CN201544519U - Heat transfer machine with dual transfer devices - Google Patents

Abstract

A heat transfer machine with dual transfer devices comprises a machine and two transfer devices, wherein the machine is provided with a plurality of mold carriages, each transfer device is arranged in a space at the top edge of the machine via a framework, and the framework is provided with a displacement device used for driving the transfer devices to displace in a reciprocating form. The heat transfer machine has the advantages of realizing continuous work by utilizing the transfer devices to alternatively actuate interactive hot stamping operation and then increasing efficiency of the heat transfer machine.

Description

Heat transfer machine with two transfer devices

Technical field

The utility model relates to a kind of heat transfer machine, refers to a kind of more efficient heat transfer machine that carries out of hot transfer process that makes especially.

Background technology

Hot transfer technique is a kind of process for treating surface, and it can will have the glued membrane of various pattern, with blanching seal means, makes glued membrane be covered on article surface by PUR, improves the article surcharge according to this, or prolongs article service life.

Existing heat transfer machine mainly comprises a board, one transfer device, one air extractor and at least one pressing device, wherein, this board apical margin is provided with a plurality of mould microscope carriers, the location is provided with machining object and transfer printing adhesive film according to this, and this board is provided with drive unit and drives this microscope carrier displacement, but this transfer device comprises an imprint head that adds a thermotectonics and a upper and lower displacement, this imprint head is located at this place, board apical margin space, in view of the above, when this microscope carrier carries machining object and transfer printing adhesive film and is moved to this place, imprint head below, this imprint head descends and carries out the blanching seal, by this this transfer printing adhesive film is covered on the machining object surface, this pressing device is located at this place, board apical margin space, and adjacent with this transfer device, after the blanching seal is finished, closely connected transfer printing adhesive film in the machining object surface is pressurizeed by this pressing device, improve the bond strength of transfer printing adhesive film and machining object, promptly accuse and finish hot transfer printing operation.

Moreover, the board form of existing heat transfer machine, can generally be divided into in-line arrangement and circulating two classes, wherein, heat transfer machine with in-line arrangement board, the two ends of its board are respectively equipped with a microscope carrier, and these heat transfer machines have the both sides that two pressing devices are located at transfer device respectively, in view of the above, microscope carrier is shift reciprocately between board one end and transfer device, carries out the blanching seal and overlays processing procedure, when microscope carrier is moved to the board outer end, then can carry out the handling operation of machining object and transfer printing adhesive film, according to making two microscope carriers that are divided into in-line arrangement board two ends, the blanching that hockets in regular turn seal and overlay processing procedure; Heat transfer machine with circulating board then is provided with several microscope carriers, and each microscope carrier is along board cyclic shift in regular turn, and in by transfer device and pressing device the time, carries out the blanching seal and overlay processing procedure.

After transfer device is carried out the operation of blanching seal, the temperature of imprint head will descend owing to the heat exchange effect, must be by adding thermotectonics heating imprint head, make its intensification return back to processing temperature, the imprint head beginning can be carried out follow-up blanching seal operation, still, the process need of these heat make-up heat energy expends time in, because transfer device need be waited for the temperature recovery of imprint head, can't carry out the operation of blanching seal continuously, influence the efficient of heat transfer machine.

In view of this, this case creator bets mental and physical efforts then, constantly concentrates on studies, improves and test, and have this creation of innovating and being rich in industrial value to produce eventually.

The utility model content

The utility model main purpose is to provide a kind of heat transfer machine with two transfer devices, and it prints operation by the formation of two groups of transfer devices and can carry out blanching alternately, operate according to making heat transfer machine carry out the blanching seal continuously, thus the efficient of raising heat transfer machine.

For achieving the above object, the utility model is by the following technical solutions:

A kind of heat transfer machine with two transfer devices, it comprises:

One board and two transfer devices, wherein, this board is provided with several mould microscope carriers;

This each transfer device mat one frame is located at this place, board apical margin space, and this frame is provided with gearshift, drives this each transfer device shift reciprocately according to this.

Wherein, this gearshift comprises two slide rails, a driving screw and a motor, this each transfer device is respectively equipped with slide block in both sides, this each slide rail this frame of being located at parallel to each other, this each slide rail apical margin is located at by this slide block work respectively in these each transfer device both sides, this driving screw spiral shell is worn the slide block of this transfer device one side, and this this driving screw of motor interlock back and forth rotates, and drives the long axis direction shift reciprocately of this transfer device along this slide rail according to this.

Wherein, this slide block is the root edge place, both sides that is located at this transfer device.

Wherein, this board is to be circulating board, according to making this microscope carrier carry out cyclic shift along the formed circulation of this board.

