CN218084668U - Vacuum transfer machine - Google Patents

Abstract

The utility model discloses a vacuum transfer machine, include: the upper surface of the box body is used as a transfer printing platform; a discharging roller shaft is arranged on the left side of the upper portion of the transfer printing platform, a printing film is placed on the discharging roller shaft, a conveying shaft is arranged on the right side of the discharging roller shaft, a film drawing mechanism is arranged at the rear end of the conveying shaft, a lower die assembly is arranged at the bottom of the film drawing mechanism, an upper die assembly is arranged on the upper portion of the film drawing mechanism, a pressing die assembly is arranged on the lower portion of the upper die assembly, a material receiving guide shaft is arranged on the right side of the film drawing mechanism, and a material receiving shaft is arranged on the right side of the material receiving guide shaft; the method of upper heating and lower vacuumizing laminating is adopted, and the laminating process is simple.

Description

Vacuum transfer machine

Technical Field

The utility model relates to a transfer machine technical field, in particular to vacuum transfer machine.

Background

The traditional shoemaking adopts the way of water transfer printing film, and in the prior art, there is also the way of using heat transfer printing film, such as: the publication number of CN215849274U discloses an automatic heat transfer film processing device, which comprises a conveyor belt, a storage box and a membrane absorption assembly, wherein a plurality of lower dies are arranged on the conveyor belt, four limiting assemblies are arranged at the upper end of the conveyor belt, the storage box is correspondingly arranged at the left end of the membrane absorption assembly, a first limiting assembly is arranged at the right end of the membrane absorption assembly corresponding to the conveyor belt, the first limiting assembly to the fourth limiting assembly are sequentially arranged inwards, an extrusion block, an injection molding spray head and an upper die are sequentially arranged at the upper ends of the second limiting assembly to the fourth limiting assembly, a hollow belt is arranged in the middle of the conveyor belt, a stripping assembly is arranged at the front end of the conveyor belt, when the lower dies are conveyed to the front end of the stripping assembly by the conveyor belt, the stripping assembly ejects formed soles from the lower dies by the stripping assembly, a master control table is fixed at the side edge of the conveyor belt, a moving module is connected with the extrusion block and the upper end of the upper die, and the moving module is electrically connected with the master control table. When the technical means disclosed above is used for carrying out the transfer printing film, a plurality of processes are required, and the processes are relatively complex.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems of the prior art, the utility model provides a vacuum transfer machine.

The utility model provides a vacuum transfer machine, include:

the upper surface of the box body is used as a transfer printing platform;

the left side of the upper portion of the transfer printing platform is provided with a discharging roller shaft, a transfer printing film is placed on the discharging roller shaft, a conveying shaft is arranged on the right side of the discharging roller shaft, a film drawing mechanism is arranged at the rear end of the conveying shaft, a lower die assembly is arranged at the bottom of the film drawing mechanism, an upper die assembly is arranged on the upper portion of the film drawing mechanism, a pressing assembly is arranged on the lower portion of the upper die assembly, a material receiving guide shaft is arranged on the right side of the film drawing mechanism, and a material receiving shaft is arranged on the right side of the material receiving guide shaft.

Further, the film drawing mechanism comprises:

the transfer printing device comprises a support frame body arranged on the upper portion of a transfer printing platform, wherein a lower pressing die frame body is arranged on the upper portion of the support frame body, a group of guide rails are arranged on the support frame body along the running direction of a printing film, and a film pulling driving assembly is arranged along one side guide rail.

Further, the film drawing driving assembly comprises:

a film drawing motor is arranged at one end of the supporting frame body, a driving wheel is arranged on a motor shaft of the film drawing motor, a driven wheel is arranged at the other end of the supporting frame body along the arrangement direction of the guide rails, and a transmission belt is arranged on the driving wheel and the driven wheel; a film drawing plate is arranged on the transmission belt, a group of sliding blocks are arranged on the film drawing plate, and the sliding blocks are correspondingly matched and fixed with the guide rails;

a vertical plate is fixed on the left side face of the film drawing plate, a film drawing cylinder is arranged on the upper portion of the vertical plate, and a film drawing clamping jaw is arranged on the film drawing cylinder.

