CN221215431U - Air duct structure of energy storage container - Google Patents

Abstract

The utility model discloses an air duct structure of an energy storage container, which belongs to the technical field of energy storage containers and comprises a plurality of air duct boxes, wherein the side surfaces of the air duct boxes are fixedly connected with one side corresponding to a connecting box, two mounting grooves are formed in the connecting box and the air duct boxes, connecting frames are fixedly connected in the two mounting grooves, and sliding grooves are formed in opposite surfaces of the two connecting frames. This energy storage container wind channel structure through setting up first slider, reciprocating screw, connecting piece, motor and first clean board, this wind channel mechanism can clear up the inner wall and the bottom of wind channel case at the in-process of using to avoid dust and impurity to pile up the condition that causes the damage to its internal element in the wind channel case, through clear up repeatedly in the wind channel case simultaneously, the effectual cleaning effect who guarantees this wind channel mechanism has also avoided dust and debris to block up the heating panel simultaneously, leads to the slower condition of heat transfer.

Description

Air duct structure of energy storage container

Technical Field

The utility model belongs to the technical field of energy storage containers, and particularly relates to an air duct structure of an energy storage container.

Background

The energy storage container integrates a battery cluster, a battery management system and the like in the container body, is an integrated energy storage device, can be suitable for power stations such as firepower, wind energy and solar energy or application occasions such as communities, schools, scientific research institutions, factories and large-scale load centers, and has a great influence on batteries and other electrical equipment in the battery cluster arranged in the container due to the internal environment temperature of the container in the working process of the energy storage container.

Chinese patent discloses an energy storage container cooling wind channel structure, bulletin number is CN213242660U, proposes "the upper end of L type wind channel case evenly is provided with a plurality of mounting holes and installs on the inside roof of energy storage container through the bolt, and two L type wind channel cases all set up between the inside energy storage electrical equipment of energy storage container and the lateral wall of energy storage container, the outside lower extreme on the longer limit of L type wind channel case all is provided with arc type structure, and a plurality of air outlets have evenly been seted up to the inboard lower extreme on the longer limit of L type wind channel case, and refrigerating plant" is all installed to the corner end inside of L type wind channel case, and current energy storage container is offered the heat dissipation window in its both sides and is dispelled the heat to the inside, and the heat dissipation window can make external dust and debris get into in the energy storage container in long-time use, because the energy storage container contains the battery cluster, so if not clear up dust and debris, cause the damage to its internal element easily.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides the air duct structure of the energy storage container, and solves the problems that the existing energy storage container is usually provided with radiating windows on two sides for radiating the inside, and the radiating windows can enable external dust and sundries to enter the energy storage container in the long-time use process, and the energy storage container contains battery clusters, so that if the dust and the sundries are not cleaned, the internal elements of the energy storage container are easy to damage.

The technical scheme of the utility model is as follows: the utility model provides an energy storage container wind channel structure, includes the wind channel case, the quantity of wind channel case is a plurality of, the side of wind channel case and the one side fixed connection that the connection case corresponds, two mounting grooves have all been seted up in connection incasement and the wind channel case of a plurality of, equal fixedly connected with link in two mounting grooves, the spout has all been seted up to the opposite face of two links, and sliding connection has first slider in the spout that is located one side, first slider internal thread connection has reciprocating screw rod, the one end of reciprocating screw rod passes through the output shaft transmission connection of connecting piece with the motor, the side of motor and one side fixed connection that the mounting panel corresponds, the side of mounting panel is connected with the one end that the bracing piece corresponds, the other end of bracing piece is connected with one side that the connection case corresponds.

As a further aspect of the utility model: the side of the first sliding block is connected with one side corresponding to the first cleaning plate, a second sliding block is slidably connected in a sliding groove on the other side, the side of the second sliding block is connected with one side corresponding to the second cleaning plate, and the opposite surfaces of the first cleaning plate and the second cleaning plate are connected with two sides of the same third cleaning plate.

As a further aspect of the utility model: the second sliding block is internally provided with a guide rod, the second sliding block is in sliding connection outside the guide rod, two ends of the guide rod are respectively connected with opposite surfaces of two fixed blocks, and the two fixed blocks are fixedly connected in the same sliding chute.

As a further aspect of the utility model: the reciprocating screw rod is provided with a bearing outside, the bearing is positioned in the bearing seat, and the side surface of the bearing seat is connected with one side corresponding to the inner wall of the chute.

As a further aspect of the utility model: the utility model discloses a wind channel case, including wind channel case, air duct case, limiting plate, spacing post, heat dissipation window has all been seted up to the both sides of wind channel case, be provided with the heating panel in the heat dissipation window, the wind channel incasement joint that is located one side has two pivots, all is provided with the limiting plate outside two pivots, is located the wind channel case of opposite side on fixedly connected with spacing post.

