CN209191116U - A kind of rubber patch machine mould unloading control system - Google Patents

Abstract

A kind of rubber patch machine mould unloading control system, including light-current system and heavy-current control system, it is characterized by: the light-current system includes signal processor A, signal processor B, signal processor C, signal processor D, signal processor E and signal processor F, the heavy-current control system includes relay A, relay B, relay C, relay D, relay E and relay F.Relay is sent a signal to by signal processor, relay automatically controls the cooperative movement between each equipment, higher in all control systems and traditional numerical control rubber patch machine precision, operation is intuitive, high degree of automation allows the efficiency of rubber patch industry to greatly improve instead of traditional manual work, and it is low using threshold, multiple rubber patch devices are controlled by controller to work asynchronously, and control color is accurate, while alleviating labor intensity, production efficiency is substantially increased, and ensure that product quality.

Description

A kind of rubber patch machine mould unloading control system

Technical field

The utility model belongs to mechanical rubber patch technical field more particularly to a kind of rubber patch machine mould unloading control system.

Background technique

Rubber patch is the product that most of technique rare at present still uses manual production.Its main raw material(s) is by PVC paste Resin is dissolved in the rouge such as DOP, in addition color, becomes the paste resin compound of different colours.The paste resin of different colours is mixed Object is closed to drip to by aluminum dipping form, brass pattern, electroforming or silica gel mould, by being heated to 170 DEG C or more, the lipids such as PVC paste resin and DOP It chemically reacts, and becomes solid, become rich in color, the strong product of three-dimensional sense.

Currently, still using conventionally employed manual rubber patch method, this rubber patch side when some enterprise's production rubber patch craftworks Method speed is slow, low output, and the heavy workload, the repeatability that detect are high, and labor intensity is caused to increase, and are easy to make one fatigue, separately The heated standard that do not unify outside, only by personal subjective judgement, it is difficult to guarantee the craftwork quality of each workpiece；In order to add Fast industrial progress and development, people develop a kind of rubber patch machine of single-station, which is mainly used for sign industry, Gum forming is dripped in the standard surface that all size, various shape are printed, sizing material can be polyurethane, be also possible to epoxy resin, It shields to the label of printing and decoration function, can be used for the encapsulation of small circuit board.It compares traditional manual Rubber patch has significant progress, but can not still meets the requirement of the mass production of enterprise, and color control is not accurate enough, behaviour It bothers, therefore seriously restricts the survival and development of enterprise, the function of rubber patch lathe is excessively single, does not have intelligence abundant The operation requirement of energyization, easy, greatly reduces the efficiency of actual production, waste of energy and human resources.

Utility model content

In order to overcome the defects of the prior art described above, the utility model proposes a kind of rubber patch machine mould unloading controls for the utility model System processed, can send a signal to relay by signal processor, and relay automatically controls the cooperation between each equipment Movement, higher in all control systems and traditional numerical control rubber patch machine precision, operation is intuitive, high degree of automation.

To achieve the above object, the technical solution adopted in the utility model is as follows.

A kind of rubber patch machine mould unloading control system, including light-current system and heavy-current control system, it is characterised in that: described Light-current system include signal processor A, signal processor B, signal processor C, signal processor D, signal processor E and Signal processor F, the heavy-current control system include relay A, relay B, relay C, relay D, relay E and relay It is provided on device F, the signal processor A on the first signal conveying stake A and second signal conveying stake A, the signal processor B It is provided on the first signal conveying stake B and second signal conveying stake B, the signal processor C and is provided with the first signal conveying stake C Stake C is conveyed with second signal, the first signal conveying stake D and second signal conveying stake D, institute are provided on the signal processor D It states and is provided with the first signal conveying stake E, second signal conveying stake E, the third signal letter of conveying stake E and the 4th on signal processor E Number conveying stake E, the first signal conveying stake F and second signal conveying stake, first signal are provided on the signal processor F Conveying stake A is connect by the anode of signal wire and signal processor F and is connected at electricity, and the second signal conveying stake A passes through signal wire It is connect with the input terminal of relay B, the first signal conveying stake B is connect by signal wire with the input terminal of relay C, described Second signal conveying stake B is connect by signal wire with the input terminal of relay E, and the first signal conveying stake C passes through signal wire It is connect with the input terminal of relay E, the second signal conveying stake C is connect by signal wire with the input terminal of relay D, described First signal conveying stake D is connect by signal wire with the input terminal of relay A, and the second signal conveying stake D passes through signal wire Connect respectively with relay B and the first signal conveying stake F, first signal conveying stake E passes through the defeated of signal wire and relay D Enter end connection, the second signal conveying stake E is connect by signal wire with the input terminal of relay F, the third signal conveying Stake E connect by signal wire with the input terminal of relay A, and the fourth signal conveys stake E and passes through the defeated of signal wire and relay C Enter end connection, the second signal conveying stake is connect by signal wire with relay F, and the output end of the relay F is connected with The output end of first cylinder, the relay D and relay E are connected with suction nozzle, the output end of the relay B and relay C It is connected with the second cylinder, the output end of the relay A is connected with fixture.

