CN108521742B - Automatic change electric cabinet - Google Patents

Abstract

The invention discloses an automatic electric cabinet, which comprises an electric cabinet (1), wherein the electric cabinet (1) is divided into a containing room (a) and a working room (b), and one end of the working room (b) is provided with a cooling fan (300); the top of accomodating room (a) is fixed with a roof (2), has seted up several first direction spout (100) on this roof (2), the inside of accomodating room (a) is provided with several electrical equipment mounting panel (3) perpendicularly, and one side at this electrical equipment mounting panel (3) top upwards extends one can with first direction spout (100) clearance sliding fit's first slide rail (31). The invention has compact structure and ingenious conception, can install a large amount of electrical equipment in the electrical cabinet, reduces the whole floor area, simultaneously improves the air fluidity in the electrical cabinet, can perform centralized cooling treatment on all the electrical equipment in the electrical cabinet, and prolongs the whole service life.

Description

Automatic change electric cabinet

Technical Field

The invention relates to the field of corollary equipment related to electrified equipment, in particular to an automatic electric cabinet.

Background

The automatic electrical equipment installed in the electrical cabinets is various in types, needs can be met by the electrical cabinets, the electrical cabinets occupy large space and area, poor air flowability and poor internal heat dissipation performance in the electrical cabinets are easy to cause, and the service life of the whole electrical equipment working in a high-temperature environment for a long time is limited.

Disclosure of Invention

The invention aims to provide an automatic electric cabinet which has small floor area and is easier to control the internal temperature environment, and can effectively solve the problems in the background technology.

In order to solve the problems existing in the background technology, the electric cabinet comprises an electric cabinet 1, wherein the electric cabinet 1 is divided into a containing room a and a working room b, and a heat radiation fan 300 is installed at one end of the working room b;

a top plate 2 is fixed at the top of the storage room a, a plurality of first guide sliding grooves 100 are formed in the top plate 2, a plurality of electrical equipment mounting plates 3 are vertically arranged in the storage room a, a first sliding rail 31 which can be in clearance sliding fit with the first guide sliding grooves 100 extends upwards from one side of the top of each electrical equipment mounting plate 3, and a first rotating shaft 6 is fixed at the end part of one end, opposite to the working room b, of the bottom edge of each electrical equipment mounting plate 3;

the electrical cabinet 1 is integrally of a cuboid box-shaped structure, an upper cover 4 which can be matched with the cover in a buckling mode is arranged on the upper top face of the electrical cabinet 1, a base plate 5 which can be fixedly connected with the electrical cabinet 1 is installed at the bottom of the electrical cabinet 1, a plurality of positioning sliding grooves 51 which are used for the first rotating shaft 6 to slide in a clearance mode are formed in the base plate 5, and a driving device which drives the electrical equipment mounting plate 3 to move towards the inside of the workshop b is arranged inside the upper cover 4.

A door opening is formed in one side, close to the working room b, of the electrical cabinet 1, a door 7 which can be matched with the door opening in a switch mode is arranged in the door opening, one end, facing the folding direction of the electrical equipment mounting plate 3, in the storage room a is separated into a common storage room a1 through a partition plate, and the length of the common storage room a1 is larger than the width of the electrical equipment mounting plate 3.

The width of the workshop b is larger than that of the electrical equipment mounting plate 3.

An automatic electric cabinet driving device for driving an electric equipment mounting plate 3 to move towards a workshop b comprises a driving frame 8 capable of linearly moving along the length direction of an upper cover 4, the driving frame 8 is integrally arranged at one side opposite to the workshop b, a driving rod 9 is arranged at the bottom of one end of the driving frame 8, the driving rod 9 is in rotating connection and matching with the driving frame 8 through a second rotating shaft 11, the second rotating shaft 11 is concentrically arranged with a first rotating shaft 6, a positioning plate 10 is fixedly arranged at one side of the driving frame 8, a motor positioning plate 12 extends outwards along the length direction of the bottom of one end of the driving rod 9 opposite to the second rotating shaft 11, a first driving motor 13 capable of sliding up and down along the end part of the driving rod 9 is arranged on the motor positioning plate 12, a second shaft hole 14 capable of allowing an output shaft of the first driving motor 13 to pass through is formed in the middle part of the motor positioning plate 12, the output shaft end of the first driving motor 13 passes through the return spring 200 and is connected with the driving gear 15, a rack 32 which can be meshed with the driving gear 15 is installed on one side of the first slide rail 31, and a folding device which drives the driving rod 9 to move towards the driving frame 8 is arranged between the driving frame 8 and the driving rod 9.

