CN209102597U - A kind of high frequency communications conducting wire drawing liquid component detection apparatus - Google Patents

Abstract

The utility model discloses a kind of high frequency communications conducting wire drawing liquid component detection apparatus, and including the single chip microcomputer being arranged on a main circuit board, program storage stores numerous program modules；One drawing liquid supervisor has drawing liquid inlet pipe and drawing liquid outlet pipe；Upper and lower piston driving motor drives upper and lower piston to stretch in drawing liquid supervisor；One sliding block is covered on drawing liquid supervisor and is slided, and the side wall of drawing liquid supervisor is thickness that is transparent, shining with the opaque lipid phase condensed in light-emitting diode detection drawing liquid supervisor；Semiconductor cold dome connects heat-conducting block and drawing liquid supervisor.The utility model has the advantage of the utility model does not influence the continuity of production process, sets detection cycle in process of production and detects automatically, has display screen to show the accounting of drawing liquid main component.The utility model it is compact-sized, using precision machinery mode, precision operational-amplifier and software precision operation.The accounting of grease in drawing liquid can be accurately detected using photosignal.

Description

A kind of high frequency communications conducting wire drawing liquid component detection apparatus

Technical field

The utility model relates to conducting wire drawing technique more particularly to high frequency communications conducting wire drawing liquid component detection apparatus.

Background technique

In the prior art, dynamically the technology of detection drawing liquid ingredient is rare in process of production.

As drawing liquid main component or be mineral oil or be industrial butter, accounting is 60%~80%, when in drawing liquid Grease serious loss when, conducting wire drawing quality can be seriously affected.It is all to sentence by rule of thumb by experienced technician under normal circumstances The quality of other drawing liquid, the result of differentiation have biggish deviation.

In view of the above circumstances, in production practices, people expect that one kind is mounted on production scene periodic detection drawing liquid quality Device.

Utility model content

The purpose of this utility model is that in the prior art " when grease serious loss in drawing liquid, can serious shadow Pilot's line drawing quality.It is all the quality for differentiating drawing liquid by rule of thumb by experienced technician, the result of differentiation under normal circumstances Have biggish deviation " deficiency, manufactured and designed a kind of high frequency communications conducting wire drawing liquid component detection apparatus.

The utility model is realized by using following technical scheme.

Manufacture and design a kind of high frequency communications conducting wire drawing liquid component detection apparatus, the detection device includes a main circuit board The single chip microcomputer of upper setting, the single chip microcomputer are internally provided with program storage, and it includes upper for loading wherein Piston driver module, lower piston driver module, semiconductor cold reactor refrigerant sequence module, semiconductor cold reactor heat program Program module, upper piston are detected in module, cold dome fan driver module, slider-actuated program module, upper piston first position The second position detect program module, lower piston first position detection program module, the lower piston second position detection program module, under Piston the third place detects program module, photosignal input program module, constituent analysis calculating output program module, display journey Sequence module and drawing liquid stream dynamic program module；The instruction of each program module is suitable for being loaded and being executed by processor；

One drawing liquid supervisor has drawing liquid inlet pipe and drawing liquid outlet pipe；

One upper piston driving motor drives upper piston to stretch in drawing liquid supervisor；

One lower piston driving motor drives lower piston to stretch in drawing liquid supervisor；

One sliding block is covered on drawing liquid supervisor and is slided, and the side wall of drawing liquid supervisor is transparent, light emitting diode and light The thickness of the opaque lipid phase condensed in diode detection drawing liquid supervisor；

Semiconductor cold dome connects heat-conducting block, and heat-conducting block connects drawing liquid supervisor.

The single chip microcomputer connection upper piston drive circuit unit drives upper piston driving motor；Lower piston is connected to drive Dynamic circuit unit drives lower piston driving motor；It connects semiconductor cold reactor drive circuit unit and drives semiconductor cold reactor；It connects cold Heap fan drive circuit unit driving fan；Connect photosignal input circuit unit driving light emitting diode and two pole of light Pipe；Connecting communication circuit unit and upper level control unit communicate；It connects display unit and shows drawing liquid ingredient；Connect drawing liquid Flow circuit unit drives drawing liquid pump；Connection sliding block drive circuit unit drives slide motor operation, mobile sliding block.

