CN221009561U - Low-voltage power distribution cabinet - Google Patents

Abstract

The application relates to a low-voltage power distribution cabinet, which comprises a main cabinet body and cabinet doors, wherein a containing cavity is formed in the main cabinet body, and the cabinet doors are connected to two sides of the main cabinet body, and the low-voltage power distribution cabinet is characterized in that: a driving rod is fixedly connected between the upper eave and the lower eave of the main cabinet body, and the driving rod is positioned at two sides of the main cabinet body; the cabinet door is provided with a displacement groove for the driving rod to insert and slide, and the displacement groove penetrates through the cabinet door and extends along the length direction of the cabinet door; the cabinet door is provided with a locking station and an unlocking station, and when the cabinet door is positioned at the locking station, the cabinet door clings to and shields an opening of the main cabinet body; when the cabinet door is in the unlocking station, the cabinet doors are respectively positioned at two sides of the main cabinet body, and the cabinet door provided by the application has the advantages of solving the problem that the cabinet door is easy to swing and achieving the effect of improving the working efficiency of electricians.

Description

Low-voltage power distribution cabinet

Technical Field

The application relates to the field of power equipment, in particular to a low-voltage power distribution cabinet.

Background

At present, the rated current of a low-voltage power distribution cabinet is 50Hz, a power distribution system with rated voltage of 380v is used as power, and the power conversion and control of illumination and power distribution are realized.

For the related art in the above, there are also drawbacks: the cabinet door of switch board adopts articulated setting mostly, so electrician can be because of scraping of wind or the mistake that is the foreign object touches makes the cabinet door can often remove to circuit maintenance in-process, reduces the open space of switch board, makes the environment in the switch board become dark to prevent electrician's maintenance to the circuit.

Disclosure of utility model

The utility model provides a low-voltage power distribution cabinet, which aims to solve the defect that the power distribution cabinet door is easy to swing to prevent electrician from maintaining a circuit. The low-voltage power distribution cabinet can achieve the function of hiding the cabinet door, solves the problem that the cabinet door is easy to swing, and achieves the effect of improving the working efficiency of electricians.

The application provides a low-voltage power distribution cabinet, which adopts the following technical scheme:

The low-voltage power distribution cabinet comprises a main cabinet body and cabinet doors, wherein accommodating cavities are formed in the main cabinet body, the cabinet doors are connected to two sides of the main cabinet body, driving rods are fixedly connected between upper eaves and lower eaves of the main cabinet body, and the driving rods are positioned on two sides of the main cabinet body; the cabinet door is provided with a displacement groove for the driving rod to insert and slide, and the displacement groove penetrates through the cabinet door and extends along the length direction of the cabinet door; the cabinet door is provided with a locking station and an unlocking station, and when the cabinet door is positioned at the locking station, the cabinet door clings to and shields an opening of the main cabinet body; when the cabinet door is in the unlocking station, the cabinet door is respectively positioned at two sides of the main cabinet body.

By adopting the technical scheme, when the power distribution cabinet is in a normal working state, the two cabinet doors at the moment are close to each other and shield the accommodating cavity of the main cabinet body, so that damage to electronic components from the outside is reduced; if a user needs to enter the accommodating cavity to maintain an object in the power distribution cabinet, the cabinet door can be moved to enable the cabinet door to move from the locking station to the unlocking station, and the cabinet door at the moment is located on two sides of the main cabinet body and is clung to the main cabinet body, so that the problem of swinging of the cabinet door is solved, and when the user is located in the cabinet body to maintain, illumination in the accommodating cavity cannot be influenced due to the cabinet door.

Optionally, when the cabinet door is in the locking station, one side of the cabinet door, which is close to the main cabinet body, is tightly attached to one side of the main cabinet body, which is provided with the accommodating cavity.

Through adopting above-mentioned technical scheme, because the switch board is mostly located outdoors, when under outdoor rainy days etc. abominable environment, when the cabinet door is in the locking station, the cabinet door can seal holding the chamber, makes external rainwater or dust get into through the gap between cabinet door and the main cabinet body and hold the intracavity to lead to holding intracavity electronic components and suffering the damage.

Optionally, the tip of the main cabinet body still fixedly connected with weather shield, the weather shield has a plurality of gyro wheels towards the linear array of one side of cabinet door, the gyro wheel can be with cabinet door contact.

By adopting the technical scheme, the rain shield can fall along the edge of the rain shield, so that the rain shield is not easy to permeate into the accommodating cavity; simultaneously lie in the gyro wheel that the weather shield rotation was connected can with the cabinet door contact, when the cabinet door takes place to remove, the gyro wheel can play the effect that guide cabinet door moved.

