CN116991342B - UV printing equipment management system based on Internet of things - Google Patents

Abstract

The invention discloses a UV printing equipment management system based on the Internet of things, which relates to the technical field of UV printing equipment. The environment state monitoring module is used for acquiring environment state information of each UV printing device during operation; the use selection module processes, analyzes and judges the use performance of each UV printing device according to the environmental state information of each UV printing device when in operation, screens the UV printing devices conforming to the use performance, and marks the UV printing devices conforming to the use performance as normal UV printing devices; the effect is to guide the material handler to handle the material to be printed to the optimal UV printing device, thus shortening the printing waiting time.

Description

UV printing equipment management system based on Internet of things

Technical Field

The invention relates to the technical field of UV printing equipment, in particular to a UV printing equipment management system based on the Internet of things.

Background

The UV printing equipment is a high-tech platemaking-free full-color digital printer, is not limited by materials, and can be used for performing color photo-level printing on the surfaces of T-shirts, sliding doors, cabinet doors, sliding doors, glass, plates, various labels, crystals, PVC, acrylic, metals, plastics, stones, leather and the like.

The existing printing production workshop is provided with a plurality of UV printing devices, the working states of the UV printing devices are different, if some UV printing devices wait for more materials to be printed, some UV printing devices wait for less materials to be printed, however, the existing UV printing device management system based on the Internet of things cannot process and analyze the basic state information of each normal UV printing device and the position information of a material handler to be printed, namely cannot guide the material handler to be printed to carry the material to be printed to the position of the optimal UV printing device, and if the material to be printed is queued to the UV printing devices with more printing tasks, the printing time is prolonged.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a UV printing equipment management system based on the Internet of things.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the UV printing equipment management system based on the Internet of things comprises an environment state monitoring module, a use selection module, a data acquisition module, a data analysis module, a selection module and a guiding module.

The environment state monitoring module is used for acquiring environment state information of each UV printing device during operation.

And the use selection module processes, analyzes and judges the use performance of each UV printing device according to the environmental state information of each UV printing device when in operation, screens the UV printing devices conforming to the use performance, and marks the UV printing devices conforming to the use performance as normal UV printing devices.

The data acquisition module is used for acquiring the basic state information of each normal UV printing device and the state information of a material carrier to be printed; the basic state information of the normal UV printing equipment comprises position information of the normal UV printing equipment, time information required by printing single printing materials of the normal UV printing equipment and quantity information of materials waiting to be printed, and the state information of the materials to be printed comprises position information of the materials to be printed carrier and carrying speed information of the materials to be printed.

And the data analysis module performs joint processing analysis on the basic state information of each normal UV printing device and the position information of the material carrier to be printed to obtain a printing value.

The selection module selects the optimal UV printing device from at least two normal UV printing devices according to the printing value.

The guiding module guides the material handler to be printed to handle the material to be printed to the position of the optimal UV printing equipment.

Preferably, the environmental status information of the UV printing device during operation includes environmental humidity information of each UV printing device during operation, temperature information of the UV printing device during operation, and height information of the printing nozzle in the UV printing device from the printing material.

Preferably, the humidity value SDZ is obtained by taking and marking the environmental humidity information when the UV printing device is in operation.

And (5) taking the value and marking the temperature information of the UV printing equipment during working to obtain a temperature value WDZ.

And taking the value and marking the height information of the printing nozzle in the UV printing equipment from the printing material to obtain a height value GDZ.

Preferably, by calculation formulaCalculating to obtain a coincidence value FHZ; wherein a1, a2 and a3 are influencing factors and are greater than zero.

The compliance value FHZ is compared to a preset compliance threshold Q.

The UV printing apparatus complies with the usage performance and is marked as a normal UV printing apparatus if the compliance value FHZ =a preset compliance threshold Q.

If the coincidence value FHZ < the preset coincidence threshold value Q, the UV printing device does not coincide with the use performance and is marked as an abnormal UV printing device.

Preferably, the printing value includes a handling time value and a printing time value.

