CN111742635A - Intelligence farming system stabilization and protection equipment - Google Patents

Abstract

The invention relates to a protection device, in particular to an intelligent farming system stability protection device which comprises a cooling dust removal mechanism, a casing mechanism and a switching mechanism, wherein the device can perform heat dissipation protection on a farming system, can be switched to a dust removal mode, can perform dust removal, can perform power-off protection, and is connected with the casing mechanism, the casing mechanism is connected with the switching mechanism, and the switching mechanism is connected with the cooling dust removal mechanism.

Description

Intelligence farming system stabilization and protection equipment

Technical Field

The invention relates to a protection device, in particular to an intelligent farming system stability protection device.

Background

The operating condition of the farming system is not ideal, the farming system is easy to be in a humid and dusty environment, and no better protection equipment is available at present to protect the farming system, so that the stability of the farming system is poor, and the intelligent farming system stability protection equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the intelligent farming system stability protection equipment, wherein the equipment can perform heat dissipation protection on the farming system, can be switched to a dust removal mode, can perform ash removal, and can perform power-off protection.

In order to solve the technical problems, the invention relates to a protection device, in particular to an intelligent farming system stability protection device which comprises a cooling dust removal mechanism, a casing mechanism and a switching mechanism.

The cooling and dust removing mechanism is connected with the shell mechanism, the shell mechanism is connected with the switching mechanism, and the switching mechanism is connected with the cooling and dust removing mechanism.

As a further optimization of the technical scheme, the cooling and dust removing mechanism of the intelligent farming system stability protection equipment comprises a pull seat, a connecting plate, a connecting rod, a motor belt pulley, a belt, a motor, a sliding box, an air outlet, a filter plate, an air box with supporting legs, a connecting plate, a sliding rod, a switching box, an air inlet pipe, a squeezing plate, a connecting bent pipe, an air inlet hole, a bifurcated pipe, a communication port, a transmission belt pulley, a transmission shaft, a wind wheel, an air outlet connecting pipe, a special-shaped groove, a sliding matching hole, a limiting sliding rod, a baffle plate, a limiting sliding rod hole, a spring, a connecting column, a stepped seat, an inner sliding hole, an inner limiting rod, a spring A, a special-shaped sliding seat and a stepped groove, wherein the pull seat is connected with the connecting plate symmetrically, the connecting rod is connected with the filter plate, the motor belt pulley is connected with, the sliding box is connected with an air box with supporting legs through an air outlet connecting pipe, the air box with supporting legs is connected with a bifurcated pipe, the bifurcated pipe is connected with a connecting elbow pipe, the connecting pipe is connected with a sliding rod, the sliding rod is connected with a limiting sliding rod hole in a sliding manner, the limiting sliding rod hole is formed in a switching box, the switching box is connected with the air inlet pipe, the switching box is connected with the connecting elbow pipe, a communicating port is formed in the air box with supporting legs, the communicating port is communicated with the bifurcated pipe, a driving belt pulley is in friction connection with a belt, the driving belt pulley is connected with a driving shaft, the driving shaft is connected with the air box with supporting legs in a bearing manner, the driving shaft is connected with a wind wheel, a special-shaped groove is formed in the sliding box, the special-shaped groove is in sliding connection with a filtering plate, a sliding fit hole is formed in the switching box, the sliding fit hole, the baffle links to each other with the slide bar, the spring housing is on the slide bar, the spring supports at the baffle, switch on the case, the filter links to each other with the spliced pole, the spliced pole links to each other with the ladder seat, be equipped with interior slide opening on the ladder seat, interior slide opening and interior gag lever post sliding connection, interior gag lever post links to each other with special-shaped sliding seat, special-shaped sliding seat and dysmorphism groove sliding connection, spring A overlaps on interior gag lever post, spring A supports at the ladder seat, special-shaped sliding seat is last, the ladder groove sets up on special-shaped sliding seat, ladder groove and ladder seat sliding connection.

