WO2018068252A1

WO2018068252A1 - Intelligent power distribution cabinet apparatus

Info

Publication number: WO2018068252A1
Application number: PCT/CN2016/101967
Authority: WO
Inventors: 尚庆光
Original assignee: 尚庆光
Priority date: 2016-10-13
Filing date: 2016-10-13
Publication date: 2018-04-19

Abstract

Disclosed is an intelligent power distribution cabinet apparatus for distributing power from a power source to an electric load. The power distribution cabinet apparatus comprises a fixed cabinet body (9) for mounting a power distribution device. A bearing component (92) is fixedly mounted at an upper end of the fixed cabinet body (9), and a rotating motor (90) is mounted at a lower end of the fixed cabinet body (9), the bearing component (92) and the rotating motor (90) being located in a same vertical plane. A pivot shaft (91) is fixedly mounted to an output shaft of the rotating motor (90), and an upper end of the pivot shaft (91) is rotatably mounted in the bearing component (92). A pivot door (99) is fixedly mounted to the pivot shaft (91), and an upper end of the pivot shaft (91) is fixedly provided with a cylindrical cap body (93) located above the bearing component (92) and axially positioned by means of the bearing component (92).

Description

Intelligent power distribution cabinet device

Technical field

The invention relates to the field of power distribution, in particular to an intelligent power distribution cabinet device.

Background technique

In the field of power distribution, it is often necessary to provide a power distribution cabinet to install various power distribution device components to perform functions for distributing power for various power loads. In the power distribution cabinet, some instruments and the like are often disposed on the cabinet cover to display various power consumption parameters and operation signals for the operator when the power distribution cabinet is working. This requires powering these devices located on the cabinet cover. In order to use safety and to ensure the safety of device maintenance, these cabinet covers need to be powered off when they are open. In the prior art, some manual power-off methods are often used, which often causes troubles in operation and causes operational hazards. In some automatic power-off modes, since the contacts are on the door body, the electrical wiring and the like occupy the walking path space of the cabinet cover, thereby causing complicated wiring, and the contacts are easy to be exposed and easy for the operator to approach and not beneficial to the person and Equipment safety.

Summary of the invention

It is an object of the present invention to provide an intelligent power distribution cabinet apparatus for overcoming the above-discussed deficiencies in the prior art.

An intelligent power distribution cabinet device according to the present invention for distributing electric power from a power source to a power load, the power distribution cabinet device including a fixed cabinet for mounting a power distribution device, the upper end of the fixed cabinet being fixedly mounted There is a bearing member, and a rotating motor is mounted at a lower end of the fixed cabinet body. And the bearing member and the rotating motor are on the same vertical plane, and the pivot shaft is fixedly mounted on the output shaft of the rotating motor, and the upper end of the pivot shaft is rotatably mounted in the bearing member, and the pivot shaft is mounted on the pivot shaft A pivoting door is fixedly mounted, and an electric device is mounted on the pivoting door for driving rotation of the pivoting shaft to control opening and closing of the pivoting door, and the upper end of the pivoting shaft is fixed Provided with a cylindrical cap located above the bearing member and axially positioned by the bearing member, the cap body being provided with an opening toward the outer side and the top side and extending in the diameter direction of the cap body Slotting, the power-off operation slider is slidably fitted with the bottom side of the slot and the opposite side elevations, and the through-and-off operation slider is clamped to the inner side thereof and the cap body The resiliently pressing spring between the end walls biases the outer end thereof radially outwardly on the inner contour of the inner contour cover that is fixedly coupled to the fixed cabinet, the top of the inner contour cover The wall is fixedly provided with a downwardly extending projection a feeding slider electrically connected to the power source is slidably mounted by the elastic body in the protruding portion for electrically contacting the power receiving contact in the upwardly extending operating arm on the on/off operation slider Engaging, thereby enabling powering of the electrical components in the pivoting door; wherein the inner contour surface of the inner contour housing has a cross-sectional shape that is an elliptical shaped section, the outer contour of the inner contour housing The cross-sectional shape is a circular section, and the ellipse corresponding to the elliptical shape section is concentric with the circular shape corresponding to the circular section, thereby forming a spacer thick portion and a thin portion for operating the on-off The operating slider moves to electrically and de-energize the pivoting door, respectively; the outer end portion has a pointed end portion, and the inner end of the thin wall portion is provided with a positioning groove having a beveled edge, the positioning groove A contact sensor is mounted therein, and the contact sensor controls the rotating motor to stop running when an outer end portion of the power-off operation slider slides into the positioning groove and contacts the contact sensor.

