CN109109458B

CN109109458B - Ink control device for cable

Info

Publication number: CN109109458B
Application number: CN201810814862.6A
Authority: CN
Inventors: 胡世阳; 马翠竹
Original assignee: Hangzhou Chenheng Technology Co ltd
Current assignee: Hangzhou Chenheng Technology Co ltd
Priority date: 2016-10-21
Filing date: 2016-10-21
Publication date: 2021-04-30
Anticipated expiration: 2036-10-21
Also published as: CN109050024B; CN108909221A; CN109050024A; CN109130485A; CN109109458A; CN106240184A; CN106240184B; CN109016900B; CN108909221B; CN109016900A; CN109016901B; CN109016901A

Abstract

The invention discloses an ink control device for a cable, which comprises an ink viscosity control system, an ink temperature control system, an ink circulating system and a printing mechanism, wherein the ink viscosity control system is connected with the ink temperature control system; the ink viscosity control system consists of a main ink barrel, an ink stirring device, an ink viscosity detection sensor, a diluent barrel, a diluent control valve and a viscosity control device; the ink temperature control system consists of a temperature heating device, a temperature testing device and a cooling system which are positioned in the main ink barrel. The invention has the advantages that: the problem of comprehensive ink supply of a plurality of extrusion molding production lines for simultaneously printing ink on cables is mainly solved; ink is supplied to a plurality of extrusion molding production lines simultaneously to form an ink circulation system, so that the constant concentration and the constant temperature of the ink in the circulation process are ensured; the concentration of the ink of the printer is not unstable due to the volatilization of the thinner in the ink, and the concentration of the ink is not abnormal due to the temperature instability in winter and summer.

Description

Ink control device for cable

Technical Field

The invention relates to an ink control device for a cable, in particular to an ink control device for a cable.

Background

The printing modes in the wire and cable industry are various, such as inkjet printing by an inkjet printer, printing with a printing belt, printing by a laser machine and the like, but the printing wheel printing word is irreplaceable in the cable industry because of the special applicability. In general, in the case of printing on a print wheel, a diluent and an ink solution having a predetermined ink concentration are manually fed into a printer, and the surface of an electric wire is printed by rotating the print wheel. Such printing has the following technical problems: 1. different personnel prepare ink solutions, and the concentration of the ink solutions is different, so that poor printing and printing difference are influenced; when a plurality of extruders produce simultaneously, ink can not be supplied simultaneously; each machine can only be independently operated, so that the labor intensity is increased and the repeated operation of workers is increased; 2. the ink solution in the printer is volatilized continuously along with the thinner, so that the ink concentration is more and more viscous, and poor printing is caused; the performance is particularly obvious when the summer is hot; 3. the ink concentration is greatly influenced by temperature, and the ink is greatly influenced by external temperature in the ink debugging process and the ink using process, so that the ink is not beneficial to cable printing. 4. In the ink preparation process, generally, staff determine the viscosity of the ink by using the dropping time of a stirring rod solution through experience, a certain error exists, and the viscosity is ensured to be accurate by using a viscosity tester to test.

How to improve the above technical problems is a very difficult problem for those skilled in the art to face. The application number 201410711741.0 "Cable high speed Printer" describes a single-machine cable high speed printer that includes ink conditioning, ink jet, and other devices. The high-speed printer is a single printer with an ink control system, and cannot meet the requirements of ink printing and ink concentration control during simultaneous production of a plurality of production lines. When a plurality of production lines are used for printing ink at the same time, pipeline design and flow circulation need to be designed; the high-speed printer adopts the motor to detect the concentration of the printing ink, the concentration measurement accuracy is poor, and the influence of electromagnetic signal interference is large; the present case adopts shell fragment formula viscosity test mode, and is more accurate, more is fit for the liquid concentration test.

Disclosure of Invention

The invention aims to provide an ink control device for cables, which mainly solves the problem of comprehensive ink supply of a plurality of extrusion molding production lines for simultaneously carrying out cable ink printing and overcomes the defects of independent ink printing and independent ink supply of the existing plastic extruding machine production line.

