CN111864716A - Electromechanical device outage auxiliary protection equipment - Google Patents

Abstract

The invention relates to a power-off protection device, in particular to an electromechanical device power-off auxiliary protection device which comprises a sandbox mechanism, a power-off protection mechanism and a base mechanism.

Description

Electromechanical device outage auxiliary protection equipment

Technical Field

The invention relates to a power-off protection device, in particular to an auxiliary power-off protection device for electromechanical equipment.

Background

In the operation protection of the electromechanical equipment, power-off protection is a very important ring, although the traditional power-off protection device can play a role in power-off, further protection is not carried out, and the safety coefficient needs to be improved, so that the auxiliary protection equipment for power-off of the electromechanical equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the electromechanical equipment power-off auxiliary protection equipment, the equipment can carry out power-off protection, the equipment can carry out sand covering treatment after power-off, the equipment can protect the safe operation of a motor, and the equipment can filter sand.

In order to solve the technical problem, the invention relates to a power-off protection device, in particular to an auxiliary power-off protection device for electromechanical equipment, which comprises a sandbox mechanism, a power-off protection mechanism and a base mechanism, wherein the power-off protection device can perform power-off protection, the equipment can perform sand covering treatment after power-off, the equipment can protect the safe operation of a motor, and the equipment can filter sand.

The sandbox mechanism is connected with the power-off protection mechanism, the power-off protection mechanism is connected with the base mechanism, and the sandbox mechanism is connected with the base mechanism.

As a further optimization of the technical scheme, the sandbox mechanism of the electromechanical equipment power-off auxiliary protection equipment comprises supporting legs, a sandbox body, a gear, a bent arm rack, a nut, a perforated seat, a filter box, a pressing seat, a threaded sliding column, a spring, a matching opening, a bearing seat, a wind wheel with a shaft, a filter hole, a hinged plate and a through groove, wherein the supporting legs are connected with the sandbox body, the gear is meshed with the bent arm rack, the bent arm rack is connected with the filter box, the filter box is connected with the perforated seat, the filter box is connected with the pressing seat, the perforated seat is connected with the threaded sliding column in a sliding mode, the threaded sliding column is connected with the nut in a threaded mode, the spring is sleeved on the threaded sliding column, the spring abuts against the perforated seat and the sandbox body, the matching opening is arranged on the sandbox body, the matching opening is connected with the filter box in a sliding mode, the bearing seat is arranged on the sandbox body, and the bearing seat is connected with the wind wheel, the gears are arranged on two sides of the wind wheel with the shaft, the filtering holes are arranged on the filtering box, the hinged plate is hinged with the sandbox body, and the through groove is arranged on the hinged plate.

As a further optimization of the technical scheme, the power-off protection mechanism of the auxiliary power-off protection device for the electromechanical device comprises a perforated seat A, a socket, a rotating shaft, a grooved cam, a connecting seat, a reinforcing rod, a limiting sliding column, a spring, a seat body, a step rod, a plug seat, a middle seat, a sliding seat, a spare plug, a hinged connecting seat, a spare supporting seat, a heat dissipation hole, a heat dissipation wheel, a belt, a motor belt pulley, a transmission belt pulley, an inflammable broken wire, a wiring terminal, an opening A, a spare socket, a motor, a connecting plug and a limiting sliding hole, wherein the perforated seat A is connected with the socket, the socket is connected with the rotating shaft in a bearing mode, the grooved cam is connected with two ends of the rotating shaft, the socket is connected with the connecting seat, the connecting seat is arranged on two sides of the reinforcing rod, the connecting seat is connected with the limiting, On the middle seat, the socket links to each other with the pedestal, ladder pole and trompil A sliding connection, trompil A sets up on the sliding seat, the sliding seat links to each other with the middle seat, the middle seat links to each other with reserve plug, articulated connecting seat links to each other with reserve supporting seat, be equipped with the louvre on the reserve supporting seat, the heat dissipation wheel links to each other with the motor, the motor links to each other with reserve supporting seat, the motor links to each other with motor pulley, motor pulley and belt friction joint, the belt is connected with drive pulley friction, drive pulley links to each other with the pivot, easily fire disconnected wire rod cover on the terminal and both ends link to each other with the ladder pole, the trompil sets up on the pedestal, ladder pole and trompil sliding connection, reserve socket sets up on the supporting seat, connecting plug links to each other with the plug seat, spacing slide hole sets up on the middle seat, spacing slide hole.

