CN207552902U - A kind of integrated road line marker of mixing spraying - Google Patents

Abstract

The utility model is related to a kind of integrated road line marker of mixing spraying, including walked frame, resin storehouse and filling container, material guide mechanism and melting output mechanism：Material guide mechanism includes the gas flow tube, resin duct and the filler conduit that are fixedly installed on walked frame, and air-flow flows the absorption output for carrying out resin and filler powder through resin duct and filler conduit respectively along gas flow tube；Melting storehouse of the melting output mechanism including being set in rack, the draining plate positioned at melting storehouse inside one end, rotation, which are set, is installed on the transmission assembly in melting orlop portion, the efferent duct being fixedly installed on outside melting storehouse and the flow generator for being set to progress coating output in the efferent duct；The importing of resin and filler powder is carried out by air-flow and is uniformly mixed, it carries out being oriented to first mixing with inclined plate, secondary mixing while conveying again through transmission assembly, then high pressure painting is carried out with air-flow, solve the technical issues of solution in the prior art mixes uneven and wastage of material.

Description

A kind of integrated road line marker of mixing spraying

Technical field

The utility model belongs to town road apparatus field more particularly to a kind of integrated road line marker of mixing spraying.

Background technology

Lines on road surface is an important process in road construction later stage, and existing pen machine is mostly to be contained in after coating is mixed On pen machine, then scribed line machine carries out lines on road surface in a manner of spraying or smear, it is generally known that, after solution mixing, then carry out Transfer, solution is in static condition in transfer process, the problem of being unfavorable for solution uniformity such as easily occurs precipitating and be layered, together When, due to the solution being pre-mixed after melting, there are residue problems, surplus solution after scribing line to preserve for a long time, so as to It causes to waste.

Resin is sprayed at road surface through long oxidation and the sun mostly using different army diene Petropols as raw material in the prior art There are discoloration problems for irradiation.

To overcome the problems, such as oxidation stain, antioxidant kind and dosage are screened, and pass through Experimental comparison, select antioxidant 300 It is most suitable, while in resin components, add modified rosin resin, by abovementioned technology, effectively improve film forming group The high-temperature thermal oxidation discoloration problem of part；Filler powder selects purity calcium carbonate, and technology requirement purity reaches 99.5% or so, and The flour sand Combination filler of stringent grading is specially processed into, experiment proves that it is exposed to the sun for many years in the sun without metachromatism.

Utility model content

The purpose of this utility model is in view of the deficiencies of the prior art, to provide a kind of integrated lines on road surface of mixing spraying Machine is carried out the importing of resin and filler powder by air-flow and uniformly mixed, carried out being oriented to first mixing, then through transmission group with inclined plate Secondary mixing while part conveys, then high pressure painting is carried out with air-flow, solve solution in the prior art mixing it is uneven with And the technical issues of wastage of material.

It is used in the utility model for resin

A kind of integrated road line marker of mixing spraying including walked frame, is respectively fixedly installed on the walked frame Resin storehouse and filling container, further include：

Material guide mechanism, the material guide mechanism are set in the rack, including being fixedly installed on the walked frame Gas flow tube, the connection resin storehouse and the gas flow tube resin duct and connect the filler of the filling container and gas flow tube and lead Pipe, the absorption that air-flow carries out resin and filler powder along gas flow tube flowing through the resin duct and filler conduit respectively are defeated Go out；And

Output mechanism is melted, the melting output mechanism is located at the lower section of the material guide mechanism, described including being set to Melting storehouse in rack, the draining plate positioned at melting storehouse inside one end, rotation set the transmission for being installed on the melting orlop portion Component, the efferent duct being fixedly installed on outside the melting storehouse and the air-flow hair for being set to progress coating output in the efferent duct Raw device；

Resin and filler powder are delivered in melting storehouse by the air-flow in gas flow tube through resin duct and filler conduit respectively； In dropping process, filler powder is distributed in resin particle periphery, melts resin particle through being located at the hot melt portion in the melting storehouse, The liquid resin unit that outside is covered with filler powder is formed, which, which falls within, carries out mixed once on the draining plate Afterwards, the melting orlop portion is fallen within through its water conservancy diversion, traveling wheel of the transmission assembly through being rotatablely installed in the walked frame bottom drives It is dynamic carry out the secondary mixing of coating after, in quantitative transmission coating to the efferent duct, by the flow generator into line output valve Portion is pressurized, and coating of the inside is sprayed.