As a further aspect of the utility model: the limiting plates are internally provided with limiting grooves, the shapes of the limiting grooves are matched with the shapes of the limiting columns, clamping grooves are formed in the two limiting plates, clamping blocks are arranged in the two clamping grooves, and the shapes of the clamping grooves are matched with the shapes of the clamping blocks.

As a further aspect of the utility model: the cooling device is characterized in that a cooling box is arranged below the air duct box, the side face of the cooling box is connected with one side corresponding to the air box, a fan is arranged in the air box, cooling liquid is filled in the cooling box, and a plurality of heat exchange plates are arranged in the cooling box.

As a further aspect of the utility model: the side of cooling box is linked together with the one end that first air-supply line corresponds, the opposite side of cooling box is linked together with the one end that the second air-supply line corresponds, all be provided with the flange outside first air-supply line and the second air-supply line outward, flange fixed connection is in one side of cooling box, all be provided with the filter screen in first air-supply line and the second air-supply line.

As a further aspect of the utility model: the cooling box is internally provided with a cover plate, and a plurality of through holes are formed in the cover plate and the air duct box.

As a further aspect of the utility model: an air inlet is formed in one side of the air channel box, an air outlet is formed in the other side of the air channel box, and a box cover is arranged in the air channel box.

The working principle and the beneficial effects of the utility model are as follows:

1. This energy storage container wind channel structure through setting up first slider, reciprocating screw, the connecting piece, motor and first clean board, drive first slider through reciprocating screw and remove along the spout, when first slider removes along the spout, can drive first clean board and remove, first clean board in-process that removes can drive the second clean board through the third clean board and remove, first clean board, the clean board of second and the clean board of third remove the in-process can clear up the bottom and the inner wall of wind channel case, this wind channel mechanism can clear up the inner wall and the bottom of wind channel case at the in-process of using, thereby avoid dust and impurity to pile up the condition that causes the damage to its internal component in the wind channel case, through clear up repeatedly in the wind channel case, the effectual cleaning effect who has guaranteed this wind channel mechanism has also avoided dust and debris to block up the heating panel simultaneously, lead to the slower condition of heat transfer.

2. This energy storage container wind channel structure through setting up fan and heat exchanger fin, can cool off the air current quick that the fan produced for the air current after the cooling can be quick transfer give the wind channel case, thereby guaranteed this wind channel structure cooling effect, and the flange is convenient for when installing first air-supply line and second air-supply line, also guaranteed the stability of first air-supply line and second air-supply line, avoid first air-supply line and second air-supply line to appear rocking the condition in the in-process of using, and the filter screen can filter the dust in the air current, thereby guaranteed the purity of air current.

3. This energy storage container wind channel structure through setting up pivot, spacing groove, limiting plate and gag lever post, is convenient for assemble and dismantle two wind channel casees for this wind channel structure can be according to a plurality of wind channel casees of concrete required connection, and when one of them wind channel case damaged simultaneously, can be solitary take out the wind channel case of damage and change, thereby reduced the degree of difficulty of maintenance.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic diagram of a three-dimensional structure of an air duct box according to the present utility model;

FIG. 3 is a schematic view of a three-dimensional structure of a limiting plate according to the present utility model;

FIG. 4 is a schematic view of a heat exchanger plate according to the present utility model;

FIG. 5 is a schematic view showing a first cleaning plate according to the present utility model;

FIG. 6 is a schematic view of a three-dimensional structure of a reciprocating screw of the present utility model;