The signal processor A is connected with inductor a, and the signal processor B is connected with inductor b, at the signal Reason device C is connected with inductor c, and the signal processor D is connected with inductor d, and the signal processor E is connected with inductor e, The signal processor F is connected with inductor f.

The signal processor A, signal processor B connection, signal processor C, the signal processor, signal processor E, the positive and negative anodes of signal processor F, relay A, relay B, relay C, relay D, relay E and relay F connect respectively Connect the positive and negative anodes of weak mains.

A kind of rubber patch machine mould unloading control method, it is characterised in that: include the following steps.

A, it when inductor f does not sense mold, sends and gives signal processor F, second signal conveying without die signal Stake F sends a signal to relay F, meanwhile, inductor e senses mold, sends a signal to signal processor E, second signal Conveying stake E sends a signal to relay F, and after two two input terminals of relay F receive signal, the first cylinder of control is pushed Mold enters the lower section of suction nozzle；

B, on the rack, when inductor a senses mold, signal processor A, the conveying of the first signal are sent a signal to Stake A issues signal to signal processor F, and after signal processor F receives signal, the first signal conveys stake F to relay B, the Binary signal conveys stake A and sends a signal to signal processor when inductor d does not sense mold to relay B sending signal D, second signal conveying stake D send a signal to relay B, relay B(12) two input terminals receive signal after, control the Two cylinders push down on suction nozzle, until suction nozzle is close to the top of mold；

C, it when inductor c does not sense mold, sends and gives signal processor C, second signal conveying without die signal Stake C send a signal to relay D, meanwhile, when inductor e has sensed mold, the first signal conveying stake E send a signal to after Product after two input terminals of electric appliance D, relay D receive signal, on control suction nozzle air-breathing absorption mold；

D, when inductor b senses mold, signal processor B is sent a signal to, the first signal conveys stake B and sends letter Number relay C is given, while the inductor e on suction nozzle does not sense mold, inductor e is sent without die signal to signal processing Device E, second signal conveying stake C sends a signal to relay C, after two input terminals of relay C receive signal, control second Cylinder is lifted up suction nozzle, makes product break away from moulds；

E, it when inductor b does not sense mold, sends and gives signal processor B, second signal conveying without die signal Stake B sends a signal to relay E, meanwhile, when inductor c senses mold, send a signal to signal processor C, the first letter Number conveying stake C send a signal to relay E, after two input terminals of relay E receive signal, control suction nozzle air inlet be detached from mould Tool makes product be detached from suction nozzle；

F, when inductor d senses mold, signal processor D is sent a signal to, the first signal conveys stake D and sends signal Relay A is given, while inductor e does not sense mold, sends and give signal processor E, the conveying of the first signal without die signal Stake E sends a signal to relay A, and after two input terminals of relay A receive signal, the second cylinder of control is shunk, and makes fixture Mold clamping is removed.

Using the utility model has the advantage of.

1, relay is sent a signal to by signal processor, relay automatically controls the fortune of the cooperation between each equipment Dynamic, higher in all control systems and traditional numerical control rubber patch machine precision, operation is intuitive, high degree of automation, instead of tradition Manual work, allow the efficiency of rubber patch industry to greatly improve, and using threshold it is low, multiple rubber patch devices are controlled by controller It works asynchronously, control color is accurate, while alleviating labor intensity, substantially increases production efficiency, and ensure that product matter Amount has apparent economic value, to increase the competitiveness of enterprise.

