CN212625859U

CN212625859U - From control battery compartment door system

Info

Publication number: CN212625859U
Application number: CN202021495571.4U
Authority: CN
Inventors: 刘祥; 姚直友
Original assignee: Shanghai Zhizu Logistics Technology Co ltd
Current assignee: Zhixing Xinneng Technology (Anhui) Co.,Ltd.
Priority date: 2020-07-23
Filing date: 2020-07-23
Publication date: 2021-02-26
Anticipated expiration: 2030-07-23

Abstract

The utility model discloses a self-control battery compartment door system, which comprises a battery compartment holding frame and a battery compartment; a plurality of accommodating sections are divided inside the battery compartment accommodating frame; the battery compartment is correspondingly arranged in the accommodating interval; one side of the accommodating area is open; the opening is correspondingly provided with a bin door, and one side wall of one end of the bin door facing the accommodating area is provided with a magnetic attraction structure; a rotating mechanism is arranged between the side edge of the other end of the bin gate and the side wall of the accommodating section; the battery compartment comprises a control assembly; the control component is arranged corresponding to the magnetic attraction structure; the control component and the rotating mechanism are matched with each other to control the opening or closing of the bin door, and the magnetic attraction structure is correspondingly adsorbed or far away from the control component. The utility model provides a from the corresponding effect of opening or closing of door that control battery compartment door system ability effective control battery compartment.

Description

From control battery compartment door system

Technical Field

The utility model relates to a trade the battery cabinet field, especially relate to battery compartment door field.

Background

The battery compartment in the power exchange cabinet is an important core component, and in the process of opening and closing the compartment door, if the battery compartment is started to be charged because the compartment door is not closed, or the battery compartment is taken and placed because the compartment door cannot be opened due to faults, and the battery compartment is charged too soon when the compartment door is not closed, some accidents are likely to occur, such as water inflow and the like, so that the whole battery compartment can be damaged, the whole power exchange cabinet is damaged, and the like.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the deficiencies in the prior art, the utility model provides a from the corresponding effect of opening or closing of door that control battery compartment door system ability effective control battery compartment.

The technical scheme is as follows: in order to achieve the above purpose, the technical scheme of the utility model is as follows:

a self-control battery compartment door system comprises a battery compartment accommodating frame and a battery compartment; a plurality of accommodating sections are divided inside the battery compartment accommodating frame; the battery compartment is correspondingly arranged in the accommodating interval; one side of the accommodating area is open; the opening is correspondingly provided with a bin door, and one side wall of one end of the bin door facing the accommodating area is provided with a magnetic attraction structure; a rotating mechanism is arranged between the side edge of the other end of the bin gate and the side wall of the accommodating section; the battery compartment comprises a control assembly; the control component is arranged corresponding to the magnetic attraction structure; the control component and the rotating mechanism are matched with each other to control the opening or closing of the bin door, and the magnetic attraction structure is correspondingly adsorbed or far away from the control component.

Furthermore, the magnetic attraction structure comprises a matching plate and a magnet ring; one side of the matching plate is fixedly arranged on the bin gate; a magnet ring is fixedly arranged on one side of the matching plate, which is far away from the bin gate; the magnet ring is rectangular; the magnet ring is sleeved on the control assembly correspondingly.

Furthermore, one side of the control component, which faces the bin door, is provided with an embedded hole; a magnetic suction block is arranged in the control component corresponding to the position of the embedding hole; one side of the magnetic suction block corresponding to the embedding hole is provided with a nesting port; the power mechanism is in driving connection with the bottom of the magnetic suction block; the magnetic block moves up and down, the nesting port corresponds to the embedding hole, and the magnet ring penetrates through the embedding hole and is nested on the nesting port.

Furthermore, the looping opening is in a fishhook shape, and the magnet ring is correspondingly sleeved in the bent end of the looping opening.

Further, the rotating mechanism includes a rotating shaft; the power device is in driving connection with the rotating shaft; one end of the bin gate is provided with a column hole; the column hole is correspondingly sleeved on the rotating shaft, and the rotating shaft rotates to drive the bin gate to rotate; the other end of the bin gate swings; the swing end of the bin gate corresponds to the magnetic attraction structure.

