CN105380799A - Automatic production line for producing patches - Google Patents

Abstract

The invention relates to the field of patch production equipment, in particular to an automatic production line for producing patches. The production line is sequentially provided with an ointment coating device, a detection device, an air-drying and cooling device, a cloth expanding device and a cloth coiling device, wherein the detection device comprises an X-ray thickness detector; the X-ray thickness detector comprises a transmitting end and a receiving end; the ointment coating device comprises a coating base plate, a scraper device, a lifting mechanism and a PC control device; and the PC control device is electrically connected to the X-ray thickness detector and the lifting mechanism respectively. The automatic production line can detect ointment thickness in a patch by virtue of X ray and can adjust the height of the scraper device according to the thickness value so as to adjust and control a scraping clearance; the automatic production line can control the coating thickness of ointment more simply, rapidly and accurately, so that the traditional Chinese medicinal ointment layer in the produced patch not only can achieve a standard national thickness value but also can avoid excessive thickness; therefore, the quality of the patch is guaranteed, and meanwhile production cost is saved.

Description

A kind of automatic assembly line producing patch

Technical field

The present invention relates to the production equipment field of patch, particularly relate to a kind of automatic assembly line producing patch.

Background technology

In field of medicaments, the use of patch and extensively, medical effect is also fine.Patch production process is mainly divided into several processes such as the coating of glue, work feed, plaster, shearing, packaging.Wherein glue, work feed, plaster coating, defects detection, at a high speed section are the production technologies of unguentum key, directly have influence on the quality of production of plaster, and then affect the income of enterprise.

Patch production line domestic at present is substantially all in manual state, and most of production equipment is manufacturer's designed, designed, and complement disunity, with low content of technology, precision is low, poor reliability, product quality concordance are poor.The thickness of its Chinese medicinal ointment coating cannot accurately control to be outstanding problem, and quality monitoring is manually inspected by random samples by often stopping, and production efficiency is low, and substandard products, percent defective are high.And most producer is in order to be not less than the ointment thickness calibration of national regulation, all products are made all to reach standard by the coating thickness increasing ointment, reduce substandard products, percent defective, but in fact considerably increase production cost, also cause the serious waste of resource simultaneously.According to statistics, the cost allowance caused because of ointment applied thickness accounts for the 10%-30% of cost.Some Domestic enterprise introduces has the much more external thermosoling technique adopted to produce patch, although this production technology and automation degree of equipment high, make process of producing product dangerous large using media such as gasoline as solvent, product quality has risk.

Summary of the invention

The object of the invention is to propose one and be applied to patch production, have and detect ointment thickness and the automatic assembly line that can control the function of ointment thickness.

For reaching this object, the present invention by the following technical solutions:

Produce an automatic production line for patch, be provided with ointment successively and automatically detect application system, air-dry chiller, expansion cloth cloth unfolding device and cloth-rolling device; Described ointment automatically detects application system and comprises: ointment coating unit and checkout gear, and described ointment coating unit is located at the upstream of described checkout gear.

Described checkout gear comprises traversing carriage, X-ray thickness detector, reciprocating drive mechanism and reciprocal control system; Described traversing carriage is provided with crossbeam; Described X-ray thickness detector comprises transmitting terminal and receiving terminal; Described transmitting terminal and described reception are rectified arranging and being provided with the detector gap of passing for patch therebetween; Described thickness detector is located at described crossbeam, and under described reciprocating drive mechanism drives and under the control of described reciprocal control system, moves back and forth between described crossbeam two ends; Described ointment coating unit comprises: frame, coating base plate, doctor blade device, elevating mechanism and PC control device; Described coating base plate is located at described frame upper end, and described doctor blade device is located at above described coating base plate, and and between described coating plate upper surface, be provided with the blade coating gap passed through for patch; Described elevating mechanism is located at described frame both sides, and is connected with the two ends of described doctor blade device respectively; Described PC control device electrically connects with described X-ray thickness detector and described elevating mechanism respectively, makes it regulate the blade coating gap between described doctor blade device bottom surface and described coating plate upper surface according to the detection signal of described X-ray thickness detector.

