CN110932118A - Energy storage cabinet for ships - Google Patents

Abstract

The invention relates to the technical field of energy storage cabinet design, and discloses an energy storage cabinet for ships, which comprises a rectangular cabinet body and a door plate for closing the cabinet body, wherein the door plate is hinged with the cabinet body, a plurality of vertically arranged compartments are arranged in the cabinet body, a plurality of capacitor trays are arranged in each compartment in an up-and-down stacking manner, guide rails are arranged on two sides of each capacitor tray in the length direction of the compartment wall, the edges of the capacitor trays in the length direction are provided with flanges, the flanges are erected on the guide rails and can slide along the guide rails, the tail ends of the guide rails penetrating into the compartments are provided with pressing blocks for the capacitor trays to be inserted, each pressing block comprises an upward warping part with a distance from the surface of the guide rail, the distance is matched with the thickness of the flanges of the capacitor trays, and mounting blocks. The cabinet body is scientifically partitioned, so that the capacitor tray can be accommodated in the cabinet body as much as possible, the capacitor tray is fixed by the pressing block and the mounting block in a resultant force mode, and the capacitor tray is stably placed in the cabinet body.

Description

Energy storage cabinet for ships

Technical Field

The invention relates to the technical field of energy storage cabinet design, in particular to an energy storage cabinet for a ship.

Background

The energy storage cabinet for the ships is mainly used for storing the carrier with the ships of the capacitor and the control system thereof and other related electronic elements, and is an important component part of a large ship. The energy storage equipment is suitable for providing illumination and emergency fault power supply for ships and warships and is arranged at the bottom of the ships and warships.

The energy storage cabinet on the present ship is generally small in storage space, small in capacitance, not high in structural strength, not in standardized design, inconvenient in later maintenance and incapable of meeting the use requirements of large ship-based ships.

Disclosure of Invention

The invention solves the technical problem of overcoming the defects of the prior art and provides the energy storage cabinet which is reasonable in structure, large in installed capacity and suitable for large ships.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an energy storage cabinet for naval vessel, door plant including the rectangular bodily form cabinet body and the closed cabinet body, the door plant is articulated with the cabinet body, the internal a plurality of compartments that are vertical range that set up of cabinet, range upon range of a plurality of electric capacity trays of having arranged about every compartment is internal, the partition wall is at every electric capacity tray length direction both sides installation guide rail, electric capacity tray length direction border has the scrap (bridge), the scrap (bridge) erects on the guide rail and can follow the guide rail and slide, supply electric capacity tray male briquetting is installed to the guide rail end of going deep into the compartment, the briquetting includes the portion of sticking up that has the interval with the guide rail surface, interval and electric capacity tray scrap (bridge) thickness adaptation, the compartment export all is provided with installation piece fixed electric capacity.

Furthermore, the compartment is formed by a column partition cabinet body arranged in the height direction of the cabinet body, each compartment wall is provided with a plurality of columns distributed at intervals, and the guide rails are installed on the columns through fasteners.

Further, the door panel comprises sub-door panels for closing each compartment, and the opening and closing edges of the two sub-door panels of each two compartments are close to each other from the side face of the cabinet body.

Still further still, still include the stop gear who carries out the restriction to the sub-door plant angle that opens and shuts, stop gear includes the first spacing folded sheet that articulates in cabinet body bottom through the pivot and fixes the spacing folded sheet of second in sub-door plant bottom, set up rectangular shape recess in the second folded sheet, the regulation hole has been seted up to the tip that the pivot was kept away from to first spacing folded sheet, stop gear still includes the connecting piece that runs through rectangular shape recess and embedding regulation hole, the connecting piece can slide in rectangular shape recess along with the opening and shutting of sub-door plant.

Still further, be provided with a plurality of regulation holes on the first spacing folded sheet.

Still further, the connector is a bolt.

Furthermore, a circle of bent waterproof baffle is arranged at the closed position of each compartment outlet along the sub-door plate to prevent water from entering the cabinet body.

Furthermore, a circle of groove is arranged at the position where the sub-door panel is attached to the waterproof baffle, and a conductive sealing strip is arranged in the groove.

Further, the cabinet body is provided with a steel wire vibration isolation structure on the surface fixedly connected with the ship.

Compared with the prior art, the invention has the following beneficial effects:

1) the cabinet body is scientifically partitioned, so that a capacitor tray can be accommodated in the cabinet body as much as possible, the capacitor tray is fixed by a pressing block and an installation block in a combined manner and is stably placed in the cabinet body, and an upright post in the cabinet body is made of a square tube, so that the requirement on welding precision in the cabinet body can be met, and the structural strength of the cabinet body is effectively improved;

2) the limiting mechanism between the cabinet body and the sub-door plate can flexibly adjust the opening angle of the sub-door plate, and is simple and easy to operate;

3) a circle of conductive sealing strip is embedded at the inner edge of the sub-door panel and is used for buffering the sub-door panel and the upright post and preventing electromagnetic waves at the gap between the sub-door panel and the cabinet body from leaking, so that the electromagnetic shielding effect is achieved;

4) the steel wire vibration isolation structure is arranged at the bottom of the cabinet body, so that the swinging impact of the cabinet body in the starting operation process of the ship can be greatly reduced, and the vibration isolation and buffering effects are achieved.