Furthermore, a controller is arranged at the top of the battery compartment accommodating frame, and a signal output end of the controller is electrically connected with a signal input end of the power mechanism and a signal input end of the power device respectively.

Has the advantages that: the utility model can effectively automatically control the opening or closing of the bin gate through the controller, is convenient for taking or placing the battery, and ensures the safety of the battery during charging; including but not limited to the following technical effects:

1) the arranged bin gate can be opened or closed automatically, so that a user can conveniently replace and use the battery, meanwhile, the situation that the bin gate is not closed in a charging state of the battery can be avoided, the charging safety is ensured, and the occurrence of electric leakage is avoided;

2) set up the magnet ring on the door and mutually support the absorption with the magnetic block of control assembly in, avoid the magnet ring to deviate from the socket to when having avoided battery charging, the condition of electric leakage probably takes place.

Drawings

FIG. 1 is a diagram showing a structure of a battery compartment holding frame;

FIG. 2 is a view showing a magnetic attraction structure;

FIG. 3 is a perspective view of a magnetic structure;

FIG. 4 is a binding diagram of the adsorption principle;

fig. 5 is a rotary structural view.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in the attached figures 1-5: a self-control battery compartment door system comprises a battery compartment accommodating frame 1 and a battery compartment 2; a plurality of accommodating sections 11 are divided inside the battery compartment accommodating frame 1; the battery compartment 2 is correspondingly arranged in the accommodating section 11; one side of the accommodating area 11 is provided with an opening 12; a bin door 13 is correspondingly arranged on the open port 12, and a magnetic attraction structure 14 is arranged on one side wall of one end of the bin door 13 facing the accommodating area 11; a rotating mechanism 15 is arranged between the side edge of the other end of the bin gate 13 and the side wall of the accommodating section 11; the battery compartment 2 comprises a control assembly 21; the control component 21 is arranged corresponding to the magnetic attraction structure 14; the control component 21 and the rotating mechanism 15 are matched with each other to control the bin door 13 to open or close, and the magnetic attraction structure 14 is correspondingly adsorbed or far away from the control component 21; thus, the bin door is in a closed state when the battery is charged, and the safety is ensured; is convenient to open when in use and is simple and convenient to operate.

The magnetic attraction structure 14 comprises a matching plate 141 and a magnet ring 142; one side of the matching plate 141 is fixedly arranged on the bin gate 13; a magnet ring 142 is fixedly arranged on one side of the matching plate 141 away from the bin gate 13; the magnet ring 142 is rectangular; the magnet ring 142 is sleeved on the control component 21 correspondingly, so that the situation that the bin gate is not closed when the battery is charged can be avoided.

The control component 21 is provided with a tabling hole 211 facing to one side of the bin gate 13; a magnetic suction block 212 is arranged in the control component 21 corresponding to the position of the embedding hole 211; one side of the magnetic suction block 212 corresponding to the embedding hole 211 is provided with a nesting port 213; the power mechanism is in driving connection with the bottom of the magnetic suction block 212; the magnetic block 212 moves up and down, the nesting port 213 corresponds to the embedding hole 211, and the magnet ring 142 penetrates through the embedding hole 211 and is nested on the nesting port 213; and the magnetic block 212 and the magnet ring 142 are mutually adsorbed, so that the situation that the magnet ring 142 is separated from the bin gate to cause electric leakage and the like is avoided.

The looping port 213 is in a fishhook shape, and the magnet ring 142 is correspondingly sleeved in the bent end of the looping port 213; this effectively prevents the magnet ring 142 from coming out of the nesting opening 213.

The rotating mechanism 15 includes a rotating shaft 151; the power device is in driving connection with the rotating shaft 151; one end of the bin gate 13 is provided with a column hole 131; the column hole 131 is correspondingly sleeved on the rotating shaft 151, and the rotating shaft 151 rotates to drive the bin gate 13 to rotate; the other end of the bin gate 13 swings; the swing end of the bin gate 13 corresponds to the magnetic attraction structure 14; therefore, the bin door can be correspondingly controlled to be opened or closed by controlling the power device.