As a further optimization of the technical scheme, the base mechanism of the electromechanical device power-off auxiliary protection device comprises a base body, a pulley with a seat, a vertical sliding column, a reset spring and a connecting plate, wherein the base body is connected with the supporting leg, the base body is connected with the pulley with the seat, the pulley with the seat is in contact with the cam with the groove, the vertical sliding column is connected with the base body, the vertical sliding column is connected with the connecting plate, the reset spring is sleeved on the vertical sliding column, the reset spring abuts against the seat A with the hole and the connecting plate, and the vertical sliding column is in sliding connection with the seat A with the hole.

As a further optimization of the technical scheme, the threaded sliding column and the nut are provided with threads at the joint, and the lower part of the threaded sliding column is a smooth column body.

The auxiliary protection equipment for the power failure of the electromechanical equipment has the beneficial effects that:

according to the auxiliary protection equipment for the power failure of the electromechanical equipment, the equipment can perform power failure protection, the equipment can perform sand covering treatment after power failure, the equipment can protect the safe operation of a motor, and the equipment can filter sand.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an auxiliary protection device for power failure of an electromechanical device according to the present invention.

Fig. 2 is a schematic structural diagram of an auxiliary protection device for power failure of an electromechanical device according to the present invention.

Fig. 3 is a schematic structural diagram three of an electromechanical device power-off auxiliary protection device of the present invention.

Fig. 4 is a first structural schematic diagram of a sandbox mechanism 1 of an electromechanical device power-off auxiliary protection device according to the present invention.

Fig. 5 is a schematic structural diagram of a second sandbox mechanism 1 of the auxiliary power-off protection device for electromechanical devices according to the present invention.

Fig. 6 is a third schematic structural diagram of a sandbox mechanism 1 of an electromechanical device power-off auxiliary protection device according to the present invention.

Fig. 7 is a fourth structural schematic diagram of a sandbox mechanism 1 of an electromechanical device power-off auxiliary protection device according to the present invention.

Fig. 8 is a fifth structural schematic diagram of the sandbox mechanism 1 of the auxiliary power-off protection device for the electromechanical device according to the present invention.

Fig. 9 is a sixth schematic structural diagram of a sandbox mechanism 1 of an electromechanical device power-off auxiliary protection device according to the present invention.

Fig. 10 is a first structural schematic diagram of the power-off protection mechanism 2 of the electromechanical device power-off auxiliary protection device of the invention.

Fig. 11 is a second structural schematic diagram of the power-off protection mechanism 2 of the electromechanical device power-off auxiliary protection device of the present invention.

Fig. 12 is a third structural schematic diagram of the power-off protection mechanism 2 of the electromechanical device power-off auxiliary protection device of the invention.

Fig. 13 is a fourth structural schematic diagram of the power-off protection mechanism 2 of the electromechanical device power-off auxiliary protection device of the invention.

Fig. 14 is a schematic structural diagram of a base mechanism 3 of an electromechanical device power-off auxiliary protection device according to the present invention.

In the figure: a sandbox mechanism 1; 1-1 of supporting legs; 1-2 of a sandbox body; 1-3 of gears; 1-4 of a bent arm rack; 1-5 parts of a nut; 1-6 parts of a seat with a hole; 1-7 of a filter box; 1-8 parts of a pressing seat; 1-9 of a sliding column with threads; 1-10 parts of spring; matching openings 1-11; 1-12 of a bearing seat; 1-13 of wind wheel with shaft; 1-14 parts of filtering holes; hinge plates 1-15; through slots 1-16; a power-off protection mechanism 2; a perforated base A2-1; a socket 2-2; 2-3 of a rotating shaft; grooved cams 2-4; 2-5 parts of a connecting seat; 2-6 parts of reinforcing rods; 2-7 of a limiting sliding column; 2-8 parts of a spring; 2-9 parts of a seat body; 2-10 of step rods; 2-11 parts of a plug seat; 2-12 of an intermediate seat; 2-13 of a sliding seat; spare plugs 2-14; 2-15 parts of hinged connecting seat; 2-16 parts of a spare supporting seat; 2-17 of heat dissipation holes; 2-18 parts of a heat dissipation wheel; 2-19 parts of a belt; 2-20 parts of a motor belt pulley; 2-21 parts of a transmission belt pulley; 2-22 parts of flammable broken wire; 2-23 of a binding post; 2-24 holes are formed; opening A2-25; spare sockets 2-26; motors 2-27; a connection plug 2-28; 2-29 of limiting slide holes; a base mechanism 3; a base body 3-1; a pulley with a seat 3-2; 3-3 of a vertical sliding column; 3-4 of a return spring; and connecting plates 3-5.