Optionally, one end of the main cabinet body, which is away from the cabinet door, is connected with a magnetic piece which can be magnetically connected with the cabinet door.

Through adopting above-mentioned technical scheme, when the cabinet door is in the unblock station, be located and prevent that the cabinet door from changing the station because staff's maloperation or because external factor interferes with the station, attract the cabinet door through the magnetic part, strengthen the stability of cabinet door when being located the unblock station.

Optionally, a pushing piece and a hand pulling piece are installed in the cabinet door, the ends of the pushing piece and the hand pulling piece penetrate out of the cabinet door respectively, a rotating wheel is further connected between the pushing piece and the hand pulling piece, the pushing piece and the hand pulling piece are both connected with the rotating wheel through gear teeth, a pushing plate is fixedly connected between the pushing pieces located in the same cabinet door, and the pushing plate is not magnetic; and a hand pulling plate is fixedly connected between the hand pulling pieces positioned in the same cabinet door.

By adopting the technical scheme, when a user needs to restore the cabinet door from the unlocking station to the locking station, the cabinet door can be separated from the magnetic piece by pulling the hand pulling piece in a direction away from the cabinet door and driving the pushing piece to move through the rotating wheel; meanwhile, a user can hold the hand pulling plate by hand to use the hand pulling plate as a handle, so that the cabinet door can be pushed or rotated conveniently.

Optionally, the magnetic member is a metal member having elasticity.

Through adopting above-mentioned technical scheme, when the impeller plate promotes towards the magnetic part direction, the magnetic part can produce deformation owing to suffer the pressure of impeller plate to separate with the cabinet door.

Optionally, a splicing piece is also connected to one side of the cabinet door, far away from the main cabinet body, and a handle is integrally formed on the splicing piece; when the cabinet door is in the locking station, the splicing pieces can be clung to each other.

By adopting the technical scheme, when the cabinet door is restored to the locking station again, if the cabinet door is needed to be paired. The main cabinet body is locked, a user can pull the splicing piece to enable the splicing piece to be close together, the handles can move along with the splicing piece to be close to each other, the hand pulling piece is shielded through the splicing piece, and meanwhile, the cabinet door can be locked through the iron lock wound on the handles.

In summary, the present application includes at least one of the following beneficial technical effects:

When the cabinet door needs to be accessed into the main cabinet body, the cabinet door can be moved to an unlocking station, and the cabinet door does not occupy a larger storage area in the moving process of the cabinet door;

When the cabinet door is separated from the magnetic piece, the cabinet door can be separated from the magnetic piece as soon as possible through the cooperation of the hand pulling piece and the pushing piece.

Drawings

Fig. 1 is a schematic view of the overall structure of a cabinet door in a locking station according to an embodiment of the present application.

Fig. 2 is a schematic diagram of the overall structure of the cabinet door in the unlocking station according to the embodiment of the application.

Fig. 3 is a schematic view of an exploded structure of a cabinet door separated from a main cabinet body according to an embodiment of the present application.

Fig. 4 is a schematic view showing the structure of the bottom view at the salient roller in the embodiment of the present application.

FIG. 5 is a schematic cross-sectional view of a partial structure at a salient wheel in an illustrative embodiment of the present application.

Reference numerals: 1. a main cabinet body; 2. a cabinet door; 3. a receiving chamber; 4. a driving rod; 5. a displacement groove; 6. a rain shield; 7. a roller; 8. a magnetic member; 9. a pushing member; 10. a hand pulling member; 11. a rotating wheel; 12. a pushing plate; 13. a hand pulling plate; 14. a splice; 15. a handle.

Description of the embodiments

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses a low-voltage power distribution cabinet. Referring to fig. 1 and 2, a low-voltage power distribution cabinet comprises a main cabinet body 1 and a cabinet door 2 connected to the main cabinet body 1, wherein a containing cavity 3 for placing electronic equipment is formed in the main cabinet body 1; and the cabinet door 2 is arranged at two sides of the main cabinet body 1 in a mirror image mode.

Referring to fig. 2 and 3, a rain shield 6 is integrally formed at the end of the main cabinet 1, two driving rods 4 are fixedly welded on the rain shield 6, and the driving rods 4 are connected to one surface of the main cabinet 1 with the accommodating cavity 3 and are respectively arranged at two sides of the main cabinet 1. The cabinet door 2 is also provided with a displacement groove 5 penetrating the cabinet door 2 to allow the driving rod 4 to be inserted, and the driving rod 4 slides and rotates in the displacement groove 5, so that the station of the cabinet door 2 is changed.

The rain shield 6 is further rotatably connected with a plurality of rollers 7 on one face of the driving rod 4, and the rollers 7 are arranged in a linear array and can be contacted with the cabinet door 2.

