CN215800426U - Wax map drawing machine - Google Patents

Abstract

The utility model provides a wax drawing machine, which comprises a wax drawing trolley, a wax drawing platform, a main board, a negative pressure system and a computer, wherein a cross beam is installed on the wax drawing platform, a first Y servo motor and a second Y servo motor are fixedly installed on two sides of the wax drawing platform, a rotating shaft of the first Y servo motor is fixedly connected with a first Y guide rail lead screw, a rotating shaft of the second Y servo motor is fixedly connected with a second Y guide rail lead screw, the main board drives the cross beam to move by controlling the first Y servo motor and the second Y servo motor, and an X servo motor and a tensioning wheel which are connected through an X guide rail belt are respectively installed on the upper parts of two ends of the cross beam, so that the wax drawing trolley can move along the positive and negative directions of an X axis and a Y axis; the first-stage wax box and the second-stage wax box can ensure that the amount of wax liquid is sufficient when the wax is painted; the left air box, the right air box and the cloth lower constant temperature system can ensure that wax liquid can be quickly blended into the cloth after being sprayed out from the spray head when the wax is painted.

Description

Wax map drawing machine

Technical Field

The utility model relates to the field of wax printing manufacturing, in particular to a wax pattern drawing machine.

Background

The wax printing is a traditional textile printing and dyeing handicraft in China, and is called as four ancient printing skills in China together with tie-printing, hollow-out printing and clip-printing. The wax printing is that a wax knife is used for dipping and melting wax to draw and draw the patterns on the cloth, and then the indigo is used for dip-printing, after the wax is removed, the cloth surface presents various patterns of blue-bottom white flowers or white-bottom blue flowers.

However, the traditional manual wax painting technology needs to spend a lot of time, and because people easily cause eyestrain due to long-time work, cervical spondylosis is caused, and problems of wrong painting, long painting time, low yield and the like often occur in the manual wax painting process, so that the requirement of the market for wax printing cannot be met, and therefore, the improvement of the yield by saving manpower is an important measure for popularizing the wax printing process at present.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is that the wax printing yield is improved by saving manpower and mechanically drawing a wax printing chart, and the specific scheme is as follows.

A wax drawing machine comprises a wax drawing trolley, a wax drawing platform, a main board, a negative pressure system and a computer, wherein a cross beam is installed on the wax drawing platform, a first Y servo motor and a second Y servo motor are fixedly installed on two sides of the wax drawing platform, a rotating shaft of the first Y servo motor is fixedly connected with a first Y guide rail lead screw and is positioned on the same straight line, a rotating shaft of the second Y servo motor is fixedly connected with a second Y guide rail lead screw and is positioned on the same straight line, the lower parts of two ends of the cross beam are respectively in threaded connection with the first Y guide rail lead screw and the second Y guide rail lead screw, the first Y servo motor and the second Y servo motor are electrically connected with the main board, the main board drives the first Y guide rail lead screw and the second Y guide rail lead screw to rotate by controlling the first Y servo motor and the second Y servo motor, and further drives the cross beam to reciprocate on the first Y guide rail lead screw and the second Y guide rail lead screw, the upper parts of the two ends of the beam are respectively provided with an X servo motor and a tension pulley, the X servo motor and the tension pulley are connected through an X guide rail belt, the X servo motor is electrically connected with the main board, the wax painting trolley is fixedly arranged on the X guide rail belt, and along with the movement of the X guide rail belt, the main board is electrically connected with a negative pressure system, the wax painting trolley comprises a first-stage wax box, a second-stage wax box and a nozzle box, the first-stage wax box is communicated with the second-stage wax box, the wax liquid in the first-stage wax box can be conveyed to the second-stage wax box, the second-stage wax box is provided with a negative pressure joint communicated with a negative pressure system, the second-stage wax box is communicated with a spray head arranged in a spray head box, the computer is electrically connected with the main board, the computer transmits picture data to the main board, the main board controls the crossbeam and the wax drawing trolley to move, the negative pressure system is controlled to extrude wax liquid in the secondary wax box to the spray head, and the spray head sprays the wax liquid to cloth on the wax drawing platform to form a picture-type wax pattern.

