CN106183391B

CN106183391B - A kind of energy-efficient vamp printing equipment

Info

Publication number: CN106183391B
Application number: CN201610774997.5A
Authority: CN
Inventors: 阙小鸿
Original assignee: Black King Kong Automation Technology Fujian Co Ltd
Current assignee: Black King Kong Automation Technology Fujian Co Ltd
Priority date: 2016-08-31
Filing date: 2016-08-31
Publication date: 2018-08-14
Anticipated expiration: 2036-08-31
Also published as: CN106183391A

Abstract

The present invention relates to a kind of energy-efficient vamp printing equipments, including transport mechanism, a plurality of working plates and printing mechanism, printing mechanism to be equipped with transport mechanism.Above-mentioned transport mechanism cycle operation setting.Above-mentioned working plate is set to transport mechanism cycle operation in transport mechanism.Above-mentioned printing mechanism further includes drying box, and drying box is set to drying box and the side on the conveyer belt direction of transfer where printing mechanism adjacent to above-mentioned printing mechanism.Above-mentioned drying box includes three-dimensional identification device and a plurality of drying light sources for being in the form of a column setting, and three-dimensional identification device is set to drying box adjacent to the side wall outer of the printing mechanism side, and dry light source adjoins each other uniformly distributed in edge in drying box top surface.The present invention dries every LED in drying box by control mechanism the independent control of light source, is realized with the shadow surface that printing layer matches and opens the drying effect that minimum number LED drying light sources ensure that printed material.

Description

A kind of energy-efficient vamp printing equipment

Technical field

The present invention relates to a kind of vamp printing equipments, and in particular to a kind of energy-efficient vamp printing equipment.

Background technology

Along with the development of society, the printing layer of vamp starts towards multilayer, more colors, multiple pattern development.This kind of trend Requirement to the quality of production and production efficiency of vamp printing also increasingly improves.The machinery that current vamp printing process uses That there are stone precision is low, harsh to material requirements for hand stone or vacuum stone, oven dried cooking process waste energy etc. is asked Topic.

The applicant on March 26th, 2013 to State Intellectual Property Office propose it is a application No. is 201310099116.0 application for a patent for invention, which is a kind of Automatic printer for vamp, including which is provided with work Make the combination machine frame body of platform；The combination machine frame body is equipped with endless belt conveyer and its driving device, the endless belt conveyer Surface be coated with the adhered layer of one layer of changeable sticking strength；The lower section of the combination machine frame body is equipped with one and is used for stock Up top pressure makes it overlay the feed mechanism in the adhered layer；The top of the combination machine frame body is equipped with one for printing printing The printing mechanism of object.The present invention allows stock to be temporarily pasted onto on endless belt conveyer, through arrangement flatten, then to stock into Row printing recycles rewinding shovel to shovel stock automatically from endless belt conveyer, finally carries out product collection processing, this new defeated It send and presswork mode, improves the printing precision and printing quality of printing mechanism.The invention is completed for printing by printed object Rate of drying afterwards influences, and endless belt conveyer length is long, takes up a large area, and affects the utilization rate of workshop, and then increases machine The use cost of device.And it is existing on the basis of the program increase oven scheme equally exist oven be always held at it is certain The problems such as power operates, and energy utilization efficiency is low and applicability is small.

Invention content

The present invention provides a kind of energy-efficient vamp printing equipment, to solve existing most of vamp printing equipment energy profits With efficiency it is low, take up a large area the problems such as.

The present invention adopts the following technical scheme that：

A kind of energy-efficient vamp printing equipment, including transport mechanism, a plurality of working plates and printing mechanism, printing mechanism It is equipped with transport mechanism.Above-mentioned transport mechanism cycle operation setting.Above-mentioned working plate is with transport mechanism cycle operation In transport mechanism.The transport mechanism includes two elevating mechanisms and horizontally disposed two conveyer belts, two conveyer belts Direction of transfer be reversed, two elevating mechanisms are respectively arranged on the both ends of conveyer belt.Above-mentioned printing mechanism further includes drying box, Drying box is set to drying box and the side on the conveyer belt direction of transfer where printing mechanism adjacent to above-mentioned printing mechanism.It is above-mentioned Drying box includes three-dimensional identification device and a plurality of drying light sources for being in the form of a column setting, and it is adjacent that three-dimensional identification device is set to drying box The side wall outer of the nearly printing mechanism side, dry light source adjoin each other uniformly distributed in edge in drying box top surface.