A second slide rail 16 is fixed at the top of the driving frame 8, an internal threaded hole 17 is formed in the middle of the second slide rail 16 along the length direction of the second slide rail, a second guide chute 18 which can be in clearance sliding fit with the second slide rail 16 is formed in the top of the upper cover 4, a driving cover 19 is covered and buckled at the top of the second guide chute 18, a second driving motor 20 is installed in the driving cover 19, a screw rod 21 which can be in spiral fit with the internal threaded hole 17 is installed at the output shaft end of the second driving motor 20, the end part of the screw rod 21 is connected with a bearing seat 22, and the bearing seat 22 is fixed on the inner wall of the driving cover 19;

first slide rail 31 is located and is fixed with a third slide rail 311 near the top of 8 one ends of carriage, the bottom that the actuating lever 9 is located and is close to 11 one ends of second pivot inwards mills out a recess 91 that supplies third slide rail 311 clearance to pass through, the bottom of actuating lever 9 is seted up along its length direction and is supplied third slide rail 311 clearance sliding fit's third direction spout 92, the one end and the recess 91 of this third direction spout 92 are linked together, recess 91 in the embedding install first electromagnetic induction device 93, third slide rail 311 in the embedding install first magnet piece.

A fourth guide chute 95 is formed in the end face of the driving rod 9 near one end of the first driving motor 13, a fourth slide rail in clearance sliding fit with the fourth guide chute 95 is installed on one side of the first driving motor 13, and a plug 96 for preventing the fourth slide rail from exceeding the fourth guide chute 95 is installed at the upper end of the fourth guide chute 95.

An automatic electric cabinet folding device for driving a driving rod 9 to move towards a driving frame 8 direction comprises an arc-shaped guide rail 101 arranged along a rotation path of a first driving motor 13 and a driving seat 81 arranged at the bottom of the driving frame 8 and located at one end opposite to the driving rod 9, wherein a first ear seat 811 and a second ear seat 812 are respectively installed at the inner side of the driving seat 81, a first connecting rod 813 matched with the first ear seat 811 in a rotating manner is installed on the first ear seat 811, a second connecting rod 814 is arranged at the end part of the first connecting rod 813, a telescopic cylinder 815 matched with the second ear seat 812 in a rotating manner is installed on the second ear seat 812, the end part of a piston shaft of the telescopic cylinder 815 is connected with the first connecting rod 813 and the second connecting rod 814 through a hinged shaft, and the end part of the second connecting rod 814 is matched with a third ear seat 94 installed at one side of the driving rod 9 in a rotating manner;

the bottom of the positioning plate 10 is installed on the arc-shaped guide rail 101, the arc-shaped guide rail 101 is concentric with the second rotating shaft 11, and an inclined plane is milled at one end, facing the first driving motor 13, of the arc-shaped guide rail 101.

A second electromagnetic induction device is embedded in the upper top surface of the first driving motor 13, and second magnet pieces 1011 corresponding to the second electromagnetic induction device are respectively embedded in the two ends of the arc-shaped guide rail 101.

Due to the adoption of the technical scheme, the invention has the following beneficial effects: compact structure conceives ingeniously, can install a large amount of electrical equipment in the regulator cubicle, has reduced holistic area, has still improved the mobility of air in the regulator cubicle simultaneously, can carry out concentrated cooling to all electrical equipment in the regulator cubicle and handle, has improved holistic life.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of an exploded structure of the present invention;

FIG. 2 is an exploded view of the driving device and the folding device of the present invention;

FIG. 3 is a schematic view of the bottom structure of the driving cap in the present invention;

FIG. 4 is a schematic view of the bottom structure of the driving rod of the present invention;

fig. 5 is a schematic view of the structure of the mounting plate of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the technical scheme in the embodiment of the invention will be clearly and completely described below with reference to the attached drawings in the embodiment of the invention.