In the figure: the air duct box 1, the connecting box 2, the mounting groove 3, the connecting frame 4, the sliding groove 5, the first sliding block 6, the reciprocating screw rod 7, the connecting piece 8, the motor 9, the mounting plate 10, the supporting rod 11, the first cleaning plate 12, the second sliding block 13, the second cleaning plate 14, the third cleaning plate 15, the guide rod 16, the fixing block 17, the bearing 18, the bearing seat 19, the heat dissipation window 20, the heat dissipation plate 21, the rotating shaft 22, the limiting plate 23, the limiting column 24, the limiting groove 25, the clamping groove 26, the clamping block 27, the cooling box 28, the air box 29, the fan 30, the heat exchange plate 31, the first air inlet pipe 32, the second air inlet pipe 33, the flange 34, the filter screen 35, the cover plate 36, the air inlet 37, the air outlet 38 and the cover 39.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-6, the present utility model provides a technical solution: the energy storage container air duct structure comprises an air duct box 1, wherein the number of the air duct boxes 1 is a plurality, one side of the air duct box 1 is fixedly connected with one side corresponding to a connecting box 2, two mounting grooves 3 are respectively formed in the connecting box 2 and the air duct boxes 1, connecting frames 4 are respectively fixedly connected in the two mounting grooves 3, sliding grooves 5 are respectively formed in the opposite surfaces of the two connecting frames 4, a first sliding block 6 is slidably connected in the sliding groove 5 at one side, a reciprocating screw rod 7 is connected in the first sliding block 6 in a threaded manner, one end of the reciprocating screw rod 7 is in transmission connection with an output shaft of a motor 9 through a connecting piece 8, one side corresponding to a mounting plate 10 is fixedly connected with the side of the motor 9, The side of the mounting plate 10 is connected with one end corresponding to the supporting rod 11, the other end of the supporting rod 11 is connected with one side corresponding to the connecting box 2, the side of the first sliding block 6 is connected with one side corresponding to the first cleaning plate 12, a second sliding block 13 is slidably connected in a sliding groove 5 positioned at the other side, the side of the second sliding block 13 is connected with one side corresponding to the second cleaning plate 14, the opposite surfaces of the first cleaning plate 12 and the second cleaning plate 14 are connected with two sides of the same third cleaning plate 15, a guide rod 16 is arranged in the second sliding block 13, the second sliding block 13 is slidably connected outside the guide rod 16, two ends of the guide rod 16 are respectively connected with the opposite surfaces of two fixed blocks 17, The two fixing blocks 17 are fixedly connected in the same chute 5, the bearing 18 is arranged outside the reciprocating screw rod 7, the bearing 18 is positioned in the bearing seat 19, the side surface of the bearing seat 19 is connected with one side corresponding to the inner wall of the chute 5, the two sides of the air duct box 1 are provided with heat dissipation windows 20, the heat dissipation windows 20 are internally provided with heat dissipation plates 21, the air duct box 1 positioned at one side is clamped with two rotating shafts 22, the two rotating shafts 22 are externally provided with limiting plates 23, the air duct box 1 positioned at the other side is fixedly connected with a limiting post 24, the limiting plates 23 are internally provided with limiting grooves 25, the shape of the limiting grooves 25 is matched with the shape of the limiting post 24, the two limiting plates 23 are internally provided with clamping grooves 26, The clamping blocks 27 are arranged in the two clamping grooves 26, the shape of the clamping grooves 26 is matched with the shape of the clamping blocks 27, the two air duct boxes 1 are convenient to assemble and disassemble by arranging the rotating shaft 22, the limiting grooves 25, the limiting plates 23 and the limiting rods, so that the air duct structure can be connected with a plurality of air duct boxes 1 according to specific requirements, meanwhile, when one of the air duct boxes 1 is damaged, the damaged air duct boxes 1 can be independently taken out for replacement, thereby reducing the maintenance difficulty, the cooling box 28 is arranged below the air duct boxes 1, the side surface of the cooling box 28 is connected with one side corresponding to the air box 29, the air box 29 is internally provided with the fan 30, and the cooling box 28 is filled with cooling liquid, the cooling box 28 is internally provided with a plurality of heat exchange plates 31, through arranging the fans 30 and the heat exchange plates 31, the air flow generated by the fans 30 can be rapidly cooled, so that the cooled air flow can be rapidly transmitted to the air duct box 1, thereby ensuring the cooling effect of the air duct structure, the side surface of the cooling box 28 is communicated with one end corresponding to the first air inlet pipe 32, the other side of the cooling box 28 is communicated with one end corresponding to the second air inlet pipe 33, flanges 34 are arranged outside the first air inlet pipe 32 and outside the second air inlet pipe 33, the flanges 34 are fixedly connected to one side of the cooling box 28, filter screens 35 are arranged in the first air inlet pipe 32 and the second air inlet pipe 33, By arranging the flange 34, the stability of the first air inlet pipe 32 and the second air inlet pipe 33 is ensured while the first air inlet pipe 32 and the second air inlet pipe 33 are convenient to install, the shaking of the first air inlet pipe 32 and the second air inlet pipe 33 in the using process is avoided, the dust in the air flow can be filtered by the filter screen 35, the purity of the air flow is ensured, the cover plate 36 is arranged in the cooling box 28, a plurality of through holes are respectively arranged in the cover plate 36 and the air channel box 1, the cooled air flow can be rapidly sent into the air channel box 1 through the through holes to cool components thereof, the air inlet 37 is arranged at one side of the air channel box 1, An air outlet 38 is formed in the other side of the air duct box 1, and a box cover 39 is arranged in the air duct box 1.

