CN111119438A - Intelligent electromagnetic assembly system and method - Google Patents

Abstract

The invention relates to an intelligent electromagnetic assembly system, comprising: the intelligent controller comprises a fixing device arranged on a first mounting surface assembly, an electromagnetic assembler arranged on a second mounting surface assembly and matched and fixed with the fixing device, and an intelligent controller for controlling the electromagnetic assembler to be matched and fixed with the fixing device in a first working state and to be released from the matching and fixing with the fixing device in a second working state. The invention also relates to an intelligent electromagnetic assembly method. According to the invention, the electromagnetic assembler is controlled to be matched and fixed with the fixing device in the first working state by the intelligent controller in the power-off state, and is controlled to be released from matching and fixing with the fixing device in the second working state in the power-on state, so that the second mounting surface assembly can be quickly mounted on the first mounting surface assembly, and the electromagnetic assembler is convenient to mount, can be reused, is environment-friendly, safe, labor-saving, and has good quality and effect.

Description

Intelligent electromagnetic assembly system and method

Technical Field

The invention relates to the field of decoration, in particular to an intelligent electromagnetic assembly system and method.

Background

In the building field, in order to meet the requirements of energy saving, environmental protection and/or beauty inside or outside a building, it is generally necessary to install a decorative or functional panel on a wall surface. The current panel installation generally adopts the following three ways. The first is to bond the panel to the wall by using glue, which is not environment friendly because the glue contains a large amount of formaldehyde, which will seriously affect people's health. The second is to fix the panel on the wall body through cement mortar, and this kind of mounting means need consume a large amount of manual works, and the installation effect relies on installer's skill level entirely moreover, and installation effect and quality are very unstable. The third is to fix the panel on the wall body by expansion bolts, which not only easily damages the panel, but also easily leaves nails or holes on the panel and the wall body, thus being unattractive.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent electromagnetic assembly system and method which are convenient to install, environment-friendly, safe, labor-saving and good in quality and effect, aiming at the defects of the prior art.

The invention solves the technical problem and adopts the technical scheme that an intelligent electromagnetic assembly system is constructed, and comprises the following components: the intelligent controller comprises a fixing device arranged on a first mounting surface assembly, an electromagnetic assembler arranged on a second mounting surface assembly and matched and fixed with the fixing device, and an intelligent controller for controlling the electromagnetic assembler to be matched and fixed with the fixing device in a first working state and to be released from the matching and fixing with the fixing device in a second working state.

In the intelligent electromagnetic assembling system, the fixing device comprises at least one fixing frame, the fixing frame is provided with an outer convex part, and at least one through hole is formed in the outer convex part.

In the intelligent electromagnetic assembling system, the fixing frame comprises a first fixing surface and a second fixing surface which are parallel to the first mounting surface assembly, the outer convex part comprises a first vertical surface which is vertically connected with the first fixing surface, a second vertical surface which is vertically connected with the second fixing surface, and a horizontal surface which is connected with the first vertical surface and the second vertical surface, and the through hole is formed in the center of the horizontal surface.

In the intelligent electromagnetic assembling system, the first fixing surface and the second fixing surface are respectively provided with a fixing screw hole, and the fixing frame is fixed on the first mounting surface component through a fixing screw and the fixing screw hole.

In the intelligent electromagnetic assembling system, the electromagnetic assembler comprises a fixing bottom plate, at least one electromagnetic relay, a first metal clamping strip and a first spring, wherein the width of the fixing bottom plate is matched with the size of the through hole, the first metal clamping strip is arranged on the fixing bottom plate, one end of the first metal clamping strip is fixed on the first side of the fixing bottom plate, the other end of the first metal clamping strip is fixed on the first metal clamping strip, the first metal clamping strip moves away from the electromagnetic relay in a first working state of the electromagnetic assembler, and the first metal clamping strip moves towards the electromagnetic relay in a second working state of the electromagnetic assembler.

In the intelligent electromagnetic assembling system, the electromagnetic assembler further includes a second metal clamping strip arranged on the second side of the electromagnetic relay, and a second spring with one end fixed on the second side of the fixed bottom plate and the other end fixed on the second metal clamping strip, wherein in the first working state of the electromagnetic assembler, the second metal clamping strip moves away from the electromagnetic relay, and in the second working state of the electromagnetic assembler, the second metal clamping strip moves towards the electromagnetic relay.