Described reciprocating drive mechanism comprises drive motors, driving shaft, driving wheel, driven pulley and annular driving band; Described upper driving beam and described lower driving beam inside are provided with container cavity, and described container cavity sidewall is provided with slider bar window; Described driving shaft is vertically located at the side of described traversing carriage, and is positioned at the two ends of described crossbeam; Described driving wheel is located at described driving shaft, and described driven pulley is located at the upper and lower two ends of described driving shaft; Described annular driving band is located in described container cavity, and its two ends are sheathed on the described driven pulley that correspondence position is provided with respectively; Described receiving terminal and described transmitting terminal through described slider bar window, and are fixed with the side of described annular driving band; Described drive motors drives and is in transmission connection with described driving wheel, and drives described driving wheel to rotate, and then drives described annular driving band to rotate, and described annular driving band drives described receiving terminal and described transmitting terminal along described cross beam movement.

The bottom of described container cavity is provided with slide bar, and described slide bar is parallel with described thickness detector motion track; The described sliding bar that described receiving terminal and described transmitting terminal are provided with correspondence position is respectively connected.

Described reciprocal control system is PLC control system, and it controls the positive and negative rotation situation of described drive motors, and then controls the situation that described thickness detector reciprocatingly moves along described crossbeam.

Described doctor blade device comprises: base and scraper; Described base two ends are connected with described elevating mechanism; Described base end face is located at by described scraper, and the vertical upper surface pointing to described coating base plate.

Described base is provided with a pair striker plate near the side of the feed end of described coating base plate, two pieces of striker plates are located at the two ends of described base respectively, be positioned at the top of described coating base plate, and vertical with the upper surface of described coating base plate, and described base and described baffle plate are equipped with heater.

Described elevating mechanism comprises: servomotor, worm and gear lowering or hoisting gear and connection sliding block; Described servomotor is connected with the transverse bar member of described worm and gear lowering or hoisting gear, and drives it to rotate; The end winding support of described connection sliding block side and described base, the end winding support of the longitudinal bar member of its bottom surface and described worm and gear lowering or hoisting gear; Described connection sliding block slides up and down in the slide rail that described frame side is provided with.

The end of the transverse bar member of described worm and gear lowering or hoisting gear is provided with handwheel.

Described air-dry chiller is made up of pipeline and the supply line for carried and transported patch being arranged at pipe interior; Described pipeline one end is provided with air inlet, and the other end is provided with air outlet; Described supply line is made up of several rollers.

Described expansion cloth cloth unfolding device comprises support frame and is arranged at the expansion cloth unwind roll of support frame; Described expansion cloth unwind roll is to there being two, and two described expansions roller of arranging exhibits is stacked up and down; Described cloth-rolling device is located at described support frame.

The present invention proposes a kind of automatic assembly line producing patch according to foregoing, it utilizes X-ray to detect the thickness of patch Chinese medicinal ointment, and according to the one-tenth-value thickness 1/10 detected, doctor blade device is regulated, thus the regulating and control realized the size in blade coating gap, make described automatic assembly line can the coating thickness of simpler, fast and accurate control ointment, the patch Chinese medicine layer of paste produced both had been up to state standards one-tenth-value thickness 1/10, again can not be blocked up, both ensure that the quality of patch again saved production cost.

Accompanying drawing explanation

Fig. 1 is the perspective view of an embodiment of checkout gear described in the present invention;

Fig. 2 be embodiment shown in Fig. 1 face structural representation;

Fig. 3 is reciprocating drive mechanism described in embodiment shown in Fig. 1 and described X-ray thickness detector structural representation when being assembled together;

Fig. 4 is the perspective view of an embodiment of institute's ointment coating unit in the present invention;

Fig. 5 be embodiment shown in Fig. 4 face structural representation;

Fig. 6 is the side-looking structural representation of embodiment shown in Fig. 4;

Fig. 7 is the decomposing schematic representation of embodiment shown in Fig. 4;

Fig. 8 is that in the present invention, described in an embodiment, ointment detects the control block diagram of the feedback control system of application system automatically;

Fig. 9 is the structural framing schematic diagram of one embodiment of the present of invention.

Wherein: checkout gear 10, traversing carriage 100, crossbeam 110, upper driving beam 120, lower driving beam 130, slider bar window 150, slide bar 160, X-ray thickness detector 200, transmitting terminal 210, receiving terminal 220, reciprocating drive mechanism 300, drive motors 310, driving shaft 320, driving wheel 330, driven pulley 340, annular driving band 350, ointment coating unit 20, frame 400, coating base plate 410, doctor blade device 420, base 421, scraper 422, striker plate 423, elevating mechanism 430, servomotor 431, worm and gear lowering or hoisting gear 432, transverse bar member 433, longitudinal bar member 434, connection sliding block 435, handwheel 440, air-dry chiller 30, pipeline 510, air inlet 511, air outlet 512, draw together cloth cloth unfolding device 40, support frame 521, expand cloth unwind roll 522.

