CN203428361U - Conveyor belt and conveying device for printing - Google Patents

Abstract

A conveyor belt comprises a basic belt layer and at least one heat insulation layer. The basic belt layer is a rubber layer or a stainless steel layer. The heat insulation layer is a canvas layer and located outside the basic belt layer in a coating mode. The conveying device for printing comprises a machine frame, a driving mechanism and the conveyor belt. The driving mechanism is arranged on the machine frame. The conveyor belt is connected with the driving mechanism in a driven mode. The conveyor belt is located below a scratching printing mechanism, a hot-pressing discharge printing mechanism and a digital spray-painting printing mechanism and circularly passes through the scratching printing mechanism, the hot-pressing discharge printing mechanism and the digital spray-painting printing mechanism in sequence. According to the conveying device for printing, transportation is not needed, the printing efficiency is greatly improved, a fabric is not moved and is accurately located, the accuracy is high, the canvas layer is good in heat insulation effect and water absorbing performance, flat in fabric face and good in adsorption capacity, in the printing process of the fabric or after the printing process, residual liquid such as used pigment, a dye-fixing agent, and a color fading agent is absorbed by the canvas layer, and occurrence of defective products is avoided.

Description

A kind of load-transfer device and stamp transmitting device

Technical field

The utility model relates to printing equipment technical field, is specifically related to a kind of load-transfer device and stamp transmitting device.

Background technology

In prior art, screen printing is to apply maximum printing techniques at textile printing, especially in T-shirt stamp, adopts in large quantities screen printing technology.The steps such as screen printing technology mainly includes design, goes out the film, printing down, stamp, oven dry.And in screen printing, usually need to use silk screen topping printing, concrete is exactly in the pattern of textile (as: T-shirt), if there is multiple color, need to print a plurality of galley, for example have red, yellow, blue three colors, that just need to print respectively three versions, version of corresponding each color.For different textile kinds, or different textile colors, the type of screen printing mainly can be divided into: water slurry stamp, bonding agent printing, the types such as ink jet printing.In screen printing technology, also conventionally by being added into some special materials, reach different printing qualities, to meet client's special demand.

Yet conventionally the transition stereovision of the screen printing of textile is all poor, is difficult to realize nature effect true to nature, and along with the development of textile printing technology, engendered digital printing technology.

The technological process of digital printing technology is by various digitalisation means, as: the various digitalisation pattern input computing machines that scanning, digital photo, image or computing mechanism deal with, after processing by computer color splitting printing system again, by special-purpose RIP software by its sprayed printed system by the direct spray printing of various dedicated dyes (as: activity, dispersion, acid main coating) on various textiles or other medium, after processing, on various fabrics, obtain required various high-precision Printing again.

The transmission equipment of screen printing and digit printing generally all adopts platen, and concrete structure is below printing machine frame, to be provided with moving track, platen is arranged in moving track, while carrying out different revenue stamp processes, platen is transferred to different printing machine frame belows, moving track is for location.

But problems of the prior art are:

1, platen need to ceaselessly move in different operations, inefficiency;

2, control accuracy is poor, in revenue stamp process, usually needs to carry out the operations such as registering or chromatography, in the moving process of platen, often occurs that location is inaccurate, causes chromatography or cover Board position inaccurate, thereby occurs waste product.

3, conventional load-transfer device is all rubber tape, in stamp process, load-transfer device is wanted supports fabrics, make printing machine frame carry out stamp at fabric face, must have certain rigidity, and printing machine frame commonly uses hot pressing and pull out printing mechanism, traditional rubber tape is subject to high temperature and can produces the slight melting in surface, fade, cause polluting fabric, thereby occur waste product.

Therefore,, for existing problems of the prior art, need badly and provide a kind of good heat-insulation effect, stamp that stamp precision is high to seem particularly important by transmission technology.

Summary of the invention

The purpose of this utility model is to avoid the deficiencies in the prior art part a kind of good heat-insulation effect to be provided, can to make the load-transfer device that stamp precision is high.

