CN218277457U - Integrated valve controller - Google Patents

Abstract

The utility model discloses an integrated valve controller, which comprises a master controller and a shell, wherein the master controller is arranged in the shell, the shell consists of an upper cover and a bottom shell, the bottom shell consists of a bottom plate and vertical faces, and one vertical face of the bottom shell is provided with an installation notch; be provided with the guard plate on the drain pan, the guard plate comprises first plate section and second plate section, forms the form of bending after first plate section and the combination of second plate section, and the laminating of first plate section is on the surface of bottom plate, and the laminating of second plate section the facade to through installing notched border protruding inside the drain pan, bottom plate, facade, second plate section make up into the box body, two at least wiring holes have been seted up to drain pan department on the second plate section epirelief. After the valve controller is installed, the wiring hole is located in the low concave position of the outer surface of the bottom shell, the periphery of the wiring hole forms a protective barrier to the wiring hole relatively, and even if a waterproof ring of the wiring hole is aged, rainwater or steam is not prone to drifting to fall at the wiring hole to damage the valve controller.

Description

Integrated valve controller

Technical Field

The utility model relates to an integration valve controller belongs to automatic control technical field.

Background

The farmland irrigation and the metering are closely related, and the application of the metering in agriculture can not leave a control system,

usually, a pipe network is laid near the farmland, and then valves in the pipe network are controlled by a valve controller so as to realize the control of the farmland irrigation. In the existing valve controller, a main controller is arranged in a shell, and a wiring port is arranged on the shell and penetrates through the wiring port to realize the wire connection of the main controller and external equipment. Based on application scenes, the valve controller needs to be arranged outdoors for a long time, if the valve controller needs to be arranged indoors, a control station needs to be built, the cost of a farmland irrigation control system is increased, if the valve controller is arranged outdoors, the valve controller can be influenced by natural environment, and a sealing ring arranged at a wiring hole on a shell main body of the valve controller influences the waterproof effect due to physical aging; particularly in rainy days, rainwater or vapor easily erodes the valve controller from the wiring hole, thereby damaging the valve controller.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an integration valve controller, through increase the guard plate of bending the form on the drain pan, the wiring hole sets up on the guard plate of bending for rainwater or steam are difficult for wafting and fall on the wiring hole and cause the damage to valve controller.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the integrated valve controller comprises a main controller and a shell, wherein the main controller is arranged in the shell, the shell consists of an upper cover and a bottom shell, the bottom shell consists of a bottom plate and vertical surfaces, and an installation notch is formed in one vertical surface of the bottom shell; be provided with the guard plate on the drain pan, the guard plate comprises first plate section and second plate section, forms the form of bending after first plate section and the combination of second plate section, and the laminating of first plate section is on the surface of bottom plate, and the laminating of second plate section the facade to through installing notched border protruding inside the drain pan, bottom plate, facade, second plate section make up into the box body, two at least wiring holes have been seted up to drain pan department on the second plate section epirelief.

Furthermore, the installation incision is opened on the facade and extends to the bottom plate, and the second plate section is attached to the facade and the bottom plate and protrudes towards the inside of the bottom shell through the edge of the installation incision.

Further, be provided with the fixed mounting district on the first plate section of guard plate, the fixed mounting district is provided with the several screw hole.

Furthermore, a plurality of bulges are arranged on the inner surface of the bottom plate of the bottom shell, and the arrangement positions of the bulges correspond to the positions of the threaded holes.

Furthermore, reinforcing ribs are arranged between every two adjacent bulges, and the bulges and the reinforcing ribs form a net structure.

Furthermore, after the first plate section and the second plate section are combined, a bending included angle of 135 degrees is formed.

Further, the master controller is installed in the upper cover, and the inside of upper cover is provided with the flexibility and encloses the fender, and the flexibility encloses a terminal surface that keeps off and pastes the bottom at the upper cover, and the flexibility encloses the fender and is in vertical state and arranges in the upper cover inside.

Furthermore, a sheath is arranged at the corresponding position of each wiring hole on the second plate section, and the cross-sectional shapes of the sheaths arranged on the second plate section are at least two.

Furthermore, the solar energy battery plate is electrically connected with the main controller; the surface of upper cover sets up a mounting groove to seted up the through-hole on the mounting groove, solar cell panel arranges in the mounting groove, solar cell's connecting wire passes the through-hole and is connected with the master controller.