Further：

Along setting in the intensive above-mentioned drying box top surface being covered with above above-mentioned conveyer belt of above-mentioned dry light source.

Above-mentioned dry light source is UVLED light sources or is far infrared LED light source.

A kind of energy-efficient vamp printing equipment further includes a control mechanism, control mechanism and above-mentioned transport mechanism, above-mentioned print Brush mechanism and above-mentioned drying box are connected.Transmission speed information and printing mechanism of the above-mentioned control mechanism by collection conveyer belt The printing layer information formed on vamp, by above-mentioned three-dimensional identification device to that will enter on the above-mentioned working plate in drying box Vamp positioned, the opening and closing to individually control each above-mentioned dry light source enables the drying light source form one on working plate The shadow surface for following working plate to move, the printing layer that shadow surface and the printing mechanism are formed on vamp match setting.

Above-mentioned working plate is transparent glass tablet.

Each above-mentioned conveyer belt has two independently arranged sides to be constituted along conveyer belt.Two above-mentioned sides of same conveyer belt The both sides in above-mentioned transport mechanism width direction are symmetrically set in along conveyer belt, the width direction of the transport mechanism is and above-mentioned transmission With the direction that direction of transfer is perpendicular.Two sides of same conveyer belt are arranged along conveyer belt synchronous driving.

By the above-mentioned description to structure of the invention it is found that compared to the prior art, the invention has the advantages that：

First, the transport mechanism of stereo circulating of the invention and printing mechanism, drying box are equipped with, and reduce machine Floor space, and spread out from annular and become placement stacked on top of one another so that more printed objects can be placed in unit space, Improve space availability ratio.

Second, the present invention dries every LED in drying box by control mechanism the independent control of light source, with printing layer phase It is realized with suitable shadow surface and opens the drying effect that minimum number LED drying light sources ensure that printed material.Pass through three The synergistic effect for tieing up identification device, conveyer belt and control mechanism, reduces unnecessary energy dissipation in drying box, reduces The Energy in use of the vamp printing equipment of the present invention, is more energy-saving and environmentally friendly.

Third, the present invention dry every LED in drying box by control mechanism the independent control of light source, can specifically control The drying process of upper different printing layer on different vamps needs the quantity and power of LED dryings light source to be started, realizes The flexible production demand of vamp printing equipment, the setting of parameter need to be only carried out to control mechanism and can be real without adjustment hardware Now by vamp printing equipment be applied to different vamps, different printing layers drying process, increase the present invention vamp print The applicability of brush device reduces the use cost of the vamp printing equipment of the present invention.

4th, LED of the invention dry light source edge in densely covered drying box top surface, compared to setting for original drying tube It sets, more accurately shadow surface can be formed, to further increase energy utilization efficiency.

Description of the drawings

Fig. 1 is the main structure diagram of the vamp printing equipment of the present invention.

Fig. 2 is the overlooking structure diagram of the vamp printing equipment of the present invention.

Fig. 3 is the side structure schematic view of the vamp printing equipment of the present invention.

Fig. 4 is the enlarged structure schematic diagram of part A in Fig. 1.

Fig. 5 is the enlarged structure schematic diagram of part B in Fig. 1.

Fig. 6 is the enlarged structure schematic diagram of Local C in Fig. 1.

Fig. 7 is the enlarged structure schematic diagram of part D in Fig. 2.

Fig. 8 is the enlarged structure schematic diagram of part E in Fig. 2.

Fig. 9 is the structural schematic diagram of the working plate of the present invention.

Specific implementation mode

Illustrate the specific implementation mode of the present invention with reference to the accompanying drawings.

With reference to figure 1, Fig. 2, Fig. 4, a kind of vamp printing equipment, including transport mechanism, printing mechanism, working plate 3, drying box 4 and control mechanism.Transport mechanism includes upper conveyor belt 11, lower conveyor belt 12, left elevating mechanism 13 and right elevating mechanism 14, Upper conveyor belt 11, lower conveyor belt 12 are horizontally disposed, and upper conveyor belt 11,12 direction of transfer of lower conveyor belt are reversed, upper transmission Band 11 is set to right over lower conveyor belt 12.Upper conveyor belt 11 passes left end with lower conveyor belt 12 and extends into left elevating mechanism 13, Upper conveyor belt 11 passes right end with lower conveyor belt 12 and extends into right elevating mechanism 14.