2, the signal of induction is sent to by signal processor by inductor, detection is had no signal transmission by signal processor To relay, small in size, light-weight, low in energy consumption, high reliablity, is easily integrated high sensitivity, is the main force of microsensor Army.

3, main consideration is that information was transmitted by the way that vulnerabilities scan voltage is low, electric current is small, power is small, frequency is high Effect, and develop to synthesization, intelligent direction.

4, it pushes suction nozzle close to mold by cylinder, colloid molding on mold is sucked and is taken away, and push rod pushes mould Tool movement, makes the colloid break away from moulds for having adhesion with mold, the colloid for avoiding adhesion is difficult to the defect picked up, whole process High degree of automation does not need manually to be chosen with needle, will not hurt product, saves man power and material, while improving production efficiency, drops Low production cost is suitable for wide popularization and application, and automated production truly may be implemented, realize manless production.

Detailed description of the invention

The utility model is described in further detail below in conjunction with specification drawings and specific embodiments, In.

Fig. 1 is the control schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of the utility model rack.

Fig. 3 is the overlooking structure diagram of Fig. 2.

Fig. 4 is the structural schematic diagram of conveying device below rack.

Fig. 5 is the schematic perspective view of rack.

Structural schematic diagram when Fig. 6 is suction.

Fig. 7 is structural schematic diagram when suction nozzle is vented.

Marked in the figure: 1, signal processor A, 2, signal processor B, 3, signal processor C, 4, signal processor D, 5, letter Number processor E, 6, signal processor F, the 7, first cylinder, 8, suction nozzle, the 9, second cylinder, 10, fixture, 11, relay A, 12, after Electric appliance B, 13, relay C, 14, relay D, 15, relay E, 16, relay F, a3, the conveying of the first signal stake A, a4, second Signal conveys stake A, and b3, the first signal convey stake B, and b5, second signal convey stake B, and c4, the first signal convey stake C, c6, second Signal conveys stake C, and d4, the first signal convey stake D, and d5, second signal convey stake D, and e3, the first signal convey stake E, e4, second Signal conveys stake E, and e5, third signal convey stake E, and e6, fourth signal convey stake E, and f3, the first signal convey stake F, f5, second Signal conveying stake F, 17, rack, 18, inductor a, 19, inductor b, 20, inductor c, 21, inductor d, 22, inductor e, 23, inductor f, 24, mold.

Specific embodiment

Embodiment 1

As shown in Fig. 1 to 7, a kind of rubber patch machine mould unloading control system, including light-current system and heavy-current control system, institute State light-current system include signal processor A1, signal processor B2, signal processor C3, signal processor D4, at signal Device E5 and signal processor F6 is managed, the heavy-current control system includes relay A11, relay B12, relay C13, relay The first signal conveying stake Aa3 and second signal are provided on D14, relay E15 and relay F16, the signal processor A1 Stake Aa4 is conveyed, the first signal conveying stake Bb3 and second signal conveying stake Bb5, the letter are provided on the signal processor B2 It is provided on the first signal conveying stake Cc4 and second signal conveying stake Cc6, the signal processor D4 and is arranged on number processor C3 Have and is provided with the conveying stake of the first signal on the first signal conveying stake Dd4 and second signal conveying stake Dd5, the signal processor E5 On Ee3, second signal conveying stake Ee4, third signal conveying stake Ee5 and fourth signal conveying stake Ee6, the signal processor F6 It is provided with the first signal conveying stake Ff3 and second signal conveying stake f5, the first signal conveying stake Aa3 passes through signal wire and letter The anode of number processor F6 connects and connects at electricity, and the second signal conveying stake Aa4 passes through the input terminal of signal wire and relay B12 Connection, the first signal conveying stake Bb3 are connect by signal wire with the input terminal of relay C13, the second signal conveying Stake Bb5 is connect by signal wire with the input terminal of relay E15, and the first signal conveying stake Cc4 passes through signal wire and relay The input terminal of device E15 connects, and the second signal conveying stake Cc6 is connect by signal wire with the input terminal of relay D14, described First signal conveying stake Dd4 is connect by signal wire with the input terminal of relay A11, and the second signal conveying stake Dd5 passes through Signal wire is connect with relay B12 and the first signal conveying stake Ff3 respectively, and the first signal conveying stake Ee3 passes through signal wire It is connect with the input terminal of relay D14, the second signal conveying stake Ee4 is connected by the input terminal of signal wire and relay F16 It connects, the third signal conveying stake Ee5 is connect by signal wire with the input terminal of relay A11, and the fourth signal conveys stake Ee6 is connect by signal wire with the input terminal of relay C13, and the second signal conveying stake f5 passes through signal wire and relay F16 connection, the output end of the relay F16 are connected with the first cylinder 7, the output end of the relay D14 and relay E15 It is connected with suction nozzle 8, the output end of the relay B12 and relay C13 are connected with the second cylinder 9, and the relay A11's is defeated Outlet is connected with fixture 10.