Drawings

Fig. 1 is an appearance schematic diagram of an energy storage cabinet for ships according to embodiment 1;

fig. 2 is a schematic structural view of an internal column of the cabinet body of the energy storage cabinet for a ship according to embodiment 1;

fig. 3 is a schematic view of an internal structure of a cabinet body of the energy storage cabinet for a ship according to embodiment 1;

fig. 4 is a partial schematic view of the capacitor tray of embodiment 1 mounted on a rail;

FIG. 5 is a partial schematic view of a stopper mechanism according to embodiment 1;

fig. 6 is a partial schematic view of the arrangement of the conductive sealing rubber strip in embodiment 1.

Detailed Description

The present invention will be further described with reference to the following detailed description, wherein the drawings are provided for illustrative purposes only and are not intended to be limiting; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

As shown in fig. 1 to 4, an energy storage cabinet for a ship is provided, which includes a rectangular cabinet body 1 and a door panel of a closed cabinet body, the door panel is hinged with the cabinet body, a plurality of compartments 11 arranged vertically are arranged in the cabinet body 1, a plurality of capacitor trays 3 are arranged in each compartment in an up-and-down stacking manner, guide rails 4 with cross sections in L shapes are arranged on two sides of each capacitor tray 3 in the length direction of the compartment wall, the edges of the capacitor trays 3 in the length direction are provided with ledges 31, the ledges 31 are erected on the guide rails 4 and can slide along the guide rails, a pressing block 5 for inserting the capacitor trays is arranged at the tail end of the guide rail 4 penetrating into the compartment, the pressing block includes an upwarping part 51 with a distance with the surface of the guide rail 4, the distance is matched with the thickness of the ledges 31 of the capacitor trays, mounting blocks 6 are arranged at two ends of the compartment 11 in, the other end is connected with the end surface of the bottom of the capacitance tray.

The energy storage cabinet of this embodiment carries out scientific subregion to the cabinet body, can hold the electric capacity tray as far as possible in making it, and the electric capacity tray is fixed by briquetting and installation piece resultant of force, and is stable to be placed at the internal cabinet, and internal electric capacity tray mounting structure of cabinet is compact, arrange in order, and the outward appearance atmosphere is pleasing to the eye, the installation of being convenient for the wiring.

The guide rail 4 is made of 316L materials, the surface is passivated without painting, and the sliding wear and the marine climate environment corrosion are resisted.

The compartments 11 are formed by dividing the cabinet 1 by columns 12 arranged in the height direction of the cabinet, each compartment wall is provided with a plurality of columns distributed at intervals, and the guide rails 4 are installed on the columns 12 through fasteners. The stand is the partly of cabinet body skeleton, and cabinet body frame skeleton adopts square pipe to make, and the material is Q345E, and intensity, rigidity and welding are firm all can be improved by a wide margin, and welding deformation is little, and cabinet body shell adopts the sheet metal component to bend, reserves the interface that supplies the guide rail installation on the cabinet body skeleton, makes things convenient for the installation of electric capacity tray.

The door panel comprises sub-door panels 2 for closing each compartment 11, and the opening and closing edges of the two sub-door panels of each two compartments are close to each other from the side surface of the cabinet body. The sub-door plate is made of weather-resistant steel plates, so that marine climate environment corrosion to the product can be effectively reduced under the condition of ensuring the required strength.

For making the opening and shutting of sub-door plant controllable, prevent that adjacent sub-door plant from taking place to interfere between the board, still include the stop gear who carries out the restriction to sub-door plant 2 angle of opening and shutting, as shown in fig. 5, stop gear includes and articulates the spacing folded sheet 72 of the first spacing folded sheet 71 in cabinet body 1 bottom and the second of fixing the sub-door plant bottom through the pivot, set up rectangular shape recess 721 in the second folded sheet, regulation hole 711 has been seted up to the tip that the pivot was kept away from to first spacing folded sheet, stop gear still includes and runs through rectangular shape recess 721 and imbeds connecting piece 73 of regulation hole 711, connecting piece 73 can slide in rectangular shape recess 721 along with opening and shutting of sub-door plant.

Be provided with a plurality of regulation holes 711 on the first spacing folded sheet, can predetermine sub-door plant 2 opening angle through switching connecting piece 73 to different regulation holes in, also can freely adjust sub-door plant opening angle, connecting piece 73 is the bolt, adjusts and operation process simple and conveniently.

