CN115052449A - Control cabinet for agricultural Internet of things - Google Patents

Abstract

The invention discloses a control cabinet for agricultural Internet of things, which structurally comprises a moving seat, a control cabinet, an access door and an operation table, wherein the control cabinet is used for automatic control, manual intervention and manual operation are carried out through the operation table, when the control cabinet works, air is pumped from the outside through an air inlet block and a heat radiator, so that a heat dissipation effect is obtained, air flow enters a project and presses a blowing plate backwards, when a folding filter cover is blocked by dandelion fluff, the folding filter cover is deformed due to air pressure, the blowing plate is pushed forwards quickly through elasticity due to loss of air pressure extrusion, a contact piece arranged on the blowing plate impacts the folding filter cover, a flapping piece is twisted after impact, secondary flapping is generated, the folding filter cover is shaken and swung, the blocked dandelion fluff is removed, and the phenomenon that the dandelion fluff is blocked due to use in a dandelion farm is effectively avoided, the heat dissipation effect of the control machine is guaranteed, the response is rapid, and the service life is prolonged.

Description

Control cabinet for agricultural Internet of things

Technical Field

The invention relates to the field of intelligent agriculture, in particular to a control cabinet for an agricultural Internet of things.

Background

The agricultural Internet of things is characterized in that the agricultural planting environment is monitored through various instruments and meters and is output to a cultivation greenhouse as a parameter, the cultivation environment is automatically controlled, agricultural products can be always in an environment suitable for growth, the purposes of increasing yield and improving quality are achieved, economic benefits of agricultural planting are effectively improved, the agricultural Internet of things needs to use a control cabinet to read data and convert the data into actual irrigation and heating processes, intelligent cultivation can be achieved through the control cabinet, labor burden of farmers is greatly reduced, when the control cabinet is used in a dandelion farm, a large number of dandelion are planted in a dandelion farm in the cultivation process, the roots are excavated after the villus period of the dandelion, raw materials of dandelion tea are obtained, meanwhile, the villus of the dandelion can be collected and used as medicines, and the control cabinet needs to pump air for heat dissipation when the control cabinet works, consequently when using in the dandelion farm, lead to a large amount of dandelion fine hair adhesion in the position of vent very easily, lead to the switch board at the during operation high temperature, and then reaction rate reduces, can't react environmental data fast to because operating temperature is too high and greatly reduced the life of switch board.

Disclosure of Invention

The invention provides a control cabinet for an agricultural internet of things, which aims at solving the problems that when the control cabinet is used in a dandelion farm, a large amount of dandelion can be planted in the dandelion farm in the process of cultivation, the root of the dandelion is dug after the fluff period of the dandelion is finished to obtain raw materials of dandelion tea, meanwhile, the fluff of the dandelion can be collected to be used as a medicine, and the control cabinet needs to be pumped into air to dissipate heat when working, so that when the control cabinet is used in the dandelion farm, a large amount of dandelion fluff is easily adhered to the positions of vents, the temperature of the control cabinet is too high when the control cabinet works, the reaction speed is reduced, the environmental data cannot be quickly reacted, and the service life of the control cabinet is greatly reduced due to too high working temperature.

In order to achieve the purpose, the invention is realized by the following technical scheme: a control cabinet for an agricultural Internet of things structurally comprises a moving seat, a control cabinet, an access door and an operation table, wherein the top surface of the moving seat is movably clamped with the bottom surface of the control cabinet, the left side of the access door is movably clamped with the front surface of the control cabinet, and the bottom surface of the operation table is welded on the top surface of the control cabinet; the switch board includes shell, controller, air inlet block, heat dissipation machine, the shell inlayer is connected with the controller bottom surface is embedded firmly, the embedding is in the shell left side about the air inlet block, heat dissipation machine right side fixed mounting is in controller left side, shell top surface and operation panel bottom surface welded connection, air inlet block and heat dissipation machine respectively have two, and two air inlet blocks and heat dissipation machine distribute along controller both sides mirror image.

Furthermore, the air inlet block comprises a connecting block, a blowing plate, a folding filter cover and an extrusion frame, the upper surface and the lower surface of the connecting block are embedded into the left side of the shell, the upper surface and the lower surface of the blowing plate are embedded into the inner layer of the connecting block, the right side of the folding filter cover is movably connected with the left side of the connecting block through the extrusion frame, and a movable head structure is embedded into the middle section of the folding filter cover.