Furthermore, be provided with the earflap on the bottom plate of drain pan, the earflap is fixed in pairs and is kept away from the one end in wiring hole on the drain pan, installs the breakwater through removable mode on the earflap.

Compared with the prior art, the utility model has the advantages of:

1. according to the integrated valve controller, the bent protection plate is additionally arranged on the bottom shell, the second plate section of the protection plate is attached to the vertical surface and protrudes into the bottom shell through the edge of the installation notch, and the wiring hole is formed in the position, protruding towards the bottom shell, of the second plate section; after the valve controller is installed, the wiring hole is located in the low concave position of the outer surface of the bottom shell, the periphery of the wiring hole forms a protective barrier to the wiring hole relatively, and even if a waterproof ring of the wiring hole is aged, rainwater or steam is not prone to drifting to fall at the wiring hole to damage the valve controller.

2. The utility model provides an integration valve controller still sets up the breakwater on valve controller's drain pan, even when rain falls down along valve controller incline direction, the rainwater also can only be patted on the breakwater, has prevented that rain or steam from falling down to cause the influence to the ware is inside from valve controller's rear portion, further promotion the utility model discloses a practicality.

3. The mechanical strength of drain pan has been strengthened to the first plate section of guard plate, and the inside arch that sets up of drain pan has increased the degree of depth of screw hole, fastening performance when having promoted the installation of valve controller.

Drawings

FIG. 1 is a first block diagram of the present invention;

FIG. 2 is a diagram of the structure of the present invention, schematically shown as "two";

FIG. 3 is a structural view of the outer surface of the middle bottom case of the present invention;

FIG. 4 is a first view of the outer structure of the bottom shell in an alternative embodiment of the present invention;

FIG. 5 is a second illustration of the outer structure of the bottom shell in an alternative embodiment of the present invention;

FIG. 6 is a structural view of the inner surface of the middle bottom casing of the present invention;

fig. 7 is a view showing a structure of an upper cover according to the present invention;

FIG. 8 is a second diagram of the structure of the upper cover of the present invention;

fig. 9 is a schematic view of the outer structure of the bottom shell in another alternative embodiment of the present invention;

fig. 10 is an installation state diagram of the present invention.

In the figure: bottom shell 100, bottom plate 110, reinforcing rib 111, protrusion 112, facade 120, connecting screw 121, mounting notch 122, protective lug 130, shaft hole 131, breakwater 140, rotating shaft 141, upper cover 200, supporting block 210, fixing screw hole 220, mounting groove 230, flexible enclosure 240, solar cell panel 300, main controller 400, lithium battery 410, protective plate 500, first plate section 510, mounting area 511, threaded hole 512, second plate section 520, wiring hole 521, first sheath 522, second sheath 523 and third sheath 524.

Detailed Description

In the present application, the terms "mounted," "connected," and "secured" are to be construed broadly unless otherwise explicitly specified or limited; the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, which is only for convenience of description of the present invention and simplification of description, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Examples

Referring to fig. 1 to 3, the integrated valve controller includes a main controller 400 and a housing, the main controller 400 is disposed in the housing, the housing is composed of an upper cover 200 and a bottom case 100, and the upper cover 200 and the bottom case 100 are fixed together by a connection screw 121. The bottom case 100 is composed of a bottom plate 110 and vertical faces 120, wherein a mounting notch 122 is formed on one vertical face 120 of the bottom case 100; a protection plate 500 is arranged on the bottom shell 100, the protection plate 500 is composed of a first plate section 510 and a second plate section 520, the first plate section 510 and the second plate section 520 are combined to form a bent shape, the first plate section 510 is attached to the outer surface of the bottom plate 110, the second plate section 520 is attached to the vertical surface 120 and protrudes towards the inside of the bottom shell 100 through the edge of the installation notch 122, and the bottom plate 110, the vertical surface 120 and the second plate section 520 are combined into a box body together; at least two wiring holes 521 are formed in the position, protruding towards the bottom shell, of the second plate section 520, and an aviation connector and a control switch can be installed in the wiring holes 521. Specifically, in this embodiment, the motor driving module includes 4 independent solenoid valve control circuits, and correspondingly, 3 wiring holes 521 are disposed on the second plate section 520; the aviation connector adopts a 0.15-meter 4-core aviation connector and comprises 1 path of electromagnetic valve, 2 paths of electromagnetic valve, 3 paths of electromagnetic valve and 4 paths of electromagnetic valve, the wiring lines of the electromagnetic valve are distinguished by male head and female head marks, the male head comprises the electromagnetic valve 1+, the electromagnetic valve 1-, the electromagnetic valve 2+ and the electromagnetic valve 2-, the female head comprises the electromagnetic valve 3+, the electromagnetic valve 3-, the electromagnetic valve 4+ and the electromagnetic valve 4-, the core aviation connector shown as the male head and the core aviation connector marked as the female head are respectively installed on the two wiring holes 521, and the control switch is electrically connected with the master controller 400 and then installed on the other wiring hole 521. When the aviation connector is externally connected with equipment, a 4-core circuit is adopted, and the number of the electromagnetic valve paths is distinguished by patterns.