As a further optimization of the technical scheme, the housing mechanism of the intelligent farming system stability protection device comprises a housing body, a cam with a shaft, a bearing seat, a belt pulley I, a belt I, a motor a, an embedding port, a connecting port, a ventilating plate, a socket, a ladder limiting rod, a plug with a hole, a limiting seat with a hole, a seat with a square hole, a connecting air port, a spring B, a transmission belt pulley I, a connecting plate with a hole, an insulating handle and an insulating rod, wherein the housing body is connected with the motor, the housing body is connected with an air box with supporting legs, the cam with a shaft is connected with the bearing seat in a bearing way, the transmission belt pulley I is connected with the cam with a shaft, the transmission belt pulley I is connected with the belt I in a friction way, the belt I is connected with the belt pulley I in a friction way, the belt I is connected with the motor a, the motor a is connected, the connector sets up on casing body, casing body links to each other with the air-out connecting pipe, the air-out connecting pipe passes from the connector, the ventilating board links to each other with casing body, the socket links to each other with casing body, the ladder gag lever post links to each other with casing body, foraminiferous plug inserts the socket, foraminiferous plug and ladder gag lever post sliding connection, foraminiferous spacing seat links to each other with casing body, take square hole seat to link to each other with casing body, the bearing frame links to each other with casing body, spring B overlaps on the ladder gag lever post, spring B supports on casing body, foraminiferous plug is on, foraminiferous plug links to each other with foraminiferous connecting plate, foraminiferous connecting plate and insulator spindle sliding connection, insulator spindle and foraminiferous.

As a further optimization of the technical scheme, the switching mechanism of the intelligent farming system stability protection device comprises a twisting hand, a shaft a, a limiting wheel, a triangular section seat, a square column, a compression spring, a limiting square plate, a cam I and a cam shaft, wherein the twisting hand is connected with the shaft a, the shaft a is connected with the limiting wheel, the limiting wheel is in contact with the triangular section seat, the triangular section seat is connected with the square column, the compression spring is sleeved on the square column, the compression spring is abutted against the square hole seat and the triangular section seat, the square column is in sliding connection with the square hole seat, the square column is connected with the limiting square plate, the limiting wheel is connected with the cam shaft, the cam shaft is connected with the cam I in a bearing connection mode, and the cam I is in contact with the extrusion plate.

As a further optimization of the technical scheme, the extrusion plate material of the intelligent farming system stable protection equipment is high manganese steel.

The intelligent farming system stability protection equipment has the beneficial effects that:

according to the intelligent farming system stability protection equipment, the equipment can perform heat dissipation protection on a farming system, the equipment can be switched to a dust removal mode, the equipment can perform ash removal, and the equipment can perform power-off protection.

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 intelligent farming system stabilization protection device of the present invention.

Fig. 2 is a schematic structural diagram of an intelligent farming system stabilization protection device of the present invention.

Fig. 3 is a third schematic structural view of the intelligent farming system stabilization and protection device of the present invention.

Fig. 4 is a fourth structural schematic diagram of the intelligent farming system stabilization protection apparatus of the present invention.

Fig. 5 is a first structural schematic diagram of the cooling and dedusting mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 6 is a schematic structural diagram of a cooling and dedusting mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 7 is a third structural schematic diagram of the cooling and dedusting mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 8 is a fourth structural schematic diagram of the cooling and dedusting mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 9 is a fifth structural schematic diagram of the cooling and dedusting mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 10 is a sixth schematic structural view of the cooling and dust removing mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 11 is a seventh structural schematic diagram of the cooling and dust removing mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 12 is an eighth schematic structural diagram of the cooling and dedusting mechanism 1 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 13 is a first structural schematic diagram of the housing mechanism 2 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 14 is a second structural schematic diagram of the housing mechanism 2 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 15 is a third schematic structural diagram of the housing mechanism 2 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 16 is a fourth schematic structural diagram of the housing mechanism 2 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 17 is a fifth schematic structural diagram of the housing mechanism 2 of the intelligent farming system stabilization and protection device of the present invention.

Fig. 18 is a schematic structural diagram of a switching mechanism 3 of the intelligent farming system stabilization and protection device of the present invention.