Referring to fig. 1, 2 and 3, the original cabinet door 2 is in a mutually-clung state, the driving rod 4 is clung to the bottom of one side of the displacement groove 5, and the cabinet door 2 is located at the locking station to shield the cavity opening of the accommodating cavity 3 and clung to the outer wall of the cavity opening of the accommodating cavity 3. When a user needs to open the cabinet door 2, the user can firstly perform circumferential rotation on the cabinet door 2 by taking the driving rod 4 as an axle center, and at the moment, the roller 7 at the cavity opening of the accommodating cavity 3 rolls along with the rotation of the cabinet door 2 so as to drive the cabinet door 2 to rotate, and the force for the user to rotate the cabinet door 2 is saved.

Until the user rotates the cabinet doors 2 to a state parallel to each other.

Then the user pushes the cabinet door 2 again, so that the driving rod 4 moves from the bottom of one end of the displacement groove 5 to the bottom of the other end of the displacement groove 5, and along with the pushing of the cabinet door 2 by the user, the cabinet door 2 gradually coincides with the side wall of the main cabinet body 1. In the process that the user promotes cabinet door 2, the one end of cabinet door 2 orientation weather shield 6 still can be with the gyro wheel 7 contact that is located the chamber 3 both sides that holds, and the gyro wheel 7 that sets up through different positions all can the same drive effect to cabinet door 2 orientation different direction of movement.

When the driving rod 4 moves from the bottom of one end of the displacement groove 5 to the bottom of the other end of the displacement groove 5, the cabinet door 2 is completely in the unlocking station. And the cabinet door 2 is completely overlapped with the side wall of the main cabinet body 1. The end of the main cabinet body 1, which is far away from the cabinet door 2, is also provided with magnetic pieces 8 with the same quantity as the cabinet door 2, and the magnetic pieces 8 are elastic metal pieces. When the cabinet door 2 is in the unlocking station, the cabinet door 2 can be in contact with the magnetic piece 8 and is magnetically connected, so that stability of the cabinet door 2 in the unlocking station is enhanced. At this time, when a user performs maintenance on an object or installs an electronic component while entering the accommodating chamber 3, there is no fear of the influence of the cabinet door 2.

Referring to fig. 3 and 4, the roller 7 on the rain shield 6 can not only save effort for the user to push the cabinet door 2, but also limit the moving direction of the cabinet door 2.

When the cabinet door 2 is in the locking station, a user at this time only rotates the roller 7 to drive the cabinet door 2 to move when the cabinet door 2 rotates circumferentially around the driving rod 4, if the user pushes the cabinet door 2 in the direction away from each other at this time, the roller 7 at this time does not play a role in guiding the movement of the cabinet door 2 any more, and the cabinet door 2 is difficult to slide due to friction between the roller 7 and the cabinet door 2.

When the cabinet door 2 is in the unlocking station, a user only pushes the cabinet door 2 at the moment to enable the cabinet door 2 to be misplaced with the main cabinet body 1, and then the roller 7 can rotate to drive the cabinet door 2 to move, if the user enables the cabinet door 2 to rotate circumferentially by taking the driving rod 4 as the axis at the moment. The roller 7 still cannot play a role in guiding the movement of the cabinet door 2, and the cabinet door 2 is difficult to rotate due to friction between the roller 7 and the cabinet door 2.

Referring to fig. 4 and 5, a pusher 9 and a hand pulling member 10 are also mounted in the cabinet door 2. The pushing piece 9 and the hand pulling piece 10 are horizontally arranged, and the ends of the pushing piece 9 and the hand pulling piece 10 respectively penetrate out of one end of the cabinet door 2. A rotating wheel 11 is also arranged between the pushing piece 9 and the hand pulling piece 10 in the cabinet door 2, and the pushing piece 9 and the hand pulling piece 10 are both in gear tooth connection with the rotating wheel 11. When the user pulls the hand pulling member 10, the pushing member 9 is pushed out of the cabinet door 2 due to the presence of the rotating wheel 11. The pushing plates 12 are integrally formed between the pushing pieces 9 on the same cabinet door 2, the pushing pieces 9 are not metal pieces and have no magnetism, so that when the cabinet door 2 is in an unlocking station, the magnetic pieces 8 are only in magnetic connection with the part of the cabinet door 2 which is not in contact with the pushing plates 12. A hand pulling plate 13 is also integrally formed between the hand pulling pieces 10 on the same cabinet door 2.

If the user needs to restore the cabinet door 2 from the unlocking station to the locking station, the user can hold the hand pulling plate 13 first, use the hand pulling plate 13 as a handle, and when pulling the hand pulling member 10, the pushing plate 12 is driven to move towards the direction away from the cabinet door 2 due to the rotation of the rotating wheel 11, and the magnetic member 8 is deformed by the pushing plate 12, so that the cabinet door 2 is easier to separate from the magnetic member 8.

