CN105034562A - Door leaf vacuum thermal transfer printer - Google Patents
Door leaf vacuum thermal transfer printer Download PDFInfo
- Publication number
- CN105034562A CN105034562A CN201510220236.0A CN201510220236A CN105034562A CN 105034562 A CN105034562 A CN 105034562A CN 201510220236 A CN201510220236 A CN 201510220236A CN 105034562 A CN105034562 A CN 105034562A
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- vacuum
- slide rail
- sliding rail
- organism frame
- door leaf
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Abstract
The invention discloses a door leaf vacuum thermal transfer printer. The door leaf vacuum thermal transfer printer comprises a machine frame. An upper heating bin and a lower heating bin are arranged at the upper end and the lower end of the machine frame. The upper heating bin can move up and down. A sliding rail is arranged between the upper heating bin and the lower heating bin. The sliding rail penetrates the machine frame. The sliding rail is divided into a left section of sliding rail, a middle section of sliding rail and a right section of sliding rail. Lifting mechanisms are arranged at the positions, right opposite to the heating bins, of the middle section of sliding rail. The left section of sliding rail and the right section of sliding rail are provided with sealing bins. Sliding wheels matched with the sliding rail are arranged at the bottoms of the sealing bins. Trigger blocks are arranged on the side faces of the sealing bins and matched with a travel switch arranged on the machine frame. A vacuum pump connected with a vacuum buffering tank is arranged at the bottom of the machine frame. The sealing bins are communicated with the vacuum buffering tank through vacuum pipes. A vacuum controller is arranged between the vacuum buffering tank and the vacuum pipes. The machine frame is further provided with a time relay, and a gas source processor and the time relay are connected. The travel switch is connected with electromagnetic valves in a control system. The door leaf vacuum thermal transfer printer has the beneficial effects of being simple in structure, flexible in operation and good in transfer printing effect.
Description
Technical field
The invention belongs to a kind of door industry transfer device, relate to a kind of 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 object, poor air permeability, can not be close to body surface, and pattern transferring authenticity is poor, efficiency is low, transfer printing carrier be transferred object and be difficult to peel off, and need professional human users during transfer printing, complicated operation, simultaneously due to transfer printing can only be carried out to the one side of door leaf, result in transfer efficiency low, the problem that production cost increases, be unfavorable for producing in enormous quantities very much.
Summary of the invention
In view of there is above problem, the invention provides a kind of 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 door leaf vacuum heat transfer machine, comprise organism frame, it is characterized in that: organism frame upper end is provided with cylinder, described cylinder is connected with air-source treater, described cylinder push-rod lower end is fixedly connected with heating cabinet, lower heating cabinet is installed with on the downside of organism frame, organism frame is fixedly installed control system, described control system includes upper and lower heating cabinet temperature controller, slide rail is provided with between upper and lower heating cabinet, slide rail is through organism frame, described slide rail is divided into three sections, left, center, right slide rail, stage casing slide rail is positioned at the positive contraposition of heating cabinet and installs and be equipped with elevating mechanism, left and right section slide rail is provided with gas-tight silo, the pulley matched with slide rail is provided with bottom gas-tight silo, gas-tight silo side is provided with triggering block match with the travel switch be arranged on organism frame, the tank connected vavuum pump with vacuum buffer is provided with bottom organism frame, gas-tight silo is communicated with vacuum buffer tank by vacuum tube, vacuum controller is provided with between vacuum buffer tank and vacuum tube, also the time relay is provided with at organism frame, described air-source treater and time relay, travel switch is all connected with the magnetic valve in control system.
Further: described elevating mechanism comprises the spring base that lower end, slide rail side, stage casing is provided with the support spring be fixed on organism frame journal stirrup, and for supporting the supporting pin of stage casing slide rail, described spring housing is contained on supporting pin, spring one end is resisted against spring and takes, another is singly resisted against on the boss on supporting pin, also be provided with adjusting bolt in supporting seat side, adjusting bolt seat is fixed on the journal stirrup of organism frame, and the screw cap end of adjusting bolt is positioned on the adjusting bracket of stage casing guide rail setting; Described adjusting bolt is used for the pretightning force of regulating spring.
Further: on heating bulkhead, be also provided with temperature sensor, described temperature sensor is connected with the temperature controller in control system, and temperature controller is connected with the quartz heating-pipe being positioned at heating cabinet.
Further: bottom gas-tight silo, to be also provided with expanded sheet metal, described expanded sheet metal is fixed on the framework of gas-tight silo.
beneficial effect
The invention has the beneficial effects as follows: by using duplex transfer printing machine, 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 door leaf vacuum heat transfer machine of the present invention,
Fig. 2 is the structural representation of the present invention's two-sided door leaf transfer interpreter side view,
Fig. 3 is the structural representation of heating cabinet in the present invention,
Fig. 4 is the structural representation of slide rack elevator structure in stage casing in the present invention.