The inner space of the energy storage cabinet needs to be absolutely waterproof, in order to prevent water flow in a ship from entering the cabinet body 1, a circle of bent waterproof baffles 13 shown in figure 6 can be arranged at the closed position of the sub-door plate at the outlet of each compartment 11, and the waterproof baffles are made of stainless steel.

In addition, the door edge clearance position of sub-door plant has still adopted electromagnetic shield structure, specifically for on sub-door plant 2 with waterproof fender 13 laminating position department add round stainless steel recess 21, installation electrically conductive sealing strip 22 in the stainless steel recess, waterproof fender surface needs expose, sub-door plant 2 is when sealing the compartment, electrically conductive sealing strip 22 will carry out seamless crimping with the waterproof fender 13 that bends shape, make cabinet body 1 inside isolated with external shielding, prevent that the electromagnetic wave of sub-door plant 2 and the 1 gap department of the cabinet body from revealing.

Can store 40 electric capacity trays in the energy storage cabinet of this embodiment, the energy storage cabinet still generally can vacate some spaces 9 at electric capacity tray placement position top simultaneously and supply all kinds of supervisory equipment to deposit, and of course, these spaces also need set up the closed door and seal, prevent that rivers from getting into the internal storage that influences electric capacity tray of cabinet.

The cabinet body 1 is also provided with a steel wire vibration isolation structure 8 on the surface fixedly connected with the ship, which can play a role in vibration isolation and buffering and greatly reduce the swinging impact of the cabinet body in the process of starting and running the ship.

The energy storage cabinet has the advantages of large installed capacity, convenience in maintenance and use, reasonable structure arrangement and attractive appearance, and is suitable for being used as a carrier of relevant electronic elements of a large ship-based ship.

It should be understood that the above examples are only for clearly illustrating the technical solutions of the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (9)

1. The utility model provides an energy storage cabinet for naval vessel, a serial communication port, door plant including the rectangular bodily form cabinet body and the closed cabinet body, the door plant is articulated with the cabinet body, the internal compartment that is vertical range that sets up of cabinet, range upon range of the arranging has a plurality of electric capacity trays from top to bottom in every compartment, the compartment wall is at every electric capacity tray length direction both sides installation guide rail, electric capacity tray length direction border has the scrap (bridge), the scrap (bridge) is erect on the guide rail and can be followed the guide rail and slide, go deep into the terminal briquetting of installing of guide rail of compartment and supply electric capacity tray male, the briquetting includes the portion of upwarping that has the interval with the guide rail surface, interval and electric capacity tray scrap (bridge) thickness adaptation, the compartment export all is provided with installation piece fixed capacitance.

2. The energy storage cabinet for ships and warships according to claim 1, wherein the compartments are formed by upright-divided cabinets arranged in the height direction of the cabinets, each compartment wall is provided with a plurality of spaced-apart uprights, and the guide rails are mounted on the uprights through fasteners.

3. The energy storage cabinet for ships and warships according to claim 2, wherein the door panel comprises sub-door panels for closing each compartment, and the opening and closing edges of two sub-door panels of every two compartments are close to each other from the side surface of the cabinet body.

4. The energy storage cabinet for the ship and warship of claim 3, further comprising a limiting mechanism for limiting the opening and closing angle of the sub-door panel, wherein the limiting mechanism comprises a first limiting folding plate hinged to the bottom of the cabinet body through a rotating shaft and a second limiting folding plate fixed to the bottom of the sub-door panel, a long strip-shaped groove is formed in the second folding plate, an adjusting hole is formed in the end portion, away from the rotating shaft, of the first limiting folding plate, the limiting mechanism further comprises a connecting piece penetrating through the long strip-shaped groove and embedded into the adjusting hole, and the connecting piece can slide in the long strip-shaped groove along with the opening and closing of the.

5. The energy storage cabinet for ships and warships according to claim 4, wherein the first limiting folding plate is provided with a plurality of adjusting holes.

6. The energy storage cabinet for ships and warships of claim 4, wherein the connecting piece is a bolt.

7. The energy storage cabinet for ships and warships of claim 3, wherein each compartment outlet is provided with a circle of bent waterproof baffle along the closed part of the sub-door plate, and the bent waterproof baffle prevents water from entering the cabinet body.

8. The energy storage cabinet for the ship and warship of claim 7, wherein a circle of groove is arranged at the position where the sub-door panel is attached to the waterproof barrier, a conductive sealing strip is installed in the groove, and the conductive sealing strip is in seamless compression joint with the waterproof barrier along with the closing of the sub-door panel.

9. The energy storage cabinet for a ship of claim 1, wherein the cabinet body is provided with a steel wire vibration isolation structure on a surface fixedly connected with the ship.

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