CN205302366U - Device was realized to new count of mould when mould was carried - Google Patents

Abstract

The utility model discloses a device was realized to new count of mould when mould was carried, including first resistance to the 11 resistance, first electric capacity to third electric capacity, infrared light emitting diode, infrared receiving tube, triode, optoelectronic coupler, three terminal regulator, first comparator, second comparator, counter, decoder, display and bridge type rectifier circuit. The utility model discloses a device was realized to new count of mould when mould was carried passes through between infrared light emitting diode and the infrared receiving tube as the object, and the infrared ray is blocked, and infrared receiving tube ends, the 3rd comparator output high level, and optoelectronic coupler ends, and the triode ends, triode collector output count pulse signal, decade counter is sent to this signal, sends the decoding display circuit again to, demonstrates corresponding data, reaches the purpose of accurate count.

Description

During the conveying of a kind of mould, the New count of mould realizes device

Technical field

This utility model relates to a kind of counting assembly, particularly relates to the New count of mould during the conveying of a kind of mould and realizes device.

Background technology

Mould needs to carry with conveying equipment after processing and fabricating completes, the mould manufactured now needs it is counted when conveying, to determine progress and the efficiency of factory, easily there is mistake in now traditional method of counting, causes that the production efficiency of mould reduces.

Utility model content

The purpose of this utility model is that when providing a kind of mould to carry to solve the problems referred to above, the New count of mould realizes device.

This utility model is achieved through the following technical solutions above-mentioned purpose:

During the conveying of a kind of mould, the New count of mould realizes device, including the first resistance to the 11st resistance, first electric capacity is to the 3rd electric capacity, infrarede emitting diode, infrared receiving tube, audion, photoelectrical coupler, three terminal regulator, first comparator, second comparator, enumerator, decoder, display and bridge rectifier, the ac input end of described bridge rectifier is connected with power positive cathode respectively, the cathode output end of described bridge rectifier is connected with the first end of the input of described three terminal regulator and described second electric capacity respectively, the end that controls of described three terminal regulator is connected with the first end of described first electric capacity, the outfan of described three terminal regulator respectively with the first end of described first resistance, first end of described second resistance, first end of described 3rd resistance, first end of described 6th resistance, first end of described 5th resistance, the cathode voltage input of described second comparator, first end of described 7th resistance, first end of described 8th resistance and one end of described 11st resistance connect, second end of described first resistance is connected with the positive pole of described infrarede emitting diode, second end of described second resistance respectively with the colelctor electrode of described infrared receiving tube, second end of described 5th resistance and the inverting input of described first comparator connect, second end of described 3rd resistance respectively with the in-phase input end of described first comparator, the in-phase input end of described second comparator and the first end of described 4th resistance connect, second end of described 6th resistance is connected with the inverting input of the outfan of described first comparator and described second comparator respectively, described second end of the 7th resistance is connected with the first input end of described photoelectrical coupler, the outfan of described second comparator is connected with the second input of described photoelectrical coupler, described second end of the 8th resistance is connected with the first outfan of described photoelectrical coupler, second outfan of described photoelectrical coupler is connected with the first end of described 9th resistance and the first end of described tenth resistance respectively, described second end of the tenth resistance is connected with the base stage of described audion, second end of described 11st resistance respectively with the colelctor electrode of described audion, first end of described 3rd electric capacity and the input of described enumerator connect, the cathode output end of described bridge rectifier respectively with the second end of described second electric capacity, second end of described first electric capacity, the negative pole of described infrarede emitting diode, the emitter stage of described infrared receiving tube, second end of described 4th resistance, the cathode voltage input of described second comparator, second end of described 9th resistance and the emitter stage of described audion connect, the outfan of described enumerator is connected with the input of described decoder, the outfan of described decoder is connected with the input of described display.

The beneficial effects of the utility model are in that:

When this utility model is mould conveying, the New count of mould realizes device, when there being object to pass through between infrarede emitting diode and infrared receiving tube, infrared ray is blocked, and infrared receiving tube ends, 3rd comparator output high level, photoelectrical coupler ends, and audion ends, transistor collector output counting pulse signal, this signal delivers to decade computer, it is then sent through coding display circuit, it is shown that corresponding data, reaches the purpose of accurate counting.