Detailed description of the invention

Technical scheme of the present invention is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

As shown in Figure 9, a kind of automatic production line producing patch, is provided with ointment successively and automatically detects application system, air-dry chiller 30, expands cloth cloth unfolding device 40 and cloth-rolling device; Described ointment automatically detects application system and comprises: ointment coating unit 20 and checkout gear 10, and described ointment coating unit 20 is located at the upstream of described checkout gear; As Figure 1-3, described checkout gear 10 comprises traversing carriage 100, X-ray thickness detector 200, reciprocating drive mechanism 300 and reciprocal control system; Described traversing carriage 100 is provided with crossbeam 110; Described X-ray thickness detector 200 comprises transmitting terminal 210 and receiving terminal 220; Described transmitting terminal 210 and described receiving terminal 220 are all the time just to arranging and being provided with the detector gap of passing for patch therebetween; Described thickness detector is located at described crossbeam 110, and under described reciprocating drive mechanism 300 drives and under the control of described reciprocal control system, moves back and forth between described crossbeam 110 two ends.As shown in figs. 4-7, described ointment coating unit 20 comprises: frame 400, coating base plate 410, doctor blade device 420, elevating mechanism 430 and PC control device; Described coating base plate 410 is located at described frame 400 upper end, and described doctor blade device 420 is located at above described coating base plate 410, and and between described coating base plate 410 upper surface, be provided with the blade coating gap passed through for patch; Described elevating mechanism 430 is located at described frame 400 both sides, and is connected with the two ends of described doctor blade device 420 respectively; Described PC control device electrically connects with described X-ray thickness detector 200 and described elevating mechanism 430 respectively, makes it regulate the blade coating gap between described doctor blade device 420 bottom surface and described coating base plate 410 upper surface according to the detection signal of described X-ray thickness detector 200.

As shown in Figure 8, described ointment automatically detects application system and adopts feedback control system to carry out production control, the control principle of described feedback control system: first set an ointment thickness calibration value with reference to relevant criterion and carry out pre-manufactured in described PC control device, pre-manufactured patch is out through described X-ray thickness detector 200, the thickness of described X-ray thickness detector 200 pairs of patches detects and is transferred in described PC control device by ointment layer thickness detected value, after described PC control device receives ointment layer thickness detected value, this detected value and ointment thickness calibration value are contrasted, when ointment Thickness sensitivity value is lower than ointment thickness calibration value, described PC control device controls described elevating mechanism 430 and makes described doctor blade device 420 increase relative to the upper surface of described coating base plate 410, thus increases the thickness of patch Chinese medicine layer of paste, otherwise when ointment Thickness sensitivity value is higher than ointment thickness calibration value, described PC control device controls described elevating mechanism 430 and makes described doctor blade device 420 decline relative to the upper surface of described coating base plate 410, thus increase the thickness of patch Chinese medicine layer of paste, to have in the production process of patch such one there is detection, feedback, perform to the closed-loop control system that detects after, make the thickness all-the-time stable of the patch Chinese medicinal ointment produced in a suitable scope, make the real automatization of the production of patch, existing high efficiency, processing precision further.

Complete the patch after ointment coating processes is that patch passes from the detector gap be provided with between described transmitting terminal 210 and receiving terminal 220 in banded before not cutting; Described thickness detector adopts X-ray to detect patch, the X-ray that described transmitting terminal 210 sends can be absorbed a part by ointment through during patch, the X-ray of remainder can be received by described receiving terminal 220, and detection signal, by after ionization, amperometry, spreads out of by described thickness detector.Described reciprocal control system controls described reciprocating drive mechanism 300 and drives described thickness detector, described thickness detector can be moved back and forth on described crossbeam 110 according to default rule, thus the thickness of patch entirety more comprehensively detected, and this detection signal is spread out of.

It utilizes X-ray to detect the thickness of patch Chinese medicinal ointment, and regulate according to the height of the one-tenth-value thickness 1/10 detected to doctor blade device 420, thus the regulating and control realized the size in blade coating gap, make described automatic assembly line can the coating thickness of simpler, fast and accurate control ointment, the patch Chinese medicine layer of paste produced both had been up to state standards one-tenth-value thickness 1/10, again can not be blocked up, both ensure that the quality of patch again saved production cost.