With reference to figure 1, Fig. 2, Fig. 9, working plate 3 is transparent glass tablet, and 3 bottom of working plate is set there are two pilot pin 31, fixed Position bolt 31 is the column structure that middle part is equipped with annular recess.Upper conveyor belt 11 is with lower conveyor belt 12 by two independently arranged sides It is constituted along conveyer belt.Two above-mentioned sides of same conveyer belt are symmetrically set in two in vamp printing equipment width direction along conveyer belt Side, the vamp printing equipment width direction are the direction perpendicular with upper conveyor belt 11 or 12 direction of transfer of lower conveyor belt.Together Two sides of one conveyer belt are arranged along conveyer belt synchronous driving.3 bottom surface of working plate is positioned over side edge with side along what conveyer belt was bonded On conveyer belt, the length direction of working plate 3 is consistent with vamp printing equipment width direction, and pilot pin 31 is set to two and is symmetrical arranged Side among transmission belt.

With reference to figure 1, Fig. 2, Fig. 5, Fig. 7, printing mechanism can be screen printing mechanism 2a or ink-jet printing mechanism 2b, this An a screen printing mechanism 2a and ink-jet printing mechanism 2b is provided preferably in embodiment.Screen printing mechanism 2a can be printed Such as the printing layer that vamp substrate layer equal thickness is thicker and color is single, silk-screen printing are formed with certain thickness printing layer Faster, but for the printing layers such as more than color category, silk-screen printing needs greater number of web plate to efficiency, and printing cost is high and net Plate also pollutes environment while being frequently replaced and cleaned waste of resource.Although and ink-jet printing mechanism 2b printings have certain thickness Printing layer printing efficiency it is low, but for a variety of printing layer of color, ink-jet printing mechanism 2b does not need web plate, printing efficiency High and saving cost is not said, also more environmentally friendly.In the present embodiment by the way of each one of Liang Zhong printing mechanisms, two can be gathered The strong point of kind mode of printing and the weakness for avoiding two kinds of mode of printings.

With reference to figure 1, Fig. 2, Fig. 5, above-mentioned upper transmission belt is equipped with left elevating mechanism 13, screen printing mechanism successively from left to right The direction of transfer of 2a, drying box 4, ink-jet printing mechanism 2b and right elevating mechanism 14, the upper conveyor belt 11 is by left elevator 13 position of structure turn right 14 position of elevating mechanism transmission.Be equipped in screen printing mechanism 2a and ink-jet printing mechanism 2b with it is described The vamp identification device of zero-point positioning device 21 and identification vamp and the relative position of working plate 3 that pilot pin 31 matches （It is not drawn into figure）.The use of zero-point positioning device 21 and vamp identification device realizes the vamp printing machine printing position of the present invention The precise positioning set.

With reference to figure 1, Fig. 2, Fig. 5, Fig. 8, above-mentioned drying box 4 is adjacent to the sides above-mentioned screen printing mechanism 2a and adjacent to above-mentioned The side wall of the sides ink-jet printing mechanism 2b is equipped with a three-dimensional identification device 41.In drying box 4 setting is in the form of a column equipped with a plurality of Drying light source 42, dry light source 42 adjoins each other uniformly distributed in edge in 4 top surface of drying box.Above-mentioned dry light source 42 is intensive It is covered in 4 top surface of above-mentioned drying box above above-mentioned conveyer belt along setting.Above-mentioned dry light source 42 is UVLED light sources or is remote Infrared LED light source.The preferably dry light source 42 of the present embodiment is UVLED light sources.

With reference to figure 1, Fig. 2, Fig. 3, above-mentioned left elevating mechanism 13 includes lifting and traversing two with above-mentioned right elevating mechanism 14 Part-structure, left elevating mechanism 13 and the transverse moving structure of right elevating mechanism 14 are set to left elevating mechanism 13 and right elevating mechanism 14 Top.Right elevating mechanism 14, which is used to the working plate 3 on upper conveyor belt 11 being lifted up, then traversing is more than working plate 3 Then position drops on lower conveyor belt 12.Left elevating mechanism 13 is opposite with right elevating mechanism 14 will be on underground transmission belt 12 Working plate 3 is promoted to by similar step on upper conveyor belt 11.The left side side wall of left elevating mechanism 13 and right elevating mechanism 14 Right sidewall be equipped with one for working plate 3 leave or into the vamp printing equipment disengaging bin gate 15.Left lifting Mechanism 13 is arranged with an oven 16 with 14 upper end of right elevating mechanism, and oven 16 is used for left elevating mechanism 13 and right elevating mechanism The printing layer that vamp on the working plate 3 of 14 upper ends is printed on carries out baking drying process.