Accompanying drawing explanation

When Fig. 1 is the conveying of this utility model mould, the New count of mould realizes the circuit diagram of device.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1, during the conveying of this utility model mould, the New count of mould realizes device, including the first resistance R1 to the 11st resistance R11, first electric capacity C1 to the 3rd electric capacity C3, infrarede emitting diode D, infrared receiving tube VT1, audion VT2, photoelectrical coupler OC, three terminal regulator IC1, first comparator IC2, second comparator IC3, enumerator IC4, decoder IC5, display IC6 and bridge rectifier BR, the ac input end of bridge rectifier BR bridge rectifier BR is connected with power positive cathode respectively, the cathode output end of bridge rectifier BR bridge rectifier BR is connected with the first end of the input of bridge rectifier BR three terminal regulator IC1 and bridge rectifier BR the second electric capacity C2 respectively, the end that controls of bridge rectifier BR three terminal regulator IC1 is connected with first end of bridge rectifier BR the first electric capacity C1, the outfan of bridge rectifier BR three terminal regulator IC1 respectively with first end of bridge rectifier BR the first resistance R1, first end of bridge rectifier BR the second resistance R2, first end of bridge rectifier BR the 3rd resistance R3, first end of bridge rectifier BR the 6th resistance R6, first end of bridge rectifier BR the 5th resistance R5, the cathode voltage input of bridge rectifier BR the second comparator IC3, first end of bridge rectifier BR the 7th resistance R7, first end of bridge rectifier BR the 8th resistance R8 and one end of bridge rectifier BR the 11st resistance R11 connect, second end of bridge rectifier BR the first resistance R1 is connected with the positive pole of bridge rectifier BR infrarede emitting diode D, second end of bridge rectifier BR the second resistance R2 respectively with the colelctor electrode of bridge rectifier BR infrared receiving tube VT1, second end of bridge rectifier BR the 5th resistance R5 and the inverting input of bridge rectifier BR the first comparator IC2 connect, second end of bridge rectifier BR the 3rd resistance R3 respectively with the in-phase input end of bridge rectifier BR the first comparator IC2, the in-phase input end of bridge rectifier BR the second comparator IC3 and first end of bridge rectifier BR the 4th resistance R4 connect, second end of bridge rectifier BR the 6th resistance R6 is connected with the inverting input of the outfan of bridge rectifier BR the first comparator IC2 and bridge rectifier BR the second comparator IC3 respectively, second end of bridge rectifier BR the 7th resistance R7 is connected with the first input end of bridge rectifier BR photoelectrical coupler OC, the outfan of bridge rectifier BR the second comparator IC3 is connected with second input of bridge rectifier BR photoelectrical coupler OC, second end of bridge rectifier BR the 8th resistance R8 is connected with first outfan of bridge rectifier BR photoelectrical coupler OC, second outfan of bridge rectifier BR photoelectrical coupler OC is connected with first end of bridge rectifier BR the 9th resistance R9 and first end of bridge rectifier BR the tenth resistance R10 respectively, second end of bridge rectifier BR the tenth resistance R10 is connected with the base stage of bridge rectifier BR audion VT2, second end of bridge rectifier BR the 11st resistance R11 respectively with the colelctor electrode of bridge rectifier BR audion VT2, first end of bridge rectifier BR the 3rd electric capacity C3 and the input of bridge rectifier BR enumerator IC4 connect, the cathode output end of bridge rectifier BR bridge rectifier BR respectively with second end of bridge rectifier BR the second electric capacity C2, second end of bridge rectifier BR the first electric capacity C1, the negative pole of bridge rectifier BR infrarede emitting diode D, the emitter stage of bridge rectifier BR infrared receiving tube VT1, second end of bridge rectifier BR the 4th resistance R4, the cathode voltage input of bridge rectifier BR the second comparator IC3, second end of bridge rectifier BR the 9th resistance R9 and the emitter stage of bridge rectifier BR audion VT2 connect, the outfan of bridge rectifier BR enumerator IC4 is connected with the input of bridge rectifier BR decoder IC5, the outfan of bridge rectifier BR decoder IC5 is connected with the input of bridge rectifier BR display IC6.

