CN103324172A - Control method of drip irrigation tape production line and application of same to drip irrigation tape production line - Google Patents

Abstract

The invention provides a control method of a drip irrigation tape production line and further discloses application of the control method to the drip irrigation tape production line. The method is characterized in that a control system uniformly controls a dripper screening device, an extruding device, a guide pipe forming device, a drip irrigation tape bonding device, a perforating device, a collecting device and a conveying device, wherein the dripper screening device, the extruding device, the guide pipe forming device, the drip irrigation tape bonding device, the perforating device, the collecting device and the conveying device are arranged in drip irrigation tape production systems. Compared with the operation in the prior art that each device needs to be allocated to certain personnel, the operation that the devices contained in all the drip irrigation tape production systems are controlled by the control system not only reduces human cost, but also is convenient for an operator to monitor, and ensures drip irrigation tape quality.

Description

The control method of drip-irrigation belt production line and the application on drip-irrigation belt production line thereof

Technical field

The present invention relates to the technical field of the plastic shaping of agricultural drop irrigation technology, relate in particular to a kind of control method of drip-irrigation belt production line and the application on drip-irrigation belt production line thereof.

Background technology

Drip irrigation technique refers to by main, arm and drip irrigation zone, under low pressure drips lentamente to soil is regular; It is a kind of irrigation system of moisture, fertilizer or other chemical agent etc. that have directly filtered to the soil supply.It is water spray or irrigation canals and ditches flowing water not, only allows water slowly ooze, and enter soil under gravity and effect capillaceous.Splash near the water of crop root, make the soil in the main root of crop district often keep optimum water status.

Particularly, drip irrigation system mainly is comprised of head pivot, pipeline and water dropper three parts: a. head pivot, comprise water pump (and engine), fertilizer pot filtrator, control and measurement instrument etc., its effect is to draw water, apply fertilizer, filter, by certain pressure the water of some is sent into main; B. pipeline comprises main, arm, hollow billet and necessary conditioning equipment (such as tensimeter, gate valve, flow regulator etc.), and its effect is that pressure (hydraulic) water is transported to water dropper equably; C. water dropper, its effect are to make current through small duct, and the forming energy loss reduces its pressure, and it is dripped in people's soil in the mode of drop.Water dropper is placed on soil surface usually, can also the shallow embedding protection.Thus, drip irrigation technique has the following advantages:

1. the effective rate of utilization of water is high.Under condition of drip irrigation, the moistening part soil surface of irrigation water can effectively reduce the invalid evaporation of soil moisture.Simultaneously, because near the drip irrigation soil moistening crop root only, other regional soil moistures are lower, therefore, can prevent the growth of weeds.Drip irrigation system does not produce surface runoff, and easily water depth, very water-saving are executed in grasp accurately.

2. ambient humidity is low.After drip irrigation is poured water; the penetrating condition of soil root system is good; by the fertilizer in the injected water; enough moisture and nutrient can be provided; soil moisture is in can satisfy that crop requires is stable and than the bargain-hunting power state, the regional ground surface evaporating capacity of pouring water is also little, can effectively control like this humidity in the protection ground; the occurrence frequency of the disease and pest of crop in the protection ground is reduced greatly, also reduced the amount of application of agricultural chemicals.

3. improve the crop product quality.Because drip irrigation can in time supply water in right amount, fertilizer, it can improve and improve the quality of agricultural product when improving crop yield, and the marketable farm produce on protection ground is improved greatly, and economic benefit is high.

4. drip irrigation is stronger to the adaptive faculty of landform and soil.Because water dropper can work in larger working pressure range, and water dropper go out stream evenly, so drip irrigation is suitable for plot and different types of soil that landform has fluctuating.Simultaneously, drip irrigation also can reduce intertill and clean tillage, also can not cause surface soil to harden.