With the above arrangement, since the electrical contacts are disposed within the casing located at the top of the pivoting shaft, it is possible to make the electrical contacts intensively set and facilitate electrical wiring. Moreover, the cover is disposed on the axial position of the pivot shaft, and does not interfere with the walking path of the cover body, thereby avoiding safety hazards such as collisions during use. By providing contacts that can be engaged and disengaged during the pivoting process, the power can be automatically turned off when the cabinet door is opened, preventing the risk of misoperation. The power supply side feed slider has a certain sliding margin, which ensures that the electrical contacts can be tightly coupled to avoid electrical clearance. By providing the inner side contour to be elliptical, it is possible to form a smooth wall thickness variation, so that the slider movement can be operated to achieve electrical engagement and disconnection, whereby a reliable operation structure can be formed. The electrical contacts of the entire device are able to avoid impact joints and avoid sliding contact over long distances, thereby improving power supply safety and increasing the life of the equipment.

DRAWINGS

1 is a schematic view showing the overall structure of a power distribution cabinet of the present invention;

Figure 2 is a schematic cross-sectional view of the position of the arrow in Figure 1.

detailed description

The present invention will be described in detail below with reference to Figs.

A smart power distribution cabinet apparatus according to an embodiment of the present invention for distributing power from a power source to a power load, the power distribution cabinet apparatus including a fixed cabinet 9 for mounting a power distribution device, the fixed cabinet 9 A bearing member 92 is fixedly mounted on the upper end, a rotating motor 90 is mounted on the lower end of the fixed cabinet 9, and the bearing member 92 and the rotating motor 90 are on the same vertical plane, and the output shaft of the rotating motor 90 is fixedly mounted thereon. a pivot shaft 91, the upper end of the pivot shaft 91 is rotatably mounted in the bearing member 92, and the pivot shaft 91 is fixed A pivoting door 99 is mounted, and the pivoting door 99 is provided with an electric device for driving the rotation of the pivoting shaft 91 to control the opening and closing of the pivoting door 99, the pivot The upper end of the rotating shaft 91 is fixedly provided with a cylindrical cap body 93 located above the bearing member 92 and axially positioned by the bearing member 92, and the cap body 93 is provided with an opening toward the outer side and the top side and along the side a grooving slot 930 extending in the diametrical direction of the cap body 93, the power-off operation slider 8 is slidably fitted with the bottom side surface of the slot 930 and the opposite side façades, and the power-on and power-off operation is slid The block 8 is biased radially outwardly by a resilient pressing spring 932 sandwiched between its inner side and the end wall 931 of the cap 93 to be fixedly coupled to the fixed cabinet 9 On the inner contour surface 79 of the inner contour cover 7, the top wall of the inner contour cover 7 is fixedly provided with a downwardly extending projection 71, and the projection 71 is slidable by the elastic body 73. a feed slider 72 electrically connected to the power source is mounted to extend upwardly on the slider 8 The power receiving contact 811 in the arm 81 is electrically engaged to thereby supply power to the electrical component in the pivoting door 99; wherein the inner contour surface 79 of the inner contour housing cover 7 has an elliptical cross-sectional shape a shape section, the cross-sectional shape of the outer side surface of the inner contour shell cover 7 is a circular section, and the ellipse corresponding to the elliptical shape section is concentric with the circular shape corresponding to the circular section, thereby forming a space 90 a thick portion 711 and a thin portion 712 for operating the on/off operation slider 8 to respectively energize and de-energize the pivot door 99; the outer end portion 82 has a pointed end portion The inner end of the thin portion 712 is provided with a positioning groove 22 having a beveled edge, in which the contact sensor 21 is mounted, and the outer end portion 82 of the on/off operation slider 8 is slid into the positioning groove 22 After being in contact with the contact sensor 21, the contact sensor 21 controls the rotating motor 90 to stop operating.

According to the embodiment, in the method of using the power distribution cabinet device, when the pivoting door 99 is in the closed state, the outer end portion 82 of the power-off operation slider 8 is engaged with the thick portion 711. Thereby causing the power receiving contact 811 to electrically engage the feed slider 72; when the pivoting door 99 is pivoted 90 degrees from the closed state such that the pivoting door 99 is in an open state, The outer end portion 82 of the power-off operation slider 8 is engaged with the thin portion 712 such that the power receiving contact 811 is electrically disconnected from the feed slider 72.