During the conveying of this utility model mould, to realize the operation principle of device as follows for the New count of mould:

Three terminal regulator IC1 model is 7809, and enumerator IC4 model is CD451B, and the model of decoder IC5 is CD4543.

When mould is by between infrarede emitting diode D and infrared receiving tube VT1, infrared ray is blocked, and infrared receiving tube VT1 ends, and the second comparator IC3 exports high level, photoelectrical coupler OC ends, audion VT2 ends, the colelctor electrode output high level of audion VT2, therefore when mould is by infrared receiving tube VT1, just on audion VT2 colelctor electrode, export counting pulse signal, this signal delivers to decade computer IC4, is then sent through coding display circuit, it is shown that corresponding data.

When infrared receiving tube VT1 receives the infrarede emitting diode D Infrared penetrated, infrared receiving tube VT1 turns on, the inverting input of the first comparator IC2 is low level, output high level, is added to the inverting input of the second comparator IC3 so that it is output low level, then the luminous tube in photoelectrical coupler OC is lighted, corresponding photosensitive tube conducting, audion VT2 is also switched on, audion VT2 colelctor electrode output low level.

The technical solution of the utility model is not limited to the restriction of above-mentioned specific embodiment, every technology deformation made according to the technical solution of the utility model, each falls within protection domain of the present utility model.

Claims (1)

1. during a mould conveying, the New count of mould realizes device, it is characterized in that: include the first resistance to the 11st resistance, first electric capacity is to the 3rd electric capacity, infrarede emitting diode, infrared receiving tube, audion, photoelectrical coupler, three terminal regulator, first comparator, second comparator, enumerator, decoder, display and bridge rectifier, the ac input end of described bridge rectifier is connected with power positive cathode respectively, the cathode output end of described bridge rectifier is connected with the first end of the input of described three terminal regulator and described second electric capacity respectively, the end that controls of described three terminal regulator is connected with the first end of described first electric capacity, the outfan of described three terminal regulator respectively with the first end of described first resistance, first end of described second resistance, first end of described 3rd resistance, first end of described 6th resistance, first end of described 5th resistance, the cathode voltage input of described second comparator, first end of described 7th resistance, first end of described 8th resistance and one end of described 11st resistance connect, second end of described first resistance is connected with the positive pole of described infrarede emitting diode, second end of described second resistance respectively with the colelctor electrode of described infrared receiving tube, second end of described 5th resistance and the inverting input of described first comparator connect, second end of described 3rd resistance respectively with the in-phase input end of described first comparator, the in-phase input end of described second comparator and the first end of described 4th resistance connect, second end of described 6th resistance is connected with the inverting input of the outfan of described first comparator and described second comparator respectively, described second end of the 7th resistance is connected with the first input end of described photoelectrical coupler, the outfan of described second comparator is connected with the second input of described photoelectrical coupler, described second end of the 8th resistance is connected with the first outfan of described photoelectrical coupler, second outfan of described photoelectrical coupler is connected with the first end of described 9th resistance and the first end of described tenth resistance respectively, described second end of the tenth resistance is connected with the base stage of described audion, second end of described 11st resistance respectively with the colelctor electrode of described audion, first end of described 3rd electric capacity and the input of described enumerator connect, the cathode output end of described bridge rectifier respectively with the second end of described second electric capacity, second end of described first electric capacity, the negative pole of described infrarede emitting diode, the emitter stage of described infrared receiving tube, second end of described 4th resistance, the cathode voltage input of described second comparator, second end of described 9th resistance and the emitter stage of described audion connect, the outfan of described enumerator is connected with the input of described decoder, the outfan of described decoder is connected with the input of described display.