Further, one-level wax box includes first heat preservation, first wax level sensor, first inlayer wax box, water level sensor, first water heater, water temperature controller, first water temperature sensor, first filter, supplies the wax pump, first hydrologic cycle zone of heating, first wax pipe, the hydrologic cycle zone of heating sets up between first heat preservation and first inlayer wax box, and water level sensor, first water heater, the first water temperature sensor of being connected with water temperature controller electricity are installed to the hydrologic cycle zone of heating, the water temperature controller is installed at first heat preservation outside, install first filter and the first wax level sensor and supply the wax pump of being connected with the mainboard electricity in the first inlayer wax box, the intercommunication has first wax pipe between filter and the confession wax pump, first wax pipe extends first inlayer wax box and first heat preservation, first wax pipe is provided with the junction of passing first inlayer wax box and is used for sealing the first wax box in the first inlayer wax liquid A sealing member; the second-stage wax box comprises a second heat insulation layer, a second inner-layer wax box, a second wax liquid level sensor, a negative pressure joint and a second water circulation heating layer, the second water circulation heating layer is arranged between the second heat insulation layer and the second inner-layer wax box, the second wax liquid level sensor is installed in the second inner-layer wax box and is electrically connected with the main board, the first wax pipe is communicated with the second inner-layer wax box, a fifth sealing element for preventing the wax liquid in the second inner-layer wax box from leaking is arranged at the joint of the first wax pipe and the second inner-layer wax box, a first water pipe is arranged between the first water circulation heating layer and the second water circulation heating layer and is communicated with the first water circulation heating layer, and a second sealing element and a fourth sealing element for preventing water from leaking are arranged at the outer surface contact parts of the first water pipe, the first heat insulation layer and the second heat insulation layer; the shower nozzle case includes the third heat preservation, be provided with first air heater, second air heater, third air heater, fourth air heater, first air temperature sensor and second filter, shower nozzle, first shower nozzle heater, the second shower nozzle heater of being connected with shower nozzle case temperature controller electricity in the third heat preservation, the shower nozzle passes through second wax pipe intercommunication with second inner wax box, is provided with the sixth sealing member that is used for preventing that wax liquid reveals in the second wax pipe in second wax pipe and the junction of second inner wax box, the second filter sets up the dregs that is arranged in filtering the wax liquid on the second wax pipe, first shower nozzle heater and second shower nozzle heater install both sides about the shower nozzle and through fourth water pipe intercommunication, first shower nozzle heater passes through second water pipe intercommunication with first hydrologic cycle zone of heating, and the outer surface contact position on first heat preservation of second water pipe is provided with the second water pipe and is used for preventing the first hydrologic cycle zone of heating that water was revealed The third sealing piece still installs the first water pump that is used for driving the interior water flow of second water pipe at the second water pipe, first water pump is connected with the mainboard electricity, second shower nozzle heater passes through the third water pipe intercommunication with second hydrologic cycle zone of heating, the surface contact position of third water pipe and second heat preservation is provided with the seventh sealing piece that is used for preventing that water in the second hydrologic cycle zone of heating from revealing.

Further, the negative pressure system comprises a negative pressure buffer container, a first air pipe, a negative pressure pump, a second air pipe, a negative pressure controller, a negative pressure sensor, a third air pipe and a fourth air pipe, one end of the first air pipe is communicated with the negative pressure buffer container, the other end of the first air pipe is communicated with the negative pressure pump, and the joint of the first air pipe and the negative pressure buffer container is sealed, one end of the second air pipe is communicated with the negative pressure pump, the other end is communicated with the atmosphere, one end of the third air pipe is communicated with the negative pressure buffer container, the other end is communicated with the negative pressure sensor, the joint of the third air pipe and the negative pressure buffer container and the negative pressure sensor is sealed, one end of the fourth air pipe is communicated with the negative pressure buffer container, the other end is communicated with the negative pressure joint, and the fourth air pipe is sealed with the negative pressure buffer container and the negative pressure joint, the negative pressure pump and the negative pressure sensor are respectively electrically connected with the negative pressure controller, and the negative pressure controller is electrically connected with the mainboard.

Further, both sides symmetry fixed mounting has left bellows and right bellows about the third heat preservation surface of shower nozzle case, fixed mounting has first thermantidote, first hot-blast fan, fifth air heater, the second air temperature sensor of being connected with left bellows temperature controller electricity in the left side bellows, fixed mounting has second thermantidote, the hot-blast fan of second, sixth air heater, the third air temperature sensor of being connected with right bellows temperature controller electricity in the right side bellows.

Further, a cloth lower constant temperature system is further arranged on the wax drawing platform and is electrically connected with the main board.