Referring to fig. 1 and 2, a splicing member 14 is further slidably connected to a side of the cabinet door 2 facing away from the main cabinet body 1, and a handle 15 is integrally formed on the splicing member 14. When a user wants to open the cabinet door 2, the user can conveniently rotate or move the cabinet door 2 by holding the handle 15. When the user seals the openings of the accommodating cavities 3 again by the two cabinet doors 2, and the cabinet doors 2 are restored to the locking station, the user moves the splice pieces 14 towards the directions close to each other after the cabinet doors 2 are positioned at the locking station, so that the two splice pieces 14 are tightly attached, and then the cabinet doors 2 are fixed by being sleeved on the handle 15 through a lock chain or an iron lock.

The embodiment of the application discloses a low-voltage power distribution cabinet, which comprises the following implementation principles: when the cabinet door 2 is to be opened, the cabinet door 2 can be rotated firstly when the electronic components in the main cabinet body 1 are maintained or installed, so that the two cabinet doors 2 are rotated to be in a state of being parallel to each other, and then the cabinet door 2 is pushed towards the direction of the main cabinet body 1, so that the cabinet door 2 is overlapped with the main cabinet body 1, the purpose of hiding the cabinet door 2 is achieved, and in the process of moving the cabinet door 2, the cabinet door 2 is not difficult to move due to the fact that the cabinet door 2 occupies too large space. When the cabinet door 2 is to be restored to cover the cavity opening of the accommodating cavity 3, the hand pulling piece 10 can be pulled first, the magnetic piece 8 is pushed away through the pushing piece 9, and the cabinet door 2 is free from the constraint of the magnetic piece 8 so as to move to the locking station.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. The utility model provides a low-voltage distribution cabinet, includes the main cabinet body (1) and cabinet door (2), offer in the main cabinet body (1) and hold chamber (3), cabinet door (2) are connected in the both sides of the main cabinet body (1), its characterized in that: a driving rod (4) is fixedly connected between the upper eave and the lower eave of the main cabinet body (1), and the driving rod (4) is positioned at two sides of the main cabinet body (1); the cabinet door (2) is provided with a displacement groove (5) for the driving rod (4) to insert and slide, and the displacement groove (5) penetrates through the cabinet door (2) and extends along the length direction of the cabinet door (2); the cabinet door (2) is provided with a locking station and an unlocking station, and when the cabinet door (2) is positioned at the locking station, the cabinet door (2) is tightly attached to and shields an opening of the main cabinet body (1); when the cabinet door (2) is in the unlocking station, the cabinet door (2) is respectively positioned at two sides of the main cabinet body (1).

2. A low voltage power distribution cabinet according to claim 1, characterized in that: when the cabinet door (2) is in a locking station, one side of the cabinet door (2) close to the main cabinet body (1) is tightly attached to one side of the main cabinet body (1) provided with the accommodating cavity (3).

3. A low voltage power distribution cabinet according to claim 1, characterized in that: the end part of the main cabinet body (1) is fixedly connected with a rain shield plate (6), a plurality of rollers (7) are arranged on one side of the rain shield plate (6) facing the cabinet door (2) in a linear array mode, and the rollers (7) can be in contact with the cabinet door (2).

4. A low voltage power distribution cabinet according to claim 3, characterized in that: one end of the main cabinet body (1) deviating from the cabinet door (2) is connected with a magnetic piece (8) which can be magnetically connected with the cabinet door (2).

5. The low voltage power distribution cabinet of claim 4, wherein: the cabinet door is characterized in that a pushing piece (9) and a hand pulling piece (10) are arranged in the cabinet door (2), the ends of the pushing piece (9) and the hand pulling piece (10) penetrate out of the cabinet door (2) respectively, a rotating wheel (11) is further connected between the pushing piece (9) and the hand pulling piece (10), the pushing piece (9) and the hand pulling piece (10) are both connected with the gear teeth of the rotating wheel (11), a pushing plate (12) is fixedly connected between the pushing pieces (9) in the same cabinet door (2), and the pushing plate (12) is not magnetic; a hand pulling plate (13) is fixedly connected between the hand pulling pieces (10) positioned in the same cabinet door (2).

6. The low voltage power distribution cabinet of claim 5, wherein: the magnetic piece (8) is a metal piece with elasticity.

7. The low voltage power distribution cabinet of claim 5, wherein: a splicing piece (14) is also connected to one side, far away from the main cabinet body (1), of the cabinet door (2), and a handle (15) is integrally formed on the splicing piece (14); when the cabinet door (2) is in the locking station, the splice (14) can be clung.