5. water-saving saving of labor, increasing both production and income.Because when irrigating, water is motion aloft not, does not drench the blade face, does not also have effective wetted area evaporation of soil moisture in addition, therefore direct loss is in the least amount of water of evaporation; Easily control the water yield, unlikely generation surface runoff and deep subsoil seepage.Therefore can save water 35%-75% than sprinkling irrigation.In addition, because not well-off moisture between strain, weeds are difficult for growth, thereby crop greatly alleviates with the interference that weeds fight for nutrient, have reduced the weeding recruitment.Crop root zone also has, owing to can keep best for water state and fertilizer state, therefore can increase production.

With the obvious advantage in view of drip irrigation technique, therefore extensively promoted aspect the crop irrigation of China, therefore, its correlation technique also obtains flourish, such as the production technology of drip irrigation zone.But; existing equipment for the production of the drip irrigation zone forms by a plurality of systems; and these a plurality of systems independent operation separately; in process of production; each system configuration one fix the number of workers; several systems of operator's management and control; like this; not only cause enterprise that the cost of labour spending is strengthened, and if by several systems of operator's management and control, in case these several systems need to adjust simultaneously; then the operator must must in several systems, walk about parameters; virtually easily make mistakes in chaos, the drip irrigation zone that causes production is prone to substandard products; waste product, even also can cause the systems such as shutdown to move abnormal problem.In addition, because the scale of present drip irrigation zone manufacturing enterprise is increasing, the quantity of drip-irrigation belt production line is also more and more, and the situation of founding the factory in the strange land appears, but drip-irrigation belt production line instantly all is independent operation, like this, the layer of production management of enterprise is larger to the supervision and management difficulty of producing, and can't make according to the present case of production line and plan as a whole rational production scheduling.

Therefore, be necessary to provide a kind of technological means to address the aforementioned drawbacks.

Summary of the invention

The object of the invention is to overcome the defective of prior art, a kind of control method of drip-irrigation belt production line is provided, can not each system module of unified management and occur that inconvenience is set, be difficult to the problem planning as a whole to produce to solve present drip-irrigation belt production line; The present invention also provides the application of this control method at drip-irrigation belt production line.

The present invention realizes like this, a kind of control method of drip-irrigation belt production line, be used for the water dropper screening plant that control can be screened the water dropper of material loading, the micelle of material loading carried out melting and be extruded into the extrusion device of the mould of conduit, the melting micelle of being extruded by described extrusion device is shaped to the conduit shaped device of conduit, water dropper and conduit are bonded into the drip irrigation zone bonder of drip irrigation zone, the perforating device that is punched in drip irrigation zone after described drip irrigation zone bonder typing, with drip irrigation zone gathering-device and the conveyer collected after the punching, it is characterized in that, by a control system respectively with each described drip irrigation zone production system in the water dropper screening plant, extrusion device, the conduit shaped device, the drip irrigation zone bonder, perforating device, gathering-device and conveyer are electrically connected, and described control method may further comprise the steps:

A), send the instruction of the water dropper of material loading being screened operation by described control system to the water dropper screening plant in each described drip irrigation zone production system;

B), described control system is according to parameter, the conveyer in each described drip irrigation zone production system sends the instruction that the water dropper after the screening is sent to position to be bonded;

C), carry out melting operation and it is extruded into the instruction of conduit mould to the micelle that the extrusion device in each described drip irrigation zone production system sends material loading according to parameter by described control system;

D), send the instruction of the melting micelle that is extruded onto the conduit mould being carried out the conduit moulding by described control system to the conduit shaped device in each described drip irrigation zone production system;

E), send the instruction that the conduit of moulding be sent to be bonded position according to parameter to the conveyer in each described drip irrigation zone production system by described control system;

F), send the instruction that water dropper and conduit is bonded into the drip irrigation zone to the drip irrigation zone bonder in each described drip irrigation zone production system by described control system;

G), sent to the perforating device in each described drip irrigation zone production system by described control system the drip irrigation zone is had the instruction of punching in the position of water dropper water delivering orifice;

H), send the instruction that the drip irrigation zone after the punching is collected to the gathering-device in each described drip irrigation zone production system by described control system;

I), judge whether repeating step a to step h by described control system according to the data of turnout of the drip irrigation zone of input, in this way, repeating step a as no, sends halt instruction to each described drip irrigation zone production system to step h.