Valve controller belongs to the automatic control equipment who is used for agricultural irrigation or water conservancy dispatch field, needs the several pipe network system in the control large-scale farmland or ditch, needs to install a large amount of valve controller in the field ground promptly, if valve controller's overall dimension is too big, if on the one hand will increase the input cost, on the other hand will increase the field installation degree of difficulty, need input more manpower and materials. It is therefore desirable to control the size of the valve controller as a whole. In this embodiment, the main controller 400 includes a micro control unit MCU, a motor driving module, a communication module, a voltage boosting module, a voltage reducing module, and a charging module, and the micro control unit MCU, the motor driving module, the communication module, the voltage boosting module, the voltage reducing module, and the charging module are integrated on the PCB circuit board. The main controller 400 is highly integrated, reduces the volume space required inside, and is electrically connected with the lithium battery 410 and then placed in the housing. Therefore, in order to control the overall size of the valve controller, the vertical height of the bottom casing needs to be reduced as much as possible, so as to reduce the overall size of the valve controller. The reduction of the height size of the vertical surface inevitably leads to the establishment of the wiring hole 521 and the installation of the corresponding aircraft connector to be limited to a certain extent, and therefore, as a feasible implementation manner, the establishment position of the installation notch 122 is optimized, please refer to fig. 4 and 5, the installation notch 122 is established on the vertical surface 120 and extends to the bottom plate 110, the second plate section 510 is attached to the vertical surface 120 and the bottom plate 110, and protrudes into the bottom shell 100 through the edge of the installation notch 122, so that the area of the second plate section 510 which can protrude into the bottom shell 100 is enlarged, the establishment of the wiring hole 521 and the installation of the corresponding aircraft connector cannot be affected by the change of the size of the vertical surface, and the practicability of the valve controller of the present application is increased.

The valve controller is typically fixed in a particular position, such as on a standing pole, when in use. Referring to fig. 3 and 6, in the valve controller of the present application, a first plate section 510 of a protection plate 500 is provided with a fixing mounting region 511, and the fixing mounting region 511 is provided with a plurality of threaded holes 512. Specifically, when installed, the valve controller is mounted on top of the strut by means of the engagement of the threaded bolt with the threaded hole 512. The first plate section 510 of the protection plate 500 is attached to the outer surface of the bottom plate 110, on one hand, the stress strength of the bottom plate 110 on the bottom case 100 is enhanced, and on the other hand, the valve controller is more conveniently mounted on the supporting rod. In application, in order to enhance the fastening performance of the valve controller during installation, the depth of the threaded hole 512 is usually increased, in this embodiment, the threaded hole 512 is disposed on the first plate section 510, and if the depth of the threaded hole 512 is increased, the thickness of the first plate section 510 is increased, which may result in the valve controller becoming thick and heavy. In order to achieve the effect of increasing the depth of the threaded hole 512 without increasing the thickness of the first plate section 510, in this embodiment, the bottom case 100 is further modified, a plurality of protrusions 112 are disposed on the inner surface of the bottom plate 110 in the bottom case 100, and the positions of the protrusions 112 correspond to the positions of the threaded hole 512; when the screw hole 512 is opened, the depth of the screw hole 512 is continued into the protrusion 112. Further, a reinforcing rib 111 is disposed between two adjacent protrusions 112, such that the protrusions 112 and the reinforcing rib 111 form a mesh structure, which enhances the strength of the upper plate 110 of the bottom chassis 100 and facilitates the fixed installation of the main controller 400 inside the bottom chassis 100.