It more comprises a pressing device, and wherein, this pressing device is located at this place, board apical margin space.

Wherein, this board is to be the in-line arrangement board, and this board is provided with the two molds microscope carrier, according to making this each microscope carrier respectively at mutual shift reciprocately between these board two ends and the stage casing.

It more comprises two pressing devices, and wherein, this pressing device is located at this place, board apical margin space.

The beneficial effects of the utility model are: carry out the operation of blanching seal alternately by transfer device and realize continuous operation, thereby improve the efficient of heat transfer machine.

The utility model is described in further detail below by accompanying drawing.

Description of drawings

Fig. 1 is the front view of the utility model first embodiment.

Fig. 2 is the vertical view of the utility model first embodiment.

Fig. 3 is the right side view of the utility model first embodiment.

Fig. 4 is the partial enlarged view of Fig. 1.

Fig. 5 is the vertical view of the utility model first embodiment transfer device actuator state.

Fig. 6 is the vertical view of the utility model second embodiment.

[primary clustering symbol description]

Board 11

First transfer device, 12 second transfer devices 13

Pressing device 14 mould microscope carriers 15 frames 16

Gearshift 17 slide rails 172 driving screws 174

Motor 176 slide blocks 178

Board 21

First transfer device, 22 second transfer devices 23

Pressing device 24 mould microscope carriers 25 frames 26

The specific embodiment

A kind of first embodiment with heat transfer machine of two transfer devices of the utility model is the enforcement sample attitude with circulating board; As shown in Figure 1 to Figure 3, the utility model first embodiment, comprise a board 11, one first transfer device 12, one second transfer device 13 and a pressing device 14, wherein, this board 11 is circulating board, this board 11 is provided with a plurality of mould microscope carriers 15, the location is provided with machining object and transfer printing adhesive film according to this, and these board 11 these microscope carriers 15 of driving of mat carry out cyclic shift along these board 11 formed circulations, with by this each transfer device 12,13 machining object and the transfer printing adhesive films that alternately this each microscope carrier 15 carried are carried out the blanching seal, make this transfer printing adhesive film be covered on the machining object surface, this pressing device 14 is located at this place, board 11 apical margin spaces, to closely connected transfer printing adhesive film pressurization, improve the bond strength of transfer printing adhesive film and machining object in view of the above in the machining object surface.

This each transfer device 12,13 mats, one frame 16 is set up in this place, board 11 apical margin spaces, this frame 16 is provided with gearshift 17, this gearshift 17 of mat drives this each transfer device 12,13 shift reciprocatelies, make this each transfer device 12,13 interleaved bits move to this board 11 superjacent air space places, mould microscope carrier 15 is carried the machining object and the transfer printing adhesive film that are moved to its below carry out the blanching seal, as shown in Figure 4, this gearshift 17 comprises two slide rails 172, one driving screw 174 and a motor 176, wherein, this each transfer device 12,13 are respectively equipped with slide block 178 in the both sides root edge, these each slide rail 172 this frames 16 of being located at parallel to each other, this each transfer device 12, live by this slide block 178 respectively and be located at this each slide rail 172 apical margins in 13 both sides, these driving screw 174 spiral shells are worn this transfer device 12, this slide block 178 of 13 1 sides, this motor 176 drives this driving screw 174 and back and forth rotates, according to making this motor 176 drive this transfer device 12,13 long axis direction shift reciprocatelies along this slide rail 172, for this each transfer device 12,13 mutual execution blanching seal operations are to improve the efficient of heat transfer machine.

When this first transfer device 12 is positioned at this places, board 11 apical margin spaces (as shown in Figure 2), when one microscope carrier 15 carries machining object and transfer printing adhesive film and is moved to these first transfer device, 12 root edge places, machining object that 12 pairs of these microscope carriers 15 of this first transfer device are carried and transfer printing adhesive film are carried out the operation of blanching seal, after treating that the operation of blanching seal is finished, motor 176 starts of this gearshift 17, drive this each transfer device 12 by this driving screw 174,13 along these slide rail 172 displacements, make this first transfer device 12 leave this place, board 11 apical margin spaces, this second transfer device 13 then is moved to this places, board 11 apical margin spaces (as shown in Figure 5), cooperating this board 11 to drive microscope carrier 15 displacements, the machining object of finishing the blanching seal overlays operation along with this microscope carrier 15 is moved to these pressing device 14 root edges, and another microscope carrier 15 carries machining object and transfer printing adhesive film and is moved to these second transfer device, 13 root edge places and carries out the operation of blanching seal, this first transfer device 12 then heats its imprint head, make its intensification return back to processing temperature, after treating that this second transfer device 13 is finished the operation of blanching seal, these motor 176 antiports, make this second transfer device 13 leave this board 11 apical margin spaces, this first transfer device 12 is moved to this places, board 11 apical margin spaces (as shown in Figure 2) once more, in order to carrying out the operation of the seal of blanching next time, this second transfer device 13 of finishing the operation of blanching seal then heats its imprint head, makes its intensification return back to processing temperature.