The conveying time value is a time value which is obtained by processing and analyzing the position information of a material conveyer to be printed, the position information of normal UV printing equipment and the conveying speed information of the material to be printed and is used for conveying the material to be printed to each normal UV printing equipment; and the printing time value is used for processing and analyzing the time information required by the normal UV printing equipment for printing the single printing material and the quantity information of the materials waiting to be printed, and is obtained by processing and analyzing the time information and used for representing the time value required by the normal UV printing equipment for printing the materials waiting to be printed.

Preferably, the position information of the normal UV printing device and the position information of the material carrier to be printed are processed and analyzed to obtain the carrying distance information.

And carrying out value taking and marking on the conveying distance information to obtain a conveying distance value BYJ.

Preferably, the time information required for printing the single printing material of the normal UV printing device is valued and marked to obtain the time value DYS required for printing the single printing material.

And taking the value and marking the quantity information of the materials waiting to be printed to obtain a quantity value DYL to be printed.

And carrying out value taking and marking on the conveying speed information of the material to be printed to obtain a conveying speed value BSZ.

Preferably by a function of handling timeAnd calculating to obtain a carrying time value BYS.

By printing a function of timeAnd calculating to obtain a printing time value ZYS.

By joint functionCalculating to obtain a printing value DYZ; wherein b1 and b2 are influencing factors and are greater than zero.

And marking the normal UV printing device with the smallest printing value DYZ as the optimal UV printing device.

Preferably, when the coincidence value FHZ < the preset coincidence threshold value Q, the humidity value SDZ is compared with the preset humidity threshold value SDY, and if the humidity value SDZ does not coincide with the preset humidity threshold value SDY, the manager is reminded to adjust the humidity of the UV printing apparatus.

When the coincidence value FHZ is smaller than the preset coincidence threshold value Q, the temperature value WDZ is compared with the preset temperature threshold value WDY, and if the temperature value WDZ does not accord with the preset temperature threshold value WDY, an administrator is reminded of adjusting the temperature of the UV printing device.

When the coincidence value FHZ is smaller than the preset coincidence threshold value Q, comparing the height value GDZ with a preset height threshold value GDY, and if the height value GDZ does not accord with the preset height threshold value GDY, reminding an administrator to adjust the height of the printing nozzle from the printing material in the UV printing equipment.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, the UV printing equipment meeting the use performance is screened, the UV printing equipment meeting the use performance is marked as the normal UV printing equipment, the optimal UV printing equipment is selected from at least two normal UV printing equipment according to the printing value, a material carrier to be printed is guided to carry the material to be printed to the optimal UV printing equipment, so that which normal UV printing equipment can be used fastest is calculated and analyzed, the normal UV printing equipment which can be used fastest is marked as the optimal UV printing equipment, and the material carrier to be printed is guided to carry the material to be printed to the optimal UV printing equipment, so that the printing waiting time is shortened.

2. In the invention, when the coincidence value FHZ is smaller than the preset coincidence threshold value Q, the humidity value SDZ is compared with the preset humidity threshold value SDY, the temperature value WDZ is compared with the preset temperature threshold value WDY, and the height value GDZ is compared with the preset height threshold value GDY, so that an administrator is reminded to adjust, the humidity and the temperature at the UV printing equipment are optimized, the height of the printing nozzle in the UV printing equipment from the printing material is optimized, and the phenomenon of flying ink is prevented.

Drawings

Fig. 1 is a schematic block diagram of a UV printing device management system based on the internet of things according to the present invention;

fig. 2 is a schematic process flow diagram of a UV printing device management system based on the internet of things according to the present invention.

Detailed Description

Reference is made to figures 1 to 2.

The embodiment of the invention provides a UV printing equipment management system based on the Internet of things.

The UV printing equipment management system based on the Internet of things comprises an environment state monitoring module, a use selection module, a data acquisition module, a data analysis module, a selection module and a guiding module.

The environment state monitoring module is used for acquiring environment state information of each UV printing device when in operation.