Further, described drip-irrigation belt production line is divided into n group drip irrigation zone production module, and n 〉=1, every group of described drip irrigation zone production module has m described drip irrigation zone production system, and m 〉=1;

With described set-up of control system be the first order control system that has to control described drip irrigation zone production system, in order to the second level control system of controlling this first order control system and in order to controlling the third level control system of this second level control system, and described first order control system is electrically connected with at least one drip irrigation zone production system;

Described second level control system is electrically connected with described first order control system, and controls each described drip irrigation zone production system by this second level control system by described first order control system;

Described third level control system is electrically connected with described second level control system, and controls every group of described drip irrigation zone production module by this third level control system by described second level control system.

Further, with described first order set-up of control system for having n * m sub-first order control system, configuration and m m the described sub-first order control system that described drip irrigation zone production system is corresponding make each described sub-first order control system correspondence be electrically connected on water dropper screening plant, extrusion device, conduit shaped device, drip irrigation zone bonder, perforating device, gathering-device and the conveyer of each described drip irrigation zone production system in every group of described drip irrigation zone production module;

Be the individual sub-second level of the n control system with n group and the corresponding setting of described drip irrigation zone production module with described second level set-up of control system, and each described sub-second level control system correspondence is electrically connected on the individual sub-first order control system of m of every group of described drip irrigation zone production module;

Described third level control system is electrically connected on respectively n described sub-second level control system.

Further, described third level control system is by n described sub-second level control system of latticed form control.

The present invention also provides the above-mentioned application of control method on drip-irrigation belt production line.

Technique effect of the present invention is: control the operation of device included in each drip irrigation zone production system by control system, comparing to prior art need to be in the certain personnel operation of each device configuration, not only reduce human cost, and convenient operation person's monitoring, guarantee the quality of drip irrigation zone.The present invention also discloses this control method in the application of drip-irrigation belt production line.

Description of drawings

Fig. 1 is the process flow diagram of the control method of drip-irrigation belt production line of the present invention;

Fig. 2 is the schematic diagram that the control method of drip-irrigation belt production line of the present invention is applied in drip-irrigation belt production line;

Fig. 3 is the schematic diagram that the control method of the drip-irrigation belt production line of Fig. 2 is applied in another embodiment of drip-irrigation belt production line.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not intended to limit the present invention.

See also shown in Figure 1, the invention provides a kind of control method of drip-irrigation belt production line, be used for the water dropper screening plant 1 that control can be screened the water dropper of material loading, the micelle of material loading carried out melting and be extruded into the extrusion device 3 of the mould of conduit, the melting micelle of being extruded by described extrusion device 3 is shaped to the conduit shaped device 4 of conduit, water dropper and conduit are bonded into the drip irrigation zone bonder 5 of drip irrigation zone, the perforating device 6 that is punched in drip irrigation zone after described drip irrigation zone bonder 5 typing, with drip irrigation zone gathering-device 7 and the conveyer 2 collected after the punching, be specially, by a control system 30 respectively with each drip irrigation zone production system 51 in water dropper screening plant 1, extrusion device 3, conduit shaped device 4, drip irrigation zone bonder 5, perforating device 6, gathering-device 7 and conveyer 2 are electrically connected, and described control method may further comprise the steps:

A), send the instruction of the water dropper of material loading being screened operation by described control system 30 to the water dropper screening plant 1 in each described drip irrigation zone production system 51;

B), described control system 30 is according to parameter, the conveyer 2 in each described drip irrigation zone production system 51 sends the instruction that the water dropper after the screening is sent to position to be bonded;