Furthermore, the under-cloth constant temperature system comprises a second water pump, a fifth water pipe, a constant temperature system temperature controller, a second water heater, a second water temperature sensor, a water tank, a sixth water pipe, a seventh water pipe and a thermostatic plate, wherein a water flowing groove is hermetically arranged between the upper surface and the lower surface of the thermostatic plate, water can flow in the water flowing groove and can conduct heat with the thermostatic plate, cloth is flatly laid on the thermostatic plate, one end of the fifth water pipe is communicated with the water flowing groove, the other end of the fifth water pipe is communicated with the second water pump, the joint of the fifth water pipe, the water flowing groove and the second water pump is sealed, one end of the sixth water pipe is communicated with the water tank, the joint of the sixth water pipe, the water tank and the second water pump is sealed, one end of the seventh water pipe is communicated with the water tank, the other end of the seventh water pipe is communicated with the water flowing groove, the joint of the seventh water pipe, the second water heater and the second water temperature sensor are fixedly installed in the water tank, the second water heater, the second water temperature sensor and the second water pump are respectively electrically connected with the constant temperature system temperature controller, the second water temperature sensor uploads a water temperature signal of the water tank to the constant temperature system temperature controller, when the water temperature is lower than a preset temperature, the constant temperature system temperature controller controls the second water heater to heat water in the water tank, when the water temperature reaches the preset temperature, the constant temperature system temperature controller controls the second water heater not to heat the water in the water tank, the constant temperature system temperature controller controls the second water pump to work, water enters the water flowing groove in the constant temperature plate from the water tank through the seventh water pipe, flows into the fifth water pipe from the water flowing groove, flows through the second water pump, then returns to the water tank from the sixth water pipe, and through water circulation, the water in the water tank and the constant temperature plate are always kept at the same temperature.

The utility model has the beneficial effects that: 1. the wax drawing trolley can move along the positive and negative directions of the X axis and the positive and negative directions of the Y axis through the first Y servo motor, the second Y servo motor and the X servo motor, so that the wax drawing is more flexible; 2. the first-stage wax box and the second-stage wax box can ensure that the amount of wax liquid is kept sufficient during wax drawing; 3. the left air box, the right air box and the cloth lower constant temperature system can ensure that wax liquid can be quickly blended into the cloth after being sprayed out from the spray head when the wax is painted.

Drawings

FIG. 1 is a schematic view of the overall construction of a wax drawing machine;

FIG. 2 is a top view of the wax drawing machine;

FIG. 3 is a front view of the wax drawing machine;

FIG. 4 is a schematic view of the internal structure of the wax cart;

FIG. 5 is a diagram showing the positional relationship between the inner components of the left and right bellows;

FIG. 6 is a diagram showing the positional relationship of the internal components of the constant temperature system under the cloth;

FIG. 7 is a diagram showing the positional relationship of the internal components of the negative pressure system.

In the figure: 1. painting a wax trolley; 2. a first Y-rail lead screw; 3. a wax drawing platform; 4. a constant temperature system under the cloth; 401. a second water pump; 402. a fifth water pipe; 403 thermostatic system temperature controller; 404. a second water heater; 405. a second water temperature sensor; 406. a water tank; 407. a sixth water pipe; 408. a seventh water pipe; 409. a thermostatic plate; 410. a launder; 5. a second Y-rail lead screw; 6. a cross beam; 7. an X servo motor; 8. an X guide belt; 9. a second Y servo motor; 10. a main board; 11 an electrical control system; 12. a first Y servo motor; 13. a tension wheel; 14. a negative pressure system; 140. a negative pressure buffer container; 141. a first air pipe; 142. a negative pressure pump; 143. a second air pipe; 144. a negative pressure controller; 145. a negative pressure sensor; 146. a third air pipe; 147. A fourth gas pipe; 15. a computer; 20. a first-level wax box; 21. a first insulating layer; 22. a first wax level sensor; 23. a first inner wax box; 24. a water level sensor; 25. a first water heater; 26. a water temperature controller; 27. a first water temperature sensor; 28. a first filter; 29. a wax supply pump; 291. a first water circulation heating layer; 30. a second-level wax box; 31. a second insulating layer; 32. a second inner wax box; 33. a second wax level sensor; 34. a negative pressure joint; 35. a second water circulation heating layer; 40. a shower head box; 41. a third insulating layer; 42. a first air heater; 43. a second air heater; 44. a third air heater; 45. a second filter; 46. a fourth air heater; 47. a first air temperature sensor; 48. a showerhead cartridge temperature controller; 49. a spray head; 491. a first showerhead heater; 492. a second showerhead heater; 50. a first wax tube; 51. A second wax tube; 60. a first water pipe; 61. a second water pipe; 62. a third water pipe; 63. a fourth water pipe; 70. a first seal member; 71. a second seal member; 72. a third seal member; 73. a fourth seal member; 74. a fifth seal member; 75. a sixth seal member; 76. a seventh seal member; 80. a first water pump; 90. a left bellows; 91. a left air box temperature controller; 92. a first cooling fan; 93. a first hot air fan; 94. a fifth air heater; 95. A second air temperature sensor; 100. a right bellows; 101. a right bellows temperature controller; 102. a second cooling fan; 103. a second hot air fan; 104. a sixth air heater; 105 a third air temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in fig. 1, 2, 3 and 4, a wax drawing machine comprises a wax drawing trolley 1, a wax drawing platform 3, a main board 10, a negative pressure system 14 and a computer 15, wherein a beam 6 is installed on the wax drawing platform 3, a first Y servo motor 12 and a second Y servo motor 9 are fixedly installed on two sides of the wax drawing platform 3, a rotating shaft of the first Y servo motor 12 is fixedly connected with the first Y guide rail lead screw 2 and is positioned on the same straight line, a rotating shaft of the second Y servo motor 9 is fixedly connected with the second Y guide rail lead screw 5 and is positioned on the same straight line, lower parts of two ends of the beam 6 are respectively connected with the first Y guide rail lead screw 2 and the second Y guide rail lead screw 5 through threads, the first Y servo motor 12 and the second Y servo motor 9 are electrically connected with the main board 10, the main board 10 drives the first Y guide rail lead screw 2 and the second Y guide rail lead screw 5 to rotate by controlling the first Y servo motor 12 and the second Y servo motor 9, further driving the beam 6 to reciprocate along the first Y guide rail screw 2 and the second Y guide rail screw 5, wherein the upper parts of the two ends of the beam 6 are respectively provided with an X servo motor 7 and a tension pulley 13, the X servo motor 7 and the tension pulley 13 are connected through an X guide rail belt 8, the X servo motor 7 is electrically connected with a main board 10, the wax drawing trolley 1 is fixedly arranged on the X guide rail belt 8 and moves along with the X guide rail belt 8, the main board 10 is electrically connected with a negative pressure system 14, the wax drawing trolley 1 comprises a primary wax box 20, a secondary wax box 30 and a nozzle box 40, the primary wax box 20 is communicated with the secondary wax box 30, wax liquid in the primary wax box 20 can be conveyed to the secondary wax box 30, the secondary wax box 30 is provided with a negative pressure joint 34 communicated with the negative pressure system 14, the secondary wax box 30 is communicated with a nozzle 49 arranged in the nozzle box 40, the computer 15 is electrically connected with the main board 10, the computer 15 transmits the picture data to the main board 10, the main board 10 controls the crossbeam 6 and the wax drawing trolley 1 to move, the negative pressure system 14 is controlled to extrude the wax liquid in the secondary wax box 30 to the spray head 49, and the spray head 49 sprays the wax liquid to the cloth on the wax drawing platform 3 to form a picture-style wax pattern. Through first Y servo motor 12, second Y servo motor 9, X servo motor 7 for draw wax dolly 1 can be followed X axle positive and negative direction and the positive and negative direction motion of Y axle, and it is more nimble to make to draw the wax.