In the intelligent electromagnetic assembling system, a plurality of clamping positions are respectively distributed on the first metal clamping strip and the second metal clamping strip at equal intervals, and the electromagnetic assembler comprises two first springs and two second springs.

In the intelligent electromagnetic assembling system, the intelligent controller comprises a power supply module, an oscillation transformation module electrically connected with the power supply module, an alternating current output module electrically connected with the oscillation transformation module, terminals respectively connected with the electromagnetic assembler and the alternating current output module, and a control module for controlling the power supply module to supply power so that the battery assembler works in the first working state when power is off and works in the second working state when power is on.

In the intelligent electromagnetic assembling system, the first installation surface component is a surface component to be assembled, the second installation surface component is a decoration component, a plurality of fixing devices are arranged on the surface component to be assembled, and a plurality of electromagnetic assemblers are correspondingly arranged on the decoration component.

Another technical solution adopted to solve the technical problem of the present invention is to construct an intelligent electromagnetic assembly method, including:

s1, mounting the fixing device of the intelligent electromagnetic assembly system on the first mounting surface component;

s2, mounting the electromagnetic assembler of the intelligent electromagnetic assembly system on a second mounting panel assembly;

s3, starting an intelligent controller of the intelligent electromagnetic assembly system to enable the electromagnetic assembly device to work in a second working state;

and S4, installing the fixing device into the electromagnetic assembling device and closing the intelligent controller to enable the electromagnetic assembling device to work in a first working state.

By implementing the intelligent electromagnetic assembly system and the method, the second installation surface component can be quickly installed on the first installation surface component in a mode that the electromagnetic assembler is matched and fixed with the fixing device in the first working state and is released from matching and fixing with the fixing device in the second working state, so that the intelligent electromagnetic assembly system and the method are convenient to install, can be used repeatedly, are environment-friendly and safe, save labor and have good quality and effect. Furthermore, the arrangement of the outer convex part of the fixing frame enables the second mounting surface component and the first mounting surface component not to be in direct contact and not to be easily affected with damp. Furthermore, first metal card strip with a plurality of screens of equidistance distribution respectively on the second metal card strip can conveniently adjust the roughness.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic block diagram of a first preferred embodiment of an intelligent electromagnetic assembly system of the present invention;

FIG. 2 is a schematic structural view of a mounting bracket of a second preferred embodiment of the intelligent electromagnetic assembly system of the present invention;

FIG. 3 is a schematic structural view of an electromagnetic assembler of a third preferred embodiment of the intelligent electromagnetic assembly system of the present invention in a first operational state;

FIG. 4 is a schematic structural view of the electromagnetic assembler of the third preferred embodiment of the intelligent electromagnetic assembly system of the present invention in a second operational state;

FIG. 5 is a functional block diagram of an intelligent controller of a fourth preferred embodiment of the intelligent electromagnetic assembly system of the present invention;

FIG. 6 is a schematic view of a metal card strip through a through hole of the intelligent electromagnetic assembly system of the present invention;

FIG. 7 is a schematic view of the metal card strip of the intelligent electromagnetic assembly system of the present invention being engaged and secured with the through hole;

FIG. 8 is a flow chart of a first preferred embodiment of the intelligent electromagnetic assembly method of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention relates to an intelligent electromagnetic assembly system, comprising: the intelligent controller comprises a fixing device arranged on a first mounting surface assembly, an electromagnetic assembler arranged on a second mounting surface assembly and matched and fixed with the fixing device, and an intelligent controller for controlling the electromagnetic assembler to be matched and fixed with the fixing device in a first working state and to be released from the matching and fixing with the fixing device in a second working state. Through intelligent control ware is controlled under the outage state electromagnetic assembly ware under first operating condition with fixing device cooperation is fixed and is controlled under the on-state electromagnetic assembly ware under second operating condition with fixing device removes the fixed mode of cooperation, can install second installation face subassembly fast and install first installation face subassembly on, not only simple to operate, can used repeatedly, environmental protection safety just saves the manual work, and quality and respond well moreover.