As an improvement, the gas flow tube is vertically set, including being fixedly installed on its inside and being located at institute respectively State the first air-flow accelerator card and the second air-flow accelerator card above resin duct and filler conduit.

Wherein, the first air-flow accelerator card and the second air-flow accelerator card extend and angled along air current flow direction Setting.

In addition, the resin duct is set to the top of the filler conduit.

As an improvement, the draining plate is obliquely installed inside the melting storehouse, and positioned at the underface of the gas flow tube.

As an improvement, the bottom in the melting storehouse is set for semicircular structure.

As a preferred embodiment, the transmission assembly is the transmission axle of isometric helix structure setting, which melts with described Melt the bottom cooperation installation in storehouse.

As an improvement, the efferent duct includes being opened in inside the top of the flow generator and the connection melting storehouse Airflow orifice, the flow generator transmit after being detached in the air-flow in the melting storehouse through airflow orifice pressurization is backward lower.

As an improvement, the melting output mechanism further includes the spray for being removably installed on the output bottom of the tube Mouth, the discharge port of the nozzle are set in strip shape gob.

Wherein, between the area s of the discharge port and the cross-sectional area S of the efferent duct, s ＜ S.

The beneficial effects of the utility model：

(1) air-flow is flowed respectively along the gas flow tube through the resin duct and the progress of filler conduit in the utility model The absorption output of resin and filler powder, resin particle is wandered with filler powder in dispersed along gas flow tube, during wandering, resin Grain is distributed in inside numerous filler powder, realizes that resin is mixed with the first of filler powder, after being heated at high temperature through hot melt portion, resin melting It is contacted with filler powder around and to form liquid resin unit and fall on draining plate, resin melt is due to percussion, with top and bottom cloth The flat state of full filler powder is flowed along draining plate, and in flow process, resin liquid is further sufficiently mixed with filler powder, most afterwards through setting It quantitatively exports while being placed in the transmission assembly Stirring mixing in melting orlop portion, is mixed through multiple resin and the abundant of filler powder The mixing uniformity for improving the two is closed, synchronizes and is sprayed, while improving pavement strip quality, improves operating efficiency；

(2) efferent duct is connected by airflow orifice with melting storehouse in the utility model, and the hot melt portion in storehouse that melts generates high Temperature carries out resin thawing, and heat is driven by air-flow to be entered in efferent duct through airflow orifice, through flow generator into line output valve Pressure increases so as to spray coating, carries out coating spraying to melt the supercharging of the thermal current in storehouse, heat protects coating While improving paint stability, the heat melted in storehouse is used, has energy-saving and environment-friendly effect for temperature processing；

(3) nozzle is set for strip shape gob in the utility model, and the cross section of the area S of discharge port and efferent duct coating Between product S, s ＜ S are transmitted to through transmission assembly in efferent duct, and transmission quantity is more than quantity for spray, and coating forms wink in discharge outlet When sealing state, with reference to the effect of flow generator, so as to increase the pressure in efferent duct, carry out coating spraying；Nozzle with Detachable setting realizes spraying different size roadmarking by replacing nozzle specification, improves the scope of application of the utility model；

In conclusion the utility model is simple in structure, coating is uniformly mixed, energy-saving consumption-reducing, and use scope is extensive, is conducive to It promotes.

Description of the drawings

It is required in being described below to embodiment for the clearer technical solution for illustrating the utility model embodiment The attached drawing used is briefly described, it should be apparent that, drawings discussed below is only some embodiments of the utility model, For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings Obtain other accompanying drawings.

Fig. 1 integrally ties schematic diagram for the utility model；

Fig. 2 is the utility model side view；

Fig. 3 is the utility model side view cutaway drawing；

Fig. 4 is A-A sectional views in Fig. 2；

Fig. 5 is melting output mechanism section view enlarged diagram；

Fig. 6 is liquid resin unit enlarged structure schematic diagram；

Fig. 7 is the liquid resin unit enlarged structure schematic diagram on draining plate；

Fig. 8 is enlarged diagram at B in Fig. 3；

Fig. 9 is melting output mechanism structure diagram in embodiment three；

Figure 10 is nozzle arrangements schematic diagram；

Figure 11 is nozzle and efferent duct schematic top plan view.

Specific embodiment

The technical scheme in the embodiment of the utility model is clearly and completely illustrated below in conjunction with the accompanying drawings.