Further, the blowing plate comprises a suspension frame, a stretching strip, a tray and a contact block, wherein the suspension frame is fixedly connected with the inner layer of the connecting block at the upper end and the lower end, the middle section of the suspension frame is embedded in the upper end and the lower end of the stretching strip, the tray is movably clamped with the middle section of the suspension frame through the stretching strip at the upper end and the lower end, the right side of the contact block is embedded in the left side of the tray, and the stretching strip is of a candy-shaped long-strip structure made of elastic rubber.

Further, the contact piece includes the bottom groove, twists the frame, adds layering, contact piece, bottom groove right side is embedded in the tray left side, it welds in the bottom inslot layer to add the frame right side of twisting, contact piece bottom and the movable block in twisting frame left side, the contact piece right side is through adding layering and bottom inslot layer swing joint, the contact piece is equipped with two, and two contact piece mirror image distributions are below on twisting frame left side.

Furthermore, the contact piece comprises a gravity center block, a rear plate, a compression ring and a flapping piece, the bottom of the gravity center block is movably clamped with the left side of the twisting frame, the bottom surface of the rear plate is connected with the top surface of the gravity center block in a welding manner, the right side of the flapping piece is fixedly connected with the left side of the compression ring in an embedding manner, the right side of the flapping piece is movably connected with the left side of the rear plate through the compression ring, and the gravity center block is a cylindrical block structure which is made of solid iron and has a smooth surface and an arc-shaped cross section.

Furthermore, the flapping piece comprises an outer protruding plate, a bending groove, a wind receiving piece and a front rushing pipe, the right side of the outer protruding plate is fixedly connected with the left side of the compression ring in an embedded mode, the bending groove is embedded into the right side of the outer protruding plate, the bottom surface of the wind receiving piece is welded to the top surface of the outer protruding plate, the upper surface and the lower surface of the front rushing pipe are movably connected with the inner layer of the outer protruding plate, the bending groove is of a penetrating V-shaped groove structure, and a movable head is arranged on the left side of the inner layer and connected with the bending groove.

Furthermore, the front flushing pipe comprises a moving pipe, an outward pushing ring, a flushing ball and an outward extending head, the upper surface and the lower surface of the moving pipe are movably connected with the inner layer of the outward protruding plate, the right side of the outward pushing ring is embedded into the right side of the inner layer of the moving pipe, the outer layer of the impacting ball is in contact with the inner layer of the moving pipe, the upper end and the lower end of the outward extending head are movably connected with the inner layer of the moving pipe, and the upper surface and the lower surface of the moving pipe are respectively provided with an elastic sheet structure made of polypropylene materials and connected with the inner layer of the outward protruding plate.

Still further, overhanging head includes carriage, compression ring, concentrated piece, striking head, the lower extreme is managed inlayer swing joint with removing on the carriage, the compression ring imbeds in the carriage middle section, concentrate the piece right side and be connected with compression ring left side is set in, concentrate the piece left side and strike first right side welded connection, striking head comprises an iron arc piece and the plastics tray on right side leftmost, and plastics tray left side is equipped with a hemispherical protruding piece.

Advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

1. the control cabinet is used for automatic control, manual intervention and manual operation are carried out through the operation table, when the control cabinet works, air is sucked from the outside through the air inlet block matched with the heat radiator, so that a heat radiation effect is obtained, the air flow enters the engineering and presses the blowing plate, when the folding filter cover is blocked by dandelion fluff, the folding filter cover is deformed due to air pressure, the blowing plate is pushed forwards quickly through elasticity due to the loss of air pressure extrusion, the contact pieces arranged on the blowing plate impact the folding filter cover, the flapping pieces are twisted after the impact, secondary flapping is generated, the folding filter cover is shaken and swung, the blocked dandelion fluff is removed, the phenomenon that the dandelion fluff is blocked due to the use in a dandelion farm is effectively avoided, the heat radiation effect of the control machine is guaranteed, the response is quick, and the service life is prolonged.