Since the electrical contacts are placed within the casing at the top of the pivoting shaft, the electrical contacts can be intensively set and facilitate electrical wiring. Moreover, the cover is disposed on the axial position of the pivot shaft, and does not interfere with the walking path of the cover body, thereby avoiding safety hazards such as collisions during use. By providing contacts that can be engaged and disengaged during the pivoting process, the power can be automatically turned off when the cabinet door is opened, preventing the risk of misoperation. The power supply side feed slider has a certain sliding margin, which ensures that the electrical contacts can be tightly coupled to avoid electrical clearance. By providing the inner side contour to be elliptical, it is possible to form a smooth wall thickness variation, so that the slider movement can be operated to achieve electrical engagement and disconnection, whereby a reliable operation structure can be formed. The electrical contacts of the entire device are able to avoid impact joints and avoid sliding contact over long distances.

It will be apparent to those skilled in the art that various modifications of the above embodiments can be made without departing from the spirit and scope of the invention. They all fall within the scope of protection of the present invention. The protection of the invention is subject to the claims appended hereto.

Claims

An intelligent power distribution cabinet device for distributing power from a power source to a power load, the power distribution cabinet device comprising a fixed cabinet (9) for mounting a power distribution device, the upper end of the fixed cabinet (9) A bearing member (92) is fixedly mounted, a rotating motor (90) is mounted at a lower end of the fixed cabinet (9), and the bearing member (92) is on the same vertical plane as the rotating motor (90), and the rotation A pivot shaft (91) is fixedly mounted on an output shaft of the motor (90), and an upper end of the pivot shaft (91) is rotatably mounted in the bearing member (92), and the pivot shaft (91) is fixedly mounted thereon. Pivoting the door (99), and the pivoting door (99) is provided with electrical components, the rotating motor (90) is used to drive the rotation of the pivoting shaft (91), thereby controlling the pivoting door (99) Opening and closing, the upper end of the pivot shaft (91) is fixedly provided with a cylindrical cap body (93) located above the bearing member (92) and axially positioned by the bearing member (92), The cap body (93) is provided with a slot (930) that opens toward the outer side and the top side and extends in the diameter direction of the cap body (93), and electrically and electrically operates the slider (8) and the slotted portion Bottom side of (930) And slidingly engaging the opposite side façades, the through-and-off operation slider (8) is by means of an elastic top sandwiched between the inner side thereof and the end wall (931) of the cap body (93) Pressing the spring (932) such that its outer end portion (82) is radially outwardly biased on the inner contour surface (79) of the inner contour cover (7) fixedly coupled to the fixed cabinet (9), The top wall of the inner contour cover (7) is fixedly provided with a downwardly extending projection (71), and the projection (71) is slidably mounted with a power source by an elastic body (73). a connected feed slider (72) for communicating with the switch Electrically engaging the power receiving contacts (811) in the upwardly extending operating arm (81) on the electrically operated slider (8) to effect powering the powered device in the pivoting door (99); wherein The cross-sectional shape of the inner contour surface (79) of the inner contour shell cover (7) is an elliptical shape section, and the cross-sectional shape of the outer side surface of the inner contour shell cover (7) is a circular section, the ellipse An ellipse corresponding to the shape section is concentric with a circle corresponding to the circular section, thereby forming a 90 degree thick wall portion (711) and a thin wall portion (712) for operating the on/off operation slider ( 8) moving to cause the pivoting door (99) to be energized and de-energized, respectively; the outer end portion (82) has a pointed end, and the inner end of the thin-walled portion (712) is provided with a beveled edge a positioning groove (22), wherein the positioning groove (22) is mounted with a contact sensor (21), and an outer end portion (82) of the power-off operation slider (8) slides into the positioning groove (22) and After contact with the contact sensor (21), the contact sensor (21) controls the rotating motor (90) to stop operating.
A method of using a smart power distribution cabinet device according to claim 1, wherein said outer end of said on/off operation slider (8) when said pivoting door (99) is in a closed state ( 82) engaging the thick portion (711) such that the power receiving contact (811) is electrically coupled to the feed slider (72); when the pivoting door (99) is from the closed state When the pivoting door (99) is in an open state, the outer end portion (82) of the power-off operation slider (8) is engaged with the thin-walled portion (712), Thereby, the power receiving contact (811) is electrically disconnected from the feed slider (72).