The technical scheme adopted by the invention is as follows: comprises an ink viscosity control system, an ink temperature control system, an ink circulating system and a printing mechanism, wherein,

the ink viscosity control system comprises an ink stirring device, an ink viscosity detection sensor, a diluent barrel, a diluent control valve and a viscosity control device, wherein a main ink barrel is connected with the diluent barrel through a guide pipe, the diluent control valve is arranged at the position of the guide pipe on the main ink barrel and is connected with the ink viscosity control device, the ink stirring device is arranged in the middle of the main ink barrel, the ink viscosity detection sensor is also arranged in the main ink barrel, and the ink viscosity control device and the diluent control valve jointly control the amount of diluent entering the main ink barrel, so that the ink viscosity is automatically adjusted;

the printing ink temperature control system consists of a temperature heating device, a temperature testing device and a cooling system which are positioned in a main printing ink barrel, wherein the temperature heating device is two circular heating steel rings which surround the printing ink stirring device in the main printing ink barrel, the outer part of the temperature heating device is connected with the cooling system, the temperature testing device is arranged at the side end of the main printing ink barrel, and the heating steel rings and the cooling system jointly control the printing ink temperature in the main printing ink barrel to keep constant;

the printing ink circulating system consists of a diaphragm pump, a printing ink storage tank, a printing ink pressure sensing device, a printing ink conveying main pipeline and a printing ink conveying auxiliary pipeline, wherein the input end of the diaphragm pump is connected with the main printing ink barrel, the output end of the diaphragm pump is connected with the printing ink storage tank, and the printing ink storage tank respectively enters each printing mechanism through the printing ink conveying main pipeline and a plurality of printing ink conveying auxiliary pipelines;

printing mechanism is by ink groove, the ink groove upper cover, the type wheel, type wheel pinch roller, printing ink level sensor, oil delivery management control valve, printing ink return line constitutes, every printing ink carries and assists the pipeline to be connected to an ink groove, be equipped with the ink groove upper cover on the ink groove, be equipped with oil delivery management control valve on printing ink carries and assists the pipeline, be provided with the type wheel in the ink groove, be provided with type wheel pinch roller outside the ink groove upper cover, the clearance that has the power supply cable to pass through between type wheel pinch roller and the type wheel, still be provided with printing ink level sensor on the ink groove, printing ink level sensor passes through the wire and connects oil delivery management control valve, and, still be provided with the return line who is connected to main ink barrel on the ink groove.

The printing mechanism is supported by a supporting device; the other side of the printing mechanism corresponding to the printing mechanism is provided with a plastic extruding machine, and the printing mechanism and the plastic extruding machine are connected through a cable; and a cooling water tank is arranged at the lower end of the cable.

The diluent barrel is supported by a stool, and the height of the diluent barrel is higher than that of the main ink barrel.

The ink viscosity detection sensor consists of an electromagnetic device, a test elastic sheet, a strain metal sheet and an induction bridge; the electromagnetic device and the induction bridge on the ink viscosity detection sensor are connected with a signal processor through conducting wires, and the signal processor is arranged at the upper end of the main ink barrel; the induction bridge is adhered to the strain metal sheet, and the strain metal sheet is connected with the test elastic sheet through the connecting column; the strain metal sheet generates different stresses by the attraction and release of the electromagnetic device to the test elastic sheet, and the ink viscosity value is obtained by combining the stress of the strain metal sheet and the ink viscosity relation.

The invention relates to a control method of a printing ink control device for a cable, which is characterized by comprising the following steps:

(1) respectively filling the ink and the diluent into a main ink barrel and a diluent barrel, opening an ink viscosity detection sensor, setting a printing standard viscosity range in the ink viscosity detection sensor, and measuring the ink viscosity in the main ink barrel;

(2) when the viscosity of the ink exceeds the upper limit of the set ink viscosity, the ink viscosity control device transmits a signal to a diluent control valve, the diluent control valve is opened, a certain amount of diluent flows into a main ink barrel, the ink is uniform and stable through the stirring of an ink stirring device, an ink viscosity detection sensor continuously detects the ink, and when the ink meets the set standard ink viscosity range, the diluent is stopped from being injected;

(3) the printing ink debugged in the main printing ink barrel is pumped into the printing ink storage tank through the diaphragm pump, when the printing ink in the printing ink storage tank reaches a certain amount, a signal is fed back to the diaphragm pump through the printing ink pressure sensing device, the pumping of the printing ink is stopped, and the printing ink in the printing ink storage tank is conveyed to each printing ink auxiliary pipeline through the printing ink conveying main pipeline;

(4) the liquid level sensor of the printing mechanism detects the liquid level height of the ink in the ink tank constantly, once the liquid level is lower than the lower limit value, the liquid level sensor transmits a signal to the control oil delivery management control valve, the control oil delivery management control valve is opened, the ink is injected into the auxiliary oil delivery pipeline, the liquid level balance in the ink tank is kept, and the printing requirement of a printing wheel is met; when the injected ink is excessive, the ink flows out through the ink return pipeline and is recycled into the main ink barrel.