2. After the slapping piece is slapped, the bent groove is deformed by the returned reaction force, so that the outward protruding plate protrudes outwards and is attached to the angle of a slapping part to generate a larger slapping range, meanwhile, the slapping force is concentrated by the moving pipe, when the slapping piece moves, the impact ball extrudes the outward pushing ring by inertia, and is quickly ejected after the slapping part is contacted and stopped, the pressure ring is impacted and outputs reverse elastic force to quickly push the concentrated block, and the belt carries the sliding frame and the impact head to carry out secondary impact, so that the slapping range is greatly increased, meanwhile, the slapping effect is enhanced by secondary impact, and the cleaning effect of adhered dandelion fluff is further enhanced.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a control cabinet for the agricultural internet of things.

Fig. 2 is a schematic structural diagram of a front section of the control cabinet of the present invention.

FIG. 3 is a schematic structural view of a front cross section of the air inlet block of the present invention.

FIG. 4 is a schematic structural view of a front cross section of a blowing plate according to the present invention.

Fig. 5 is a schematic structural view of a front cross section of a contact block of the present invention.

Fig. 6 is a schematic structural view of a front cross section of the contact sheet of the present invention.

Fig. 7 is a schematic structural view of a front cross section of a slapping sheet of the invention.

FIG. 8 is a schematic structural view of a front cross section of the front wash pipe of the present invention.

Fig. 9 is a schematic structural view of a front cross section of the extension head of the present invention.

In the figure: a moving seat-A, a control cabinet-S, an access door-D, an operation table-F, a shell-RS 1, a control machine-RS 2, an air inlet block-RS 3, a heat radiator-RS 4, a connecting block-BT 1, a blowing plate-BT 2, a folding filter hood-BT 3, a pressing frame-BT 4, a suspension frame-XXA, a stretching bar-XXB, a tray-XXC, a contact block-XXD, a bottom groove-ZZA, a twisting frame-ZZB, a pressurizing bar-ZZC, a contact piece-ZZD, a gravity center block-WWA, a rear plate-WWB, a compression ring-WWC, a slapping piece-QT, an outer projected plate-QT, a bending groove-QE, a wind receiving piece-QW, a front impact pipe-QR, a moving pipe-FF 1, an outer projected ring-FF 2, a impact ball-FF 3, an outer projected head-FF 4, a sliding frame-HH 1, a front impact pipe-FF-592, A compression ring-HH 2, a cluster block-HH 3, and an impact head-HH 4.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The first embodiment is as follows:

referring to fig. 1-6, the embodiments of the present invention are as follows: a control cabinet for an agricultural Internet of things structurally comprises a moving seat A, a control cabinet S, an access door D and an operation table F, wherein the top surface of the moving seat A is movably clamped with the bottom surface of the control cabinet S, the left side of the access door D is movably clamped with the front surface of the control cabinet S, and the bottom surface of the operation table F is welded on the top surface of the control cabinet S; control cabinet S includes shell RS1, controller RS2, air intake block RS3, heat dissipation machine RS4, shell RS1 inlayer is connected with controller RS2 bottom surface is embedded admittedly, air intake block RS3 is gone up the lower surface and is embedded in shell RS1 left side, heat dissipation machine RS4 right side fixed mounting is in controller RS2 left side, shell RS1 top surface and operation panel F bottom surface welded connection, air intake block RS3 and heat dissipation machine RS4 respectively have two, and two air intake block RS3 and heat dissipation machine RS4 distribute along controller RS2 both sides mirror image, are favorable to increasing the air flow of suction, and then obtain better radiating effect.

Wherein, air inlet block RS3 includes connecting block BT1, blows board BT2, folding filter mantle BT3, extrusion frame BT4, embedding in shell RS1 left side about connecting block BT1, embedding in connecting block BT1 inlayer about the blowing board BT2, folding filter mantle BT3 right side is through extrusion frame BT4 and connecting block BT1 left side swing joint, folding filter mantle BT3 middle section embedding has a movable head structure, is favorable to producing buckling and then better shaking off the adhesion after receiving blowing board BT2 striking.