And processing, analyzing and judging the service performance of each UV printing device by using the selection module according to the environmental state information of each UV printing device during operation, screening the UV printing devices conforming to the service performance, and marking the UV printing devices conforming to the service performance as normal UV printing devices.

The data acquisition module is used for acquiring the basic state information of each normal UV printing device and the state information of a material carrier to be printed; the basic state information of the normal UV printing equipment comprises position information of the normal UV printing equipment, time information required by printing single printing materials of the normal UV printing equipment and quantity information of the materials waiting to be printed, and the state information of the materials to be printed carrier comprises position information of the materials to be printed carrier and carrying speed information of the materials to be printed.

And the data analysis module performs joint processing analysis on the basic state information of each normal UV printing device and the position information of the material carrier to be printed to obtain a printing value.

The selection module selects the best UV printing device from at least two normal UV printing devices according to the printing value.

The guiding module guides the material handler to handle the material to be printed to the optimal UV printing equipment.

According to the method, the environment state information of each UV printing device in operation is processed, analyzed and screened out to be capable of meeting the normal UV printing device with the use performance, because some normal UV printing devices are already performing printing operation, the time information required by printing single printing materials of the normal UV printing devices and the quantity information of the materials waiting to be printed are calculated to be required waiting time, meanwhile, the position information of the normal UV printing devices, the position information of a material carrier to be printed and the carrying speed information of the material to be printed are processed, analyzed and obtained to obtain carrying time, and therefore which normal UV printing device can be used fastest is calculated, and the normal UV printing device which can be used fastest is marked as the optimal UV printing device, so that a material carrier to be printed is guided to carry the material to be printed to the position of the optimal UV printing device.

The environmental status information of the UV printing equipment in operation comprises environmental humidity information of each UV printing equipment in operation, temperature information of the UV printing equipment in operation and height information of printing nozzles in the UV printing equipment from printing materials.

It should be noted that the requirements of the UV printing apparatus on the working environment are relatively high, and when the working environment where the UV printing apparatus is located is low in humidity and the environment is relatively dry, static electricity is easily generated between the nozzle and the material, so that the phenomenon of flying ink easily occurs in the printing process; moreover, the temperature can influence the viscosity of the ink, when the temperature is too high, the viscosity of the ink can be reduced, when the temperature is too low, the viscosity of the ink can be increased, the ink and products can be influenced by the viscosity of the ink, especially in autumn and winter, the weather is drier and colder, more attention is paid, an air conditioner and a humidifier can be additionally arranged in a working area when necessary, the temperature and the humidity of the working environment are improved, and the UV machine is kept in a good working environment all the time.

The height of the printing nozzle of the UV printing equipment from the material medium is too high, so that the drop point of the ink point is influenced by external force too much, and the phenomenon of flying ink is caused by inaccurate drop point. In general, the height of the nozzle and the material should be controlled to be 1.5-2 mm.

And (5) taking the value and marking the environmental humidity information when the UV printing equipment works to obtain a humidity value SDZ.

It should be noted that, because the optimal environmental humidity of the UV printing device is 50% -70% when the UV printing device is in operation, when the environmental humidity of the UV printing device is 50% -70%, the value of the humidity value SDZ is 6; when the environment humidity of the UV printing equipment is not 50% -70%, the value of the humidity value SDZ is 1.

And (5) taking the value and marking the temperature information of the UV printing equipment during working to obtain a temperature value WDZ.

It should be noted that, because the optimum temperature of the UV printing device is 20-28 degrees when in operation, if the environment temperature of the UV printing device is 20-28 degrees, the value of the temperature value WDZ is 6; if the UV printing device is at an ambient temperature of 20-28 degrees, the temperature WDZ has a value of 1.

And taking the value and marking the height information of the printing nozzle in the UV printing equipment from the printing material to obtain a height value GDZ.

When needing to be noted, the height of the printing nozzle in the UV printing equipment from the printing material is optimally 1.5-2mm, and if the height of the printing nozzle in the UV printing equipment from the printing material is 1.5-2mm, the value of the height value GDZ is 6; if the height of the printing nozzle in the UV printing equipment from the printing material is not 1.5-2mm, the value of the height value GDZ is 1.