Relay is sent a signal to by signal processor, relay automatically controls the fortune of the cooperation between each equipment Dynamic, higher in all control systems and traditional numerical control rubber patch machine precision, operation is intuitive, high degree of automation, instead of tradition Manual work, allow the efficiency of rubber patch industry to greatly improve, and using threshold it is low, multiple rubber patch devices are controlled by controller It works asynchronously, control color is accurate, while alleviating labor intensity, substantially increases production efficiency, and ensure that product matter Amount has apparent economic value, to increase the competitiveness of enterprise.

Embodiment 2

As shown in Fig. 1 to 7, a kind of rubber patch machine mould unloading control system, including light-current system and heavy-current control system, institute State light-current system include signal processor A1, signal processor B2, signal processor C3, signal processor D4, at signal Device E5 and signal processor F6 is managed, the heavy-current control system includes relay A11, relay B12, relay C13, relay The first signal conveying stake Aa3 and second signal are provided on D14, relay E15 and relay F16, the signal processor A1 Stake Aa4 is conveyed, the first signal conveying stake Bb3 and second signal conveying stake Bb5, the letter are provided on the signal processor B2 It is provided on the first signal conveying stake Cc4 and second signal conveying stake Cc6, the signal processor D4 and is arranged on number processor C3 Have and is provided with the conveying stake of the first signal on the first signal conveying stake Dd4 and second signal conveying stake Dd5, the signal processor E5 On Ee3, second signal conveying stake Ee4, third signal conveying stake Ee5 and fourth signal conveying stake Ee6, the signal processor F6 It is provided with the first signal conveying stake Ff3 and second signal conveying stake f5, the first signal conveying stake Aa3 passes through signal wire and letter The anode of number processor F6 connects and connects at electricity, and the second signal conveying stake Aa4 passes through the input terminal of signal wire and relay B12 Connection, the first signal conveying stake Bb3 are connect by signal wire with the input terminal of relay C13, the second signal conveying Stake Bb5 is connect by signal wire with the input terminal of relay E15, and the first signal conveying stake Cc4 passes through signal wire and relay The input terminal of device E15 connects, and the second signal conveying stake Cc6 is connect by signal wire with the input terminal of relay D14, described First signal conveying stake Dd4 is connect by signal wire with the input terminal of relay A11, and the second signal conveying stake Dd5 passes through Signal wire is connect with relay B12 and the first signal conveying stake Ff3 respectively, and the first signal conveying stake Ee3 passes through signal wire It is connect with the input terminal of relay D14, the second signal conveying stake Ee4 is connected by the input terminal of signal wire and relay F16 It connects, the third signal conveying stake Ee5 is connect by signal wire with the input terminal of relay A11, and the fourth signal conveys stake Ee6 is connect by signal wire with the input terminal of relay C13, and the second signal conveying stake f5 passes through signal wire and relay F16 connection, the output end of the relay F16 are connected with the first cylinder 7, the output end of the relay D14 and relay E15 It is connected with suction nozzle 8, the output end of the relay B12 and relay C13 are connected with the second cylinder 9, and the relay A11's is defeated Outlet is connected with fixture 10.

The signal processor A1 is connected with inductor a18, and the signal processor B2 is connected with inductor b19, described Signal processor C3 is connected with inductor c20, and the D4 of the signal processor is connected with inductor d21, the signal processor E5 is connected with inductor e22, and the signal processor F6 is connected with inductor f23.

The signal processor A1, signal processor B2 connection, signal processor C3, the signal processor D4, signal Processor E5 company, signal processor F6, relay A11, relay B12, relay C13, relay D14, relay E15 and after The positive and negative anodes of electric appliance F16 are separately connected the positive and negative anodes of weak mains.