16th foot of single chip microcomputer connects upper piston first position detection circuit unit, the upper piston first position Detection circuit unit connects upper piston first position detection sensor；

17th foot of single chip microcomputer connects upper piston second position detection circuit unit, the upper piston second position Detection circuit unit connects upper piston second position detection sensor；

31st foot of single chip microcomputer connects lower piston first position detection circuit unit, the lower piston first position Detection circuit unit connects lower piston first position detection sensor；

32nd foot of single chip microcomputer connects lower piston second position detection circuit unit, the lower piston second position Detection circuit unit connects lower piston second position detection sensor；

33rd foot of single chip microcomputer connects lower piston the third place detection circuit unit, the lower piston the third place Detection circuit unit connects lower piston the third place detection sensor.

When upper piston first position detection sensor is aligned with upper piston position magnet, upper piston top surface is located in main The position AA of chamber；

When upper piston second position detection sensor is aligned with upper piston position magnet, upper piston top surface is located at main inner chamber The position AB.

When lower piston first position detection sensor is aligned with lower piston position magnet, lower piston top surface is located in main The position BA of chamber；

When lower piston second position detection sensor is aligned with lower piston position magnet, lower piston top surface is located at main inner chamber The position BC；

When lower piston the third place detection sensor is aligned with lower piston position magnet, lower piston top surface is located at main inner chamber The position BB.

The utility model has the advantage of the utility model does not influence the continuity of production process, sets in process of production Determine detection cycle to detect automatically, there is display screen to show the accounting of drawing liquid main component.The technical pattern of the utility model is compact, Using precision machinery mode, precision operational-amplifier and software precision operation.It can accurately be detected using photosignal The accounting of grease in drawing liquid.

Detailed description of the invention

The utility model is further detailed below with attached drawing, but the embodiment in attached drawing is not constituted pair Any restrictions of the utility model.

Fig. 1 is the high frequency communications conducting wire drawing liquid component detection apparatus mechanical part schematic illustration of the utility model；

Fig. 2 is the schematic diagram of lower piston part in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model；

Fig. 3 be in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model upper piston and lower piston initial The schematic diagram of position；

Fig. 4 be in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model lower piston at the second position Schematic diagram；

Fig. 5 be in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model upper piston the second position and under Schematic diagram of the piston in the third place；

Fig. 6 is that heat-conducting block 91 and drawing liquid are responsible in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model The schematic diagram of 5 connections；

Fig. 7 is that single chip microcomputer 21 connects respectively in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model The block diagram of a circuit unit；

Fig. 8 is 21 internal program of single chip microcomputer in the high frequency communications conducting wire drawing liquid component detection apparatus of the utility model The schematic diagram of each program module stored in memory 22.

Specific embodiment

The utility model is illustrated below with reference to specific embodiment.

As shown in FIG. 1 to FIG. 8: manufacturing and designing a kind of high frequency communications conducting wire drawing liquid component detection apparatus, the detection dress Setting 1 includes the single chip microcomputer 21 being arranged on a main circuit board 2, and the single chip microcomputer 21 is internally provided with program storage Device 22, and loading wherein includes upper piston driver module 2111, lower piston driver module 2112, semiconductor cold reactor Refrigerant sequence module 2113, semiconductor cold reactor heat program module 2114, cold dome fan driver module 2115, slider-actuated Program module 2116, upper piston first position detection program module 2117, the upper piston second position detection program module 2118, under Piston first position detects program module 2119, lower piston second position detection program module 2120, the inspection of lower piston the third place Survey program module 2121, photosignal input program module 2122, constituent analysis calculating output program module 2123, display program Module 2124 and drawing liquid stream dynamic program module 2125；The instruction of each program module is suitable for being loaded and being held by processor 23 Row；

One drawing liquid supervisor 5 has drawing liquid inlet pipe 51 and drawing liquid outlet pipe 52；

One upper piston driving motor 31 drives upper piston 41 to stretch in drawing liquid supervisor 5；

One lower piston driving motor 32 drives lower piston 42 to stretch in drawing liquid supervisor 5；

One sliding block 7 is covered on drawing liquid supervisor 5 and is slided, and the side wall of drawing liquid supervisor 5 is transparent, 81 He of light emitting diode Light-emitting diode 82 detects the thickness of the opaque lipid phase condensed in drawing liquid supervisor 5；

Semiconductor cold dome 92 connects heat-conducting block 91, and heat-conducting block 91 connects drawing liquid supervisor 5.