C), by described control system 30 according to parameter, the micelle that the extrusion device 3 in each described drip irrigation zone production system 51 sends material loading carries out melting operation and it is extruded into the instruction of conduit mould;

D), send the instruction of the melting micelle that is extruded onto the conduit mould being carried out the conduit moulding by described control system 30 to the conduit shaped device 4 in each described drip irrigation zone production system 51;

E), by described control system 30 according to parameter, the conveyer 2 in each described drip irrigation zone production system 51 sends the instruction that the conduit of moulding is sent to position to be bonded;

F), send the instruction that water dropper and conduit is bonded into the drip irrigation zone to the drip irrigation zone bonder 5 in each described drip irrigation zone production system 51 by described control system 30;

G), sent to the perforating device 6 in each described drip irrigation zone production system 51 by described control system 30 drip irrigation zone is had the instruction of punching in the position of water dropper water delivering orifice;

H), send the instruction that the drip irrigation zone after the punching is collected to the gathering-device 7 in each described drip irrigation zone production system 51 by described control system 30;

I), judge whether repeating step a to step h by described control system 30 according to the data of turnout of the drip irrigation zone of input, in this way, repeating step a as no, sends halt instruction to each described drip irrigation zone production system 51 to step h.

Wherein, this case is by the operation of the included device of control system 30 control drip-irrigation belt production lines 100, comparing to prior art need to be in the certain personnel operation of each device configuration, not only reduced human cost, reduce operator's labour intensity, and convenient operation person's monitoring, guarantee the quality of drip irrigation zone.Also have, its layer of production management of being convenient to enterprise is beneficial to its present case according to production line and makes the rational production scheduling of pool the whole production management that exercises supervision.

See also Fig. 2 and shown in Figure 3, drip-irrigation belt production line 100 is divided into n group drip irrigation zone production module 50, and n 〉=1, every group of drip irrigation zone production module 50 has m drip irrigation zone production system 51, and m 〉=1; With control system 30 be set to have to control the first order control system 10 of drip irrigation zone production system 51, in order to the second level control system 20 of controlling this first order control system 10, in order to controlling the third level control system 31 of this second level control system 20, and first order control system 10 is electrically connected with at least one drip irrigation zone production system 51; Second level control system 20 is electrically connected with first order control system 10, and controls each drip irrigation zone production system 51 by this second level control system 20 by first order control system 10; Third level control system 31 is electrically connected with second level control system 20, and controls every group of drip irrigation zone production module 50 by this third level control system 31 by second level control system 20.

Particularly, by disposing first order control system 10, second level control system 20 and third level control system 31, make drip-irrigation belt production line 100 by first order control system 10 these at least one drip irrigation zone production systems 51 of control, second level control system 20 control first order control system 10, and third level control system 31 control second level control system 20, reach the layer by layer control by high position control low level, can be regarded as, the junior operator is by first order control system 10 management and control drip irrigation zone production systems 51, not only needn't need to relevant parameter be set at device corresponding to each operation just like that such as prior art, therefore can effectively reduce the probability that it makes mistakes in chaos, and minimizing drip irrigation zone substandard products, the occurrence rate of waste product, and whole drip irrigation zone production system 51 is as long as junior operator's monitoring, comparing to prior art needs to be equipped with the operator of at least one quantity in device zone corresponding to each operation, reduced widely the human cost of enterprise; Then, pass through second level control system 20 management and control first order control system 10 with intermediate operator again, be conducive to intermediate operator when monitoring, in case pinpoint the problems, can modify by second level control system 20 control first order control system 10, and then guarantee preferably the quality of drip irrigation zone; At last, pass through third level control system 31 management and control second level control system 20 by higher level operation person, its manufacturing schedule to the drip irrigation zone of whole enterprise, quality management and control, turnout etc. are had at fingertips, be convenient to it and make overall planning, and, as long as it send instruction to second level control system 20, and after the intermediate operator who is responsible for this second level control system 20 receives instruction, it just can send corresponding planning instruction by first order control system 10, the junior operator can in time be made adjustment rapidly, guarantee the progress of amount of product throughput.