In the figure: a cooling and dedusting mechanism 1; 1-1 of a pull seat; a connecting plate 1-2; connecting rods 1-3; 1-4 of a motor belt pulley; 1-5 parts of a belt; 1-6 of a motor; 1-7 of a sliding box; air outlets 1-8; 1-9 parts of a filter plate; 1-10 of bellows with supporting legs; connecting plates 1-11; 1-12 slide bars; a switching box 1-13; 1-14 parts of an air inlet pipe; 1-15 parts of an extrusion plate; connecting bent pipes 1-16; 1-17 of air inlet holes; furcation tubes 1-18; 1-19 of a communication port; 1-20 parts of a transmission belt pulley; a drive shaft 1-21; 1-22 parts of wind wheel; an air outlet connecting pipe 1-23; special-shaped grooves 1-24; 1-25 of sliding fit holes; 1-26 limiting slide bars; baffles 1-27; 1-28 limiting slide rod holes; springs 1-29; 1-30 of connecting columns; step seats 1 to 31; 1-32 of inner slide hole; 1-33 parts of inner limiting rod; springs A1-34; 1-35 of a special-shaped sliding seat; step grooves 1-36; a housing mechanism 2; a case body 2-1; a cam with a shaft 2-2; 2-3 of a bearing seat; pulley I2-4; belt I2-5; motor A2-6; 2-7 of an embedding port; a connecting port 2-8; 2-9 parts of ventilating boards; 2-10 of a socket; 2-11 parts of a stepped limiting rod; 2-12 of plugs with holes; 2-13 parts of a limiting seat with a hole; 2-14 parts of square hole seat; 2-15 parts of a bearing seat; connecting the tuyere 2-16; spring B2-17; a transmission belt pulley I2-18; 2-19 of a perforated connecting plate; 2-20 parts of an insulating handle; 2-21 parts of an insulating rod; a switching mechanism 3; screwing a hand 3-1; axis A3-2; 3-3 of a limiting wheel; 3-4 parts of a triangular section seat; 3-5 of square column; 3-6 parts of a compression spring; 3-7 parts of a limiting square plate; the cam I3-8; a camshaft 3-9.

Detailed Description

The first embodiment is as follows:

the present 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, fig. 15, fig. 16, fig. 17, and fig. 18, and the present invention relates to a protection device, and more specifically, to an intelligent farming system stabilization protection device, which includes a cooling dust removal mechanism 1, a housing mechanism 2, and a switching mechanism 3, and is capable of performing heat dissipation protection on a farming system, switching the device to a dust removal mode, cleaning dust by the device, and performing power failure protection by the device.

The cooling and dust removing mechanism 1 is connected with the casing mechanism 2, the casing mechanism 2 is connected with the switching mechanism 3, and the switching mechanism 3 is connected with the cooling and dust removing mechanism 1.

The second embodiment is as follows:

the present 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, fig. 15, fig. 16, fig. 17, fig. 18, and the present embodiment further describes the present embodiment, where the cooling and dust removing mechanism 1 includes a pull base 1-1, a connecting plate 1-2, a connecting rod 1-3, a motor pulley 1-4, a belt 1-5, a motor 1-6, a sliding box 1-7, an air outlet 1-8, a filter plate 1-9, a bellows with legs 1-10, a connecting plate 1-11, a sliding rod 1-12, a switching box 1-13, an air inlet pipe 1-14, a pressing plate 1-15, a connecting bent pipe 1-16, an air inlet hole 1-17, a branch pipe 1-18, a branching, 1-19 of a communication port, 1-20 of a driving belt pulley, 1-21 of a driving shaft, 1-22 of a wind wheel, 1-23 of an air outlet connecting pipe, 1-24 of a special-shaped groove, 1-25 of a sliding matching hole, 1-26 of a limit sliding rod, 1-27 of a baffle, 1-28 of a limit sliding rod hole, 1-29 of a spring, 1-30 of a connecting column, 1-31 of a stepped seat, 1-32 of an inner sliding hole, 1-33 of an inner limit rod, 1-34 of a spring A1, 1-35 of a special-shaped sliding seat and 1-36 of a stepped groove, wherein the pull seat 1-1 is connected with a connecting plate 1-2, the connecting rods 1-3 are symmetrically connected on the connecting rods 1-3, the connecting rods 1-3 are connected with a filter plate 1-9, 1-4 of a motor belt pulley is connected with 1-, an air outlet 1-8 is arranged on a sliding box 1-7, the sliding box 1-7 is connected with an air box with supporting legs 1-10 through an air outlet connecting pipe 1-23, the air box with supporting legs 1-10 is connected with a bifurcation 1-18, the bifurcation 1-18 is connected with a connecting elbow 1-16, the connecting elbow 1-16 is provided with an air inlet 1-17, a connecting plate 1-11 is connected with a sliding rod 1-12, the sliding rod 1-12 is connected with a limiting sliding rod hole 1-28 in a sliding way, the limiting sliding rod hole 1-28 is arranged on a switching box 1-13, the switching box 1-13 is connected with an air inlet 1-14, the switching box 1-13 is connected with the connecting elbow 1-16, a communication port 1-19 is arranged on the air box with supporting legs 1-10, and the communication port 1-19 is communicated with the bifurcation 1-18, the transmission belt pulleys 1-20 are in friction connection with the belts 1-5, the transmission belt pulleys 1-20 are connected with the transmission shafts 1-21, the transmission shafts 1-21 are connected with the air boxes 1-10 with the supporting legs in a bearing mode, the transmission shafts 1-21 are connected with the air wheels 1-22, the special-shaped grooves 1-24 are arranged on the sliding boxes 1-7, the special-shaped grooves 1-24 are in sliding connection with the filter plates 1-9, the sliding fit holes 1-25 are arranged on the switching boxes 1-13, the sliding fit holes 1-25 are connected with the limiting slide bars 1-26, the limiting slide bars 1-26 are connected with the extrusion plates 1-15, the limiting slide bars 1-26 are connected with the baffle plates 1-27, the baffle plates 1-27 are in sliding connection with the switching boxes 1-13, and the baffle plates 1-27 are connected with, the springs 1-29 are sleeved on the sliding rods 1-12, the springs 1-29 are supported on the baffle plates 1-27 and the switching boxes 1-13, the filter plates 1-9 are connected with the connecting columns 1-30, the connecting columns 1-30 are connected with the step seats 1-31, the step seats 1-31 are provided with inner sliding holes 1-32, the inner sliding holes 1-32 are slidably connected with inner limiting rods 1-33, the inner limiting rods 1-33 are connected with the special-shaped sliding seats 1-35, the special-shaped sliding seats 1-35 are slidably connected with the special-shaped grooves 1-24, the springs A1-34 are sleeved on the inner limiting rods 1-33, the springs A1-34 are supported on the step seats 1-31 and the special-shaped sliding seats 1-35, the step grooves 1-36 are arranged on the special-shaped sliding seats 1-35, the step grooves 1-36 are slidably connected with the step seats 1-31, when more dust is accumulated on the filter plate 1-9, the pull seat 1-1 can be pulled outwards, the pull seat 1-1 can drive the filter plate 1-9 to move through the connecting plate 1-2 and the connecting rod 1-3, the filter plate 1-9 can drive the special-shaped sliding seat 1-35 to move, when the special-shaped sliding seat 1-35 slides to the limit position of the special-shaped groove 1-24, the filter plate 1-9 is completely separated from the special-shaped groove 1-24, the connecting plate 1-2 is contacted with the belt shaft cam 2-2 at the moment, then the motor A2-6 is operated to drive the belt pulley I2-4 to rotate, the belt pulley I2-4 can drive the transmission belt pulley I2-18 to rotate through the belt I2-5, the transmission belt pulley I2-18 can drive the belt shaft cam 2-2 to rotate, the cam 2-2 with the shaft can drive the connecting plate 1-2 to move downwards, the connecting plate 1-2 can drive the filter plate 1-9 to move downwards through the connecting rod 1-3, the filter plate 1-9 can drive the step seat 1-31 to move downwards through the connecting column 1-30 to compress the spring A1-34 and then rebound and reset, so that the filter plate 1-9 is driven to reset, the filter plate 1-9 can reciprocate up and down, and dust on the filter plate 1-9 can be cleaned by matching with manual knocking.