Wherein, blow and blow board BT2 including hanging in the midair XXA, tensile strip XXB, tray XXC, contact piece XXD, hang in the midair and inlay fixedly with connecting block BT1 inlayer and be connected on the lower extreme of hanging in the midair XXA, the embedding of lower extreme is in hanging in the midair XXA middle section on tensile strip XXB, tray XXC goes up the lower extreme through tensile strip XXB and hangs in the activity block in the fraising XXA middle section, contact piece XXD right side embedding is in tray XXC left side, the candy form rectangular structure of tensile strip XXB for adopting elastic rubber to make is favorable to receiving behind the air current blow the back can be more fast from the less production back pressure deformation of diameter.

Wherein, contact piece XXD includes bottom groove ZZA, wrench movement frame ZZB, pressurization strip ZZC, contact piece ZZD, bottom groove ZZA right side is embedded in tray XXC left side, it welds in bottom groove ZZA inlayer to add wrench movement frame ZZB right side, contact piece ZZD bottom and wrench movement frame ZZB left side activity block, contact piece ZZD right side is through adding layering ZZC and bottom groove ZZA inlayer swing joint, contact piece ZZD is equipped with two, and two contact pieces ZZD mirror image distribution are in wrench movement frame ZZB left side upper and lower, are favorable to enlarging area of contact, and then produce better patting scope and patting effect.

The contact piece ZZD comprises a gravity center block WWA, a rear plate WWB, a compression ring WWC and a flap piece WWD, the bottom of the gravity center block WWA is movably clamped with the left side of the twisting frame ZZB, the bottom surface of the rear plate WWB is connected with the top surface of the gravity center block WWA in a welding mode, the right side of the flap piece WWD is fixedly embedded with the left side of the compression ring WWC, the right side of the flap piece WWD is movably connected with the left side of the rear plate WWB through the compression ring WWC, the gravity center block WWA is of a solid iron cylindrical block structure with a smooth surface and an arc-shaped cross section, the gravity center is favorably kept low, swing is generated better, and a strong impact effect can be obtained through large weight during contact.

Based on the above embodiment, the specific working principle is as follows: the controller RS2 in the control cabinet S of the invention receives and converts data into actual operation, and manual operation is carried out by the operation panel F, when the controller RS2 works, more heat is generated, so the heat is dissipated by the heat dissipating machine RS4 from the externally-connected drawn gas, the gas enters through the air inlet block RS3, firstly the impurities contained in the air are removed by the folding filter cover BT3, the air impacts the blowing plate BT2 to cause the stretching strip XXB to be stretched to generate elastic force and push the tray XXC backwards to flow into the shell RS1, if the dandelion is used in the dandelion farm, a great amount of fluff is generated by the dandelion and flies around, therefore, after a great amount of air is drawn, a great amount of fluff is adhered to the folding filter cover BT3, so the gas cannot be drawn in, and further the wind force applied to the blowing plate BT2 disappears, the tray XXC is pushed to the left side rapidly by the elastic force, and further the contact block XXD is driven to move together, and at the same time the folding filter BT3 is pressed toward the center movable head by the air pressure, so that the distance between the contact block XXD and the folding filter BT3 is smaller, at this time, the folding filter BT3 is impacted by the fast moving contact block XXD, and the contact piece ZZD is rapidly impacted, and after the impact is over, the gravity block WWA of the contact piece ZZD is twisted along the twisting frame ZZB by inertia, and further the slapping piece WWD is moved further to the left side, and further the slapping force is enhanced by the pressure strip ZZC, so that the folding filter BT3 is rapidly restored and deformed to the other side by the strong impact of the gravity block WWA and the secondary slapping of the slapping piece WWD, and restored again by the pressing frame 4, and further the adhered dandelion is removed by the swing of the folding filter 3 and the impact of the contact piece ZZD in cooperation with each other, the phenomenon that air cannot be pumped due to the fact that dandelion is blocked by fluff is effectively avoided, and the normal work of the control machine RS2 is guaranteed.

Example two:

referring to fig. 7-9, an embodiment of the present invention is as follows: the slapping sheet WWD comprises an outer protruding plate QT, a bent groove QE, a wind receiving sheet QW and a forward-flushing pipe QR, the right side of the outer protruding plate QT is fixedly connected with the left side of a compression ring WWC in an embedded mode, the bent groove QE is embedded into the right side of the outer protruding plate QT, the bottom surface of the wind receiving sheet QW is welded to the top surface of the outer protruding plate QT, the upper surface and the lower surface of the forward-flushing pipe QR are movably connected with the inner layer of the outer protruding plate QT, the bent groove QE is of a through V-shaped groove structure, and the left side of the inner layer is provided with a movable head for connection, so that the slapping sheet WWD is beneficial to being deformed more easily after being thrown out and enabling the outer protruding plate QT to further move forward.