Detailed Description

The first embodiment is as follows:

the present invention is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present invention relates to a power-off protection device, and more specifically, to an electromechanical device power-off auxiliary protection device, which includes a sandbox mechanism 1, a power-off protection mechanism 2, and a base mechanism 3, and is capable of performing power-off protection, performing sand covering treatment after power-off, protecting safe operation of a motor, and filtering sand.

Sandbox mechanism 1 link to each other with power-off protection mechanism 2, power-off protection mechanism 2 links to each other with base mechanism 3, sandbox mechanism 1 links to each other with base mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, wherein the sandbox mechanism 1 comprises legs 1-1, a sandbox body 1-2, gears 1-3, curved arm racks 1-4, nuts 1-5, perforated seats 1-6, filter boxes 1-7, pressing seats 1-8, threaded sliding columns 1-9, springs 1-10, matching openings 1-11, bearing seats 1-12, shaft-equipped wind wheels 1-13, filter holes 1-14, hinged plates 1-15, through grooves 1-16, the legs 1-1 are connected with the sandbox body 1-2, the gears 1-3 are meshed with the curved arm racks 1-4, the bent arm rack 1-4 is connected with the filter box 1-7, the filter box 1-7 is connected with the perforated base 1-6, the filter box 1-7 is connected with the pressing base 1-8, the perforated base 1-6 is connected with the threaded sliding column 1-9 in a sliding way, the threaded sliding column 1-9 is connected with the nut 1-5 in a threaded way, the spring 1-10 is sleeved on the threaded sliding column 1-9, the spring 1-10 is propped against the perforated base 1-6 and the sandbox body 1-2, the matching opening 1-11 is arranged on the sandbox body 1-2, the matching opening 1-11 is connected with the filter box 1-7 in a sliding way, the bearing seat 1-12 is arranged on the sandbox body 1-2, the connection mode of the bearing seat 1-12 and the wind wheel shaft 1-13 is bearing connection, the gears 1-3 are arranged on two sides of the wind wheel with the shaft 1-13, the filtering holes 1-14 are arranged on the filtering box 1-7, the hinged plate 1-15 is hinged with the sandbox body 1-2, the grooves 1-16 are arranged on the hinged plate 1-15, when sand is supplemented into the sandbox body 1-2, the sand can be poured into the filtering box 1-7, then the pressing seat 1-8 is pressed downwards, then the sand is reset under the elastic force action of the spring 1-10, the sand can be graded at the filtering holes 1-14 by the vibration, so that dirt is left in the filtering box 1-7, and only the nut 1-5 needs to be screwed off when the filtering box 1-7 is disassembled.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the present embodiment further describes the present embodiment, where the power failure protection mechanism 2 includes a holed seat a2-1, a socket 2-2, a rotating shaft 2-3, a grooved cam 2-4, a connecting seat 2-5, a reinforcing rod 2-6, a limiting sliding column 2-7, a spring 2-8, a seat body 2-9, a ladder rod 2-10, a plug seat 2-11, a middle seat 2-12, a sliding seat 2-13, a spare plug 2-14, a hinged connecting seat 2-15, a spare supporting seat 2-16, a spare supporting seat 2-17, a heat dissipation wheel 2-18, a belt 2-19, a belt, and, 2-20 parts of motor belt pulley, 2-21 parts of transmission belt pulley, 2-22 parts of inflammable broken wire, 2-23 parts of binding post, 2-24 parts of opening, A2-25 parts of opening, 2-26 parts of standby socket, 2-27 parts of motor, 2-28 parts of connecting plug and 2-29 parts of limiting slide hole, A2-1 part of socket is connected with 2-2 parts of socket, 2-2 parts of socket is connected with 2-3 parts of rotating