Further, the lower die assembly includes:

the upper part of the lower die platform is provided with a lower die sucker, the interior of the lower die sucker is hollow, the upper part of the lower die sucker is uniformly provided with a plurality of groups of suction holes, and the suction holes are communicated with the hollow part;

supporting columns are arranged at four corners of the bottom of the lower die platform, and a group of lower cylinders are arranged among the supporting columns; a guide pipe is arranged in the middle of the lower die platform, the top end of the guide pipe is connected with the lower die sucker and extends into the hollow part in the lower die sucker, the lower part of the guide pipe is connected to a vacuum pump, and an electric control valve is arranged at the connection part of the vacuum pump and the guide pipe;

and a shaft hole is formed at the joint of the guide pipe and the lower die platform.

Furthermore, a hood is arranged at the upper part of the transfer printing platform, and the upper part of the upper die assembly is fixed on the hood;

go up mould subassembly includes:

the guide shafts are provided with guide shaft sleeves which are fixed at the top of the hood, and the guide shafts are positioned in the guide shaft sleeves;

the device comprises a set of fixed beams which are arranged in parallel, wherein each fixed beam is fixed at the bottom of a set of guide shafts correspondingly, a cylinder fixing plate is arranged between the two fixed beams, a cylinder push rod of an upper cylinder is fixed on the cylinder fixing plate, the upper cylinder is fixed at the upper part of a hood through a cylinder fixing seat, a through hole is formed in the hood, and the cylinder push rod is positioned in the through hole;

fixed rods are respectively arranged along two sides of each fixed beam, and the lower parts of the fixed rods are connected to the upper die body through adapter pieces;

the upper die body is an upper die frame body with an opening at the lower part, a heating wire is arranged in the upper die frame body, and the upper die frame body is heated after the heating wire is connected with a power supply.

Further, the die assembly includes:

the upper die pressing frame body is arranged corresponding to the lower die pressing frame body;

the upper die frame body is arranged at the lower part of the die frame, and a group of die driving components are arranged at the upper part of the die frame.

Further, the die drive assembly includes:

the pressing die guide rods are arranged at the upper part of the pressing die frame and sleeved in pressing die guide rod sleeves which are fixed on the cylinder mounting plate;

a pressing die cylinder is arranged on the cylinder mounting plate, and a pressing die cylinder push rod arranged on the pressing die cylinder penetrates through the cylinder mounting plate to be fixed with a pressing die frame;

the die pressing frame is fixed on the lower part of the upper top plate of the machine cover through a fixing vertical rod.

When the transfer printing film is used, the transfer printing film is placed on a discharging rolling shaft, and then the film is wound and stretched to a conveying shaft according to the specification, and is pulled to a material receiving guide shaft through a film pulling assembly through the conveying shaft to a material receiving shaft; when the transfer printing film is used, a shoe is placed on the lower die sucker, after the transfer printing film is started, the transfer printing film is pulled to a set position by the film pulling mechanism and then returns to the original material pulling position to prepare for the next material pulling, the transfer printing film is pressed on the upper part of the supporting frame body by moving the pressing die assembly downwards, the upper die assembly is driven to move downwards and heat the transfer printing film, after the heating is finished, the electric control valve on the vacuum pump is opened, the lower die sucker is instantly vacuumized through the guide pipe, the transfer printing film is tightly adsorbed on the shoe, and therefore the heat transfer printing effect is achieved. After the transfer printing is finished, the material receiving motor drives the material receiving shaft to rotate, the waste materials are wound, and the film pulling mechanism pulls the film synchronously while winding. In the application, the method of upper heating and lower vacuumizing laminating is adopted, so that the laminating process is simple.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of the structure provided by the present invention;

FIG. 2 is a schematic structural view of the present invention, with the hood and the lower box door removed from FIG. 1;

FIG. 3 is a schematic structural view of the film drawing mechanism of the present invention;

fig. 4 is a schematic structural view of the middle press mold assembly of the present invention;

FIG. 5 is a schematic structural view of the upper die assembly of the present invention;

fig. 6 is a schematic structural view of the lower die assembly of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1 to 6, the present invention provides a vacuum transfer printing machine, including:

a box body 3 as a frame, wherein the upper surface of the box body 3 is used as a transfer printing platform;

transfer-printing platform's upper portion left side is provided with blowing roller 1, and rendition membrane 2 is placed on the blowing roller, is provided with the conveying axle on the right side of blowing roller, conveying axle rear end is provided with draws membrane mechanism 9, and the bottom of drawing membrane mechanism 9 is provided with lower mould module 10, is provided with mould module 5 on the upper portion of drawing membrane mechanism 9, just it is provided with pressure mould subassembly 8 to go up the lower part of mould module 5, is provided with on the right side of drawing membrane mechanism 9 and receives material guide shaft 6, is provided with on the right side of receiving material guide shaft 6 and receives material axle 7.