Referring to fig. 1-5, the present embodiment is implemented by adopting the following technical solution, which includes an electrical cabinet 1, where the electrical cabinet 1 is divided into a storage room a and a working room b, and a heat dissipation fan 300 is installed at one end of the working room b;

a top plate 2 is fixed at the top of the storage room a, a plurality of first guide sliding grooves 100 are formed in the top plate 2, a plurality of electrical equipment mounting plates 3 are vertically arranged in the storage room a, a first sliding rail 31 which can be in clearance sliding fit with the first guide sliding grooves 100 extends upwards from one side of the top of each electrical equipment mounting plate 3, and a first rotating shaft 6 is fixed at the end part of one end, opposite to the working room b, of the bottom edge of each electrical equipment mounting plate 3;

the electrical cabinet 1 is integrally of a cuboid box-shaped structure, an upper cover 4 which can be matched with the cover in a buckling mode is arranged on the upper top face of the electrical cabinet 1, a base plate 5 which can be fixedly connected with the electrical cabinet 1 is installed at the bottom of the electrical cabinet 1, a plurality of positioning sliding grooves 51 which are used for the first rotating shaft 6 to slide in a clearance mode are formed in the base plate 5, and a driving device which drives the electrical equipment mounting plate 3 to move towards the inside of the workshop b is arranged inside the upper cover 4.

A door opening is formed in one side, close to the working room b, of the electrical cabinet 1, a door 7 which can be matched with the door opening in a switch mode is arranged in the door opening, one end, facing the folding direction of the electrical equipment mounting plate 3, in the storage room a is separated into a common storage room a1 through a partition plate, and the length of the common storage room a1 is larger than the width of the electrical equipment mounting plate 3.

The width of the workshop b is larger than that of the electrical equipment mounting plate 3.

An automatic electric cabinet driving device for driving an electric equipment mounting plate 3 to move towards a workshop b comprises a driving frame 8 capable of linearly moving along the length direction of an upper cover 4, the driving frame 8 is integrally arranged at one side opposite to the workshop b, a driving rod 9 is arranged at the bottom of one end of the driving frame 8, the driving rod 9 is in rotating connection and matching with the driving frame 8 through a second rotating shaft 11, the second rotating shaft 11 is concentrically arranged with a first rotating shaft 6, a positioning plate 10 is fixedly arranged at one side of the driving frame 8, a motor positioning plate 12 extends outwards along the length direction of the bottom of one end of the driving rod 9 opposite to the second rotating shaft 11, a first driving motor 13 capable of sliding up and down along the end part of the driving rod 9 is arranged on the motor positioning plate 12, a second shaft hole 14 capable of allowing an output shaft of the first driving motor 13 to pass through is formed in the middle part of the motor positioning plate 12, the output shaft end of the first driving motor 13 passes through the return spring 200 and is connected with the driving gear 15, a rack 32 which can be meshed with the driving gear 15 is installed on one side of the first slide rail 31, and a folding device which drives the driving rod 9 to move towards the driving frame 8 is arranged between the driving frame 8 and the driving rod 9.

A second slide rail 16 is fixed at the top of the driving frame 8, an internal threaded hole 17 is formed in the middle of the second slide rail 16 along the length direction of the second slide rail, a second guide chute 18 which can be in clearance sliding fit with the second slide rail 16 is formed in the top of the upper cover 4, a driving cover 19 is covered and buckled at the top of the second guide chute 18, a second driving motor 20 is installed in the driving cover 19, a screw rod 21 which can be in spiral fit with the internal threaded hole 17 is installed at the output shaft end of the second driving motor 20, the end part of the screw rod 21 is connected with a bearing seat 22, and the bearing seat 22 is fixed on the inner wall of the driving cover 19;

first slide rail 31 is located and is fixed with a third slide rail 311 near the top of 8 one ends of carriage, the bottom that the actuating lever 9 is located and is close to 11 one ends of second pivot inwards mills out a recess 91 that supplies third slide rail 311 clearance to pass through, the bottom of actuating lever 9 is seted up along its length direction and is supplied third slide rail 311 clearance sliding fit's third direction spout 92, the one end and the recess 91 of this third direction spout 92 are linked together, recess 91 in the embedding install first electromagnetic induction device 93, third slide rail 311 in the embedding install first magnet piece.