Relay is sent a signal to by signal processor, relay automatically controls the fortune of the cooperation between each equipment Dynamic, higher in all control systems and traditional numerical control rubber patch machine precision, operation is intuitive, high degree of automation, instead of tradition Manual work, allow the efficiency of rubber patch industry to greatly improve, and using threshold it is low, multiple rubber patch devices are controlled by controller It works asynchronously, control color is accurate, while alleviating labor intensity, substantially increases production efficiency, and ensure that product matter Amount has apparent economic value, to increase the competitiveness of enterprise.

The signal of induction is sent to signal processor by inductor, detection is had no signal to be sent to by signal processor Relay, small in size, light-weight, low in energy consumption, high reliablity, are easily integrated high sensitivity, are the main forces of microsensor Army.

It is main consideration is that the effect that information is transmitted by the way that vulnerabilities scan voltage is low, electric current is small, power is small, frequency is high Fruit, and develop to synthesization, intelligent direction.

Embodiment 3

As shown in Fig. 1 to 7, a kind of rubber patch machine mould unloading control system, including light-current system and heavy-current control system, institute State light-current system include signal processor A1, signal processor B2, signal processor C3, signal processor D4, at signal Device E5 and signal processor F6 is managed, the heavy-current control system includes relay A11, relay B12, relay C13, relay The first signal conveying stake Aa3 and second signal are provided on D14, relay E15 and relay F16, the signal processor A1 Stake Aa4 is conveyed, the first signal conveying stake Bb3 and second signal conveying stake Bb5, the letter are provided on the signal processor B2 It is provided on the first signal conveying stake Cc4 and second signal conveying stake Cc6, the signal processor D4 and is arranged on number processor C3 Have and is provided with the conveying stake of the first signal on the first signal conveying stake Dd4 and second signal conveying stake Dd5, the signal processor E5 On Ee3, second signal conveying stake Ee4, third signal conveying stake Ee5 and fourth signal conveying stake Ee6, the signal processor F6 It is provided with the first signal conveying stake Ff3 and second signal conveying stake f5, the first signal conveying stake Aa3 passes through signal wire and letter The anode of number processor F6 connects and connects at electricity, and the second signal conveying stake Aa4 passes through the input terminal of signal wire and relay B12 Connection, the first signal conveying stake Bb3 are connect by signal wire with the input terminal of relay C13, the second signal conveying Stake Bb5 is connect by signal wire with the input terminal of relay E15, and the first signal conveying stake Cc4 passes through signal wire and relay The input terminal of device E15 connects, and the second signal conveying stake Cc6 is connect by signal wire with the input terminal of relay D14, described First signal conveying stake Dd4 is connect by signal wire with the input terminal of relay A11, and the second signal conveying stake Dd5 passes through Signal wire is connect with relay B12 and the first signal conveying stake Ff3 respectively, and the first signal conveying stake Ee3 passes through signal wire It is connect with the input terminal of relay D14, the second signal conveying stake Ee4 is connected by the input terminal of signal wire and relay F16 It connects, the third signal conveying stake Ee5 is connect by signal wire with the input terminal of relay A11, and the fourth signal conveys stake Ee6 is connect by signal wire with the input terminal of relay C13, and the second signal conveying stake f5 passes through signal wire and relay F16 connection, the output end of the relay F16 are connected with the first cylinder 7, the output end of the relay D14 and relay E15 It is connected with suction nozzle 8, the output end of the relay B12 and relay C13 are connected with the second cylinder 9, and the relay A11's is defeated Outlet is connected with fixture 10.

The signal processor A1 is connected with inductor a18, and the signal processor B2 is connected with inductor b19, described Signal processor C3 is connected with inductor c20, and the signal processor D4 is connected with inductor d21, the signal processor E5 It is connected with inductor e22, the signal processor F6 is connected with inductor f23.

The signal processor A1, signal processor B2 connection, signal processor C3, the signal processor D4, signal Processor E5 company, signal processor F6, relay A11, relay B12, relay C13, relay D14, relay E15 and after The positive and negative anodes of electric appliance F16 are separately connected the positive and negative anodes of weak mains.