The front flushing pipe QR comprises a moving pipe FF1, an outward-pushing ring FF2, a impacting ball FF3 and an outward-pushing head FF4, wherein the upper surface and the lower surface of the moving pipe FF1 are movably connected with an inner layer of an outward-pushing plate QT, the right side of the outward-pushing ring FF2 is embedded into the right side of an inner layer of the moving pipe FF1, an outer layer of the impacting ball FF3 is mutually contacted with the inner layer of the moving pipe FF1, the upper end and the lower end of the outward-pushing head FF4 are movably connected with the inner layer of the moving pipe FF1, elastic sheet structures made of polypropylene materials are respectively arranged on the upper surface and the lower surface of the moving pipe FF1 and connected with the inner layer of the outward-pushing plate QT, certain rigidity is favorably maintained, certain elasticity is provided, the elastic sheet structures can be slightly deformed when impact is received, and the impacting ball FF3 is subjected to inertia effect to further squeeze the outward-pushing ring 2 to generate stronger FF pushing effect.

The extending head FF4 comprises a sliding frame HH1, a pressurizing ring HH2, a concentration block HH3 and an impact head HH4, wherein the upper end and the lower end of the sliding frame HH1 are movably connected with the inner layer of a moving pipe FF1, the pressurizing ring HH2 is embedded in the middle section of the sliding frame HH1, the right side of the concentration block HH3 is fixedly connected with the left side of the pressurizing ring HH2, the left side of the concentration block HH3 is connected with the right side of the impact head HH4 in a welding mode, the impact head HH4 is composed of an iron arc block at the leftmost side and a plastic tray at the right side, and a hemispherical protruding block is arranged at the left side of the plastic tray, so that the impact force can be increased, and better impact effect can be obtained by further pressurizing through deformation of the tray after stopping.

Based on the above embodiment, the specific working principle is as follows: when the flapping piece WWD is blown by wind, the blowing effect is enhanced by wind cheating QW, the outer convex plate QT directly contacts with the flapping part in the process of moving the flapping piece WWD and flapping, the force concentration is carried out through the front impact pipe QR after the contact, the groove QE is bent to deform the outer convex plate QT, the outer convex plate QT is more attached to the shape of the flapping part, the flapping effect in a wider range is generated, the impact ball FF3 and the outer convex ring FF2 generate relative displacement due to inertia in the moving process, the outer convex ring FF2 is further pressed, the outer convex plate FF2 generates elastic force, the outer convex plate stops moving after flapping, the impact ball FF3 in the front impact pipe QR is rapidly pressed forwards through the double-superposition FF of the inertia and the outer convex ring FF2, the pressing force of the pressing ring HH2 of the outer convex head 4 is impacted, and the pressing ring HH2 outputs the left pressing force again, the sliding frame HH1 is pushed to slide in the inner layer of the moving pipe FF1, the impact head HH4 protrudes towards the left side of the moving pipe FF1, the elastic force of the pressurizing ring HH2 is concentrated through the concentrating block HH3, the impact force of the impact head HH4 is further increased, the clapping force range of the clapping piece WWD is greatly expanded, the shaking-off effect is enhanced through extra impact after clapping, and the phenomenon of unsmooth ventilation caused by adhesion and accumulation of dandelion fluff is further avoided.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides an agricultural is switch board for thing networking, its structure is including removing seat (A), switch board (S), access door (D), operation panel (F), its characterized in that:

the top surface of the movable seat (A) is movably clamped with the bottom surface of the control cabinet (S), the left side of the access door (D) is movably clamped with the front surface of the control cabinet (S), and the bottom surface of the operating platform (F) is welded on the top surface of the control cabinet (S);

switch board (S) include shell (RS1), control machine (RS2), air intake block (RS3), heat dissipation machine (RS4), shell (RS1) inlayer is connected with control machine (RS2) bottom surface is embedded firmly, the lower surface is embedded in shell (RS1) left side about air intake block (RS3), heat dissipation machine (RS4) right side fixed mounting is in control machine (RS2) left side, shell (RS1) top surface and operation panel (F) bottom surface welded connection.