The single chip microcomputer 21 connects upper piston drive circuit unit 2501 and drives upper piston driving motor 31；Connection Lower piston drive circuit unit 2502 drives lower piston driving motor 32；Semiconductor cold reactor drive circuit unit 2503 is connected to drive Semiconductor cold reactor 92；Connect 2504 driving fan 94 of cold dome fan drive circuit unit；Connect photosignal input circuit unit 2505 driving light emitting diodes 81 and light-emitting diode 82；Connecting communication circuit unit 2506 and upper level control unit communicate； It connects display unit 2512 and shows drawing liquid ingredient；It connects drawing liquid stream and moves the driving drawing liquid pump of circuit unit 2513；Connection is slided Block drive circuit unit 2514 drives slide motor 6 to run, mobile sliding block 7.

16th foot of single chip microcomputer 21 connects upper piston first position detection circuit unit 2507, the upper piston the One position detecting circuit unit 2507 connects upper piston first position detection sensor 416；

17th foot of single chip microcomputer 21 connects upper piston second position detection circuit unit 2508, the upper piston the Two position detecting circuit units 2508 connect upper piston second position detection sensor 417；

31st foot of single chip microcomputer 21 connects lower piston first position detection circuit unit 2509, the lower piston the One position detecting circuit unit 2509 connects lower piston first position detection sensor 426；

32nd foot of single chip microcomputer 21 connects lower piston second position detection circuit unit 2510, the lower piston the Two position detecting circuit units 2510 connect lower piston second position detection sensor 427；

33rd foot of single chip microcomputer 21 connects lower piston the third place detection circuit unit 2511, the lower piston the Three position detecting circuit units 2511 connect lower piston the third place detection sensor 428.

When upper piston first position detection sensor 416 is aligned with upper piston position magnet 415, upper piston top surface 419 are located at the position AA of main inner chamber 53；

When upper piston second position detection sensor 417 is aligned with upper piston position magnet 415, upper piston top surface 419 In the position AB of main inner chamber 53.

When lower piston first position detection sensor 426 is aligned with lower piston position magnet 425, lower piston top surface 429 are located at the position BA of main inner chamber 53；

When lower piston second position detection sensor 427 is aligned with lower piston position magnet 425, lower piston top surface 429 In the position BC of main inner chamber 53；

When lower piston the third place detection sensor 428 is aligned with lower piston position magnet 425, lower piston top surface 429 In the position BB of main inner chamber 53.

The slider-actuated program module 2116 drives slide motor 6 to run by slider-actuated circuit unit 2514, will Sliding block 7 is first run to the top of slide block guide rail 61, is then once run down by 1/10th millimeters of every step countings, wait shine When the photosignal input circuit unit 255 that diode 81 and light-emitting diode 82 are connected detects light transmittance significant change, Current count value is sent to constituent analysis as the thickness data of opaque lipid phase calculate output program module 2123.

Find out from Fig. 1 and Fig. 2 and Fig. 6, upper piston first position detection sensor 416, the inspection of the upper piston second position Survey sensor 417, lower piston first position detection sensor 426, lower piston second position detection sensor 427, lower piston the Three position-detection sensors 428 all use Hall sensor.Upper piston position magnet 415, lower piston position magnet 425 are right with it Qi Shi, each Hall sensor is to respective circuit output binary zero signal.

Fig. 6, Fig. 7 show the mounting structure and semiconductor cold reactor drive circuit unit 2504 of semiconductor cold reactor 92 " 1 " is exported with the 23rd foot of the connection of single chip microcomputer 21, single chip microcomputer 21, the 24th foot exports " 0 " binary data, DC12V voltage forward direction is added on semiconductor cold reactor 92, and semiconductor cold reactor 92 freezes；When the 23rd foot exports " 0 ", the 24th foot is exported " 1 " binary data, DC12V voltage reversal are added on semiconductor cold reactor 92, and semiconductor cold reactor 92 heats；Two pins all export " 0 ", semiconductor cold reactor 92 turn off.

In Fig. 7, the model of single chip microcomputer 21 selects HT67F489, when selecting other models, each program module and Subroutine module slightly adjusts, and instruction is then stored in program storage 22, loads and executes for processor 23.

In Fig. 8, each program module is stored in the program storage 22 inside single chip microcomputer 21, processor 23 Each program module is called to run, program runs variable buffer 24 and stores required temporary data when program operation.

The above content is only the preferred embodiment of the utility model, for those of ordinary skill in the art, according to this reality With novel thought, there will be changes in specific embodiment and application range, and the content of the present specification should not be construed as Limitations of the present invention.