Embodiment one

As shown in Fig. 1,2,3,4 and 5, a kind of integrated road line marker of mixing spraying including walked frame 1, is fixed respectively The resin storehouse 2 and filling container 3 being installed on the walked frame 1 further include material guide mechanism 4 and melting output mechanism 5, the guide Mechanism 4 is set in the rack 1, including be fixedly installed on the walked frame 1 gas flow tube 41, the connection resin The resin duct 42 of storehouse 2 and the gas flow tube 41 and the filler conduit 43 for connecting the filling container 3 and gas flow tube 41, air-flow is along institute It states gas flow tube 41 and flows the absorption output for carrying out resin and filler powder through the resin duct 42 and filler conduit 43 respectively；It is described Melting output mechanism 5 is located at the lower section of the material guide mechanism 4, including be set in the rack 1 melting storehouse 51, positioned at this Melt the draining plate 52 of 51 inside one end of storehouse, rotation sets the transmission assembly 53 for being installed on melting 51 bottom of storehouse, fixed setting In the efferent duct 54 melted outside storehouse 51 and it is set to the interior flow generator 55 for carrying out coating output of the efferent duct 54； Resin and filler powder are delivered in melting storehouse 51 by the air-flow in gas flow tube 41 through resin duct 42 and filler conduit 43 respectively； In dropping process, filler powder is distributed in resin particle periphery, through being located at the hot melt portion 56 in the melting storehouse 51 by resin particle Melting forms the liquid resin unit 57 that outside is covered with filler powder, and it is enterprising which falls within the draining plate 52 After row mixed once, melting 51 bottom of storehouse is fallen within through its water conservancy diversion, transmission assembly 53 is through being rotatablely installed in the walked frame 1 After the driving of traveling wheel 11 of bottom carries out the secondary mixing of coating, in quantitative transmission coating to the efferent duct 54, by the air-flow Generator 55 sprays coating of the inside into 54 internal pressurization of line output valve.

Embodiment two

Utility model people thinks, preferably to implement the technical solution, by necessary further clear and definite embodiment, therefore in fact The description of embodiment two is carried out on the basis of embodiment one with novel people.

As shown in Fig. 1,2,3,4 and 5, a kind of integrated road line marker of mixing spraying including walked frame 1, is fixed respectively The resin storehouse 2 and filling container 3 being installed on the walked frame 1, further include：

Material guide mechanism 4, the material guide mechanism 4 is set in the rack 1, including being fixedly installed on the walked frame Gas flow tube 41 on 1, the connection resin storehouse 2 and the gas flow tube 41 resin duct 42 and connect the filling container 3 and gas The filler conduit 43 of flow tube 41, air-flow is flowed along the gas flow tube 41 to carry out respectively through the resin duct 42 and filler conduit 43 The absorption output of resin and filler powder；And

Output mechanism 5 is melted, the melting output mechanism 5 is located at the lower section of the material guide mechanism 4, including being set to State the melting storehouse 51 in rack 1, positioned at the 51 inside one end of melting storehouse draining plate 52, rotation set be installed on it is described melting storehouse 51 The transmission assembly 53 of bottom, the efferent duct 54 being fixedly installed on outside the melting storehouse 51 and be set to the efferent duct 54 it is interior into The flow generator 55 of row coating output；

Resin and filler powder are delivered to melting by the air-flow in gas flow tube 41 through resin duct 42 and filler conduit 43 respectively In storehouse 51；In dropping process, filler powder is distributed in resin particle periphery, and the hot melt portion 56 through being located in the melting storehouse 51 will Resin particle melts, and forms the liquid resin unit 57 that outside is covered with filler powder, which falls within the drain After carrying out mixed once on plate 52, melting 51 bottom of storehouse is fallen within through its water conservancy diversion, transmission assembly 53 is through being rotatablely installed in described After the driving of traveling wheel 11 of 1 bottom of walked frame carries out the secondary mixing of coating, in quantitative transmission coating to the efferent duct 54, by The flow generator 55 sprays coating of the inside into 54 internal pressurization of line output valve.