Another object of the present utility model is to avoid weak point of the prior art and a kind of good heat-insulation effect, precision is high, efficiency is high stamp transmitting device is provided.

The purpose of this utility model is achieved through the following technical solutions:

A kind of load-transfer device is provided, includes baseband layer and one deck thermal insulation layer at least, described baseband layer is set to rubber layer or stainless steel layer, and described thermal insulation layer is set to canvas layer, and described thermal insulation layer is positioned at described baseband layer outside and covers.

Wherein, described thermal insulation layer is set to two-layer, and thermal insulation layer covers in described baseband layer outer surface described in ground floor, and thermal insulation layer covers in thermal insulation layer outer surface described in ground floor described in the second layer.

Wherein, described thermal insulation layer outermost surfaces is provided with glue-line, for fixing weaving material.

Wherein, described glue-line is the silica gel glue-line covering in described thermal insulation layer outermost surfaces.

Wherein, described glue-line is for spraying or be coated on the non-drying glue glue-line of described thermal insulation layer outermost surfaces.

Another object of the present utility model is achieved through the following technical solutions:

A kind of stamp transmitting device is provided, include frame, described erecting is equipped with driver train and the above load-transfer device, described driver train is arranged at described frame, described load-transfer device drives and is connected with described driver train, described load-transfer device is positioned at and scrapes mechanism, hot pressing and pull out printing mechanism and numerial code spray drawing printing mechanism below, and cycle through successively scrape mechanism, printing mechanism and numerial code spray drawing printing mechanism are pulled out in hot pressing.

Wherein, described driver train includes servomotor and live roll group, and described servomotor drives and is connected with described live roll group, and described load-transfer device moves with described live roll group.

Wherein, the described erecting inline type frame that sets as one, described driver train is arranged at described frame.

Wherein, described erecting is equipped with stop gear, and described stop gear comprises two position-limited wheels, and two described position-limited wheels are relatively arranged on the both sides of described load-transfer device, and is fixedly installed on described frame.

Wherein, described stop gear is provided with two covers, and the described stop gear of two covers lays respectively at described frame rear and front end portion, and is relatively arranged on respectively the both sides of described load-transfer device.

The beneficial effects of the utility model:

, including baseband layer and one deck thermal insulation layer at least, baseband layer is set to rubber layer or stainless steel layer, and thermal insulation layer is set to canvas layer, and thermal insulation layer is positioned at baseband layer outside and covers.

This load-transfer device, by being set, thermal insulation layer solved traditional load-transfer device when carrying out hot pressing process, impaired and then pollute fabric, cause occurring the problem of waste product, thermal insulation layer is set to canvas layer, not only there is good effect of heat insulation, and canvas layer cloth cover is smooth, there is good adsorption affinity, fabric is in printing process, can comparatively firmly be attached to canvas layer surface, can be because printing causes cockline or displacement; Canvas layer also has good hygroscopic character, and fabric, in printing process or after printing, need to be used the liquid such as pigment, colouring stabilizer and decolourant, and the raffinate of these liquid, can be absorbed by canvas layer, avoids it to pollute fabric, occurs defect ware.

A kind of stamp transmitting device, include frame, described erecting is equipped with driver train and said conveyer belt, driver train is arranged at frame, load-transfer device drives and is connected with driver train, load-transfer device is positioned at and scrapes mechanism, hot pressing and pull out printing mechanism and numerial code spray drawing printing mechanism below, and cycle through successively scrape mechanism, printing mechanism and numerial code spray drawing printing mechanism are pulled out in hot pressing.

Employing load-transfer device can be sent to fabric respectively according to operation and scrape mechanism, the station of printing mechanism and numerial code spray drawing printing mechanism is pulled out in hot pressing, do not need to carry, compare traditional platen, printing efficiency improves greatly, and fabric transfers to each station on load-transfer device, do not move, accurate positioning, precision is high.

Accompanying drawing explanation

The utility model is described in further detail to utilize accompanying drawing, but embodiment in accompanying drawing does not form any restriction of the present utility model.

Fig. 1 is the structural representation of a kind of load-transfer device of the present utility model.