The top of the battery compartment accommodating frame 1 is provided with a controller, and the signal output end of the controller is electrically connected with the signal input ends of the power mechanism and the power device respectively; the controller can detect whether the battery is in a charging state or not through the detection device so as to correspondingly control the opening and closing conditions of the bin gate, and avoid the conditions of electric leakage and the like caused by the opening of the bin gate during charging; when the door is closed, the controller outputs a signal to the power mechanism to control the magnetic attraction block 212 to move upwards, so that the nesting port 213 corresponds to the embedding hole 211; meanwhile, the controller outputs signals to the power device, the power device controls the bin gate to rotate through the rotating shaft, the magnet ring 142 on the corresponding bin gate moves to gradually approach to pass through the embedding hole 211 and is sleeved and connected on the sleeved connection port 213, and the magnet ring 142 is adsorbed to the magnetic attraction block 212 to avoid slipping; when the door is opened, the controller outputs a signal to the power mechanism to control the magnetic attraction block 212 to move downwards, so that the nesting port 213 is far away from the embedding hole 211; meanwhile, the controller outputs a signal to the power device, the power device controls the bin gate to rotate through the rotating shaft, the magnet ring 142 gradually comes out of the sleeving opening 213 and exits from the embedding hole 211, and gradually gets away from the control assembly; therefore, the opening or closing of the battery bin door can be realized, so that the battery in the battery bin can be charged safely and stably.

The above description is of the preferred embodiment of the present invention, and it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the principles of the invention, and these modifications and variations are considered to be within the scope of the invention.

Claims

1. A from control battery compartment door system which characterized in that: comprises a battery compartment accommodating frame (1) and a battery compartment (2); a plurality of accommodating sections (11) are divided inside the battery compartment accommodating frame (1); the battery compartment (2) is correspondingly arranged in the accommodating section (11); one side of the accommodating space (11) is open (12); a bin door (13) is correspondingly arranged on the opening (12), and a magnetic attraction structure (14) is arranged on one side wall of one end of the bin door (13) facing the accommodating area (11); a rotating mechanism (15) is arranged between the side edge of the other end of the bin gate (13) and the side wall of the accommodating section (11); the battery compartment (2) comprises a control assembly (21); the control component (21) is arranged corresponding to the magnetic attraction structure (14); the control component (21) and the rotating mechanism (15) are matched with each other to control the bin door (13) to open or close, and the magnetic attraction structure (14) is correspondingly adsorbed or far away from the control component (21).

2. A self-controlling battery compartment door system according to claim 1, characterised in that: the magnetic attraction structure (14) comprises a matching plate (141) and a magnet ring (142); one side of the matching plate (141) is fixedly arranged on the bin gate (13); a magnet ring (142) is fixedly arranged on one side of the matching plate (141) far away from the bin gate (13); the magnet ring (142) is rectangular; the magnet ring (142) is sleeved on the control component (21) correspondingly.

3. A self-controlling battery compartment door system according to claim 1, characterised in that: one side of the control component (21) facing the bin door (13) is provided with a tabling hole (211); a magnetic block (212) is arranged in the control component (21) corresponding to the position of the embedding hole (211); one side of the magnetic suction block (212) corresponding to the embedding hole (211) is provided with a nesting port (213); the power mechanism is in driving connection with the bottom of the magnetic suction block (212); the magnetic block (212) moves up and down, the nesting port (213) corresponds to the embedding hole (211), and the magnet ring (142) penetrates through the embedding hole (211) and is nested on the nesting port (213).

4. A self-controlling battery compartment door system according to claim 3, characterised in that: the looping port (213) is in a fishhook shape, and the magnet ring (142) is correspondingly sleeved in the bending end of the looping port (213).

5. A self-controlling battery compartment door system according to claim 1, characterised in that: the rotating mechanism (15) comprises a rotating shaft (151); the power device is in driving connection with the rotating shaft (151); one end of the bin gate (13) is provided with a column hole (131); the column hole (131) is correspondingly sleeved on the rotating shaft (151), and the rotating shaft (151) rotates to drive the bin door (13) to rotate; the other end of the bin gate (13) swings; the swing end of the bin gate (13) corresponds to the magnetic attraction structure (14).

6. A self-controlling battery compartment door system according to claim 1, characterised in that: the top of the battery compartment containing frame (1) is provided with a controller, and the signal output end of the controller is electrically connected with the signal input ends of the power mechanism and the power device respectively.