2. The agricultural control cabinet for the internet of things of claim 1, characterized in that: air inlet block (RS3) includes connecting block (BT1), blows board (BT2), folding filter cover (BT3), extrusion frame (BT4), the lower surface is embedded in shell (RS1) left side about connecting block (BT1), it imbeds in connecting block (BT1) inlayer to blow the lower surface about board (BT2), folding filter cover (BT3) right side is through extrusion frame (BT4) and connecting block (BT1) left side swing joint.

3. The agricultural control cabinet for the internet of things of claim 2, characterized in that: blow dak board (BT2) including hanging in midair (XXA), tensile strip (XXB), tray (XXC), contact piece (XXD), hang in midair (XXA) upper and lower extreme and connecting block (BT1) inlayer and inlay fixedly and be connected, the embedding of end is in hanging in midair (XXA) middle section about tensile strip (XXB), tray (XXC) upper and lower end is through tensile strip (XXB) and hang in midair (XXA) middle section activity block, the embedding of contact piece (XXD) right side is in tray (XXC) left side.

4. The agricultural control cabinet for the internet of things of claim 3, wherein: contact piece (XXD) includes bottom groove (ZZA), wrench movement frame (ZZB), pressurization strip (ZZC), contact piece (ZZD), bottom groove (ZZA) right side is embedded in tray (XXC) left side, twist frame (ZZB) right side with and weld in bottom groove (ZZA) inlayer, contact piece (ZZD) bottom and wrench movement frame (ZZB) left side activity block, contact piece (ZZD) right side is through adding layering (ZZC) and bottom groove (ZZA) inlayer swing joint.

5. The agricultural control cabinet for the internet of things of claim 4, wherein: the contact piece (ZZD) comprises a gravity center block (WWA), a rear plate (WWB), a compression ring (WWC) and a flapping piece (WWD), the bottom of the gravity center block (WWA) is movably clamped with the left side of the torsion frame (ZZB), the bottom surface of the rear plate (WWB) is connected with the top surface of the gravity center block (WWA) in a welding manner, the right side of the flapping piece (WWD) is fixedly connected with the left side of the compression ring (WWC), and the right side of the flapping piece (WWD) is movably connected with the left side of the rear plate (WWB) through the compression ring (WWC).

6. The agricultural control cabinet for the internet of things of claim 5, wherein: slapping piece (WWD) include outer protruding board (QT), crooked groove (QE), receive wind piece (QW), dashing pipe (QR) before, outer protruding board (QT) right side is inlayed with compression ring (WWC) left side and is fixed and be connected, crooked groove (QE) are embedded in outer protruding board (QT) right side, receive wind piece (QW) bottom surface to weld in outer protruding board (QT) top surface, dash pipe (QR) upper and lower and outer protruding board (QT) inner layer swing joint before.

7. The agricultural control cabinet for the internet of things of claim 6, wherein: preceding washing pipe (QR) is including removing pipe (FF1), outer push ring (FF2), impact ball (FF3), outer head (FF4), it is connected with outer protruding board (QT) inlayer swing joint to remove pipe (FF1) upper and lower face, outer push ring (FF2) right side is embedded in removing pipe (FF1) inlayer right side, it contacts each other with removal pipe (FF1) inlayer to dash batting (FF3) outer, lower extreme and removal pipe (FF1) inlayer swing joint on outer head (FF 4).

8. The agricultural control cabinet for the internet of things of claim 7, wherein: the extension head (FF4) comprises a sliding frame (HH1), a pressurizing ring (HH2), a concentration block (HH3) and an impact head (HH4), wherein the upper end and the lower end of the sliding frame (HH1) are movably connected with the inner layer of a moving pipe (FF1), the pressurizing ring (HH2) is embedded in the middle section of the sliding frame (HH1), the right side of the concentration block (HH3) is fixedly connected with the left side of the pressurizing ring (HH2), and the left side of the concentration block (HH3) is welded and connected with the right side of the impact head (HH 4).

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