Fig. 2 is the structural representation of transmitting device for a kind of stamp of the present utility model.

At Fig. 1, Fig. 2, include:

1---load-transfer device, 2------printing mechanism, 4 is pulled out in hot pressing---the numerial code spray drawing printing mechanism that scrapes mechanism, 3,

5---servomotor, 6---live roll group, 7---position-limited wheel, 8---frame, 9---baseband layer,

10---thermal insulation layer.

The specific embodiment

With the following Examples the utility model is described in further detail.

embodiment 1

A kind of load-transfer device 1, includes baseband layer 9 and one deck thermal insulation layer 10 at least, and baseband layer 9 is set to rubber layer or stainless steel layer, and thermal insulation layer 10 is set to canvas layer, and thermal insulation layer 10 is positioned at baseband layer 9 outsides and covers.

This load-transfer device 1, by being set, thermal insulation layer 10 solved traditional load-transfer device 1 when carrying out hot pressing process, impaired and then pollute fabric, cause occurring the problem of waste product, thermal insulation layer 10 is set to canvas layer, not only there is good effect of heat insulation, and canvas layer cloth cover is smooth, there is good adsorption affinity, fabric is in printing process, can comparatively firmly be attached to canvas layer surface, can be because printing causes cockline or displacement; Canvas layer also has good hygroscopic character, and fabric, in printing process or after printing, need to be used the liquid such as pigment, colouring stabilizer and decolourant, and the raffinate of these liquid, can be absorbed by canvas layer, avoids it to pollute fabric, occurs defect ware.

Corrosion-resistant steel has better heat resistanceheat resistant characteristic, is heated indeformable, and printing effect is better.

Thermal insulation layer 10 is set to two-layer, and ground floor thermal insulation layer 10 covers in baseband layer 9 outer surfaces, and second layer thermal insulation layer 10 covers in ground floor thermal insulation layer 10 outer surfaces.

Two-layer thermal insulation layer 10 can be better heat insulation, avoids baseband layer 9 to be subject to high temperature deformation.Thermal insulation layer 10 is stained with and is overlying on baseband layer 9, fixation, difficult drop-off by high temperature resistant non-drying glue.

embodiment 2

A kind of load-transfer device 1 of the present utility model, as shown in Figure 1, the main technical schemes of the present embodiment is substantially the same manner as Example 1, and the feature not laying down a definition in the present embodiment adopts the explanation in embodiment 1, at this, no longer repeats.The difference of the present embodiment and embodiment 1 is: thermal insulation layer 10 outermost surfaces are provided with glue-line, for fixing weaving material.

Glue-line is by realizing in the surperficial glue spraying of thermal insulation layer 10, and glue-line coordinates and can better adsorb fabric with thermal insulation layer 10, makes fabric wrinkle resistant and displacement on load-transfer device 1 surface.

This glue-line is the silica gel glue-line covering in thermal insulation layer 10 outermost surfaces.

This glue-line can also be set to spraying or be coated on the non-drying glue glue-line of described thermal insulation layer 10 outermost surfaces.

The processing of non-drying glue glue-line is simple, and spraying is convenient, and result of use is good.

embodiment 3

A kind of stamp transmitting device of the present utility model, as shown in Figure 2, a kind of stamp transmitting device, include frame 8, frame 8 is provided with driver train and the above load-transfer device 1, and driver train is arranged at frame 8, and load-transfer device 1 drives and is connected with driver train, load-transfer device 1 be positioned at scrape mechanism 2, printing mechanism 3 and numerial code spray drawing printing mechanism 4 belows are pulled out in hot pressing, and cycle through successively scrape mechanism 2, printing mechanism 3 and numerial code spray drawing printing mechanism 4 are pulled out in hot pressing.

Employing load-transfer device 1 can be sent to fabric respectively according to operation and scrape mechanism 2, the station of printing mechanism 3 and numerial code spray drawing printing mechanism 4 is pulled out in hot pressing, do not need to carry, compare traditional platen, printing efficiency improves greatly, and fabric transfers to each station on load-transfer device 1, do not move, accurate positioning, precision is high.