When the transfer printing film is used, firstly, the transfer printing film 2 is placed on a discharging rolling shaft, then, the film is wound and stretched to a conveying shaft according to the specification, and the film passes through the conveying shaft, a film drawing assembly and a receiving guide shaft to a receiving shaft; when the transfer printing film is carried out, a shoe is placed on the lower mold sucker, after the transfer printing film is started, the transfer printing film is pulled to the set position by the film pulling mechanism 9 and then returns to the original material pulling position to prepare the next material pulling, the pressing die assembly 8 moves downwards to press the transfer printing film on the upper portion of the supporting frame body, the upper mold die assembly is driven to move downwards and heat the transfer printing film, after the heating is finished, the electric control valve on the vacuum pump is opened, the lower mold sucker is instantly vacuumized through the guide pipe, the transfer printing film is tightly adsorbed on the shoe, and therefore the heat transfer printing effect is achieved. After the transfer printing is finished, the material receiving motor drives the material receiving shaft to rotate, the waste materials are wound, and the film pulling mechanism pulls the film synchronously while winding. In the application, the method of upper heating and lower vacuumizing laminating is adopted, so that the laminating process is simple.

In the above, the film drawing mechanism 9 includes: the transfer printing device comprises a supporting frame body 900 arranged on the upper part of a transfer printing platform, a lower pressing die frame body 911 arranged on the upper part of the supporting frame body 900, a group of guide rails 904 arranged on the supporting frame body 900 along the running direction of a printing film, and a film drawing driving assembly arranged along one side guide rail 904. The film drawing driving assembly comprises:

a film pulling motor 901 is arranged at one end of the supporting frame body 900, a driving wheel 902 is arranged on a motor shaft of the film pulling motor, a driven wheel 907 is arranged at the other end of the supporting frame body along the arrangement direction of the guide rails, and a transmission belt 903 is arranged on the driving wheel 902 and the driven wheel 907; a film drawing plate 906 is arranged on the transmission belt 903, a group of sliding blocks 905 are arranged on the film drawing plate 906, and the sliding blocks 905 are correspondingly matched and fixed with the guide rail 904;

a vertical plate 908 is fixed on the left side surface of the film drawing plate 906, a film drawing cylinder 909 is arranged on the upper part of the vertical plate 908, and a film drawing clamping jaw 910 is arranged on the film drawing cylinder 909.

Specifically draw the membrane process as follows, draw membrane motor 901 to drive wheel 902 and rotate, drive wheel 902 rotates and drives driving belt 903 and rotate along with drive wheel 902 and follow driving wheel 902, the setting draws lamina membranacea 906 synchronous motion on driving belt 903, it is the mode that utilizes the slider to move on the slide rail to draw lamina membranacea synchronous motion, draw the lamina membranacea to remove and drive the riser and remove, thereby draw membrane cylinder drive to draw the membrane clamping jaw to draw the transfer film to go up between mould module and the lower mould module from the both sides tensioning of transfer film.

In the above, the lower mold die assembly 10 includes:

the lower die platform 10 is provided with a lower die sucker 113 at the upper part of the lower die platform 10, the lower die sucker 113 is arranged in a hollow manner, a plurality of groups of suction holes are uniformly formed in the upper part of the lower die sucker 113, and the suction holes are communicated with the hollow part;

four corners of the bottom of the lower die platform 10 are provided with support columns 111, and a group of lower cylinders 112 are arranged between the support columns 111; a guide pipe 110 is arranged in the middle part of the lower die platform 10, the top end of the guide pipe 110 is connected with the lower die suction cup 113 and extends into the hollow part in the lower die suction cup, the lower part of the guide pipe 110 is connected to the vacuum pump 12, and an electric control valve is arranged at the connection part of the vacuum pump 12 and the guide pipe 110;

the connection part of the guide pipe 110 and the lower mold platform 10 is provided with a shaft hole.

In the above, when the lower mold platform 10 and the lower mold suction cup 113 are in an operating state, the lower mold platform 10 supports the lower mold suction cup 113, and the stability of the lower mold suction cup 113 is ensured. Lower die platform 10 and lower die suction cup 113 can also separate, and specifically, when lower cylinder 112 drives the push rod to move down, lower die platform 10 moves down along support column 112, and lower die platform 10 and lower die suction cup 113 separate gradually, and at this moment, the shaft hole on lower die platform 10 moves down along the pipe. After separation, the lower mold suction cup 113 can be cleaned, and the guide pipe 112 and the lower mold suction cup 113 can be detached and maintained.