Further, first order control system 10 is set to have n * m sub-first order control system 11, in m sub-first order control system 11 corresponding to every group of drip irrigation zone production module 50 interior configurations and m drip irrigation zone production system 51, make every sub-first order control system 11 correspondences be electrically connected on water dropper screening plant 1, extrusion device 3, conduit shaped device 4, drip irrigation zone bonder 5, perforating device 6, gathering-device 7 and the conveyer 2 of each drip irrigation zone production system 51; Second level control system 20 is set to have n sub-second level control system 21 organizing the 50 corresponding settings of drip irrigation zone production module with n, and every individual sub-first order control system 11 of m that sub-second level control system 21 correspondences are electrically connected on every group of drip irrigation zone production module 50; Third level control system 31 is electrically connected on respectively n sub-second level control system 21.Owing to having configured n * m sub-first order control system 11, make each first order control system 11 corresponding each drip irrigation zone production system 51 of control, be convenient to junior operator's correspondence monitoring; In like manner, owing to having configured n sub-second level control system 21, make m drip irrigation zone production system 51 of every group of drip irrigation zone production module 50 of each second level control system 21 corresponding control, be convenient to intermediate operator's correspondence monitoring.

Further, described third level control system is by n described sub-second level control system of network system 40 controls.Wherein, by network system 40 management and control, can realize preferably that the higher level operation person in strange land monitors the drip irrigation zone production system 51 of each plant area.Preferably, this network system 40 is 3G network, LAN or wireless network.

Please consult Fig. 2 and shown in Figure 3, the present invention also provides the above-mentioned application of control method on drip-irrigation belt production line 100 again.The drip-irrigation belt production line 100 of making according to this control method, it comprises at least one drip irrigation zone production system 51 and controls the control system 30 of these at least one drip irrigation zone production system 51 work, drip irrigation zone production system 51 mainly is comprised of water dropper screening plant 1, extrusion device 3, conduit shaped device 4, drip irrigation zone bonder 5, perforating device 6, wrap-up 7, conveyer 2, servicing unit 8, and the operation steps of this drip-irrigation belt production line 100 is as follows:

S1, the water dropper screening plant 1 by each drip irrigation zone production system 51 of control system 30 control, it is listed as the gather of water dropper finished product screen, simultaneously, by the conveyer 2 of each drip irrigation zone production system 51 of control system 30 control, the water dropper after it will be screened is sent to the bond locations place of drip irrigation zone bonder 5;

S2, the extrusion device 3 by each drip irrigation zone production system 51 of control system 30 control, make its will be material loading the plastic grain heating and melting and it is extruded into conduit shaped device 4, simultaneously, conduit shaped device 4 by control system 30 each drip irrigation zone production system 51 of control, make its plastic grain that receives the melting of extruding from extrusion device 3, and the plastic grain of this melting is molded required conduit;

S3, by the conveyer 2 of each drip irrigation zone production system 51 of control system 30 control, make its conduit that will be in conduit shaped device 4 be sent to the bond locations place of drip irrigation zone bonder 5;

S4, by the drip irrigation zone bonder 5 of each drip irrigation zone production system 51 of control system 30 control, make it be bonded into the drip irrigation zone at water dropper and the conduit at bond locations place, and finalized the design in this drip irrigation zone that is bonded into;

S5, by the perforating device 6 of each drip irrigation zone production system 51 of control system 30 control, the drip irrigation zone after it will be finalized the design causes the punch position place of its setting, and punches in the position that has the water dropper water delivering orifice in the drip irrigation zone;

S6, by the wrap-up 7 of each drip irrigation zone production system 51 of control system 30 control, collect the drip irrigation zone after it will be punched;

S7, repeating step a to the operation of step f until the drip irrigation zone reaches the turnout of plan.