FIG. 1 is a schematic block diagram of a first preferred embodiment of the intelligent electromagnetic assembly system of the present invention. As shown in fig. 1, the intelligent electromagnetic assembly system of the present invention includes: the electromagnetic mounting device comprises a fixing device 300 arranged on a first mounting surface assembly 200, an electromagnetic assembler 400 arranged on a second mounting surface assembly 100 and matched and fixed with the fixing device 300, and an intelligent controller 500 for controlling the electromagnetic assembler 400 to be matched and fixed with the fixing device 300 in a first working state and to be released from being matched and fixed with the fixing device 300 in a second working state.

In a preferred embodiment of the present invention, the first mounting surface component 200 is a surface component to be decorated, which may be, for example, a wall component, a ceiling component, a body component, or any component that requires decoration. For example, in the present invention, the wall assembly may be a portion of a full wall or the full wall itself, and may also be referred to as a multi-faced wall. In the present invention, the ceiling assembly may be a portion of the entire ceiling or the entire ceiling itself. The body component may be an interior side of the body where an interior trim is to be mounted. The first mounting face assembly 200 may be any shape. One or more of the fixtures 300 may be provided on one decorative cover assembly 200. The second mounting surface assembly 100 is a decorative assembly that can be any decorative panel known in the art that can be any area size, shape decorative panel. One or more decorative elements may be mounted on one surface element to be decorated. A plurality of the electromagnetic assemblies 400 may be correspondingly disposed on each of the decoration devices. The number of the fixing devices 300 corresponds to the number and the arrangement positions of the electromagnetic assemblers 400, thereby realizing the fitting fixation.

In a preferred embodiment of the present invention, the fixing means 300 preferably comprises a fixing frame having a through hole. The electromagnetic assembly 400 preferably includes an electromagnetic relay and a snap fit device movable relative to and away from the electromagnetic relay under the control of the electromagnetic relay. Before the second mounting surface assembly 100 needs to be mounted on the first mounting surface assembly 200, the intelligent controller 500 is electrified so as to control the clamping device to move relative to the electromagnetic relay, then the electromagnetic assembling device 400 with the reduced size is inserted into the through hole, and then the intelligent controller 500 is electrified so as to control the clamping device to move away from the electromagnetic relay, so that the electromagnetic assembling device 400 is enlarged in size and is matched and fixed with the fixing device 300 in the first working state. When the second mounting surface assembly 100 needs to be removed from the first mounting surface assembly 200, the intelligent controller 500 is powered on, so that the clamping device is controlled to move relative to the electromagnetic relay, and then the electromagnetic assembler 400 with the reduced size can be taken out of the through hole.

The intelligent controller 500 may include a remote switch, a pull switch, a button, and the like. The intelligent controller 500 controls the electromagnetic assembler 400 in the power-off state, the electromagnetic assembler 400 is matched and fixed with the fixing device 300 in the first working state and is controlled in the power-on state, the electromagnetic assembler 400 is matched and fixed with the fixing device 300 in the second working state, the second mounting surface component 100 can be rapidly mounted on the first mounting surface component 200, the installation is convenient, the repeated use can be achieved, the environment is protected, the labor is saved, and the quality and the effect are good.

Fig. 2 shows a preferred holder of the present invention. Fig. 3-4 illustrate a preferred electromagnetic assembly of the present invention, wherein the electromagnetic assembly shown in fig. 3 is in a first operational state and the electromagnetic assembly shown in fig. 4 is in a second operational state.

As shown in fig. 2, the fixing device 300 includes at least one fixing frame 310, the fixing frame 310 has an external protrusion 316, and at least one through hole 312 is disposed on the external protrusion 316. The mount 310 may take any suitable shape and be secured to the first mounting surface assembly 200 by any suitable means. The through hole 312 may be disposed at any position of the convex portion 316 in any shape, such as a circular hole, a square, a polygon, and so on. The number of the fixing devices 300 may be set according to the respective sizes of the first mounting surface assembly 200 and the second mounting surface assembly 100.