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, fig. 15, fig. 16, fig. 17, fig. 18, and the present embodiment further describes the present embodiment, where the housing mechanism 2 includes a housing body 2-1, a cam with a shaft 2-2, a bearing seat 2-3, a belt pulley I2-4, a belt I2-5, a motor a2-6, an insertion port 2-7, a connection port 2-8, a ventilation plate 2-9, a socket 2-10, a stepped limiting rod 2-11, a plug with a hole 2-12, a limiting seat with a hole 2-13, a seat with a square hole 2-14, a bearing seat 2-15, a connection port 2-16, a spring B2-17, a transmission I2-18, a belt pulley with, A perforated connecting plate 2-19, an insulating handle 2-20 and an insulating rod 2-21, wherein a machine shell body 2-1 is connected with a motor 1-6, the machine shell body 2-1 is connected with a supporting leg-provided bellows 1-10, a shaft-provided cam 2-2 is connected with a bearing seat 2-3 in a bearing way, a transmission belt pulley I2-18 is connected with the shaft-provided cam 2-2, a transmission belt pulley I2-18 is in friction connection with a belt I2-5, a belt I2-5 is in friction connection with a belt pulley I2-4, a belt pulley I2-4 is connected with a motor A2-6, a motor A2-6 is connected with a machine shell body 2-1, an embedded inlet 2-7 is arranged on the machine shell body 2-1, a connecting port 2-8 is arranged on the machine shell body 2-1, the machine shell body 2-1 is connected with an air outlet connecting pipe 1, an air outlet connecting pipe 1-23 penetrates through a connecting port 2-8, a ventilating plate 2-9 is connected with a machine shell body 2-1, a socket 2-10 is connected with the machine shell body 2-1, a stepped limiting rod 2-11 is connected with the machine shell body 2-1, a plug 2-12 with a hole is inserted into the socket 2-10, a plug 2-12 with a hole is connected with the stepped limiting rod 2-11 in a sliding manner, a limiting seat 2-13 with a hole is connected with the machine shell body 2-1, a square hole seat 2-14 is connected with the machine shell body 2-1, a bearing seat 2-15 is connected with the machine shell body 2-1, a spring B2-17 is sleeved on the stepped limiting rod 2-11, a spring B2-17 is abutted against the machine shell body 2-1 and the plug 2-12 with a hole, and the plug 2-12 with a connecting plate, the perforated connecting plate 2-19 is connected with the insulating rod 2-21 in a sliding mode, the insulating rod 2-21 is connected with the perforated limiting seat 2-13 in a sliding mode, the insulating handle 2-20 is connected with the insulating rod 2-21, the farming control platform is embedded into the embedding opening 2-7, the farming control platform is powered through closing of the socket 2-10 and the perforated plug 2-12, the motor 1-6 is operated to drive the motor belt pulley 1-4 to rotate, the motor belt pulley 1-4 drives the transmission belt pulley 1-20 to rotate through the belt 1-5, the transmission belt pulley 1-20 rotates to drive the wind wheel 1-22 to rotate through the transmission shaft 1-21, the wind wheel 1-22 forms wind blowing towards the air outlet 1-8 direction, and therefore air in the machine shell body 2-1 can be sucked into the connecting bent pipe 1-16 from the air inlet 1-17 to be blown into the air inlet 1-8 direction Then enters into the bellows 1-10 with the supporting legs through the shunt of the branch pipes 1-18, then is discharged to the air outlet 1-8 after being filtered by the filter plate 1-9, thereby taking away the internal heat, when the power-off protection is needed, the insulating rod 2-21 is separated from the connecting plate 2-19 with holes only by pulling the insulating handle 2-20 outwards, thus the spring B2-17 in the compression state can rebound to separate the plug 2-12 with holes from the socket 2-10, and the power-off is completed.

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, fig. 15, fig. 16, fig. 17, fig. 18, the present embodiment further illustrates the present embodiment, in which the switching mechanism 3 includes a screwing hand 3-1, a shaft A3-2, a spacing wheel 3-3, a triangular cross-section seat 3-4, a square column 3-5, a pressing spring 3-6, a spacing square plate 3-7, a cam I3-8, and a cam shaft 3-9, the screwing hand 3-1 is connected with the shaft A3-2, the shaft A3-2 is connected with the spacing wheel 3-3, the spacing wheel 3-3 is in contact with the triangular cross-section seat 3-4, the triangular cross-section seat 3-5 is connected with the square column 3-5, the pressing spring 3-6 is sleeved on the square column 3-5, the pressing spring 3-6 is supported on the square hole seat 2-14 and the triangular section seat 3-4, the square column 3-5 is connected with the square hole seat 2-14 in a sliding mode, the square column 3-5 is connected with the limiting square plate 3-7, the limiting wheel 3-3 is connected with the cam shaft 3-9, the cam shaft 3-9 is connected with the bearing seat 2-15 in a bearing mode, the cam shaft 3-9 is connected with the cam I3-8, the cam I3-8 is in contact with the extrusion plate 1-15, when the dust removal mode needs to be switched, the screwing hand 3-1 is screwed, the screwing hand 3-1 can extrude the triangular section seat 3-4 towards two sides and drive the cam shaft 3-9 to rotate, the cam shaft 3-9 can drive the cam I3-8 to rotate, the spring 1-29 in a compressed state can rebound when the cam I3-8 rotates, the springs 1-29 move the baffle 1-27 upward to connect the air inlet pipe 1-14 with the connecting bent pipe 1-16, so that the outside air can be sucked into the connecting bent pipe 1-16, filtered and discharged, thereby removing dust.