shaft in a bearing way, 2-4 parts of grooved cam are connected with two ends of 2-3 parts of rotating shaft, 2-2 parts of socket are connected with 2-5 parts of connecting seat, 2-5 parts of connecting seat are arranged on two sides of 2-6 part of reinforcing rod, 2-5 parts of connecting seat are connected with 2-7 parts of limiting slide column, 2-8 parts of spring are sleeved on 2-7 parts of limiting slide column, on the middle seat 2-12, the socket 2-2 is connected with the seat body 2-9, the ladder bar 2-10 is connected with the opening A2-25 in a sliding way, the opening A2-25 is arranged on the sliding seat 2-13, the sliding seat 2-13 is connected with the middle seat 2-12, the middle seat 2-12 is connected with the spare plug 2-14, the hinged connection seat 2-15 is connected with the spare support seat 2-16, the spare support seat 2-16 is provided with the heat dissipation holes 2-17, the heat dissipation wheel 2-18 is connected with the motor 2-27, the motor 2-27 is connected with the spare support seat 2-16, the motor 2-27 is connected with the motor belt pulley 2-20, the motor belt pulley 2-20 is connected with the belt 2-19 in a friction way, the belt 2-19 is connected with the transmission belt pulley 2-21, the transmission belt pulley 2-21 is connected with the rotating shaft 2-3, the inflammable broken wire 2-22 is sleeved on the binding post 2-23, two ends of the inflammable broken wire are connected with the step rod 2-10, the opening 2-24 is arranged on the seat body 2-9, the step rod 2-10 is connected with the opening 2-24 in a sliding way, the standby socket 2-26 is arranged on the standby supporting seat 2-16, the connecting plug 2-28 is connected with the plug seat 2-11, the limiting sliding hole 2-29 is arranged on the middle seat 2-12, the limiting sliding hole 2-29 is connected with the limiting sliding column 2-7 in a sliding way, the connecting plug 2-28 is inserted on the socket 2-2, the hinged connecting seat 2-15 is hinged with the hinged plate 1-15, when the device is used normally, the main cable of the electromechanical device is connected on the binding post 2-23, the power supply to the electromechanical equipment is realized by closing the socket 2-2 and the connecting plug 2-28, when the cable is short-circuited and overheated, the easily-combustible broken wire 2-22 is heated and broken, at the moment, the compressed spring 2-8 can rebound rapidly to drive the middle seat 2-12 to move, the middle seat 2-12 can drive the connecting plug 2-28 to be disconnected with the socket 2-2 through the plug seat 2-11, so that the socket 2-2 stops supplying power to the connecting plug 2-28, the main cable of the electromechanical equipment loses power supply, the power-off protection effect is realized, the spring 2-8 can drive the spare plug 2-14 to be connected with the spare socket 2-26 through the middle seat 2-12, and when the plug 2-14 is connected with the spare socket 2-26, the power supply of the motor 2-27 is switched on, at the moment, the motor 2-27 operates to drive the motor belt pulley 2-20 to rotate, the motor belt pulley 2-20 drives the grooved cam 2-4 to rotate through the driving belt of the belt 2-19, the driving belt pulley 2-21 and the rotating shaft 2-3, the grooved cam 2-4 drives the power-off protection mechanism 2 to move upwards by matching with the pulley 3-2 with the seat and then resets under the resilience action of the reset spring 3-4, the hinged plates 1-15 passing through one side of the grooves 1-16 are driven to tilt upwards by the hinged connecting seats 2-15 in the up-and-down reciprocating motion, the other side of the hinged plates 1-15 is poured downwards, so that the sand on the hinge plates 1-15 is poured downwards and the possible open fire is extinguished.