Detailed description of the invention
As one embodiment of the present invention, as Fig. 1, 2, shown in 3, a kind of door leaf vacuum heat transfer machine, comprise organism frame, it is characterized in that: organism frame upper end is provided with cylinder 4, described cylinder is connected with air-source treater 16, described cylinder push-rod lower end is fixedly connected with heating cabinet 14, lower heating cabinet 12 is installed with on the downside of organism frame, organism frame is fixedly installed control system, described control system includes upper and lower heating cabinet temperature controller 1, 3, slide rail 8 is provided with between upper and lower heating cabinet, slide rail is through organism frame, described slide rail is divided into three sections, left, center, right slide rail, stage casing slide rail is positioned at the positive contraposition of heating cabinet and installs and be equipped with elevating mechanism 11, left and right section slide rail is provided with gas-tight silo 7, the pulley 9 matched with slide rail 8 is provided with bottom gas-tight silo, be provided with triggering block 21 to match with the travel switch 6 be arranged on organism frame in gas-tight silo side, the vavuum pump 18 be connected with vacuum buffer tank 19 is provided with bottom organism frame, gas-tight silo is communicated with vacuum buffer tank by vacuum tube, vacuum controller 10 is provided with between vacuum buffer tank and vacuum tube, the time relay 2 is also provided with at organism frame, described air-source treater and the time relay, travel switch is all connected with the magnetic valve 17 in control system, and organism frame is also provided with the air inlet and exhaust valve 5 controlling air inlet, and described air inlet and exhaust valve is provided with two, handled easily.Shown gas-tight silo is provided with two, left and right, is separately positioned on the slide rail of left and right, and slide rail outer end, left and right is provided with the support bar supporting slide rail; Certain slide rail is provided with two and parallel, for supporting gas-tight silo.Slide rail is in using right gas-tight silo to be, left gas-tight silo prepares, and after right gas-tight silo transfer printing completes, then the right gas-tight silo of pull-out advances left gas-tight silo to carry out transfer printing, and cooperatively interact transfer printing, improves transfer efficiency
In the present embodiment: as shown in Figure 4, described elevating mechanism comprises the spring base that lower end, slide rail side, stage casing is provided with the support spring 24 be fixed on organism frame journal stirrup, and for supporting the supporting pin 23 of stage casing slide rail, described spring housing is contained on supporting pin, spring one end is resisted against spring and takes, another is singly resisted against on the boss on supporting pin, adjusting bolt 22 is also provided with in supporting seat side, adjusting bolt seat is fixed on the journal stirrup of organism frame, and the screw cap end of adjusting bolt is positioned on the adjusting bracket of stage casing guide rail setting; Described adjusting bolt is used for the pretightning force of regulating spring.
In the present embodiment: as shown in Figure 1,3, heating bulkhead is also provided with temperature sensor 25, and heating cabinet is provided with temperature sensor and is all connected with temperature controller up and down certainly; Temperature controller 1,3 in described temperature sensor and control system connects, and temperature controller is connected with the quartz heating-pipe 26 being positioned at heating cabinet, is provided with quartz heating-pipe 26 in upper and lower heating cabinet, heats when needs transfer printing.Quartz heating-pipe receives the control of temperature controller simultaneously, and according to the induction of temperature sensor, whether power-on needs quartz heating-pipe to heat to temperature controller.
In the present embodiment: be also provided with expanded sheet metal 30 bottom gas-tight silo, described expanded sheet metal is fixed on the framework of gas-tight silo.Described gas-tight silo is arrange one deck Silicon moulds on two square bearers that can close up in fact, after transfer paper and door leaf being put up, closes up the square frame being furnished with Silicon moulds and defines gas-tight silo.Certainly expanded sheet metal is also provided with for supporting door leaf in the Silicon moulds lower floor of the square frame of lower floor.
Operation principle:
According to technique needs, the temperature of transfer printing will be needed, time and negative pressure of vacuum set, being placed in gas-tight silo by transfer paper 28 is provided with on the expanded sheet metal 30 of Silicon moulds 27, again door leaf 29 is kept flat up, transfer paper 28 is put again on door leaf, namely placement one deck transfer paper in the top and bottom of door leaf, and then cover Silicon moulds 27, unlatching vacuum controller carries out vacuum to gas-tight silo and takes out pressure, transfer paper is adsorbed on door leaf by Silicon moulds by atmospheric pressure, this time, 6 faces of door leaf all covered transfer paper, then gas-tight silo is advanced heating cabinet, the triggering block of gas-tight silo is touched travel switch and is communicated with magnetic valve and starts air-source treater, cylinder starts action and promotes the descending upper heating cabinet of push rod of cylinder and lower heating cabinet carries out seal closure, the pressure giving stage casing slide rail one downward because upper heating cabinet is descending in this process, the spring of stage casing slide rail is compressed decline, upper heating cabinet and lower heating cabinet ability seal closure, heating cabinet carries out heating transfer, can to the transfer printing simultaneously of a face, 6 of door leaf, 6 faces comprise four sides that are positive and negative and door leaf, temperature in heating cabinet is passed to temperature controller by temperature sensor 25, for controlling the temperature in heating cabinet.After transfer time reaches the scheduled time, the time relay goes out solenoid valve, then magnetic valve touches the action of source of the gas process band dynamic air cylinder, cylinder makes push rod rise, in drive, heating cabinet is up, then stage casing slide rail returns under normal circumstances under the action of the spring, pull-out gas-tight silo, and advances opposite side gas-tight silo to carry out transfer printing.