The fifth concrete implementation mode:

the present embodiment will be 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, fig. 15, fig. 16, fig. 17, and fig. 18, and the first embodiment will be further described in the present embodiment, in which the material of the extrusion plates 1 to 15 is high manganese steel.

The working principle of the device is as follows: the equipment can carry out heat dissipation protection on a farming system, a farming control platform is embedded into the embedded opening 2-7, power is supplied to the farming control platform through the closing of the socket 2-10 and the plug 2-12 with the hole, the motor 1-6 is operated to drive the motor belt pulley 1-4 to rotate, the motor belt pulley 1-4 can drive the transmission belt pulley 1-20 to rotate through the belt 1-5, the transmission belt pulley 1-20 rotates to drive the wind wheel 1-22 to rotate through the transmission shaft 1-21, the wind wheel 1-22 can form wind blowing towards the direction of the air outlet 1-8, so that the gas in the machine shell body 2-1 can be sucked into the connecting bent pipe 1-16 from the air inlet hole 1-17 and then enters the wind box 1-10 with the supporting legs through the shunting of the bifurcation pipe 1-18, then, the air is discharged to the air outlets 1-8 after being filtered by the filter plates 1-9, so that the internal heat is taken away; the equipment can be switched to a dust removal mode, when the equipment needs to be switched to the dust removal mode, a screwing hand 3-1 is screwed, the screwing hand 3-1 can extrude the triangular section seat 3-4 towards two sides and simultaneously drive a cam shaft 3-9 to rotate, the cam shaft 3-9 can drive a cam I3-8 to rotate, a spring 1-29 in a compressed state can rebound when the cam I3-8 rotates, and the spring 1-29 can drive a baffle plate 1-27 to move upwards, so that an air inlet pipe 1-14 is communicated with a connecting bent pipe 1-16, external air can be sucked into the connecting bent pipe 1-16 and is discharged after being filtered, and dust removal is carried out; the device can clean ash, when more dust is accumulated on the filter plate 1-9, the pull seat 1-1 can be pulled outwards, the pull seat 1-1 can drive the filter plate 1-9 to move through the connecting plate 1-2 and the connecting rod 1-3, the filter plate 1-9 can drive the special-shaped sliding seat 1-35 to move, when the special-shaped sliding seat 1-35 slides to the limit position of the special-shaped groove 1-24, the filter plate 1-9 is completely separated from the special-shaped groove 1-24, the connecting plate 1-2 is contacted with the belt shaft cam 2-2 at the moment, then the motor A2-6 is operated to drive the belt pulley I2-4 to rotate, the belt pulley I2-4 can drive the transmission belt pulley I2-18 to rotate through the belt I2-5, the transmission belt pulley I2-18 can drive the belt shaft cam 2-2 to rotate, the cam 2-2 with the shaft can drive the connecting plate 1-2 to move downwards, the connecting plate 1-2 can drive the filter plate 1-9 to move downwards through the connecting rod 1-3, the filter plate 1-9 can drive the step seat 1-31 to move downwards through the connecting column 1-30 to compress the spring A1-34 and then rebound and reset, so that the filter plate 1-9 is driven to reset, the filter plate 1-9 can reciprocate up and down, and the dust on the filter plate 1-9 can be cleaned by matching with manual knocking; the equipment can be subjected to power-off protection, when the power-off protection is needed, the insulating handles 2-20 are pulled outwards to enable the insulating rods 2-21 to be separated from the perforated connecting plates 2-19, and therefore the springs B2-17 in the compressed state can rebound to enable the perforated plugs 2-12 to be separated from the sockets 2-10, and the power-off is completed.