Preferably, in step S2, conduit is for to make by vacuum forming technique or injection molding process.Wherein, so-called vacuum forming, refer to rely on the state that is evacuated between thermoforming sheet (plate) material of vacuum pump with mould and heating, cause sheet (plate) material to produce up and down pressure reduction, thereby make sheet material tightly note overlay on the method for die surface moulding, particularly, this kind forming method is suitable for the less drip irrigation zone of wall thickness, but the product surface of this kind method is coarse, and the error of size and dimension is larger.Injection mo(u)lding realizes by injection machine and mould, and more smooth by the surface of injection machine injection moulding drip irrigation zone out, the error of size and dimension is less, the drip irrigation zone that just utilizes injection machine to carry out injection mo(u)lding, and its wall thickness is generally larger.

Preferably, in step S4, water dropper and conduit are combined into the drip irrigation zone by ultrasound wave or infrared heat fusible.Wherein, the principle of ultrasound wave hot melt adhesive is: when ul-trasonic irradiation during in thermoplastic plastics surface of contact, the dither that meeting generation per second is several ten thousand times, this dither that reaches certain amplitude, by upper weldment ultrasonic energy is sent to welding zone, because the interface place acoustic resistance of i.e. two welding of welding zone is large, therefore can produce localized hyperthermia.Because the plastics poor thermal conductivity, can't in time distribute for the moment again, be gathered in welding zone, cause the surface of contact of two plastics to melt rapidly, add certain pressure after, it is fused into one.After ultrasound wave fails, allow pressure continue several seconds, make its coagulation forming, so just form a firm strand, reach the purpose of welding, weld strength can be close to starting material intensity.In addition, utilize the ultrasound wave hot melt adhesive needn't dose any bonding agent, filler or solvent, also need not consume a large amount of thermals source, and have easy and simple to handle, speed of welding is fast, weld strength is high, the production efficiency advantages of higher.The ultrasound wave hot melt adhesive is also adopted in the enforcement of this case, but it is implemented not as limit.

Further, in step S4, the drip irrigation zone is for passing through air cooling way or water-cooling pattern cooling and shaping.If the employing air cooling way, as long as according to blowing amount demand, the blower fan that is equipped with some gets final product; And if adopt water-cooling pattern because this case also has been equipped with the servicing unit 8 of auxiliary material in addition, usually, chilled water is supplied to the cooled region of drip irrigation zone by servicing unit 8, and it is the circulating cooling mode, has guaranteed preferably the cooling effect of drip irrigation zone.

Particularly, in step S5, punch operation is carried out by laser cutting device, drilling equipment or mechanical punching device in the drip irrigation zone.Wherein, laser cutting device is compared with drilling equipment, mechanical punching device, has the following advantages: without cutting force, processing is without distortion; Without tool wear, adaptability for materials is good; No matter be simple and unadorned or complex parts, can be with once accurate rapid shaping cutting of laser; Its joint-cutting is narrow, and cut quality is good, and automaticity is high, easy operation, and labour intensity is low, does not pollute; Can realize cutting automatic nesting, jacking, improve stock utilization, and it be low, good in economic efficiency to produce capital.But the cost of the laser cutting device also price than drilling equipment, mechanical punching device is high, therefore the user can consider to select different perforating devices according to combined factors such as the quality of the drip irrigation zone that produces, cost, processing.

In addition, between step S5 and step S6, also comprise step S5.1, control each described drip irrigation zone production system by described control system quality testing is carried out in the drip irrigation zone, guarantee the quality of the product that dispatches from the factory of drip irrigation zone.