Described traversing carriage 100 comprises driving beam 120 and the described crossbeam 110 of 130 two, lower driving beam; Described transmitting terminal 210 is located at described upper driving beam 120, and described receiving terminal 220 is right against described transmitting terminal 210 and is located at described lower driving beam 130.If adopt a crossbeam 110 to drive described transmitting terminal 210 and described receiving terminal 220, driving mechanism arranges difficulty large, because be difficult to ensure to there is stable detector gap between transmitting terminal 210 and described receiving terminal 220; And, a crossbeam 110 is adopted to drive whole described X-ray thickness detector 200 to move, when each moving direction changes, one end of described X-ray thickness detector must occur postponing to drive phenomenon due to inertia, described X-ray thickness detector 200 can be caused to occur, and local is rocked, described X-ray thickness detector 200 is even caused directly to contact with patch, damage patch.Therefore adopt upper and lower two crossbeams 110 to drive described transmitting terminal 210 and described receiving terminal 220 respectively, and solve the problem, make again described checkout gear 10 overall structure more stable, ensure that the precision of testing result.

Described reciprocating drive mechanism 300 comprises drive motors 310, driving shaft 320, driving wheel 330, driven pulley 340 and annular driving band 350; Described upper driving beam 120 and described lower driving beam 130 inside are provided with container cavity, and described container cavity sidewall is provided with slider bar window 150; Described driving shaft 320 is vertically located at the side of described traversing carriage 100, and is positioned at the two ends of described crossbeam 110; Described driving wheel 330 is located at described driving shaft 320, and described driven pulley 340 is located at described driving shaft about 320 two ends; Described annular driving band 350 is located in described container cavity, and its two ends are sheathed on the described driven pulley 340 that correspondence position is provided with respectively; Described receiving terminal 220 and described transmitting terminal 210 pass described slider bar window 150 and fix with the side of described annular driving band 350; Described drive motors 310 drives and is in transmission connection with described driving wheel 330, and drive described driving wheel 330 to rotate, and then driving described annular driving band 350 to rotate, described annular driving band 350 drives described receiving terminal 220 and described transmitting terminal 210 to move along described crossbeam 110.Described bracket side is all provided with drive motors 310, driving shaft 320, driving wheel 330 and driven pulley 340, and two of both sides correspondence position described driven pulleys 340 are by being socketed on a described annular driving band 350, and described receiving terminal 220 and described transmitting terminal 210 are fixed on annular driving band 350 again; Make described receiving terminal 220 and described transmitting terminal 210 realize under two drive motors 310 that support both sides are provided with drive jointly stable, move fast.

The bottom of described container cavity is provided with slide bar 160, and described slide bar 160 is parallel with described thickness detector motion track; The described slide bar 160 that described receiving terminal 220 and described transmitting terminal 210 are provided with correspondence position is respectively slidably connected.If do not arrange described slide bar 160, the weight of described receiving terminal 220 and described transmitting terminal 210 all can be carried on described annular driving band 350, cause annular driving band 350 sagging, even with bottom described container cavity contact, make the rotary resistance of annular driving band 350 become large even stuck; After arranging described slide bar 160, the weight of described transmitting terminal 210 and described receiving terminal 220 can be carried on described slide bar 160, and then solves the problems referred to above, makes the service behaviour of described checkout gear 10 more stable.

Described reciprocal control system is PLC control system, and it controls the positive and negative rotation situation of described drive motors 310, and then controls the situation that described thickness detector reciprocatingly moves along described crossbeam 110.Described PLC system can according to the cloth width that uses when producing patch, and the size of setting ointment thickness controls the work of described reciprocating drive mechanism 300, and then controls the situation of movement of described X-ray thickness detector 200 on crossbeam 110.

As shown in figs. 4-7, described doctor blade device 420 comprises: base 421 and scraper 422; Described base 421 two ends are connected with described elevating mechanism 430; Described base 421 bottom surface is located at by described scraper 422, and the vertical upper surface pointing to described coating base plate 410.Described base 421 is that the installation of described scraper 422 provides installation site, described elevating mechanism 430 drives described base 421 to be elevated, and then the scraper 422 driving described base 421 bottom surface to be provided with is elevated, thus play the size regulating the blade coating gap be provided with between scraper 422 and the upper surface of described coating base plate 410.