In the preferred embodiment shown in fig. 2, the fixing frame 310 includes a first fixing surface 311 and a second fixing surface 313 parallel to the first mounting surface assembly 200, the outer protrusion 316 includes a first vertical surface 315 vertically connecting the first fixing surface 311, a second vertical surface vertically connecting the second fixing surface 313, and a horizontal surface 316 connecting the first vertical surface 315 and the second vertical surface, and the through hole 312 is disposed at the center of the horizontal surface 316. Thus, the first vertical surface 315, the second vertical surface, and the horizontal surface 316 form a hollow rectangle. The lengths of the first vertical surface 315 and the second vertical surface can be set according to the length of the electromagnetic assembler, so as to achieve the optimal matching effect. The first fixing surface 311 and the second fixing surface 313 are respectively provided with fixing screw holes 311 and 313, and the fixing frame 310 is fixed to the first mounting surface assembly 200 through fixing screws and the fixing screw holes 311 and 313. The fixing screw can be realized by selecting a rubber plug and a self-tapping screw or a tension-explosion screw. Of course, other fastening means and shapes may be used in other preferred embodiments of the present invention. By providing the convex portion 316, the second mounting surface group 100 and the first mounting surface assembly 200 are not in direct contact with each other and are not easily affected by moisture.

As shown in fig. 3 to 4, the electromagnetic mounter 400 includes a fixing base plate 410 having a width matching the size of the through-hole 312, an electromagnetic relay 430 disposed on the fixing base plate 410, a first metal catch strip 412 disposed on a first side of the electromagnetic relay 430, and a second metal catch strip 416 disposed on a second side of the electromagnetic relay 430, and two first springs 415 and two second springs 417. In the preferred embodiment, the fixed base plate 410 is a rectangular base plate, and the width thereof matches the diameter of the circular through hole 312. Of course, other shapes may be selected in other preferred embodiments of the invention. The electromagnetic relay 430 is disposed at the center of the fixed base plate 410, and the first metal clip strip 412 and the second metal clip strip 416 are disposed at the two sides of the electromagnetic relay at equal intervals. A first spring 415 is disposed between a first end of the first metal clip strip 412 facing the electromagnetic relay 430 and a first end of the adjacent fixed base plate 410, and a second spring 415 is also disposed between a second end of the first metal clip strip 412 facing the electromagnetic relay 430 and a second end of the adjacent fixed base plate 410. Similarly, a second spring 417 is disposed between a first end of the second metal clamping bar 416 facing the electromagnetic relay 430 and a third end of the adjacent fixed base plate 410, and a second spring 417 is disposed between a second end of the second metal clamping bar 416 facing the electromagnetic relay 430 and a fourth end of the adjacent fixed base plate 410. When the electromagnetic assembly 400 is in the first working state, the first metal clamping strip 412 and the second metal clamping strip 416 move away from the electromagnetic relay 430, and when the electromagnetic assembly 400 is in the second working state, the first metal clamping strip 412 and the second metal clamping strip 416 move towards the electromagnetic relay 430.

In the preferred embodiment shown in fig. 3-4, a plurality of detents 413 are equidistantly distributed on the first metal strip 412 and the second metal strip 416. Of course, the specific number of the detents 413 can be set according to actual needs. The fixing base plate 410 is disposed on a mounting base 420, and the mounting base 420 is fixed to the second mounting panel assembly 100 through mounting screw holes 421 formed therein.

In a simplified embodiment of the present invention, only the first metal gib 412 or the second metal gib 416 and the corresponding first spring 415 or the second spring 417 may be provided. Of course, only one of the first spring 415 and the second spring 417 may be provided, and they may be provided at other positions, such as the middle position of the metal clamping strip and the position corresponding to the fixing base plate 410, as long as they can realize the reset of the metal clamping strip.

In the present invention, the electromagnetic relay 430 may be any electromagnetic relay known in the art, when alternating current is supplied, the magnetic core 431 inside the electromagnetic relay generates a strong magnetic field to attract the first and second metal strips 412 and 416, so that the first and second metal strips 412 and 416 move toward the electromagnetic relay 430, and when the electromagnetic relay 430 is de-energized, the first spring 416 and the second spring 417 respectively reset the first and second metal strips 412 and 416.

FIG. 6 is a functional block diagram of an intelligent controller of a fourth preferred embodiment of the intelligent electromagnetic assembly system of the present invention. As shown in fig. 6, the intelligent controller 500 includes a power module 510, an oscillating transformer module 520 electrically connected to the power module 510, an ac output module 530 electrically connected to the oscillating transformer module 520, terminals 540 respectively connected to the electromagnetic assembly 400 and the ac output module 530, and a control module 550 controlling the power module 510 to supply power so that the battery assembly operates in the first operating state when power is off and operates in the second operating state when power is on.