The working principle of the utility model is as follows:

When the air conditioner is used, the fan 30 is started, the fan blades of the fan 30 are rapidly rotated, the fan blades are in an inclined state, air flow can be rapidly cut, the air flow speed is accelerated, then the air flow enters the cooling box 28 through the first air inlet pipe 32, the cooling box 28 is filled with cooling liquid, the temperature of the cooling liquid is low, heat of the cooling liquid is exchanged and neutralized with the heat of the air flow under the action of the heat exchange plates 31, air flow is refrigerated, the refrigerated air flow flows into the air duct box 1 through the first through holes in the cover plate 36 and the second through holes in the air duct box 1, heat dissipation can be rapidly conducted, when the air duct box 1 needs to be cleaned, the motor 9 is started, the connecting piece 8 is rotated to drive the reciprocating screw rod 7 to rotate, and the first sliding block 6 and the reciprocating screw rod 7 are in threaded connection, so that the first sliding block 6 can be driven to move along the sliding groove 5 through the reciprocating screw rod 7, the first sliding block 6 can be driven to move with the first cleaning plate 12, and the first cleaning plate 12 can be driven to move through the third cleaning plate 15 and the third cleaning plate 14 and the cleaning plate 14 can be driven to move the cleaning plate 14 and the bottom of the air duct box 1.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. Energy storage container wind channel structure, including wind channel case (1), its characterized in that: the quantity of wind channel case (1) is a plurality of, one side fixed connection that wind channel case (1) side and junction box (2) correspond, two mounting grooves (3) have all been seted up in junction box (2) and in a plurality of wind channel case (1), equal fixedly connected with link (4) in two mounting grooves (3), spout (5) have all been seted up on the opposite face of two link (4), be located spout (5) sliding connection in one side have first slider (6), first slider (6) internal thread connection has reciprocating lead screw (7), the one end of reciprocating lead screw (7) is through the output shaft transmission of connecting piece (8) with motor (9), one side fixed connection that the side of motor (9) corresponds with mounting panel (10), the side of mounting panel (10) is connected with one end that the bracing piece (11) corresponds, the other end of bracing piece (11) is connected with one side that junction box (2) corresponds.

2. The energy storage container wind tunnel structure of claim 1, wherein: the side of the first sliding block (6) is connected with one side corresponding to the first cleaning plate (12), a second sliding block (13) is connected in a sliding way in the sliding groove (5) at the other side, the side of the second sliding block (13) is connected with one side corresponding to the second cleaning plate (14), and the opposite surfaces of the first cleaning plate (12) and the second cleaning plate (14) are connected with two sides of the same third cleaning plate (15).

3. The energy storage container wind tunnel structure of claim 2, wherein: the second sliding block (13) is internally provided with a guide rod (16), the second sliding block (13) is in sliding connection outside the guide rod (16), two ends of the guide rod (16) are respectively connected with opposite surfaces of two fixed blocks (17), and the two fixed blocks (17) are fixedly connected in the same sliding groove (5).

4. The energy storage container wind tunnel structure of claim 1, wherein: the reciprocating screw rod (7) is externally provided with a bearing (18), the bearing (18) is positioned in a bearing seat (19), and the side surface of the bearing seat (19) is connected with one side corresponding to the inner wall of the chute (5).

5. The energy storage container wind tunnel structure of claim 1, wherein: the two sides of the air duct box (1) are provided with radiating windows (20), radiating plates (21) are arranged in the radiating windows (20), two rotating shafts (22) are clamped in the air duct box (1) positioned at one side, limiting plates (23) are arranged outside the two rotating shafts (22), and limiting columns (24) are fixedly connected to the air duct box (1) located on the other side.

6. The energy storage container wind tunnel structure of claim 5, wherein: limiting grooves (25) are formed in the limiting plates (23), the shapes of the limiting grooves (25) are matched with the shapes of the limiting columns (24), clamping grooves (26) are formed in the two limiting plates (23), clamping blocks (27) are arranged in the two clamping grooves (26), and the shapes of the clamping grooves (26) are matched with the shapes of the clamping blocks (27).

7. The energy storage container wind tunnel structure of claim 1, wherein: the cooling device is characterized in that a cooling box (28) is arranged under the air duct box (1), the side face of the cooling box (28) is connected with one side corresponding to the air box (29), a fan (30) is arranged in the air box (29), cooling liquid is filled in the cooling box (28), and a plurality of heat exchange plates (31) are arranged in the cooling box (28).

8. The energy storage container wind tunnel structure of claim 1, wherein: the side of cooling box (28) is linked together with the one end that first air-supply line (32) corresponds, the opposite side of cooling box (28) is linked together with the one end that second air-supply line (33) corresponds, all be provided with flange (34) outside first air-supply line (32) and outside second air-supply line (33), flange (34) fixed connection is in one side of cooling box (28), all be provided with filter screen (35) in first air-supply line (32) and in second air-supply line (33).

9. The energy storage container wind tunnel structure of claim 1, wherein: a cover plate (36) is arranged in the cooling box (28), and a plurality of through holes are formed in the cover plate (36) and the air duct box (1).

10. The energy storage container wind tunnel structure of claim 1, wherein: an air inlet (37) is formed in one side of the air duct box (1), an air outlet (38) is formed in the other side of the air duct box (1), and a box cover (39) is arranged in the air duct box (1).