Claims (4)
1. a door leaf vacuum heat transfer machine, comprise organism frame, it is characterized in that: organism frame upper end is provided with cylinder, described cylinder is connected with air-source treater, described cylinder push-rod lower end is fixedly connected with heating cabinet, lower heating cabinet is installed with on the downside of organism frame, organism frame is fixedly installed control system, described control system includes upper and lower heating cabinet temperature controller, slide rail is provided with between upper and lower heating cabinet, slide rail is through organism frame, described slide rail is divided into three sections, left, center, right slide rail, stage casing slide rail is positioned at heating cabinet and just position is provided with elevating mechanism, left and right section slide rail is provided with gas-tight silo, the pulley matched with slide rail is provided with bottom gas-tight silo, gas-tight silo side is provided with triggering block match with the travel switch be arranged on organism frame, the tank connected vavuum pump with vacuum buffer is provided with bottom organism frame, gas-tight silo is communicated with vacuum buffer tank by vacuum tube, vacuum controller is provided with between vacuum buffer tank and vacuum tube, also the time relay is provided with at organism frame, described air-source treater and the time relay, travel switch is all connected with the magnetic valve in control system.
2. door leaf vacuum heat transfer machine according to claim 1, it is characterized in that: described elevating mechanism comprises the spring base that lower end, slide rail side, stage casing is provided with the support spring be fixed on organism frame journal stirrup, and for supporting the supporting pin of stage casing slide rail, described spring housing is contained on supporting pin, spring one end is resisted against spring and takes, another is singly resisted against on the boss on supporting pin, also adjusting bolt is provided with in supporting seat side, adjusting bolt seat is fixed on the journal stirrup of organism frame, and the screw cap end of adjusting bolt is positioned on the adjusting bracket of stage casing guide rail setting; Described adjusting bolt is used for the pretightning force of regulating spring.
3. door leaf vacuum heat transfer machine according to claim 2, it is characterized in that: on heating bulkhead, be also provided with temperature sensor, described temperature sensor is connected with the temperature controller in control system, and temperature controller is connected with the quartz heating-pipe being positioned at heating cabinet.
4. door leaf vacuum heat transfer machine according to claim 3, is characterized in that: bottom gas-tight silo, be also provided with expanded sheet metal, and described expanded sheet metal is fixed on the framework of gas-tight silo.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510220236.0A CN105034562A (en) | 2015-05-04 | 2015-05-04 | Door leaf vacuum thermal transfer printer |
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CN201510220236.0A CN105034562A (en) | 2015-05-04 | 2015-05-04 | Door leaf vacuum thermal transfer printer |
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CN105034562A true CN105034562A (en) | 2015-11-11 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106218210A (en) * | 2016-08-29 | 2016-12-14 | 东莞劲胜精密组件股份有限公司 | A kind of Apparatus and method in product surface pattern-making |
CN109367217A (en) * | 2018-11-12 | 2019-02-22 | 湖北永和安门业有限公司 | A kind of transfer interpreter |
CN110103577A (en) * | 2019-05-23 | 2019-08-09 | 珠海达明科技有限公司 | A kind of automatic valve closing mechanism and transfer apparatus |
-
2015
- 2015-05-04 CN CN201510220236.0A patent/CN105034562A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106218210A (en) * | 2016-08-29 | 2016-12-14 | 东莞劲胜精密组件股份有限公司 | A kind of Apparatus and method in product surface pattern-making |
CN109367217A (en) * | 2018-11-12 | 2019-02-22 | 湖北永和安门业有限公司 | A kind of transfer interpreter |
CN110103577A (en) * | 2019-05-23 | 2019-08-09 | 珠海达明科技有限公司 | A kind of automatic valve closing mechanism and transfer apparatus |
CN110103577B (en) * | 2019-05-23 | 2024-04-16 | 珠海市运泰利自动化设备有限公司 | Automatic valve closing mechanism and transfer printing equipment |
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WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20151111 |
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WD01 | Invention patent application deemed withdrawn after publication |