Referring to fig. 7 and 8, in some alternative embodiments, the main controller 400 is installed in the upper cover 200, and the main controller 400 is fixed in the upper cover 200 by the cooperation between the screws and the fixing screw holes 220. A support block 210 is further provided on the inner surface of the upper cover 200 to support the components on the main controller 400. The inside of upper cover 200 still is provided with the flexibility and encloses fender 240, and the flexibility encloses fender 240 and can adopt flexible plastics or sponge to make, and it is sheet structure, and a terminal surface is pasted in the bottom of upper cover 200, is inside upper cover 200 is arranged in vertical state. In this embodiment, the flexible enclosure 240 is disposed around the lithium battery 410 and between the main controller 400 and the lithium battery 410; when the valve controller collides in the using process, the flexible enclosure 240 can prevent the lithium battery 410 from being damaged due to hard collision directly with the inner wall of the shell; the flexible enclosure 240 arranged between the main controller 400 and the lithium battery 410 divides the inside of the shell into two areas, so that on one hand, hard collision between the main controller 400 and the lithium battery 410 is prevented, and on the other hand, corrosion or interference of the battery on components in the main controller 400 can be avoided.

Referring to fig. 5, in some alternative embodiments, a sheath is further disposed at a corresponding position of each wire hole 521 on the second plate section 520 and is located on an outer surface of the bottom case 100. The position and the quantity of sheath and wiring hole 521 correspond one-to-one, and the cross sectional shape of sheath is two at least, can be according to the difference of external device and the adaptability selection, and in this embodiment, the quantity of wiring hole 521 is 3, and then the quantity of sheath is also three. The sheath arranged on the wiring hole 521 for installing the control switch is a first sheath 522, the cross section of which is set to be circular, the sheath corresponding to the core aviation connector for installing the male connector is a second sheath 523, the sheath corresponding to the core aviation connector for installing the female connector is a third sheath 524, the cross sections of the second sheath 523 and the third sheath 524 are set to be prismatic, and the wiring port corresponding to the definite prismatic sheath is used for externally connecting the electromagnetic valve. Specifically, different marks may be provided on the surface of the prismatic sheath to indicate the female or male core aircraft joint, or the sheath corresponding to the female or male core aircraft joint may be designed to have different cross-sectional shapes, for example, the sheath corresponding to the male core aircraft joint is prismatic, and the sheath corresponding to the female core aircraft joint is square. The external equipment model connected with the wiring port can be directly determined by determining the section shape of the sheath, and initial judgment can be carried out through the shape of the sheath when a connecting wire is overhauled or plugged, so that the overhauling or plugging connecting efficiency is improved.

The above illustration of the cross-sectional shape of the sheath is only for the sake of more clear illustration of the technical solution of the present application, so as to illustrate that in the preferred embodiment, the cross-sectional shape of the sheath is not limited to circular, prismatic or square, and the different shapes of the sheath fixed on the wire connection port can directly correspond to the types of the external devices. According to the number of the external devices, a plurality of wiring holes 521 are formed in the second plate section 520, and other sheaths with different cross-sectional shapes are correspondingly fixed on the wiring ports. Similar to the sheath of the present application, modifications made only to the shape of the sheath are within the scope of the present application.

With continued reference to fig. 2 and 8, the valve controller of the present application is used for controlling a pipe network system in irrigation or water conservancy, the working scene is mostly in the suburb or the field, the valve controller needs to continuously work in the field, and the built-in lithium battery 410 cannot continuously provide electric energy for the valve controller to meet the requirement of continuous work in the field of the valve controller, therefore, the valve controller of the present application is connected to the solar cell panel 300 on the basis of the built-in lithium battery 410, in this embodiment, the solar cell panel 300 is installed on the outer surface of the upper cover 200, specifically, the outer surface of the upper cover 200 is provided with the installation groove 230, and the installation groove 230 is provided with a through hole for connecting a connecting wire of the solar cell panel 300 to pass through the through hole to be connected to the main controller 400. Specifically in the use, the collection of solar energy receives the influence of sunlight irradiation multifactor, and the energy of gathering can not continuously provide stable voltage, consequently, has integrateed the module of charging on the PCB circuit board in the valve controller of this application, and the module of charging includes battery charge controller, lithium cell 410, battery charge controller, solar cell panel 300 electric connection in proper order. The battery charging controller is an MPPT controller with solar energy input and integration, the MPPT controller can detect the power generation voltage of the solar cell panel 300 in real time, track the highest voltage current Value (VI), and charge the storage battery with the maximum power output, so that the solar cell panel 300 can output more electric energy, direct current emitted by the solar cell panel 300 is effectively stored in the storage battery, and the problems that the conventional power grid cannot cover field power utilization and environmental pollution are avoided are effectively solved. In this embodiment, the lithium battery 410 adopts an independent 1-6 voltage drop lithium battery 410, the battery charging controller adopts a CN3795 charging management integrated circuit, and the PWM voltage reduction mode of the solar cell panel 300 is used for power supply, so as to independently perform charging management on the multiple voltage drop lithium batteries 410. When sunshine is sufficient, the solar cell panel 300 absorbs light energy, and the lithium battery 410 is charged and managed through the battery charging controller, so that the valve controller can continuously stand by for 60 days in continuous rainy days.