The fourth concrete implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, which further illustrates the present embodiment, the base mechanism 3 includes a base body 3-1, a pulley with a seat 3-2, a vertical sliding column 3-3, a return spring 3-4, and a connecting plate 3-5, the base body 3-1 is connected to the leg 1-1, the base body 3-1 is connected to the pulley with a seat 3-2, the pulley with a seat 3-2 is in contact with the grooved cam 2-4, the vertical sliding column 3-3 is connected to the base body 3-1, the vertical sliding column 3-3 is connected to the connecting plate 3-5, the return spring 3-4 is sleeved on the vertical sliding column 3-3, the reset spring 3-4 is propped against the perforated seat A2-1 and the connecting plate 3-5, and the vertical sliding column 3-3 is in sliding connection with the perforated seat A2-1.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the present embodiment, where the connection between the threaded sliding columns 1-9 and the nuts 1-5 is provided with threads, and the lower portions of the threaded sliding columns 1-9 are smooth cylinders.

The working principle of the device is as follows: the equipment can be subjected to power-off protection, when the equipment is normally used, a main cable of the electromechanical equipment is connected to the wiring terminal 2-23, power supply for the electromechanical equipment is realized through closing of the socket 2-2 and the connecting plug 2-28, when a cable is in short circuit and overheated, the easily-broken wire 2-22 is heated and breaks, at the moment, the compressed spring 2-8 can rapidly rebound to drive the middle seat 2-12 to move, the middle seat 2-12 can drive the connecting plug 2-28 to be separated from the socket 2-2 through the plug seat 2-11, and the socket 2-2 stops supplying power for the connecting plug 2-28, so that the main cable of the electromechanical equipment loses power supply, and the power-off protection effect is achieved; the device can carry out sand covering treatment after power failure, the springs 2-8 can drive the spare plugs 2-14 to be communicated with the spare sockets 2-26 through the middle seats 2-12, when the plugs 2-14 are communicated with the spare sockets 2-26, the power supply of the motor 2-27 can be communicated, the motor 2-27 can operate to drive the motor belt pulleys 2-20 to rotate at the moment, the motor belt pulleys 2-20 can rotate through the belts 2-19, the transmission belt pulleys 2-21 and the transmission belt groove cams 2-4 of the rotating shaft 2-3, the belt groove cams 2-4 can drive the power failure protection mechanism 2 to move upwards through the matching of the belt seat pulleys 3-2, then reset is carried out under the resilience of the reset springs 3-4, the hinged plates 1-15 on the side of the grooves 1-16 can be driven to tilt upwards through the hinged connection seats 2-15 in the up-down reciprocating motion, the other side of the hinged plate 1-15 is poured downwards, so that the sand on the hinged plate 1-15 is poured downwards, and the open fire which may be generated is covered; the equipment can protect the safe operation of the motor, the heat dissipation wheels 2-18 can be driven to rotate in the operation of the motor 2-27, the heat dissipation wheels 2-18 can form wind power, and heat generated by the motor 2-27 is taken away from the heat dissipation holes 2-17, so that the stable operation of the motor 2-27 is protected; the device can filter sand, when the sand is supplemented into the sand box body 1-2, the sand can be poured into the filter box 1-7, then the pressing seat 1-8 is pressed downwards, and then the device is reset under the action of the elastic force of the spring 1-10, the sand can be graded at the filter holes 1-14 by the vibration, so that dirt is remained in the filter box 1-7, and only the nut 1-5 needs to be screwed off when the filter box 1-7 is disassembled.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides an electromechanical device outage auxiliary protection equipment, includes sandbox mechanism (1), outage protection mechanism (2), base mechanism (3), its characterized in that: sandbox mechanism (1) link to each other with outage protection mechanism (2), outage protection mechanism (2) link to each other with base mechanism (3), sandbox mechanism (1) links to each other with base mechanism (3).

2. An electromechanical device power-off auxiliary protection device according to claim 1, characterized in that: the sandbox mechanism (1) comprises supporting legs (1-1), a sandbox body (1-2), gears (1-3), bent arm racks (1-4), nuts (1-5), perforated seats (1-6), a filtering box (1-7), pressing seats (1-8), threaded sliding columns (1-9), springs (1-10), matching openings (1-11), bearing seats (1-12), shaft-mounted wind wheels (1-13), filtering holes (1-14), hinged plates (1-15) and through grooves (1-16), wherein the supporting legs (1-1) are connected with the sandbox body (1-2), the gears (1-3) are meshed with the bent arm racks (1-4), the bent arm racks (1-4) are connected with the filtering box (1-7), the filtering box (1-7) is connected with the perforated seat (1-6), the filtering box (1-7) is connected with the pressing seat (1-8), the perforated seat (1-6) is connected with the threaded sliding column (1-9) in a sliding way, the threaded sliding column (1-9) is connected with the nut (1-5) in a threaded way, the spring (1-10) is sleeved on the threaded sliding column (1-9), the spring (1-10) is propped against the perforated seat (1-6) and the sand box body (1-2), the matching opening (1-11) is arranged on the sand box body (1-2), the matching opening (1-11) is connected with the filtering box (1-7) in a sliding way, the bearing seat (1-12) is arranged on the sand box body (1-2), the bearing seat (1-12) is connected with the shaft wind wheel (1-13) in a bearing way, the gears (1-3) are arranged on two sides of the wind wheel (1-13) with the shaft, the filtering holes (1-14) are arranged on the filtering box (1-7), the hinged plate (1-15) is hinged with the sandbox body (1-2), and the hinged plate (1-15) is arranged on the hinged plate (1-15) through the groove (1-16).