Hence one can see that, the utility model first embodiment is by two groups of transfer devices 12,13 formation, make this each transfer device 12,13 mutual execution blanching seal operations, when this first transfer device 12 carries out the operation of blanching seal, the heat energy that 13 of this second transfer devices carry out imprint head replenishes, when this second transfer device 13 carries out the operation of blanching seal, the heat energy that 12 of this first transfer devices carry out imprint head replenishes, after the operation of a blanching of every execution seal is carried out, heat transfer machine does not need to expend time in and waits for the imprint head temperature recovery of transfer device, can carry out the operation of blanching seal continuously, thereby improve the efficient of heat transfer machine.

Moreover, constituting motor, the driving screw of this gearshift 17, also can select to change with the oil pressure actuated transposition of structures, these displacements are according to constructed means, are easier to expect.

The utility model second embodiment is changed and is got by first embodiment, and it is the embodiment with in-line arrangement board, and second embodiment and the identical part of aforementioned first embodiment do not repeat to give unnecessary details for this reason; As shown in Figure 6, the utility model second embodiment, comprise a board 21, one first transfer device 22, one second transfer device 23 and two pressing devices 24, wherein, this board 21 is to be the in-line arrangement board, this board 21 is provided with two molds microscope carrier 25, the location is provided with machining object and transfer printing adhesive film according to this, and this board 21 of mat drives this each microscope carrier 25 along this board 21, respectively at mutual shift reciprocately between these board 21 two ends and the stage casing, alternately machining object and transfer printing adhesive film that this each microscope carrier 25 is carried are carried out the blanching seal by this each transfer device 22,23.

This each transfer device 22,23 mats one frame 26 is set up in this place, board 21 apical margin spaces, this frame 26 is provided with the gearshift (not shown), this gearshift is identical with aforementioned first embodiment, use and drive these each transfer device 22,23 shift reciprocatelies, make these each transfer device 22,23 interleaved bits move to this board 21 superjacent air space places, mould microscope carrier 25 is carried the machining object and the transfer printing adhesive film that are moved to its below carry out the blanching seal, operate according to making heat transfer machine carry out the blanching seal continuously, thus the efficient of raising heat transfer machine.

In sum, the utility model is an initiative, is satisfied intended purposes and effect is good after tested, and has industrial utilization, and does not see have identical or approximate patent to be known in generation before the application, meets the application requirement, so file an application in this.

Claims (7)

1. heat transfer machine with two transfer devices is characterized in that it comprises:

One board and two transfer devices, wherein, this board is provided with several mould microscope carriers;

This each transfer device mat one frame is located at this place, board apical margin space, and this frame is provided with gearshift, drives this each transfer device shift reciprocately according to this.

2. the heat transfer machine with two transfer devices as claimed in claim 1, it is characterized in that, wherein, this gearshift comprises two slide rails, a driving screw and a motor, this each transfer device is respectively equipped with slide block in both sides, this each slide rail this frame of being located at parallel to each other, this each slide rail apical margin is located at by this slide block work respectively in these each transfer device both sides, this driving screw spiral shell is worn the slide block of this transfer device one side, this this driving screw of motor interlock back and forth rotates, and drives the long axis direction shift reciprocately of this transfer device along this slide rail according to this.

3. the heat transfer machine with two transfer devices as claimed in claim 2 is characterized in that, wherein, this slide block is the root edge place, both sides that is located at this transfer device.

4. have the heat transfer machine of two transfer devices according to claim 1, it is characterized in that, wherein, this board is to be circulating board, according to making this microscope carrier carry out cyclic shift along the formed circulation of this board.

5. as having the heat transfer machine of two transfer devices as described in the claim 4, it is characterized in that it more comprises a pressing device, wherein, this pressing device is located at this place, board apical margin space.

6. the heat transfer machine with two transfer devices as claimed in claim 1 or 2 is characterized in that, wherein, this board is to be the in-line arrangement board, and this board is provided with the two molds microscope carrier, according to making this each microscope carrier respectively at mutual shift reciprocately between these board two ends and the stage casing.

7. the heat transfer machine with two transfer devices as claimed in claim 6 is characterized in that it more comprises two pressing devices, and wherein, this pressing device is located at this place, board apical margin space.

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