As shown in figs. 4-7, described base 421 is provided with a pair striker plate 423 near the side of the feed end of described coating base plate 410, two pieces of striker plates 423 are located at the two ends of described base 421 respectively, be positioned at the top of described coating base plate 410, and vertical with the upper surface of described coating base plate 410, described base 421 and described baffle plate are equipped with heater.When carrying out ointment coating processes, cloth is first allowed to be close to described coating base 421 upper surface through described blade coating gap, again by ointment blanking to the upper surface of cloth, ointment is kept off the upper surface at cloth by described striker plate 423 all the time, avoids ointment to spill from described coating base plate 410 both sides; Blanking is at the ointment of described coating base plate 410 upper surface, along with the prolongation of process time, the temperature meeting step-down of self, pliability and viscosity all can decline, be unfavorable for that very much ointment is coated on cloth, therefore must be heated it by described heater, the temperature of guarantee ointment self and viscosity.

As shown in figs. 4-7, described elevating mechanism 430 comprises: servomotor 431, worm and gear lowering or hoisting gear 432 and connection sliding block 435; Described servomotor 431 is connected with the transverse bar member 433 of described worm and gear lowering or hoisting gear 432, and drives it to rotate; The end winding support of described connection sliding block 435 side and described base 421, the end winding support of the longitudinal bar member 434 of its bottom surface and described worm and gear lowering or hoisting gear 432; Described connection sliding block 435 slides up and down in the slide rail that described frame 400 side is provided with.Described worm and gear lowering or hoisting gear 432 is made up of the transverse bar member 433 be vertically combined together and longitudinal bar member 434, described transverse bar member 433 is that described longitudinal bar member 434 provides good support, be described base 421 and provide stable support, described doctor blade device 420 can be stablized more and be arranged on above described coating base plate 410; Described connection sliding block 435 slides up and down along slide rail, makes the linearly lifting that energy is stable under the driving of described servomotor 431 of described doctor blade device 420, and then the adjustment making the realization of described PC control device to described doctor blade device 420 accurate, stable.

As shown in Fig. 4,6 and 7, the end of the transverse bar member 433 of described worm and gear lowering or hoisting gear 432 is provided with handwheel 440.When described servomotor 431 breaks down, not controlling servomotor 431 rotation by PC control device makes described doctor blade device 420 be elevated, when namely can not realize automatically regulating blade coating gap length, operator can according to the contrast situation of the detected value of ointment and standard value, and handwheel 440 described in hand rotation regulates the size in described blade coating gap.

Described air-dry chiller 30 is made up of pipeline 510 and the supply line for carried and transported patch being arranged at pipeline 510 inside; Described pipeline 510 one end is provided with air inlet 511, and the other end is provided with air outlet 512; Described supply line is made up of several rollers.Because ointment needs heating in coating procedure, therefore bonding when ointment has just been coated to design on fabric surface is also insecure, and the shape of ointment layer easily changes in transportation, therefore needing, described air-dry chiller 30 pairs of ointment layers are set and blows cooling, thus the ointment layer making design on fabric surface just apply bonds more firm, shape is more stable, and then improves the quality of the patch that described production line is produced.

As shown in Figure 9, described expansion cloth cloth unfolding device 40 comprises support frame 521 and is arranged at the expansion cloth unwind roll 522 of support frame 521; Described expansion cloth unwind roll 522 is to there being two, and two described expansions roller about 522 of arranging exhibits is stacked; Described cloth-rolling device (not shown in FIG.) is located at described support frame 521, and is positioned at described expansion and arranges exhibits roller 522 downstream.When patch transports out from described air-dry chiller 30 end with band shape, described cloth cloth unfolding device 40 of drawing together carries out traction transport to patch at once, patch walks around described expansion cloth unwind roll 522, described in draw together cloth unwind roll 522 and be with patch to carry out extended operation, prevent its patch from pursing up; Final patch is transported to described cloth-rolling device, and is placed by described cloth-rolling device retracting.

Below know-why of the present invention is described in conjunction with specific embodiments.These describe just in order to explain principle of the present invention, and can not be interpreted as limiting the scope of the invention by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present invention, and these modes all will fall within protection scope of the present invention.