As shown in fig. 4 and 7, the negative pressure system 14 includes a negative pressure buffer container 140, a first air pipe 141, a negative pressure pump 142, a second air pipe 143, a negative pressure controller 144, a negative pressure sensor 145, a third air pipe 146, and a fourth air pipe 147, wherein one end of the first air pipe 141 is communicated with the negative pressure buffer container 140, the other end is communicated with the negative pressure pump 142, the joint of the first air pipe 141 with the negative pressure buffer container 140 and the negative pressure pump 142 is sealed, one end of the second air pipe 143 is communicated with the negative pressure pump 142, the other end is communicated with the atmosphere, one end of the third air pipe 146 is communicated with the negative pressure buffer container 140, the other end is communicated with the negative pressure sensor 145, the joint of the third air pipe 146 with the negative pressure buffer container 140 and the negative pressure sensor 145 is sealed, one end of the fourth air pipe 147 is communicated with the negative pressure buffer container 140, the other end is communicated with the negative pressure joint 34, and the joint of the fourth air pipe 147 with the negative pressure buffer container 140 and the negative pressure joint 34 is sealed, the negative pressure pump 142 and the negative pressure sensor 145 are respectively electrically connected with the negative pressure controller 144, the negative pressure controller 144 is electrically connected with the main board 10, the negative pressure controller 144 receives a wax drawing instruction of the main board 10, the negative pressure pump 142 is controlled to work according to a pressure signal in the negative pressure buffer container 140 uploaded by the negative pressure sensor 145, the air pressure in the negative pressure buffer container 140 is adjusted to a preset value and acts on the secondary wax box 30, the negative pressure controller 144 increases and decreases the wax liquid pressure in the secondary wax box 30 by changing the air pressure preset value in the negative pressure buffer container 140, and further controls the amount of wax liquid in the secondary wax box 30 flowing into the spray head 49, so that the pattern sprayed by the spray head 49 is the same as the picture of the wax drawing instruction of the main board 10.