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 intelligence farming system stability protection equipment, includes cooling dust removal mechanism (1), casing mechanism (2), switching mechanism (3), its characterized in that: the cooling and dust removing mechanism (1) is connected with the casing mechanism (2), the casing mechanism (2) is connected with the switching mechanism (3), and the switching mechanism (3) is connected with the cooling and dust removing mechanism (1).

2. The intelligent farming system stabilizing and protecting equipment of claim 1, wherein: the cooling and dedusting mechanism (1) comprises a pull seat (1-1), a connecting plate (1-2), a connecting rod (1-3), a motor belt pulley (1-4), a belt (1-5), a motor (1-6), a sliding box (1-7), an air outlet (1-8), a filter plate (1-9), an air box with supporting legs (1-10), a connecting plate (1-11), a sliding rod (1-12), a switching box (1-13), an air inlet pipe (1-14), an extrusion plate (1-15), a connecting bent pipe (1-16), an air inlet hole (1-17), a bifurcated pipe (1-18), a communicating port (1-19), a transmission belt pulley (1-20), a transmission shaft (1-21), a wind wheel (1-22), An air outlet connecting pipe (1-23), a special-shaped groove (1-24), a sliding matching hole (1-25), a limiting slide rod (1-26), a baffle plate (1-27), a limiting slide rod hole (1-28), a spring (1-29), a connecting column (1-30), a step seat (1-31), an inner slide hole (1-32), an inner limiting rod (1-33), a spring A (1-34), a special-shaped slide seat (1-35) and a step groove (1-36), wherein a pull seat (1-1) is connected with a connecting plate (1-2), connecting rods (1-3) are symmetrically connected on the connecting rods (1-3), the connecting rods (1-3) are connected with a filter plate (1-9), and a motor belt pulley (1-4) is connected with a motor (1-6), the motor belt pulley (1-4) is in friction connection with the belt (1-5), the sliding box (1-7) is provided with an air outlet (1-8), the sliding box (1-7) is connected with the air box (1-10) with the supporting legs through an air outlet connecting pipe (1-23), the air box (1-10) with the supporting legs is connected with the bifurcated pipe (1-18), the bifurcated pipe (1-18) is connected with the connecting bent pipe (1-16), the connecting bent pipe (1-16) is provided with an air inlet hole (1-17), the connecting plate (1-11) is connected with the sliding rod (1-12), the sliding rod (1-12) is in sliding connection with the limiting sliding rod hole (1-28), the limiting sliding rod hole (1-28) is arranged on the switching box (1-13), the switching box (1-13) is connected with the air inlet pipe (1-14), the switching box (1-13) is connected with the connecting bent pipe (1-16), the communicating port (1-19) is arranged on the air box (1-10) with the supporting leg, the communicating port (1-19) is communicated with the bifurcated pipe (1-18), the driving belt pulley (1-20) is in friction connection with the belt (1-5), the driving belt pulley (1-20) is connected with the driving shaft (1-21), the driving shaft (1-21) is connected with the air box (1-10) with the supporting leg in a bearing way, the driving shaft (1-21) is connected with the wind wheel (1-22), the special-shaped groove (1-24) is arranged on the sliding box (1-7), the special-shaped groove (1-24) is in sliding connection with the filter plate (1-9), and the sliding fit hole (1-25) is arranged on the switching box (1-13), the sliding fit holes (1-25) are connected with limit sliding rods (1-26), the limit sliding rods (1-26) are connected with extrusion plates (1-15), the limit sliding rods (1-26) are connected with baffle plates (1-27), the baffle plates (1-27) are connected with switching boxes (1-13) in a sliding mode, the baffle plates (1-27) are connected with sliding rods (1-12), springs (1-29) are sleeved on the sliding rods (1-12), the springs (1-29) are abutted against the baffle plates (1-27) and the switching boxes (1-13), filter plates (1-9) are connected with connecting columns (1-30), the connecting columns (1-30) are connected with stair seats (1-31), inner sliding holes (1-32) are arranged on the stair seats (1-31), the inner sliding holes (1-32) are connected with inner limit rods (1-33) in a sliding mode, the inner limiting rod (1-33) is connected with the special-shaped sliding seat (1-35), the special-shaped sliding seat (1-35) is connected with the special-shaped groove (1-24) in a sliding mode, the spring A (1-34) is sleeved on the inner limiting rod (1-33), the spring A (1-34) abuts against the step seat (1-31) and the special-shaped sliding seat (1-35), the step groove (1-36) is arranged on the special-shaped sliding seat (1-35), and the step groove (1-36) is connected with the step seat (1-31) in a sliding mode.

