CN218783114U - Adjustable air duct pressure equalizing structure of energy storage container - Google Patents

Abstract

The utility model discloses an adjustable wind channel voltage-sharing structure of energy storage container relates to the relevant field in energy storage container wind channel, including hollow shell, the bottom welding of hollow shell has the guide rail A who supplies slider A sliding connection, slider A's skin weld has the handle of being convenient for promote slider A, slider A's bottom welding has the montant of bottom and motor fixation, the skin weld of motor has the bearing A who supplies pivot A pivoted, the drive disk assembly of motor passes through screw and pivot A fixed connection, pivot A's skin weld has the head and the fixed commentaries on classics board of high-pressure air exhauster, the utility model discloses can rotate high-pressure air exhauster and its position of round trip movement, it is big to let high-pressure air exhauster working face, can be fine carry out the voltage-sharing to the wind channel to be favorable to the whole heat dissipation of energy storage container more.

Description

Adjustable air duct pressure equalizing structure of energy storage container

Technical Field

The utility model relates to an energy storage container wind channel correlation field, in particular to adjustable wind channel voltage-sharing structure of energy storage container.

Background

Along with the rapid development of photovoltaic and battery technologies in recent years, an energy storage carrier is developed from a storage battery to a lithium battery with high performance charge and discharge multiplying power, an energy storage carrier protection and storage platform is formed by replacing an original fixed building structure with an energy storage container which is high in protection and convenient to move, and the energy storage container dissipates heat through an air duct.

When the energy storage container dispels the heat through the wind channel, generally need promote its circulation of air through installation high-pressure air exhauster, but can make high-pressure air exhauster working face atress big like this usually, and other face atress are little to it is inhomogeneous to lead to the pressurized, is unfavorable for the whole heat dissipation of energy storage container, for this reason, the utility model provides an adjustable wind channel voltage-sharing structure of energy storage container.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an adjustable wind channel voltage-sharing structure of energy storage container, can rotate high-pressure air exhauster and its position of round trip movement, it is big to let high-pressure air exhauster working face, can be fine carry out the voltage-sharing to the wind channel to be favorable to the whole heat dissipation of energy storage container more, can effectively solve the problem among the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an adjustable wind channel voltage-sharing structure of energy storage container, includes hollow shell, the bottom welding of hollow shell has the guide rail A who supplies slider A sliding connection, slider A's skin weld has the handle of being convenient for promote slider A, slider A's bottom welding has the montant of bottom and motor fixed, the skin weld of motor has the bearing A who supplies pivot A pivoted, the drive disk assembly of motor passes through screw and pivot A fixed connection, pivot A's skin weld has the head and the fixed commentaries on classics board of high-pressure air exhauster.

Furthermore, a bearing B for rotating the rotating shaft B is welded at one side of the hollow shell.

Furthermore, the back welding of pivot B has both sides all with screw rod cover threaded connection's two-way symmetry threaded rod on the lateral wall.

Furthermore, the top end of the screw rod sleeve is welded with an L-shaped rod with a head fixed with the fixing plate.

Furthermore, the top end of the hollow shell is provided with an opening for the L-shaped rod to move.

Furthermore, the part of the interior of the hollow shell, which is close to the bottom end, is welded with a guide rail B for the sliding of the sliding block B, and the top end of the sliding block B is fixedly connected with the bottom end of the screw sleeve.

Compared with the prior art, the utility model discloses following beneficial effect has: when fixed completion back, can promote slider A's removal about the handle, slider A slides in the same direction as guide rail A, slider A drives the removal of montant, thereby drive the removal of high-pressure air exhauster, later can let in built-in storage battery power for the motor, open the switch of motor, the motor begins to operate, the motor drives pivot A's rotation, pivot A is in the same direction as the inside rotation of bearing A, pivot A drives the rotation of commentaries on classics board, the commentaries on classics board drives the rotation of high-pressure air exhauster, the working face of high-pressure air exhauster is bigger like this, the voltage-sharing of carrying on that can be fine, thereby be favorable to the whole heat dissipation of energy storage container more.

Drawings

Fig. 1 is a schematic view of the overall structure of an adjustable air duct pressure-equalizing structure of an energy storage container of the present invention;

FIG. 2 is an enlarged view of the partial structure A of the structure diagram 1 for the pressure equalizing of the adjustable air duct of the energy storage container of the present invention;

fig. 3 is the utility model relates to a hollow shell inner structure schematic diagram in adjustable wind channel pressure-equalizing structure of energy storage container.

In the figure: 1. a hollow shell; 2. a guide rail A; 3. a slide block A; 4. a vertical rod; 5. a motor; 6. a bearing A; 7. a rotating shaft A; 8. rotating the plate; 9. a high pressure exhaust fan; 10. a bearing B; 11. a rotating shaft B; 12. a bidirectional symmetric threaded rod; 13. a screw sleeve; 14. an L-shaped rod; 15. a fixing plate; 16. an opening; 17. a guide rail B; 18. a slide block B; 19. a handle.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

As shown in fig. 1-3, an adjustable wind channel pressure-equalizing structure of energy storage container, includes hollow shell 1, the bottom welding of hollow shell 1 has the guide rail A2 that supplies slider A3 sliding connection, the skin weld of slider A3 has the handle 19 of being convenient for promote slider A3, the bottom welding of slider A3 has the montant 4 of bottom and motor 5 fixed, the skin weld of motor 5 has the bearing A6 that supplies pivot A7 pivoted, the transmission member of motor 5 passes through screw and pivot A7 fixed connection, the skin weld of pivot A7 has the commentaries on classics board 8 that head and high-pressure air exhauster 9 are fixed.