It should be noted that as shown in Fig. 3,4,5,6 and 7, air-flow is flowed respectively along the gas flow tube 41 through the resin Conduit 42 and filler conduit 43 carry out the absorption output of resin and filler powder, and resin particle and filler powder are in dispersed along gas flow tube It wanders, during wandering, resin particle is distributed in inside numerous filler powder, realizes that resin is mixed with the first of filler powder, through heat After molten portion 56 is heated at high temperature, resin melting and contact to form liquid resin unit 57 and fall on draining plate 52 with filler powder around, Due to percussion, the flat state that filler powder is covered with top and bottom flows resin melt along draining plate 52, in flow process, resin Liquid is further sufficiently mixed with filler powder, and last configured 53 Stirring of transmission assembly in melting 51 bottom of storehouse mixes same Shi Dingliang is exported, and the mixing uniformity for being sufficiently mixed both raisings through multiple resin and filler powder is synchronized and sprayed, improved While pavement strip quality, operating efficiency is improved.

Further, as shown in Figures 2 and 8, the gas flow tube 41 is vertically set, including being fixedly installed in the inner Portion and the first air-flow accelerator card 411 and the second air-flow accelerator card for being located at 43 top of the resin duct 42 and filler conduit respectively 412；Along the gas flow tube 41, quick flowing reduces air-flow through the first air-flow accelerator card 411, circulation passage from top to down, Air-flow velocity is accelerated, so as to form negative pressuren zone, the negative pressuren zone and the resin duct in the inside of the first air-flow accelerator card 411 42 connections, the absorption that resin is carried out with negative pressure import；The input mode of filler powder is identical with resin input mode, does not do herein superfluous It states.

Wherein, as shown in Figures 2 and 8, the first air-flow accelerator card 411 and the second air-flow accelerator card 412 are along air-flow Flow direction extends and angled setting, the first air-flow accelerator card 411 and the second air-flow accelerator card 412 are set as with angle A kind of preferred embodiment of the present embodiment, air-flow is in quick flow process through the first air-flow along the angled setting in its flow direction 411 and second air-flow accelerator card 412 of accelerator card is oriented to, being capable of quick shape on the inside of both while reduction to gas-flow resistance Into negative pressuren zone.

In addition, as shown in Figures 2 and 8, the resin duct 42 is set to the top of the filler conduit 43, resin and filler Powder is imported through the resin duct 42 and filler conduit 43 in gas flow tube 41 respectively, and is wandered downwards along its inside, and resin is piece Shape or graininess exist big after resin duct 42 enters gas flow tube 41, between each resin sheet or resin particle Quantity space, when flowing through filler conduit 43, resin is flowed out along filler conduit 43, into the sky between resin sheet or resin particle Between, commercial resin is made to be distributed mass filler powder, realizes that resin is mixed with the importing of filler powder.

Further, as shown in Fig. 5,6 and 7, the draining plate 52 is obliquely installed inside the melting storehouse 51, and is located at The underface of the gas flow tube 41, the mixture of resin and filler powder enter melting storehouse 51 through gas flow tube 41, in its lower process In, high-temperature fusion is carried out through hot melt portion 56, resin is made to liquefy to form resin liquid drop, resin is attached to positioned at surrounding filler powder The surface of drop, the resin liquid drop are the sub-fraction in entire coating mixed process, are defined as liquid resin unit 57, the liquid State resin unit 57 is fallen on the draining plate 52 being obliquely installed, and liquid resin is because of the reaction force of draining plate 52, liquid resin list Member 57 in it is flat along the guide plate flow, liquid resin by drop-wise variation for it is flat when, resin liquid is spread around, with The contact area increase of filler powder, makes resin liquid further be come into full contact with filler powder, improves the mixing of resin and filler powder Uniformity, in the present embodiment, as a preferred embodiment, the angled manner of the draining plate 52 is flowed for liquid resin unit 57 along it Dynamic direction is identical with the transmission direction of the transmission assembly 53.

Embodiment three

As shown in figure 9, identical wherein with embodiment two or corresponding component uses and two corresponding attached drawing mark of embodiment Note, for simplicity, hereafter only description and the distinctive points of embodiment two；The difference of the embodiment three and embodiment two exists In：The draining plate 52 is obliquely installed inside the melting storehouse 51, and the inclined direction of draining plate 52 is liquid resin unit 57 Along the transmission direction of the direction of its transmission and the transmission assembly 53 on the contrary, the liquid resin unit 57 is through the transmission assembly 53 transmit separate, the delivery outlet position of coating, so as to increase transmission time of the transmission assembly 53 to coating, improve resin and filler Powder is stirred the time, improves its mixing uniformity.

Further, as shown in figure 3, the bottom in the melting storehouse 51 is semicircular structure setting, institute in the present embodiment Melting storehouse 51 is stated in bucket-shaped setting, during the work time, with gradually decreasing for coating, melting 51 semicircular in shape of storehouse is set It puts, minimum point is linear arrangement, substantially reduces coating in the remaining quantity in the melting storehouse 51, improves utilization efficiency of coatings, subtract Little waste reduces cost, while is matched with the transmission assembly 53, improves production efficiency.