As shown in fig. 1 and 6, the wax drawing platform 3 is further provided with a cloth lower constant temperature system 4, the cloth lower constant temperature system 4 includes a second water pump 401, a fifth water pipe 402, a constant temperature system temperature controller 403, a second water heater 404, a second water temperature sensor 405, a water tank 406, a sixth water pipe 407, a seventh water pipe 408 and a constant temperature plate 409, a water flowing channel 410 is hermetically arranged between the upper and lower surfaces of the constant temperature plate 409, water can flow in the water flowing channel 410 and conduct heat with the constant temperature plate 409, cloth is flatly laid on the constant temperature plate 409, one end of the fifth water pipe 402 is communicated with the water flowing channel 410, the other end is communicated with the second water pump 401, the joint of the fifth water pipe 402 with the water flowing channel 410 and the second water pump 401 is sealed, one end of the sixth water pipe 407 is communicated with the water tank 406, the joint of the sixth water pipe 407 with the second water pump 401 is sealed, one end of the seventh water pipe 408 is communicated with the water tank 406, the other end is communicated with a water flowing groove 410, a seventh water pipe 408 is sealed with the joint of the water tank 406 and the water flowing groove 410, a second water heater 404 and a second water temperature sensor 405 are fixedly installed in the water tank 406, the second water heater 404, the second water temperature sensor 405 and the second water pump 401 are respectively and electrically connected with the constant temperature system temperature controller 403, the second water temperature sensor 405 uploads a water temperature signal of the water tank 406 to the constant temperature system temperature controller 403, when the water temperature is lower than a preset temperature, the constant temperature system temperature controller 403 controls the second water heater 404 to heat the water in the water tank 406, when the water temperature reaches the preset temperature, the constant temperature system temperature controller 403 controls the second water heater 404 not to heat the water in the water tank 406, the constant temperature system temperature controller 403 controls the second water pump 401 to work in the whole process, the water enters the water flowing groove 410 in the constant temperature plate 409 from the water tank 406 through the seventh water pipe 408, the wax liquid flows into the fifth water pipe 402 from the water flowing groove 410, flows through the second water pump 401, returns to the water tank 406 from the sixth water pipe 407, and through water circulation, the water and the constant temperature board 409 in the water tank 406 are always kept at the same temperature in the whole process, and the temperature of the cloth is kept in a preset range through the action of the constant temperature board 409 on the cloth, so that the wax liquid is melted into the cloth and does not seep out of the cloth, the constant temperature system controller 403 is electrically connected with the main board 10 and is controlled by the main board 10, when the main board 10 receives a picture input from the computer 15, an instruction is sent to the constant temperature system controller 403, and the constant temperature system 4 starts to work.

The first-stage wax box 20 comprises a first heat preservation layer 21, a first wax liquid level sensor 22, a first inner-layer wax box 23, a water liquid level sensor 24, a first water heater 25, a water temperature controller 26, a first water temperature sensor 27, a first filter 28, a wax supply pump 29, a first water circulation heating layer 291 and a first wax pipe 50, wherein the water circulation heating layer 291 is arranged between the first heat preservation layer 21 and the first inner-layer wax box 23, the water circulation heating layer 291 is provided with the water liquid level sensor 24, the first water heater 25 and the first water temperature sensor 27 which are electrically connected with the water temperature controller 26, the water temperature controller 26 is arranged outside the first heat preservation layer 21, the first filter 28, the first wax liquid level sensor 22 and the wax supply pump 29 which are electrically connected with the mainboard 10 are arranged in the first inner-layer wax box 23, the first wax pipe 50 is communicated between the filter 28 and the wax supply pump 29, and extends through the first inner-layer wax box 23 and the first heat preservation layer 21, a first sealing element 70 for sealing the wax liquid in the first inner-layer wax box 23 is arranged at the joint of the first wax pipe 50 and the first inner-layer wax box 23; the second-level wax box 30 comprises a second insulating layer 31, a second inner-layer wax box 32, a second wax liquid level sensor 33, a negative pressure joint 34 and a second water circulation heating layer 35, the second water circulation heating layer 35 is arranged between the second insulating layer 31 and the second inner-layer wax box 32, the second wax liquid level sensor 33 is arranged in the second inner-layer wax box 32 and is electrically connected with the main board 10, the first wax pipe 50 is communicated with the second inner-layer wax box 32, a fifth sealing member 74 for preventing the leakage of the liquid wax in the second inner-layer wax box 32 is arranged at the joint of the first wax pipe 50 and the second inner-layer wax box 32, a first water pipe 60 is arranged between the first water circulation heating layer 291 and the second water circulation heating layer 35 for communicating, and a second sealing member 71 and a fourth sealing member 73 for preventing the leakage of water are arranged at the contact parts of the first water pipe 60 and the outer surfaces of the first heat-insulating layer 21 and the second heat-insulating layer 31; the shower head box 40 comprises a third insulating layer 41, a first air heater 42, a second air heater 43, a third air heater 44, a fourth air heater 46, a first air temperature sensor 47, a second filter 45, a shower head 49, a first shower head heater 491 and a second shower head heater 492 which are electrically connected with a shower head box temperature controller 48 are arranged in the third insulating layer 41, the shower head 49 is communicated with the second inner-layer wax box 32 through a second wax pipe 51, a sixth sealing member 75 for preventing the wax liquid in the second wax pipe 51 from leaking is arranged at the joint of the second wax pipe 51 and the second inner-layer wax box 32, the second filter 45 is arranged on the second wax pipe 51 for filtering the dregs in the wax liquid, the first shower head heater 491 and the second shower head heater 492 are arranged at the left side and the right side of the shower head 49 and are communicated through a fourth water pipe 63, the first shower head heater 491 is communicated with the first water circulation heating layer 291 through a second water pipe 61, the contact part of the second water pipe 61 and the outer surface of the first heat preservation layer 21 is provided with a third sealing element 72 for preventing water leakage in the first water circulation heating layer 291, the second water pipe 61 is further provided with a first water pump 80 for driving water in the second water pipe 61 to flow, the first water pump 80 is electrically connected with the main board 10, the second shower head heater 492 is communicated with the second water circulation heating layer 35 through the third water pipe 62, and the contact part of the third water pipe 62 and the outer surface of the second heat preservation layer 31 is provided with a seventh sealing element 76 for preventing water leakage in the second water circulation heating layer 35. The first-stage wax box 20 and the second-stage wax box 30 can ensure that the amount of the wax liquid is kept sufficient when the wax is painted.