A fourth guide chute 95 is formed in the end face of the driving rod 9 near one end of the first driving motor 13, a fourth slide rail in clearance sliding fit with the fourth guide chute 95 is installed on one side of the first driving motor 13, and a plug 96 for preventing the fourth slide rail from exceeding the fourth guide chute 95 is installed at the upper end of the fourth guide chute 95.

An automatic electric cabinet folding device for driving a driving rod 9 to move towards a driving frame 8 direction comprises an arc-shaped guide rail 101 arranged along a rotation path of a first driving motor 13 and a driving seat 81 arranged at the bottom of the driving frame 8 and located at one end opposite to the driving rod 9, wherein a first ear seat 811 and a second ear seat 812 are respectively installed at the inner side of the driving seat 81, a first connecting rod 813 matched with the first ear seat 811 in a rotating manner is installed on the first ear seat 811, a second connecting rod 814 is arranged at the end part of the first connecting rod 813, a telescopic cylinder 815 matched with the second ear seat 812 in a rotating manner is installed on the second ear seat 812, the end part of a piston shaft of the telescopic cylinder 815 is connected with the first connecting rod 813 and the second connecting rod 814 through a hinged shaft, and the end part of the second connecting rod 814 is matched with a third ear seat 94 installed at one side of the driving rod 9 in a rotating manner;

the bottom of the positioning plate 10 is installed on the arc-shaped guide rail 101, the arc-shaped guide rail 101 is concentric with the second rotating shaft 11, and an inclined plane is milled at one end, facing the first driving motor 13, of the arc-shaped guide rail 101.

A second electromagnetic induction device is embedded in the upper top surface of the first driving motor 13, and second magnet pieces 1011 corresponding to the second electromagnetic induction device are respectively embedded in the two ends of the arc-shaped guide rail 101.

The following will further explain the application method and the principle of the technical solution part in this embodiment with reference to the accompanying drawings:

when tools and maintenance equipment with high use frequency can be stored in the temporary storage room a1, because the storage room a1 is stationary and can be directly stored and placed in a storage way, and for some sports goods which are not commonly used, the tools and maintenance equipment can be directly stored in the electrical equipment mounting plate 3, when the electrical equipment mounting plate 3 is opened, the second driving motor 20 is firstly started, the second driving motor 20 drives the whole driving frame 8 to do linear motion along the length direction of the second guide chute 18 through the second slide rail 16 while the driving screw rod 21 rotates, when the first electromagnetic induction device 93 induces the corresponding first magnet piece, the second driving motor 20 can be closed through the control circuit, but the driving gear 15 is not contacted with the rack 32 at the moment;

then the telescopic cylinder 815 is started, the telescopic cylinder 815 drives the driving rod 9 to fold inwards through the first connecting rod 813 and the second connecting rod 814 in the extending process, the upper top surface of the first driving motor 13 directly contacts with the inclined surface on the arc-shaped guide rail 101 in the folding process, when the upper top surface of the first driving motor 13 completely reaches the arc-shaped guide rail 101 through the inclined surface, the second electromagnetic induction device induces the second magnet piece 1011 to close the first driving motor 13 through the control circuit, and at this time, under the compression of the arc-shaped guide rail 101, the first driving motor 13 downwards moves along the height direction of the fourth guide chute 95 through the fourth sliding rail until the driving gear 15 is meshed with the rack 32;