In the main controller 400 of the present application, the lithium battery 410 is electrically connected to the voltage boosting module and the voltage dropping module respectively, the lithium battery 410 is electrically connected to the voltage boosting module to form a voltage boosting circuit, and the lithium battery 410 is electrically connected to the voltage dropping module to form a voltage dropping circuit; in the boost circuit, the output voltage of the lithium battery 410 is boosted and adjusted by the boost module and then supplied to the motor drive module; the output voltage of the motor is adjusted to the proper voltage range corresponding to the motor driving module; in the voltage reduction circuit, the output voltage of the lithium battery 410 is subjected to voltage reduction adjustment by the voltage reduction module and then is supplied to the micro control unit MCU and the communication module. Specifically, the micro control unit MCU in this embodiment adopts a low power consumption series STM32L476RGT6 chip, adopts a 7.4V lithium battery 410 as a main power supply, the boost module includes a boost chip, and the GPRS communication module is a7670C; the voltage reduction module comprises a voltage reduction chip, the voltage reduction module comprises a first voltage reduction module and a second voltage reduction module, the voltage of the lithium battery 410 is adjusted to the suitable electric voltage range corresponding to the GPRS communication module through the first voltage reduction module, and the output voltage of the lithium battery 410 is adjusted to the suitable electric voltage range corresponding to the MCU after being reduced by the first voltage reduction module and the second voltage reduction module in sequence. Specifically, the first voltage reduction chip is a TPS54332D chip, and after the output voltage of the lithium battery 410 is reduced by the first voltage reduction module, the voltage is adjusted to 4.2V to provide a use power supply for the GPRS communication module. The second voltage reduction chip adopts a TLV75533 chip, and the output voltage of the lithium battery 410 is reduced by the first voltage reduction module and the second voltage reduction chip in sequence, and then is adjusted to be 3.3V. The boost module is an FP6296 boost chip, the output voltage lower than 12V is adjusted to 12V through the boost chip, and the lithium battery 410 is electrically connected with the brush type direct current motor driver after boosting and then directly provides electric energy for the electromagnetic valve.

The solenoid valve control circuit of main controller 400 passes through the wiring mouth through two solenoid valve control lines and is connected with aviation connector one end, and aviation connector's one end is connected with the connector lug of connecting wire, and then this connecting wire is wired with the solenoid valve line that sets up in the pipe network again to realize being connected between main controller 400 and the solenoid valve, realize the valve controller to the solenoid valve control. The communication between the mobile terminal and the valve controller can be realized through GPRS communication or LORA communication, and the control information of a plurality of electromagnetic valves in a pipe network can be known through the interface of the mobile terminal.

In order to enable the solar cell panel 300 to be irradiated by the sun for a longer time in a general environment and absorb more solar energy, the valve controller is installed in an inclined state, specifically, referring to fig. 10, in this embodiment, the valve controller is installed in an inclined state by 45 degrees to ensure that the solar cell panel 300 can be fixed at an irradiation angle of 45 degrees, correspondingly, the first plate section 510 and the second plate section 520 on the protection plate 500 are combined to form a bending angle set to be 135 degrees, so that when the valve controller is installed in an inclined state by 45 degrees, the protection sleeve installed on the wiring port is just in a vertical direction, and the aviation connector is also in a vertical state after being installed, thereby preventing wet weather, rainwater or water vapor from entering the wiring port. In this embodiment, the inner surface of the bottom case 100 is in a trapezoid shape, the overall shape of the valve controller is in a shape with a large top and a small bottom, and the solar cell panel 300 and the upper cover 200 on the valve controller can shield raindrops, thereby further preventing rainwater from infiltrating into the wiring holes 521 along the vertical surface 120.