A kind of rubber patch machine mould unloading control method, comprising the following steps:

A, it when inductor f23 does not sense mold 24, sends and gives signal processor F6, the second letter without 24 signal of mold Number conveying stake Ff5 send a signal to relay F16, meanwhile, inductor e22 senses mold 24, sends a signal at signal Device E5 is managed, second signal conveying stake Ee4 sends a signal to relay F16, and two two input terminals of relay F16 receive letter After number, the first cylinder 7 of control pushes mold 24 into the lower section of suction nozzle 8；

B, in rack 17, when inductor a18 senses mold 24, signal processor A1 is sent a signal to, first Signal conveys stake Aa3 and issues signal to signal processor F6, and after signal processor F6 receives signal, the first signal conveys stake Ff3 is to relay B12, and second signal conveys stake Aa4 and issues signal to relay B12, when inductor d21 does not sense mold When 24, signal processor D4 is sent a signal to, second signal conveying stake Dd5 sends a signal to relay B12, relay B12's After two input terminals receive signal, the second cylinder 9 of control pushes down on suction nozzle 8, until suction nozzle 8 is close to the top of mold 24；

C, it when inductor c20 does not sense mold 24, sends and gives signal processor C3, the second letter without 24 signal of mold Number conveying stake Cc6 send a signal to relay D14, meanwhile, when inductor e22 has sensed mold 24, the first signal convey stake Ee3, which is sent a signal to, gives relay D14, after two input terminals of relay D14 receive signal, control 8 air-breathing of suction nozzle absorption Product on mold 24；

D, when inductor b19 senses mold 24, signal processor B2 is sent a signal to, the first signal conveys stake Bb3 sends a signal to relay C13, while the inductor e22 on suction nozzle 8 does not sense that mold 24, inductor e22 send nothing 24 signal of mold gives signal processor E5, and second signal conveying stake Ce6 sends a signal to relay C13, relay C(13) two After a input terminal receives signal, the second cylinder 9 of control is lifted up suction nozzle 8, makes product break away from moulds 24；

E, it when inductor b19 does not sense mold 24, sends and gives signal processor B2, the second letter without 24 signal of mold Number conveying stake Bb5 send a signal to relay E15, meanwhile, when inductor c20 senses mold 24, send a signal to signal Processor C3, the first signal conveying stake Cc4 send a signal to relay E15, and two input terminals of relay E15 receive signal Afterwards, 8 air inlet break away from moulds 24 of suction nozzle is controlled, product is made to be detached from suction nozzle 8；

F, when inductor d4 senses mold 24, signal processor D4 is sent a signal to, the first signal conveys stake Dd4 hair The number of delivering letters gives relay A11, while inductor e5 does not sense mold 24, sends without 24 signal of mold to signal processor E5, the first signal conveying stake Ee3 sends a signal to relay A11, after two input terminals of relay A11 receive signal, control The contraction of the second cylinder 9 is made, removes fixture 7 to the clamping of mold 24.

Relay is sent a signal to by signal processor, relay automatically controls the fortune of the cooperation between each equipment Dynamic, higher in all control systems and traditional numerical control rubber patch machine precision, operation is intuitive, high degree of automation, instead of tradition Manual work, allow the efficiency of rubber patch industry to greatly improve, and using threshold it is low, multiple rubber patch devices are controlled by controller It works asynchronously, control color is accurate, while alleviating labor intensity, substantially increases production efficiency, and ensure that product matter Amount has apparent economic value, to increase the competitiveness of enterprise.

The signal of induction is sent to signal processor by inductor, detection is had no signal to be sent to by signal processor Relay, small in size, light-weight, low in energy consumption, high reliablity, are easily integrated high sensitivity, are the main forces of microsensor Army.

It is main consideration is that the effect that information is transmitted by the way that vulnerabilities scan voltage is low, electric current is small, power is small, frequency is high Fruit, and develop to synthesization, intelligent direction.

It pushes suction nozzle close to mold by cylinder, colloid molding on mold is sucked and is taken away, and push rod pushes mold Movement makes the colloid break away from moulds for having adhesion with mold, and the colloid for avoiding adhesion is difficult to the defect picked up, and whole process is certainly Dynamicization degree is high, does not need manually to be chosen with needle, will not hurt product, saves man power and material, while improving production efficiency, reduces Production cost is suitable for wide popularization and application, and automated production truly may be implemented, realize manless production.

