sleeve (600), of the fixing rod (300), and the rotary button (700) is matched with the rotary groove (301).
5. The bi-directional energy storage converter cabinet of claim 4, wherein: the knob (700) has a conical block (701) for screwing into the screw groove (301), the outer surface of the conical block (701) being threaded (702).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202223516760.7U CN219018682U (en) | 2022-12-28 | 2022-12-28 | Bidirectional energy storage converter cabinet |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202223516760.7U CN219018682U (en) | 2022-12-28 | 2022-12-28 | Bidirectional energy storage converter cabinet |
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Publication Number | Publication Date |
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CN219018682U true CN219018682U (en) | 2023-05-12 |
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CN202223516760.7U Active CN219018682U (en) | 2022-12-28 | 2022-12-28 | Bidirectional energy storage converter cabinet |
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CN (1) | CN219018682U (en) |
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- 2022-12-28 CN CN202223516760.7U patent/CN219018682U/en active Active
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