CN204860509U - Scale is bred intelligence and is thrown material control system - Google Patents

Abstract

The utility model provides a scale is bred intelligence and is thrown material control system, control system includes PLC controller, ac contactor, touch -sensitive screen, converter, three -phase asynchronous motor, weighing sensor, speed reduction and position detection module, operating button and power module, operating button, speed reduction and position detection module, ac contactor are connected with the PLC controller, and the touch -sensitive screen passes through the PROFIBUS bus to be connected with the PLC controller, and weighing sensor passes through the analog quantity mixing module and is connected with the PLC controller, and the analog quantity mixing module is connected with the PLC controller through the extension cable, and signal input part is stopped to the opening of converter and the fault -signal output is connected with the PLC controller. The utility model discloses solved effectively that current scale breeds that the automation of adopting throws that material controlling means's the unable accurate control of inventory, operation is too complicated, the unable real -time demonstration of breed information, control system cost are higher etc to further developing of the scale of breeding has been restricted.

Description

A kind of breeding scale intelligence feeds intake control system

Technical field

The utility model relates to cultivation intelligence and to feed intake automatic control equipment technical field, is specifically related to a kind of breeding scale intelligence and feeds intake control system.

Background technology

In breeding scale technology, automatic charging controls to be the problem that numerous breeding enterprise is paid close attention to always, tradition cultivation is most adopts Manual material feeding mode, inventory relies on the personnel of feeding intake to cultivate experience to control completely, inventory is too much, can cause the waste of foodstuff, the foodstuff of pollution can bring out again the generation of poultry or livestock disease; Inventory is very few, and poultry or livestock feeds insatiable hunger.Meanwhile, charging time can not accurately control, and can not feed intake at regular time and quantity has like this had a strong impact on the cultivation quality of breeding scale.In recent years, also there is a lot of breeding scale enterprise to introduce automatic charging control device, but because automaticity is lower, operation is too complicated, the more high a series of reason of control device cost, the extensive use of breeding scale automation feeding apparatus is hindered.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of breeding scale intelligence and feeds intake control system, the inventory that the utility model efficiently solves the automatic charging control device that existing breeding scale adopts cannot accurately control, it is too complicated to operate, cultivation information cannot show in real time, control system cost is more high, thus limits further developing of cultivation scale.

The utility model is achieved through the following technical solutions:

A kind of breeding scale intelligence feeds intake control system, it is characterized in that: described control system comprises PLC 1, A.C. contactor 2, touch-screen 3, frequency converter 4, threephase asynchronous 5, LOAD CELLS 6, slows down and position detecting module 7, action button 8 and power module 9, described action button 8, slow down and position detecting module 7, A.C. contactor 2 is connected with PLC 1, touch-screen 3 is connected with PLC 1 by PROFIBUS bus, LOAD CELLS 6 is connected with PLC 1 by analog quantity mixing module 10, analog quantity mixing module 10 is connected with PLC 1 by expansion cable, start stop signal input and the fault-signal output of frequency converter 4 are connected with PLC 1, the frequency run signal input terminal of frequency converter 4 is connected with the analog output end of analog quantity mixing module 10, LOAD CELLS 6 is connected with the analog input end of analog quantity mixing module 10, threephase asynchronous 5 is connected with power module 9 through the main contacts of A.C. contactor 2, power module 9 provides working power for system.

The further Technological improvement plan of the utility model is:

Described deceleration and position detecting module 7 comprise forward deceleration inductive switch, oppositely deceleration inductive switch and hopper and to put in place inductive switch, the equal correspondence of each cultivation hurdle feeding point is provided with deceleration and position detecting module 7, forward deceleration inductive switch, oppositely deceleration inductive switch are symmetricly set on the hopper orbit of cultivation feeding point both sides, hurdle respectively, and hopper puts in place on the hopper orbit of inductive switch directly over forward slows down inductive switch, cultivation hurdle feeding point oppositely between deceleration inductive switch.

The further Technological improvement plan of the utility model is:

Described action button 8 comprises feed point action button 81, cultivation hurdle action button 82.

The further Technological improvement plan of the utility model is:

Described control system is also provided with duty and hopper and puts in place indicator lamp 11, and duty and the hopper indicator lamp 11 that puts in place is connected with PLC 1.

The further Technological improvement plan of the utility model is:

Described feed point action button 81 comprises hurdle button, hand/automatic button, blanking button, stopping blanking button, the scram button on each cultivation hurdle.

The further Technological improvement plan of the utility model is:

Described each cultivation hurdle action button 82 includes hurdle button, blanking button, stopping blanking button, the scram button on corresponding cultivation hurdle.

The further Technological improvement plan of the utility model is:

Described PLC 1 adopts S7-226CN; Frequency converter 4 model is Siemens MM420; Touch-screen 3 adopts TP170B; Analog quantity mixing module 10 is EM235.