The signal processor A1, signal processor B2, signal processor C3, signal processor D4, signal processor E5 It is DSP(digital signal processor with signal processor F6) model are as follows: ADI ADAU1450WBCPZ-RL, encapsulation/specification: 72-VFQFN exposed pads, CSP, goods number: IC0074045, vendor number: ADAU1450WBCPZ-RL.

The relay A11, relay B12, relay C13, relay D14, relay E15 and relay F16 are The small-sized 2 auxiliary contact 5A8 foot two of Schneider plug-in intermediate relay opens two and closes 24V, signal are as follows: RXM2LB2BD.

The inductor a18, inductor b19, inductor c20, inductor d21, inductor e22 and inductor f23 are Panasonic HG-C1400 C1200 miniature laser displacement sensor CMOS ranging telegnosis sunx.

The specific embodiment of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously The limitation to the application protection scope therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, under the premise of not departing from technical scheme design, various modifications and improvements can be made, these belong to this The protection scope of application.

Claims (3)

1. a kind of rubber patch machine mould unloading control system, including light-current system and heavy-current control system, it is characterised in that: described weak Electric control system includes signal processor A(1), signal processor B(2), signal processor C(3), signal processor D(4), letter Number processor E(5) and signal processor F(6), the heavy-current control system includes relay A(11), relay B(12), relay Device C(13), relay D(14), relay E(15) and relay F(16), the signal processor A(1) on be provided with the first letter Number conveying stake A(a3) and second signal convey stake A(a4), the signal processor B(2) on be provided with the first signal convey stake B (b3) and second signal conveys stake B(b5), the signal processor C(3) on be provided with the first signal conveying stake C(c4) and second Signal convey stake C(c6), the signal processor D(4) on be provided with the first signal conveying stake D(d4) and second signal convey stake D(d5), the signal processor E(5) on be provided with the first signal conveying stake E(e3), second signal conveying stake E(e4), third Signal convey stake E(e5) and fourth signal convey stake E(e6), the signal processor F(6) on be provided with the first signal convey stake F(f3) and second signal conveying stake (f5), first signal convey stake A(a3) by signal wire and signal processor F(6) Anode connects and connects at electricity, and the second signal conveys stake A(a4) it is connect by signal wire with the input terminal of relay B(12), institute State the first signal conveying stake B(b3) it is connect by signal wire with the input terminal of relay C(13), the second signal conveys stake B (b5) connect with the input terminal of relay E(15) by signal wire, first signal conveys stake C(c4) pass through signal wire and after Electric appliance E(15) input terminal connection, the second signal conveys stake C(c6) by signal wire and relay D(14) input terminal Connection, first signal convey stake D(d4) it is connect by signal wire with the input terminal of relay A(11), the second signal Conveying stake D(d5) it is connect, first signal with relay B(12) and the first signal conveying stake F(f3) respectively by signal wire Conveying stake E(e3) it is connect by signal wire with the input terminal of relay D(14), the second signal conveys stake E(e4) pass through letter Number line is connect with the input terminal of relay F(16), and the third signal conveys stake E(e5) pass through signal wire and relay A(11) Input terminal connection, the fourth signal conveys stake E(e6) connect by signal wire with the input terminal of relay C(13), it is described Second signal conveying stake (f5) is connect by signal wire with relay F(16), the relay F(16) output end be connected with the One cylinder (7), the relay D(14) and relay E(15) output end be connected with suction nozzle (8), the relay B(12) and Relay C(13) output end be connected with the second cylinder (9), the relay A(11) output end be connected with fixture (10).

2. a kind of rubber patch machine mould unloading control system according to claim 1, it is characterised in that: the signal processor A(1) It is connected with inductor a (18), the signal processor B(2) it is connected with inductor b(19), the signal processor C(3) connection Have inductor c(20), the signal processor D(4) it is connected with inductor d(21), the signal processor E(5) connection thoughts Answer device e(22), the signal processor F(6) it is connected with inductor f(23).

3. a kind of rubber patch machine mould unloading control system according to claim 1, it is characterised in that: the signal processor A (1), signal processor B(2) connection, signal processor C(3), the signal processor D(4), signal processor E(5) even, letter Number processor F(6), relay A(11), relay B(12), relay C(13), relay D(14), relay E(15) and after Electric appliance F(16) positive and negative anodes be separately connected the positive and negative anodes of weak mains.