Further, as shown in Figures 4 and 5, transmission axle of the transmission assembly 53 for isometric helix structure setting, the transmission Axis and the bottom cooperation in the melting storehouse 51 are installed；In the present embodiment, the transmission assembly 53 is melted with rotating manner 51 inside courtyard of storehouse stirring conveying, structure be preferably in isometric helix setting transmission axle, the outer circumference surface of the transmission axle with The bottom contact setting in the melting storehouse 51, while being helically oriented conveying with transmission axle upper groove progress coating, carries out coating Stirring, uniform pitch setting and with melting 51 bottom of storehouse contact setting, improve the dosing accuracy in its coating transmission process, carry Lines coating uniformity of the pen machine in scratching process.

Further, as shown in figure 5, the efferent duct 54 includes being opened in top and the connection of the flow generator 55 Airflow orifice 541 inside the melting storehouse 51, after the flow generator 55 detaches the air-flow in the melting storehouse 51 It is transmitted under pressurizeing backward through airflow orifice 541；After air-flow conveying resin enters melting storehouse 51 with filler powder, heated through hot melt portion 56, The flow generator 55 is rotated adsorbs thermal current inside melting storehouse 51 along the efferent duct 51 to dirty through airflow orifice 541 It is dynamic.

It should be noted that as shown in figure 5, efferent duct 54 by airflow orifice 541 with melting storehouse 51 be connected, melt storehouse 51 Interior hot melt portion 56 generates high temperature and carries out resin thawing, and heat is driven by air-flow to be entered through airflow orifice 541 in efferent duct 54, through gas 55 continuous air stream transportation of flow-generator increases air pressure in efferent duct 54, so as to carry out the spraying of coating scribing line, to melt storehouse 51 Interior thermal current supercharging carries out coating spraying, and heat carries out isothermal holding to coating, will be molten while improving paint stability The heat melted in storehouse 51 is used, and has energy-saving and environment-friendly effect.

Further, as shown in figs. 5 and 10, the melting output mechanism 5 further include removably be installed on it is described The nozzle 58 of 54 bottom of efferent duct, the discharge port 581 of the nozzle 58 are set in strip shape gob, it is well known that the road road sign on road Line is mostly formed with the lines with one fixed width, and paint thickness is small, therefore sets the nozzle 58 in strip shape gob, discharge port 581 is identical with graticule line thickness, in graticule spraying, is carried out continuously linear movement with standard coating content, it can be achieved that disposable Spraying operation improves the scribing line efficiency of graticule.

Wherein, as shown in figure 11, the cross-sectional area S of the area s of the discharge port 581 and 54 discharge end of efferent duct it Between, s ＜ S, discharge port 581 is less than efferent duct 54, remains that discharge port 581 is sealed with coating, internal to can be achieved to keep steady Fixed pressure space, so that coating is sprayed with relatively stable quantity for spray along discharge port 581.

It should be noted that as shown in figures 5 and 11, discharge port 581 is strip shape gob setting, and the area S of discharge port 581 with Between the cross-sectional area S of efferent duct 54, s ＜ S are transmitted to through transmission assembly 53 in efferent duct, and transmission quantity is more than quantity for spray, are applied Expect to form instantaneous sealing state at discharge port 581, with reference to the effect of flow generator 55, so as to make the pressure in efferent duct 54 Increase carries out coating spraying；Nozzle 58 realizes spraying different size road road sign detachably to set, by replacing 58 specification of nozzle Line improves the scope of application of the utility model.

In the utility model, it is to be understood that：Term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time The orientation or position relationship of the instructions such as needle ", " counterclockwise " are based on orientation shown in the drawings or position relationship, merely to just In description the utility model and simplified description rather than instruction or imply signified equipment or the specific side that element must have Position, with specific azimuth configuration and operation, therefore it is not intended that limitation to the utility model.

In addition, term " first ", " second " are only used for description purpose, and it is not intended that instruction or implying opposite important Property or the implicit quantity for indicating indicated technical characteristic.Therefore, define " first ", the feature of " second " can be expressed or Person implicitly includes one or more this feature.In the description of the utility model, " multiple " are meant that two or two More than a, unless otherwise specifically defined.