With continued reference to fig. 9 and 10, when the valve controller is installed in an inclined state, one end of the valve controller is at a high position, and the other corresponding end is at a low position, if an aviation connector is arranged at the front of the valve controller, when the valve controller is installed, the front is at the low position, and the rear is at the high position; when rainwater falls from the rear of the valve controller in an inclined state, particularly when the falling angle of the rainwater is smaller than the installation angle of the valve controller, the rainwater may directly flap on the bottom case 100 of the valve controller when falling, may fall on the aerial connector installed at the wiring hole 521, and when the waterproof ring at the wiring hole is aged, rainwater or water vapor may enter the inside of the housing through the wiring hole 521 during the process to damage the main controller 400 or the battery. Therefore, in some alternative embodiments, a protective lug 130 is further disposed on the bottom plate 110 of the bottom case 100, the protective lug 130 is fixed in pairs on one end of the bottom case 100 away from the wire hole 521, and the water blocking plate 140 is detachably mounted on the protective lug 130. The ear guard 130 is provided with a shaft hole 131, the two ends of the water guard 140 are provided with a rotating shaft 141, the rotating shaft 141 is inserted into the shaft hole 131 for clearance fit, and the water guard 140 can freely rotate relative to the bottom case 100.

When the valve controller is installed in an inclined state, the water baffle 140 is in a vertical state, and even if rain falls down along the inclined direction of the valve controller, the rain can only flap on the water baffle 140, so that the influence on the interior of the valve controller caused by the rain or water vapor falling from the rear part of the valve controller is prevented. With continued reference to fig. 3 and 5, the wire connection hole 521 is formed on the second plate section 520 and protrudes toward the bottom case 100, the wire connection hole 521 is in a lower recess relative to the exterior of the valve controller, and the periphery of the wire connection hole 521 forms a protective barrier for the wire connection hole 521. Even if the rain falls from the left and right sides of the valve controller in an inclined manner, the rain cannot directly fall on the aviation connector.

The embodiments described above are some, but not all embodiments of the present invention. Various modifications and changes may occur to those skilled in the art. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (10)

1. Integration valve controller, including master controller, shell, the master controller is arranged in the shell, the shell comprises upper cover and drain pan, and the drain pan comprises bottom plate and facade, its characterized in that: one vertical surface of the bottom shell is provided with an installation notch; be provided with the guard plate on the drain pan, the guard plate comprises first plate section and second plate section, forms the form of bending after first plate section and the combination of second plate section, the laminating of first plate section is on the surface of bottom plate, and the laminating of second plate section the facade to through installing the protruding inside the drain pan in notched border, bottom plate, facade, second plate section make up into the box body, have seted up two at least wiring holes to drain pan department at the second plate section epirelief.

2. The integrated valve controller of claim 1, wherein: the installation incision is opened on the facade and extends to the bottom plate, and the second plate section is attached to the facade and the bottom plate and protrudes towards the inside of the bottom shell through the edge of the installation incision.

3. The integrated valve controller of claim 1, wherein: be provided with the fixed mounting district on the first plate section of guard plate, the fixed mounting district is provided with the several screw hole.

4. The integrated valve controller of claim 3, wherein: the inner surface of the bottom plate of the bottom shell is provided with a plurality of bulges, and the arrangement positions of the bulges correspond to the positions of the threaded holes.

5. The integrated valve controller of claim 4, wherein: reinforcing ribs are arranged between every two adjacent bulges, and the bulges and the reinforcing ribs form a net structure.

6. The integrated valve controller of claim 1, wherein: the master controller is installed in the upper cover, and the inside of upper cover is provided with the flexibility and encloses the fender, and the flexibility encloses a terminal surface that keeps off and pastes the bottom at the upper cover, and the flexibility encloses the fender and is in vertical state and arranges in the upper cover inside.

7. The integrated valve controller of claim 1, wherein: and a sheath is arranged on the second plate section at the corresponding position of each wiring hole, and the cross-sectional shapes of the sheaths arranged on the second plate section are at least two.

8. The integrated valve controller of claim 1, wherein: the solar panel is electrically connected with the main controller; the surface of upper cover sets up a mounting groove, and the through-hole has been seted up on the mounting groove, solar cell panel arranges in the mounting groove, solar cell's connecting wire passes the through-hole and is connected with the master controller.

9. The integrated valve controller of claim 1, wherein: and after the first plate section and the second plate section are combined, a 135-degree bending included angle is formed.

10. The integrated valve controller of claim 1, wherein: the bottom plate of the bottom shell is provided with lugs, the lugs are fixed at one ends, far away from the wiring holes, of the bottom shell in pairs, and water baffles are detachably mounted on the lugs.

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