CN211138507U - Pad printing heat transfer machine - Google Patents

Abstract

The utility model discloses a pad printing heat transfer machine, include the frame, control panel, two glue heads, glue head rotary mechanism, glue head heating mechanism, workstation, put the membrane frame and receive the membrane frame, control the panel and set up in the frame top through the mounting panel, it sets up respectively in the frame both sides to put the membrane frame, receive the membrane frame, glue head rotary mechanism sets up in the middle of the frame, two glue heads are through setting up in the bottom of gluing head rotary mechanism both ends, glue head heating mechanism, workstation and set up in the frame and lie in respectively under two glue heads; the heater constant temperature heating directly conducts heat to gluey first surface, glues first surface and is difficult for droing, need not frequent change life cycle, and excellent in use effect use cost is low, and two gluey first machining efficiency are high, and rate of equipment utilization is high equipment cost is low, glues even complete radian big on first surface heating, and the good yields of product surface roughness is high.

Description

Pad printing heat transfer machine

Technical Field

The utility model belongs to rendition equipment field, in particular to rendition is efficient, effectual bat printing heat transfer machine.

Background

It is very extensive that bat printing heat transfer machine uses in the rendition printing, it adopts the board that generates heat to generate heat for current transfer machine, the board that generates heat with glue the head installation together, it lasts incessantly to be heated to glue the head, adopt a head rendition of gluing in addition, this kind of board that generates heat and glue the head together and the equipment of single head processing can satisfy certain user demand, but also there is great defect, it is easy for the surface to drop to glue the head continuous heating, need frequently to change and glue the head, the life cycle is short, the result of use is poor, high use cost, the board heat conduction that generates heat needs to pass whole gluey head for gluing the head surface, heat transfer waits for heating time slowly, single head operating efficiency is low, equipment utilization rate is low equipment cost, it is little to glue its crooked radian that the head surface is heated inhomogeneous, the product surface roughness of rendition is poor.

The to-be-solved technical problem of the utility model is to provide a glue head need not to last heating surface and be difficult for droing, need not frequently to change life cycle long, excellent in use effect use cost low, direct heat transfer to glue that first surface heat transfer waits for the heating time short fast, two glue first efficient, the high equipment cost of rate of equipment is low, glue that first surface is heated evenly complete radian big, the good yields of product surface roughness bat printing heat transfer machine.

SUMMERY OF THE UTILITY MODEL

Glue the head and continuously heat easy surface and drop, need frequently to change and glue head, life cycle weak point, result of use poor, use cost high for solving above-mentioned prior art, generate heat the board heat conduction for glue the head surface need pass whole glue head, heat transfer wait for heating time long slowly, single glue head operating efficiency low, equipment utilization rate low equipment cost high, glue that head surface is heated inhomogeneous its bending radian little, the product surface roughness of rendition is poor, the product yields low scheduling problem, the utility model discloses a following technical scheme:

the utility model provides a bat printing heat-transfer machine, glue head, glue first rotary mechanism, glue first heating mechanism, workstation, put the membrane frame and receive the membrane frame including the frame, control panel, two, control the panel and pass through the mounting panel setting in the frame top, it sets up respectively in the frame both sides to put the membrane frame, receive the membrane frame, it sets up in the frame centre department to glue first rotary mechanism, two are glued first through setting up in gluing first rotary mechanism both ends bottom, it all sets up in the frame and is located two respectively and glues under the head to glue first heating mechanism, workstation.

As right the utility model discloses an it is right to be said, it includes step motor, decollator, a pair of first lift cylinder of gluing and a pair of first fine setting cylinder of gluing to glue first rotary mechanism, step motor sets up in the frame lower part, the decollator sets up in the frame top and is connected with the step motor transmission through connecting the rotation axis, glue first lift cylinder, glue first fine setting cylinder and correspond the setting respectively in the decollator and all with glue first swing joint.

As right the utility model discloses a further improvement, it is including the built-in heater, temperature controller and the infrared temperature probe that have the heating pipe to glue first heating mechanism, the temperature controller locate in the heater and with infrared temperature probe signal intercommunication, infrared temperature probe passes through the fixed bolster setting in the frame and the front end extends to the heater upper surface.

As a further improvement, the bottom of the workbench is provided with a lifting adjusting component.

As a further improvement, the film frame is provided with a front and back adjusting component.

The beneficial effects of the utility model reside in that: the heater constant temperature heating directly conducts heat to gluey first surface, glues first surface and is difficult for droing, need not frequent change life cycle, and excellent in use effect use cost is low, and two gluey first machining efficiency are high, and rate of equipment utilization is high equipment cost is low, glues even complete radian big on first surface heating, and the good yields of product surface roughness is high.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic view of the structure of the present invention.