Claims (10)

1. produce an automatic production line for patch, it is characterized in that, be provided with ointment successively and automatically detect application system, air-dry chiller, expansion cloth cloth unfolding device and cloth-rolling device;

Described ointment automatically detects application system and comprises: ointment coating unit and checkout gear, and described ointment coating unit is located at the upstream of described checkout gear;

Described checkout gear comprises traversing carriage, X-ray thickness detector, reciprocating drive mechanism and reciprocal control system; Described traversing carriage is provided with crossbeam; Described X-ray thickness detector comprises transmitting terminal and receiving terminal; Described transmitting terminal and described reception are rectified arranging and being provided with the detector gap of passing for patch therebetween; Described thickness detector is located at described crossbeam, and under described reciprocating drive mechanism drives and under the control of described reciprocal control system, moves back and forth between described crossbeam two ends;

Described ointment coating unit comprises: frame, coating base plate, doctor blade device, elevating mechanism and PC control device; Described coating base plate is located at described frame upper end, and described doctor blade device is located at above described coating base plate, and and between described coating plate upper surface, be provided with the blade coating gap passed through for patch; Described elevating mechanism is located at described frame both sides, and is connected with the two ends of described doctor blade device respectively;

Described PC control device electrically connects with described X-ray thickness detector and described elevating mechanism respectively, makes it regulate the blade coating gap between described doctor blade device bottom surface and described coating plate upper surface according to the detection signal of described X-ray thickness detector.

2. a kind of automatic assembly line producing patch according to claim 1, is characterized in that, described traversing carriage comprises driving beam and lower driving beam two described crossbeams; Described transmitting terminal is located at described upper driving beam or described lower driving beam, and described receiving terminal is right against described transmitting terminal and is located at described lower driving beam or described upper driving beam.

3. a kind of automatic assembly line producing patch according to claim 2, it is characterized in that, described reciprocating drive mechanism comprises drive motors, driving shaft, driving wheel, driven pulley and annular driving band; Described upper driving beam and described lower driving beam inside are provided with container cavity, and described container cavity sidewall is provided with slider bar window;

Described driving shaft is vertically located at the side of described traversing carriage, and is positioned at the two ends of described crossbeam; Described driving wheel is located at described driving shaft, and described driven pulley is located at the upper and lower two ends of described driving shaft; Described annular driving band is located in described container cavity, and its two ends are sheathed on the described driven pulley that correspondence position is provided with respectively; Described receiving terminal and described transmitting terminal through described slider bar window, and are fixed with the side of described annular driving band;

Described drive motors drives and is in transmission connection with described driving wheel, and drives described driving wheel to rotate, and then drives described annular driving band to rotate, and described annular driving band drives described receiving terminal and described transmitting terminal along described cross beam movement.

4. a kind of automatic assembly line producing patch according to claim 3, it is characterized in that, the bottom of described container cavity is provided with slide bar, and described slide bar is parallel with described thickness detector motion track; The described sliding bar that described receiving terminal and described transmitting terminal are provided with correspondence position is respectively connected.

5. a kind of automatic assembly line producing patch according to claim 3, it is characterized in that, described reciprocal control system is PLC control system, and it controls the positive and negative rotation situation of described drive motors, and then controls the situation that described thickness detector reciprocatingly moves along described crossbeam.

6. a kind of automatic production line producing patch according to claim 1, it is characterized in that, described doctor blade device comprises: base and scraper; Described base two ends are connected with described elevating mechanism; Described base end face is located at by described scraper, and the vertical upper surface pointing to described coating base plate.

7. a kind of automatic production line producing patch according to claim 6, it is characterized in that, described base is provided with a pair striker plate near the side of the feed end of described coating base plate, two pieces of striker plates are located at the two ends of described base respectively, be positioned at the top of described coating base plate, and vertical with the upper surface of described coating base plate, described base and described baffle plate are equipped with heater.

8. a kind of automatic production line producing patch according to claim 1, it is characterized in that, described elevating mechanism comprises: servomotor, worm and gear lowering or hoisting gear and connection sliding block; Described servomotor is connected with the transverse bar member of described worm and gear lowering or hoisting gear, and drives it to rotate; The end winding support of described connection sliding block side and described base, the end winding support of the longitudinal bar member of its bottom surface and described worm and gear lowering or hoisting gear; Described connection sliding block slides up and down in the slide rail that described frame side is provided with; The end of the transverse bar member of described worm and gear lowering or hoisting gear is provided with handwheel.

9. a kind of automatic production line producing patch according to claim 1, is characterized in that, described air-dry chiller is made up of pipeline and the supply line for carried and transported patch being arranged at pipe interior; Described pipeline one end is provided with air inlet, and the other end is provided with air outlet; Described supply line is made up of several rollers.

10. a kind of automatic production line producing patch according to claim 1, is characterized in that, described expansion cloth cloth unfolding device comprises support frame and is arranged at the expansion cloth unwind roll of support frame; Described expansion cloth unwind roll is to there being two, and two described expansions roller of arranging exhibits is stacked up and down; Described cloth-rolling device is located at described support frame.