Claims (5)

1. a kind of high frequency communications conducting wire drawing liquid component detection apparatus, it is characterised in that:

The detection device (1) includes the single chip microcomputer (21) being arranged on a main circuit board (2), the single chip microcomputer (21) program storage (22) are internally provided with, and loading wherein includes upper piston driver module (2111), lower piston Driver module (2112), semiconductor cold reactor refrigerant sequence module (2113), semiconductor cold reactor heating program module (2114), Program module is detected in cold dome fan driver module (2115), slider-actuated program module (2116), upper piston first position (2117), program module (2119), lower work are detected in upper piston second position detection program module (2118), lower piston first position Fill in second position detection program module (2120), lower piston the third place detection program module (2121), photosignal input journey Sequence module (2122), constituent analysis calculate output program module (2123), display program module (2124) and drawing liquid stream traverse Sequence module (2125)；The instruction of each program module is suitable for being loaded and being executed by processor (23)；

One drawing liquid supervisor (5) has drawing liquid inlet pipe (51) and drawing liquid outlet pipe (52)；

One upper piston driving motor (31) drives upper piston (41) to stretch in drawing liquid supervisor (5)；

One lower piston driving motor (32) drives lower piston (42) to stretch in drawing liquid supervisor (5)；

One sliding block (7) is covered on drawing liquid supervisor (5) and is slided, and the side wall that drawing liquid is responsible for (5) is transparent, light emitting diode (81) and in light-emitting diode (82) detection drawing liquid supervisor (5) thickness of the opaque lipid phase condensed；

Semiconductor cold dome (92) connects heat-conducting block (91), and heat-conducting block (91) connects drawing liquid supervisor (5).

2. high frequency communications conducting wire drawing liquid component detection apparatus according to claim 1, it is characterised in that:

Single chip microcomputer (21) connection upper piston drive circuit unit (2501) driving upper piston driving motor (31)；Even Connect lower piston drive circuit unit (2502) driving lower piston driving motor (32)；Connect semiconductor cold reactor drive circuit unit (2503) semiconductor cold reactor (92) are driven；Connect cold dome fan drive circuit unit (2504) driving fan (94)；Connect photoelectricity Signal input circuit unit (2505) drives light emitting diode (81) and light-emitting diode (82)；Connecting communication circuit unit (2506) it is communicated with upper level control unit；It connects display unit (2512) and shows drawing liquid ingredient；Connect the dynamic electricity of drawing liquid stream Road unit (2513) drives drawing liquid pump.

3. high frequency communications conducting wire drawing liquid component detection apparatus according to claim 1, it is characterised in that:

16th foot of single chip microcomputer (21) connects upper piston first position detection circuit unit (2507), the upper piston the One position detecting circuit unit (2507) connects upper piston first position detection sensor (416)；

17th foot of single chip microcomputer (21) connects upper piston second position detection circuit unit (2508), the upper piston the Two position detecting circuit units (2508) connect upper piston second position detection sensor (417)；

31st foot of single chip microcomputer (21) connects lower piston first position detection circuit unit (2509), the lower piston the One position detecting circuit unit (2509) connects lower piston first position detection sensor (426)；

32nd foot of single chip microcomputer (21) connects lower piston second position detection circuit unit (2510), the lower piston the Two position detecting circuit units (2510) connect lower piston second position detection sensor (427)；

33rd foot of single chip microcomputer (21) connects lower piston the third place detection circuit unit (2511), the lower piston the Three position detecting circuit units (2511) connect lower piston the third place detection sensor (428).

4. high frequency communications conducting wire drawing liquid component detection apparatus according to claim 3, it is characterised in that:

When upper piston first position detection sensor (416) is aligned with upper piston position magnet (415), upper piston top surface (419) it is located at the position AA of main inner chamber (53)；

When upper piston second position detection sensor (417) is aligned with upper piston position magnet (415), upper piston top surface (419) Positioned at the position AB of main inner chamber (53).

5. high frequency communications conducting wire drawing liquid component detection apparatus according to claim 3, it is characterised in that:

When lower piston first position detection sensor (426) is aligned with lower piston position magnet (425), lower piston top surface (429) it is located at the position BA of main inner chamber (53)；

When lower piston second position detection sensor (427) is aligned with lower piston position magnet (425), lower piston top surface (429) Positioned at the position BC of main inner chamber (53)；

When lower piston the third place detection sensor (428) is aligned with lower piston position magnet (425), lower piston top surface (429) Positioned at the position BB of main inner chamber (53).