As shown in fig. 5, the head plate 16 and the negative pressure system 14 are located between the first-stage wax box 20 and the second-stage wax box 30, a left air box 90 and a right air box 100 are symmetrically and fixedly installed on the left and right sides of the outer surface of the third insulating layer 41 of the shower head box 40, a first cooling fan 92, a first hot air fan 93, a fifth air heater 94 and a second air temperature sensor 95 which are electrically connected with the left air box temperature controller 91 are fixedly installed in the left air box 90, and a second cooling fan 102, a second hot air fan 103, a sixth air heater 104 and a third air temperature sensor 105 which are electrically connected with the right air box temperature controller 101 are fixedly installed in the right air box 100. The left air box 90, the right air box 100 and the cloth lower constant temperature system 4 can ensure that wax liquid can be quickly blended into the cloth after being sprayed out from the spray nozzle 49 when the wax is painted.

The use method of the wax drawing machine comprises the following steps:

the computer 15 transmits the picture data to the main board 10;

the mainboard 10 heats the wax liquid in the first-stage wax box 20, the second-stage wax box 30 and the spray nozzle 49, and simultaneously the constant temperature system 4 under the cloth is started;

when the wax liquid reaches the preset temperature and the constant temperature plate 409 in the constant temperature system 4 under the cloth reaches the preset temperature, the negative pressure system 14 is started, the pressure of the wax liquid in the secondary wax box 30 changes, and the pattern sprayed by the spray head 49 is the same as the wax drawing instruction picture of the main board 10;

in the process of spraying wax by the spray head 49, the main board 10 controls the first Y servo motor 12 and the second Y servo motor 9 to work according to picture data, the cross beam 6 moves along the positive and negative directions of the Y axis, the X servo motor 7 is controlled to rotate, and the wax drawing trolley 1 moves along the positive and negative directions of the X axis along with the X guide rail belt 8;

when the wax drawing trolley 1 moves along the positive direction of the X axis, the left air box temperature controller 91 of the left air box 90 controls the first hot air fan 93 and the fifth air heater 94 to operate, heats the air temperature to a preset temperature according to a temperature signal uploaded by the second air temperature sensor 95, blows hot air to the cloth, quickly fuses wax liquid on the cloth into the cloth, then blows air to the cloth by the first cold air fan 92 to cool the wax liquid, so that the wax liquid is solidified in the cloth, when the trolley 1 moves along the negative direction of the X axis, the right air box temperature controller 101 of the right air box 100 controls the second hot air fan 103 and the sixth air heater 104 to operate, heats the air temperature to the preset temperature according to a temperature signal uploaded by the third air temperature sensor 105, blows hot air to the cloth, quickly fuses the wax liquid on the cloth into the cloth, then blows air to cool the wax liquid to the cloth by the second cold air fan 102, and (5) solidifying the wax liquid in the cloth until a wax picture in a picture pattern is obtained, and finishing wax drawing.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A wax drawing machine is characterized by comprising a wax drawing trolley (1), a wax drawing platform (3), a main board (10), a negative pressure system (14) and a computer (15), wherein a cross beam (6) is installed on the wax drawing platform (3), a first Y servo motor (12) and a second Y servo motor (9) are fixedly installed on two sides of the wax drawing platform (3), a rotating shaft of the first Y servo motor (12) is fixedly connected with a first Y guide rail lead screw (2) and is positioned on the same straight line, a rotating shaft of the second Y servo motor (9) is fixedly connected with a second Y guide rail lead screw (5) and is positioned on the same straight line, the lower parts of two ends of the cross beam (6) are respectively in threaded connection with the first Y guide rail lead screw (2) and the second Y guide rail lead screw (5), and the first Y servo motor (12) and the second Y servo motor (9) are electrically connected with the main board (10), the main board (10) drives the first Y guide rail lead screw (2) and the second Y guide rail lead screw (5) to rotate by controlling the first Y servo motor (12) and the second Y servo motor (9), so as to drive the cross beam (6) to reciprocate along the first Y guide rail lead screw (2) and the second Y guide rail lead screw (5), the upper parts of the two ends of the cross beam (6) are respectively provided with an X servo motor (7) and a tension pulley (13), the X servo motor (7) and the tension pulley (13) are connected through an X guide rail belt (8), the X servo motor (7) is electrically connected with the main board (10), the wax painting trolley (1) is fixedly arranged on the X guide rail belt (8) and moves along with the X guide rail belt (8), the main board (10) is electrically connected with the negative pressure system (14), the wax painting trolley (1) comprises a primary wax box (20), a secondary wax box (30) and a spray head box (40), the utility model provides a wax painting device, including one-level wax box (20), second grade wax box (30) can be carried to wax liquid in the one-level wax box (20) intercommunication, be provided with negative pressure joint (34) with negative pressure system (14) intercommunication on second grade wax box (30), shower nozzle (49) intercommunication that second grade wax box (30) and shower nozzle case (40) set up, computer (15) are connected with mainboard (10) electricity, and computer (15) transmit picture data to mainboard (10), mainboard (10) control crossbeam (6) with draw wax dolly (1) motion, control negative pressure system (14) extrude shower nozzle (49) with the wax liquid in second grade wax box (30), and shower nozzle (49) form the wax picture of picture pattern on spouting the cloth on drawing wax platform (3).