The invention has the advantages that: the problem of comprehensive ink supply of a plurality of extrusion molding production lines for simultaneously carrying out cable ink printing is mainly solved, and the defects that independent ink printing and independent ink supply of the existing plastic extruding machine production line are not available are overcome; ink is supplied to a plurality of extrusion molding production lines simultaneously to form an ink circulation system, so that the constant concentration and the constant temperature of the ink in the circulation process are ensured; the concentration of the ink of the printer is not unstable due to the volatilization of the thinner in the ink, and the concentration of the ink is not abnormal due to the temperature instability in winter and summer. The problems of poor printing such as fuzzy printing, uneven printing depth, double images and the like of the wire and cable ink are solved. Meanwhile, the production efficiency is improved, and the ink loss and the production cost are reduced.

Drawings

FIG. 1 is a schematic view of an ink control device for cables according to the present invention.

FIG. 2 is a schematic diagram of an ink concentration control system according to the present invention.

FIG. 3 is a schematic view of a printing apparatus according to the present invention.

FIG. 4 is a schematic view of the first embodiment of the viscosity measuring device of the present invention.

FIG. 5 is a schematic view of the viscosity measuring device of the present invention.

Fig. 6 is a schematic diagram of the viscosity tester with the test spring in the initial position.

Fig. 7 is a schematic diagram of the viscosity tester of the present invention with the test spring in an attracted state.

Fig. 8 is a schematic diagram of the viscosity tester of the present invention with the test spring in a released state.

In the figure, an ink viscosity control system 10, an ink temperature control system 20, a printing mechanism 40, a main ink tank 11, an ink stirring device 12, an ink viscosity detection sensor 13, a diluent tank 14, a diluent control valve 15, a viscosity control device 16, a temperature heating device 21, a temperature testing device 22, a cooling system 23, a diaphragm pump 31, an ink storage tank 32, an ink pressure sensing device 33, an ink delivery main pipe 34, an ink delivery auxiliary pipe 35, an ink tank 41, an ink tank upper cover 42, a print wheel 43, a print wheel pressing wheel 44, an ink liquid level sensor 45, an oil delivery management control valve 46, and an ink return pipe 47; the test device comprises a supporting device 51, an extruding machine 52, a cable 53, a cooling water tank 54, a stool 55, 131-an electromagnetic device, 132-a test elastic sheet, 133-a strain metal sheet, 134-an induction bridge and 135-a signal processor.

Detailed Description

As shown in fig. 1 to 5, the present invention is operated and implemented as such, and an ink control device for a cable includes an ink viscosity control system 10, an ink temperature control system 20, an ink circulation system, and a printing mechanism 40; the ink viscosity control system 10 is composed of a main ink barrel 11, an ink stirring device 12, an ink viscosity detection sensor 13, a diluent barrel 14, a diluent control valve 15 and a viscosity control device 16; the ink temperature control system 20 is composed of a temperature heating device 21, a temperature testing device 22 and a cooling system 23 which are positioned in the main ink barrel 11; the ink circulating system consists of a main ink barrel 11, a diaphragm pump 31, an ink storage tank 32, an ink pressure sensing device 33, an ink conveying main pipeline 34 and an ink conveying auxiliary pipeline 35; the printing mechanism 40 consists of an ink tank 41, an ink tank upper cover 42, a printing wheel 43, a printing wheel pressing wheel 44, an ink liquid level sensor 45, an oil delivery management control valve 46 and an ink return pipeline 47; the method is characterized in that:

the main ink barrel 11 is connected with the diluent barrel 14 through a guide pipe, a diluent control valve 15 is arranged at the position of the guide pipe on the main ink barrel 11, the diluent control valve 15 is connected with an ink viscosity control device 16, an ink stirring device 12 is arranged in the middle position in the main ink barrel 11, an ink viscosity detection sensor 13 is arranged on one side of the ink stirring device 12, and the ink viscosity detection sensor 13 is arranged in the main ink barrel 11;