Driver train includes servomotor 5 and live roll group 6, and servomotor 5 drives and is connected with live roll group 6, and load-transfer device 1 is with 6 motions of live roll group.

Servomotor 5 can be transported to each station by fabric by load-transfer device 1 accurately, and transmission accuracy is high.

Frame 8 is set to one inline type frame 8, and driver train is arranged at frame 8.Be beneficial to continuously fabric be carried out to stamp.

embodiment 4

A kind of stamp transmitting device of the present utility model, as shown in Figure 2, the main technical schemes of the present embodiment is substantially the same manner as Example 3, and the feature not laying down a definition in the present embodiment adopts the explanation in embodiment 3, at this, no longer repeats.The difference of the present embodiment and embodiment 3 is:

Frame 8 is provided with stop gear, and stop gear comprises that 7, two position-limited wheels 7 of two position-limited wheels are relatively arranged on the both sides of load-transfer device 1, and is fixedly installed on frame 8.

Stop gear is provided with two covers, and two cover stop gears lay respectively at frame 8 rear and front end portions, and are relatively arranged on respectively the both sides of load-transfer device 1.

Position-limited wheel 7 is load-transfer device 1 location, makes its straight motion all the time, do not produce displacement.

The stop gear limit effect that two ends arrange is better.

Finally should be noted that; above embodiment is the restriction in order to the technical solution of the utility model to be described but not to the utility model protection domain only; although the utility model is explained in detail with reference to preferred embodiment; those of ordinary skill in the art is to be understood that; can modify or be equal to replacement the technical solution of the utility model, and not depart from essence and the scope of technical solutions of the utility model.

Claims (10)

1. a load-transfer device, is characterized in that: include baseband layer and one deck thermal insulation layer at least, described baseband layer is set to rubber layer or stainless steel layer, and described thermal insulation layer is set to canvas layer, and described thermal insulation layer is positioned at described baseband layer outside and covers.

2. a kind of load-transfer device according to claim 1, is characterized in that: described thermal insulation layer is set to two-layer, and thermal insulation layer covers in described baseband layer outer surface described in ground floor, and thermal insulation layer covers in thermal insulation layer outer surface described in ground floor described in the second layer.

3. a kind of load-transfer device according to claim 1 and 2, is characterized in that: described thermal insulation layer outermost surfaces is provided with glue-line, for fixing weaving material.

4. a kind of load-transfer device according to claim 3, is characterized in that: described glue-line is the silica gel glue-line covering in described thermal insulation layer outermost surfaces.

5. a kind of load-transfer device according to claim 3, is characterized in that: described glue-line is for spraying or be coated on the non-drying glue glue-line of described thermal insulation layer outermost surfaces.

6. a stamp transmitting device, include frame, it is characterized in that: be provided with driver train and the load-transfer device as described in claim 1 to 5 any one, described driver train is arranged at described frame, described load-transfer device drives and is connected with described driver train, described load-transfer device is positioned at and scrapes mechanism, hot pressing and pull out printing mechanism and numerial code spray drawing printing mechanism below, and cycle through successively scrape mechanism, printing mechanism and numerial code spray drawing printing mechanism are pulled out in hot pressing.

7. a kind of stamp transmitting device according to claim 6, is characterized in that: described driver train includes servomotor and live roll group, and described servomotor drives and is connected with described live roll group, and described load-transfer device moves with described live roll group.

8. a kind of stamp transmitting device according to claim 6, is characterized in that: the described erecting inline type frame that sets as one, described driver train is arranged at described frame.

9. a kind of stamp transmitting device according to claim 8, it is characterized in that: described erecting is equipped with stop gear, described stop gear comprises two position-limited wheels, and two described position-limited wheels are relatively arranged on the both sides of described load-transfer device, and is fixedly installed on described frame.

10. a kind of stamp transmitting device according to claim 9, is characterized in that: described stop gear is provided with two covers, and the described stop gear of two covers lays respectively at described frame rear and front end portion, and is relatively arranged on respectively the both sides of described load-transfer device.

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