The utility model compared with prior art, has following obvious advantage:

The utility model adopts PLC, frequency converter and touch-screen comprehensive application technology, use adaptive feeding control realization feeding intake at regular time and quantity to breeding scale, deposit in systems in which by each experience inventory, system, according to poultry or livestock cultivation age in days and the amount trimmed that feeds intake, realizes carrying out timing to each cultivation hurdle, quantitatively, location feeds intake.To put in place instruction, hand/automatically instruction, blanking button, stopping blanking button and scram button because each cultivation hurdle is all set to hopper, the switching realizing hand/automatic charging is very convenient, and simple to operate, and system visuality is good.

Accompanying drawing explanation

Fig. 1 is the utility model system architecture diagram.

Embodiment

As shown in Figure 1, the utility model comprises PLC 1, frequency converter 4, touch-screen 3, analog quantity mixing module 10, feed point action button 81, cultivation hurdle action button 82, slow down and position detecting module 7, A.C. contactor 2, duty and hopper put in place indicator lamp 11, LOAD CELLS 6, threephase asynchronous 5 and power module 9, described feed point action button 81, cultivation hurdle action button 82, slow down and position detecting module 7, A.C. contactor 2, duty and the hopper indicator lamp 11 that puts in place is connected with PLC 1, touch-screen 3 is connected with PLC 1 by PROFIBUS bus, analog quantity mixing module 10 is connected with PLC 1 by expansion cable, start stop signal input and the fault-signal output of frequency converter 4 are connected with PLC 1, the frequency run signal input terminal of frequency converter 4 is connected with the analog output end of analog quantity mixing module 10, LOAD CELLS 6 is connected with the analog input end of analog quantity mixing module 10, threephase asynchronous 5 is connected with the three phase mains of power module 9 through the main contacts of A.C. contactor 2, the single phase poaer supply of power module provides working power for A.C. contactor 2, single phase poaer supply through voltage-stabilized power supply for system provides working power.Described frequency converter 4 is for regulating hopper speed; Described feed point action button 81 comprises the hurdle button, hand/automatic button, blanking button, stopping blanking button, scram button etc. on each cultivation hurdle; Described cultivation hurdle action button 82 comprises hurdle button, blanking button, stopping blanking button, the scram button on corresponding cultivation hurdle; Described LOAD CELLS 6 is used for weighing to foodstuff real-time in hopper, is determined the inventory on each cultivation hurdle by difference double recipe formula; Described deceleration and position detecting module 7 comprise forward deceleration inductive switch, oppositely deceleration inductive switch and a hopper and to put in place inductive switch, forward and reverse deceleration inductive switch is separately positioned on the hopper orbit of the both sides of cultivation hurdle feeding point, and the hopper inductive switch that puts in place to be arranged on directly over cultivation hurdle feeding point on hopper orbit; Described duty and the hopper indicator lamp 11 that puts in place comprises system hand/automatic operation mode indicator lamp and each cultivation hurdle hopper and to put in place indicator lamp; The same hurdle button on multiple cultivation hurdle, blanking button, stop blanking button, scram button, hand/automatic button, hand/automatic operation status indicator lamp all in parallel, all only take of PLC 1 and input or output and count; Described touch-screen 3 is used for arranging systematic parameter, display system cultivation information and working state of system, comprise breeding scale quantity, culturing time, inventory, hurdle, cultivation hurdle, hopper place number, hand/automatic operation state, inventory trim button and button described above etc.; Described PLC 1 adopts S7-226CN; Frequency converter 4 model is Siemens MM420; Touch-screen 3 adopts TP170B; Analog quantity mixing module 10 is EM235.

Composition graphs 1 sketches operation principle of the present utility model:

After system power turn-on module 9, press automatic operation mode button, now system works is in automatic charging pattern, the system operating mode indicator lamp Chang Liang that each cultivation hurdle place is arranged, show that system is in automatic charging mode of operation, reach at charging time, the hopper containing foodstuff when feeding intake first drives to No. 1 cultivation hurdle motion from feed point by the M1 of threephase asynchronous 5, the speed of service can be arranged by touch-screen 3, when hopper reduces speed now through forward or reverse induction speed reducing switch in a forward direction, trigger hopper when arriving cultivation hurdle feeding point to put in place inductive switch, and make the M1 of electromotor 5 out of service, the hurdle indicator lamp being now arranged on this cultivation hurdle place is bright, show that hopper runs to this, touch-screen 3 also there is hopper in-position to indicate simultaneously, then blanking is started, discharge quantity determines now discharge quantity by system jointly according to the inventory prestored and fine setting inventory, current material weight is recorded by LOAD CELLS 6 before blanking, blanking is stopped when arriving this discharge quantity, blanking is carried out by the M2 drive shaft of threephase asynchronous 5 during blanking, M2 adopts phase asynchronous slow-speed motor, with darker groove in rotating shaft, the generation of putty phenomenon when effectively can avoid blanking like this, after No. 1 cultivation hurdle feeds intake and terminates, hopper continues to operate to it to No. 2 cultivation hurdles and feeds in raw material, so proceed to n cultivation hurdle.When hopper is without material, hopper runs from trend feed point, arriving reinforced time point drives belt to feed in raw material by the M3 of threephase asynchronous 5, stops reinforced when detecting that hopper has fed in raw material by LOAD CELLS 6, then continues to run until that the reinforced cultivation hurdle do not completed feeds in raw material.When all cultivation hurdles have fed in raw material, hopper is parked in current reinforced hurdle place, because of system above each cultivation hurdle left and right respectively establish a forward and reverse speed reducing switch, therefore system can carry out both forward and reverse directions feed in raw material; If poultry feeders is thought to feed in raw material manually, now press hand push button, the system operating mode indicator lamp that each cultivation hurdle place is arranged is with grading line flicker second, show that system is in manual batch mode of operation, hopper is run to this cultivation hurdle by pressing feed point, touch-screen or each hurdle button cultivating the setting of hurdle place by poultry feeders, carrying out blanking by pressing blanking button again, pressing after blanking completes and stopping blanking button to terminate blanking.When frequency converter 4 breaks down; by its output switch parameter, this signal is sent to PLC 1; PLC 1 sends signal out of service thus stops the operation of hopper; effectively protect the M1 of frequency converter 4 and threephase asynchronous 5; simultaneously; on touch-screen 3, malfunction indicator lamp lights, and reminding technology personnel carry out maintenance of equipment.

Can arrange the equal feed point of two or more according to cultivation scale in breeding house, when hopper needs reinforced, hopper can select the nearer feed point of one to feed in raw material according to the distance of current location and feed point.Equally also two or more hopper can be set on long cultivation line, can feed intake simultaneously.

Technological means disclosed in technical solutions of the utility model is not limited only to the technological means disclosed in above-mentioned embodiment, also comprises the technical scheme be made up of above technical characteristic.It should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle, can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (7)

1. breeding scale intelligence feeds intake a control system, it is characterized in that: described control system comprises PLC (1), A.C. contactor (2), touch-screen (3), frequency converter (4), threephase asynchronous (5), LOAD CELLS (6), slows down and position detecting module (7), action button (8) and power module (9), described action button (8), slow down and position detecting module (7), A.C. contactor (2) is connected with PLC (1), touch-screen (3) is connected with PLC (1) by PROFIBUS bus, LOAD CELLS (6) is connected with PLC (1) by analog quantity mixing module (10), analog quantity mixing module (10) is connected with PLC (1) by expansion cable, the start stop signal input of frequency converter (4) and fault-signal output are connected with PLC (1), the frequency run signal input terminal of frequency converter (4) is connected with the analog output end of analog quantity mixing module (10), LOAD CELLS (6) is connected with the analog input end of analog quantity mixing module (10), threephase asynchronous (5) is connected with power module (9) through the main contacts of A.C. contactor (2), power module (9) provides working power for system.

2. a kind of breeding scale intelligence according to claim 1 feeds intake control system, it is characterized in that: described deceleration and position detecting module (7) comprise forward deceleration inductive switch, reverse deceleration inductive switch and hopper put in place inductive switch, the equal correspondence of each cultivation hurdle feeding point is provided with deceleration and position detecting module (7), forward deceleration inductive switch, reverse deceleration inductive switch is symmetricly set on the hopper orbit of cultivation feeding point both sides, hurdle respectively, the hopper inductive switch that puts in place is positioned at forward deceleration inductive switch, on hopper orbit directly over cultivation hurdle feeding point between reverse deceleration inductive switch.

3. a kind of breeding scale intelligence according to claim 1 and 2 feeds intake control system, it is characterized in that: described action button (8) comprises feed point action button (81), cultivation hurdle action button (82).

4. a kind of breeding scale intelligence according to claim 1 and 2 feeds intake control system, it is characterized in that: described control system is also provided with duty and hopper and puts in place indicator lamp (11), duty and the hopper indicator lamp (11) that puts in place is connected with PLC (1).

5. a kind of breeding scale intelligence according to claim 3 feeds intake control system, it is characterized in that: described feed point action button (81) comprise each cultivation hurdle hurdle button, hand/automatic button, blanking button, stop blanking button, scram button.

6. a kind of breeding scale intelligence according to claim 3 feeds intake control system, it is characterized in that: described each cultivation hurdle action button (82) include corresponding cultivation hurdle hurdle button, blanking button, stop blanking button, scram button.

7. a kind of breeding scale intelligence according to claim 1 and 2 feeds intake control system, it is characterized in that: described PLC (1) adopts S7-226CN; Frequency converter (4) model is Siemens MM420; Touch-screen (3) adopts TP170B; Analog quantity mixing module (10) is EM235.