As will be appreciated by those skilled in the art, the power module 510 may be any power module, preferably a battery module, and more preferably a rechargeable battery module, and in the preferred embodiment shown in fig. 6, the intelligent controller 500 further includes a charging module 560, through which the rechargeable battery module can be charged. In the present invention, the power module 510, the oscillating transformer module 520, the ac output module 530, the terminal 540 and the control module 550 may adopt any circuit, module and chip configuration known in the art.

Fig. 6 is a schematic view of a metal card strip through-hole of the intelligent electromagnetic assembly system of the present invention. Fig. 7 is a schematic view of the metal clip strip and the through hole of the intelligent electromagnetic assembly system according to the present invention. The principle of the present invention will be described below with reference to fig. 2 to 7, wherein the first mounting surface assembly 200 is a wall surface assembly and the second mounting surface assembly 100 is a decorative plate assembly.

The fixing bracket 310 is fixed to a wall assembly. The concrete fixing mode can be a rubber plug and a self-tapping screw or a tension-explosion screw. If a large panel assembly is to be decorated on a wall assembly, it may be desirable to attach 4 or more holders 310. The electromagnetic assembler 400 is fixed on the back of the decoration board assembly and has a position and a size matched with the fixing frame 310 so as to be clamped and fixed conveniently. The control module 550 is activated to control the power module 510 to supply dc power, such as 5V dc power, to the oscillating transformer module 520 and the ac output module 530, and the oscillating transformer module 520 and the ac output module 530 convert the dc power into 5V (or higher) ac power and supply the ac power to the electromagnetic relay 430 through the terminal 540. When the electromagnetic relay 430 is energized, a strong magnetic field is generated on the magnetic core 431 thereof, so as to attract the first metal clamping strip 412 and the second metal clamping strip 416 to move towards the same, so that the first metal clamping strip 412 and the second metal clamping strip 416 are retracted inwards as shown in fig. 6, and the electromagnetic assembler 400 becomes smaller in size so as to pass through the through hole 312. The position of the trim panel assembly can then be adjusted until it is flat. After the adjustment, the control module 550 is activated to control the power module 510 to cut off the supply of the dc power to the oscillating transformer module 520 and the ac output module 530. At this time, the electromagnetic relay 430 loses power supply, the magnetic core 431 thereof stops generating the magnetic field, and the first metal clamping strip 412 and the second metal clamping strip 416 are reset under the action of the first spring 415 and the second spring 417 respectively, namely move back to the electromagnetic relay 430, so as to be ejected outwards. Therefore, as shown in fig. 7, the first metal locking strip 412 and the second metal locking strip 416 are engaged and fixed at the position of the through hole 412 by the corresponding locking position 413, so that a series of operations such as loading, leveling, locking and the like can be rapidly completed.

By implementing the intelligent electromagnetic assembly system, the second installation surface component can be quickly installed on the first installation surface component in a mode that the electromagnetic assembler is matched and fixed with the fixing device in the first working state and is released from matching and fixing with the fixing device in the second working state, so that the intelligent electromagnetic assembly system is convenient to install, can be reused, is environment-friendly and safe, saves manpower, and has good quality and effect. Furthermore, the arrangement of the outer convex part of the fixing frame enables the second mounting surface component and the first mounting surface component not to be in direct contact and not to be easily affected with damp. Furthermore, first metal card strip with a plurality of screens of equidistance distribution respectively on the second metal card strip can conveniently adjust the roughness.

FIG. 8 is a flow chart of a first preferred embodiment of the intelligent electromagnetic assembly method of the present invention. As shown in fig. 8, in step S1, the fixing device of the intelligent electromagnetic mounting system is installed on the first mounting surface assembly. In step S2, the electromagnetic mounter of the intelligent electromagnetic mounting system is mounted on the second mounting panel assembly. In the step S3, the intelligent controller of the intelligent electromagnetic assembling system is turned on to operate the electromagnetic assembling device in the second operation state. In step S4, the fixing device is loaded into the electromagnetic mounter and the smart controller is turned off to operate the electromagnetic mounter in the first operation state. Those skilled in the art will appreciate that the intelligent electromagnetic assembly system may be constructed in accordance with the embodiments shown in fig. 1-7. No further description of its construction or principles is provided herein.