2. The wax chart plotter according to claim 1, wherein the primary wax box (20) comprises a first heat-insulating layer (21), a first wax level sensor (22), a first inner wax box (23), a water level sensor (24), a first water heater (25), a water temperature controller (26), a first water temperature sensor (27), a first filter (28), a wax supply pump (29), a first water circulation heating layer (291), a first wax pipe (50), the water circulation heating layer (291) is disposed between the first heat-insulating layer (21) and the first inner wax box (23), the water circulation heating layer (291) is installed with the water level sensor (24), the first water heater (25), the first water temperature sensor (27) electrically connected with the water temperature controller (26), the water temperature controller (26) is installed outside the first heat-insulating layer (21), a first filter (28), a first wax liquid level sensor (22) electrically connected with the main board (10) and a wax supply pump (29) are installed in the first inner-layer wax box (23), a first wax pipe (50) is communicated between the filter (28) and the wax supply pump (29), the first wax pipe (50) extends through the first inner-layer wax box (23) and the first heat preservation layer (21), and a first sealing element (70) used for sealing wax liquid in the first inner-layer wax box (23) is arranged at the joint of the first wax pipe (50) and the first inner-layer wax box (23); second grade wax box (30) include second heat preservation (31), second inlayer wax box (32), second wax level sensor (33), negative pressure joint (34), second water circulation zone of heating (35) set up between second heat preservation (31) and second inlayer wax box (32), second wax level sensor (33) are installed in second inlayer wax box (32) and are connected with mainboard (10) electricity, first wax pipe (50) and second inlayer wax box (32) intercommunication are provided with fifth sealing member (74) that are used for preventing second inlayer wax box (32) interior wax liquid from revealing in the junction of first wax pipe (50) and second inlayer wax box (32), be provided with first water pipe (60) intercommunication between first water circulation zone of heating (291) and second water circulation zone of heating (35), first water pipe (60) and first heat preservation (21) and the outer surface contact part of second heat preservation (31) are provided with and are used for heat preservation (60) intercommunication A second sealing member (71) and a fourth sealing member (73) for preventing water leakage; the spray head box (40) comprises a third heat-insulating layer (41), a first air heater (42), a second air heater (43), a third air heater (44), a fourth air heater (46), a first air temperature sensor (47), a second filter (45), a spray head (49), a first spray head heater (491) and a second spray head heater (492) which are electrically connected with a spray head box temperature controller (48) are arranged in the third heat-insulating layer (41), the spray head (49) is communicated with a second inner-layer wax box (32) through a second wax pipe (51), a sixth sealing element (75) for preventing wax liquid in the second wax pipe (51) from leaking is arranged at the joint of the second wax pipe (51) and the second inner-layer wax box (32), the second filter (45) is arranged on the second wax pipe (51) and used for filtering dregs in the wax liquid, and the first spray head heater (491) and the second spray head (492) are arranged on the left and right sides of the spray head (49) The first nozzle heater (491) is communicated with the first water circulation heating layer (291) through a second water pipe (61), the contact part of the outer surface of the second water pipe (61) and the first heat preservation layer (21) is provided with a third sealing element (72) for preventing water in the first water circulation heating layer (291) from leaking, the second water pipe (61) is further provided with a first water pump (80) for driving water in the second water pipe (61) to flow, the first water pump (80) is electrically connected with the main board (10), the second nozzle heater (492) is communicated with the second water circulation heating layer (35) through a third water pipe (62), and the contact part of the outer surface of the third water pipe (62) and the second heat preservation layer (31) is provided with a seventh sealing element (76) for preventing water in the second water circulation heating layer (35) from leaking.