Wherein, the welding of one side of hollow shell 1 has the bearing B10 that supplies pivot B11 pivoted, the back welding of pivot B11 has both sides all with screw rod cover 13 threaded connection's two-way symmetrical threaded rod 12 on the lateral wall, the top of screw rod cover 13 all welds the L type pole 14 that head and fixed plate 15 are fixed, the opening 16 that supplies L type pole 14 to remove is seted up on the top of hollow shell 1, the inside of hollow shell 1 is close to bottom position welding has the gliding guide rail B17 of confession slider B18, the top of slider B18 and the bottom fixed connection of screw rod cover 13.

It should be noted that, the utility model relates to an adjustable air duct pressure equalizing structure of energy storage container, initially, the fixing plate 15 is located at the most lateral side of the two sides of the hollow shell 1, the energy storage container is located between the two fixing plates 15, the rotating plate on the rotating shaft B11 can be rotated clockwise, thereby driving the clockwise rotation of the rotating shaft B11, the rotating shaft B11 rotates along the inside of the bearing B10, the rotating shaft B11 drives the clockwise rotation of the two-way symmetrical threaded rod 12, the two-way symmetrical threaded rod 12 drives the screw sleeves 13 at the two sides to move towards the middle part (the threads at the two sides of the two-way symmetrical threaded rod 12 are opposite and symmetrical, so the rotation can simultaneously drive the screw sleeves 13 to move towards the two sides or towards the middle part), the screw sleeves 13 drive the slider B18 to move, the slider B18 slides along the guide rail B17, the slider B18 and the guide rail B17 can well maintain the linear movement of the screw sleeves 13, the screw rod sleeve 13 drives the L-shaped rods 14 at two sides to move towards the middle part, the L-shaped rods 14 drive the fixed plate 15 to move towards the middle part, the fixed plate 15 moves towards the middle part to abut against two sides of the energy storage container, at the moment, the lower part of the hollow shell 1 just faces to an air duct of the energy storage container, the fixed plate 15 and the energy storage container can be fixed through parts such as screws, and the like, so that the energy storage container can be suitable for energy storage containers with different sizes by adjusting the position of the fixed plate 15, the practicability is greatly improved, after the fixation is finished, the sliding block A3 can be pushed to move left and right through the handle 19, the sliding block A3 slides along the guide rail A2, the sliding block A3 drives the vertical rod 4 to move, thereby driving the high-pressure exhaust fan 9 to move, then the built-in battery power supply can be led into the motor 5, the switch of the motor 5 is opened, the motor 5 starts to operate, and the motor 5 drives the rotating shaft A7 to rotate, the pivot A7 is along bearing A6 inside rotation, and pivot A7 drives the rotation of changeing board 8, changes the rotation that board 8 drove high-pressure air exhauster 9, and high-pressure air exhauster 9's active surface is bigger like this, can be fine carry out the voltage-sharing (the active surface is bigger promptly the face can carry out the atress, the atress is more even) to be favorable to the whole heat dissipation of energy storage container more.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the above embodiments and descriptions are only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides an adjustable wind channel voltage-sharing structure of energy storage container, includes hollow shell (1), its characterized in that: the bottom welding of hollow shell (1) has guide rail A (2) that supplies slider A (3) sliding connection, the skin weld of slider A (3) has handle (19) of being convenient for promote slider A (3), the bottom welding of slider A (3) has bottom and fixed montant (4) of motor (5), the skin weld of motor (5) has and supplies pivot A (7) pivoted bearing A (6), the drive disk assembly of motor (5) passes through screw and pivot A (7) fixed connection, the skin weld of pivot A (7) has head and the fixed commentaries on classics board (8) of high-pressure air exhauster (9).

2. The adjustable air duct pressure equalizing structure of the energy storage container as claimed in claim 1, wherein: and a bearing B (10) for rotating the rotating shaft B (11) is welded at one side of the hollow shell (1).

3. An adjustable air duct pressure equalizing structure of an energy storage container as claimed in claim 2, wherein: the back welding of pivot B (11) has both sides all with screw rod cover (13) threaded connection's two-way symmetry threaded rod (12) on the lateral wall.

4. An adjustable air duct pressure equalizing structure of an energy storage container as claimed in claim 3, wherein: the top end of the screw rod sleeve (13) is welded with an L-shaped rod (14) with the head fixed with the fixing plate (15).

5. The adjustable air duct pressure equalizing structure of the energy storage container as claimed in claim 4, wherein: the top end of the hollow shell (1) is provided with an opening (16) for the movement of the L-shaped rod (14).

6. The adjustable air duct pressure equalizing structure of the energy storage container as claimed in claim 4, wherein: the inside of hollow shell (1) is close to bottom end portion welding and has supplied gliding guide rail B (17) of slider B (18), the top and the bottom fixed connection of screw rod cover (13) of slider B (18).

Images