Referring to figs. 1 to Fig. 9, the use process of vamp printing equipment is：By the production line of previous process by passing in and out bin gate The vamp printing equipment of the 15 access present invention, is preferably accessed from the disengaging bin gate 15 of left elevating mechanism 13 herein.When 3 cloth of working plate The incoming end that previous process is withdrawn from after full entire transport mechanism after being completed for printing, then from any disengaging bin gate 15 goes to next work Sequence.The working plate 3 for carrying vamp enters upper conveyor belt 11 along left elevating mechanism 13, and then after entrance screen printing mechanism 2a, The vamp that the zero-point positioning mechanism of screen printing mechanism 2a is combined with the pilot pin 31 of working plate 3, and passes through silk-screen printing device Identification device identifies the vamp on working plate 3, is printed after positioning.The working plate 3 of the vamp after printing is carried close to dry Dry case 4 and after being positioned to printing layer by the three-dimensional identification device 41 of drying box 4, control mechanism combines the location information, silk The printing information of wire mark brush device and the transmission speed information of upper conveyor belt 11, each dry light source of independent control 42 are opened It closes so that dry light source 42 is always positioned at the position of printing layer in the shadow surface of upper conveyor belt 11, avoids unnecessary drying The startup of light source 42 reaches energy-efficient purpose.Preferably, the drying light source 42 for selecting diameter more small, will be more accurate The size of shadow surface is controlled in the case where ensureing drying effect, the machine cost of the present embodiment synthesis vamp printing equipment is examined Consider, selects the drying light source 42 of a diameter of 1CM.Working plate 3 leaves drying box 4 and enters ink-jet printing mechanism 2b, completion and silk screen After the identical combination positioning steps of printing mechanism 2a, ink jet printing is carried out, enters right elevating mechanism 14 after the completion, and by right lifting The oven 16 of 14 upper end of mechanism carries out the printing layer of ink jet printing to enter lower conveyor belt 12 after baking is dry, along lower conveyor belt 12 It is returned to left elevating mechanism 13, cycle is for several times until complete all printings.The vamp printing machine of the present invention can also pass through transmission The work for changing to change two kinds of mode of printings sequences or pause one of which printing mechanism of mechanism direction of transfer, thus The vamp that any structure in conjunction with two kinds of mode of printing advantages is printed off in the printing equipment of cycle, further increases the present invention Applicability.

The specific implementation mode of the present invention is above are only, but the design concept of the present invention is not limited thereto, it is all to utilize this Conceive the change for carrying out unsubstantiality to the present invention, the behavior for invading the scope of the present invention should all be belonged to.

Claims

1. a kind of energy-efficient vamp printing equipment, including transport mechanism, a plurality of working plates and printing mechanism, printing mechanism with Transport mechanism is equipped with, it is characterised in that：The transport mechanism cycle operation setting；The working plate is followed with transport mechanism Ring is operably set in transport mechanism；The transport mechanism includes two elevating mechanisms and two horizontally disposed transmission of difference The direction of transfer of band, two conveyer belts is reversed, and two elevating mechanisms are respectively arranged on the both ends of conveyer belt；The vamp printing Device further includes drying box, and drying box is set to drying box adjacent to the printing mechanism and is transmitted with the conveyer belt where printing mechanism Side on direction；The drying box is equipped with three-dimensional identification device and a plurality of drying light sources for being in the form of a column setting, and three-dimensional is known Other device is set to drying box adjacent to the side wall outer of the printing mechanism side, and dry light source adjoins each other uniformly distributed in drying Edge in case top surface；Along setting in the intensive drying box top surface being covered with above the conveyer belt of the dry light source；The vamp Printing equipment further includes a control mechanism, control mechanism and the transport mechanism, the printing mechanism and the drying box phase Even；The control mechanism is believed by the printing layer that the transmission speed information and printing mechanism of collecting conveyer belt are formed on vamp Breath is positioned by the three-dimensional identification device to that will enter the vamp on the working plate in drying box, to single The opening and closing for solely controlling each dry light source enables the drying light source form an irradiation for following working plate to move on working plate Face, the printing layer that shadow surface and the printing mechanism are formed on vamp match setting.

2. a kind of energy-efficient vamp printing equipment according to claim 1, it is characterised in that：The working plate is transparent glass Glass tablet.