3. An electromechanical device power-off auxiliary protection device according to claim 1, characterized in that: the power-off protection mechanism (2) comprises a perforated seat A (2-1), a socket (2-2), a rotating shaft (2-3), a grooved cam (2-4), a connecting seat (2-5), a reinforcing rod (2-6), a limiting sliding column (2-7), a spring (2-8), a seat body (2-9), a ladder rod (2-10), a plug seat (2-11), a middle seat (2-12), a sliding seat (2-13), a standby plug (2-14), a hinged connecting seat (2-15), a standby supporting seat (2-16), a heat dissipation hole (2-17), a heat dissipation wheel (2-18), a belt (2-19), a motor belt pulley (2-20), a transmission belt pulley (2-21), a combustible broken wire (2-22), A binding post (2-23), an opening (2-24), an opening A (2-25), a spare socket (2-26), a motor (2-27), a connecting plug (2-28) and a limiting sliding hole (2-29), wherein the hole seat A (2-1) is connected with the socket (2-2), the socket (2-2) is connected with a rotating shaft (2-3) in a bearing way, grooved cams (2-4) are connected with two ends of the rotating shaft (2-3), the socket (2-2) is connected with a connecting seat (2-5), the connecting seat (2-5) is arranged at two sides of a reinforcing rod (2-6), the connecting seat (2-5) is connected with a limiting sliding column (2-7), a spring (2-8) is sleeved on the limiting sliding column (2-7), the spring (2-8) is propped against the connecting seat (2-5) and the middle seat (2-12), the socket (2-2) is connected with the seat body (2-9), the ladder rod (2-10) is connected with the opening A (2-25) in a sliding way, the opening A (2-25) is arranged on the sliding seat (2-13), the sliding seat (2-13) is connected with the middle seat (2-12), the middle seat (2-12) is connected with the standby plug (2-14), the hinged connecting seat (2-15) is connected with the standby supporting seat (2-16), the standby supporting seat (2-16) is provided with heat dissipation holes (2-17), the heat dissipation wheels (2-18) are connected with the motor (2-27), the motor (2-27) is connected with the standby supporting seat (2-16), the motor (2-27) is connected with the motor belt pulley (2-20), the motor belt pulley (2-20) is connected with the belt (2-19) in a friction mode, the belt (2-19) is connected with the transmission belt pulley (2-21) in a friction mode, the transmission belt pulley (2-21) is connected with the rotating shaft (2-3), the inflammable broken wire (2-22) is sleeved on the binding post (2-23) and two ends of the inflammable broken wire are connected with the step rod (2-10), the opening hole (2-24) is formed in the base body (2-9), the step rod (2-10) is connected with the opening hole (2-24) in a sliding mode, the standby socket (2-26) is arranged on the standby supporting base (2-16), the connecting plug (2-28) is connected with the plug base (2-11), the limiting sliding hole (2-29) is formed in the middle base (2-12), the limiting sliding holes (2-29) are connected with the limiting sliding columns (2-7) in a sliding mode, the connecting plugs (2-28) are inserted into the sockets (2-2), and the hinged connecting seats (2-15) are hinged with the hinged plates (1-15).

4. An electromechanical device power-off auxiliary protection device according to claim 1, characterized in that: the base mechanism (3) comprises a base body (3-1), a pulley with a seat (3-2), a vertical sliding column (3-3), a reset spring (3-4) and a connecting plate (3-5), wherein the base body (3-1) is connected with a supporting leg (1-1), the base body (3-1) is connected with the pulley with a seat (3-2), the pulley with a seat (3-2) is contacted with a grooved cam (2-4), the vertical sliding column (3-3) is connected with the base body (3-1), the vertical sliding column (3-3) is connected with the connecting plate (3-5), the reset spring (3-4) is sleeved on the vertical sliding column (3-3), the reset spring (3-4) is abutted against a seat A (2-1) with a hole and the connecting plate (3-5), the vertical sliding column (3-3) is connected with the perforated seat A (2-1) in a sliding way.

5. An electromechanical device power-off auxiliary protection device according to claim 2, characterized in that: the connection part of the threaded sliding column (1-9) and the nut (1-5) is provided with threads, and the lower part of the threaded sliding column (1-9) is a smooth cylinder.

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