3. The wax drawing machine according to claim 2, wherein the negative pressure system (14) comprises a negative pressure buffer container (140), a first air pipe (141), a negative pressure pump (142), a second air pipe (143), a negative pressure controller (144), a negative pressure sensor (145), a third air pipe (146) and a fourth air pipe (147), one end of the first air pipe (141) is communicated with the negative pressure buffer container (140), the other end of the first air pipe is communicated with the negative pressure pump (142), the joint of the first air pipe (141) and the negative pressure buffer container (140) and the negative pressure pump (142) is sealed, one end of the second air pipe (143) is communicated with the negative pressure pump (142), the other end of the second air pipe is communicated with the atmosphere, one end of the third air pipe (146) is communicated with the negative pressure buffer container (140), the other end of the third air pipe is communicated with the negative pressure sensor (145), and the joint of the third air pipe (146) and the negative pressure buffer container (140) and the negative pressure sensor (145) is sealed, one end of a fourth air pipe (147) is communicated with the negative pressure buffer container (140), the other end of the fourth air pipe is communicated with the negative pressure joint (34), the joint of the fourth air pipe (147) and the negative pressure buffer container (140) and the negative pressure joint (34) is sealed, the negative pressure pump (142) and the negative pressure sensor (145) are respectively and electrically connected with the negative pressure controller (144), and the negative pressure controller (144) is electrically connected with the main board (10).

4. The wax drawing machine according to claim 3, wherein a left air box (90) and a right air box (100) are symmetrically and fixedly installed on the left side and the right side of the outer surface of the third insulating layer (41) of the nozzle box (40), a first cooling fan (92), a first heating fan (93), a fifth air heater (94) and a second air temperature sensor (95) which are electrically connected with the left air box temperature controller (91) are fixedly installed in the left air box (90), and a second cooling fan (102), a second heating fan (103), a sixth air heater (104) and a third air temperature sensor (105) which are electrically connected with the right air box temperature controller (101) are fixedly installed in the right air box (100).

5. The wax drawing machine according to claim 2, wherein the wax drawing platform (3) is further provided with a cloth lower constant temperature system (4), and the cloth lower constant temperature system (4) is electrically connected with the main board (10).

6. The wax drawing machine according to claim 5, wherein the under-cloth thermostatic system (4) comprises a second water pump (401), a fifth water pipe (402), a thermostatic system temperature controller (403), a second water heater (404), a second water temperature sensor (405), a water tank (406), a sixth water pipe (407), a seventh water pipe (408), a thermostatic plate (409), a water flowing groove (410) is hermetically arranged between the upper surface and the lower surface of the thermostatic plate (409), water can flow in the water flowing groove (410) and can conduct heat with the thermostatic plate (409), cloth is flatly laid on the thermostatic plate (409), one end of the fifth water pipe (402) is communicated with the water flowing groove (410), the other end of the fifth water pipe is communicated with the second water pump (401), the fifth water pipe (402) is sealed with the joint of the water flowing groove (410) and the second water pump (401), and one end of the sixth water pipe (407) is communicated with the water tank (406), the other end of the water pipe is communicated with a second water pump (401), the joint of a sixth water pipe (407) and a water tank (406) and the second water pump (401) is sealed, one end of a seventh water pipe (408) is communicated with the water tank (406), the other end of the seventh water pipe is communicated with a water flowing groove (410), the joint of the seventh water pipe (408) and the water tank (406) and the water flowing groove (410) is sealed, a second water heater (404) and a second water temperature sensor (405) are fixedly arranged in the water tank (406), the second water heater (404), the second water temperature sensor (405) and the second water pump (401) are respectively and electrically connected with a constant temperature system temperature controller (403), the second water temperature sensor (405) uploads a water temperature signal of the water tank (406) to the constant temperature system temperature controller (403), and when the water temperature is lower than a preset temperature, the constant temperature system temperature controller (403) controls the second water heater (404) to heat the water in the water tank (406), when the water temperature reaches the preset temperature, the constant temperature system temperature controller (403) controls the second water heater (404) not to heat the water in the water tank (406), the constant temperature system temperature controller (403) controls the second water pump (401) to work, the water enters the water flowing groove (410) in the constant temperature plate (409) from the water tank (406) through the seventh water pipe (408), flows into the fifth water pipe (402) from the water flowing groove (410) and flows through the second water pump (401), then returns to the water tank (406) from the sixth water pipe (407), and through water circulation, the water in the water tank (406) and the constant temperature plate (409) are always kept at the same temperature.

Images