after the driving gear 15 is meshed with the rack 32, the first driving motor 13 is started, the first driving motor 13 drives the whole electrical equipment mounting plate 3 to start to translate into the working room b through the driving gear 15 and the rack 32 in the starting process, when the electrical equipment mounting plate 3 starts to translate, the third slide rail 311 starts to enter the third guide slide groove 92, then the electrical equipment mounting plate 3 translates according to the linear directions of the positioning slide groove 51 and the third guide slide groove 92 under the continuous rotation of the driving gear 15, when the first electromagnetic induction device in the third slide rail 311 is in translational contact with the first magnet piece 93 close to one end of the first driving motor 13, the first driving motor 13 can be closed through the control circuit, at the moment, the electrical equipment mounting plate 3 completely enters the working room b, and the first rotating shaft 6 enters the top of the positioning slide groove 51, in this state, the telescopic cylinder 815 is continuously started to continue to extend outwards, the whole driving rod 9 is continuously driven to rotate around the first rotating shaft 6 and the second rotating shaft 11 through the first connecting rod 813 and the second connecting rod 814, in the process, the upper top surface of the first driving motor 13 always moves on the arc-shaped guide rail 101 under the driving of the return spring 200, while the whole electric equipment mounting plate 3 is driven to rotate and finally unfold in the working room by the driving gear 15 and the third slide rail 311, when the electric equipment mounting plate 3 is substantially unfolded to be parallel to the housing room a, the second electromagnetic induction device in the first driving motor 13 contacts the second magnet piece 1011 near one end of the driving frame 8, the telescopic cylinder 815 can be closed through the control circuit, and the related maintenance operation can be carried out on the electrical equipment mounting plate 3, the electrical equipment mounted on the electrical equipment mounting board 3 cannot be larger than the interval between the electrical equipment mounting boards 3; after the maintenance operation is completed, the retractable cylinder 815 is started to fold inwards, the entire electrical equipment mounting plate 3 is driven to fold through the third slide rail 311, when the electrical equipment mounting plate 3 is gradually kept vertical to the storage room a, the first driving motor 13 is not separated from the arc-shaped guide rail 101 at the moment, namely, the driving gear 15 and the rack gear 32 are continuously engaged, the first driving motor 13 is started to guide the electrical equipment mounting plate 3 into the storage room a, after the rack gear 32 is separated from the driving gear 15, the retractable cylinder 815 is continuously started to fold inwards, the first driving motor 13 is separated from the arc-shaped guide rail 101 at the moment, the driving gear 15 is separated from the rack gear 32 under the driving of the return spring 200, and the lower bottom surface of the driving gear 15 is higher than the upper top surface of the electrical equipment mounting plate 3, so that the entire driving frame 8 can linearly move along the length direction of the second guide chute 18 under the driving of the second driving motor 20 .

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (4)

1. An automatic electric cabinet is characterized by comprising an electric cabinet (1), wherein the electric cabinet (1) is divided into a containing room (a) and a working room (b), and one end of the working room (b) is provided with a cooling fan (300);

a top plate (2) is fixed at the top of the storage room (a), a plurality of first guide sliding grooves (100) are formed in the top plate (2), a plurality of electrical equipment mounting plates (3) are vertically arranged in the storage room (a), a first sliding rail (31) in clearance sliding fit with the first guide sliding grooves (100) extends upwards from one side of the top of each electrical equipment mounting plate (3), and a first rotating shaft (6) is fixed at the end part of one end, opposite to the working room (b), of the bottom edge of each electrical equipment mounting plate (3);

the electrical cabinet (1) is integrally of a cuboid box-shaped structure, an upper cover (4) matched with the cover in a buckled mode is arranged on the upper top surface of the electrical cabinet, a base plate (5) fixedly connected with the electrical cabinet is installed at the bottom of the electrical cabinet (1), a plurality of positioning sliding grooves (51) allowing a first rotating shaft (6) to slide in a clearance mode are formed in the base plate (5), and a driving device for driving an electrical equipment mounting plate (3) to move towards a workshop (b) is arranged inside the upper cover (4);

a door opening is formed in one side, close to the working room (b), of the electrical cabinet (1), a box door (7) matched with a switch of the electrical cabinet is arranged in the door opening, one end, facing the folding direction of the electrical equipment mounting plate (3), in the containing room (a) is divided into a common containing room (a1) through a partition plate, and the length of the common containing room (a1) is larger than the width of the electrical equipment mounting plate (3);

the width of the working room (b) is larger than that of the electrical equipment mounting plate (3);

the driving device comprises a driving frame (8) capable of linearly moving along the length direction of the upper cover (4), the driving frame (8) is integrally arranged on one side opposite to the working room (b), a driving rod (9) is arranged at the bottom of one end of the driving frame (8), the driving rod (9) is in rotating connection and matching with the driving frame (8) through a second rotating shaft (11), the second rotating shaft (11) and the first rotating shaft (6) are concentrically arranged, a positioning plate (10) is fixedly arranged on one side of the driving frame (8), a motor positioning plate (12) extends outwards along the length direction of the bottom of one end, opposite to the second rotating shaft (11), of the driving rod (9), a first driving motor (13) capable of being attached to the end part of the driving rod (9) to slide up and down is arranged on the motor positioning plate (12), a second shaft hole (14) for an output shaft of the first driving motor (13) to pass through in a clearance is formed in the middle of the motor positioning plate (12), an output shaft end of the first driving motor (13) penetrates through a return spring (200) to be connected with a driving gear (15), a rack (32) meshed with the driving gear (15) is installed on one side of the first sliding rail (31), and a folding device for driving the driving rod (9) to move towards the driving frame (8) is arranged between the driving frame (8) and the driving rod (9);