the temperature heating device 21 is in the shape of two circular steel rings, surrounds the ink stirring device 12 in the main ink barrel 11, is externally connected with a cooling system 23, and is provided with a temperature testing device 22 at the side end of the main ink barrel 11;

the other side, corresponding to the cooling system 23, of the main ink barrel 11 is connected with a diaphragm pump 31 through a pipeline, the diaphragm pump 31 is connected with an ink storage tank 32 through a pipeline, the ink storage tank 32 is connected with an ink conveying main pipeline 34, the ink conveying main pipeline 34 is connected with a plurality of ink conveying auxiliary pipelines 35, and an ink pressure sensing device 33 is arranged on one side of the ink storage tank 32;

be equipped with oil transportation management control valve 46 on the supplementary pipeline 35 of printing ink transportation, the auxiliary pipeline 35 of printing ink transportation near oil transportation management control valve 46 connects ink groove 41, be equipped with ink groove upper cover 42 on ink groove 41, ink groove 42 embeds there is type wheel 43, type wheel 43 connects type wheel pinch roller 44, type wheel pinch roller 44 sets up in the 41 outside of ink groove upper cover, set up printing ink level sensor 45 on ink groove upper cover 41, printing ink level sensor 45 inserts in ink groove 41, printing ink level sensor 45 connects oil transportation management control valve 46 through the wire, an external printing ink return line 47 of ink groove 41, a plurality of printing ink return line 47 connects to flow back in main printing ink bucket 11.

The printing mechanism 40 of the present invention is supported by a supporting device 51; the other side of the printing mechanism 40 corresponding to the printing mechanism is provided with a plastic extruding machine 52, and the printing mechanism 40 is connected with the plastic extruding machine 52 through a cable 53; a cooling water tank 54 is arranged at the lower end of the cable 53; the diluent barrel is supported by a stool 55, and the height of the diluent barrel is higher than that of the main ink barrel; the ink viscosity detection sensor 13 is composed of an electromagnetic device 131, a test elastic sheet 132, a strain metal sheet 133 and an induction bridge 134; the electromagnetic device 131 and the induction bridge 134 on the ink viscosity detection sensor 13 are connected with a signal processor 135 through conducting wires, and the signal processor 135 is arranged at the upper end of the main ink barrel 11; the sensing bridge 134 is adhered to the strain metal sheet 133, and the strain metal sheet 133 is connected with the testing elastic sheet 132 through a connecting column.

A predetermined amount of the ink and the diluent prepared for cable printing are charged into the main ink tank 11 and the diluent tank 14, respectively, the ink viscosity detection sensor 13 is turned on, and the printing standard viscosity range is set in the ink viscosity detection sensor 13, thereby measuring the ink concentration in the main ink tank 11. The ink can take place that the thinner volatilizees and cause the printing ink viscosity too thick in the process of incessantly circulating, when printing ink viscosity exceedes the upper limit of settlement printing ink viscosity, printing ink viscosity controlling means 16 can send into the signal and open for dilutent control valve 15 and flow into a certain amount of thinner (flow into thinner minimum and detection frequency can set for) to main printing ink bucket 11, the stirring through printing ink agitating unit 12 makes the printing ink homogeneous stable, printing ink viscosity detection sensor 13 is incessantly detected the printing ink simultaneously, when printing ink accords with the viscosity scope of settlement standard printing ink, just stop to inject the thinner.

The adjusted ink in the main ink tank 11 is pumped into the ink storage tank 32 through the diaphragm pump 31, when the ink in the ink storage tank 32 reaches a certain amount, the ink is stopped being pumped through a feedback signal of the ink pressure sensing device 33, and the ink in the ink storage tank 32 is conveyed to each ink conveying auxiliary pipeline 35 through the ink conveying main pipeline 34.

The ink level sensor 45 in the printing mechanism 40 constantly detects the liquid level of the ink in the ink tank 41, and once the liquid level is lower than the lower limit value, the liquid level sensor 45 transmits a signal to control the oil delivery management control valve 46 to be opened, so that the ink in the auxiliary oil delivery pipeline 35 is injected, the liquid level balance in the ink tank 41 is kept, and the printing requirements of the printing wheel are met. When the injected ink is excessive, it flows out through the ink return line 47 and is recovered into the main ink tank 11.