By calculation formulaCalculating to obtain a coincidence value FHZ; wherein a1, a2 and a3 are influencing factors and are greater than zero.

It is noted that the values of a1, a2 and a3 are set to 1, and in the case where the value of the humidity value SDZ is 6, the value of the temperature value WDZ is 6 and the value of the height value GDZ is 6, the values are calculated by the calculation formulaA coincidence value FHZ is calculated to be 18; in the case that the humidity value SDZ is 1, the temperature value WDZ is 1 and the height value GDZ is 1, the method is carried out by a calculation formulaThe calculated coincidence value FHZ is 3.

The compliance value FHZ is compared to a preset compliance threshold Q.

The UV printing apparatus complies with the usage performance and is marked as a normal UV printing apparatus if the compliance value FHZ =a preset compliance threshold Q.

If the coincidence value FHZ < the preset coincidence threshold value Q, the UV printing device does not coincide with the use performance and is marked as an abnormal UV printing device.

It should be noted that, here, the preset compliance threshold Q is set to 18, and in the case that the compliance value FHZ is 18, the UV printing apparatus complies with the service performance and marks as a normal UV printing apparatus because of the compliance value FHZ =the preset compliance threshold Q, that is, the environmental humidity information when the UV printing apparatus is operated, the temperature information when the UV printing apparatus is operated, and the height information of the printing nozzle in the UV printing apparatus from the printing material meet the requirements; under the condition that the coincidence value FHZ is 3, as the coincidence value FHZ is less than the preset coincidence threshold value Q, the UV printing equipment does not accord with the service performance and is marked as abnormal UV printing equipment, namely the environment humidity information when the UV printing equipment works, the temperature information when the UV printing equipment works and the height information of the printing nozzle in the UV printing equipment from the printing material do not meet the requirements.

The printing values include a conveyance time value and a printing time value.

The carrying time value is a time value which is obtained by processing and analyzing the position information of the material carrier to be printed, the position information of the normal UV printing equipment and the carrying speed information of the material to be printed and is used for representing the need of carrying the material to be printed to each normal UV printing equipment; the printing time value is obtained by processing and analyzing the time information required by the normal UV printing equipment for printing the single printing material and the quantity information of the materials waiting to be printed and is used for representing the time value required by the normal UV printing equipment for printing the materials to be printed.

And processing and analyzing the position information of the normal UV printing equipment and the position information of the material carrier to be printed to obtain the carrying distance information.

And carrying out value taking and marking on the conveying distance information to obtain a conveying distance value BYJ.

It should be noted that, since the material to be printed needs to be transported to the normal UV printing device for printing, the position information of the normal UV printing device and the position information of the material handler to be printed are processed and analyzed to obtain the transportation distance information, the transportation distance information is valued and marked to obtain the transportation distance value BYJ, if the transportation distance between the position information of the normal UV printing device and the position of the material handler to be printed is 1000m, the transportation distance value BYJ is valued to 1000, and if the transportation distance between the position information of the normal UV printing device and the position of the material handler to be printed is 1200m, the transportation distance value BYJ is valued to 1200.

And (3) taking the value and marking the time information required by the normal UV printing equipment for printing the single printing material to obtain the time value DYS required by the single printing material.

Note that, since some normal UV printing apparatuses have been turned on and materials to be printed have been waiting for the normal UV printing apparatuses to perform printing processing, if the time required for printing a single printing material by the normal UV printing apparatuses is 60 seconds, the value of the time required for printing a single printing material DYS is 60, and if the time required for printing a single printing material by the normal UV printing apparatuses is 80 seconds, the value of the time required for printing a single printing material DYS is 80.

And taking the value and marking the quantity information of the materials waiting to be printed to obtain a quantity value DYL to be printed.

It should be noted that if the number of materials to be printed is 60, the value of the number to be printed value DYL is 60; if the number of materials to be printed is 100, the value of the number to be printed DYL is 100.

