CN105034563A - Vacuum heat transfer printer for single-surface door leaf - Google Patents

Abstract

The invention discloses a vacuum heat transfer printer for a single-surface door leaf. The vacuum heat transfer printer comprises a printer body frame. The vacuum heat transfer printer is characterized in that an air cylinder is arranged on the printer body frame; a heating chamber is fixedly connected to the lower end of a push rod of the air cylinder; a vacuum negative-pressure system and an air inlet and vent valve connected with the vacuum negative-pressure system are mounted at the lower end of the printer body frame; guide rails are respectively arranged on the left side and the right side of the printer body frame; a sealing chamber is mounted on each guide rail; one end of one vacuum air guide tube is communicated with each sealing chamber, and the other end of each vacuum air guide tube is communicated with the vacuum negative-pressure system; a travel switch is arranged on the side of the printer body frame and is matched with a travel switch triggering block arranged on the side of the sealing chamber; the air cylinder is connected with an air-source treating device; the air-source treating device and the travel switch are both connected with a control system on the printer body frame. Through the adoption of the transfer printer disclosed by the invention, the transfer printing effect of door leaves is good, and the transfer printing operation is easy, so that not only is transfer printing effect improved, but also the transfer printing efficiency is improved.

Description

One side door leaf vacuum heat transfer machine

Technical field

The invention belongs to a kind of door industry transfer device, relate to a kind of one side door leaf vacuum heat transfer machine concretely.

Background technology

Transfer paper is all utilized to carry out the technology of transfer printing wood grain to door leaf in prior art; Present technology only uses monolayer silicon offset plate on the surface of object, and poor air permeability, can not be close to body surface, pattern transferring weak effect and efficiency low, transfer printing carrier be transferred object and be difficult to peel off, and need professional human users during transfer printing, complicated operation, is unfavorable for producing in enormous quantities.

Summary of the invention

In view of there is above problem, the invention provides a kind of one side door leaf vacuum heat transfer machine, there is structure simple, flexible operation and good transferring effect and the high feature of transfer efficiency.

A kind of one side door leaf vacuum heat transfer machine, comprise organism frame, it is characterized in that: above organism frame, be provided with cylinder, heating cabinet is fixedly connected with in the push rod lower end of cylinder, the air inlet and exhaust valve that described organism frame lower end is provided with negative pressure of vacuum system and is connected with negative pressure of vacuum system, the organism frame left and right sides is provided with guide rail, described guide rail is provided with gas-tight silo, vacuum wireway one end is communicated with gas-tight silo, the other end and negative pressure of vacuum system connectivity, organism frame side is provided with travel switch, the travel switch triggering block that itself and gas-tight silo side are arranged matches, described cylinder is connected with air-source treater, described air-source treater and travel switch are all connected with the magnetic valve on organism frame.The advantage of the technical program is exactly by will the door leaf of transfer printing be needed to put in gas-tight silo, then cover transfer paper and on transfer paper, cover silica gel sealing film, vacuum wireway is utilized to carry out vacuumizing, under these circumstances, be vacuum state in gas-tight silo, transfer paper is well-proportioned to be fitted on door leaf, then gas-tight silo is advanced in heating cabinet, travel switch triggering block and the effect of travel switch contact guidance magnetic valve of gas-tight silo cause air-source treater to carry out work, promote cylinder priming heating cabinet is moved down, the time relay of the adjustment controlled through the heat time the heat time to after make air-source treater work allow heating cabinet rise under effect at magnetic valve, haul out gas-tight silo, then allow the gas-tight silo on opposite side slide rail enter and carry out transfer printing next time.

Further: on described heating bulkhead, also wall to be provided with temperature sensor, in heating bulkhead, be provided with heat-insulation layer, the heater of heating cabinet is quartz heating-pipe, and quartz heating-pipe is connected with power supply, and described temperature sensor is connected with temperature controller.The advantage of the technical program to keep the temperature in heating cabinet to be unlikely to decline too fast, and be the accumulation of heat of next round heating transfer, reduce thermal loss and also save the energy, temperature keeps constant temperature to utilize temperature sensor to ensure, is conducive to transferring effect.

Further: bottom gas-tight silo, to be provided with silica gel foaming liner plate, gas-tight silo exterior base is provided with pulley and matches with slide rail.The structure of the technical program is simple, and not fragile door leaf is convenient to hydrodynamic reciprocating sealing storehouse simultaneously.

Further: also to comprise the time relay be arranged on organism frame, the described time relay is connected with magnetic valve.Utilize the time relay can well control heat time and automatic lifting heating cabinet, ensure that transferring effect is also consistent.

beneficial effect

The invention has the beneficial effects as follows: by using the transfer interpreter of this structure, making the good transferring effect of door leaf and easy to operate, while improve transferring effect, also improve transfer efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of one side door leaf vacuum heat transfer machine of the present invention,

Fig. 2 is the structural representation of one side door leaf transfer interpreter heating cabinet of the present invention and gas-tight silo.