In the above, a hood 4 is provided above the transfer platform, the hood 4 is fixed by a frame 13, and the upper part of an upper die assembly 5 is fixed on the hood 4; go up mould subassembly includes:

the guide shafts are provided with guide shaft sleeves which are fixed at the top of the hood 4, and the guide shafts are positioned in the guide shaft sleeves;

a set of fixed beams 501 arranged in parallel, each fixed beam 501 is fixed corresponding to the bottom of a set of guide shafts, a cylinder fixing plate 504 is arranged between the two fixed beams 501, a cylinder push rod of an upper cylinder 505 is fixed on the cylinder fixing plate 504, the upper cylinder is fixed on the upper part of the hood 4 through a cylinder fixing seat, a through hole is arranged on the hood 4, and the cylinder push rod is positioned inside the through hole;

fixing rods 502 are respectively arranged along two sides of each fixing beam, and the lower parts of the fixing rods 502 are connected to the upper die body 500 through adapter pieces 503;

the upper die body is an upper die frame body with an opening at the lower part, a heating wire is arranged in the upper die frame body, and the upper die frame body is heated after the heating wire is connected with a power supply.

The cylinder push rod of the upper cylinder moves downwards, and meanwhile, the fixed beam moves downwards under the action of the guide shaft to drive the upper die frame body to move downwards.

In the above, the die assembly comprises:

the upper die frame body 800 is arranged corresponding to the lower die frame body 800;

the upper die frame body 800 is disposed at a lower portion of the die frame, and a set of die driving units is disposed at an upper portion of the die frame.

The die drive assembly includes:

a group of die guide rods 805 arranged at the upper part of the die frame 801, wherein the die guide rods are sleeved in die guide rod sleeves which are fixed on the cylinder mounting plate 803;

a die pressing cylinder 804 is arranged on the cylinder mounting plate, and a die pressing cylinder push rod 802 arranged on the die pressing cylinder penetrates through the cylinder mounting plate to be fixed with a die pressing frame;

the die pressing frame is fixed on the lower part of the upper top plate of the hood 4 through a fixed vertical rod.

The specific principle of this application does: when the transfer printing film is used, the transfer printing film is placed on a discharging rolling shaft, and then the film is wound and stretched to a conveying shaft according to the specification, and is pulled to a material receiving guide shaft through a film pulling assembly to a material receiving shaft through the conveying shaft; when the transfer film is transferred, the film pulling motor drives the driving wheel to rotate, the driving wheel rotates to drive the transmission belt to rotate along with the driving wheel and the driven wheel, the film pulling plates arranged on the transmission belt move synchronously, when the film pulling plates move synchronously, the slide blocks move on the slide rails, the film pulling plates move to drive the vertical plates to move, and the film pulling cylinders drive the film pulling clamping jaws to be tensioned from two sides of the transfer film so as to pull the transfer film between the upper die assembly and the lower die assembly; after the transfer film is pulled to the set position, the film pulling cylinder drives the film pulling clamping jaw to open, and the film pulling motor rotates reversely to drive the film pulling plate to return to the original material pulling position for preparing the next material pulling. In the film drawing process, the material receiving motor drives the material receiving shaft to synchronously rotate, and the waste materials are wound. Before transfer printing, the power supply and the heating wires are switched on, the upper mold frame body is preheated after the heating wires are switched on, and after the upper mold frame body is preheated to a set temperature, film coating can be carried out. During the tectorial membrane, place the shoes on the lower mould sucking disc, go up the die frame body and move down under the effect of moulding-die cylinder, will the rendition membrane is pressed on the die frame body down and is compressed tightly, goes up the die frame body and moves down under the effect of last cylinder for it heats the rendition membrane to go up the upper portion that the die frame body is located last die frame body, and after the heating finishes, the automatically controlled valve on the vacuum pump opens, inhales the vacuum with the lower mould sucking disc in the twinkling of an eye through the pipe, adsorbs the rendition membrane tightly on shoes, thereby reaches the heat-transfer effect. After the transfer printing is finished, the material receiving motor drives the material receiving shaft to rotate, the waste materials are wound, and the film pulling mechanism pulls the film synchronously while winding. Meanwhile, the upper cylinder drives the upper die frame body to move upwards to the initial position, and the die pressing cylinder drives the upper die frame body to move upwards to the initial position and then return to the initial position.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. A vacuum transfer machine, characterized by comprising:

the upper surface of the box body is used as a transfer printing platform;

the left side of the upper portion of the transfer printing platform is provided with a discharging roller shaft, the transfer printing film is placed on the discharging roller shaft, a conveying shaft is arranged on the right side of the discharging roller shaft, a film drawing mechanism is arranged at the rear end of the conveying shaft, a lower die assembly is arranged at the bottom of the film drawing mechanism, an upper die assembly is arranged on the upper portion of the film drawing mechanism, a pressing assembly is arranged on the lower portion of the upper die assembly, a material collecting guide shaft is arranged on the right side of the film drawing mechanism, and a material collecting shaft is arranged on the right side of the material collecting guide shaft.