Fig. 3 is a left side view structure diagram of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 3, a pad printing heat transfer printing machine includes a frame 1, a control panel 2, two glue heads 3, a glue head rotating mechanism 4, a glue head heating mechanism 5, a workbench 6, a film placing frame 7 and a film collecting frame 8, wherein the control panel 2 is disposed above the frame 1 through a mounting plate, the film placing frame 7 and the film collecting frame 8 are respectively disposed at two sides of the frame 1, the glue head rotating mechanism 4 is disposed at the center of the frame 1, the two glue heads 3 are disposed at the bottoms of two ends of the glue head rotating mechanism 4, the glue head heating mechanism 5 and the workbench 6 are both disposed on the frame 1 and respectively located under the two glue heads 3, one of the glue heads is heated first, the heated glue head rotating mechanism transfers the heated glue head to the workbench, and the other glue head is transferred to the glue head heating mechanism for heating and waiting, and pulls out from the film placing frame and transfers a transfer printing pattern to the product of the transfer printing film workbench, another head of rendition membrane is drawn to and is received on the membrane frame, and the good membrane of rendition can be received away automatically like this, and the work of the first work of gluing is accomplished the back, glues first rotary mechanism action and again two and glue first positions and exchange, can incessant rendition like this, very big saving heating latency, improve machining efficiency greatly.

The utility model discloses in, it includes step motor 41, decollator 42, a pair of first lift cylinder 43 of gluing and a pair of first fine setting cylinder 44 of gluing to glue first rotary mechanism 4, step motor 41 sets up in frame 1 lower part, decollator 42 sets up in frame 1 top and is connected with step motor 41 transmission through connecting rotation axis 45, glue first lift cylinder 43, glue first fine setting cylinder 44 and correspond the setting respectively in decollator 42 and all with glue first 3 swing joint, step motor guarantees that at every turn rotatory only rotates the half-turn, targets in place more accurately, and the processing position of gluing the head can adjust earlier by a wide margin fine setting again, and it is more convenient to adjust.

The utility model discloses in, glue first heating mechanism 5 including built-in heater 51, the temperature controller (invisible in the picture) and the infrared temperature probe 52 that have the heating pipe, the temperature controller locate in the heater 51 and with infrared temperature probe 52 signal intercommunication, infrared temperature probe 52 sets up in frame 1 through fixed bolster 53 and the front end extends to heater 51 upper surface, the temperature of infrared temperature probe real-time detection heater, and the temperature controller guarantees that the heater is in constant temperature heat transfer simultaneously, improves greatly and glues first time of being heated, saves latency.

The utility model discloses in, 6 bottoms of workstation are provided with lift adjustment subassembly 61, can freely adjust the workstation height through adjusting part, adapt to different product demands, and the rendition effect is better, and it is more convenient to use.

The utility model discloses in, put and all be equipped with front and back adjusting part 9 on membrane frame 7, the receipts membrane frame 8.

The beneficial effects of the utility model reside in that: the heater constant temperature heating directly conducts heat to gluey first surface, glues first surface and is difficult for droing, need not frequent change life cycle, and excellent in use effect use cost is low, and two gluey first machining efficiency are high, and rate of equipment utilization is high equipment cost is low, glues even complete radian big on first surface heating, and the good yields of product surface roughness is high.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (5)

1. A pad printing heat transfer machine characterized by: including frame (1), control panel (2), two glue head (3), glue first rotary mechanism (4), glue first heating mechanism (5), workstation (6), put membrane frame (7) and receive membrane frame (8), control panel (2) and set up in frame (1) top through the mounting panel, put membrane frame (7), receive membrane frame (8) and set up respectively in frame (1) both sides, it sets up in frame (1) centre department to glue first rotary mechanism (4), two glue head (3) through setting up in gluey first rotary mechanism (4) both ends bottom, it all sets up in frame (1) and is located two respectively and glues under head (3) to glue first heating mechanism (5), workstation (6).

2. The pad printing thermal transfer printer of claim 1, wherein: the glue head rotating mechanism (4) comprises a stepping motor (41), a divider (42), a pair of glue head lifting cylinders (43) and a pair of glue head fine-tuning cylinders (44), wherein the stepping motor (41) is arranged at the lower part of the rack (1), the divider (42) is arranged above the rack (1) and is in transmission connection with the stepping motor (41) through a connecting rotating shaft (45), and the glue head lifting cylinders (43) and the glue head fine-tuning cylinders (44) are respectively and correspondingly arranged in the divider (42) and are both movably connected with the glue heads (3).

3. The pad printing thermal transfer printer of claim 1, wherein: glue first heating mechanism (5) including built-in heater (51), temperature controller and the infrared temperature probe (52) that have the heating pipe, the temperature controller is located in heater (51) and with infrared temperature probe (52) signal intercommunication, infrared temperature probe (52) set up on frame (1) through fixed bolster (53) and the front end extends to heater (51) upper surface.

4. The pad printing thermal transfer printer of claim 1, wherein: and a lifting adjusting component (61) is arranged at the bottom of the workbench (6).

5. The pad printing thermal transfer printer of claim 1, wherein: the film releasing frame (7) and the film collecting frame (8) are respectively provided with a front and back adjusting component (9).

Images