By implementing the intelligent electromagnetic assembly method, the second installation surface component can be quickly installed on the first installation surface component in a mode that the electromagnetic assembler is matched and fixed with the fixing device in the first working state and is released from matching and fixing with the fixing device in the second working state, so that the intelligent electromagnetic assembly method is convenient to install, can be used repeatedly, is environment-friendly and safe, saves manpower, and has good quality and effect. Furthermore, the arrangement of the outer convex part of the fixing frame enables the second mounting surface component and the first mounting surface component not to be in direct contact and not to be easily affected with damp. Furthermore, first metal card strip with a plurality of screens of equidistance distribution respectively on the second metal card strip can conveniently adjust the roughness.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An intelligent electromagnetic assembly system, comprising: the intelligent controller comprises a fixing device arranged on a first mounting surface assembly, an electromagnetic assembler arranged on a second mounting surface assembly and matched and fixed with the fixing device, and an intelligent controller for controlling the electromagnetic assembler to be matched and fixed with the fixing device in a first working state and to be released from the matching and fixing with the fixing device in a second working state.

2. The intelligent electromagnetic assembly system of claim 1, wherein the fixture includes at least one fixture having an outer protrusion with at least one through hole disposed thereon.

3. The intelligent electromagnetic assembly system of claim 2, wherein the mount is a first mount surface and a second mount surface that include components parallel to the first mount surface, the male portion includes a first vertical surface that perpendicularly connects the first mount surface, a second vertical surface that perpendicularly connects the second mount surface, and a horizontal surface that connects the first vertical surface and the second vertical surface, and the through hole is disposed in the center of the horizontal surface.

4. An intelligent electromagnetic assembly system according to claim 3, wherein the first fixing surface and the second fixing surface are respectively provided with fixing screw holes, and the fixing frame is fixed to the first mounting surface component through fixing screws and the fixing screw holes.

5. The intelligent electromagnetic assembly system of any one of claims 2-4, wherein the electromagnetic assembly includes a fixed base plate having a width matching the size of the through hole, at least one electromagnetic relay disposed on the fixed base plate, a first metal strip disposed on a first side of the electromagnetic relay, and a first spring having one end fixed to the first side of the fixed base plate and the other end fixed to the first metal strip, wherein in a first operating state of the electromagnetic assembly, the first metal strip moves away from the electromagnetic relay, and in a second operating state of the electromagnetic assembly, the first metal strip moves toward the electromagnetic relay.

6. The intelligent electromagnetic assembly system of claim 5, wherein the electromagnetic assembly device further comprises a second metal strip disposed on the second side of the electromagnetic relay, and a second spring having one end fixed to the second side of the fixed base plate and the other end fixed to the second metal strip, wherein in the first operating state of the electromagnetic assembly device, the second metal strip moves away from the electromagnetic relay, and in the second operating state of the electromagnetic assembly device, the second metal strip moves toward the electromagnetic relay.

7. The intelligent electromagnetic assembly system of claim 6, wherein a plurality of detents are equidistantly distributed on the first metal card strip and the second metal card strip, respectively, and the electromagnetic assembly comprises two first springs and two second springs.

8. The intelligent electromagnetic assembly system of claim 6, wherein the intelligent controller comprises a power module, an oscillating transformer module electrically connected to the power module, an ac output module electrically connected to the oscillating transformer module, terminals respectively connected to the electromagnetic assembly and the ac output module, and a control module controlling the power module to supply power so that the battery assembly operates in the first operating state when powered off and in the second operating state when powered on.

9. The intelligent electromagnetic assembly system of claim 6, wherein the first mounting surface component is a surface component to be assembled, the second mounting surface component is a decoration component, a plurality of fixing devices are arranged on the surface component to be assembled, and a plurality of electromagnetic assemblies are correspondingly arranged on the decoration component.

10. An intelligent electromagnetic assembly method, comprising:

s1, mounting the fixing device of the intelligent electromagnetic mounting system according to any one of claims 1 to 9 on the first mounting surface component;

s2, mounting the electromagnetic assembler of the intelligent electromagnetic assembly system on a second mounting panel assembly;

s3, starting an intelligent controller of the intelligent electromagnetic assembly system to enable the electromagnetic assembly device to work in a second working state;

and S4, installing the fixing device into the electromagnetic assembling device and closing the intelligent controller to enable the electromagnetic assembling device to work in a first working state.

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