The above is only for preferred embodiment of the present invention, and its structure is not limited to the above-mentioned shape of enumerating, and all any modifications of doing within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. the control method of a drip-irrigation belt production line, be used for the water dropper screening plant that control can be screened the water dropper of material loading, the micelle of material loading carried out melting and be extruded into the extrusion device of the mould of conduit, the melting micelle of being extruded by described extrusion device is shaped to the conduit shaped device of conduit, water dropper and conduit are bonded into the drip irrigation zone bonder of drip irrigation zone, the perforating device that is punched in drip irrigation zone after described drip irrigation zone bonder typing, with drip irrigation zone gathering-device and the conveyer collected after the punching, it is characterized in that, by a control system respectively with each described drip irrigation zone production system in the water dropper screening plant, extrusion device, the conduit shaped device, the drip irrigation zone bonder, perforating device, gathering-device and conveyer are electrically connected, and described control method may further comprise the steps:

A), send the instruction of the water dropper of material loading being screened operation by described control system to the water dropper screening plant in each described drip irrigation zone production system;

B), described control system is according to parameter, the conveyer in each described drip irrigation zone production system sends the instruction that the water dropper after the screening is sent to position to be bonded;

C), carry out melting operation and it is extruded into the instruction of conduit mould to the micelle that the extrusion device in each described drip irrigation zone production system sends material loading according to parameter by described control system;

D), send the instruction of the melting micelle that is extruded onto the conduit mould being carried out the conduit moulding by described control system to the conduit shaped device in each described drip irrigation zone production system;

E), send the instruction that the conduit of moulding be sent to be bonded position according to parameter to the conveyer in each described drip irrigation zone production system by described control system;

F), send the instruction that water dropper and conduit is bonded into the drip irrigation zone to the drip irrigation zone bonder in each described drip irrigation zone production system by described control system;

G), sent to the perforating device in each described drip irrigation zone production system by described control system the drip irrigation zone is had the instruction of punching in the position of water dropper water delivering orifice;

H), send the instruction that the drip irrigation zone after the punching is collected to the gathering-device in each described drip irrigation zone production system by described control system;

I), judge whether repeating step a to step h by described control system according to the data of turnout of the drip irrigation zone of input, in this way, repeating step a as no, sends halt instruction to each described drip irrigation zone production system to step h.

2. the control method of drip-irrigation belt production line as claimed in claim 1, it is characterized in that, described drip-irrigation belt production line is divided into n group drip irrigation zone production module, and n 〉=1, every group of described drip irrigation zone production module has m described drip irrigation zone production system, and m 〉=1;

With described set-up of control system be the first order control system that has to control described drip irrigation zone production system, in order to the second level control system of controlling this first order control system and in order to controlling the third level control system of this second level control system, and described first order control system is electrically connected with at least one drip irrigation zone production system;

Described second level control system is electrically connected with described first order control system, and controls each described drip irrigation zone production system by this second level control system by described first order control system;

Described third level control system is electrically connected with described second level control system, and controls every group of described drip irrigation zone production module by this third level control system by described second level control system.

3. the control method of drip-irrigation belt production line as claimed in claim 2, it is characterized in that: with described first order set-up of control system for having n * m sub-first order control system, configuration and m m the described sub-first order control system that described drip irrigation zone production system is corresponding make each described sub-first order control system correspondence be electrically connected on water dropper screening plant, extrusion device, conduit shaped device, drip irrigation zone bonder, perforating device, gathering-device and the conveyer of each described drip irrigation zone production system in every group of described drip irrigation zone production module;

Be the individual sub-second level of the n control system with n group and the corresponding setting of described drip irrigation zone production module with described second level set-up of control system, and each described sub-second level control system correspondence is electrically connected on the individual sub-first order control system of m of every group of described drip irrigation zone production module;

Described third level control system is electrically connected on respectively n described sub-second level control system.

4. the control method of drip-irrigation belt production line as claimed in claim 3 is characterized in that: described third level control system is by n described sub-second level control system of latticed form control.

5. each described control method application on drip-irrigation belt production line of claim 1-4.

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