2. The vacuum transfer machine according to claim 1, wherein said film drawing mechanism comprises:

the film-drawing mechanism comprises a support frame body arranged on the upper portion of a transfer printing platform, a lower pressing die frame body is arranged on the upper portion of the support frame body, a group of guide rails are arranged on the support frame body along the running direction of a printing film, and a film-drawing driving assembly is arranged along one side of the guide rail.

3. The vacuum transfer machine according to claim 2, wherein said film drawing driving assembly comprises:

a film drawing motor is arranged at one end of the supporting frame body, a driving wheel is arranged on a motor shaft of the film drawing motor, a driven wheel is arranged at the other end of the supporting frame body along the arrangement direction of the guide rails, and a transmission belt is arranged on the driving wheel and the driven wheel; a film drawing plate is arranged on the transmission belt, a group of sliding blocks are arranged on the film drawing plate, and the sliding blocks are correspondingly matched and fixed with the guide rails;

a vertical plate is fixed on the left side face of the film drawing plate, a film drawing cylinder is arranged on the upper portion of the vertical plate, and a film drawing clamping jaw is arranged on the film drawing cylinder.

4. The vacuum transfer machine according to claim 1, wherein said lower mold die assembly comprises:

the upper part of the lower die platform is provided with a lower die sucker, the interior of the lower die sucker is hollow, a plurality of groups of suction holes are uniformly formed in the upper part of the lower die sucker, and the suction holes are communicated with the hollow part;

supporting columns are arranged at four corners of the bottom of the lower die platform, and a group of lower cylinders are arranged among the supporting columns; a guide pipe is arranged in the middle of the lower die platform, the top end of the guide pipe is connected with the lower die sucker and extends into the hollow part in the lower die sucker, the lower part of the guide pipe is connected to a vacuum pump, and an electric control valve is arranged at the connection part of the vacuum pump and the guide pipe;

and a shaft hole is formed at the joint of the guide pipe and the lower die platform.

5. The vacuum transfer machine according to claim 1, wherein a hood is provided at an upper portion of said transfer table, and an upper portion of the upper mold assembly is fixed to the hood;

go up mould subassembly includes:

the guide shaft sleeve is arranged on the guide shaft and fixed at the top of the hood, and the guide shaft is positioned in the guide shaft sleeve;

the device comprises a group of fixed beams which are arranged in parallel, wherein each fixed beam is fixed at the bottom of a group of guide shafts correspondingly, an air cylinder fixing plate is arranged between the two fixed beams, an air cylinder push rod of an upper air cylinder is fixed on the air cylinder fixing plate, the upper air cylinder is fixed on the upper part of a hood through an air cylinder fixing seat, a through hole is formed in the hood, and the air cylinder push rod is positioned in the through hole;

fixed rods are respectively arranged along two sides of each fixed beam, and the lower parts of the fixed rods are connected to the upper die body through adapter pieces;

the upper die body is an upper die frame body with an opening at the lower part, a heating wire is arranged in the upper die frame body, and the upper die frame body is heated after the heating wire is powered on.

6. The vacuum transfer machine according to claim 1, wherein the die assembly comprises:

the upper die pressing frame body is arranged corresponding to the lower die pressing frame body;

the upper die frame body is arranged at the lower part of the die frame, and a group of die driving components are arranged at the upper part of the die frame.

7. The vacuum transfer machine according to claim 6, wherein said die drive assembly comprises:

the pressing die guide rods are arranged at the upper part of the pressing die frame and sleeved in pressing die guide rod sleeves which are fixed on the cylinder mounting plate;

a pressing die cylinder is arranged on the cylinder mounting plate, and a pressing die cylinder push rod arranged on the pressing die cylinder penetrates through the cylinder mounting plate to be fixed with a pressing die frame;

the die pressing frame is fixed on the lower part of the upper top plate of the machine cover through a fixing vertical rod.

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