And carrying out value taking and marking on the conveying speed information of the material to be printed to obtain a conveying speed value BSZ.

It should be noted that the carrier needs to carry the material to be printed, if the carrying speed of the material to be printed is 0.9m/s, the carrying speed value BSZ is 0.9, and if the carrying speed of the material to be printed is 1m/s, the carrying speed value BSZ is 1.

By carrying a function of timeAnd calculating to obtain a carrying time value BYS.

Note that, in the case where the conveyance distance value BYJ is 1000 and the conveyance speed value BSZ is 1, the conveyance time function is usedCalculating to obtain a carrying time value BYS of 1000 seconds; when the value of the conveyance distance value BYJ is 1200 and the value of the conveyance speed value BSZ is 1, the conveyance time function is used>The conveyance time value BYS is calculated to be 1200 seconds.

By printing a function of timeAnd calculating to obtain a printing time value ZYS.

It should be noted that in the case where the value of the time value DYS required for a single printing material is 60 and the value of the number-to-be-printed value DYL is 60, the time function is passed through the printingCalculating to obtain a printing time value ZYS to obtain 3600; in the case where the value of the time value DYS required for a single printing material is 80 and the value of the number-to-be-printed value DYL is 10, the printing time function is used>The calculated printing time value ZYS is 800.

By joint functionCalculating to obtain a printing value DYZ; wherein b1 and b2 are influencing factors and are greater than zero.

It should be noted that b1 and b2 are set to 1 here, and when the printing time value ZYS is 3600 and the conveyance time value BYS is 1000 seconds, the combination function is usedThe calculated printing value DYZ is 2600 seconds.

And marking the normal UV printing device with the smallest printing value DYZ as the optimal UV printing device.

It should be noted that, the printing is started first when the material to be printed is conveyed to the normal UV printing device with the smallest printing value DYZ, so that the waiting time is shortened, and the material to be printed is guided to be conveyed to the optimal UV printing device by the guiding module.

In the second embodiment, the following technical features are added on the basis of the first embodiment:

a UV printing equipment management system based on the Internet of things compares a humidity value SDZ with a preset humidity threshold SDY when a coincidence value FHZ is smaller than a preset coincidence threshold Q, and reminds an administrator to adjust the humidity of UV printing equipment if the humidity value SDZ does not accord with the preset humidity threshold SDY.

When the coincidence value FHZ is smaller than the preset coincidence threshold value Q, the temperature value WDZ is compared with the preset temperature threshold value WDY, and if the temperature value WDZ does not accord with the preset temperature threshold value WDY, an administrator is reminded of adjusting the temperature of the UV printing device.

When the coincidence value FHZ is smaller than the preset coincidence threshold value Q, comparing the height value GDZ with a preset height threshold value GDY, and if the height value GDZ does not accord with the preset height threshold value GDY, reminding an administrator to adjust the height of the printing nozzle from the printing material in the UV printing equipment.

It should be noted that when the coincidence value FHZ is smaller than the preset coincidence threshold value Q, the humidity value SDZ is compared with the preset humidity threshold value SDY, the temperature value WDZ is compared with the preset temperature threshold value WDY, and the height value GDZ is compared with the preset height threshold value GDY, so that an administrator is reminded to adjust, the humidity and the temperature at the UV printing device are optimized, the height of the printing nozzle in the UV printing device from the printing material is optimized, and the phenomenon of flying ink is prevented.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (1)