3. The intelligent farming system stabilizing and protecting equipment of claim 1, wherein: the machine shell mechanism (2) comprises a machine shell body (2-1), a cam with a shaft (2-2), a bearing seat (2-3), a belt pulley I (2-4), a belt I (2-5), a motor A (2-6), an embedding port (2-7), a connecting port (2-8), a ventilating plate (2-9), a socket (2-10), a ladder limiting rod (2-11), a plug with a hole (2-12), a limiting seat with a hole (2-13), a square hole seat with a hole (2-14), a bearing seat (2-15), a connecting air port (2-16), a spring B (2-17), a transmission belt pulley I (2-18), a connecting plate with a hole (2-19), an insulating handle (2-20) and an insulating rod (2-21), the machine shell body (2-1) is connected with a motor (1-6), the machine shell body (2-1) is connected with an air box (1-10) with supporting legs, a cam (2-2) with a shaft is connected with a bearing seat (2-3) in a bearing mode, a transmission belt pulley I (2-18) is connected with the cam (2-2) with the shaft, the transmission belt pulley I (2-18) is connected with a belt I (2-5) in a friction mode, the belt I (2-5) is connected with a belt pulley I (2-4) in a friction mode, the belt pulley I (2-4) is connected with a motor A (2-6), the motor A (2-6) is connected with the machine shell body (2-1), an embedding port (2-7) is arranged on the machine shell body (2-1), and a connecting port (2-8) is arranged on the machine shell body (2-1), the casing body (2-1) is connected with an air outlet connecting pipe (1-23), the air outlet connecting pipe (1-23) penetrates through a connecting port (2-8), a ventilating plate (2-9) is connected with the casing body (2-1), a socket (2-10) is connected with the casing body (2-1), a stepped limiting rod (2-11) is connected with the casing body (2-1), a plug (2-12) with a hole is inserted into the socket (2-10), the plug (2-12) with the hole is connected with the stepped limiting rod (2-11) in a sliding manner, a limiting seat (2-13) with the hole is connected with the casing body (2-1), a seat (2-14) with a square hole is connected with the casing body (2-1), and a bearing seat (2-15) is connected with the casing body (2-1), the spring B (2-17) is sleeved on the stepped limiting rod (2-11), the spring B (2-17) abuts against the shell body (2-1) and the plug (2-12) with the hole, the plug (2-12) with the hole is connected with the connecting plate (2-19) with the hole, the connecting plate (2-19) with the hole is connected with the insulating rod (2-21) in a sliding mode, the insulating rod (2-21) is connected with the limiting seat (2-13) with the hole in a sliding mode, and the insulating handle (2-20) is connected with the insulating rod (2-21).

4. The intelligent farming system stabilizing and protecting equipment of claim 1, wherein: the switching mechanism (3) comprises a twisting hand (3-1), a shaft A (3-2), a limiting wheel (3-3), a triangular section seat (3-4), a square column (3-5), a compression spring (3-6), a limiting square plate (3-7), a cam I (3-8) and a cam shaft (3-9), wherein the twisting hand (3-1) is connected with the shaft A (3-2), the shaft A (3-2) is connected with the limiting wheel (3-3), the limiting wheel (3-3) is contacted with the triangular section seat (3-4), the triangular section seat (3-4) is connected with the square column (3-5), the compression spring (3-6) is sleeved on the square column (3-5), and the compression spring (3-6) is supported on a square hole seat (2-14), On the triangular section seat (3-4), a square column (3-5) is in sliding connection with a square hole seat (2-14), the square column (3-5) is connected with a limiting square plate (3-7), a limiting wheel (3-3) is connected with a cam shaft (3-9), the cam shaft (3-9) is connected with a bearing seat (2-15) in a bearing connection mode, the cam shaft (3-9) is connected with a cam I (3-8), and the cam I (3-8) is in contact with an extrusion plate (1-15).

5. The intelligent farming system stabilization and protection device of claim 2, wherein: the extrusion plates (1-15) are made of high manganese steel.

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