a second slide rail (16) is fixed at the top of the driving frame (8), an internal threaded hole (17) is formed in the middle of the second slide rail (16) along the length direction of the second slide rail, a second guide sliding chute (18) in clearance sliding fit with the second slide rail (16) is formed in the top of the upper cover (4), a driving cover (19) is covered and buckled on the top of the second guide sliding chute (18), a second driving motor (20) is installed in the driving cover (19), a screw rod (21) in spiral fit with the internal threaded hole (17) is installed at the output shaft end of the second driving motor (20), the end part of the screw rod (21) is connected with a bearing seat (22), and the bearing seat (22) is fixed on the inner wall of the driving cover (19);

first slide rail (31) are located the top that is close to carriage (8) one end and are fixed with a third slide rail (311), drive lever (9) are located the bottom that is close to second pivot (11) one end and inwards mill out recess (91) that supply third slide rail (311) clearance to pass through, the bottom of drive lever (9) is seted up along its length direction and is supplied third slide rail (311) clearance sliding fit's third direction spout (92), and the one end and recess (91) of this third direction spout (92) are linked together, recess (91) embedded installation have first electromagnetic induction device (93), third slide rail (311) embedded installation have first magnet piece.

2. The automated electric cabinet according to claim 1, wherein the driving rod (9) is provided with a fourth guiding sliding groove (95) at an end surface near one end of the first driving motor (13), a fourth sliding rail in clearance sliding fit with the fourth guiding sliding groove (95) is installed at one side of the first driving motor (13), and a plug (96) for preventing the fourth sliding rail from going out of the fourth guiding sliding groove (95) is installed at the upper end of the fourth guiding sliding groove (95).

3. An automatic electric cabinet folding device for driving a driving rod (9) to move towards a driving frame (8), wherein the driving rod (9) is arranged at the bottom of one end of the driving frame (8), the driving rod (9) is in rotating connection and matching with the driving frame (8) through a second rotating shaft (11), a motor positioning plate (12) is extended outwards from the bottom of one end, opposite to the second rotating shaft (11), of the driving rod (9), a first driving motor (13) which can be attached to the end part of the driving rod (9) and can slide up and down is arranged on the motor positioning plate (12), the automatic electric cabinet folding device is characterized by comprising an arc-shaped guide rail (101) arranged along the rotating path of the first driving motor (13) and a driving seat (81) arranged at the bottom of the driving frame (8) and positioned at one end, opposite to the driving rod (9), and a first ear seat (811) and a second ear seat (812) are respectively installed on the inner side of the driving seat (81), a first connecting rod (813) which is in rotary connection and matching with the first ear seat (811) is mounted on the first ear seat (811), a second connecting rod (814) is arranged at the end part of the first connecting rod (813), a telescopic cylinder (815) which is in rotary connection and matching with the second ear seat (812) is mounted on the second ear seat (812), the end part of a piston shaft of the telescopic cylinder (815) is connected with the first connecting rod (813) and the second connecting rod (814) through a hinge shaft, and the end part of the second connecting rod (814) is in rotary connection and matching with a third ear seat (94) mounted on one side of a driving rod (9);

the bottom of the positioning plate (10) is installed on the arc-shaped guide rail (101), the arc-shaped guide rail (101) is concentric with the second rotating shaft (11), and an inclined plane is milled at one end, facing the first driving motor (13), of the arc-shaped guide rail (101).

4. The automatic electric cabinet folding device of claim 3, wherein a second electromagnetic induction device is embedded in the top surface of the first driving motor (13), and a second magnet piece (1011) corresponding to the second electromagnetic induction device is embedded in each of the two ends of the arc-shaped guide rail (101).

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