1. The UV printing equipment management system based on the Internet of things is characterized by comprising an environment state monitoring module, a use selection module, a data acquisition module, a data analysis module, a selection module and a guiding module:

the environment state monitoring module is used for acquiring environment state information of each UV printing device during operation;

the use selection module processes, analyzes and judges the use performance of each UV printing device according to the environmental state information of each UV printing device when in operation, screens the UV printing devices conforming to the use performance, and marks the UV printing devices conforming to the use performance as normal UV printing devices;

the data acquisition module is used for acquiring the basic state information of each normal UV printing device and the state information of a material carrier to be printed; the basic state information of the normal UV printing equipment comprises position information of the normal UV printing equipment, time information required by printing single printing materials of the normal UV printing equipment and quantity information of materials waiting to be printed, and the state information of the material handler to be printed comprises position information of the material handler to be printed and conveying speed information of the material to be printed;

the data analysis module performs joint processing analysis on the basic state information of each normal UV printing device and the position information of a material carrier to be printed to obtain a printing value;

the selecting module selects the optimal UV printing equipment from at least two normal UV printing equipment according to the printing value;

the guiding module guides a material handler to be printed to carry the material to be printed to the position of the optimal UV printing equipment;

the printing value comprises a carrying time value and a printing time value;

the conveying time value is a time value which is obtained by processing and analyzing the position information of a material conveyer to be printed, the position information of normal UV printing equipment and the conveying speed information of the material to be printed and is used for conveying the material to be printed to each normal UV printing equipment; the printing time value is used for processing and analyzing the time information required by the normal UV printing equipment for printing the single printing material and the quantity information of the materials waiting to be printed, and is obtained and used for representing the time value required by the normal UV printing equipment for printing the materials waiting to be printed;

processing and analyzing the position information of the normal UV printing equipment and the position information of the material carrier to be printed to obtain carrying distance information;

carrying out value taking and marking on the carrying distance information to obtain a carrying distance value BYJ;

taking the value and marking the time information required by printing the single printing material of the normal UV printing equipment to obtain a time value DYS required by the single printing material;

taking the value and marking the quantity information of the materials waiting to be printed to obtain a quantity value DYL to be printed;

carrying out value taking and marking on the material carrying speed information to be printed to obtain a carrying speed value BSZ;

by carrying a function of timeCalculating to obtain a carrying time value BYS;

by printing a function of timeCalculating to obtain a printing time value ZYS;

by joint functionCalculating to obtain a printing value DYZ; wherein b1 and b2 are influencing factors and are greater than zero;

marking the normal UV printing equipment with the minimum printing value DYZ as the optimal UV printing equipment;

the environment state information of the UV printing equipment in operation comprises environment humidity information of each UV printing equipment in operation, temperature information of the UV printing equipment in operation and height information of a printing nozzle in the UV printing equipment from printing materials;

the method comprises the steps of taking value and marking environmental humidity information when the UV printing equipment works to obtain a humidity value SDZ;

the temperature information of the UV printing equipment during working is valued and marked to obtain a temperature value WDZ;

taking the value and marking the height information of the printing nozzle in the UV printing equipment from the printing material to obtain a height value GDZ;

by calculation formulaCalculating to obtain a coincidence value FHZ; wherein a1, a2 and a3 are influencing factors and are greater than zero;

comparing the coincidence value FHZ with a preset coincidence threshold value Q:

the UV printing device complies with the usability and marks as a normal UV printing device if the compliance value FHZ = a preset compliance threshold Q;

if the coincidence value FHZ is less than the preset coincidence threshold value Q, the UV printing device does not accord with the service performance and is marked as an abnormal UV printing device;

when the coincidence value FHZ is smaller than a preset coincidence threshold value Q, comparing the humidity value SDZ with a preset humidity threshold value SDY, and if the humidity value SDZ does not accord with the preset humidity threshold value SDY, reminding an administrator to adjust the humidity of the UV printing equipment;

when the coincidence value FHZ is smaller than a preset coincidence threshold value Q, comparing the temperature value WDZ with a preset temperature threshold value WDY, and if the temperature value WDZ does not accord with the preset temperature threshold value WDY, reminding an administrator to adjust the temperature of the UV printing equipment;

when the coincidence value FHZ is smaller than the preset coincidence threshold value Q, comparing the height value GDZ with a preset height threshold value GDY, and if the height value GDZ does not accord with the preset height threshold value GDY, reminding an administrator to adjust the height of the printing nozzle from the printing material in the UV printing equipment.