Detailed description of the invention

As one embodiment of the present invention, as Fig. 1, shown in 2, one one kinds of one side door leaf vacuum heat transfer machines, comprise organism frame 7, it is characterized in that: above organism frame, be provided with cylinder 8, heating cabinet 10 is fixedly connected with in the push rod lower end of cylinder, the air inlet and exhaust valve 13 being provided with negative pressure of vacuum system 16 in described organism frame lower end and being connected with negative pressure of vacuum system, the organism frame left and right sides is provided with guide rail 2, described guide rail is provided with gas-tight silo 12, vacuum wireway 11 one end is communicated with gas-tight silo 12, the other end is communicated with negative pressure of vacuum system 16, organism frame side is provided with travel switch 14, the travel switch triggering block 23 that itself and gas-tight silo side are arranged matches, described cylinder 8 is connected with air-source treater 3, described air-source treater 3 and travel switch are all connected with the control system 9 on organism frame, negative pressure of vacuum system is connected with air inlet and exhaust valve by vacuum controller 15, for controlling vacuum state, the advantage of the technical program is exactly by will the door leaf of transfer printing be needed to put in gas-tight silo, then transfer paper 21 is covered, again silica gel sealing film 20 is covered on transfer paper, vacuum wireway is utilized to carry out vacuumizing, under these circumstances, be vacuum state in gas-tight silo, transfer paper is well-proportioned to be fitted on door leaf, then gas-tight silo is advanced in heating cabinet, travel switch triggering block and the effect of travel switch contact guidance magnetic valve of gas-tight silo cause air-source treater to carry out work, promote cylinder priming heating cabinet is moved down, the time relay of the adjustment controlled through the heat time the heat time to after make air-source treater work allow heating cabinet rise under effect at magnetic valve, haul out gas-tight silo, then allow the gas-tight silo on opposite side slide rail enter and carry out transfer printing next time.

In the present embodiment: also wall is provided with temperature sensor 17 on described heating bulkhead, heat-insulation layer 18 is provided with in heating bulkhead, described heat-insulation layer is alumina silicate felt heat-insulation layer, the heater of heating cabinet is quartz heating-pipe 19, quartz heating-pipe is connected with power supply, and described temperature sensor is connected with the magnetic valve of control system.The advantage of the technical program to keep the temperature in heating cabinet to be unlikely to decline too fast, and be the accumulation of heat of next round heating transfer, reduce thermal loss and also save the energy, temperature keeps constant temperature to utilize temperature sensor to ensure, is conducive to transferring effect.

In the present embodiment: be provided with silica gel foaming liner plate 22 bottom gas-tight silo, gas-tight silo exterior base is provided with pulley 1 and matches with slide rail 2.The structure of the technical program is simple, and not fragile door leaf is convenient to hydrodynamic reciprocating sealing storehouse simultaneously.

In the present embodiment: described control system comprises the time relay 6, the described time relay is connected with magnetic valve 4, and temperature sensor is connected with temperature controller 5.Utilize the time relay to control the heat time, ensure that transferring effect is also consistent.

Claims (4)

1. an one side door leaf vacuum heat transfer machine, comprise organism frame, it is characterized in that: above organism frame, be provided with cylinder, heating cabinet is fixedly connected with in the push rod lower end of cylinder, the air inlet and exhaust valve that described organism frame lower end is provided with negative pressure of vacuum system and is connected with negative pressure of vacuum system, the organism frame left and right sides is provided with guide rail, described guide rail is provided with gas-tight silo, vacuum wireway one end is communicated with gas-tight silo, the other end and negative pressure of vacuum system connectivity, organism frame side is provided with travel switch, the travel switch triggering block that itself and gas-tight silo side are arranged matches, described cylinder is connected with air-source treater, described air-source treater and travel switch are all connected with the magnetic valve on organism frame.

2. one side door leaf vacuum heat transfer machine according to claim 1, it is characterized in that: on described heating bulkhead, also wall is provided with temperature sensor, heat-insulation layer is provided with in heating bulkhead, the heater of heating cabinet is quartz heating-pipe, quartz heating-pipe is connected with power supply, and described temperature sensor is connected with temperature controller.

3. one side door leaf vacuum heat transfer machine according to claim 2, is characterized in that: bottom gas-tight silo, be provided with silica gel foaming liner plate, gas-tight silo exterior base is provided with pulley and matches with slide rail.

4. one side door leaf vacuum heat transfer machine according to claim 1, it is characterized in that: also comprise the time relay be arranged on organism frame, the described time relay is connected with magnetic valve.