As shown in fig. 6 to 8, the ink viscosity detection sensor 13 is composed of 131-an electromagnetic device, 132-a test spring plate, 133-a strain metal plate, 134-an induction bridge, and 135-a signal processor. 13-the ink viscosity detection sensor detects the concentration of the ink in the main ink barrel 11-constantly, (the detection frequency can be set) through 131-the electromagnetic device continuously adsorbs 132-the elastic sheet is tested and then the elastic sheet is released, when the elastic sheet is released to touch 133-the strain metal sheet, the metal sheet can generate certain stress, the stress is transmitted to the 134-induction bridge, the stress generated by returning is different according to the difference of the ink concentration, the stress sensed by the 134-induction bridge is also different, the stress is converted into the ink viscosity through the 135-signal processor, and the ink viscosity is measured.

Claims

1. A cable ink control device is composed of an ink viscosity control system, an ink temperature control system, an ink circulating system and a printing mechanism; the ink viscosity control system consists of a main ink barrel, an ink stirring device, an ink viscosity detection sensor, a diluent barrel, a diluent control valve and a viscosity control device; the printing ink temperature control system consists of a temperature heating device, a temperature testing device and a cooling system which are positioned in the main printing ink barrel; the ink circulating system consists of a main ink barrel, a diaphragm pump, an ink storage tank, an ink pressure sensing device, an ink conveying main pipeline and an ink conveying auxiliary pipeline; the printing mechanism consists of an ink groove, an upper cover of the ink groove, a printing wheel pressing wheel, an ink liquid level sensor, an oil delivery management control valve and an ink return pipeline; the method is characterized in that:

the main ink barrel is connected with the diluent barrel through a guide pipe, a diluent control valve is arranged at the position of the guide pipe on the main ink barrel and is connected with the ink viscosity control device, an ink stirring device is arranged in the middle position in the main ink barrel, an ink viscosity detection sensor is arranged on one side of the ink stirring device, and the ink viscosity detection sensor is arranged in the main ink barrel;

when the viscosity of the ink exceeds the upper limit of the set ink viscosity, the ink viscosity control device transmits a signal to a diluent control valve, the diluent control valve is opened, a certain amount of diluent flows into a main ink barrel, the ink is uniformly and stably stirred by an ink stirring device, the temperature heating device is in the shape of two circular steel rings, surrounds the ink stirring device in the main ink barrel, is externally connected with a cooling system, is provided with a temperature testing device at the side end of the main ink barrel, and detects the ink continuously by an ink viscosity detecting sensor, and stops injecting the diluent when the ink meets the set standard ink viscosity range;

the other side, corresponding to the cooling system, of the main ink barrel is connected with a diaphragm pump through a pipeline, the diaphragm pump is connected with an ink storage tank through a pipeline, the ink storage tank is connected with an ink conveying main pipeline, the ink conveying main pipeline is connected with a plurality of ink conveying auxiliary pipelines, and an ink pressure sensing device is arranged on one side of the ink storage tank;

the printing ink feeding auxiliary pipeline is provided with an oil feeding management control valve, the printing ink feeding auxiliary pipeline close to the oil feeding management control valve is connected with an ink groove, the ink groove is provided with an upper cover of the ink groove, a printing wheel is arranged in the ink groove, the printing wheel is connected with a printing wheel pressing wheel, the printing wheel pressing wheel is arranged on the outer side of the upper cover of the ink groove, the upper cover of the ink groove is provided with a printing ink liquid level sensor, the printing ink liquid level sensor is inserted into the ink groove and is connected with the oil feeding management control valve through a wire, the ink groove is externally connected with a printing ink backflow pipeline, and a plurality of printing ink backflow pipelines are connected and backflow into the main printing ink barrel;

the printing mechanism is supported by a supporting device; a plastic extruding machine is arranged on one side corresponding to the printing mechanism, and the printing mechanism is connected with the plastic extruding machine through a cable; a cooling water tank is arranged at the lower end of the cable;

the diluent barrel is supported by a stool, and the height of the diluent barrel is higher than that of the main ink barrel;

the ink viscosity detection sensor consists of an electromagnetic device, a testing elastic sheet, a strain metal sheet and an induction bridge; the electromagnetic device and the induction bridge on the ink viscosity detection sensor are connected with a signal processor through conducting wires, and the signal processor is arranged at the upper end of the main ink barrel; the induction bridge is adhered to the strain metal sheet, and the strain metal sheet is connected with the testing elastic sheet through the connecting column.