The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not This is confined to, the variation that any one skilled in the art can readily occur under the technical clarification of the utility model Or replace, the importing of resin and filler powder is such as carried out by air-flow and uniformly mix, it carries out being oriented to first mixing, then pass through with inclined plate Secondary mixing while transmission assembly conveys, then the design concept with air-flow progress high pressure painting, should all cover new in this practicality Within the protection domain of type.Therefore, the scope of protection of the utility model should be subject to the protection domain of claims.

Claims (10)

1. a kind of integrated road line marker of mixing spraying, including walked frame (1), is fixedly installed in the walked frame (1) respectively On resin storehouse (2) and filling container (3), which is characterized in that further include：

Material guide mechanism (4), the material guide mechanism (4) is set in the rack (1), including being fixedly installed on the vehicle with walking machine Gas flow tube (41) on frame (1), the resin duct (42) of the connection resin storehouse (2) and the gas flow tube (41) and described in connecting Filling container (3) and the filler conduit (43) of gas flow tube (41), air-flow are led along the gas flow tube (41) flowing through the resin respectively It manages (42) and filler conduit (43) carries out the absorption output of resin and filler powder；And

Output mechanism (5) is melted, the melting output mechanism (5) is positioned at the lower section of the material guide mechanism (4), including being set to Melting storehouse (51) on the rack (1), the draining plate (52) positioned at the internal one end in the melting storehouse (51), rotational installation are in described It melts the transmission assembly (53) of storehouse (51) bottom, be fixedly installed on the external efferent duct (54) of melting storehouse (51) and setting In the flow generator (55) that coating output is carried out in the efferent duct (54)；

Resin and filler powder are delivered to molten by the air-flow in gas flow tube (41) through resin duct (42) and filler conduit (43) respectively Melt in storehouse (51)；In dropping process, filler powder is distributed in resin particle periphery, through being located at the hot melt in melting storehouse (51) Portion (56) melts resin particle, forms the liquid resin unit (57) that outside is covered with filler powder, the liquid resin unit (57) It falls within after carrying out mixed once on the draining plate (52), described melting storehouse (51) bottom, transmission assembly is fallen within through its water conservancy diversion (53) it is quantitative to pass after being rotatablely installed traveling wheel (11) driving in the walked frame (1) bottom and carrying out the secondary mixing of coating In defeated coating to the efferent duct (54), by the flow generator (55) into line output valve (54) internal pressurization, it will be in Internal coating sprays.

A kind of 2. integrated road line marker of mixing spraying according to claim 1, which is characterized in that the gas flow tube (41) It vertically sets, including being fixedly installed on its inside and being located at the resin duct (42) and filler conduit (43) respectively The the first air-flow accelerator card (411) and the second air-flow accelerator card (412) of top.

3. a kind of integrated road line marker of mixing spraying according to claim 2, which is characterized in that first air-flow adds Fast plate (411) and the second air-flow accelerator card (412) extend along air current flow direction and angled setting.

A kind of 4. integrated road line marker of mixing spraying according to claim 1, which is characterized in that the resin duct (42) it is set to the top of the filler conduit (43).

A kind of 5. integrated road line marker of mixing spraying according to claim 1, which is characterized in that the draining plate (52) It is obliquely installed in melting storehouse (51) inside, and positioned at the underface of the gas flow tube (41).

A kind of 6. integrated road line marker of mixing spraying according to claim 1, which is characterized in that melting storehouse (51) Bottom be semicircular structure setting.

A kind of 7. integrated road line marker of mixing spraying according to claim 6, which is characterized in that the transmission assembly (53) it is the transmission axle of isometric helix structure setting, the transmission axle and the bottom cooperation of melting storehouse (51) are installed.

A kind of 8. integrated road line marker of mixing spraying according to claim 1, which is characterized in that the efferent duct (54) It is described including the internal airflow orifice (541) of top and connection melting storehouse (51) for being opened in the flow generator (55) Flow generator (55) transmits after the air-flow in melting storehouse (51) is detached through airflow orifice (541) pressurization is lower backward.

A kind of 9. integrated road line marker of mixing spraying according to claim 1, which is characterized in that the melting output machine Structure (5) further includes the nozzle (58) for being removably installed on the efferent duct (54) bottom, the discharge port of the nozzle (58) (581) it is set in strip shape gob.

A kind of 10. integrated road line marker of mixing spraying according to claim 9, which is characterized in that the discharge port (581) between area s and the cross-sectional area S of the efferent duct (54), s ＜ S.